When the structure is connected
The abutting structure with a movable abutting portion and locking mechanism addresses the challenge of smooth object combination and position limiting, providing precise and secure interlocking solutions.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- DTECH PRECISION INDS
- Filing Date
- 2025-08-26
- Publication Date
- 2026-06-18
AI Technical Summary
Existing abutting and position-limiting structures lack the ability to smoothly combine and position-limit objects without a corresponding abutting structure.
An abutting structure comprising a main body, abutting portion, and locking portion, where the abutting portion is movably mounted and can interlock with the locking portion to achieve smooth abutting and position limiting, utilizing an elastic assembly and installation portions for precise positioning and movement control.
Enables smooth and precise abutting and position limiting of objects through interlocking mechanisms, allowing for elastic adjustments and secure locking, applicable to various objects and structures.
Smart Images

Figure 2026099729000001_ABST
Abstract
Description
Technical Field
[0001] The present invention relates to an abutting structure, and particularly to an abutting structure capable of achieving the effect of abutting and position limiting by interlocking a locking portion with an abutting portion, and an abutting method thereof.
Background Art
[0002] When combining or position-limiting general objects, since there is no corresponding abutting structure, it is impossible to smoothly perform the abutting and position-limiting of the objects.
Summary of the Invention
[0003] In view of the above prior art, the inventor has developed an abutting structure capable of achieving the purpose of abutting and position limiting.
[0004] An object of the present invention is to perform movement and abutting / position limiting more smoothly by means of an abutting structure and an abutting method thereof.
[0005] To achieve the above object and other objects, the present invention provides an abutting structure including a main body portion, at least one abutting portion, and a locking portion. The abutting portion is movably provided on the main body portion. The abutting portion abuts against the locking portion, or controls or interlocks the movement or locking of the locking portion. Alternatively, the installation portion is a hole portion, a tank portion, a groove portion or a space.
[0006] In the above abutting structure, the main body portion is connected to an object, and the abutting portion abuts against an abutting object in order to perform abutting position correction, movement, elastic position correction, elastic movement, position limiting or elastic position limiting on the object.
[0007] In the above abutting structure, one end of the elastic assembly abuts against the main body portion, and the other end of the elastic assembly abuts against a stopper portion connected to the abutting portion.
[0008] In the above-described contact structure, the main body is provided with a connecting portion, which is connected to an object by riveting, expansion connection, welding, locking, or is integrally molded with the object.
[0009] In the above-described contact structure, the contact portion is provided with a joint portion, and the joint portion is connected to the main body portion.
[0010] In the above-described contact structure, the number of contact parts is two or more, and each contact part is provided on both sides, both ends, or at different positions on the object, and contacts the object to be contacted.
[0011] In the above-described contact structure, the main body is provided with a position limiting portion, which restricts the movable combination of the contact portion and the main body, or, after the position limiting portion has deformed, restricts the contact portion and the main body.
[0012] In the above-described contact structure, the contact portion and the main body portion are provided with a position limiting portion for combining them.
[0013] In the above-described contact structure, the contact portion is located either to the side of the main body or to the side of the object.
[0014] In the above-described contact structure, the contact structure, or the module formed by combining the contact structure and the object to be contacted, is a handle, rail, slider, moving object, rod, rotating body, heat sink, housing, printed circuit board, or expandable structure, and the object to be contacted is a handle, rail, slider, moving object, rod, rotating body, heat sink, wheeled body, rail body, column body, tip, locking body, handle body, flow path, fluid barrier, spoiler, heat sink, holder body, wire bundle, pipe bundle, optical fiber bundle, wire body, pipe, optical fiber, elastic body, housing, printed circuit board, or expandable structure.
[0015] In the above-described contact structure, the contact structure is provided with a rotation prevention part, and the rotation prevention part and the corresponding rotation prevention part provided on the object prevent each other from rotating, restrict their position, or restrict the direction of the object. Furthermore, the main body of the contact structure is provided with a connecting part and a rotation prevention part, and the connecting part is combined with the object, and the rotation prevention part and the corresponding rotation prevention part provided on the object prevent each other from rotating, restrict their position, or restrict the direction of the object.
[0016] In the above-described contact structure, the main body is welded to the object, riveted, expanded, locked, or integrally molded.
[0017] In the above-described contact structure, the main body has an installation portion through which the locking portion passes to reach the installation position. Furthermore, the contact portion may be attached to or drilled into the main body, and the locking portion may be controlled by the contact portion.
[0018] In the above-described contact structure, the main body has an installation portion through which the locking portion passes to reach the installation position. Alternatively, a combination portion may be combined with the main body, and the combination portion may be the contact portion for contacting the locking portion, the contact portion may contact the locking portion, the contact portion may move to control the movement or locking of the locking portion, the combination portion and the contact portion may be combined by another combination portion, the other combination portion may move to control the movement or locking of the locking portion, and the contact portion may move in conjunction with the other combination portion to control the movement or locking of the locking portion. The locking portion may also be a sphere, an inclined surface, an inclined surface in one direction, a column, or a locking body. The installation portion may be a through hole, a moving space or tank portion, an inclined surface, a stepped portion, an arcuate surface portion, a right-angle portion, or a non-right-angle portion. The contact portion may be another locking portion, and the combination portion may be another locking portion. Furthermore, the contact portion may also be the locking portion, and the combination portion may also be the locking portion. The contact portion may be integrally molded with the combination portion, may be connected to the combination portion, or may even be the combination portion itself. The locking portion may reach the installation position by free fall, or may reach the installation position with the assistance of a tool or magnetic tool.
[0019] The above-described contact structure further includes a combination part that is combined with the main body. The combination part may be another locking part, and the combination part may be combined with the contact part by another combination part. The combination part may also move to control the movement or locking of the other locking part, and the contact part may move in conjunction with the combination part to control the movement or locking of the other locking part. The combination part may also penetrate the main body and be combined with the contact part by the other combination part, or it may penetrate the main body and the elastic assembly and be combined with the contact part by the other combination part.
[0020] In the above-described contact structure, the contact portion has a position limiting portion and an opening portion that limit the restricted position of the locking portion or the open position of the locking portion by rotation. The elastic assembly is a torsion spring or a torsion elastic body and is interlocked to keep the contact portion in a position that restricts the locking portion or a position that opens the locking portion at all times. The locking portion may be a sphere, an inclined surface, an inclined surface in one direction, a column, or a locking body. Both ends of the elastic assembly may be position-limited to the main body portion and the contact portion, respectively. The main body portion or the contact portion may have a limiting portion that limits the rotation angle of the contact portion. The position limiting portion or the opening portion may be an arcuate surface, an inclined surface, a sphere, a groove, a hole, a plane, a recess, or a convex portion.
[0021] In the above-described contact structure, the main body has an installation portion through which the locking portion passes to reach the installation position.
[0022] In the above contact structure, the contact portion contacts the locking portion. The main body portion has an installation portion, a position limiting portion, and a lifting portion, the position limiting portion restricts the contact portion. The contact portion moves vertically so that the locking portion reaches the installation position of the installation portion. The lifting portion contacts the contact portion after rotation.
[0023] The above contact structure further includes an elastic assembly. The contact portion contacts the locking portion. The main body is provided with a position limiting portion, and the contact portion may move in the vertical or rotational direction to elastically limit or release the elastic assembly from the position limiting portion. Alternatively, the contact portion may be used to interlock the locking portion and bring it to the installation position. The contact portion may also have an opening, and the rotation of the opening may limit the restricted position or the open position of the locking portion.
[0024] In the above-described contact structure, the contact portion contacts the locking portion, the main body, the contact portion, and the elastic assembly are integrally molded, and the main body is provided with an installation portion and a position limiting portion. The contact portion may move in the vertical or rotational direction to elastically limit or release the elastic assembly from the position limiting portion. Alternatively, the contact portion may be used to interlock the locking portion to reach the installation position of the installation portion. Furthermore, the contact portion may have an opening portion, and by limiting the restricted position or the open position of the locking portion by the rotation of the opening portion, the locking portion can perform the necessary position restriction or release in cooperation with the opening portion.
[0025] In the above-described contact structure, the main body is provided with an installation portion, and after the locking portion passes through the installation portion and reaches the installation position, the contact portion is brought into contact with the locking portion. The installation position is either a position opposite the installation portion, a position reachable by free fall, or a position reachable by free fall after the locking portion passes through the installation portion.
[0026] The above contact structure further includes another locking portion. The main body portion has an installation portion through which the locking portion passes to reach the installation position, and the contact portion is combined with the other locking portion by a combination portion, thereby controlling the movement or locking of the locking portion by the movement of the contact portion.
[0027] In the above-described contact structure, the main body has an installation portion through which the locking portion passes to reach the installation position, the contact portion may be combined with another locking portion by a combination portion, and the movement of the contact portion may control or interlock the movement or locking of the locking portion. Furthermore, the main body is provided with an installation portion, and after the locking portion passes through the installation portion to reach the installation position, the contact portion may be provided on the main body, or it may pass through the main body and come into contact with the locking portion.
[0028] In the above abutting structure, a rotating part is provided on the main body part, and a corresponding rotating part is provided on the abutting part. Further, the abutting part may be rotated to cooperate the rotating part with the corresponding rotating part, or the movement of the locking part may be controlled in a spiral manner by the abutting part or another locking part.
[0029] In the above abutting structure, it further includes another locking part that abuts against the locking part. A rotating part is provided on the main body part, and a corresponding rotating part is provided on the abutting part. By rotating the abutting part to cooperate the rotating part with the corresponding rotating part, the movement of the locking part is controlled in a spiral manner by the another locking part.
[0030] In the above abutting structure, the main body part, the abutting part and the elastic assembly are integrally formed. The elastic assembly elastically deforms and engages with the position limiting part of the main body part to limit the position of the abutting part, or to avoid the corresponding rotating part of the abutting part from disengaging or loosening from the rotating part.
[0031] In the above abutting structure, a handle part is provided on the main body part. The main body part is provided on an object, and the locking part is locked to another object. Further, the locking part is a sphere, an external locking body, a threaded body, a column body, an elastic locking body, an internal locking body, an inclined plane body or a curved surface body. A heat radiator is connected to the object or the another object, and the heat radiator dissipates heat from a heating body. The object or the another object is a motherboard, metal, plastic, server, transistor, connector, rail, rack, cabinet, liquid cooling pipe or liquid cooling joint.
[0032] In the above-described contact structure, the main body is provided with an installation portion for allowing the locking portion to enter or reach the installation position or locking position, the installation portion being located on the side, above, or below the main body, and the locking portion may be allowed to enter the main body from the installation portion, and the contact portion may be brought into contact with the locking portion. Alternatively, the contact portion may open and close the locking portion, or an elastic assembly may be attached to the main body and brought into contact with the contact portion, or an elastic assembly may be attached to the main body and brought into contact with the main body and the contact portion. The contact portion may also have a guide portion for guiding the movement of the locking portion, and the guide portion may be an inclined surface, a curved surface, an arc surface, a step, a recess, a convex portion, or a flat surface. The contact portion may also have a position limiting portion for limiting the position of the locking portion or its position after movement. The number of locking portions may be one, two, or more, and the locking portions pass through the installation portion in a free-fall manner to reach the installation position.
[0033] In the above-described contact structure, the locking portion is an external locking body, a screw body, a columnar body, an elastic locking body, an internal locking body, an inclined body, or a curved body.
[0034] In the above-described contact structure, the main body is provided with at least one locking portion, and the main body is connected to the side of an object by the locking portion.
[0035] In the above-described contact structure, the main body is provided with an installation portion for inserting or reaching the locking portion into the installation position or locking position, and the installation portion is provided on the side, above, or below the main body. The locking portion may be inserted into the main body from the installation portion, or it may be inserted into the installation position or locking position and the contact portion may be brought into contact with the locking portion. The contact portion may also be used to open and close the locking portion. An elastic assembly may be attached to the main body and brought into contact with the contact portion, or brought into contact with the main body and the contact portion. The contact portion has a guide portion for guiding the movement of the locking portion, and the guide portion may be an inclined surface, a curved surface, an arc surface, a step, a recess, a convex portion, or a flat surface. Furthermore, the contact portion has a position limiting portion for limiting the position of the locking portion or its position after movement, and the number of locking portions may be one, two, or more. The locking portion passes through the installation portion by free fall and reaches the installation position.
[0036] In the above-described contact structure, the main body is provided with an installation portion for inserting or reaching the locking portion into the installation position or locking position, and the installation portion is provided on the side, above, or below the main body. First, the locking portion may be inserted into the main body from the installation portion, or into the installation position or locking position. The contact portion may be brought into contact with the locking portion, or the locking portion may be opened and closed by the contact portion. Subsequently, an elastic assembly may be attached to the main body and brought into contact with the contact portion, or the main body and the contact portion may be brought into contact. The contact portion also has a guide portion for guiding the movement of the locking portion, and the guide portion may be an inclined surface, a curved surface, an arc surface, a step, a recess, a convex portion, or a flat surface. The contact portion also has a position limiting portion for limiting the position of the locking portion or its position after movement. The number of locking portions may be one, two, or more.
[0037] In the above-described contact structure, the number of locking parts is one, two, or more.
[0038] In the above-described contact structure, the main body is provided with an installation portion for inserting or reaching the locking portion into the installation position or locking position, and the installation portion is provided on the side, above, or below the main body. First, the locking portion may be inserted into the main body from the installation portion, or into the installation position or locking position. The contact portion may be brought into contact with the locking portion, or the locking portion may be opened and closed by the contact portion. Subsequently, an elastic assembly may be attached to the main body and brought into contact with the contact portion, or brought into contact with the main body and the contact portion. The contact portion also has a guide portion for guiding the movement of the locking portion, and the guide portion may be an inclined surface, a curved surface, an arc surface, a step, a recess, a convex portion, or a flat surface. The contact portion also has a position limiting portion for limiting the position of the locking portion or its position after movement. The number of locking portions may be one, two, or more.
[0039] In the above-described contact structure, the main body is provided with an installation position for installing the locking portion, and the installation position is located on the side, above, or below the main body. The locking portion is moved into the installation position or the locking position, and the contact portion is brought into contact with the locking portion. Alternatively, the locking portion may be opened and closed by the contact portion. Furthermore, an elastic assembly may be attached to the main body and brought into contact with the contact portion, or the main body and the contact portion. The contact portion also has a guide portion for guiding the movement of the locking portion, and the guide portion may be an inclined surface, a curved surface, an arc surface, a step, a recess, a convex surface, or a flat surface. The contact portion also has a position limiting portion for limiting the position of the locking portion or its position after movement. The number of locking portions may be one, two, or more.
[0040] In the above-described contact structure, the main body is provided with a rotation prevention part to prevent rotation with respect to the object. Alternatively, the contact part may be provided with another rotation prevention part to prevent rotation with respect to the main body. The other rotation prevention part may restrict the position or operation of the contact part, or it may restrict the locking direction, locking angle, or locking position of the locking part.
[0041] In the above-described contact structure, the main body is provided with an installation portion and an installation position for attaching or housing the locking portion. The installation position is either opposite the installation portion, a position reachable by free fall, or a position reachable by free fall after passing through the installation portion.
[0042] In the above contact structure, the elastic assembly is a torsion spring, with both ends provided on the main body and the contact portion, respectively, and the contact portion is elastically rotated to contact the locking portion, thereby positioning the locking portion in a locked or unlocked position. The main body or the contact portion may be provided with a position limiting portion to limit the position of the contact portion so that the locking portion is in a locked or unlocked position. The structure may further include an elastic assembly provided between the main body and the contact portion, and located inside or outside the main body. The main body, the contact portion and the elastic assembly may be integrally molded, and the elastic assembly may elastically deform and engage with the position limiting portion of the main body to limit the position of the contact portion, or prevent the corresponding rotating portion of the contact portion from detaching from or loosening the rotating portion. A heat sink is also connected to the contact structure, and the heat sink dissipates heat from the heat generating element. The aforementioned contact structure is connected to a motherboard, metal body, plastic, server, transistor, connector, rail, rack, cabinet, liquid cooling pipe, or liquid cooling fitting.
[0043] In the above-described contact structure, the main body is provided with a rotation prevention part, and the rotation prevention part may limit the direction of the main body or the locking direction of the contact part, or it may limit the direction of the main body, the contact part and the object.
[0044] The above-described contact structure includes an elastic assembly provided between the main body and the contact portion, and located on the inside or outside of the main body. The main body or the contact portion may be integrally molded with the elastic assembly, and the elastic assembly may elastically deform and engage with the position limiting portion of the main body, thereby limiting the position of the contact portion.
[0045] In the above-described contact structure, the main body is provided with an installation portion, and an object enters the main body from the installation portion and is locked, interfered with, locked, or conductive by the contact portion. The object is a locked body, a conductor, a line, a locking body, a sphere, a rod, an optical fiber, a column, or a plate, and the contact portion is a locking portion, a column, a screw, a convex body, a rod, a concave body, or a planar body. Both ends of the elastic assembly contact the main body and the contact portion, respectively. The installation portion is a hole, a tank, a groove, or a space.
[0046] In the above-described contact structure, the main body is provided with an installation portion, and an object enters the main body from the installation portion and is locked, interfered with, position-restricted, locked, or conductive by the contact portion. The object is a locked body, a conductor, a line, a locking body, a sphere, a rod, an optical fiber, a column, or a plate, the contact portion is a locking portion, a column, a screw, a convex body, a rod, a concave body, or a planar body, and the installation portion is a hole, a tank, a groove, or a space.
[0047] The above-described contact structure further includes an elastic assembly provided between the main body and the contact portion, and located on the inside or outside of the main body.
[0048] In the above contact structure, the contact portion is an operating lever, and the main body portion is a handle. The contact portion is combined with another locking portion by another combination portion, and by operating the contact portion, the locking or unlocking of the other locking portion and another object is controlled.
[0049] In the above-described contact structure, the main body is provided with a housing section, which lowers the height of the contact section by housing it. After the contact section rises, it is rotated and installed at a higher position on the main body other than the housing section, thereby moving the contact section and opening and closing the locking section.
[0050] For example, the number of contact parts may be two, and each contact part may be in contact with one another, one contact part may be connected to the main body by a combination part, and one contact part may rotate or move to open and close the locking part.
[0051] For example, the locking portion may be moved by moving the contact portion, causing the elastic assembly to actuate elastically, and moving the locking portion from the contact position of the contact portion to the housing position of the contact portion.
[0052] For example, the contact structure is connected to a heat sink that dissipates heat from the heat-generating element.
[0053] For example, the contact structure connects at least two objects, which may have a space between them or be in close contact. The two objects may each be a circuit board, a metal object, or a plastic plate, or both may be a metal object, a circuit board, or a plastic plate. The main body may also be provided with shoulders, and these shoulders may form the space between the two objects.
[0054] For example, the contact structure may have a movable part, the movable part may be provided with a movement-restricting part and a passage, and the movement-restricting part may communicate with the passage. As the movable part moves laterally, the contact part is raised from a lower position of the movement-restricting part to a higher position of the passage, and the contact part moves, causing the locking part to open and close.
[0055] For example, the contact structure may have a movable part. The main body may be provided with a rotation prevention part, and the movable part may be provided with another corresponding rotation prevention part. The rotation prevention part cooperates with the other corresponding rotation prevention part to restrict the rotational position or operating direction of the movable part.
[0056] For example, the contact structure may be provided on a heat sink so that the locking portion locks onto an object, and the object may be provided with a heating element. The heat sink dissipates heat from the heating element. The object may be a printed circuit board or a chip, or the object or the heating element may be a conductor. The contact structure may be provided on an object so that the locking portion locks onto a heat sink, and the object may be provided with a heating element. The heat sink dissipates heat from the heating element. The object may be a printed circuit board or a chip, or the object or the heating element may be a conductor.
[0057] For example, the main body is provided with an installation portion and an installation position, and the installation portion may be larger than the installation position so that the locking portion passes through the installation portion and reaches the installation position to restrict its position.
[0058] For example, the main body is provided with an installation portion and an installation position, and the installation portion may be larger than the installation position such that the locking portion passes through the installation portion to reach the installation position, the contact portion contacts the locking portion, or the contact portion controls or interlocks the movement or locking of the locking portion.
[0059] For example, the main body has two mounting parts, two locking parts, and two mounting positions, and the two locking parts are installed so that they pass through the two mounting parts and reach the two mounting positions.
[0060] For example, the main body is provided with a connecting portion, which may be riveted to, expanded, welded to, or locked to an object, or the connecting portion and the object may be integrally molded. The object may be a printed circuit board, a metal component, a plastic component, or a heat sink.
[0061] The present invention provides a method for contacting a contact structure. The contact structure includes a main body, at least one contact portion, and an elastic assembly, wherein the contact portion is movably mounted on the main body, and the elastic assembly is provided between the main body and the contact portion. This creates an elastic contact space between the main body and the contact portion when applied.
[0062] The present invention provides a method for contacting other contact structures. The contact structure includes a main body, at least one contact portion, an elastic assembly, and another locking portion. The main body has an installation portion through which the other locking portion passes to reach an installation position, thereby allowing the combination portion to combine with the main body. The combination portion may also be another locking portion, and the combination portion may be the contact portion for contacting the other locking portion. The combination portion and the contact portion may be combined by another combination portion, and the movement of the other combination portion may control the movement or locking of the other locking portion, or the contact portion may move the other combination portion in conjunction with it to control the movement or locking of the other locking portion. The other locking portion may be a sphere, an inclined surface, a unidirectional inclined surface, a column, or a locking body. The installation portion or installation position may be a through hole, a moving space or tank portion, an inclined surface, a stepped portion, an arcuate surface portion, a right-angle portion, or a non-right-angle portion.
[0063] The present invention provides a method for contacting other contact structures. The contact structure includes a main body, at least one contact portion, an elastic assembly, or a locking portion. The main body has an installation portion through which a combination portion is combined with the main body, by which the locking portion passes to reach an installation position. The combination portion may also be another locking portion, and the combination portion may be the contact portion for contacting the locking portion. The combination portion and the contact portion may be combined by another combination portion, and the movement of the other combination portion may control the movement or locking of the locking portion, or the contact portion may move the other combination portion in conjunction with the contact portion to control the movement or locking of the locking portion. The locking portion or another locking portion may be a sphere, an inclined surface, an inclined surface in one direction, a column, or a locking body. The installation portion or installation position may be a through hole, a moving space or tank portion, an inclined surface, a stepped portion, an arcuate surface portion, a right-angle portion, or a non-right-angle portion.
[0064] The present invention provides a method for contacting other contact structures. The contact structure includes a main body, at least one contact portion, and an elastic assembly, and a combination portion that is combined with the main body. The combination portion may be another locking portion, and the combination portion and the contact portion may be combined by another combination portion, and the movement of the combination portion may control the movement or locking of the other locking portion, or the contact portion may move the combination portion in conjunction with it to control the movement or locking of the other locking portion. The combination portion may penetrate the main body and be combined with the contact portion by the other combination portion, or it may penetrate the main body and the elastic assembly and be combined with the contact portion by the other combination portion.
[0065] The present invention provides a method for contacting other contact structures. The contact structure includes a main body, at least one contact portion, and an elastic assembly. The contact portion has a position limiting portion and an opening portion for limiting the restricted position of the locking portion or limiting the open position of the locking portion by rotation. The elastic assembly is a torsion spring or a torsion elastic body and interlocks the contact portion to keep it at all times in a position that restricts the locking portion or in a position that opens the locking portion. The locking portion may be a sphere, an inclined surface, a unidirectional inclined surface, a column, or a locking body. Both ends of the elastic assembly may be position-limited to the main body and the contact portion, respectively. The main body or the contact portion may have a limiting portion that limits the rotation angle of the contact portion. The position limiting portion or the opening portion may be an arcuate surface, an inclined surface, a sphere, a groove, a hole, a plane, a recess, or a convex portion.
[0066] The present invention provides a method for contacting other contact structures. The contact structure includes a main body, at least one contact portion, and an elastic assembly. The main body has an installation portion for passing through the locking portion to reach an installation position. Furthermore, the contact portion may be attached to or drilled into the main body, and the locking portion may be controlled by the contact portion. The main body also has an installation portion for the locking portion to pass through to reach an installation position. Furthermore, the contact portion may contact the locking portion by being provided in the main body or by penetrating the main body.
[0067] The present invention provides a method for contacting other contact structures. The contact structure comprises a main body, at least one contact portion, and an elastic assembly. The main body has an installation portion through which the locking portion passes to reach an installation position, or combines a combination portion with the main body, or the combination portion is the contact portion for contacting the locking portion, or the contact portion contacts the locking portion, or the contact portion moves to control the movement or locking of the locking portion, or the combination portion and the contact portion are combined by another combination portion, or the other combination portion moves to control the movement or locking of the locking portion, or the contact portion moves in conjunction with the other combination portion to control the movement or locking of the locking portion, and the locking portion is a sphere, an inclined surface, an inclined surface in one direction, a column, or a locking body, or The installation portion is a through hole, a moving space or a tank portion, a slope portion, a stepped portion, an arc surface portion, a right-angle portion or a non-right-angle portion, or the abutment portion is another locking portion, or the combination portion is another locking portion, or the abutment portion is the locking portion, or the combination portion is the locking portion, the abutment portion and the combination portion are integrally molded, the abutment portion and the combination portion are connected to each other, the abutment portion is i.e., the combination portion, the locking portion passes through the installation portion in a free-fall manner to reach the installation position, the locking portion reaches the installation position with the assistance of a tool or magnetic tool, the locking portion passes through the installation portion with the assistance of a tool or magnetic tool to reach the installation position.
[0068] The present invention provides a method for contacting other contact structures. It provides a main body, at least one contact portion, and a locking portion. The contact portion is movably mounted on the main body, and the contact portion contacts the locking portion, or controls or interlocks the movement or locking of the locking portion. The main body has an installation portion through which the locking portion passes to reach an installation position.
[0069] The present invention provides a method for contacting other contact structures. It provides a main body, at least one contact portion, and a locking portion. The contact portion is movably mounted on the main body, and the contact portion contacts the locking portion, or controls or interlocks the movement or locking of the locking portion. The main body has two mounting portions, two locking portions, and two mounting positions, and the two locking portions are installed so as to pass through the two mounting portions to reach the two mounting positions.
[0070] The present invention provides a method for contacting other contact structures. It provides a main body, at least one contact portion, and a locking portion. The contact portion is movably mounted on the main body, and the contact portion contacts the locking portion, or the contact portion controls or interlocks the movement or locking of the locking portion. The main body has an installation portion through which the locking portion passes to reach an installation position. Furthermore, the contact portion is brought into contact with the locking portion. The installation position is a position opposite the installation portion, a position reachable by free fall, or a position reachable by free fall after passing through the installation portion. [Brief explanation of the drawing]
[0071] To more clearly explain the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments will be briefly described below. However, naturally, the drawings described below are merely a part of the embodiments of the present invention, and those skilled in the art can conceive of other drawings based on these drawings without requiring any creative effort. [Figure 1] This is a schematic diagram (part 1) of the first embodiment of the present invention. [Figure 2] This is a schematic diagram (part 2) of the first embodiment of the present invention. [Figure 3] This is a schematic diagram of a second embodiment of the present invention. [Figure 4] This is a schematic diagram (part 1) of a third embodiment of the present invention. [Figure 5] This is a schematic diagram (part 2) of a third embodiment of the present invention. [Figure 6] This is a schematic diagram of a fourth embodiment of the present invention. [Figure 7]This is a schematic diagram (part 1) of the fifth embodiment of the present invention. [Figure 8] This is a schematic diagram (part 2) of the fifth embodiment of the present invention. [Figure 9] This is a schematic diagram of the sixth embodiment of the present invention. [Figure 10] This is a schematic diagram of the seventh embodiment of the present invention. [Figure 11] This is a schematic diagram of the eighth embodiment of the present invention. [Figure 12] This is a schematic diagram of the ninth embodiment of the present invention. [Figure 13] This is a schematic diagram of the tenth embodiment of the present invention. [Figure 14] This is a schematic diagram of the 11th embodiment of the present invention. [Figure 15] This is a schematic diagram of the twelfth embodiment of the present invention. [Figure 16] This is a schematic diagram of the 13th embodiment of the present invention. [Figure 17] This is a schematic diagram of the 14th embodiment of the present invention. [Figure 18] This is a schematic diagram of the 15th embodiment of the present invention. [Figure 19] This is a schematic diagram of the 16th embodiment of the present invention. [Figure 20] This is a schematic diagram of the 17th embodiment of the present invention. [Figure 21] This is a schematic diagram of the 18th embodiment of the present invention. [Figure 22] This is a schematic diagram of the 19th embodiment of the present invention. [Figure 23] This is a schematic diagram of the 20th embodiment of the present invention. [Figure 24] This is a schematic diagram of the 21st embodiment of the present invention. [Figure 25] This is a schematic diagram of the 22nd embodiment of the present invention. [Figure 26] This is a schematic diagram (part 1) of the 23rd embodiment of the present invention. [Figure 27] This is a schematic diagram (part 2) of the 23rd embodiment of the present invention. [Figure 28] This is a schematic diagram (part 1) of the 24th embodiment of the present invention. [Figure 29]This is a schematic diagram (part 2) of the 24th embodiment of the present invention. [Figure 30] This is a schematic diagram of the 25th embodiment of the present invention. [Figure 31] This is a schematic diagram (part 1) of the 26th embodiment of the present invention. [Figure 32] This is a schematic diagram (part 2) of the 26th embodiment of the present invention. [Figure 33] This is a schematic diagram (part 3) of the 26th embodiment of the present invention. [Figure 34] This is a schematic diagram (part 1) of the 27th embodiment of the present invention. [Figure 35] This is a schematic diagram (part 2) of the 27th embodiment of the present invention. [Figure 36] This is a schematic diagram of the 28th embodiment of the present invention. [Figure 37] This is a schematic diagram (part 1) of the 29th embodiment of the present invention. [Figure 38] This is a schematic diagram (part 2) of the 29th embodiment of the present invention. [Figure 39] This is a schematic diagram of the 30th embodiment of the present invention. [Figure 40] This is a schematic diagram of the 31st embodiment of the present invention. [Figure 41] This is a schematic diagram of the 32nd embodiment of the present invention. [Figure 42] This is a schematic diagram of the 33rd embodiment of the present invention. [Figure 43] This is a schematic diagram of the 34th embodiment of the present invention. [Modes for carrying out the invention]
[0072] The fluid bonding structure of an embodiment of the present invention will be further described below with reference to the drawings.
[0073] The above-mentioned and other technical details, features, and effects relating to the invention will be clarified by describing appropriate embodiments in detail with reference to the drawings. Note that the directional terms mentioned in the following embodiments, such as up, down, left, right, front, or back, are merely directions as shown in the attached drawings. Therefore, the directional terms used are for illustrative purposes only and are not limiting. Furthermore, in the following embodiments, identical or similar components are denoted by the same or similar reference numerals.
[0074] Referring to Figures 1 and 2, the present invention relates to a contact structure and a method for contacting the same, the contact structure 1 including a main body 11, at least one contact portion 12, and a locking portion 128.
[0075] The contact portion 12 is movably provided on the main body portion 11.
[0076] The contact portion 12 contacts the locking portion 128 (or the contact portion 12 controls or interlocks with the movement or locking of the locking portion 128).
[0077] In addition to the embodiments described above, one embodiment of the present invention further includes an elastic assembly 13 provided between the main body portion 11 and the contact portion 12, and which can be located inside or outside the main body portion 11, thus differing from the embodiments described above.
[0078] In addition to the embodiments described above, in one embodiment of the present invention, a connecting portion 111 is provided at one end of the main body portion 11, and the main body portion 11 or the connecting portion 111 of the main body portion 11 is welded, riveted, expanded, locked, or integrally molded with the object 10, thus differing from the embodiments described above. In this way, the present invention can be adapted to actual operational forms.
[0079] In addition to the above embodiments, in one embodiment of the present invention, the main body 11 has an installation portion 110 through which the locking portion 128 passes to reach the installation position 1101, thus differentiating the combination portion 113 from the above embodiments in that it is combined with the main body 11. In this way, the present invention can be adapted to actual operational conditions.
[0080] In addition to the above embodiments, in one embodiment of the present invention, the contact portion 12 may be further attached to or drilled into the main body portion 11, and the locking portion 128 may be controlled by the contact portion 12. The combination portion 113 may be another locking portion, and the combination portion 113 may be the contact portion for contacting the locking portion 128. Furthermore, the contact portion 12 may contact the contacted portion 125, and the contact portion 12 may move to control (or interlock with) the movement or locking of the locking portion 128. One embodiment of the present invention differs from the above embodiments in the respects described above. In this way, the present invention can be adapted to actual operational forms.
[0081] In addition to the above embodiments, in one embodiment of the present invention, the main body portion 11 has an installation portion 110, and the locking portion 128 passes through the installation portion 110 and reaches the installation position, after which the contact portion 12 is provided on the main body portion 11 or passes through the main body portion 11 to contact the locking portion 128, thus differing from the above embodiments. In this way, the present invention can be adapted to actual operational conditions.
[0082] In addition to the above embodiments, in one embodiment of the present invention, the combination part 113 is combined with the contact part 12 by another combination part 127, thereby moving the other combination part 127 to control (or interlock) the movement or locking of the locking part 128, and the contact part 12 moves the other combination part 127 in conjunction to control (or interlock) the movement or locking of the locking part 128. The locking part 128 may be a sphere, an inclined surface, an inclined surface in one direction, a column, or a locking body, and the installation part 110 may be a through hole, a moving space or groove, an inclined surface, a stepped section, an arcuate surface, a right-angled section, or a non-right-angled section, which is different from the above embodiments. In this way, the present invention can be adapted to actual operational forms.
[0083] In addition to the above embodiments, in one embodiment of the present invention, the combination part 113 and the main body part 11 are combined, and the combination part 113 and the contact part 12 are combined with the other combination part 127, thereby allowing the combination part 113 to be moved to control the movement or locking of the other locking part 122 (or the contact part 12 moves in conjunction with the combination part 113 to control the movement or locking of the other locking part 122), and the combination part 113 passes through the main body part 11 before being combined with the contact part 12 by the other combination part 127 (or the combination part 113 passes through the main body part 11 and the elastic assembly 13 before being combined with the contact part 12 by the other combination part 127), which is different from the above embodiments. In this way, the present invention can be adapted to actual operational forms.
[0084] In addition to the above embodiments, in one embodiment of the present invention, the contact portion 12 and the combination portion 113 are connected to each other (or the contact portion is the combination portion), and the other locking portion 122 passes through the installation portion 110 by free fall to reach the installation position 1101, or the other locking portion 122 reaches the installation position 1101 with the assistance of a tool or magnetic tool, which is different from the above embodiments. In this way, the present invention can be adapted to actual operational conditions.
[0085] In addition to the above embodiments, one embodiment of the present invention differs from the above embodiments in that the locking portion passes through the installation portion 110 with the assistance of the tool or magnetic tool to reach the installation position 1101. In this way, the present invention can be adapted to actual operational conditions.
[0086] Referring to Figure 3, as shown in the illustration, in addition to the above embodiment, in one embodiment of the present invention, the combination portion 113 is a separate locking portion, the contact portion 12 and the combination portion 113 are integrally molded, and the combination portion 113 abuts against the locking portion 128 at the inclined portion 1131, which is different from the above embodiment. In this way, the contact portion 12 can be moved to control the movement or locking of the locking portion 128 by the combination portion 113, and the present invention can be adapted to actual operational forms.
[0087] Referring to Figures 4 and 5, as illustrated, in addition to the above embodiments, one embodiment of the present invention further includes a locking portion 128, which may be a sphere, an inclined surface, an inclined surface in one direction, a column, or a locking body. The contact portion 12 has a position limiting portion 60 and an opening portion 61, which may be an arcuate surface, an inclined surface, a sphere, a groove, a hole, a plane, a recess, or a convex portion, respectively. By rotating the position limiting portion 60 and the opening portion 61, the restricted position of the locking portion 128 is limited, or the open position of the locking portion 128 is limited. One embodiment of the present invention differs from the above embodiments in the respect described above. In this way, the contact portion 12 of the present invention can be adapted to actual operating conditions by performing the necessary position limiting or opening through the cooperation of the position limiting portion 60 and the opening portion 61.
[0088] In addition to the above embodiments, in one embodiment of the present invention, the elastic assembly 13 is a torsion spring (or torsion elastic body), and both ends of the elastic assembly 13 are positionally restricted by the main body 11 and the contact portion 12, respectively. This differs from the above embodiments in that the elastic assembly 13 is always positioned in a position where the contact portion 12 is driven to restrict the locking portion 128, or the contact portion 12 is always positioned in a position where the locking portion 128 is released. In this way, the present invention can be adapted to actual operational conditions.
[0089] Referring to Figure 6, as shown in the illustration, in addition to the above embodiment, in one embodiment of the present invention, the main body portion 11 and the contact portion 12 may each have a limiting portion 62, and the limiting portion 62 differs from the above embodiment in that it limits the rotation angle of the contact portion 12. In this way, the present invention can be adapted to actual operating conditions.
[0090] Referring to Figures 7 and 8, as illustrated, in addition to the above embodiments, one embodiment of the present invention further includes a locking portion 128, the contact portion 12 abuts against the locking portion 128, the main body portion 11 has an installation portion 110, a position limiting portion 60 and a lifting portion 1110, the position limiting portion 60 limits the contact portion 12, the contact portion 12 moves vertically to allow the locking portion 128 to reach the installation position 1101 of the installation portion 110, and the lifting portion 1110 abuts against the contact portion 12 after rotation, thus differing from the above embodiments. In this way, the locking or unlocking of the locking portion 128 and the object 10 can be controlled by the movement of the contact portion 12, and the present invention can be adapted to actual operational forms.
[0091] Referring to Figures 9 and 10, as shown in the illustration, in addition to the above embodiment, one embodiment of the present invention further includes a locking portion 128, the contact portion 12 abuts against the locking portion 128, the main body portion 11, the contact portion 12 and the elastic assembly 13 are integrally molded, the main body portion 11 is provided with an installation portion 110 and a position limiting portion 60, and the contact portion 12 moves in the vertical or rotational direction to elastically limit the position of the elastic assembly 13 to the position limiting portion 60. Alternatively, the present invention differs from the above embodiment in that it elastically detaches from the position limiting portion 60, and the contact portion 12 interlocks the locking portion 128 to reach the installation position 1101 of the installation portion, the contact portion 12 has an opening portion 61, and the rotation of the opening portion 61 limits the restricted position of the locking portion 128 or limits the open position of the locking portion 128, thereby allowing the locking portion 128 to perform the necessary position restriction or release in cooperation with the opening portion 61. In this way, the present invention can be adapted to actual operational forms.
[0092] Referring to Figures 11 and 12, as illustrated, in addition to the above embodiment, one embodiment of the present invention further includes another locking portion 122 and a locking portion 128, the main body portion 11 has an installation portion 110 for passing the locking portion 128 through to reach the installation position 1101, and the contact portion 12 is combined with the other locking portion 122 by a combination portion 113, thereby controlling (or linking) the movement or locking of the locking portion 128 by the movement of the contact portion 12, which is different from the above embodiment.
[0093] Referring to Figures 13 to 16, as shown, in addition to the above embodiments, one embodiment of the present invention further includes another locking portion 122 and a locking portion 128, wherein the other locking portion 122 abuts against the locking portion 128, the main body portion 11 is provided with a rotating portion 1113, and the abutting portion 12 is provided with a corresponding rotating portion 129, and by rotating the abutting portion 12 and causing the rotating portion 1113 to cooperate with the corresponding rotating portion 129, the other locking portion 122 controls the movement of the locking portion 128 in a helical manner, which is different from the above embodiments. In this way, the present invention can be adapted to actual operational forms.
[0094] In addition to the embodiments described above, one embodiment of the present invention differs from the embodiments in that the main body 11, the contact portion 12, and the elastic assembly 13 are integrally molded, and the elastic assembly 13 elastically deforms and engages with the position limiting portion 60 of the main body 11, thereby limiting the position of the contact portion 12, or preventing the corresponding rotating portion 129 of the contact portion 12 from detaching from or loosening from the rotating portion 1113. In this way, the present invention can be adapted to actual operational conditions.
[0095] In addition to the above embodiments, in one embodiment of the present invention, the locking portion 128 enters (or reaches) the installation position 1101 (or the locking position) and is brought into contact with the locking portion 128 by the contact portion 12, or opens and closes the locking portion 128, which is different from the above embodiments. In this way, the contact portion 12 and the locking portion 128 of the present invention can be adapted to actual operating conditions.
[0096] In addition to the above embodiments, in one embodiment of the present invention, the elastic assembly 13 is attached to the main body 11 and brought into contact with the contact portion 12, or the elastic assembly 13 is attached to the main body 11 and brought into contact with both the main body 11 and the contact portion 12. This differs from the above embodiments in that the contact portion 12 achieves the effect of automatic return, elastic locking, or positioning after operation through the cooperation of the elastic assembly 13.
[0097] In addition to the above embodiments, in one embodiment of the present invention, the contact portion 12 has a guide portion 1211 for guiding the movement of the locking portion 128, and the guide portion 1211 may be an inclined surface, a curved surface, an arc surface, a stepped portion, a recess, a convex portion, or a flat surface, and the contact portion 12 has a position limiting portion 60 for limiting the position of the locking portion 128 or its position after movement, which is different from the above embodiments. In this way, the contact portion 12 and the locking portion 128 of the present invention can be adapted to actual operating conditions.
[0098] Referring to Figure 17, as illustrated, in addition to the above embodiment, in one embodiment of the present invention, the main body portion 11 is provided with a handle portion 114 and a locking portion 128, the main body portion 11 is provided on an object 10, the locking portion 128 is locked to a locked portion 701 of another object 70 (as shown in Figure 92), or the contact portion 12 and the locking portion 128 are locked to locked portions 701 of the other object 70, respectively, thus differing from the above embodiment. In this way, the present invention can be adapted to actual operational forms.
[0099] Referring to Figures 18 and 19, as illustrated, in addition to the above embodiments, one embodiment of the present invention is provided with at least one locking portion 128 on the main body 11, and the main body 11 is connected to the side of the object 10 by the locking portion 128, which is different from the above embodiments. In this way, the present invention can be adapted to actual operational forms.
[0100] In addition to the above embodiments, in one embodiment of the present invention, the main body 11 is provided with an installation portion 110 for inserting (or reaching) the locking portion 128 into the installation position 1101 (or locking position), and the installation portion 110 may be installed on the side, above, or below the main body 11, and the locking portion 128 may be inserted into the main body 11 from the installation portion 110, and then the elastic assembly 13 and the contact portion 12 may be attached to the main body 11, and the other locking portion 122 and the contact portion 12 may be joined by the other combination portion 127, which is different from the above embodiments. In this way, the present invention can be adapted to actual operational conditions.
[0101] In addition to the above embodiments, one embodiment of the present invention differs from the above embodiments in that the number of locking portions 128 is one, two, or more. In this way, the present invention can be adapted to actual operational conditions.
[0102] Referring to Figure 20, as shown in the illustration, in addition to the above embodiment, in one embodiment of the present invention, the main body 11 is provided with a rotation prevention part 112 for preventing rotation relative to the object 10, and the contact part 12 is provided with another rotation prevention part 1213 for preventing rotation relative to the main body 11, and the other rotation prevention part 1213 differs from the above embodiment in that it restricts the position or operation of the contact part 12, or restricts the locking direction, locking angle or locking position of the locking part 128. In this way, the present invention can be adapted to actual operational forms.
[0103] Referring to Figures 21 and 22, as illustrated, in addition to the above embodiment, in one embodiment of the present invention, the main body 11 is provided with an installation part 110 for combining the locking part 128, and the installation position 1101 is a position opposite the installation part 110 or a position reachable by free fall, which is different from the above embodiment. In this way, the present invention can be adapted to actual operational forms.
[0104] In addition to the above embodiments, in one embodiment of the present invention, the elastic assembly 13 is a torsion spring, with both ends provided on the main body 11 and the contact portion 12, respectively, and the contact portion 12 is elastically rotated to contact the locking portion 128, thereby positioning the locking portion 128 in a locked or unlocked position. The main body 11 (or the contact portion 12) may be provided with a position limiting portion 60 that restricts the position of the contact portion 12 so that the locking portion 128 is in a locked or unlocked position. One embodiment of the present invention differs from the above embodiments in the respects described above. In this way, the present invention can be adapted to actual operational forms.
[0105] Referring to Figure 23, as shown in the illustration, in addition to the above embodiment, in one embodiment of the present invention, the main body portion 11 is provided with a rotation prevention portion 112, and the rotation prevention portion 112 prevents rotation in correspondence with the corresponding rotation prevention portion 101 of the object 10, thereby the rotation prevention portion 112 differs from the above embodiment in that it limits the direction of the main body portion 11 and the locking direction of the contact portion 12, or limits the direction of the main body portion 11, the contact portion 12 and the object 10. In this way, the present invention can be adapted to actual operational forms.
[0106] Referring to Figure 24, as illustrated, in addition to the above embodiment, in one embodiment of the present invention, the main body portion 11 is provided with an installation portion 110, and the other object 70 (or the object 10) enters the main body portion 11 from the installation portion 110 and is locked, interfered with, locked, or conductive by the contact portion 12, which is different from the above embodiment. In this way, the present invention can be adapted to actual operational forms.
[0107] In addition to the above embodiments, in one embodiment of the present invention, the other object 70 (or object 10) may be a locking body, a conductor, a line, a locking body, a sphere, a rod, an optical fiber, a column, or a plate. Thus, the contact portion 12 may be locked by the locking portion 701 of the other object 70 (or object 10) and may be conductive. One embodiment of the present invention differs from the above embodiments in the respects described above. In this way, the present invention can be adapted to actual operational settings.
[0108] In addition to the above embodiments, in one embodiment of the present invention, the contact portion 12 may be a locking portion, a column, a screw, a convex portion, a rod, a concave portion, or a flat portion. The ends of the elastic assembly 13 contact the main body portion 11 and the contact portion 12, respectively, and the installation portion 110 may be a hole, a tank portion, a groove, or a space, which is different from the above embodiments. In this way, the present invention can be adapted to actual operational conditions.
[0109] In addition to the above embodiments, one embodiment of the present invention differs from the above embodiments in that the fan 401 (power supply unit or heat sink) is combined with the other object 70 by the contact structure 1 and can be locked or conductive by the contact structure 1 (as shown in Figure 24). In this way, the present invention can be adapted to actual operating conditions.
[0110] Referring to Figure 25, as shown in the illustration, in addition to the above embodiments, in one embodiment of the present invention, the contact portion 12 may be a handle (for example, an operating lever), the elastic assembly 13 is provided between the main body portion 11 and the contact portion 12, and the elastic assembly 13 is located inside the main body portion 11, which is different from the above embodiments.
[0111] When in use, the main body portion 11 is placed on the object 10, and by moving the contact portion 12, the contact portion 12 is rotated to lower its height, and the locking portion 128 is further linked by the contact portion 12 to lock or unlock it.
[0112] Referring to Figures 26 and 27, as illustrated, in addition to the above embodiment, in one embodiment of the present invention, the main body 11 is provided with a housing 115, and the housing 115 either houses the abutment 12 and lowers the height of the abutment 12, or rotates to a higher position on the main body that is not the housing after the abutment 12 has risen, thereby opening and closing the locking portion 128 by the movement of the abutment 12, and furthermore the abutment 12 interlocks with the locking portion 128 to lock or unlock it, which is different from the above embodiment.
[0113] Referring to Figures 28 and 29, as illustrated, in addition to the above embodiment, in one embodiment of the present invention, the number of contact portions 12 is two, each contact portion 12 contacts each other, one contact portion 12 is connected to the main body portion 11 by the combination portion 113, one contact portion 12 rotates or moves to open and close the locking portion 128, and furthermore the contact portion 12 interlocks with the locking portion 128 to lock or unlock it, which is different from the above embodiment.
[0114] Referring to Figure 30, as shown in the figure, in addition to the above embodiment, in one embodiment of the present invention, the contact portion 12 is moved (for example, pressed) to cause the elastic assembly 13 to actuate elastically, and the locking portion 128 is moved from the contact position of the contact portion 12 to the housing position of the contact portion 12, thereby moving the locking portion 128, and furthermore the locking portion 128 is locked or unlocked in conjunction with the contact portion 12.
[0115] Referring to Figures 31 to 33, as shown in the figures, in addition to the above embodiment, in one embodiment of the present invention, the number of the main body portion 11, the contact portion 12, the locking portion 128, and the elastic assembly 13 may each be two, and each contact portion 12 is connected to both ends of the handle portion 114 via the combination portion 113, and by applying force to rotate or move the handle portion 114, the handle portion 114 is linked with each contact portion 12, and furthermore, each contact portion 12 links with each locking portion 128 to lock or unlock at least two objects 10, which is different from the above embodiment.
[0116] Referring to Figures 34 to 35, as shown in the figures, in addition to the above embodiment, in one embodiment of the present invention, a heat sink 40 is connected to the contact structure 1, and the heat sink 40 dissipates heat from the heat generating element 41, which is different from the above embodiment.
[0117] In addition to the above embodiments, in one embodiment of the present invention, the number of the main body portion 11, the contact portion 12, the other locking portion 122, the locking portion 128, and the elastic assembly 13 may each be two, the connection portion 111 of the main body portion 11 is welded to the object 10, each contact portion 12 is connected to each other locking portion 122 via the combination portion 113, and by applying force to rotate or move each contact portion 12, each other locking portion 122 and each locking portion 128 are released, thereby drilling the heat sink 40 into each main body portion 11 through the through hole 402, and then applying force to rotate or move each contact portion 12, causing each contact portion 12 to interlock with each of the other locking portions 122, and further, each contact portion 12 interlocks with each locking portion 128 to lock or release the heat sink 40.
[0118] In addition to the above embodiments, in one embodiment of the present invention, the contact structure 1 is provided on the object 10 (for example, the object 10 is a printed circuit board or a conductor) such that the locking portion 128 locks onto the heat sink 40, and the object 10 is provided with the heating element 41 (for example, the heating element 41 is a chip or a conductor), and the heat sink 40 dissipates heat from the heating element 41, which is different from the above embodiments.
[0119] In addition to the above embodiments, in one embodiment of the present invention, the main body portion 11 is connected to the object 10 by riveting, locking, welding, locking, expansion connection, bonding, interference, or stopper contact, or the main body portion 11 and the object 10 are integrally molded, and in this embodiment, the main body portion 11 is welded to the object 10 by solder 1103 via the connection portion 111, and the object 10 is a printed circuit board, which is different from the above embodiments.
[0120] Referring to Figure 36, as illustrated, in addition to the above embodiments, in one embodiment of the present invention, the contact structure 1 is for connecting at least two objects 10, and may be configured such that there is a separation space S between the two objects 10, or the two objects 10 are in close contact with each other. Furthermore, the two objects 10 may each be a circuit board, a metal object, or a plastic plate, or both objects 10 may be metal objects, circuit boards, or plastic plates. In addition, the main body portion 11 is provided with a shoulder portion 1102, and the separation space S between the two objects 10 is formed by the shoulder portion 1102. One embodiment of the present invention differs from the above embodiments in the respects described above. This makes it possible to adapt the present invention to actual operational forms.
[0121] Referring to Figures 37 and 38, as illustrated, in addition to the above embodiment, in one embodiment of the present invention, the contact structure 1 may have a movable part 14, the movable part 14 is provided with a movement limiting part 141 and a passage 142, the movement limiting part 141 communicates with the passage 142, and the movable part 14 moves laterally so that the contact part 12 is lifted from the lower position of the movement limiting part 141 to the higher position of the passage 142, the contact part 12 moves so that the locking part 128 is opened and closed, and furthermore the contact part 12 interlocks with the locking part 128 to lock or unlock, which is different from the above embodiment.
[0122] Referring to Figure 39, as illustrated, in addition to the above embodiments, in one embodiment of the present invention, the contact structure 1 has a movable part 14, the movable part 14 is movably coupled to the main body 11, the main body 11 is provided with a rotation prevention part 112, and the movable part 14 is provided with another corresponding rotation prevention part 143, the rotation prevention part 112 engages with the other corresponding rotation prevention part 143, and thereby the rotation prevention part 112 cooperates with the other corresponding rotation prevention part 143 to restrict the rotational position or operating direction of the movable part 14, which is different from the above embodiments. This makes it possible to adapt the present invention to a more actual operational form.
[0123] Referring to Figure 40, as shown in the illustration, in addition to the above embodiment, in one embodiment of the present invention, the main body 11 is pressurized in a mold 71, causing the material of the object 10 to flow into or enter the connecting portion 111, thereby firmly bonding the main body 11 to the object 10 by the connecting portion 111, which is different from the above embodiment. In this way, the present invention can be adapted to more practical operational forms.
[0124] Referring to Figure 41, as shown in the illustration, in addition to the above embodiments, in one embodiment of the present invention, the contact structure 1 is provided on the heat sink 40 such that the locking portion 128 locks onto the object 10 (for example, the object 10 may be a printed circuit board), and the object 10 is provided with the heating element 41 (for example, the heating element 41 may be a chip), and the heat sink 40 differs from the above embodiments in that it dissipates heat from the heating element 41. In this way, the present invention can be adapted to more actual operational forms.
[0125] Referring to Figure 42, as shown in the illustration, in addition to the above embodiment, in one embodiment of the present invention, the main body 11 is provided with an installation portion 110 and an installation position 1101, the installation portion 110 is larger than the installation position 1101, the locking portion 128 is restricted in position so that it passes through the installation portion 110 to reach the installation position 1101, or the contact portion 12 is brought into contact with the locking portion 128, and the movement or locking of the locking portion 128 is controlled or interlocked by the contact portion 12, which is different from the above embodiment. In this way, the present invention can be adapted to a more actual operational form.
[0126] Referring to Figure 43, as shown in the illustration, in addition to the above embodiment, in one embodiment of the present invention, the main body 11 has two installation parts 110, two locking parts 128, and two installation positions 1101, such that the two locking parts 128 pass through the two installation parts 110 to reach the two installation positions 1101. In this way, the present invention can be adapted to more actual operational forms.
[0127] In summary, the present invention aims to make movement and contact / position restriction smoother through a contact structure.
[0128] The above are merely embodiments of the present invention and do not limit the scope of the patent for the present invention. [Explanation of symbols]
[0129] 1 Contact structure 11 Main body 111 Connection part 1110 Lifting section 1113 Rotating part 112 Rotation prevention part 113 Combination section 1131 Slope 114 Handle section 115 Storage Unit 110 Installation section 1101 Installation position 1102 Shoulder 1103 Solder 12 Contact part 1211 Guide Section 1213 Another anti-rotation part 122 Another locking part 123 Guide Slope 124 Neck 125 Abutted part 126 Operation section 127 Another combination part 128 Locking part 129 Corresponding rotating part 13 Elastic Assembly 14. Mobile section 141 Movement restriction section 142 aisle 143 Another corresponding anti-rotation part 15 Stopper section 16 Joint 10 objects 101 Corresponding anti-rotation part 102 Locking part 103 Locked part 20. Cargo 30. Object to be contacted 40 Heat sink 41 Heating element 421 Connector 44 Fluid barrier 45 connectors 401 Fans 402 Through hole 60 Position limiting section 61 Open area 62 Restriction section 70 Another object 701 Locked part 71 molds S Separate space
Claims
1. The main body and The main body is provided with at least one movable contact portion, Including a locking part, The contact structure is characterized in that the contact portion contacts the locking portion, or controls or interlocks the movement or locking of the locking portion.
2. The contact structure according to claim 1, characterized in that the main body portion has an installation portion, and the locking portion passes through the installation portion to reach the installation position.
3. The contact structure according to claim 1, wherein the main body portion has an installation portion, a position limiting portion, or a lifting portion, and the position limiting portion restricts the contact portion, or the contact portion moves vertically to bring the locking portion to the installation position, or the lifting portion contacts the contact portion after rotation.
4. The contact structure according to claim 1, characterized in that the main body is provided with an installation portion, the locking portion passes through the installation portion and reaches the installation position, and the contact portion then contacts the locking portion, the installation position being a position opposite the installation portion, a position reachable by free fall, or a position reachable by free fall after the locking portion passes through the installation portion.
5. The main body is provided with an installation portion for inserting or reaching the locking portion into the installation position or locking position, the installation portion being located on the side, above, or below the main body, the locking portion being inserted into the main body from the installation portion, the contact portion being brought into contact with the locking portion, the contact portion opening and closing the locking portion, or an elastic assembly being attached to the main body and brought into contact with the contact portion, or an elastic assembly being attached to the main body and brought into contact with the main body and the contact portion, and the contact portion being a guide portion for guiding the movement of the locking portion The contact structure according to claim 1, wherein the guide portion is a slope, curved surface, arc surface, step, recess, protrusion or flat surface, the contact portion has a position limiting portion for limiting the position of the locking portion or its position after movement, the number of locking portions is one, two or more, the locking portion passes through the installation portion in a free-fall manner to reach the installation position, the installation position is made smaller than the locking portion to restrict the locking portion from detaching from the main body, and the installation position is a hole, tank portion, groove portion or space.
6. The contact structure according to claim 1, wherein the main body is provided with an installation portion, an object enters the main body from the installation portion and is locked, interfered with, position-restricted, locked, or conductive by the contact portion, and the object is a locked body, a conductor, a line, a locking body, a sphere, a rod, an optical fiber, a column, or a plate, and the contact portion is a locking portion, a column, a screw, a convex, a rod, a concave, or a planar, and the installation portion is a hole, a tank, a groove, or a space.
7. The main body portion is provided with an installation portion and an installation position, the installation portion is made larger than the installation position so that the locking portion passes through the installation portion to reach the installation position, the contact portion contacts the locking portion, or the contact portion controls or interlocks the movement or locking of the locking portion, and the installation portion is a hole, a tank portion, a groove portion, or a space, the contact structure according to claim 1.
8. The contact structure according to claim 1, characterized in that the main body has two installation parts, two locking parts, and two installation positions, and the two locking parts are installed so as to pass through the two installation parts and reach the two installation positions.
9. The contact structure according to claim 1, wherein the main body is provided with a connecting portion, the connecting portion is riveted to an object, expanded, welded or locked, or the connecting portion and the object are integrally molded, and the object is a printed circuit board, a metal part, a plastic part or a heat sink.
10. A contact method for a contact structure, comprising a main body, at least one contact portion, and a locking portion, wherein the contact portion is movably provided on the main body, the contact portion contacts the locking portion, or controls or interlocks the movement or locking of the locking portion, and the main body has an installation portion, and the locking portion is installed such that it passes through the installation portion to reach the installation position.
11. A contact method for a contact structure, comprising a main body, at least one contact portion and a locking portion, wherein the contact portion is movably provided on the main body, the contact portion contacts the locking portion, or the contact portion controls or interlocks the movement or locking of the locking portion, and the main body has two mounting portions, two locking portions and two mounting positions, and the two locking portions are installed so as to pass through the two mounting portions to reach the two mounting positions.
12. A contact method for a contact structure, comprising a main body, at least one contact portion and a locking portion, wherein the contact portion is movably provided on the main body, the contact portion contacts the locking portion, or the contact portion controls or interlocks the movement or locking of the locking portion, and the main body has an installation portion through which the locking portion passes to reach an installation position, and further, the contact portion is brought into contact with the locking portion, and the installation position is a position opposite the installation portion or a position reachable by free fall, or a position reachable by free fall after passing the installation portion.