Mounting device and mating apparatus

By designing a locking mechanism and a support mechanism that work together, the problem of inconvenient operation caused by the long travel of the claw was solved, enabling stable and efficient installation of the antenna.

CN224472673UActive Publication Date: 2026-07-07QUECTEL WIRELESS SOLUTIONS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
QUECTEL WIRELESS SOLUTIONS CO LTD
Filing Date
2025-07-23
Publication Date
2026-07-07

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  • Figure CN224472673U_ABST
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Abstract

The application relates to a mounting device and a matching equipment, the mounting device is configured to mount a to-be-mounted part to a mounting part; the mounting device comprises a locking part and a supporting part, the locking part is movably connected to the mounting part, the supporting part is movably connected with the locking part, the supporting part has a supporting portion, and the supporting portion can be deformed to a locking position under the action of the locking part to limit the displacement of the locking part along the center line of the locking part in the radial direction. Through the above technical scheme, the supporting portion of the supporting part is deformed to the locking position under the action of the locking part, the displacement of the locking part along the center line of the locking part in the radial direction is limited, the deformation of the supporting portion reduces the stroke of the locking part moving to the mounting part, and the installation convenience is improved.
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Description

Technical Field

[0001] This application relates to the field of equipment installation technology, and in particular to an installation device and its supporting equipment. Background Technology

[0002] During the antenna mounting process onto the sheet metal, the inclined surface of the guide block is used to open the clamping claws, thus establishing a connection between the claws and the sheet metal. In related technologies, the claws have a relatively long opening stroke, which is inconvenient for operation. Utility Model Content

[0003] This application provides an installation device that is easy to operate, thereby at least partially solving the above-mentioned technical problems.

[0004] To achieve the above objectives, according to a first aspect of this application, an installation device is provided, the installation device being configured to install a component to be installed onto a mounting component;

[0005] The installation device includes:

[0006] A locking element, movably connected to the mounting element;

[0007] The support member is movably connected to the locking member;

[0008] The support member has the following features:

[0009] The support is configured to deform to a locked position under the action of the locking member, so as to limit the radial displacement of the locking member along the centerline of the locking member.

[0010] Optionally, the mounting device further includes:

[0011] The base is configured to connect to the mounting component;

[0012] The support member also has:

[0013] The support body is connected to the base;

[0014] The support portion is formed at one end of the support body away from the base, and the support portion abuts against the locking member.

[0015] Optionally, the support portion also has an unlocked position relative to the mounting component;

[0016] When the support portion is in the unlocked position relative to the mounting member, there is a first included angle between the support portion and the support body; when the support portion is in the locked position, there is a second included angle between the support portion and the support body.

[0017] Wherein, the first included angle is smaller than the second included angle.

[0018] Optionally, the locking element includes:

[0019] The locking part is configured to abut against the mounting member;

[0020] A connecting portion is formed to the locking portion;

[0021] The connecting part abuts against the supporting part. Under the action of external force, the locking part moves radially a preset distance along the center line of the locking member so that the supporting part deforms to the locking position.

[0022] Optionally, the support portion has a first section and a second section;

[0023] The first segment is connected to the supporting body via the second segment;

[0024] During the process of the support deforming to the locked position, the connecting part slides from the first segment to the second segment and abuts against the second segment.

[0025] Optionally, the support portion and the connecting portion are configured to have continuous curved surfaces.

[0026] Optionally, the connecting portion is bent relative to the locking portion, and the connecting portion is close to the center line of the locking member relative to the locking portion.

[0027] Optionally, the bending directions of two adjacent connecting parts are opposite.

[0028] Optionally, the mounting device further includes:

[0029] A blocking element is configured to prevent the locking element from rotating about the center line of the locking element;

[0030] The blocking member is connected to the base and contacts the locking part.

[0031] Optionally, the mounting device further includes:

[0032] An actuator is configured to pass through the locking member along the centerline of the locking member;

[0033] The actuator applies a force to the locking member to move along the center line of the locking member, so that the connecting part acts on the supporting part.

[0034] Optionally, the base includes:

[0035] The positioning part forms a connecting hole;

[0036] The actuator passes through the locking member and extends into the connecting hole.

[0037] According to a second aspect of this application, a mating device is provided, the mating device comprising:

[0038] Parts to be installed and parts to be installed.

[0039] The mounting device is the mounting device described above;

[0040] The mounting device is configured to install the component to be installed onto the mounting component.

[0041] Optionally, the component to be installed includes an antenna.

[0042] The beneficial effect of this application is that it provides an easy-to-operate installation device.

[0043] More specifically, some embodiments of this application may produce the following specific beneficial effects:

[0044] In the installation device of this application embodiment, the installation device is configured to install the component to be installed onto the mounting component. The installation device includes a locking member and a support member, wherein the locking member is movably connected to the mounting component, and the support member and the locking member are movably connected. The support member has a support portion that can deform to a locked position under the action of the locking member, thereby limiting the radial displacement of the locking member along the centerline of the locking member. Through the above technical solution, by the locking member acting on the support portion of the support member, the support portion can deform to the locked position, which can limit the radial displacement of the locking member along the centerline of the locking member. Moreover, the deformation of the support portion can reduce the travel distance of the locking member towards the mounting component, thereby improving the ease of installation.

[0045] Other features and advantages of this application will be described in detail in the following detailed description section. Attached Figure Description

[0046] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0047] To gain a more complete understanding of this application and its beneficial effects, the following description will be provided in conjunction with the accompanying drawings, wherein the same reference numerals in the following description denote the same parts.

[0048] Figure 1 This is a schematic diagram of the overall structure of the installation device provided in an exemplary embodiment of this application;

[0049] Figure 2 This is an exploded structural diagram of the installation device provided in an exemplary embodiment of this application;

[0050] Figure 3 This is a schematic diagram of the support portion of the support member provided in an exemplary embodiment of this application in the unlocked position;

[0051] Figure 4 This is a schematic diagram of the support portion of the support member provided in an exemplary embodiment of this application in the locked position;

[0052] Figure 5 This is a schematic diagram of the structure of the locking member being opened in an exemplary embodiment of this application;

[0053] Figure 6 This is a schematic diagram of the retraction structure of the locking member provided in an exemplary embodiment of this application;

[0054] Figure 7 This is a schematic diagram of the overall structure of the locking member of the mating device provided in the exemplary embodiment of this application when it is in the unlocked position;

[0055] Figure 8 yes Figure 7 A schematic diagram of the exploded structure;

[0056] Figure 9 This is a schematic diagram of the overall structure of the locking member of the mating device provided in the exemplary embodiment of this application when it is in the locked position;

[0057] Figure 10 yes Figure 8 Top view;

[0058] Figure 11 yes Figure 10 Sectional view along CC;

[0059] Figure 12 yes Figure 9 Top view;

[0060] Figure 13 yes Figure 12 A cross-sectional view along DD.

[0061] Explanation of reference numerals in the attached figures:

[0062] 10. Matching equipment;

[0063] 100. Installation device;

[0064] 110. Locking element; 111. Locking part; 110a. Center line;

[0065] 112. Connecting part; 1121. First connecting part; 1122. Second connecting part; 1123. Third connecting part; 1124. Fourth connecting part;

[0066] 113. Locking body; 113a. Through hole;

[0067] 120, Support component; 120a, Support hole;

[0068] 121. Support section; 1211. First section; 1212. Second section;

[0069] 122. Support body; 123. Support ring;

[0070] 130. Base; 131. Positioning part; 131a. Connecting hole; 132. Base body; 133. Protrusion;

[0071] 140. Blocking component; 150. Actuating component;

[0072] 200, Mounting component; 200a, Mounting hole;

[0073] A. First included angle; B. Second included angle. Detailed Implementation

[0074] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of them. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the protection scope of this application.

[0075] Reference Figure 1 As shown, for ease of explanation, the corresponding figures use the orientations of up, down, left, right, front, and back to illustrate the relative positional relationships between the parts in this application. These should not be construed as limitations on absolute positions.

[0076] Furthermore, in this application, the axial direction of the center line 110a corresponds to the up-down direction, and the radial direction of the center line 110a corresponds to the left-right and front-back directions. Similarly, the axial direction of the center line 110a indicating the up-down direction is only for the convenience of introducing the specific embodiments of this application. There is no absolute correspondence between the axial direction of the center line 110a and the up-down direction. Likewise, there is no absolute correspondence between the radial direction of the center line 110a and the left-right and front-back directions.

[0077] During the antenna installation process onto the sheet metal, the inclined surface of the guide block is used to open the claw, thus establishing a connection between the claw and the sheet metal. The claw is opened primarily by the inclined surface of the guide block. During operation, bolts are used to apply upward force to the claw, allowing it to move along the plane of the sheet metal after connection, thereby expanding the claw.

[0078] However, this method uses the inclined surface of the guide block to drive the chuck to slide axially. In other words, the chuck needs to travel a certain distance along the axial direction in order to expand radially. In this case, the chuck is stretched for a long distance, which results in the bolt rotating more times, making the operation inconvenient.

[0079] According to the first aspect of this application, reference to Figure 1 and Figure 2 An installation device 100 is provided, which is configured to install the component to be installed onto the mounting component 200 for easy operation.

[0080] refer to Figure 2 The mounting device 100 in this embodiment includes a locking member 110 and a support member 120. The locking member 110 is movably connected to the mounting member 200, and the support member 120 is movably connected to the locking member 110.

[0081] refer to Figure 2 The support member 120 in this embodiment of the application has a support portion 121. The support portion 121 in this embodiment of the application is configured to deform to a locked position under the action of the locking member 110, so as to limit the radial displacement of the locking member 110 relative to the mounting member 200 along the center line 110a of the locking member 110.

[0082] Through the above technical solution, the locking member 110 acts on the support portion 121 of the support member 120, so that the support portion 121 can deform to the locking position, which can limit the radial displacement of the locking member 110 relative to the mounting member 200 along the center line 110a of the locking member 110. Moreover, the deformation of the support portion 121 can reduce the travel of the locking member 110 towards the mounting member 200 and improve the ease of installation.

[0083] Specifically, in this embodiment, the deformation of the support portion 121 refers to its ability to rotate. For example, during the deformation of the support portion 121 to the locked position, the support portion 121 can rotate clockwise from bottom to top along the axial direction of the center line 110a under the action of the locking member 110. During the rotation of the support portion 121, a reaction force can be applied to the locking member 110, so that the locking member 110 can be connected to the mounting member 200. As the support portion 121 continues to rotate clockwise upward, the locking member 110 can move radially relative to the center line 110a along the plane of the mounting member 200. This achieves the expansion of the locking member 110, and the support portion 121 can also remain in the locked position, thereby limiting the radial displacement of the locking member 110 along the center line 110a of the locking member 110. In this way, the locking member 110 can be kept in the expanded state, so that the mounting member can maintain a stable connection with the mounting member 200.

[0084] When the locking member 110 moves from top to bottom along the center line 110a of the locking member 110, the locking member 110 is disconnected from the mounting member 200, and the locking member 110 retracts radially along the center line 110a of the locking member 110. As the locking member 110 retracts, the support part 121 rotates counterclockwise from top to bottom. The force between the two gradually decreases. After the locking member 110 moves a certain distance along the center line 110a of the locking member 110, the locking member 110 will first separate from the mounting member 200. After moving a certain distance, the locking member 110 will separate from the support part 121. Thus, the locking member 110 completes the transition from the expanded state connected to the mounting member 200 to the retracted state disconnected from the mounting member 200.

[0085] Thus, the support plate of the support member 120 in this embodiment can apply a force to the locking member 110 in the radial direction by rotating, thereby enabling the locking member 110 to expand in the radial direction, thereby reducing the axial movement of the locking member 110 and further improving the installation efficiency.

[0086] In this embodiment, there are four support parts 121 and four support bodies 122. The four support bodies 122 can be arranged around the center line 110a, and the support bodies 122 can be connected by the support ring 123. It should be noted that the support body 122, support parts 121 and support ring 123 of the support member 120 in this embodiment are integrally formed.

[0087] In some embodiments, reference Figure 2 The mounting device 100 also includes a base 130; the support member 120 in this embodiment of the application also has a support body 122.

[0088] In this embodiment, the base 130 is configured to be connected to the mounting member 200, and the support body 122 is connected to the base 130; wherein, the support portion 121 is formed at the end of the support body 122 away from the base 130, and the support portion 121 abuts against the locking member 110.

[0089] This design allows the support 121 to be suspended relative to the support body 122, and further enables the support 121 to deform more stably during rotation, and connects with the base 130 and the mounting component 200 to achieve stable installation of the component to be installed.

[0090] In this embodiment, the component to be installed is configured as an antenna, meaning that the antenna can be stably installed on the mounting component 200.

[0091] In some embodiments, reference Figure 3In this embodiment, the support portion 121 also has an unlocked position relative to the mounting member 200; when the support portion 121 is in the unlocked position relative to the mounting member 200, a first included angle A exists between the support portion 121 and the support body 122; Reference Figure 4 In this embodiment of the application, when the support part 121 is in the locked position, there is a second included angle B between the support part 121 and the support body 122; wherein, the first included angle A is smaller than the second included angle B.

[0092] In this embodiment, the included angle between the support portion 121 and the support body 122 can be switched between a first included angle A and a second included angle B. This allows the locking member 110 to switch between the unlocked position and the locked position, making the operation convenient. Furthermore, since the first included angle A is smaller than the second included angle B, the locking member 110 can expand to achieve a stable connection with the mounting member 200. Also, the included angle is small in the unlocked position, making it easy to recover and retract.

[0093] The change in the angle between the support portion 121 and the support body 122 in this embodiment allows for a larger radial displacement (i.e., the expansion of the locking member 110) with a smaller rotation angle, thus improving installation efficiency.

[0094] For example, in the embodiments of this application, when the support portion 121 is in the unlocked position relative to the mounting member 200, the first included angle A between the support portion 121 and the support body 122 may include 26° or 30°, and may be an acute angle, but is not limited to an acute angle.

[0095] For example, in the embodiments of this application, when the support portion 121 is in a locked position relative to the mounting member 200, the second included angle B between the support portion 121 and the support body 122 may include 129° or 120°, may be an obtuse angle or a right angle.

[0096] In some embodiments, reference Figure 5 and Figure 6 The locking element 110 includes a locking part 111 and a connecting part 112.

[0097] In this embodiment, the locking part 111 is configured to abut against the mounting member 200, and the connecting part 112 is formed to the locking part 111.

[0098] In this embodiment, the connecting part 112 abuts against the supporting part 121. Under the action of external force, the locking part 111 moves radially a preset distance along the center line 110a of the locking member 110 so that the supporting part 121 deforms to the locking position.

[0099] In this embodiment, by forming the connecting portion 112 onto the locking portion 111, and having the connecting portion 112 abut against the supporting portion 121 and the locking portion 111 abut against the mounting member 200, the stress of the locking member 110 can be effectively dispersed, avoiding stress concentration in the entire locking member 110. Furthermore, during the clockwise and counterclockwise rotation of the supporting portion 121, the connecting portion 112 and the supporting portion 121 remain in contact, enabling stable transmission of the force between them. The locking portion 111 can move radially a predetermined distance along the centerline 110a of the locking member 110, causing the supporting portion 121 to deform to the locking position (i.e., the supporting portion 121 can rotate relative to the supporting body 122 to the locking position). This deformation method ensures stable operation. When the supporting portion 121 is in the locking position, the locking portion 111 and the supporting portion 121 are spaced apart, meaning there is no contact between the locking portion 111 and the supporting portion 121, while the supporting portion 121 and the connecting portion 112 are in contact.

[0100] refer to Figure 6 The locking member 110 in this application embodiment may further include a locking body 113, wherein each locking part 111 is formed around the center line 110a to the locking body 113. The locking part 111 and the connecting part 112 may be integrally formed. Furthermore, the entire locking member 110 may be integrally formed, that is, the locking part 111, the connecting part 112 and the locking body 113 may be integrally formed.

[0101] For example, the locking element 110 can be configured as a pawl, as shown in the reference. Figure 5 and Figure 6 The chuck includes multiple chuck segments and chuck bodies. Each chuck segment is integrally formed by the chuck body to form a whole. The chuck segments can expand or contract radially along the center line 110a of the locking member 110. Under the action of the support portion 121 of the support member 120, the chuck segments can be kept in the expanded state.

[0102] That is, the locking part 111 in the embodiments of this application can be constructed as a claw flap, and the connecting part 112 can be formed to the claw flap. For example, the connecting part 112 can be constructed as a plate, which can increase the contact area between the connecting part 112 and the supporting part 121.

[0103] In this embodiment, the number of locking parts 111 may include four, and the number of connecting parts 112 may be the same as the number of locking parts 111, or it may also be four. In this embodiment, each locking part 111 is in a retracted state, and the angle between the locking part 111 and the center line 110a of the locking member 110 is the same. In this way, it can be ensured that each locking part 111 can expand synchronously during the expansion process, which is convenient for operation.

[0104] In some embodiments, reference Figure 11The support portion 121 has a first segment 1211 and a second segment 1212, wherein the first segment 1211 is connected to the support body 122 through the second segment 1212.

[0105] During the process of the support portion 121 deforming to the locked position, the connecting portion 112 in this embodiment slides from the first segment 1211 to the second segment 1212 and abuts against the second segment 1212.

[0106] In this embodiment, by segmenting the support portion 121, when the support portion 121 is in the unlocked position, the connecting portion 112 contacts the first segment 1211. When the support portion 121 is rotated clockwise to the locked position, the connecting portion 112 can slide from the first segment 1211 to the second segment 1212. When the support portion 121 is in the locked position, the connecting portion 112 abuts against the second segment 1212. In this way, the contact position between the connecting portion 112 and the support portion 121 can be changed, avoiding stress concentration.

[0107] In some embodiments, the support portion 121 and the connecting portion 112 are configured to have continuous curved surfaces.

[0108] In this embodiment, by constructing the support portion 121 and the connecting portion 112 as having continuous curved surfaces, the sliding between the support portion 121 and the connecting portion 112 can be made smoother, reducing the friction between them, and making the locking portion 111 of the locking member 110 more stable when it expands radially relative to the center line 110a.

[0109] It should be noted that the first segment 1211 of the support portion 121 in this embodiment can be constructed as a curved surface, the second segment 1212 can be constructed as a plane, and the connecting portion 112 is constructed as a curved surface. During the relative sliding process of the support portion 121 and the connecting portion 112, the first segment 1211 of the support portion 121 can be equivalent to a cam, which can deform and open the locking portion 111. During the deformation process, the travel of the locking portion 111 towards the mounting member 200 can be reduced, thereby improving the installation efficiency.

[0110] For example, the curved surface of the connecting portion 112 in the embodiments of this application can be constructed as a semicircle, and the first segment 1211 of the support portion 121 can also be constructed as a semicircle accordingly.

[0111] In some embodiments, reference Figure 5 and Figure 6 The connecting part 112 is bent relative to the locking part 111, and the connecting part 112 is close to the center line 110a of the locking member 110 relative to the locking part 111.

[0112] In this application, by bending the connecting part 112 relative to the locking part 111 and placing the connecting part 112 close to the center line 110a of the locking member 110 relative to the locking part 111, when the supporting part 121 pushes the connecting part 112 to expand the locking part 111, the point of application of the force of the supporting part 121 and the connecting part 112 is closer to the center line 110a, resulting in a larger displacement at the end of the locking part 111. Thus, a larger expansion of the end of the locking part 111 is achieved with a smaller displacement of the supporting part 121, thereby increasing the locking force. When the locking part 111 contracts, the overall outer diameter of the locking member 110 is smaller, improving space utilization and facilitating installation.

[0113] In some embodiments, the bending directions of two adjacent connecting portions 112 are opposite, so that a reasonable interval can be achieved between the support portions 121 that abut against the connecting portions 112. By adopting such a scheme, interference between the support portions 121 that abut against the connecting portions 112 can be avoided.

[0114] For example, the locking member 110 in this embodiment of the application includes a first connecting part 1121, a second connecting part 1122, a third connecting part 1123 and a fourth connecting part 1124 in a clockwise direction around the center line 110a. Correspondingly, the bending directions of the first connecting part 1121 and the second connecting part 1122 are opposite, the bending directions of the second connecting part 1122 and the third connecting part 1123 are opposite, the bending directions of the third connecting part 1123 and the fourth connecting part 1124 are opposite, and the bending direction of the fourth connecting part 1124 is opposite to that of the first connecting part 1121.

[0115] In some embodiments, reference Figure 2 The mounting device 100 also includes a blocking element 140.

[0116] In this embodiment, the blocking member 140 is configured to block the locking member 110 from rotating about the center line 110a of the locking member 110.

[0117] In this embodiment, the blocking member 140 is connected to the base 130, and the blocking member 140 is in contact with the locking part 111.

[0118] By setting the blocking member 140, the locking member 110 can be prevented from rotating around the center line 110a, thus ensuring the continuous connection between the connecting part 112 and the support part 121 and preventing the connection between the support member 120 and the locking member 110 from failing.

[0119] For example, the blocking member 140 can be constructed as a columnar structure, and the blocking member 140 can extend along the axial direction of the center line 110a, thereby enabling the blocking member 140 and the locking part 111 to form a surface contact.

[0120] In some embodiments, reference Figure 1 and Figure 2 The mounting device 100 also includes an actuator 150.

[0121] In this embodiment, the actuator 150 is configured to pass through the locking member 110 along the center line 110a of the locking member 110; wherein, the actuator 150 applies a force to the locking member 110 to move along the center line 110a of the locking member 110, so that the connecting part 112 acts on the support part 121.

[0122] By passing the actuator 150 through the locking member 110 along the center line 110a of the locking member 110, a force can be applied to the locking member 110, allowing the locking member 110 to move along the center line 110a. The connecting portion 112 on the locking member 110 can interact with the support portion 121 of the support member 120, thereby causing the locking portion 111 of the locking member 110 to expand radially using the support portion 121 of the support member 120.

[0123] In some embodiments, reference Figure 8 The base 130 includes: a positioning part 131.

[0124] In this embodiment, the positioning part 131 forms a connecting hole 131a, through which the actuator 150 passes the locking member 110 to extend into the connecting hole 131a.

[0125] In this embodiment, the actuator 150 and the positioning part 131 can be threadedly connected. For example, a thread can be provided on the inner wall of the connecting hole 131a. The actuator 150 can be constructed as a bolt. The support 120 is located between the locking part 110 and the positioning part 131. The support 120 and the positioning part 131 are conformally assembled, that is, the support 120 can surround the positioning part 131, so that the connection between the support 120 and the positioning part can be realized.

[0126] In this embodiment of the application, a through hole 113a can be opened on the locking body 113 along the center line 110a. Correspondingly, a mounting hole 200a with the same center line 110a as the through hole 113a can be opened on the mounting member 200. A support hole 120a with the same center line 110a as the through hole 113a can be opened on the support member 120.

[0127] In this embodiment, each locking part 111 of the locking member 110 encloses a receiving space. The positioning part 131 on the base 130 can pass through the mounting hole 200a on the mounting member 200. The locking member 110 surrounds the support part 121. The actuating member 150 passes through the through hole 113a of the locking member 110 and the support hole 120a of the support member 120, partially extending into the connecting hole 131a of the positioning part 131, and partially abutting against the locking body 113 of the locking member 110. It is screwed into the connecting hole 112a. During the process of connecting with the positioning part 131, the actuator 150 can apply an upward force to the locking member 110. In this case, the connecting part 112 of the locking member 110 and the support part 121 of the support member 120 come into contact and generate an interaction force, causing the support part 121 to deform to the locked position (that is, the support part 121 can rotate), so as to reduce the travel of the locking member 110 towards the mounting member 200 while realizing the radial expansion of the locking part 111 of the locking member 110.

[0128] In some other embodiments, the actuator 150 can also be engaged with the positioning part 131. For example, a protrusion can be provided on the inner wall surface of the connecting hole 131a, and correspondingly, a protrusion can be provided on the outer wall surface of the actuator 150. During the process of the actuator 150 extending into the connecting hole 131a, the two protrusions are staggered to allow the actuator 150 to extend into the connecting hole 131a. When the actuator 150 is extended into the connecting hole 131a, the actuator 150 is rotated by a certain angle so that the two protrusions can mate. This can restrict the axial movement of the actuator 150 along the center line 110a. With such a structure, a force can also be applied to the locking member 110.

[0129] In this embodiment, the base 130 further includes a base body 132 and a protrusion 133. The protrusion 133 protrudes axially from the base body 132 along the centerline 110a. During the deformation of the support portion 121 of the support member 120, the protrusion 133 can prevent the support member 120 from continuing to deform, thereby improving the overall stability of the mounting device 100. The base 130 in this embodiment is integrally molded.

[0130] According to the second aspect of this application, reference to Figures 7 to 13 A mating device 10 is provided, which includes a component to be installed, a mounting component 200, and a mounting device 100. In this embodiment, the component to be installed is installed onto the mounting component 200 by the mounting device 100.

[0131] The mounting device 100 in this embodiment is the mounting device 100 as described above.

[0132] The mating device 10 in this embodiment adopts the mounting device 100 as described in the first aspect, and therefore has all the beneficial effects of the mounting device 100 described in the first aspect, which will not be elaborated here.

[0133] Figure 11 The support part 121 is in the unlocked position. Figure 13 When the support portion 121 is in the locked position, that is, when the support portion 121 in this embodiment can be moved from... Figure 11 The shown location has been switched to Figure 12 As shown in the figure, the locking member 110 can be opened from the retracted state to the expanded state.

[0134] In some embodiments, the component to be installed includes an antenna.

[0135] In this embodiment, the antenna can be mounted on the base 130, so that the antenna and the base 130 can form a whole. The part of this whole can be passed through the mounting hole 200a of the mounting member 200 for easy installation.

[0136] In some other embodiments, the device to be installed in this application embodiment may also be a satellite device or other electronic device, which will not be described in detail here.

[0137] The mounting component 200 in the embodiments of this application can be constructed as a sheet metal part.

[0138] For example, the sheet metal part can be a vehicle sheet metal part, so that the antenna can be stably installed on the vehicle and is easy to operate.

[0139] In the description of this application, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined as "first" or "second" may explicitly or implicitly include one or more features. In the description of this application, "multiple" means two or more, unless otherwise explicitly specified.

[0140] In the above embodiments, the descriptions of each embodiment have different focuses. For parts not described in detail in a certain embodiment, please refer to the relevant descriptions in other embodiments.

[0141] The embodiments, implementation methods, and related technical features of this application can be combined and substituted for each other without conflict.

[0142] The above are merely preferred embodiments of this application and are not intended to limit this application in any way. Any simple modifications, equivalent changes, and alterations made to the above embodiments based on the technical essence of this application without departing from the scope of the technical solution of this application shall still fall within the scope of the technical solution of this application.

Claims

1. An installation device (100), characterized in that, The mounting device (100) is configured to mount the component to be mounted onto the mounting component (200); The mounting device (100) includes: A locking element (110) is movably connected to the mounting element (200); The support member (120) is movably connected to the locking member (110); The support member (120) has the following features: The support (121) is configured to deform to a locked position under the action of the locking member (110) to limit the radial displacement of the locking member (110) along the center line (110a) of the locking member (110).

2. The installation device (100) according to claim 1, characterized in that, The mounting device (100) further includes: The base (130) is configured to connect with the mounting element (200); The support member (120) also has: The support body (122) is connected to the base (130); The support portion (121) is formed at one end of the support body (122) away from the base (130), and the support portion (121) abuts against the locking member (110).

3. The installation device (100) according to claim 2, characterized in that, The support (121) also has an unlocked position relative to the mounting member (200); When the support portion (121) is in the unlocked position relative to the mounting member (200), there is a first included angle (A) between the support portion (121) and the support body (122); when the support portion (121) is in the locked position, there is a second included angle (B) between the support portion (121) and the support body (122). Wherein, the first included angle (A) is smaller than the second included angle (B).

4. The installation device (100) according to claim 2, characterized in that, The locking element (110) includes: The locking part (111) is configured to abut against the mounting member (200); A connecting portion (112) is formed to the locking portion (111); Wherein, the connecting part (112) abuts against the supporting part (121), and under the action of external force, the locking part (111) moves radially a predetermined distance along the center line (110a) of the locking member (110) so that the supporting part (121) deforms to the locking position.

5. The mounting device (100) according to claim 4, characterized in that, The support portion (121) has a first section (1211) and a second section (1212); The first segment (1211) is connected to the support body (122) via the second segment (1212); During the process of the support (121) deforming to the locked position, the connecting part (112) slides from the first segment (1211) to the second segment (1212) and abuts against the second segment (1212).

6. The mounting device (100) according to claim 4, characterized in that, The support portion (121) and the connecting portion (112) are constructed to have continuous curved surfaces.

7. The mounting device (100) according to claim 4, characterized in that, The connecting portion (112) is bent relative to the locking portion (111), and the connecting portion (112) is close to the center line (110a) of the locking member (110) relative to the locking portion (111).

8. The mounting device (100) according to claim 4, characterized in that, The bending directions of two adjacent connecting parts (112) are opposite.

9. The mounting device (100) according to claim 4, characterized in that, The mounting device (100) further includes: A blocking member (140) is configured to prevent the locking member (110) from rotating about the center line (110a) of the locking member (110); The blocking member (140) is connected to the base (130) and the blocking member (140) is in contact with the locking part (111).

10. The mounting device (100) according to any one of claims 4 to 9, characterized in that, The mounting device (100) further includes: An actuator (150) is configured to pass through the locking member (110) along the center line (110a) of the locking member (110); The actuator (150) applies a force to the locking member (110) to move along the center line (110a) of the locking member (110), so that the connecting part (112) acts on the supporting part (121).

11. The mounting device (100) according to claim 10, characterized in that, The base (130) includes: The positioning part (131) forms a connecting hole (131a); The actuator (150) passes through the locking member (110) and extends into the connecting hole (131a).

12. A mating device (10), characterized in that, The mating device (10) includes: The component to be installed and the installation component (200), The mounting device (100) is the mounting device (100) as described in any one of claims 1 to 11; The mounting device (100) is configured to mount the component to be mounted onto the mounting component (200).

13. The mating device (10) according to claim 12, characterized in that, The component to be installed includes an antenna.