Fixed wire and camera

Abstract

This utility model provides a cable fixing component and a camera. The cable fixing component has a first cable protection hole arranged vertically along the component and at least one second cable protection hole arranged horizontally along the component. The first end of each second cable protection hole is connected to the first cable protection hole. The first cable protection hole is used to place a first cable, and each second cable protection hole is used to place a second cable. The first cable protection hole and at least one second cable protection hole cooperate to provide protection for the first and second cables. In this utility model, a first cable can be placed in the first cable protection hole, and a second cable can be placed in each second cable protection hole. The cooperation of the first cable protection hole and at least one second cable protection hole can provide good protection for the first and second cables. Even in harsh environments, it can effectively slow down cable aging or prevent the cables from hardening and breaking, thereby avoiding problems such as power supply system abnormalities and poor connection of the wiring, thus meeting the usage requirements.

Description

Technical Field

[0001] This utility model relates to the field of wire fixing technology, and in particular to a wire fixing component and a camera. Background Technology

[0002] Currently, the environment in which electronic devices operate has a significant impact on their internal wiring. For example, high-temperature and high-humidity environments (such as tropical regions) can easily cause wiring to age, while low-temperature environments (such as northern winters) may cause wiring to harden and break. However, many existing electronic devices (such as cameras) do not have adequate protection measures for their wiring, which can accelerate wiring aging or cause wiring to harden and break, leading to problems such as abnormal power supply systems and poor contact in connection lines, thus failing to meet usage requirements. Summary of the Invention

[0003] This utility model provides a cable fixing component and a camera to solve the problem that many existing electronic devices (such as cameras) do not have good protection measures for cables, which will accelerate the aging of cables or cause the cables to harden and break, thus failing to meet the usage requirements.

[0004] A wire fixing component, the wire fixing component being detachably mounted on a first workpiece;

[0005] The wire fixing component is provided with a first wire protection hole arranged in the vertical direction of the wire fixing component and at least one second wire protection hole arranged in the horizontal direction of the wire fixing component, and the first end of each second wire protection hole is connected to the first wire protection hole.

[0006] The first wire protection hole is used to place a first wire, and each second wire protection hole is used to place a second wire. The first wire protection hole cooperates with at least one second wire protection hole to provide protection for the first wire and the second wire.

[0007] Preferably, the wire fixing member includes a main body and a limiting part extending outward from a first end of the main body in a horizontal direction along the main body;

[0008] A snap-fit ​​structure is provided on the main body near the second end of the main body, and there is a snap-fit ​​space between the snap-fit ​​structure and the limiting part for snap-fitting with the first workpiece.

[0009] The first wire protection hole is provided on the main body, and each of the second wire protection holes is provided on the limiting part and the main body.

[0010] Preferably, the second end of the main body is provided with a plug-in guide structure; the outer diameter of the plug-in guide structure gradually decreases from the end near the limiting part to the end away from the limiting part.

[0011] Preferably, the wire fixing member further includes at least two limiting protrusions extending from the outer wall of the limiting portion along the horizontal direction of the main body portion, and the at least two limiting protrusions are respectively disposed on opposite sides of the main body portion;

[0012] The snap-fit ​​structure includes at least two snap-fit ​​blocks, and in the vertical direction of the main body, each snap-fit ​​block at least partially overlaps with one of the limiting protrusions.

[0013] Preferably, the wire fixing component further includes a separator tube; one end of the separator tube is detachably mounted on the main body, and the separator tube has at least two wire passages communicating with the first wire protection hole, and each wire passage is used to pass through one of the first wires.

[0014] Preferably, the wire fixing component is provided with a cutting groove arranged along the vertical direction of the wire fixing component, and the cutting groove communicates with the first wire protection hole.

[0015] A camera includes a body, a head, a control module, a tail cable assembly, and at least one antenna assembly, and also includes the aforementioned cable fixing component;

[0016] The machine head is rotatably mounted on the machine body, and the control module is disposed inside the machine body and connected to the machine head;

[0017] The wire fixing component can be detachably installed on the machine body;

[0018] The first wire of the tail wire assembly passes through the first wire protection hole of the wire fixing member and is connected to the control module and the machine head;

[0019] Each of the antenna assemblies is detachably mounted on the body, and the second wire of each antenna assembly passes sequentially through a second wire protection hole and a first wire protection hole of the wire fixing member and is connected to the control module and the head unit.

[0020] Preferably, the fuselage includes a first housing and a second housing;

[0021] The first housing and the second housing are connected to form an accommodating space, the control module is installed in the accommodating space, and the machine head is rotatably mounted on the second housing;

[0022] The first housing is provided with a snap-fit ​​groove and at least one antenna mounting hole at intervals; the wire fastener is snapped into the snap-fit ​​groove, and an antenna assembly is detachably installed in each of the antenna mounting holes.

[0023] Preferably, the camera further includes a fixed bracket, which is detachably connected to the camera body and is used to fix the camera to the second workpiece; the tail wire assembly passes through the fixed bracket.

[0024] Preferably, the fixing bracket includes a bracket body, a fixing part disposed at a first end of the bracket body, and a connecting part extending from a second end of the bracket body in a direction perpendicular to the bracket body;

[0025] The fixing part is used to fix it to the second workpiece;

[0026] The machine body is provided with a connecting sleeve, and the connecting part is detachably connected to the connecting sleeve;

[0027] The fixing part is provided with a first through groove, the bracket body is provided with a second through groove, and the connecting part is provided with a third through groove;

[0028] The first through slot, the second through slot, and the third through slot are connected in sequence to form a channel for placing the tail wire assembly.

[0029] In this embodiment of the invention, the wire fixing component is provided with a first wire protection hole and at least one second wire protection hole; the first wire protection hole is arranged along the vertical direction of the wire fixing component, and each second wire protection hole is arranged along the horizontal direction of the wire fixing component, with the first end of each second wire protection hole communicating with the first wire protection hole; this arrangement allows a first wire to be placed in the first wire protection hole and a second wire to be placed in each second wire protection hole. The cooperation between the first wire protection hole and at least one second wire protection hole can provide better protection for the first and second wires, effectively slowing down wire aging or preventing wire hardening and breakage even in harsh environments, thereby avoiding problems such as power supply system abnormalities and poor contact of connection lines, thus meeting usage requirements. Attached Figure Description

[0030] To more clearly illustrate the technical solutions of the embodiments of this application, the drawings used in the description of the embodiments of this application 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.

[0031] Figure 1 This is a first isometric view of the wire fixing component in one embodiment of the present invention;

[0032] Figure 2 This is a second isometric view of the wire fixing component in one embodiment of the present invention;

[0033] Figure 3 This is an axonometric view of a camera in one embodiment of the present invention;

[0034] Figure 4 This is an exploded view of a camera in one embodiment of this utility model;

[0035] Figure 5 This is an axonometric view of the first housing according to an embodiment of the present invention;

[0036] Figure 6 This is a cross-sectional view of a camera in one embodiment of the present invention;

[0037] Figure 7 yes Figure 6 Enlarged view of point A in the middle.

[0038] The components are as follows: 1. Cable fixing component; 11. Main body; 12. Limiting part; 13. Snap-fit ​​structure; 131. Snap-fit ​​block; 14. Insertion guide structure; 15. Limiting protrusion; 16. Divider tube; 161. Cable passage; 17. Cutting groove; 2. First cable protection hole; 3. Second cable protection hole; 4. Body; 41. First housing; 411. Snap-fit ​​groove; 412. Antenna mounting hole; 42. Second housing; 43. Connecting sleeve; 5. Head; 6. Antenna assembly; 7. Fixing bracket; 71. Bracket body; 72. Fixing part; 73. Connecting part. Detailed Implementation

[0039] To make the technical problems, technical solutions, and beneficial effects solved by this application clearer, the following detailed description is provided in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative and not intended to limit the scope of this application.

[0040] In the description of this application, it should be understood that the terms "longitudinal," "radial," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicating orientation or positional relationships based on the orientation or positional relationships shown in the accompanying drawings, are used only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this application. In the description of this application, unless otherwise stated, "a plurality of" means two or more.

[0041] In the description of this application, it should be noted that, unless otherwise expressly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this application based on the specific circumstances.

[0042] This utility model embodiment provides a wire fixing member 1, referring to... Figures 1-7The wire fixing component 1 is detachably installed on the first workpiece. The wire fixing component 1 is provided with a first wire protection hole 2 arranged in the vertical direction of the wire fixing component 1 and at least one second wire protection hole 3 arranged in the horizontal direction of the wire fixing component 1. The first end of each second wire protection hole 3 is connected to the first wire protection hole 2. The first wire protection hole 2 is used to place a first wire, and each second wire protection hole 3 is used to place a second wire. The first wire protection hole 2 and at least one second wire protection hole 3 cooperate to provide protection for the first wire and the second wire.

[0043] As an example, the wire fastener 1 is mainly used in electronic devices (such as cameras) to protect the wires inside the electronic devices. Specifically, the wire fastener 1 can be detachably installed on the first workpiece (such as the camera body 4) by means of snap-fit, screw-fit, adhesive or magnetic connection. The material of the wire fastener 1 is silicone. The silicone material has a temperature range of -60℃ to 300℃. It remains stable at high temperatures and still has elasticity at low temperatures. The silicone has the properties of resistance to acid, alkali, ozone and ultraviolet corrosion, excellent aging resistance, wear resistance and ultraviolet resistance, which can effectively protect the wires. The wire fixing component 1 is provided with a first wire protection hole 2 and at least one second wire protection hole 3; the first wire protection hole 2 is arranged along the vertical direction of the wire fixing component 1, and each second wire protection hole 3 is arranged along the horizontal direction of the wire fixing component 1, and the first end of each second wire protection hole 3 is connected to the first wire protection hole 2; in this arrangement, a first wire can be placed in the first wire protection hole 2, and a second wire can be placed in each second wire protection hole 3. The first wire protection hole 2 and at least one second wire protection hole 3 cooperate to provide better protection for the first and second wires. Even in harsh environments, it can effectively slow down the aging of the wires or prevent the wires from hardening and breaking, thereby avoiding problems such as abnormal power supply system and poor contact of connection lines, so as to meet the usage requirements.

[0044] In this example, a wire fixing component 1 is added at the turning point of the first workpiece. All wires are concentrated within the fixing component 1, and stress is dispersed. This disperses the mechanical stress generated by repeated bending during movement and offsets the tensile / torsional deformation of the wires through elastic deformation, achieving fatigue protection (protection efficiency ≥90%). This reduces the risk of wire sheath wear or internal conductor breakage, especially in high-frequency rotation scenarios, reducing the risk of material fatigue fracture due to friction. It can resist scratches or accidental compression from external hard objects, preventing short circuits or signal interference caused by damage to the wire insulation layer. The fixing component 1 has good temperature resistance and flexibility, maintaining elasticity in the range of -60℃ to 300℃, and will not be affected by extreme weather conditions, ensuring the normal operation of electronic equipment, reducing product maintenance or rework, reducing labor costs and material losses, and ultimately achieving the goal of saving energy and reducing costs. It conforms to manufacturing trends, is simple to assemble, easy to operate, suitable for most people, and more effectively controls costs. Furthermore, the fixing component 1 is wear-resistant, impact-resistant, and corrosion-resistant, meeting the reliability testing requirements of the machine. For example, the wire fixing component 1 is made of silicone. The wire fixing component 1 is detachably installed on the camera body 4. The first wire of the tail wire assembly in the camera is passed through the first wire protection hole 2. The second wire of each antenna assembly 6 in the camera is sequentially passed through a second wire protection hole 3 and a first wire protection hole 2 of the wire fixing component 1. With this configuration, when the camera head 5 rotates, the wire fixing component 1 can provide protection for the first and second wires, disperse the mechanical stress generated by repeated bending during the movement, and offset the tensile / torsional deformation of the wires through elastic deformation, thereby achieving fatigue protection (protection efficiency ≥90%), reducing the risk of wire sheath wear or internal conductor breakage; it can resist scratches or accidental squeezing from external hard objects, and avoid short circuits or signal interference caused by damage to the wire insulation layer.

[0045] In one embodiment, reference is made to Figure 1 , Figure 6 and Figure 7 The wire fixing component 1 includes a main body 11 and a limiting part 12 extending outward from the first end of the main body 11 along the horizontal direction of the main body 11; a snap-fit ​​structure 13 is provided on the main body 11 near the second end of the main body 11, and there is a snap-fit ​​space between the snap-fit ​​structure 13 and the limiting part 12 for snap-fitting with the first workpiece; a first wire protection hole 2 is provided on the main body 11, and each second wire protection hole 3 is provided on the limiting part 12 and the main body 11.

[0046] As an example, the wire fastener 1 includes a main body 11 and a limiting part 12. The main body 11 serves as a base, and the limiting part 12 is a component that extends outward from the first end of the main body 11 along the horizontal direction of the main body 11. A snap-fit ​​structure 13 is provided on the main body 11 near the second end of the main body 11. There is a snap-fit ​​space between the snap-fit ​​structure 13 and the limiting part 12 for snap-fitting with the first workpiece. With this arrangement, the main body 11 passes through the first workpiece, and the limiting part 12 and the snap-fit ​​structure 13 are located on opposite side walls of the first workpiece, so as to snap the wire fastener 1 onto the first workpiece. The first wire protection hole 2 is provided on the main body 11, and each second wire protection hole 3 is provided on the limiting part 12 and the main body 11. The first wire protection hole 2 is arranged in the vertical direction of the main body 11, and each second wire protection hole 3 is arranged in the horizontal direction of the main body 11. Specifically, each second wire protection hole 3 includes a part provided on the limiting part 12 and a part provided on the main body 11. The first end of each second wire protection hole 3 is connected to the first wire protection hole 2. With this arrangement, a first wire can be placed in the first wire protection hole 2, and a second wire can be placed in each second wire protection hole 3. The first wire protection hole 2 and at least one second wire protection hole 3 cooperate to provide better protection for the first and second wires. Even in harsh environments, it can effectively slow down the aging of the wires or prevent the wires from hardening and breaking, thereby avoiding problems such as abnormal power supply system and poor contact of connection lines, so as to meet the usage requirements.

[0047] In one embodiment, reference is made to Figure 1 The second end of the main body 11 is provided with a plug-in guide structure 14; the outer diameter of the plug-in guide structure 14 gradually decreases from the end near the limiting part 12 to the end far from the limiting part 12.

[0048] As an example, a plug-in guide structure 14 is provided at the second end of the main body 11; the outer diameter of the plug-in guide structure 14 gradually decreases from the end near the limiting part 12 to the end away from the limiting part 12. With this arrangement, when the wire fastener 1 is installed on the first workpiece, the plug-in guide structure 14 can provide a guiding function for the main body 11 to be inserted into the first workpiece, thus facilitating the installation of the wire fastener 1.

[0049] In one embodiment, reference is made to Figure 1 , Figure 2 , Figure 6 and Figure 7 The wire fastener 1 also includes at least two limiting protrusions 15 extending from the outer side wall of the limiting portion 12 along the horizontal direction of the main body portion 11, and the at least two limiting protrusions 15 are respectively disposed on opposite sides of the main body portion 11; the snap-fit ​​structure 13 includes at least two snap-fit ​​blocks 131, and in the vertical direction of the main body portion 11, each snap-fit ​​block 131 at least partially overlaps with a limiting protrusion 15.

[0050] As an example, the wire fastener 1 also includes at least two limiting protrusions 15 (e.g., two). The at least two limiting protrusions 15 are components that extend from the outer side wall of the limiting portion 12 along the horizontal direction of the main body portion 11. The at least two limiting protrusions 15 are respectively disposed on opposite sides of the main body portion 11. The snap-fit ​​structure 13 includes at least two snap-fit ​​blocks 131 (e.g., two). In the vertical direction of the main body portion 11, each snap-fit ​​block 131 at least partially overlaps with a limiting protrusion 15. This arrangement forms a snap-fit ​​space between the snap-fit ​​block 131 and the limiting protrusion 15, which can snap-fit ​​with the first workpiece. The main body portion 11 passes through the first workpiece, and the snap-fit ​​blocks 131 and the limiting protrusions 15 are respectively located on opposite side walls of the first workpiece to snap the wire fastener 1 onto the first workpiece. Specifically, a first chamfer is provided at one end of the first wire protection hole 2 near the limiting part 12, which can provide a smooth movement space for the first wire and avoid friction damage to the first wire; a second chamfer is provided at the second end of the second wire protection hole 3, which can provide a smooth movement space for the second wire and avoid friction damage to the second wire.

[0051] In one embodiment, reference is made to Figure 6 and Figure 7 The wire fixing component 1 also includes a partition tube 16; one end of the partition tube 16 is detachably mounted on the main body 11, and the partition tube 16 is provided with at least two wire passages 161 that communicate with the first wire protection hole 2, and each wire passage 161 is used to pass through a first wire.

[0052] As an example, the cable fixing component 1 also includes a separator tube 16. During installation, one end of the separator tube 16 is detachably installed on the main body 11 by means of snap-fit, adhesive, or magnetic connection, which facilitates the installation and removal of the separator tube 16. The separator tube 16 has at least two cable passages 161 communicating with the first cable protection hole 2. Each cable passage 161 is used to pass a first wire, thus separating multiple first wires, preventing tangling, preventing short circuits between adjacent wires, and improving the safety of equipment use.

[0053] In one embodiment, reference is made to Figure 1 and Figure 2 The wire fixing component 1 is provided with a cutting groove 17 arranged in the vertical direction of the wire fixing component 1, and the cutting groove 17 is connected to the first wire protection hole 2.

[0054] As an example, a cutting groove 17 is provided on the wire fixing component 1, which is arranged in the vertical direction of the wire fixing component 1. The cutting groove 17 is connected to the first wire protection hole 2. This arrangement allows the size of the first wire protection hole 2 to be adjusted according to the actual situation, which facilitates the placement of the first wire in the first wire protection hole 2 and improves the adaptability of the first wire protection hole 2.

[0055] This utility model provides a camera, referring to... Figure 3 , Figure 4 , Figure 5 , Figure 6 and Figure 7 The device includes a fuselage 4, a head unit 5, a control module, a tail wire assembly, and at least one antenna assembly 6, and also includes a wire fixing component 1. The head unit 5 is rotatably mounted on the fuselage 4, and the control module is disposed inside the fuselage 4 and connected to the head unit 5. The wire fixing component 1 is detachably mounted on the fuselage 4. The first wire of the tail wire assembly passes through the first wire protection hole 2 of the wire fixing component 1 and is connected to the control module. Each antenna assembly 6 is detachably mounted on the fuselage 4, and the second wire of each antenna assembly 6 passes through the second wire protection hole 3 and the first wire protection hole 2 of the wire fixing component 1 in sequence and is connected to the control module.

[0056] As an example, the camera includes a body 4, a head unit 5, a control module, a tail cable assembly, and at least one antenna assembly 6, as well as a cable fixing component 1. During installation, the head unit 5 is rotatably mounted on the body 4, and the control module is housed within the body 4 and connected to the head unit 5. This allows the control module to control the rotation of the head unit 5, enabling monitoring from different locations. The cable fixing component 1 is detachably mounted on the body 4 using snap-fit, screw-fit, adhesive, or magnetic connections. The first wire of the tail cable assembly passes through a first wire protection hole 2 in the cable fixing component 1 and connects to the control module and the head unit 5. Each antenna assembly 6 is detachably mounted on the body 4 using snap-fit, screw-fit, adhesive, or magnetic connections, and the second wire of each antenna assembly 6 passes sequentially through a second wire protection hole 3 and a first wire protection hole 2 in the cable fixing component 1 and connects to the control module and the head unit 5. This configuration ensures that the wires of both the tail cable assembly and the antenna assembly 6 are securely mounted. Integrated wiring is achieved within the mounting bracket 1 installed on the body 4. When the control module controls the head 5 to rotate, the mounting bracket 1 can provide protection for the first and second wires. It can disperse the mechanical stress generated by repeated bending during the movement, and offset the tensile / torsional deformation of the wires through elastic deformation, achieving fatigue protection (protection efficiency ≥90%), reducing the risk of wire sheath wear or internal conductor breakage; it can resist scratches or accidental squeezing from external hard objects, and avoid short circuits or signal interference caused by damage to the wire insulation layer.

[0057] Cameras include, but are not limited to, PTZ cameras. The wiring inside PTZ cameras is often messy, and there are no good protective measures at the bends in the wiring. As a result, under harsh environmental conditions, the wiring is easily damaged when the PTZ camera is rotating, leading to machine malfunction and poor performance, and also increasing after-sales costs.

[0058] In this example, the camera features a cable fixing component 1 at the cable bend of the body 4. Component 1 is made of silicone, a material with a suitable temperature range of -60℃ to 300℃. It remains stable at high temperatures and elastic at low temperatures. Silicone exhibits excellent resistance to acids, alkalis, ozone, and ultraviolet radiation, as well as superior aging resistance, wear resistance, and UV protection, effectively protecting the cable. Component 1's good temperature resistance and flexibility, maintaining elasticity within the -60℃ to 300℃ range, prevents the internal cable performance from being affected by extreme weather conditions, ensuring normal operation of electronic equipment, reducing product repairs or rework, lowering labor costs and material waste, ultimately achieving energy savings and cost reduction. This aligns with manufacturing trends, simplifies assembly, is easy to operate, suitable for most users, and effectively controls costs. Furthermore, component 1's wear resistance, impact resistance, and corrosion resistance meet the machine's reliability testing requirements.

[0059] In one embodiment, reference is made to Figure 3 , Figure 4 and Figure 5 The fuselage 4 includes a first housing 41 and a second housing 42; the first housing 41 and the second housing 42 are connected to form an accommodating space, the control module is installed in the accommodating space, and the head 5 is rotatably installed on the second housing 42; the first housing 41 is provided with a snap-fit ​​groove 411 and at least one antenna mounting hole 412 at intervals; the wire fastener 1 is snapped into the snap-fit ​​groove 411, and an antenna assembly 6 can be detachably installed in each antenna mounting hole 412.

[0060] As an example, the fuselage 4 includes a first housing 41 and a second housing 42. The first housing 41 and the second housing 42 are connected. Specifically, a first connecting post is provided on the first housing 41, and a second connecting post is provided on the second housing 42. Fasteners are sequentially inserted into the first and second connecting posts to assemble the first housing 41 and the second housing 42 together. Alternatively, a first snap-fit ​​component can be provided on the first housing 41, and a second snap-fit ​​component can be provided on the second housing 42. The first snap-fit ​​component and the second snap-fit ​​component engage to assemble the first housing 41 and the second housing 42 together. An accommodating space is formed between the first housing 41 and the second housing 42. The control module is installed in the accommodating space, and the head unit 5 is rotatably mounted on the second housing 42. In this way, the control module can control the rotation of the head unit 5, thereby enabling monitoring in different directions. The first housing 41 is provided with a snap-fit ​​groove 411 and at least one antenna mounting hole 412 at intervals. During installation, the wire fastener 1 is snapped into the snap-fit ​​groove 411, and the main body 11 is inserted into the snap-fit ​​groove 411. The limiting part 12 and the snap-fit ​​structure 13 are located on the inner and outer side walls of the first housing 41, respectively, so as to snap the wire fastener 1 into the snap-fit ​​groove 411 of the first housing 41. An antenna assembly 6 can be detachably installed in each antenna mounting hole 412. The antenna assembly 6 includes an antenna body and a connector. One end of the connector is inserted into the antenna mounting hole 412, and the antenna body is mounted on the connector, which facilitates the installation of the antenna assembly 6 on the first housing 41.

[0061] In one embodiment, reference is made to Figure 3 , Figure 4 and Figure 5 The camera also includes a fixed bracket 7, which is detachably connected to the body 4 and is used to fix the camera on the second workpiece; the tail wire assembly is inserted inside the fixed bracket 7.

[0062] As an example, the camera also includes a mounting bracket 7. During installation, the mounting bracket 7 is first fixed to a second workpiece (such as a wall, cabinet top, or desktop). Then, the mounting bracket 7 is detachably connected to the camera body 4 using methods such as snap-fit, screw-fit, adhesive, or magnetic connection to fix the camera to the second workpiece. The tail cable assembly is threaded through the mounting bracket 7. This arrangement conceals the tail cable assembly within the mounting bracket 7, providing protection for it.

[0063] In one embodiment, reference is made to Figure 3 and Figure 4The fixed bracket 7 includes a bracket body 71, a fixing part 72 disposed at a first end of the bracket body 71, and a connecting part 73 extending from a second end of the bracket body 71 in a direction perpendicular to the bracket body 71; the fixing part 72 is used to fix the second workpiece; the machine body 4 is provided with a connecting sleeve 43, and the connecting part 73 is detachably connected to the connecting sleeve 43; the fixing part 72 is provided with a first through groove, the bracket body 71 is provided with a second through groove, and the connecting part 73 is provided with a third through groove; the first through groove, the second through groove and the third through groove are connected in sequence to form a channel for placing the tail wire assembly.

[0064] As an example, the fixed bracket 7 includes a bracket body 71, a fixing part 72, and a connecting part 73. The bracket body 71 serves as a base, and the fixing part 72 is disposed at the first end of the bracket body 71 for fixing to a second workpiece (e.g., a wall, cabinet top, or desktop) to achieve the fixing of the fixed bracket 7 to the second workpiece. The connecting part 73 is a component extending from the second end of the bracket body 71 in a direction perpendicular to the bracket body 71. A connecting sleeve 43 is provided on the body 4, and the connecting part 73 and the connecting sleeve 43 are detachably connected. Specifically, the connecting part 73 is provided with a first connecting hole arranged in the vertical direction and a second connecting hole arranged in the horizontal direction. The first housing 41 is provided with a third connecting hole arranged in the vertical direction, and the connecting sleeve 43 is provided with a fourth connecting hole arranged in the horizontal direction. First, the connecting part 73 and the connecting sleeve 43 are inserted together. Then, a first connector is inserted into the first connecting hole and the third connecting hole, and a second connector is inserted into the second connecting hole and the fourth connecting hole. Fixing and limiting are performed from both the horizontal and vertical directions to ensure that the connection between the fixed bracket 7 and the first housing 41 is more reliable and stable. A first through groove is provided in the fixing part 72, a second through groove is provided in the bracket body 71, and a third through groove is provided in the connecting part 73; the first through groove, the second through groove and the third through groove are connected in sequence to form a channel for placing the tail wire assembly. With this arrangement, the tail wire assembly is hidden in the fixing bracket 7, which can provide protection for the tail wire assembly.

[0065] The above-described embodiments are only used to illustrate the technical solutions of this application, and are not intended to limit them. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this application, and should all be included within the protection scope of this application.

Claims

1. A wire fixing component, characterized in that, The fixing component can be detachably installed on the first workpiece; The wire fixing component is provided with a first wire protection hole arranged in the vertical direction of the wire fixing component and at least one second wire protection hole arranged in the horizontal direction of the wire fixing component, and the first end of each second wire protection hole is connected to the first wire protection hole. The first wire protection hole is used to place a first wire, and each second wire protection hole is used to place a second wire. The first wire protection hole cooperates with at least one second wire protection hole to provide protection for the first wire and the second wire.

2. The wire fixing component according to claim 1, characterized in that, The wire fastener includes a main body and a limiting part that extends outward from a first end of the main body along the horizontal direction of the main body; A snap-fit ​​structure is provided on the main body near the second end of the main body, and there is a snap-fit ​​space between the snap-fit ​​structure and the limiting part for snap-fitting with the first workpiece. The first wire protection hole is provided on the main body, and each of the second wire protection holes is provided on the limiting part and the main body.

3. The wire fixing component according to claim 2, characterized in that, The second end of the main body is provided with a plug-in guide structure; the outer diameter of the plug-in guide structure gradually decreases from the end near the limiting part to the end away from the limiting part.

4. The wire fixing component according to claim 2, characterized in that, The wire fixing component also includes at least two limiting protrusions extending from the outer wall of the limiting portion along the horizontal direction of the main body portion, and the at least two limiting protrusions are respectively disposed on opposite sides of the main body portion; The snap-fit ​​structure includes at least two snap-fit ​​blocks, and in the vertical direction of the main body, each snap-fit ​​block at least partially overlaps with one of the limiting protrusions.

5. The wire fixing component according to claim 2, characterized in that, The wire fixing component also includes a separator tube; one end of the separator tube is detachably mounted on the main body, and the separator tube has at least two wire passages communicating with the first wire protection hole, and each wire passage is used to pass through one of the first wires.

6. The wire fixing component according to claim 1, characterized in that, The wire fixing component is provided with a cutting groove arranged along the vertical direction of the wire fixing component, and the cutting groove is connected to the first wire protection hole.

7. A camera, characterized in that, It includes a fuselage, a nose section, a control module, a tail wire assembly, and at least one antenna assembly, and also includes the wire fixing component as described in any one of claims 1-6; The machine head is rotatably mounted on the machine body, and the control module is disposed inside the machine body and connected to the machine head; The wire fixing component can be detachably installed on the machine body; The first wire of the tail wire assembly passes through the first wire protection hole of the wire fixing member and is connected to the control module and the machine head; Each of the antenna assemblies is detachably mounted on the body, and the second wire of each antenna assembly passes sequentially through a second wire protection hole and a first wire protection hole of the wire fixing member and is connected to the control module and the head unit.

8. The camera according to claim 7, characterized in that, The fuselage includes a first housing and a second housing; The first housing and the second housing are connected to form an accommodating space, the control module is installed in the accommodating space, and the machine head is rotatably mounted on the second housing; The first housing is provided with a snap-fit ​​groove and at least one antenna mounting hole at intervals; the wire fastener is snapped into the snap-fit ​​groove, and an antenna assembly is detachably installed in each of the antenna mounting holes.

9. The camera according to claim 7, characterized in that, The camera also includes a fixed bracket, which is detachably connected to the camera body and is used to fix the camera on the second workpiece; the tail wire assembly passes through the fixed bracket.

10. The camera according to claim 9, characterized in that, The fixed bracket includes a bracket body, a fixing part disposed at a first end of the bracket body, and a connecting part extending from a second end of the bracket body in a direction perpendicular to the bracket body; The fixing part is used to fix it to the second workpiece; The machine body is provided with a connecting sleeve, and the connecting part is detachably connected to the connecting sleeve; The fixing part is provided with a first through groove, the bracket body is provided with a second through groove, and the connecting part is provided with a third through groove; The first through slot, the second through slot, and the third through slot are connected in sequence to form a channel for placing the tail wire assembly.

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