CN218830235U - Camera support and video monitoring device - Google Patents

Abstract

The utility model relates to a camera device technical field discloses a camera mount and video monitoring device. The camera support comprises a support body and a functional module; the bracket body is provided with a first switching part and a second switching part, the first switching part is used for being connected with a part to be installed, and the second switching part is used for being connected with a first camera; the support body is located to the functional module, and the functional module includes the switch module, and the switch module is used for being connected with first camera and at least one second camera. The utility model discloses can realize integrating the network switch function on camera mount, help simplifying camera mount's engineering installation, reduce purchasing cost.

Description

Camera support and video monitoring device

Technical Field

The utility model relates to a camera device technical field especially relates to a camera mount and video monitoring device.

Background

With the improvement of public safety consciousness, the field of video monitoring is rapidly developed, and the application of the camera is more and more extensive. The camera support can not be separated in the installation of the camera, the existing camera support is simple in structure and single in function, the installation support can only be provided for the camera, if the camera needs to be independently powered and is prevented from being hidden in water and the like, other devices need to be configured on the basis, the complexity of the arrangement of the camera is increased, and the arrangement cost of the camera is not reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a camera mount and video monitoring device for there is the function singleness in solving current camera mount, is not convenient for carry out the problem that the low-cost was arranged.

The utility model provides a camera support, include:

the camera mounting bracket comprises a bracket body, a first camera and a second camera, wherein the bracket body is provided with a first switching part and a second switching part, the first switching part is used for being connected with a component to be mounted, and the second switching part is used for being connected with a first camera;

the functional module is arranged on the support body and comprises a switch module, and the switch module is used for being connected with the first camera and the at least one second camera.

According to the camera bracket provided by the utility model, a first accommodating cavity is formed in the bracket body; the functional module still includes power module, power module with the switch module is all located first holding the intracavity.

According to the utility model provides a camera support, the camera support also comprises a cover body; the bracket body is provided with a first opening, the first opening is communicated with the first accommodating cavity, and the cover body covers the first opening.

According to the utility model provides a pair of camera support, the first end of lid with first open-ended one end rotatable coupling, the second end of lid with the detachable connection of the first open-ended other end.

According to the utility model provides a pair of camera support, first holding the intracavity and being equipped with butt spare and joint spare, the butt spare with joint spare interval sets up, the functional module clamp is located the butt spare with between the joint spare.

According to the utility model provides a camera support, the power module is provided with an input interface and an output interface; the switch module is provided with a first connecting port, a second connecting port, a third connecting port and a fourth connecting port;

the input interface is used for being electrically connected with an external power line, and the output interface is electrically connected with the first connecting interface;

the second connector is used for being connected with an external network cable, the third connector is used for being connected with a tail wire of the first camera, and the fourth connector is used for being connected with a tail wire of the second camera.

According to the utility model provides a pair of camera support, this internal second that still is formed with of support holds the chamber, the second holds the chamber and is used for holding the wire rod.

According to the camera bracket provided by the utility model, the bracket body is also provided with a wire inlet, a wire outlet and a threading opening;

the wire inlet and the wire outlet are respectively communicated with the second accommodating cavity, and the first accommodating cavity and the second accommodating cavity are communicated through the threading opening.

According to the utility model provides a pair of camera support, the support body still is equipped with the outlet, first hold the chamber with the second hold arbitrary in the middle of the chamber with the outlet intercommunication.

According to the utility model provides a camera bracket, the bracket body comprises a mounting seat and a supporting frame;

the mounting seat with the support frame is connected, first switching portion with the second holds the chamber and all locates the mounting seat, the second switching portion with the first chamber that holds all locates the support frame.

According to the utility model provides a camera support, the second switching portion includes first switching piece and second switching piece; the first adapter piece is rotatably arranged on the bracket body along a first axis, the second adapter piece is rotatably arranged on the first adapter piece along a second axis, and the second adapter piece is used for being connected with the first camera; the first axis and the second axis are perpendicular; or, the second switching portion includes a plurality of bar holes, and is a plurality of the bar hole is arranged along the circumference, the support body is used for being connected with first camera through a plurality of the bar hole.

The utility model also provides a video monitoring device, include: a camera support as claimed in any one of the above;

the video monitoring device further comprises a first camera and at least one second camera, the first camera is arranged on the support body, and a switch module on the camera support is connected with the first camera and the at least one second camera respectively.

The utility model provides a camera support and video monitoring device, through functional module such as integrated power module, switch module on the support body, when providing the support to the installation of first camera through the support body, also can pass through the switch module with first camera and at least one second camera and connect, realize the integration network switch function on camera support, need not to additionally dispose the switch to camera support, help simplifying camera support's engineering installation, reduce purchasing cost.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the following briefly introduces the drawings required for the embodiments or the prior art descriptions, and obviously, the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a first camera support provided by the present invention in a closed state of a cover;

fig. 2 is a schematic structural diagram of a first camera support provided by the present invention in an open state of a cover;

fig. 3 is a schematic structural view of the bracket body provided by the present invention;

fig. 4 is a schematic structural diagram of the cover body provided by the present invention;

fig. 5 is a schematic diagram of a circuit connection between a power module and a switch module in a first camera support provided by the present invention;

fig. 6 is a schematic structural diagram of a first transfer line provided by the present invention;

fig. 7 is a schematic structural diagram of a second patch cord provided by the present invention;

fig. 8 is one of the schematic structural diagrams of a second camera support provided by the present invention;

fig. 9 is a second schematic structural view of a second camera support provided by the present invention;

fig. 10 is one of the installation schematic diagrams of the video monitoring apparatus provided by the present invention;

fig. 11 is a second schematic view of the installation of the video monitoring apparatus according to the present invention.

Reference numerals are as follows:

1. a camera mount; 2. a first camera; 3. a component to be mounted;

11. a stent body; 111. a mounting base; 112. a support frame; 1101. a first transition portion; 1102. a second transfer part; 1011. a first mounting hole; 1012. a second mounting hole; 1021. a first transfer member; 1022. a second adaptor; 1023. a strip-shaped hole; 1111. a first accommodating chamber; 1112. a second accommodating chamber; 11101. an abutting member; 11102. a clamping piece; 1121. a first opening; 1122. a wire inlet; 1123. an outlet; 1124. a threading opening; 1125. a water outlet; 12101. a first support; 12102. a second support;

12. a functional module; 121. a power supply module; 122. a switch module; 1211. an input interface; 1212. an output interface; 1221. a first connection port; 1222. a second connection port; 1223. a third connection port; 1224. a fourth connection port;

13. a cover body; 131. a first rotating shaft; 132. a second rotating shaft; 133. buckling a position head;

14. a first transfer line; 15. a second patch cord.

Detailed Description

To make the objects, technical solutions and advantages of the present invention clearer, the drawings in the present invention will be combined to clearly and completely describe the technical solutions of the present invention, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The following describes in detail the camera mount and the video monitoring apparatus provided in the embodiments of the present application with reference to fig. 1 to 11 through specific embodiments and application scenarios thereof.

Referring to fig. 1 to 3 and 10 to 11, the present embodiment provides a camera stand, where the camera stand 1 includes: a bracket body 11 and a functional module 12.

The bracket body 11 is provided with a first switching part 1101 and a second switching part 1102, the first switching part 1101 is used for being connected with the component 3 to be installed, and the second switching part 1102 is used for being connected with the first camera 2. The bracket body 11 can be a steel structural member or an injection molding member; the member to be mounted 3 may be a fixed frame, a wall of a building, or the like, and is not particularly limited.

Further, the functional module 12 is disposed on the bracket body 11, and the functional module 12 includes at least one of the power module 121 and the switch module 122. In the case that the functional module 12 includes the power module 121, the power module 121 is used for electrically connecting with the first camera 2; in case the functional module 12 comprises a switch module 122, the switch module 122 is used for connecting with the first camera 2 and at least one second camera. Wherein the second camera is not specifically illustrated in fig. 10 to 11.

It can be understood that, since the cameras (including the first camera 2 and the second camera) are usually used outdoors for video monitoring and are powered by a dc power supply in practical applications, the power module 121 may be a battery assembly, a combined structure of the battery assembly and a solar cell panel, or an ac/dc conversion module capable of converting an ac power supply into a dc power supply.

Meanwhile, the switch module 122 of the present embodiment functions as a network switch, and an external network cable may be connected to the switch module 122, and the switch module 122 may be connected to the first camera 2 and the at least one second camera, respectively. In this way, the video information collected by the first camera 2 and the second camera can be transmitted to the remote monitoring terminal through the switch module 122 and the external network cable.

Wherein, the power module 121 and the switch module 122 can be integrated on the circuit board respectively.

In practical applications, the second camera may be disposed on the component 3 to be mounted and at a position close to the first camera 2, and the types of the first camera 2 and the second camera may be the same or different, which is not limited specifically. For example, the first camera 2 and the second camera may each be a cylindrical camera, or the first camera 2 may be a dome camera and the second camera may be a cylindrical camera.

It should be noted that, in this embodiment, not only the power module 121 or the switch module 122 can be integrated on the rack body 11, but also the power module 121 and the switch module 122 can be arranged on the rack body 11 at the same time, and the power module 121 is used to supply power to the switch module 122.

As can be seen from the above, in the camera support 1 of this embodiment, the power module 121, the switch module 122 and other functional modules 12 are integrated on the support body 11, so that the support is provided for the installation of the first camera 2 through the support body 11, meanwhile, the power module 121 can also independently supply power to the first camera 2, or the first camera 2 and at least one second camera are connected through the switch module 122, so as to realize the functions of integrating a power source, a network switch and the like on the camera support 1, and there is no need to additionally configure a switch or a distribution box for the camera support 1, which is helpful for simplifying the engineering installation of the camera support 1 and reducing the purchase cost.

As shown in fig. 1, 8 and 10, the holder body 11 includes a mounting seat 111 and a supporting frame 112, the supporting frame 112 is connected to the mounting seat 111, a first adaptor portion 1101 is provided on the mounting seat 111, and a second adaptor portion 1102 is provided on the supporting frame 112.

In order to prevent the first camera 2 from interfering with the component 3 to be mounted, the mount 111 is connected to the first end of the support frame 112, and the second adapter 1102 is disposed at the second end of the support frame 112.

In some embodiments, in order to realize the fixed installation of the bracket body 11, a skirt may be configured at one end of the installation seat 111 facing the component 3 to be installed, the skirt has an abutting surface abutting against the surface of the component 3 to be installed, and two skirts may be provided, and the two skirts are respectively arranged at the opposite sides of the installation seat 111.

The first transition 1101 may include a first mounting hole 1011 and a second mounting hole 1012 configured on the skirt; the first mounting hole 1011 may include a bar-shaped hole portion and a circular hole portion which are communicated with each other, the bar-shaped hole portion being disposed along a radial direction of the circular hole portion, and a diameter of the circular hole portion being greater than a width of the bar-shaped hole portion; the second mounting hole 1012 may be a circular hole.

As shown in fig. 10, in actual mounting, the first mounting hole 1011 and the second mounting hole 1012 are arranged vertically and oppositely along the height direction of the mounting seat 111, and the strip-shaped hole portion and the circular hole portion corresponding to the first mounting hole 1011 are also arranged vertically and vertically. Based on the structure of first mounting hole 1011, the retaining member of first mounting hole 1011 is worn to locate by the accessible, fixes support body 11 on treating installation component 3 tentatively, and the retaining member of second mounting hole 1012 is worn to locate by the rethread, further fastens support body 11, has ensured the convenience to support body 11 fastening operation.

In one example, when the member to be mounted 3 is a fixing bracket such as a column, the bracket body 11 may be fixed to the fixing bracket by using an auxiliary member such as angle steel or a hoop according to the first transfer portion 1101.

In one example, when the component 3 to be mounted is a bearing surface such as a wall of a building, the bracket body 11 can be directly fixed on the bearing surface by a fastener such as a screw or an expansion bolt.

In some embodiments, to achieve a fixed mounting of the first camera 2, the second adapter 1102 may be understood as an adapter structure capable of detachably mounting the first camera 2.

As shown in fig. 1 and 2, in the case where the first camera 2 is a barrel camera, the second adaptor 1102 includes a first adaptor 1021 and a second adaptor 1022.

The first adaptor 1021 is rotatably arranged on the bracket body 11 along a first axis, the second adaptor 1022 is rotatably arranged on the first adaptor 1021 along a second axis, and the second adaptor 1022 is used for connecting with the cylindrical camera; the first axis and the second axis are perpendicular.

In the present embodiment, the first adaptor 1021 may be rotatably installed on the bracket body 11 along a first axis distributed vertically, and the second adaptor 1022 may be rotatably installed on the first adaptor 1021 along a second axis distributed horizontally, when the cylindrical camera is installed on the second adaptor 1022, the horizontal installation angle and the pitch angle of the cylindrical camera may be adjusted according to actual requirements based on the arrangement structure of the first adaptor 1021 and the second adaptor 1022.

In practical applications, in order to facilitate the installation of the first connecting part 1021, an installation hole may be formed in the bracket body 11, and the first connecting part 1021 is fastened on the bracket body 11 through a bolt locking assembly penetrating through the installation hole.

Specifically, in this embodiment, an insertion rod may be configured at an end of the first adapting piece 1021 facing the bracket body 11, and an axial hole is disposed in the insertion rod, and a hole pattern of the axial hole is polygonal and is adapted to the lock nut; after the locking nut is embedded into the shaft hole, the insertion rod can be inserted into the mounting hole from the first side surface of the bracket body 11, and then the locking bolt extends into the shaft hole from the second side surface of the bracket body 11 until the screw rod of the locking bolt and the locking nut can be in threaded connection; then, after the horizontal installation angle of the cylindrical camera is adjusted, the first adaptor 1021 is fastened to the holder body 11 by turning the lock bolt.

Accordingly, when the second adaptor 1022 is installed, the present embodiment may hinge the first adaptor 1021 and the second adaptor 1022 through a bolt lock assembly.

Specifically, the present embodiment may configure a first through hole at an end of the first adaptor 1021 facing the second adaptor 1022, and configure a second through hole at an end of the second adaptor 1022 facing the first adaptor 1021, one of the first through hole and the second through hole being a circular hole, and the other of the first through hole and the second through hole being a polygonal hole, the polygonal hole being adapted to the lock nut of the bolt lock assembly. Therefore, after the circular hole and the polygonal hole are coaxially arranged, the locking nut can be embedded into the polygonal hole, and then the locking bolt of the bolt locking assembly penetrates into the circular hole until the screw rod of the locking bolt and the locking nut can be in threaded connection; then, after the pitch angle of the cylindrical camera is adjusted, the first adaptor 1021 and the second adaptor 1022 are locked by twisting the locking bolt.

As shown in fig. 8 and 9, in the case that the first camera 2 is a dome camera, the second adapting portion 1102 includes a plurality of bar holes 1023, the plurality of bar holes 1023 are arranged along the circumference, and the bracket body 11 is connected with the dome camera through the plurality of bar holes 1023.

Specifically, the present embodiment may have a plurality of bar-shaped holes 1023 circumferentially distributed along the rotation axis of the dome camera, each bar-shaped hole 1023 extending in the radial direction of the dome camera.

So, based on the structural feature and the distribution characteristic of each bar hole 1023, can realize compatible not unidimensional dome camera's installation, also can be according to actual demand, along the installation angle of horizontal direction regulation dome camera.

Wherein, this embodiment can construct the through wires hole on support body 11, and a plurality of bar holes 1023 encircles the through wires hole and sets up, and this makes the through wires hole both satisfy the line demand of walking of dome camera's tail, also can fix a position dome camera's installation to a certain extent, has promoted the convenience of dome camera installation, has ensured the installation accuracy of dome camera.

In some embodiments, as shown in fig. 2 and 3, a first receiving cavity 1111 is formed in the bracket body 11 of the present embodiment, and the functional module 12 is disposed in the first receiving cavity 1111.

Specifically, the first receiving cavity 1111 of the present embodiment is configured in the supporting frame 112 corresponding to the bracket body 11, so that the functional module 12 can be protected while the functional module 12 is installed through the first receiving cavity 1111, and the service life of the functional module 12 is ensured.

In the case that the supporting frame 112 is in the shape of a rod, the first receiving cavity 1111 is configured to extend along the length direction of the supporting frame 112. In this way, in this embodiment, not only the power module 121 or the switch module 122 may be separately disposed in the first receiving cavity 1111, but also the power module 121 and the switch module 122 may be sequentially disposed along the extending direction of the first receiving cavity 1111.

In some embodiments, as shown in fig. 1 and fig. 2, in order to facilitate the installation of the functional module 12, the camera support 1 of the present embodiment further includes a cover 13; the bracket body 11 has a first opening 1121, the first opening 1121 is communicated with the first receiving cavity 1111, and the cover 13 covers the first opening 1121.

In order to prevent rainwater from entering the first receiving cavity 1111 through the first opening 1121, the first opening 1121 may be configured on a bottom wall of the supporting frame 112 corresponding to the bracket body 11, and the cover 13 may be detachably mounted on the first opening 1121.

In some embodiments, as shown in fig. 2 to fig. 4, in order to facilitate the opening or closing operation of the cover 13, in this embodiment, a first end of the cover 13 and one end of the first opening 1121 are rotatably connected, and a second end of the cover 13 and the other end of the first opening 1121 are detachably connected through a locking structure or a clipping structure.

Specifically, the present embodiment may configure a first seat 12101 and a second seat 12102 at one end of the first opening 1121, the first seat 12101 and the second seat 12102 being spaced apart from each other and disposed opposite to each other.

Meanwhile, in the present embodiment, the first rotating shaft 131 and the second rotating shaft 132 are configured at the first end of the cover 13, the first rotating shaft 131 and the second rotating shaft 132 are coaxially arranged, and after the first rotating shaft 131 is rotatably arranged on the first support 12101 and the second rotating shaft 132 is rotatably arranged on the second support 12102, the cover 13 can be manually controlled to be turned over relative to the bracket body 11, so as to control the opening or closing of the first opening 1121 through the cover 13.

In order to facilitate the installation of the first end of the cover 13, one of the first support 12101 and the second support 12102 may be an elastic support that can be deformed, and the other of the first support 12101 and the second support 12102 may be a fixed support that cannot be deformed.

Further, in order to facilitate the detachable connection between the second end of the cover 13 and the other end of the first opening 1121, the present embodiment may configure a catching head 133 at the second end of the cover 13, and configure a catching groove on the wall surface of the other end of the first opening 1121.

In this way, when the cover 13 is covered in the first opening 1121, the cover 13 can be prevented from being separated from the first opening 1121 due to the fastening connection formed by the fastening head 133 and the fastening groove, and when the cover needs to be opened, the fastening head 133 can be separated from the fastening groove only by applying a driving force to the side of the cover 13 away from the holder body 11, which is simple and convenient to operate.

In some embodiments, as shown in fig. 3, in order to facilitate the function module 12 to be detachably installed in the first accommodating cavity 1111, in this embodiment, an abutting part 11101 and a clamping part 11102 are disposed in the first accommodating cavity 1111, the abutting part 11101 and the clamping part 11102 are spaced apart from each other, one end of the function module 12 abuts against the abutting part 11101, and the other end abuts against the clamping part 11102.

It can be understood that the abutting piece 11101 can be a rib which is arranged in the first accommodating cavity 1111 and is raised or close to the inner wall surface of the first accommodating cavity 1111; the clamping piece 11102 is provided with a clamping hook, the clamping piece 11102 protrudes out of the inner wall surface of the first accommodating cavity 1111, the clamping piece 11102 can deform relative to the inner wall surface of the first accommodating cavity 1111 under the action of external force, and after the external force is withdrawn, the clamping piece 11102 has the characteristic of recovering to the initial state.

Meanwhile, the distance between the abutting piece 11101 and the clamping piece 11102 is slightly smaller than the length or the width of the functional module 12, so that when the functional module 12 is installed, the functional module 12 can be embedded between the abutting piece 11101 and the clamping piece 11102 in an interference fit mode, and based on the cooperation of the clamping hook of the clamping piece 11102 and the surface of the functional module 12, the functional module 12 can be prevented from being separated from the abutting piece 11101 and the clamping piece 11102.

In some embodiments, as shown in fig. 3 and 5, the functional module 12 of the present embodiment includes a power module 121 and a switch module 122, and the power module 121 and the switch module 122 are disposed in the first receiving cavity 1111.

The power module 121 is provided with an input interface 1211 and an output interface 1212; the switch module 122 is provided with a first connection port 1221, a second connection port 1222, a third connection port 1223, and a fourth connection port 1224.

The input interface 1211 is electrically connected to an external power line, and the output interface 1212 is electrically connected to the first connection interface 1221; the second connection port 1222 is connected to an external network cable, the third connection port 1223 is connected to the tail of the first camera 2, and the fourth connection port 1224 is connected to the tail of the second camera.

Specifically, the input interface 1211 of the power module 121 may be connected to an external power line of 220V, and the power module 121 is configured to convert ac power received from the input interface 1211 into dc power and output the dc power from the output interface 1212. The output interface 1212 and the first connection interface 1221 may be connected through a power patch cord, and both the output interface 1212 and the first connection interface 1221 may be 2pin connectors known in the art.

As shown in fig. 5 and 6, the second connection port 1222 of the switch module 122 may be a 4pin connector known in the art, the second connection port 1222 is provided with the first patch cord 14, one end of the first patch cord 14 is provided with a first plug, and the other end of the first patch cord 14 is provided with a first network interface.

The first plug connector is plugged with the 4pin connector, the first network interface is a female socket with an RJ45 interface, and the first network interface can be plugged with an external network cable through the first network interface.

As shown in fig. 5 and 7, the third connection port 1223 and the fourth connection port 1224 of the switch module 122 have the same structure, and both use 6pin connectors known in the art, each of the third connection port 1223 and the fourth connection port 1224 is configured with a second patch cord 15, one end of the second patch cord 15 is provided with a second plug, and the other end of the first patch cord 14 is provided with a second network interface and a power plug.

The second plug is plugged with the third connector 1223 or the fourth connector 1224, and the second network interface adopts an RJ45 male connector.

In this way, when the first camera 2 is wired, on the one hand, the second plug connector on the second patch cord 15 can be plugged into the third connection port 1223; on the other hand, the RJ45 female socket in the tail line of the first camera 2 may be plugged with the second network interface on the second patch cord 15, and the power plug in the tail line of the first camera 2 may be plugged with the power plug on the second patch cord 15. Since the connection mode of the tail wire of the second camera is the same as that of the tail wire of the first camera 2, it is not described in detail herein.

Based on the above arrangement, in this embodiment, the switch module 122 can be provided with operating power through the power module 121, the switch module 122 can also provide operating power for the first camera 2 while communicating with the first camera 2 through the third connection port 1223, and the switch module 122 can also provide operating power for the second camera while communicating with the second camera through the fourth connection port 1224.

Meanwhile, the arrangement structure ensures that the first camera 2 and the second camera are normally powered and operated, and simultaneously, the video information collected by the first camera 2 and the second camera can be transmitted to the remote monitoring terminal through the switch module 122 and the external network cable.

In some embodiments, as shown in fig. 8 and 9, in the case where the first camera 2 is a dome camera, the bracket body 11 of the present embodiment is used to mount the dome camera.

Meanwhile, the functional module 12 of this embodiment includes a power module 121, the power module 121 is an ac/dc conversion module, the power module 121 is detachably disposed in the first accommodating cavity 1111, the power module 121 is provided with an input interface 1211 and an output interface 1212, the input interface 1211 is used for being electrically connected to an external power line, and the output interface 1212 is electrically connected to a tail line of the dome camera, so that a dc power is independently provided to the dome camera based on the power module 121.

Based on the solution of the above embodiment, as shown in fig. 3 and fig. 9, a second accommodating cavity 1112 is further formed in the stent body 11 of the present embodiment, and the second accommodating cavity 1112 is used for accommodating a wire. The second accommodating cavity 1112 can be disposed in the mounting seat 111 corresponding to the bracket body 11.

In practical applications, at least a portion of the external power line, the external network cable, and the patch cord between the first camera and the functional module 12 can be hidden in the second accommodating cavity 1112.

In some embodiments, as shown in fig. 2 and fig. 3, the bracket body 11 of the present embodiment is further provided with a wire inlet 1122, a wire outlet 1123 and a threading outlet 1124. The wire inlet 1122 and the wire outlet 1123 are respectively communicated with the second accommodating cavity 1112, and the first accommodating cavity 1111 and the second accommodating cavity 1112 are communicated through the wire threading opening 1124. The first accommodating cavity 1111 and the second accommodating cavity 1112 are separated by a partition plate, and the threading opening 1124 is formed in the partition plate.

In the case where the above-described function module 12 includes the power supply module 121 and the switch module 122, a power supply patch cord, the first patch cord 14, and two second patch cords 15 are arranged for the power supply module 121 and the switch module 122, respectively.

In order to meet the installation requirement of the above-mentioned lines, three threading ports 1124 may be provided in the embodiment. Since the two second patch cords 15 are connected to the tail line of the first camera 2 and the tail line of the second camera, the two second patch cords 15 may be set to have different lengths, so as to connect the switch module 122 with the first camera 2 and the second camera distributed at different positions through the corresponding second patch cords 15.

In practical applications, one end of an external power line may pass through the wire inlet 1122 into the second receiving cavity 1112, and then pass through the first wire passing opening 1124 into the first receiving cavity 1111, and be plugged into the input interface 1211 of the power module 121.

Then, the first plug connector of the first patch cord 14 penetrates into the second accommodating cavity 1112 through the cord inlet 1122, enters into the first accommodating cavity 1111 through the second cord outlet 1124, and is plugged into the second connection port 1222 of the switch module 122, and the first network interface of the first patch cord 14 is exposed out of the second accommodating cavity 1112, so that the first network interface of the first patch cord 14 is plugged into the external network cord.

Next, in the first receiving cavity 1111, one end of the power line is plugged into the output interface 1212 of the power module 121, or one end of the power line is welded to the output interface 1212 of the power module 121, and the other end of the power line is plugged into the first connection interface 1221 of the switch module 122.

Then, the second plug connector of the first second patch cord 15 is plugged into the third connection port 1223 of the switch module 122, and after passing through the third threading port 1124 and entering the second accommodation cavity 1112, the other end of the first second patch cord 15 is led out from the outlet port 1123; then, the RJ45 female socket in the tail line of the first camera 2 is plugged with the second network interface on the second patch cord 15, and the power plug in the tail line of the first camera 2 is plugged with the power plug on the second patch cord 15.

At the same time, the fourth interface of the switch module 122 and the tail of the second camera may be connected via a second patch cord 15 in the same wiring manner as the first second patch cord 15. After the above operation is completed, the connected tail wire can be received in the second receiving cavity 1112.

In this embodiment, a blocking head may be further disposed in the middle of the first adapting line 14 and the second adapting line 15, and after the first adapting line 14 and the second adapting line 15 pass through the corresponding threading openings 1124, the blocking head may be blocked in the corresponding threading openings 1124. Here, in this embodiment, based on the arrangement of the blocking head, the first accommodating cavity 1111 and the second accommodating cavity 1112 may be isolated, and the wiring positions of the first patch cord 14 and the second patch cord 15 may also be limited to a certain extent, so as to prevent the first patch cord 14 and the second patch cord 15 from being displaced by an external force.

Furthermore, through the arrangement, output or output lines corresponding to the power module 121 and the switch module 122 can be led out of the first accommodating cavity 1111 and hidden in the second accommodating cavity 1112, so that the risk of electric shock possibly caused when the power module 121 or the switch module 122 is contacted can be reduced to a certain extent in actual operation, and the operation safety is ensured.

Meanwhile, in this embodiment, based on the setting of the switch module 122 and the above wiring arrangement, power is supplied to at least two image capturing devices through one-time wiring, so that redundancy of lines is reduced, and the input cost of the device is reduced.

In some embodiments, as shown in fig. 2 and 3, in order to prevent water accumulation in first receiving chamber 1111 or second receiving chamber 1112, bracket body 11 of the present embodiment is further provided with a water outlet 1125, and second receiving chamber 1112 is communicated with water outlet 1125.

Because the second holds the chamber 1112 and locates in the mount pad 111 that support body 11 corresponds, mount pad 111 directly with the mount, the wall waits that installation component 3 is connected, it flows into in the second holds the chamber 1112 easily to wait for the rainwater on the installation component 3, thereby lead to the second to hold the cable that hides in the chamber 1112 and soak in aqueous, and take place the short circuit, thereby this embodiment can locate the bottom that the second held the chamber 1112 with drain 1125, so that guide the ponding in the second holds the chamber 1112 and discharge naturally through drain 1125, ensure that the second holds the circuit that hides in the chamber 1112 and be in relatively dry environment.

In some embodiments, since the bracket body 11 is generally formed by injection molding, so that the side of the mounting seat 111 facing the component 3 to be mounted is formed into an open end, the present embodiment provides the drainage opening 1125 at the lower edge of the open end, and the drainage opening 1125 is groove-shaped, so that the communication between the second accommodating cavity 1112 and the environment of the lower side of the bracket body 11 can be realized based on the drainage opening 1125.

In this embodiment, a plurality of drainage ports 1125 may be disposed along the lower edge of the open end to ensure the drainage effect on the second receiving cavity 1112.

In some embodiments, as shown in fig. 10 and 11, the present embodiment further provides a video monitoring apparatus, including: a first camera 2, at least one second camera and a camera support 1 as described in any of the above.

Further, the video monitoring device further comprises a first camera 2, and the first camera 2 is arranged on the bracket body 11. In this case, the power module 121 may be integrated on the stand body 11, and the power module 121 independently supplies power to the first camera 2.

Or, the video monitoring device further includes a first camera 2 and at least one second camera, the first camera 2 is disposed on the bracket body 11, and the at least one second camera can be disposed on one side of the first camera 2. In this case, a power supply module 121 and a switch module 122 may be integrated on the stand body 11, the switch module 122 being connected with the first camera 2 and the at least one second camera, respectively.

Specifically, since the video monitoring apparatus of this embodiment includes the camera support, and the specific structure of the camera support refers to the above-mentioned embodiment, the video monitoring apparatus of this embodiment includes all technical solutions of the above-mentioned embodiment, and therefore at least has all the beneficial effects obtained by all the technical solutions of the above-mentioned embodiment, which are not described in detail herein.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that various changes in the form and details may be made therein without departing from the spirit and scope of the invention; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. A camera support, comprising:

the camera mounting bracket comprises a bracket body, a first camera and a second camera, wherein the bracket body is provided with a first switching part and a second switching part, the first switching part is used for being connected with a component to be mounted, and the second switching part is used for being connected with a first camera;

the functional module is arranged on the support body and comprises a switch module, and the switch module is used for being connected with the first camera and the at least one second camera.

2. The camera mount of claim 1, wherein a first receiving cavity is formed in the mount body; the functional module still includes power module, power module with the switch module is all located first holding the intracavity.

3. The camera mount of claim 2, further comprising a cover; the bracket body is provided with a first opening, the first opening is communicated with the first accommodating cavity, and the cover body covers the first opening.

4. The camera support according to claim 2, wherein an abutting member and a clamping member are disposed in the first accommodating cavity, the abutting member and the clamping member are disposed at an interval, and the functional module is sandwiched between the abutting member and the clamping member.

5. The camera mount of claim 2, wherein the power module is provided with an input interface and an output interface; the switch module is provided with a first connecting port, a second connecting port, a third connecting port and a fourth connecting port;

the input interface is used for being electrically connected with an external power line, and the output interface is electrically connected with the first connecting interface;

the second connector is used for being connected with an external network cable, the third connector is used for being connected with a tail wire of the first camera, and the fourth connector is used for being connected with a tail wire of the second camera.

6. A camera support according to any one of claims 2 to 5, wherein a second receiving cavity is formed in the support body for receiving a wire.

7. The camera bracket according to claim 6, wherein the bracket body is further provided with a wire inlet, a wire outlet and a wire threading opening;

the wire inlet and the wire outlet are respectively communicated with the second accommodating cavity, and the first accommodating cavity and the second accommodating cavity are communicated through the threading opening.

8. The camera mount of claim 6, wherein the mount body includes a mount and a support bracket;

the mounting seat with the support frame is connected, first switching portion with the second holds the chamber and all locates the mounting seat, the second switching portion with the first chamber that holds all locates the support frame.

9. The camera support according to any one of claims 1 to 5, wherein the second adapter portion comprises a first adapter member and a second adapter member; the first adapter piece is rotatably arranged on the bracket body along a first axis, the second adapter piece is rotatably arranged on the first adapter piece along a second axis, and the second adapter piece is used for being connected with the first camera; the first axis and the second axis are perpendicular;

or, the second switching portion includes a plurality of bar holes, and is a plurality of the bar hole is arranged along the circumference, the support body is used for being connected with first camera through a plurality of the bar hole.

10. A video monitoring apparatus, comprising: a camera support according to any one of claims 1 to 9;

the video monitoring device further comprises a first camera and at least one second camera, the first camera is arranged on the support body, and the switch module is connected with the first camera and the at least one second camera respectively.

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