CN219177354U - Support for monitoring camera - Google Patents

Abstract

The utility model relates to a technical field that surveillance camera head installed discloses a support for surveillance camera head, and it includes support, fixed connection support column on the support column and sets up the mount pad that is used for supplying the surveillance camera head to install on the support column, can dismantle on the support and be connected with the stationary blade that is used for fixing the cable of connecting the surveillance camera head usefulness. This application is used for fixing the one end that is close to monitoring camera to the cable through setting up support, support column, mount pad and stationary blade, has reduced that the condition that needs the staff to tie a knot the cable earlier on the support column takes place, has reduced promptly that the staff need to tie a knot and relieve the condition of tie a knot to the condition that needs to climb the climbing down many times when having reduced the staff and having carried out the cable to the monitoring camera of installing on the support takes place, and then has reduced the staff and carried out the condition that the work load is great when the cable is connected to the monitoring camera of installing on the support.

Description

Support for monitoring camera

Technical Field

The application relates to the technical field of monitoring camera installation, in particular to a support for a monitoring camera.

Background

The monitoring camera is a semiconductor imaging device, and video signals are transmitted to the display through the cable for the staff to view in real time, so that the effect of real-time monitoring is achieved. The monitoring camera is generally installed at a higher position, and is usually mounted on a wall using a bracket for the monitoring camera or is supported by a combination rod for the monitoring camera so as to be located at the higher position.

In the related art, for example, a novel chinese patent with publication number CN212390023U discloses a security monitoring camera bracket, which includes a support, a support column, the support column is spliced with the left side of the support, and the support column is rotationally connected with an inner cavity of the support; the support rod is fixedly arranged at the left side of the top end of the support column along the up-down direction; the right side of the bottom end of the mounting plate is rotationally connected with the top end of the supporting rod; the security monitoring camera is fixedly arranged at the top end of the mounting plate; the locking mechanism is arranged at the bottom end of the support; the angle adjusting mechanism is arranged on the left side of the support column. When the security monitoring camera bracket is used, the security monitoring cameras are fixed at the high positions of the wall, then the cables are connected with the security monitoring cameras through signals, and then the cables are fixed, so that one ends of the cables, which are far away from the security monitoring cameras, are connected with the display through signals, and the imaged picture of the security monitoring cameras is displayed on the display.

For the related art in the foregoing, the inventor considers that when the cable is mounted on the mounted security monitoring camera bracket, if the force applied to the cable by the staff is large, the cable may pull the monitoring camera because the cable is not fixed at the position of the support, at this time, the monitoring camera may move from the position, which may seriously cause the cable to be separated from the monitoring camera, that is, the cable needs to be reinstalled by the staff or the monitoring camera needs to be repositioned.

In order to avoid the condition that cable motion leads to surveillance camera head motion or cable and surveillance camera head separation to take place, generally when installing the cable to the surveillance camera head, the staff is fixed the cable on the support column through the mode of knoing earlier, treat that the other end of cable is in the same place with the display and settle after, releases the department of knoing of cable again, and because the mounted position of support is higher, so need the staff to use the cat ladder many times to climb up and climb down, and then there is the staff to the surveillance camera head of installing on the support when carrying out the cable the great defect of work load.

Disclosure of Invention

In order to alleviate the great problem of work load when the staff carries out the connecting cable to the surveillance camera head of installing on the support, this application provides a surveillance camera head and uses support.

The application provides a support for surveillance camera head adopts following technical scheme:

the utility model provides a support for surveillance camera head, includes support, fixed connection be in support column on the support and set up be used for supplying the mount pad of surveillance camera head installation on the support column, can dismantle on the support and be connected with the stationary blade that is used for fixing the cable of connecting the surveillance camera head usefulness.

Through adopting above-mentioned technical scheme, when using this support to install monitoring camera, use expansion bolts earlier with support fixed connection in the higher position department of wall, then with monitoring camera fixed mounting to the mount pad on, link together cable and monitoring camera again, then use the stationary blade to fix the cable, then make stationary blade and support fixed connection together, then arrange and pull the cable again and make the cable keep away from monitoring camera's one end and be connected together with the display.

Because the stationary blade is close to the one end of surveillance camera head and has been fixed, so reduced the condition that needs the staff to tie a knot the cable earlier on the support column and take place, reduced promptly that needs the staff to tie a knot and remove the condition of tying a knot to reduce the staff and need climb the condition emergence of climbing down many times when carrying out the cable to the surveillance camera head of installing on the support, and then reduced the staff and carried out the condition emergence that the work load is great when connecting the cable to the surveillance camera head of installing on the support.

Optionally, the screw rods fixedly connected to the support are respectively arranged at two ends of the fixing piece in a penetrating manner, and each screw rod is connected with a locking nut used for locking the fixing piece in a threaded manner.

Through adopting above-mentioned technical scheme, link together the one end of cable with the surveillance camera head of installing on the support, install the stationary blade on two screws, then screw up locking nut to the screw rod for locking nut exerts the power towards being close to the support direction to the stationary blade, thereby makes the stationary blade carry out the crowding tightly to the cable, realizes fixing to the cable promptly.

Optionally, rotate on the support column and be connected with the rotation seat, be provided with on the rotation seat and be used for carrying out the auto-lock subassembly of auto-lock to self rotation, the mount pad setting is in on the rotation seat.

Through adopting above-mentioned technical scheme, install the mount pad with the surveillance camera head on, need adjust the scope that can monitor to the surveillance camera head, rotate the mount pad this moment, the mount pad is driving the rotation of rotating the mount pad, realize the change that can monitor the scope of surveillance camera head promptly, after the position adjustment that can monitor to the surveillance camera head is good, the auto-lock subassembly locks the rotation seat, thereby reduce the surveillance camera head when blowing by wind, the pivoted condition takes place, on the one hand increased the stability of surveillance camera head, on the other hand reach the effect of the staff of being convenient for to adjust the surveillance scope of surveillance camera head.

Optionally, the rotating seat comprises a rotating sheet, a rotating tube fixedly connected to the rotating sheet and penetrating into the supporting column, and a connecting sheet arranged on the rotating sheet and opposite to the rotating tube, wherein the mounting seat is arranged on the connecting sheet, and the self-locking assembly is arranged on the rotating tube.

Through adopting above-mentioned technical scheme, when adjusting the scope that monitoring camera installed on the support can monitor, rotate the mount pad, the mount pad is driving the rotor and is rotating, and the rotor is driving the rotor and is rotating, and the relative rotation takes place for rotor and support column, realizes the adjustment to monitoring camera monitoring scope promptly.

Optionally, the support column is the cavity setting, the auto-lock subassembly includes fixed connection stop the piece on the rotation tube, cup joint on the rotation tube with stop the spring of piece contact and two all cup joints first face gear on the rotation tube, keep away from stop the first face gear of piece with the inner wall fixed connection of support column, the spring with be close to stop the first face gear contact of piece.

Through adopting above-mentioned technical scheme, when adjusting monitoring camera's control scope, the rotor disk drives the rotation pipe motion, and rotation pipe and support column take place relative rotation, are close to the first face gear that blocks the piece and extrude the spring, then make two first face gears take place relative movement, after adjusting monitoring camera's control scope, be close to the first face gear that blocks the piece and be in the same place with another first face gear engagement in the effect of spring, realize promptly to rotating seat pivoted automatic locking.

Optionally, a limiting groove is axially formed in the rotating tube parallel to the rotating tube, and a limiting block which is close to the blocking piece and is in sliding fit with the limiting groove is fixedly connected to the first end face gear.

Through adopting above-mentioned technical scheme, when the pivoted tube rotates, be close to the first terminal surface gear orientation that blocks the piece and be close to the direction motion that blocks the piece, stopper and spacing groove take place relative slip this moment, make the first terminal surface gear that blocks the piece follow the synchronous rotation of pivoted tube that then, reduce and be close to the first terminal surface gear that blocks the piece and pivoted tube take place relative rotation, lead to the self-locking component to the not good condition emergence of locking effect of pivoted seat, and then guarantee the locking effect of self-locking component to pivoted seat as far as possible.

Optionally, the connection piece is provided with two, two the connection piece interval sets up, the mount pad including the installation piece that supplies the surveillance camera head to install and two interval settings with installation piece fixed connection and respectively with two the connection piece corresponds the backing sheet that sets up, every connection piece all fixedly connected with penetrates corresponding pivot in the backing sheet, one of them be provided with in the pivot be used for the rotation of backing sheet carries out the locking subassembly of locking.

Through adopting above-mentioned technical scheme, install the support on the wall after, install the mounting plate with the surveillance camera head again, then rotate the mounting plate again, supporting plate and connection piece take place relative rotation through the pivot, make the mounting plate drive surveillance camera head motion, the monitored position of surveillance camera head changes, in order to satisfy the needs of monitoring to different positions, after adjusting the surveillance camera head, the operation locking subassembly, make the locking subassembly carry out the locking to the supporting plate, reduce the supporting plate promptly and take place relative pivoted condition emergence with the connection piece under non-personnel's effect, and then increase the stability of installing surveillance camera head on the support.

Optionally, set up locking subassembly the pivot orientation deviates from the orientation extension setting of connection piece, locking subassembly includes threaded connection is in epaxial locking nut and two all cup joints in epaxial second face gear of pivot, corresponding offer on the connection piece and hold the accommodation hole of second face gear, one of them second face gear with be close to connection piece fixed connection, another fixedly connected with slider on the global of second face gear, offer on the pore wall of accommodation hole with the spout of slider adaptation.

Through adopting above-mentioned technical scheme, when adjusting the relative position of mount pad and rotation seat, twist earlier and lock the nut, the relative rotation takes place for locking nut and corresponding pivot, then make locking nut and second face gear separation, then adjust the mount pad, the backing sheet is driving the second face gear that keeps away from the connection piece under the effect of slider and spout and is rotating, two second face gears take place relative rotation, after adjusting the position of mount pad, reverse twist the locking nut, locking nut supports the second face gear tightly, two second face gear meshes, and then realize the locking to the mount pad.

Optionally, the support column is close to on the global corresponding the stationary blade of support one end has seted up the line hole that supplies the cable to pass, correspond on the rotor plate the cable passes the through-hole is offered to the rotor tube.

Through adopting above-mentioned technical scheme, after installing the wall with the support, penetrate the support column with the one end warp hole of cable earlier in, then continue to threading the cable in to the support column to make the cable get into in the rotation pipe and wear out the support column through the through-hole, then install the mounting plate with the surveillance camera head again on, be in the same place cable and surveillance camera head link together, reuse the stationary blade to fix the cable at last, when penetrating the cable in the support column, can reduce the windy weather, other debris fall on the cable and lead to the condition emergence of cable and surveillance camera head separation or cause the condition emergence of cable damage.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through setting up support, support column, mount pad and stationary blade, the stationary blade is used for fixing the one end that is close to the surveillance camera head of cable, has reduced the condition that needs the staff to tie a knot the cable on the support column earlier and has taken place, has reduced the condition that needs the staff to tie a knot and release the knot to the cable to the condition that the staff need climb up and climb down many times when having reduced the surveillance camera head of installing on the support and having carried out the condition that the work load is great when connecting the cable to the surveillance camera head of installing on the support to take place;

2. after one end of the cable is connected with the monitoring camera arranged on the bracket through the screw rod and the locking nut, the fixing pieces are arranged on the two screw rods, and then the locking nut is screwed on the screw rods, so that the locking nut applies force to the fixing pieces towards the direction close to the support, and the fixing pieces are tightly squeezed to fix the cable;

3. through setting up rotation seat and auto-lock subassembly, install the mount pad with the surveillance camera head on after, need adjust the scope that can monitor to the surveillance camera head, rotate the mount pad this moment, the mount pad is driving the rotation seat and is rotating, realize the change of the scope that can monitor of surveillance camera head promptly, after the position adjustment that can monitor to the surveillance camera head is good, auto-lock subassembly locks the rotation seat, thereby reduce the surveillance camera head when blowing by wind, the pivoted condition takes place, on the one hand increased the stability of surveillance camera head, on the other hand reach the effect of the staff of being convenient for to adjust the surveillance scope of surveillance camera head.

Drawings

FIG. 1 is a schematic view of the overall structure of a bracket in an embodiment of the present application;

FIG. 2 is a schematic view of a portion of a bracket in an embodiment of the present application, mainly illustrating a fixing piece;

FIG. 3 is a partial structural cross-sectional view of the bracket of the present embodiment, primarily illustrating the self-locking assembly;

FIG. 4 is a schematic view of another view of a bracket according to an embodiment of the present application;

FIG. 5 is an enlarged view of the portion A of FIG. 4;

fig. 6 is an enlarged view of the portion B in fig. 4.

Reference numerals illustrate: 100. a support; 110. a screw; 111. a lock nut; 200. a support column; 210. a wire hole; 220. a guide block; 300. a mounting base; 310. a mounting piece; 320. a support sheet; 321. a receiving hole; 322. a chute; 400. a fixing piece; 500. a rotating seat; 510. a rotating piece; 511. a through hole; 520. a rotary tube; 521. a limit groove; 530. a connecting sheet; 531. a rotating shaft; 600. a self-locking assembly; 610. a barrier sheet; 620. a spring; 630. a first end face gear; 631. a limiting block; 700. a locking assembly; 710. a locking nut; 720. a second face gear; 721. a sliding block.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

The embodiment of the application discloses a support for a monitoring camera.

Referring to fig. 1 and 2, a bracket for a monitoring camera includes a support 100, a support column 200, and a mounting base 300, wherein the support column 200 is hollow, one end of the support column 200 is fixedly connected with the support 100 vertically, and the mounting base 300 is disposed at one end of the support column 200 far away from the support 100. The fixing plates 400 are detachably connected to the opposite sides of the support 100, and the middle position of the fixing plates 400 in the length direction is outwards protruded in the direction away from the support 100. When the support in the application is used for installing the monitoring camera, the support 100 is fixed at a higher position of the wall by using the expansion bolt, the support 100 is abutted against the wall, the support column 200 is in a vertical state with the wall, then the monitoring camera is fixed on the mounting seat 300, the monitoring camera is connected with a cable, the cable is connected with the monitoring camera, the fixing piece 400 is installed, the fixing piece 400 is fixedly connected with the support 100, and the fixing piece 400 compresses the cable on the support 100 at the moment, so that the fixation of the cable is realized. And then the cable is arranged and pulled, and one end of the cable away from the monitoring camera is connected with the display.

Because the fixing piece 400 is used for fixing the cable, when the staff is reduced to connect the cable to the monitoring camera arranged on the support, the situation that the cable is required to be knotted on the support column 200 is reduced, and meanwhile, the situation that the staff is required to climb to the position of the support again to unbinding the cable is also reduced, namely, the number of times that the staff is required to climb up and down is reduced, and further, the workload of the staff when the staff connects the cable to the monitoring camera arranged on the support is reduced.

Referring to fig. 1 and 2, screws 110 are respectively penetrated at both ends of each fixing piece 400, one end of each screw 110 is vertically and fixedly connected with the support 100, and a locking nut 111 is respectively and fixedly connected with each screw 110. After one end of the cable is connected with the monitoring camera, the cable is placed between the two opposite screws 110, then the fixing piece 400 is installed on the screws 110, one end of the screws 110 far away from the support 100 penetrates through the fixing piece 400, then the locking nut 111 is connected onto the screws 110 in a threaded mode, the locking nut 111 is abutted against the fixing piece 400, the fixing piece 400 applies pressure towards the direction of the support 100 to the cable, the cable is abutted against the support 100 under the action of the fixing piece 400, and therefore fixing of one end close to the monitoring camera is achieved.

Referring to fig. 3 and 4, a rotating seat 500 is disposed at one end of the support column 200 far away from the support 100, the rotating seat 500 includes a rotating plate 510, a rotating tube 520 and two connecting plates 530, wherein the two connecting plates 530 are disposed in parallel and spaced apart, each connecting plate 530 is fixedly connected to the rotating plate 510 vertically, the rotating tube 520 is fixedly connected to the rotating plate 510 vertically, and a through hole 511 for a cable to pass through is formed in the rotating plate 510 corresponding to the rotating tube 520. The two rotating plates 510 and the rotating tube 520 are respectively provided on both end surfaces of the rotating plate 510, and one end of the rotating tube 520 remote from the rotating plate 510 penetrates into the support column 200 and is rotatably connected with the support column 200. The rotating tube 520 is provided with a self-locking assembly 600 for automatically locking the rotation of the rotating tube 520, and the mounting base 300 is provided on two connecting pieces 530.

Referring to fig. 3 and 5, the self-locking assembly 600 includes a blocking piece 610, a spring 620 and two first end gears 630, wherein teeth of the two first end gears 630 are disposed opposite to and engaged with each other, the two first end gears 630 are coaxially sleeved on one end of the rotating tube 520 inserted into the support column 200, the spring 620 is sleeved on the rotating tube 520, the blocking piece 610 is in a ring shape, the blocking piece 610 is coaxially and fixedly connected to an end of the rotating tube 520 inserted into the support column 200, the spring 620 is located between the first end gear 630 and the blocking piece 610, the first end gear 630 far from the blocking piece 610 is fixedly connected with an inner wall of the support column 200, one end of the spring 620 is in contact with the blocking piece 610, and the other end of the spring 620 is in contact with the first end gear 630 near the blocking piece 610, so that the spring 620 applies a pushing force toward the other first end gear 630 near the blocking piece 610. The circumferential surface of one end of the rotary tube 520 inserted into the support column 200 is provided with a limit groove 521, and the opening direction of the limit groove 521 is parallel to the axial direction of the rotary tube 520. A stopper 631 is fixedly connected to the inner circumference of the first end gear 630 adjacent to the blocking piece 610, and the stopper 631 is located in the limiting groove 521 and slidably connected to the limiting groove 521, so that the cooperation of the stopper 631 and the limiting groove 521 enables the first end gear 630 adjacent to the blocking piece 610 to synchronously rotate along with the rotation tube 520.

After the monitoring camera is mounted on the mounting seat 300, the mounting seat 300 is rotated, the mounting seat 300 drives the connecting sheet 530 to rotate, the connecting sheet 530 drives the rotating sheet 510 to rotate, the rotating sheet 510 drives the rotating tube 520 to rotate, the rotating tube 520 drives the first end face gear 630 close to the blocking sheet 610 to rotate, the first end face gear 630 moves towards the direction close to the blocking sheet 610 under the action of the other first end face gear 630, the limiting block 631 and the limiting groove 521 slide relatively, the spring 620 is compressed, the two first end face gears 630 rotate relatively and are dislocated, after the mounting seat 300 is adjusted, the first end face gear 630 close to the blocking sheet 610 moves towards the direction far from the blocking sheet 610 under the action of the spring 620, and the two first end face gears 630 are meshed together, so that locking of the rotating seat 500 is achieved, and stability of the monitoring camera mounted on the support is improved.

Referring to fig. 3 and 6, the mounting base 300 includes a mounting plate 310 and two support plates 320, the two support plates 320 are spaced apart, each support plate 320 is fixedly connected with the mounting plate 310 vertically, the two support plates 320 are respectively located at one sides of the two connection plates 530 facing away from each other, and the connection plates 530 and the support plates 320 are arranged in one-to-one correspondence. Each connecting piece 530 is connected with a rotating shaft 531 vertically and fixedly on the end face facing the supporting piece 320, the two rotating shafts 531 are coaxially arranged, and each rotating shaft 531 penetrates into the corresponding supporting piece 320. One of the rotating shafts 531 extends out of the corresponding support plate 320, and a locking assembly 700 for locking the rotation of the support plate 320 is provided on the rotating shaft 531.

The locking assembly 700 includes a locking nut 710 and two second face gears 720, where the two second face gears 720 are disposed opposite to each other and are meshed with each other, the two second face gears 720 are coaxially sleeved on a rotating shaft 531 extending into the supporting plate 320, an external thread is provided on the rotating shaft 531 extending out of the supporting plate 320, and the locking nut 710 is in threaded connection with the rotating shaft 531 extending out of the supporting plate 320. The supporting piece 320 corresponding to the locking nut 710 is provided with a receiving hole 321 for receiving the second face gear 720, the hole wall of the receiving hole 321 is provided with a sliding groove 322, and the opening direction of the sliding groove 322 is parallel to the axial direction of the rotating shaft 531. A second face gear 720 close to the connecting piece 530 is fixedly connected with the connecting piece 530, and a sliding block 721 in sliding fit with the sliding groove 322 is fixedly connected on the peripheral surface of the other second face gear 720.

After the monitoring camera is fixedly installed on the installation sheet 310, the installation seat 300 needs to be adjusted, so that the monitoring range of the monitoring camera is adjusted; when the mounting seat 300 is adjusted, the locking nut 710 is screwed first, the locking nut 710 and the rotating shaft 531 rotate relatively, so that the locking nut 710 is separated from the second face gear 720, then the mounting plate 310 rotates, the mounting plate 310 drives the sliding block 721 to move under the action of the sliding groove 322, the sliding block 721 drives the second face gear 720 far away from the connecting piece 530 to rotate, and the two second face gears 720 rotate relatively, so that the adjustment of the mounting seat 300 is realized; after the position of the mounting seat 300 is adjusted, the locking nut 710 is reversely screwed, the locking nut 710 is abutted against the second face gears 720 far away from the connecting sheet 530, and at the moment, teeth of the two second face gears 720 are meshed with each other, so that the mounting seat 300 is locked, the occurrence of the relative rotation of the mounting seat 300 and the rotating seat 500 is reduced, and the stability of the monitoring camera mounted on the mounting seat 300 is further improved.

Referring to fig. 2, two wire holes 210 are formed on the peripheral surface of the support column 200 near one end of the support 100 corresponding to the two fixing plates 400, and the two wire holes 210 can allow the cable to penetrate into the support column 200. A guide block 220 for guiding the cable is fixedly connected to the inner wall of the end of the support column 200 far away from the support 100, and the guide block 220 is positioned at the pipe orifice of the rotating pipe 520. When the monitoring camera mounted on the support 100 is connected with the cable, one end of the cable is firstly inserted into the support column 200 through the cable hole 210, then the cable is continuously inserted into the support column 200, after the end of the cable moves to the position where the guide block 220 is located, the guide block 220 guides the cable, then the end of the cable enters the rotating tube 520, the cable is continuously inserted, the cable penetrates into the support column 200 through the through hole 511 and the two connecting sheet 530 supports, and then the cable is connected with the monitoring camera.

The implementation principle of the bracket for the monitoring camera in the embodiment of the application is as follows: when the bracket is used for installing the monitoring camera, the support 100 is fixed at the higher position of the wall by using the expansion bolt, then the monitoring camera is fixed on the mounting plate 310, one end of the cable penetrates into the support column 200 through the cable hole 210, the cable penetrates out from the position between the two connecting sheets 530 through the rotating tube 520, the end of the cable is connected with the monitoring camera, and the cable is fixed by using the fixing sheet 400. The staff arranges the cable again and pulls the line to keep away from the one end that monitoring camera and display link together with the cable, accomplish the installation to monitoring camera promptly, this in-process has reduced and has required the staff to tie a knot the cable on support column 200 earlier, then releases the condition emergence of tying a knot again, and then has reduced the staff and carried out the work load when connecting the cable to the monitoring camera of installing on the support.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. A support for surveillance camera head, its characterized in that: the monitoring camera comprises a support (100), a support column (200) fixedly connected to the support (100) and a mounting seat (300) arranged on the support column (200) and used for mounting the monitoring camera, wherein a fixing sheet (400) used for fixing a cable used for connecting the monitoring camera is detachably connected to the support (100).

2. The bracket for a monitoring camera according to claim 1, wherein: screw rods (110) fixedly connected to the support (100) are arranged at two ends of the fixing piece (400) in a penetrating mode, and locking nuts (111) used for locking the fixing piece (400) are connected to each screw rod (110) in a threaded mode.

3. The bracket for a monitoring camera according to claim 1, wherein: the support column (200) is rotationally connected with a rotating seat (500), a self-locking assembly (600) for self-locking rotation is arranged on the rotating seat (500), and the mounting seat (300) is arranged on the rotating seat (500).

4. A bracket for a monitoring camera according to claim 3, wherein: the rotating seat (500) comprises a rotating plate (510), a rotating pipe (520) fixedly connected to the rotating plate (510) and penetrating into the supporting column (200), and a connecting sheet (530) arranged opposite to the rotating plate (510) and the rotating pipe (520), wherein the mounting seat (300) is arranged on the connecting sheet (530), and the self-locking assembly (600) is arranged on the rotating pipe (520).

5. The bracket for a monitoring camera according to claim 4, wherein: the support column (200) is the cavity setting, self-locking subassembly (600) include fixed connection be in stop piece (610) on rotary tube (520), cup joint on rotary tube (520) with stop spring (620) and two all cup joints first face gear (630) on rotary tube (520), keep away from stop first face gear (630) of piece (610) with the inner wall fixed connection of support column (200), spring (620) with be close to stop first face gear (630) contact of piece (610).

6. The bracket for a monitoring camera according to claim 5, wherein: a limiting groove (521) is formed in the rotating pipe (520) parallel to the axial direction of the rotating pipe, and a limiting block (631) in sliding fit with the limiting groove (521) is fixedly connected to the first end face gear (630) close to the blocking piece (610).

7. The bracket for a monitoring camera according to claim 4, wherein: the utility model provides a camera, including mounting panel (310) and two interval settings, mounting panel (530) are provided with two connection piece (530), two connection piece (530) interval settings, mount pad (300) including supply monitor camera installation mounting panel (310) and two interval settings with mounting panel (310) fixed connection and two respectively support piece (320) that connection piece (530) correspond the setting, every connection piece (530) all fixedly connected with penetrate correspond pivot (531) in support piece (320), one of them be provided with on pivot (531) be used for the rotation of support piece (320) carries out locking subassembly (700).

8. The bracket for a monitoring camera according to claim 7, wherein: the setting locking subassembly (700) pivot (531) orientation deviates from the direction extension setting of connection piece (530), locking subassembly (700) are in including threaded connection locking nut (710) and two all cup joints on pivot (531) second face gear (720), corresponding offer on connection piece (530) hold holding hole (321) of second face gear (720), one of them second face gear (720) with be close to connection piece (530) fixed connection, another fixedly connected with slider (721) on the global of second face gear (720), offer on the pore wall of holding hole (321) with spout (322) of slider (721) adaptation.

9. The bracket for a monitoring camera according to claim 5, wherein: the periphery of the support column (200) close to one end of the support seat (100) is provided with a wire hole (210) for a cable to pass through corresponding to the fixing piece (400), and the rotating piece (510) is provided with a wire passing through hole (511) corresponding to the rotating pipe (520).

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