CN218268280U - Connecting piece and mounting bracket applied to valve controller - Google Patents

Abstract

The utility model discloses a connecting piece and a mounting bracket applied to a valve controller, wherein the connecting piece comprises a connecting plate and two supporting plates which are vertically arranged below the connecting plate in parallel; one end of the connecting plate is respectively hinged with the supporting plate, an angle adjuster is arranged between the connecting plate and the supporting plate, and the angle adjuster is arranged at the upper part of the supporting plate and is in contact with the connecting plate; the angle adjuster is used for adjusting the included angle between the connecting plate and the supporting plate. The mounting bracket comprises the connecting piece and the supporting rod, the supporting rod comprises an upper supporting rod and a lower supporting rod, and the connecting piece is fixed at the top end of the upper supporting rod. The angle regulator of the utility model regulates the included angle between the connecting plate and the supporting plate, so that the connecting plate can be in different inclination angles, and the valve controller presents different inclination states after being installed on the connecting plate, so as to adapt to different installation environments; and the mounting bracket decomposes the supporting rod into an upper supporting rod and a lower supporting rod, thereby being convenient for field transportation and mounting.

Description

Connecting piece and mounting bracket applied to valve controller

Technical Field

The utility model relates to a be applied to valve controller's connecting piece and installing support belongs to outdoor equipment installation technical field.

Background

The farmland irrigation and the metering are closely related, and the application of the metering in agriculture can not leave a control system,

usually, a pipe network is laid near the farmland, and then the electromagnetic valves in the pipe network are controlled by a valve controller so as to realize the control of the farmland irrigation. Based on the application scenario of the valve controller, the valve controller needs to be arranged in the suburb, and the valve controller is arranged at a higher position relative to the farmland or the water channel through the mounting bracket. In order to satisfy that valve controller can be in the field continuous operation, built-in lithium cell at valve controller usually, set up solar cell panel on valve controller's shell body, continuously charge for the lithium cell through solar cell panel's effect to can continuously provide the electric energy for valve controller. In order to enable the solar cell panel to be irradiated by the sun for a longer time and absorb more solar energy, the valve controller is usually installed in an inclined state, the installation environment of the valve controller is variable, the sunlight irradiation condition is variable, and the required installation angle of the valve controller is different, but most connecting pieces used for installing the valve controller on the market are integrally formed structures, the inclination angle of the installation surface of the connecting pieces is specific, the valve controller can only be in an inclined state after being installed on the connecting pieces, and the valve controller cannot be adapted to different installation environments, so that the connecting pieces capable of adjusting different angles and the installation support used for fixing the connecting pieces are needed, and the connecting pieces can be matched with different inclined states required by the valve controller.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a connecting piece and a mounting bracket applied to a valve controller, which can adjust different inclination angles and match different inclination states required by the valve controller through the improvement of the connecting piece and the mounting bracket; the technical problem that the valve controller can only be in one inclined state and cannot meet the requirements of adapting to different installation environments is solved.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the connecting piece applied to the valve controller comprises a connecting plate and two supporting plates, wherein the two supporting plates are vertically arranged below the connecting plate in parallel; one end of the connecting plate is hinged with the supporting plate respectively, an angle adjuster is arranged between the connecting plate and the supporting plate, and the angle adjuster is arranged at the upper part of the supporting plate and is in contact with the connecting plate; the angle adjuster is used for adjusting the included angle between the connecting plate and the supporting plate.

Preferably, the angle adjuster comprises a guide chute, an adjusting rod and a locker, the locker is arranged in the guide chute, one end of the adjusting rod is connected with the locker, the other end of the adjusting rod is arranged on the lower surface of the connecting plate, and the adjusting rod can rotate relative to the locker and the connecting plate.

As a feasible implementation scheme, the guide chute is a T-shaped chute formed by an upper chute and a lower chute, the locker is composed of a bar-shaped sliding block with threads at two ends and a nut matched with the bar-shaped sliding block, the bar-shaped sliding block is arranged in the lower chute, two ends of the bar-shaped sliding block extend out of the side wall of the lower chute, and two ends of the bar-shaped sliding block extend out of the side wall of the lower chute and then are respectively matched with the nut; one end of the adjusting rod extends into the upper chute and then is installed on the sliding block.

As another possible embodiment, the locking device is composed of a telescopic slide block 373 and a locking clamp, the locking clamp includes a clamp handle, a clamp mouth, and a locking spring, two ends of the telescopic slide block can be freely extended and retracted, the clamp mouth of the locking clamp is fixedly connected with two ends of the telescopic slide block, which can be freely extended and retracted, respectively, and the locking device is disposed in the guide chute.

The mounting bracket using the connecting piece comprises a support rod, wherein the connecting piece is fixed at the top end of the support rod, the support rod comprises an upper support rod and a lower support rod, and the lower end of the lower support rod is in a pointed shape; the upper support rod is inserted into the lower support rod and fixed through a locking bolt.

Preferably, the upper support rod is of a tubular structure, the upper portion of the upper support rod is provided with a wire inlet notch for conducting a connecting wire, and the lower portion of the upper support rod is provided with a wire outlet notch.

Preferably, the lower support rod is of a tubular structure, the upper support rod is inserted into the upper part of the lower support rod, and the upper support rod and the lower support rod are fixed into a whole through a locking bolt.

Preferably, the mounting bracket further comprises a ground cage embedded part, and the lower support rod is inserted into the ground cage embedded part during specific mounting.

Compared with the prior art, the utility model has the advantages of:

1. the connecting piece of this application is provided with angle modulation ware between connecting plate and backup pad, through the contained angle between angle modulation ware adjusting connection board and the backup pad, and then makes the connecting plate can be in different inclination, and valve controller installs the back on the connecting plate, demonstrates different tilt states to adapt to different installation environment.

2. The utility model provides a mounting bracket has decomposed into branch last branch and lower branch with branch, the field transportation and the installation of being convenient for, and the mounting bracket is in permanent use, and is firm and be difficult for rocking. Meanwhile, a control connecting wire between the valve controller and the electromagnetic valve penetrates into the upper supporting rod, so that the control connecting wire can be prevented from being damaged by environmental factors or human factors.

Drawings

FIG. 1 is a view showing an installation state of the present invention;

FIG. 2 is a block diagram of a connector in one possible embodiment;

FIG. 3 is a block diagram of a connector in another possible embodiment;

FIG. 4 is a block diagram of the angle adjuster of FIG. 3;

FIG. 5 is a structural view of the guide chute of FIG. 4;

FIG. 6 is a block diagram of an angle adjuster in another possible embodiment;

FIG. 7 is a block diagram of a connector in another possible embodiment;

figure 8 is an exploded view of the strut.

In the figure: the valve controller 100, the guard plate 200, the connector 300, the support plate 310, the connection plate 320, the mounting hole 330, the fastening hole 340, the mounting bar 350, the angle adjuster 360, the bar-shaped slider 371, the nut 372, the telescopic slider 373, the clamp handle 375, the clamp mouth 374, the locking spring 376, the guide sliding groove 380, the lower sliding groove 381, the upper sliding groove 382, the adjusting rod 390, the supporting rod 400, the upper supporting rod 410, the wire inlet notch 411, the fixing plate 412, the wire outlet notch 413, the lower supporting rod 420, the locking bolt 440 and the supporting plate 430.

Detailed Description

In the present application, the terms "mounted," "connected," and "secured" are to be construed broadly unless otherwise explicitly specified or limited; the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, which is only for convenience of description of the present invention and simplification of description, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

Referring to fig. 2, the connector 300 applied to the valve controller 100 includes a connecting plate 320 and a supporting plate 310, wherein a mounting hole 330 is formed in the mounting plate 320, and a screw passes through the mounting hole 330 to fix the valve controller 100 to the connecting plate 320. The two support plates 310 are vertically and parallelly disposed below the connecting plate 320, one end of the connecting plate 320 is hinged to the two support plates 310, and in this embodiment, the corners of the upper portions of the two support plates 310 are connected to two sharp corners on the same side of the connecting plate 320. An angle adjuster 360 is provided between the connection plate 320 and the support plate 310, and the angle adjuster 360 is disposed at an upper portion of the support plate 310 and contacts the connection plate 320; the angle between the connection plate 320 and the support plate 310 is adjusted by the angle adjuster 360. In this embodiment, the angle adjuster 360 includes a guide slot 380, an adjusting lever 390, and a locker disposed in the guide slot 380; one end of the adjustment lever 390 is connected to the locker, and the other end of the adjustment lever 390 is mounted to the lower surface of the coupling plate 320, so that the adjustment lever 390 can rotate with respect to the locker and the coupling plate 320. Particularly, when the included angle between the connecting plate 320 and the support plate 310 is adjusted, the locker needs to slide along the guide-sliding groove 380, so that one end of the adjusting rod 390 connected with the locker is located at different positions in the guide-sliding groove 380, and since the length of the adjusting rod 390 is not changed, when the locker is located at different positions in the guide-sliding groove 380, the included angle between the connecting plate 320 and the support plate 310 is also changed accordingly. When adjusted to a desired angle, the locker is locked to fix the angle between the coupling plate 320 and the support plate 310. So that the connection plate 320 is in a desired inclination state, and then the valve controller 100 is mounted on the connection plate 320 to satisfy the inclination angle of the valve controller 100.

The lockers may be installed on the upper end surface of the support plate 310, as shown in fig. 2; the locking unit may be integrated with the support plate 310 as shown in fig. 3, that is, the sliding guide groove 380 is formed at the upper portion of the support plate 310. In some possible embodiments, referring to fig. 3 to 5, the locking device is integrated with the support plate 310, and the guide groove 380 is opened at an upper portion of the support plate 310. In this embodiment, the guide slot 380 includes an t-shaped slot formed by the upper slot 382 and the lower slot 381, and the width of the lower slot 381 extends to the side wall of the supporting block. The locking device is composed of a bar-shaped sliding block 371 with threads at two ends and a nut 372 matched with the bar-shaped sliding block 371, and the section of the bar-shaped sliding block 371 is smaller than that of the upper sliding groove 382 and the lower sliding groove 381. The strip-shaped sliding block 371 is arranged in the lower sliding groove 381, two ends of the strip-shaped sliding block 371 extend out of the side wall of the lower sliding groove 381, and two ends of the strip-shaped sliding block 371 extend out of the side wall of the lower sliding groove 381 and then are respectively matched with the screw cap 372; one end of the adjusting lever 390 is installed on the slider after extending into the upper sliding groove 382. Specifically, when the angle adjuster 360 is connected to the connecting plate 320 and the supporting plate 310, the adjusting rod 390 and the bar-shaped slider 371 are movably connected, and then the bar-shaped slider 371 is placed in the lower sliding groove 381. This application place bar slider 371 in the in-process of | -type spout, can be earlier parallel with last spout 382 with bar slider 371, then when going down to lower spout 381 along the wall of last spout 382, with the rotatory 90 degrees of bar slider 371 for bar slider 371 is the vertical condition with lower spout 381 on the horizontal direction, and stretches out lower spout 381 lateral wall with the both ends that are equipped with the screw thread on the bar slider 371, guarantees to have enough length to carry out screw-thread fit with nut 372. The two ends of the screw thread on the bar-shaped sliding block 371 extend out of the side wall of the lower sliding groove 381 and then are matched with the screw caps 372 respectively, and the distance between the screw caps 372 is larger than the wall thickness of the supporting plate 310, so that the bar-shaped sliding block 371 can slide in the lower sliding groove 381. The upper end of the adjustment lever 390 is movably connected to the lower surface of the connection plate 320, thereby completing the connection between the angle adjuster 360 and the connection plate 320 and the support plate 310, respectively. In the process of angle adjustment, the nut 372 on the support plate 310 is held by hand, so that the bar-shaped slider 371 is located at different positions in the lower sliding groove 381, and since the length of the adjustment rod 390 is not changed, when the bar-shaped slider 371 is located at different positions in the guide sliding groove 380, the included angle between the connection plate 320 and the support plate 310 is correspondingly changed. When the required angle is adjusted, the nuts 372 on both sides of the support plate 310 are rotated simultaneously, so that the nuts 372 are tightly attached to the side wall of the support plate 310 to limit the sliding of the bar-shaped slider 371, thereby fixing the included angle between the connecting plate 320 and the support plate 310. The valve controller 100 is then mounted on the connection plate 320 to satisfy the inclination angle of the valve controller 100.

In some possible embodiments, please refer to fig. 6 and 7, the locker and the supporting plate 310 are integrated, the guiding slot 380 is disposed at the upper portion of the supporting plate 310, in this embodiment, the guiding slot 380 is a t-shaped guiding slot 380; the locking device is composed of a telescopic slide block 373 and a locking clamp, two ends of the telescopic slide block 373 can be freely stretched, and the telescopic slide block 373 is arranged in the guide sliding groove 380. In this embodiment, the locking clip comprises a clip handle 375, a clip mouth 374 and a locking spring 376, wherein the clip mouth 374 is located at the end of the clip handle 375, the locking clip adopts the working principle of scissors, the two clip handles 375 are crossed with each other to pinch the clip handle 375, and the included angle between the two clip handles 375 is changed, so that the clip mouth 374 connected with the clip handle 375 moves correspondingly, and the distance between the two clip mouths 374 is shortened. What is different is that locking spring 376 has been increased between being close to two clamp handles 375 in this embodiment, and when the locking clamp placed in the spout along with telescopic sliding block 373, the spring was in compression state, and elasticity transmits for the clamp splice through clamp handles 375, and two clamp splices have received horizontal thrust, and then make the inner wall of spout hugged closely with the both ends of telescopic sliding block 373 of pressing from both sides mouth 374 fixed connection, reach the gliding purpose of restriction telescopic sliding block 373 in guide chute 380. When the angle adjuster is installed, one end of the adjusting rod 390 is connected with the telescopic sliding block 373, and then the clamping handle 375 is pinched, so that the clamping mouth 374 drives the two ends of the telescopic sliding block 373 to move, when the length of the telescopic sliding block 373 is smaller than the width of the sliding groove, then the telescopic sliding block 373 and the lower part of the locking clamp are placed in the sliding groove, the clamping handle 375 is loosened, the clamping mouth 374 drives the two ends of the telescopic sliding block 373 to extend under the action of the locking spring 376 and cling to the inner wall of the sliding groove, then the other end of the adjusting rod 390 is movably connected to the lower surface of the connecting plate 320, and the angle adjuster 360 is connected with the connecting plate 320 and the supporting plate 310 respectively. In the specific operation process, the clamping handle 375 is pinched, so that the telescopic sliding block 373 is in a compressed state and can slide in the sliding groove, and since the length of the adjusting rod 390 is not changed, when the telescopic sliding block 373 is at different positions in the sliding guide groove 380, the included angle between the connecting plate 320 and the supporting plate 310 is also changed correspondingly. When the required angle is adjusted, the clamp handle 375 is loosened, the locking clamp drives the telescopic sliding block 373 to be in an extension state, and the telescopic sliding block 373 is tightly attached to the inner wall of the sliding groove, so that the telescopic sliding block 373 is limited to slide in the sliding groove. Thereby fixing the angle between the connection plate 320 and the support plate 310. The valve controller 100 is then mounted on the connection plate 320 to satisfy the inclination angle of the valve controller 100.

Of course, the locking spring 376 may also be disposed at one end close to the nozzle 374, by pinching the grip lever 375, the length of the locking spring 376 is compressed, when the nozzle 374 moves to drive the two ends of the telescopic slider 373, when the length of the telescopic slider 373 is smaller than the width of the sliding slot, the telescopic slider 373 and the lower portion of the locking clip are placed in the sliding slot, the grip lever 375 is loosened, the nozzle 374 drives the two ends of the telescopic slider 373 to extend under the action of the locking spring 376 and cling to the inner wall of the sliding slot, so as to limit the sliding of the telescopic slider 373 in the sliding slot.

Further, referring to fig. 7, in order to enhance the mechanical properties of the side wall of the guide slot 380, the thickness of the side wall of the guide slot 380 may be increased, when the clamp and the support plate 310 are integrated and the guide slot 380 is disposed at the upper portion of the support plate 310, the thickness of the upper portion of the support plate 310 may be increased, so as to increase the inner wall of the guide slot 380 under the condition that the width of the guide slot 380 is not changed.

Example 2

Referring to fig. 1 and 8, the mounting bracket using the connector 300 includes a support rod 400 and the connector 300, the connector 300 is fixed at the top end of the support rod 400, the support rod 400 includes an upper support rod 410 and a lower support rod 420, the upper portion of the lower support rod 420 is a cylindrical structure, the upper support rod 410 is inserted into the upper portion of the lower support rod 420, and the upper support rod 410 and the lower support rod 420 are fixed together by a locking bolt 440. In some alternative embodiments, a support plate 430 may be further disposed on the lower pole 420, and the support plate 430 is horizontally installed on the lower pole 420. Specifically, when the installation is performed, the support plate 430 is installed on the lower support rod 420, and the support plate 430 and the lower support rod 420 can be fixedly connected, for example, welded; the connection can also be in a detachable mode, such as clamping connection. After the support plate 430 is mounted on the lower support rod 420, the support plate 430 is positioned on the upper portion of the lower support rod 420 and does not slide on each other. Then the lower part of the lower support rod 420 is inserted into the soil, when the lower support rod 420 is inserted into the soil until the support plate 430 is tightly attached to the ground, the lower support rod 420 can not move downwards due to the resistance of the support plate 430 in the opposite direction, and the distance between the support plate 430 and the lower end part of the lower support rod 420 is the total depth of the lower support rod 420 inserted into the soil. After the lower support rod 420 is installed, the lower support rod 420 and the support plate 430 are hammered by external force, so that the friction force between the support plate 430 and the ground is increased, and the lower support rod 420 is installed more stably. Then, the lower portion of the supporting plate 310 is fixed to the upper end surface of the upper supporting rod 410, and the angle between the connecting plate 320 and the supporting plate 310 is adjusted according to the installation angle required by the valve controller 100; and then the valve controller 100 is installed on the connection plate 320, in this embodiment, a protection plate 200 is provided on the valve controller 100, an installation area is provided on the protection plate 200, and the connection plate 320 is placed on the installation area and fixed by screws. Further, a fixing plate 412 may be further installed at the upper end of the upper supporting rod 410, and a through hole may be formed in the fixing plate 412 to facilitate fastening the connector 300 to the fixing plate 412. After the upper support rod 410 and the connector 300 and the valve controller 100 and the connector 300 are connected, the lower portion of the upper support rod 410 is inserted into the lower support rod 420 and fixed by the locking bolt 440. The utility model provides a back is installed to the support mounting, installs the one end of control connection line on valve controller 100, and the other end of control connection line is connected with the solenoid valve in the pipe network to realize the control to solenoid valve in the field irrigation through valve controller 100.

In some possible embodiments, the upper supporting rod 410 is a tubular structure, an incoming line notch 411 for conducting a control connection line is formed at the upper portion of the upper supporting rod 410, and an outgoing line notch 413 is formed at the lower portion of the upper supporting rod 410. When the device is installed, one end of the control connecting line is installed on the valve controller 100, the other end of the control connecting line penetrates through the line inlet notch 411 of the upper supporting rod 410 and penetrates out of the line outlet notch 413, and then the control connecting line is connected with the electromagnetic valve in the pipe network, so that the control of farmland irrigation is achieved through the valve controller 100. After the control connecting wire is threaded out from the wire outlet notch 413, the control connecting wire is buried underground, the control connecting wire is prevented from being exposed in the environment, and the control connecting wire is prevented from being damaged by environmental factors or human factors. The control connection lines are threaded into the upper support rod 410, so that the installation of the valve controller 100 is not messy, and the control connection lines are prevented from being damaged by the environment or people.

In some possible embodiments, a mounting bar 350 is fixed to a lower end of the support plate 310, the mounting bar 350 having a fastening hole 340, the mounting bar 350 being disposed inward below the connection plate 320. The connector 300 is fixed to the upper support 410 by passing a bolt through the fastening hole 340 and the fixing plate 412. The angle of inclination of the connecting plate 320 depends on the actual desired angle of inclination of the valve controller 100 in a particular application. Specifically, please refer to fig. 1, in this embodiment, the valve controller 100 is installed by inclining 45 degrees, so as to ensure that the solar panel can be fixed at an irradiation angle of 45 degrees; accordingly, the connection plate 320 is adjusted to a 45 degree inclined state, the two support plates 310 are fixed in parallel below the connection plate 320, and then the connection member 300 is fixed to the upper end of the upper support rod 410 by the mounting bar 350.

When the installation support is specifically installed, firstly, the lower end of the lower support rod 420 is inserted into soil, and the length from the lower end part of the lower support rod 420 to the support plate 430 is all inserted into the soil through the action of external force. Specifically, the insertion depth of the lower support rod 420 is limited according to the softness of the soil, and generally, the outer diameter of the lower support rod 420 is 50mm, and the insertion depth is at least 50cm; when the soil quality is relatively loose compared with the general field soil quality, the insertion depth is correspondingly adjusted to be at least 80cm. That is, in general, the length between the lower end of the lower support rod 420 and the support plate 430 may be defined as at least 50cm, and when it is required to install the support in a place where the earth is open, the length between the lower end of the lower support rod 420 and the support plate 430 may be defined as at least 80cm. Furthermore, the lower end of the lower support rod 420 is designed to be pointed, so that the process of inserting the lower end of the lower support rod 420 into the soil is more labor-saving.

In some possible embodiments, in order to reduce the overall weight of the mounting bracket, the lower support rod 420 is manufactured in a tubular structure, the inner diameter of the lower support rod 420 is larger than the outer diameter of the upper support rod 410, the upper support rod 410 is inserted into the upper portion of the lower support rod 420, and then the upper support rod 410 and the lower support rod 420 are fixed to one body by the locking bolt 440. Generally, the outer diameter of the upper support rod 410 for fixing the valve controller 100 may be designed to be 40mm due to the light weight and small volume of the valve controller 100; the inner diameter of the lower support rod 420 is more than 40mm, and the outer diameter is designed to be 50mm; the length of the upper support rod 410 can be designed to be 1m, 1.5 m and 2 m according to the environment condition of the actual installation, and can also be adaptively limited according to the installation requirement of the valve controller 100.

In some feasible embodiments, the mounting bracket of the application can be further designed with a ground cage embedded part, during mounting, the ground cage embedded part is firstly mounted in soil, and then the lower support rod 420 is inserted into the ground cage embedded part for fixing, so that the mounting and maintenance of the mounting bracket are more convenient, and the stability of the mounting bracket under various working conditions is ensured.

The embodiments described above are some, but not all embodiments of the present invention. Various modifications and changes may occur to those skilled in the art. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (8)

1. Be applied to valve controller's connecting piece, its characterized in that: the support plate comprises a connecting plate and support plates, wherein the two support plates are vertically arranged below the connecting plate in parallel; one end of the connecting plate is hinged with the supporting plate respectively, an angle adjuster is arranged between the connecting plate and the supporting plate, and the angle adjuster is arranged at the upper part of the supporting plate and is in contact with the connecting plate; the angle adjuster is used for adjusting an included angle between the connecting plate and the supporting plate.

2. The connector of claim 1, wherein: the angle adjuster comprises a guide sliding groove, an adjusting rod and a locker, wherein the locker is arranged in the guide sliding groove, one end of the adjusting rod is connected with the locker, the other end of the adjusting rod is arranged on the lower surface of the connecting plate, and the adjusting rod can rotate relative to the locker and the connecting plate.

3. The connector of claim 2, wherein: the T-shaped sliding groove is formed by an upper sliding groove and a lower sliding groove, the locker is composed of a bar-shaped sliding block with threads at two ends and a nut matched with the bar-shaped sliding block, the bar-shaped sliding block is arranged in the lower sliding groove, two ends of the bar-shaped sliding block extend out of the side wall of the lower sliding groove, and two ends of the bar-shaped sliding block respectively match with the nut after extending out of the side wall of the lower sliding groove; one end of the adjusting rod extends into the upper sliding groove and then is installed on the sliding block.

4. The connector of claim 2, wherein: the locking device is composed of a telescopic sliding block and a locking clamp, the locking clamp comprises a clamp handle, a clamp mouth and a locking spring, two end portions of the telescopic sliding block can be freely stretched, the clamp mouth of the locking clamp is fixedly connected with two end portions of the telescopic sliding block, which can be freely stretched, respectively, and the locking device is arranged in the guide sliding groove.

5. A mounting bracket to which the connector according to any one of claims 1 to 4 is applied, characterized in that: the connecting piece is fixed at the top end of the supporting rod, the supporting rod comprises an upper supporting rod and a lower supporting rod, and the lower end of the lower supporting rod is pointed; the upper support rod is inserted into the lower support rod and fixed through a locking bolt.

6. The mounting bracket of claim 5, wherein: the upper supporting rod is of a tubular structure, the upper portion of the upper supporting rod is provided with a wire inlet notch used for conducting a connecting wire, and the lower portion of the upper supporting rod is provided with a wire outlet notch.

7. The mounting bracket of claim 5, wherein: the lower supporting rod is of a tubular structure, the upper supporting rod is inserted into the upper part of the lower supporting rod, and the upper supporting rod and the lower supporting rod are fixed into a whole through a locking bolt.

8. The mounting bracket of claim 5, wherein: the lower support rod is inserted into the ground cage embedded part.

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