CN220381342U - Distributed temperature sensing optical cable laying equipment - Google Patents

Abstract

The utility model relates to the technical field of optical cable laying, in particular to distributed temperature sensing optical cable laying equipment, which comprises a plate body, a limiting mechanism, a clamping mechanism and a moving mechanism, wherein the limiting mechanism is arranged on the plate body; the limiting mechanism is arranged on the top surface of the plate body and used for limiting the temperature sensing optical cable so as to enable the temperature sensing optical cable to be attached to the surface of the cable; the clamping mechanisms are arranged at two sides of the limiting mechanism and used for clamping the cable; the moving mechanism is arranged below the plate body and used for driving the limiting mechanism and the clamping mechanism to move. According to the utility model, the cable is fixed through the clamping mechanism, and the temperature sensing optical cable is arranged at the top of the cable through the limiting mechanism, so that the temperature sensing optical cable is continuously abutted against the outer wall of the cable, thereby being convenient for a user to lay the optical cable, the laying equipment can be suitable for various types of cables through adjusting the clamping mechanism, and the specific position of the temperature sensing optical cable on the cable can be changed according to actual conditions through adjusting the limiting mechanism, so that the temperature sensing optical cable is convenient and flexible to use.

Description

Distributed temperature sensing optical cable laying equipment

Technical Field

The utility model relates to the technical field of optical cable laying, in particular to distributed temperature sensing optical cable laying equipment.

Background

Because the cable probably causes the condition such as high temperature because of various reasons when using, arouses conflagration even, so in some plants or other worksites that the electricity is great, can lay the temperature sensing optical cable to the cable on its surface to utilize temperature sensing optical cable and supporting part to monitor it everywhere to the cable, when the cable department takes place conflagration or high temperature hidden danger, distributed optical fiber line type temperature sensing fire detector can in time provide the warning, thereby prevent or reduce the harm that the conflagration accident caused. The system can also upload alarm information and temperature information to a fire alarm host for comprehensive management, when the temperature sensing optical cable is laid, the temperature monitoring should be carried out for each cable according to 110KV and above power cables, in the application, the temperature sensing optical cable (with the diameter of about 3 mm) is generally clung to the upper part of the cable, in the actual operation process, an installer is required to manually press the temperature sensing optical cable on the cable surface, a fixing clamp is installed to enable the temperature sensing optical cable to be connected with the cable, and when the fixing clamp is installed, the operator can loosen hands, so that the temperature sensing optical cable is separated from the cable surface, and the installer is required to frequently straighten the position of the temperature sensing optical cable, so that the system is inconvenient.

Disclosure of Invention

In view of the above, the utility model provides a distributed temperature-sensing optical cable laying device to solve the problems of poor persistence and inconvenient use of the existing temperature-sensing optical cable and cable laying process.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a distributed temperature sensing optical cable lays equipment, includes the plate body, still includes:

the limiting mechanism is arranged on the top surface of the plate body and used for limiting the temperature sensing optical cable so as to enable the temperature sensing optical cable to be attached to the surface of the cable;

the clamping mechanisms are arranged at two sides of the limiting mechanism and used for clamping the cable;

the moving mechanism is arranged below the plate body and used for driving the limiting mechanism and the clamping mechanism to move.

Preferably, in the above distributed temperature sensing optical cable laying apparatus, the limit mechanism includes:

the outer side wall of the ring body is fixedly connected to the top surface of the plate body, an annular groove is formed in one side of the ring body, and a rotating ring is sleeved in the annular groove in a rotating mode;

the connecting component is arranged on the outer side wall of the rotating ring;

the limiting component is movably connected with the connecting component and is used for limiting the temperature sensing optical cable;

and the driving assembly is connected with the rotating ring and used for driving the rotating ring to rotate.

Preferably, in the distributed temperature sensing optical cable laying apparatus, the connection assembly includes

The connecting plate is fixedly connected to the outer side wall of the rotating ring, a threaded hole is formed in the top surface of the connecting plate, a screwing rod is screwed in the threaded hole, and the connecting assembly is connected with the limiting assembly through the screwing rod;

the two support arms are fixedly connected to the bottom surface of the connecting plate, and the limiting component is located between the two support arms.

Preferably, in the distributed temperature sensing optical cable laying apparatus, the limiting assembly includes

The U-shaped plate is movably arranged between the two support arms through the screwing rod, and the opening direction of the U-shaped plate faces the ground;

and the limiting rod is arranged between the two arms of the U-shaped plate and used for limiting the position of the temperature sensing optical cable.

Preferably, in the distributed temperature sensing optical cable laying apparatus, the driving assembly includes a driving shaft and a rubbing wheel fixedly connected with the driving shaft;

the top of the outer side wall of the ring body is provided with a communication hole, the outer side wall of the rubbing wheel is contacted with the outer side wall of the rotating ring, and the rubbing wheel is positioned in the communication hole and used for driving the rotating ring to rotate.

Preferably, in the distributed temperature sensing optical cable laying device, an annular sleeve is fixedly sleeved on the inner side wall of the ring body; the limiting rod is of an arc rod-shaped structure.

Preferably, in the above distributed temperature sensing optical cable laying apparatus, the clamping mechanism includes:

the clamping assembly is used for clamping the cable;

and one end of the rotary connecting component is fixedly connected with the side wall of the ring body, and the other end of the rotary connecting component is rotationally connected with the clamping component.

Preferably, in the distributed temperature sensing optical cable laying apparatus, the rotating connection assembly includes a connection block fixedly connected to the side wall of the ring body;

and two ends of the rotating rod are respectively connected with the connecting block and the clamping assembly in a rotating way.

Preferably, in the distributed temperature sensing optical cable laying apparatus, the clamping assembly includes:

the U-shaped frame is rotationally connected to the rotating rod, and the opening direction of the U-shaped frame faces one side of the cable;

the rotating shaft is arranged between the two arms of the U-shaped frame, the two ends of the rotating shaft are sleeved with supporting wheels, and the cable is fixed between the two supporting wheels.

Preferably, in the distributed temperature sensing optical cable laying apparatus, the clamping mechanism further includes a moving assembly slidably connected with the rotating connection assembly through a sliding rod; the movable assembly comprises a sliding rail, one end of the sliding rod is connected with the bottom of the U-shaped frame, and the other end of the sliding rod is in sliding connection with the inside of the sliding rail.

The utility model provides distributed temperature sensing optical cable laying equipment, which has the beneficial effects that compared with the prior art:

according to the utility model, the cable is fixed through the clamping mechanism, and the temperature sensing optical cable is arranged at the top of the cable through the limiting mechanism, so that the temperature sensing optical cable is continuously abutted against the outer wall of the cable, thereby being convenient for a user to lay the optical cable, the laying equipment can be suitable for various types of cables through adjusting the clamping mechanism, and the specific position of the temperature sensing optical cable on the cable can be changed according to actual conditions through adjusting the limiting mechanism, so that the temperature sensing optical cable is convenient and flexible to use.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a limiting mechanism and a moving mechanism according to the present utility model;

FIG. 3 is an exploded view of the structure of the clamping mechanism of the present utility model;

fig. 4 is an exploded view of the structure of the limiting mechanism in the present utility model.

In the figure: 100. a plate body; 101. a notch; 200. a limiting mechanism; 210. a ring body; 211. an annular groove; 212. a communication hole; 220. a rotating ring; 230. a connecting plate; 231. a support arm; 232. a screwing rod; 240. a U-shaped plate; 241. a limit rod; 250. a drive shaft; 251. a rubbing wheel; 260. an annular sleeve; 300. a clamping mechanism; 310. a connecting block; 320. a rotating rod; 330. a U-shaped frame; 340. a rotating shaft; 341. a supporting wheel; 350. a slide bar; 351. screwing the hole; 360. a slide rail; 361. a screw; 400. a moving mechanism; 410. a support rod; 420. a connecting rod; 421. a moving wheel; 430. a drive motor; 431. a rod body; 440. a gear.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model discloses distributed temperature-sensing optical cable laying equipment, which comprises a plate body 100, a limiting mechanism 200, a clamping mechanism 300 and a moving mechanism 400; the limiting mechanism 200 is disposed on the top surface of the board 100, and is used for limiting the temperature sensing optical cable so as to make it lean against the cable surface; the clamping mechanisms 300 are arranged at two sides of the limiting mechanism 200 and are used for clamping cables; the moving mechanism 400 is disposed below the plate 100 and is used for driving the limiting mechanism 200 and the clamping mechanism 300 to move.

In some embodiments of the present utility model, the spacing mechanism 200 includes a ring 210, a connection assembly, a spacing assembly, and a drive assembly;

the outer side wall of the ring body 210 is fixedly connected to the top surface of the plate body 100, one side of the ring body 210 is provided with an annular groove 211, a rotating ring 220 is rotatably sleeved in the annular groove 211, and preferably, the inner side wall of the ring body 210 is fixedly sleeved with an annular sleeve 260; the connecting component is arranged on the outer side wall of the rotating ring 220; the limiting component is movably connected with the connecting component and is used for limiting the temperature-sensing optical cable; the driving assembly is connected to the rotating ring 220 for driving the rotating ring 220 to rotate.

Further, the connection assembly includes a connection plate 230 and two arms 231; wherein the connecting plate 230 is fixedly connected to the outer side wall of the rotating ring 220, a threaded hole is formed in the top surface of the connecting plate 230, a screwing rod 232 is screwed in the threaded hole, and the connection of the connecting component and the limiting component is realized through the screwing rod 232; the two support arms 231 are fixedly connected to the bottom surface of the connecting plate 230, and the limiting component is located between the two support arms 231.

Further, the limiting assembly comprises a U-shaped plate 240 and a limiting rod 241; the U-shaped plate 240 is movably arranged between the two support arms 231 through the screwing rod 232, and the opening direction of the U-shaped plate 240 faces the ground; the limiting rod 241 is disposed between the two arms of the U-shaped board 240 and is used for limiting the position of the temperature sensing optical cable, and preferably, the limiting rod 241 is in an arc-shaped rod structure.

Further, the driving assembly includes a driving shaft 250 and a rubbing wheel 251 fixedly connected with the driving shaft 250; the top of the outer side wall of the ring body 210 is provided with a communication hole 212, the outer side wall of the rubbing wheel 251 is contacted with the outer side wall of the rotating ring 220, and the rubbing wheel 251 is positioned inside the communication hole 212 and is used for driving the rotating ring 220 to rotate.

In some embodiments of the present utility model, the clamping mechanism 300 includes a clamping assembly, a rotational connection assembly, and a movement assembly; the clamping assembly is used for clamping the cable; one end of the rotary connecting component is fixedly connected with the side wall of the ring body 210, and the other end of the rotary connecting component is rotationally connected with the clamping component; the moving assembly is slidably coupled to the rotating coupling assembly by a slide bar 350.

Further, the rotational coupling assembly includes a connection block 310 and a rotation lever 320; wherein the connecting block 310 is fixedly connected to the side wall of the ring body 210; both ends of the rotating rod 320 are respectively connected with the connecting block 310 and the clamping assembly in a rotating way.

Further, the clamping assembly includes a U-shaped frame 330 and a spindle 340; the U-shaped frame 330 is rotatably connected to the rotating rod 320, and the opening direction of the U-shaped frame 330 faces one side of the cable; the rotating shaft 340 is disposed between the two arms of the U-shaped frame 330, and the two ends of the rotating shaft 340 are both sleeved with the supporting wheels 341, and the cable is fixed between the two supporting wheels 341.

Further, the moving assembly comprises a sliding rail 360, one end of the sliding rod 350 is connected with the bottom of the U-shaped frame 330, and the other end is slidably connected inside the sliding rail 360.

1-4, a distributed temperature sensing optical cable laying apparatus includes a board 100, a limiting mechanism 200, a clamping mechanism 300 and a moving mechanism 400; the limiting mechanism 200 is disposed on the top surface of the board 100, and is used for limiting the temperature sensing optical cable so as to make it lean against the cable surface; the clamping mechanisms 300 are arranged at two sides of the limiting mechanism 200 and are used for clamping cables; the moving mechanism 400 is disposed below the plate 100 and is used for driving the limiting mechanism 200 and the clamping mechanism 300 to move.

As shown in fig. 2 and 4, the limiting mechanism 200 comprises a ring 210, the outer side wall of the ring 210 is fixedly connected to the top surface of the plate body 100, one side of the ring 210 is provided with an annular groove 211, a rotating ring 220 is rotatably sleeved in the annular groove 211, one side of the rotating ring 220 is fixedly connected with a connecting plate 230, one end of the top surface of the connecting plate 230 is provided with a threaded hole, a rotating rod 232 is rotatably combined in the threaded hole, one end of the connecting plate 230 is fixedly connected with two support arms 231, a U-shaped plate 240 is slidably embedded between the two support arms 231, a limiting rod 241 is fixedly connected between the two ends of the two arms of the U-shaped plate 240, the other side of the ring 210 is fixedly connected with a driving shaft 250, a motor shaft of the driving shaft 250 is fixedly connected with a rubbing wheel 251, the outer side wall of the ring 210 is provided with a communication hole 212, the outer side wall of the rubbing wheel 251 is contacted with the outer side wall of the rotating ring 220, the rubbing wheel 251 is positioned in the communication hole 212, the two clamping mechanisms 300 are respectively positioned at two opposite sides of the ring 210, after the cable is straightened, the cable is placed at the position of a route to be laid, then the temperature-sensing optical cable is straightened and placed beside the cable, the cable passes through the center of the ring body 210, the inner side wall of the ring body 210 is fixedly sleeved with the annular sleeve 260, the cable passes through the annular sleeve 260, the annular sleeve 260 is made of rubber or other stretchable soft sleeves to a certain extent, the outer side wall of the cable can be scraped by the annular sleeve 260 to clean the cable and support the cable, the limiting rod 241 is of an arc-shaped rod structure, the limiting rod 241 is more attached to the surface of the temperature-sensing optical cable, the temperature-sensing optical cable passes through the gap between the limiting rod 241 and the surface of the cable, the rotating and closing rod 232 can rotate to drive the U-shaped plate 240 to slide between the two support arms 231, the distance between the limiting rod 241 and the surface of the cable is controlled, then a user can move the plate body 100 by using the moving mechanism 400 and the plate body 100 can move linearly along the cable by using the two clamping mechanisms 300, the U-shaped plate 240 is enabled to limit the temperature sensing optical cable, the U-shaped plate is enabled to be attached to the surface of the cable, then a user is enabled to follow the rear of the plate body 100 to install the connecting piece to fix the temperature sensing optical cable, the user is enabled to fix the temperature sensing optical cable on the cable without manual operation, and when the temperature sensing optical cable attached to the surface of the cable is bent, the driving shaft 250 can be started to drive the rubbing wheel 251 to rotate, the rubbing wheel 251 drives the ring body 210 to rotate, the position of the U-shaped plate 240 is controlled to pull and adjust the position of the temperature sensing optical cable on the surface of the cable, and the temperature sensing optical cable is convenient for the user to use.

As shown in fig. 3, the clamping mechanism 300 includes two parallel connection blocks 310, and two connection block 310 one ends all are connected with adjacent ring 210 lateral wall fixed connection, two connection block 310 other ends all rotate and are connected with bull stick 320, and two bull stick 320 one ends all rotate and are connected with U-shaped frame 330, all rotate and be connected with pivot 340 between two U-shaped frame 330 both arms one ends, and two pivot 340 both ends have all fixedly cup jointed the wheel 341 that supports, two U-shaped frame 330 bottom surfaces all fixedly connected with slide bar 350, and be provided with slide rail 360 between two U-shaped frame 330, two slide bar 350 bottom all sliding connection is inside slide rail 360, and rotate and be connected with screw 361 between the inside both ends of slide rail 360, the spin hole 351 has all been seted up to two slide bar 350 bottom ends, and two spin hole 351 inside wall all spin with screw 361 lateral wall mutually, screw 361 one end runs through slide rail 360 one end and fixedly connected with nut, screw 361 is followed both ends to the opposite of two section screw thread of center department, and two initial positions of screw 350 are located screw 361 respectively, make the person twist screw 361 and drive screw spindle 361 and rotate when the time, can drive two wire wheel 341 that moves relative to drive two section screw 350, can drive two cable arms 350 and make the cable wire 341 to move towards two and two cable frame bodies to the centre gripping device, can be close to two cable body 300, and the centre gripping device is close to two cable body 100, can be in a pair of cable body to the opposite to the situation is realized, and two cable body is 100, can be moved to the clamping profile 100, and can be moved towards two cable body to the opposite to the side and to the opposite cable body to the side is opposite to the opposite.

As shown in fig. 2, the moving mechanism 400 includes four struts 410, the four struts 410 are respectively located at four corners of the bottom surface of the board body 100, connecting rods 420 are rotatably connected between two struts 410 located at the same end of the board body 100, two ends of each connecting rod 420 are fixedly sleeved with moving wheels 421, the top surface of the board body 100 is fixedly connected with a driving motor 430, a motor end of each driving motor 430 is fixedly connected with a rod body 431, the outer side wall of each rod body 431 is fixedly sleeved with a gear 440, the top surface of the board body 100 is provided with a notch 101, one gear 440 is located inside the notch 101, the two gears 440 are meshed and connected, the driving motor 430 is started, one connecting rod 420 is driven to rotate through the two gears 440, and the connecting rods 420 drive the board body 100 to move through the moving wheels 421, so that the automation degree of the laying process is improved.

Working principle: after the cable is straightened, the cable is placed at a route to be laid, then the temperature-sensing optical cable is straightened and placed beside the cable, the cable passes through the center of the ring body 210, the cable passes through the center of the annular sleeve 260, when the plate body 100 moves, the annular sleeve 260 can support the cable, the central shaft of the cable and the central shaft of the annular sleeve 260 are the same axis, the annular sleeve 260 scrapes the outer side wall of the cable for cleaning, then the temperature-sensing optical cable passes through the gap between the limiting rod 241 and the surface of the cable, the rotating rod 232 is rotated to drive the U-shaped plate 240 to slide between the two support arms 231, the distance between the limiting rod 241 and the surface of the cable is controlled, then a user screws nuts on the two clamping mechanisms 300 to drive the two screws 361 to rotate, the two screws 361 synchronously drive the two slide rods 350 to approach each other, the four supporting wheels 341 on the same clamping mechanism 300 clamp the surface of the cable, the cable is positioned at the centers of the four supporting wheels 341 on the same clamping mechanism 300, the two clamping mechanisms 300 are used for clamping, the temperature-sensing optical cable is driven by the two clamping mechanisms 300 to drive the two clamping mechanisms 430 to drive the two connecting rods 420 to move, and then the connecting rod 100 is driven by the two optical cable to move by the connecting rods 100 to the human body to follow the outer side wall;

when the temperature sensing optical cable attached to the cable surface is partially bent, the driving shaft 250 can be started to drive the rubbing wheel 251 to rotate, so that the rubbing wheel 251 drives the ring body 210 to rotate, the position of the U-shaped plate 240 is controlled to pull and adjust the position of the temperature sensing optical cable on the cable surface, and the cable is supported by the annular sleeve 260 and scraped by the annular sleeve, so that the rotating ring 220 drives the connecting plate 230 to rotate by taking the central axis of the cable and the annular sleeve 260 as the center, the temperature sensing optical cable is always attached to the outer side wall of the cable, and the limiting rod 241 pulls the temperature sensing optical cable to form an S-shaped curve on the cable surface.

According to the utility model, the cable passes through the annular sleeve, then the two screws are rotated, so that two sliding rods positioned on the same clamping mechanism are close to each other, two adjacent U-shaped frames are driven to be close, the cable is clamped at the center by the four supporting wheels, then the rotating rod is rotated, the distance between the limiting rod and the outer side wall of the cable is adjusted, the temperature sensing optical cable passes through the gap between the limiting rod and the outer wall of the cable, then the driving motor is started to drive the plate body to move through the two gears, the limiting rod can limit the temperature sensing optical cable and enable the limiting rod to be abutted against the outer wall of the cable, thus the cable can be conveniently laid by a user, and the driving shaft can be started to drive the ring body to rotate through the twisting wheels, so that the limiting rod is controlled to adjust the position of the temperature sensing optical cable on the cable, and the cable is convenient for the user to lay the optical cable.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the utility model, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the utility model or exceeding the scope of the utility model as defined in the claims.

Claims (10)

1. The utility model provides a distributing type temperature sensing optical cable lays equipment, includes the plate body, its characterized in that still includes:

the limiting mechanism is arranged on the top surface of the plate body and used for limiting the temperature sensing optical cable so as to enable the temperature sensing optical cable to be attached to the surface of the cable;

the clamping mechanisms are arranged at two sides of the limiting mechanism and used for clamping the cable;

the moving mechanism is arranged below the plate body and used for driving the limiting mechanism and the clamping mechanism to move.

2. The distributed temperature-sensitive fiber optic cable laying apparatus of claim 1, wherein the spacing mechanism comprises:

the outer side wall of the ring body is fixedly connected to the top surface of the plate body, an annular groove is formed in one side of the ring body, and a rotating ring is sleeved in the annular groove in a rotating mode;

the connecting component is arranged on the outer side wall of the rotating ring;

the limiting component is movably connected with the connecting component and is used for limiting the temperature sensing optical cable;

and the driving assembly is connected with the rotating ring and used for driving the rotating ring to rotate.

3. The distributed temperature-sensing fiber optic cable laying apparatus of claim 2, wherein the connection assembly comprises

The connecting plate is fixedly connected to the outer side wall of the rotating ring, a threaded hole is formed in the top surface of the connecting plate, a screwing rod is screwed in the threaded hole, and the connecting assembly is connected with the limiting assembly through the screwing rod;

the two support arms are fixedly connected to the bottom surface of the connecting plate, and the limiting component is located between the two support arms.

4. A distributed temperature sensing fiber optic cable laying apparatus according to claim 3 wherein the spacing assembly comprises

The U-shaped plate is movably arranged between the two support arms through the screwing rod, and the opening direction of the U-shaped plate faces the ground;

and the limiting rod is arranged between the two arms of the U-shaped plate and used for limiting the position of the temperature sensing optical cable.

5. The distributed temperature sensing fiber optic cable laying apparatus of claim 2 wherein said drive assembly includes a drive shaft and a scrub wheel fixedly connected to said drive shaft;

the top of the outer side wall of the ring body is provided with a communication hole, the outer side wall of the rubbing wheel is contacted with the outer side wall of the rotating ring, and the rubbing wheel is positioned in the communication hole and used for driving the rotating ring to rotate.

6. The distributed temperature sensing optical cable laying apparatus of claim 2 wherein the annular body inner side wall is fixedly sleeved with an annular sleeve.

7. A distributed temperature sensitive optical cable laying apparatus according to any one of claims 2-6, wherein the clamping mechanism comprises:

the clamping assembly is used for clamping the cable;

and one end of the rotary connecting component is fixedly connected with the side wall of the ring body, and the other end of the rotary connecting component is rotationally connected with the clamping component.

8. A distributed temperature sensing fiber optic cable laying apparatus as claimed in claim 7 wherein the rotary connection assembly comprises

The connecting block is fixedly connected to the side wall of the ring body;

and two ends of the rotating rod are respectively connected with the connecting block and the clamping assembly in a rotating way.

9. A distributed temperature-sensitive fiber optic cable laying apparatus according to claim 8, wherein the clamping assembly comprises:

the U-shaped frame is rotationally connected to the rotating rod, and the opening direction of the U-shaped frame faces one side of the cable;

the rotating shaft is arranged between the two arms of the U-shaped frame, the two ends of the rotating shaft are sleeved with supporting wheels, and the cable is fixed between the two supporting wheels.

10. A distributed temperature sensing fiber optic cable laying apparatus as claimed in claim 9 wherein the clamping mechanism further comprises a moving assembly slidably connected to the rotating connection assembly by a slide bar; the movable assembly comprises a sliding rail, one end of the sliding rod is connected with the bottom of the U-shaped frame, and the other end of the sliding rod is in sliding connection with the inside of the sliding rail.