CN220752325U - Bury cable path detection device - Google Patents

Abstract

The utility model relates to the technical field of cable detection, in particular to a buried cable path detection device, which comprises: the detection instrument is arranged in the placement box; the auxiliary moving mechanism is arranged at the lower end of the placement box; the auxiliary moving mechanism comprises a moving observation assembly for assisting in moving and supporting the placement box, and the moving observation assembly is arranged at the lower end of the placement box; can be under the effect of removal observation subassembly at the during operation, to placing box auxiliary support and hold the operation, when the axis of rotation drives the rubber tape through the rotor and removes, will keep the effect of rubber tape and ground laminating to will reach under parallelogram's effect that the lower terminal surface of top crossbearer keeps being parallel relatively with ground, and then reduced the long-term instrument work of holding of user, reduced staff's physical demands.

Description

Bury cable path detection device

Technical Field

The utility model relates to the technical field of cable detection, in particular to a buried cable path detection device.

Background

In order to ensure the normal operation of the buried cable, workers are required to periodically patrol the cable, and the longest patrol device is a cable path meter. The cable path instrument is one device with the functions of path searching, burial depth test, cable identifying, fault point positioning, etc. and includes mainly transmitter, receiver and other detecting wires. When in detection, a person holds the receiver and moves the receiver within a certain range from the transmitter, but at present, the person holds the receiver for detection, so that the detection is inconvenient, the length of the cable is relatively long, and the physical effort of the staff is relatively large.

Therefore, a buried cable path detection device is proposed to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to solve the problems that the manual holding is inconvenient to detect, the length of the cable is relatively long, and the physical consumption of staff is large.

The utility model realizes the aim through the following technical scheme, and the buried cable path detection device comprises: the detection instrument is arranged in the placement box; the auxiliary moving mechanism is arranged at the lower end of the placement box; the auxiliary moving mechanism comprises a moving observation component which is used for assisting in moving and supporting the placing box, the moving observation component is arranged at the lower end of the placing box, a locking positioning component is arranged on the surface of the moving observation component, and the locking positioning component is used for assisting in limiting the moving observation component.

Preferably, the movable observation assembly comprises a top transverse frame fixedly connected to the lower end of the placement box, an upper shaft is rotationally connected to the inner wall of the top transverse frame, a vertical supporting rod is rotationally connected to the surface of the upper shaft, a rotating shaft is connected to the other end of the vertical supporting rod, the surface of the rotating shaft is connected to a connecting transverse rod, the connecting transverse rod is parallel to the lower end face of the top transverse frame, and an effect similar to a parallelogram is formed by matching the connecting transverse rod with the vertical supporting rod and the top transverse frame, so that the auxiliary effect that the lower end face of the top transverse frame is kept relatively parallel to the ground is achieved under the action of the parallelogram.

Preferably, the locking positioning assembly comprises a positioning sliding sleeve which is connected to the surface of the vertical supporting rod in a sliding manner, one side of the positioning sliding sleeve is fixedly connected with a fixed circular pipe communicated with the positioning sliding sleeve, the surfaces of the two fixed circular pipes are rotationally connected with a knob pipe, the lower end of the fixed circular pipe is fixedly connected with a fixed sleeve, the fixed sleeve is connected with the surface of the movable observation assembly in a sliding manner, and the locking positioning assembly and the movable observation assembly are subjected to positioning adjustment operation through the action of the knob pipe.

Preferably, the surface cover of axis of rotation is equipped with the rubber tape, the inner wall of rubber tape is connected with two rotation wheels, rotation wheel fixed connection is in the surface of axis of rotation, and then when the axis of rotation drives the rubber tape through rotation wheel and removes, keeps good removal effect with ground laminating through the rubber tape in the field, avoids taking place the condition of skidding with ground contact.

Preferably, an auxiliary support rod is arranged between the top transverse frame and the vertical support rod, the auxiliary support rod is hinged to the surface of the upper shaft, and the auxiliary support rod can assist in supporting the placement box and keep the placement box stable in supporting during working.

Preferably, the inner wall threaded connection of knob pipe has two screw thread axles, the screw thread axle is close to the adjacency the one end of location slip cap runs through to adjacency the inside of fixed pipe, the one end fixedly connected with of location slip cap connects the round bar, and screw thread axle cooperation is moved about with its threaded connection's knob pipe's effect, and the time will be when the screw thread axle removes, will drive to connect the round bar and follow the inner wall at fixed pipe and carry out synchronous movement for connect the tip of round bar and will extend to the location slip cap inside, will make at this moment connect round bar one end and will support with auxiliary stay's surface tightly.

Preferably, the spout has been seted up on the surface of fixed pipe, the fixed surface of connecting the round bar is connected with the guide block, guide block sliding connection is in the inner wall of spout, and the cooperation of spout and guide block will avoid connecting the round bar and rotate along with, has ensured the screw axis horizontal migration state that can not rotate then, when continuing to rotate the knob pipe, will make the tip of connecting the round bar will extend to the location slip cap inside.

The beneficial effects of the utility model are as follows:

1. can be under the effect of removal observation subassembly at the during operation, to place box auxiliary stay operation, detect for traditional device manual work is held, it is very inconvenient, relative cable length is longer, staff's physical demands is great, the device is through connecting horizontal pole and vertical support pole and top crossbearer's cooperation, will form similar parallelogram's effect, and then will make when the axis of rotation drives the rubber tape through rotating the wheel and remove, will keep the effect of rubber tape and ground laminating, thereby will reach under parallelogram's effect that the lower terminal surface of top crossbearer keeps the auxiliary effect parallel relatively with the ground, and then reduced the long-term handheld instrument work of user, reduce staff's physical demands.

2. Can be under locking positioning component's effect in the during operation, fix a position the operation to auxiliary stay, the device makes the screw spindle control through manual rotation knob pipe remove, drives and connects the round bar and follow the inner wall synchronous motion at fixed pipe, and the spout is avoided connecting the round bar and is followed the rotation with the cooperation of guide block, connects the round bar tip and supports tightly with auxiliary stay's surface, reaches through frictional force and connects the relative position of round bar and auxiliary stay and can not take place great change to keep placing the effect that the box held in the palm steadily.

Drawings

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

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

FIG. 3 is a schematic view of the connection of the connecting rail to the rotating shaft of the present utility model;

FIG. 4 is a schematic view of the top cross frame of the present utility model connected to an upper shaft;

FIG. 5 is a schematic view of the position of the auxiliary supporting rod according to the present utility model;

fig. 6 is a partial exploded cross-sectional view of the locking positioning assembly of the present utility model.

In the figure: 1. a detection instrument; 2. placing a box; 3. an auxiliary moving mechanism; 31. moving the observation assembly; 311. connecting the cross bars; 312. a rotating shaft; 313. a rotating wheel; 314. a rubber belt; 315. a top cross frame; 316. an upper shaft; 317. a vertical support rod; 318. an auxiliary support rod; 32. a locking positioning assembly; 321. positioning a sliding sleeve; 322. fixing the round tube; 323. a fixed sleeve; 324. a knob tube; 325. a threaded shaft; 326. connecting round rods; 327. a chute; 328. and a guide block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but 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 specific implementation method comprises the following steps: as shown in fig. 1 to 6, a buried cable path detection device includes: a detection instrument 1 and a placement box 2, wherein the detection instrument 1 is arranged in the placement box 2; an auxiliary moving mechanism 3, the auxiliary moving mechanism 3 being mounted at the lower end of the placement box 2; the auxiliary moving mechanism 3 comprises a moving observation assembly 31 for assisting in moving and supporting the placement box 2, the moving observation assembly 31 is arranged at the lower end of the placement box 2, a locking positioning assembly 32 is arranged on the surface of the moving observation assembly 31, and the locking positioning assembly 32 is used for assisting in limiting the moving observation assembly 31;

as shown in fig. 1, 2, 3, 4 and 5, the mobile observation assembly 31 comprises a top transverse frame 315 fixedly connected to the lower end of the placement box 2, an upper shaft 316 is rotatably connected to the inner wall of the top transverse frame 315, a vertical support rod 317 is rotatably connected to the surface of the upper shaft 316, a rotating shaft 312 is connected to the other end of the vertical support rod 317, a connecting transverse rod 311 is connected to the surface of the adjacent rotating shaft 312, a rubber belt 314 is sleeved on the surface of the rotating shaft 312, two rotating wheels 313 are connected to the inner wall of the rubber belt 314, the rotating wheels 313 are fixedly connected to the surface of the rotating shaft 312, an auxiliary support rod 318 is arranged between the top transverse frame 315 and the adjacent vertical support rod 317, the auxiliary support rod 318 is hinged to the surface of the adjacent upper shaft 316, when an operator uses the detection instrument 1, the connecting transverse rod 311 is parallel to the lower end surface of the top transverse frame 315, and the connecting transverse rod 311 is matched with the vertical support rod 317 and the top transverse frame 315 at this time, the effect similar to a parallelogram is formed, and then when the rotating shaft 312 drives the rubber belt 314 to move through the rotating wheel 313, the effect of the rubber belt 314 being attached to the ground is kept, so that the auxiliary effect that the lower end face of the top transverse frame 315 is kept relatively parallel to the ground is achieved under the effect of the parallelogram, an operator can keep good observation effect in the using process, the length of the vertical supporting rod 317 is larger than the sum of the lengths of the top transverse frame 315 and the connecting transverse rod 311, the operator can keep the adjustment of the observation height of the detection instrument 1 through the cooperation of the auxiliary supporting rod 318 and the locking positioning assembly 32 when placing, and meanwhile, the observer can adjust the inclination angle of the upper end face of the top transverse frame 315 according to the actual using operation, the specific use condition can be properly adjusted according to the use environment;

when an operator needs to drive the placement box 2 to move by mechanical energy, the operator can fold the auxiliary support rods 318, at the moment, the cross rods between the two auxiliary support rods 318 can be pulled, the moving observation assembly 31 can be changed into a storage state, the horizontal positions of the connecting cross rods 311 and the top cross rods 315 are relatively close to each other, the state of the connecting cross rods and the areas of the vertical support rods 317 are relatively straight, the carrying of the user is facilitated, the surface of the rubber belt 314 can be contacted with the ground during temporary movement, the user can assist in moving the device, the auxiliary support rods 318 can be kept to be positioned by the locking positioning assembly 32, the state of the top cross rods 315 and the connecting cross rods 311 is kept relatively far away, the operator can manually push the device to move, meanwhile, according to different use environments, the rotating shaft 312 is positioned on the surface of the two rotating wheels 313, a steel wire rope is wound on the surface of the device, a motor is installed at the lower end of the top cross rods 315 and is in transmission connection with an output shaft of the motor, and the motor can drive the rubber ring through the steel wire rope to act during operation, so that the rotating shaft 312 is driven to rotate in an auxiliary mode, and the device can be properly adjusted according to the specific auxiliary driving environment;

as shown in fig. 1, 2 and 6, the locking positioning assembly 32 comprises a positioning sliding sleeve 321 which is slidably connected to the surface of a vertical supporting rod 317, one side of the positioning sliding sleeve 321 is fixedly connected with a fixed circular tube 322 which is communicated with the positioning sliding sleeve 321, the surfaces of the two fixed circular tubes 322 are rotatably connected with a knob tube 324, the lower end of the fixed circular tube 322 is fixedly connected with a fixed sleeve 323, the fixed sleeve 323 is slidably connected with the surface of the mobile observation assembly 31, the inner wall of the knob tube 324 is in threaded connection with two threaded shafts 325, one end of the threaded shaft 325 close to the adjacent positioning sliding sleeve 321 penetrates into the adjacent fixed circular tube 322, one end of the positioning sliding sleeve 321 is fixedly connected with a connecting circular rod 326, the surface of the fixed circular tube 322 is provided with a chute 327, the surface of the connecting circular rod 326 is fixedly connected with a guide block 328, the guide block 328 is slidably connected with the inner wall of the chute 327, when the movement observation assembly 31 is adjusted to a position where the placement box 2 stably holds the detection instrument 1, at this time, the knob tube 324 can be manually rotated, so that the threaded shaft 325 moves left and right under the action of the knob tube 324 in threaded connection with the threaded shaft 325, at this time, the threaded shaft 325 moves, the connecting round rod 326 is driven to follow the inner wall of the fixed round tube 322 to synchronously move, at this time, the cooperation of the sliding groove 327 and the guide block 328 can avoid the connecting round rod 326 from following to rotate, so that the condition that the threaded shaft 325 does not rotate is ensured, when the knob tube 324 is continuously rotated, the end part of the connecting round rod 326 can extend into the positioning sliding sleeve 321, at this time, one end of the connecting round rod 326 can tightly abut against the surface of the auxiliary supporting rod 318, the relative positions of the connecting round rod 326 and the auxiliary supporting rod 318 are not changed greatly by friction force, so that the placing box 2 is kept stably held.

When the positioning device is used, the limit of the locking positioning assembly 32 on the auxiliary supporting rod 318 is released during operation, at the moment, the auxiliary supporting rod 318 is manually moved, the stability of the device is kept, the height of the placement box 2 is adjusted through the movement of the auxiliary supporting rod 318, the connecting cross rod 311 is parallel to the lower end face of the top transverse frame 315, the rotating shaft 312 drives the rubber belt 314 to move through the rotating wheel 313, the rubber belt 314 is kept to be attached to the ground, the rotating knob tube 324 is manually rotated to enable the threaded shaft 325 to move left and right, the connecting round rod 326 is driven to move synchronously along with the inner wall of the fixed round rod 322, the sliding groove 327 and the guide block 328 are matched to prevent the connecting round rod 326 from rotating along with the rotating shaft 325, the threaded shaft 325 is guaranteed to move along with the horizontal direction, the rotating knob tube 324 is continued to enable the end of the connecting round rod 326 to extend into the positioning sliding sleeve 321, one end of the connecting round rod 326 is abutted against the surface of the auxiliary supporting rod 318, the relative position of the connecting round rod 326 is prevented from being greatly changed through friction force, and the stable holding effect of the placement box 2 is kept.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. A buried cable path detection device, comprising:

the device comprises a detection instrument (1) and a placement box (2), wherein the detection instrument (1) is arranged in the placement box (2);

the auxiliary moving mechanism (3), the said auxiliary moving mechanism (3) is installed in the lower end to place box (2);

the auxiliary moving mechanism (3) comprises a moving observation component (31) which is used for assisting in moving and supporting the placing box (2), the moving observation component (31) is arranged at the lower end of the placing box (2), a locking positioning component (32) is arranged on the surface of the moving observation component (31), and the locking positioning component (32) is used for assisting in limiting the moving observation component (31).

2. A buried cable path detection apparatus according to claim 1, wherein: the mobile observation assembly (31) comprises a top transverse frame (315) fixedly connected to the lower end of the placement box (2), an upper shaft (316) is rotatably connected to the inner wall of the top transverse frame (315), a vertical supporting rod (317) is rotatably connected to the surface of the upper shaft (316), a rotating shaft (312) is connected to the other end of the vertical supporting rod (317), and a connecting transverse rod (311) is connected to the surface of the rotating shaft (312) adjacently.

3. A buried cable path detection apparatus according to claim 1, wherein: the locking positioning assembly (32) comprises positioning sliding sleeves (321) which are connected to the surface of the vertical supporting rod (317) in a sliding mode, one side of each positioning sliding sleeve (321) is fixedly connected with a fixed circular tube (322) which is communicated with each positioning sliding sleeve (321), the surfaces of the two fixed circular tubes (322) are rotationally connected with knob tubes (324), the lower ends of the fixed circular tubes (322) are fixedly connected with fixed sleeves (323), and the fixed sleeves (323) are connected with the surface of the mobile observation assembly (31) in a sliding mode.

4. A buried cable path detection apparatus according to claim 2, wherein: the surface of the rotating shaft (312) is sleeved with a rubber belt (314), two rotating wheels (313) are connected to the inner wall of the rubber belt (314), and the rotating wheels (313) are fixedly connected to the surface of the rotating shaft (312).

5. A buried cable path detection apparatus according to claim 2, wherein: an auxiliary supporting rod (318) is arranged between the top transverse frame (315) and the adjacent vertical supporting rod (317), and the auxiliary supporting rod (318) is hinged to the surface of the adjacent upper shaft (316).

6. A buried cable path detection apparatus according to claim 3, wherein: the inner wall threaded connection of knob pipe (324) has two screw thread axles (325), screw thread axle (325) are close to adjacent one end of location slip cap (321) runs through to adjacent the inside of fixed pipe (322), one end fixedly connected with of location slip cap (321) is connected with round bar (326).

7. The buried cable path detection apparatus according to claim 6, wherein: the surface of fixed pipe (322) has seted up spout (327), the fixed connection of surface of connecting round rod (326) has guide block (328), guide block (328) sliding connection is in the inner wall of spout (327).