CN117566547B - Adjusting device suitable for mounting structure of complicated regional electric wire - Google Patents

Abstract

The invention relates to the technical field of power distribution, in particular to an adjusting device suitable for a mounting structure of an electric wire in a complex area. The device comprises a bottom frame, a supporting seat, a clamping mechanism, a tightening mechanism and the like; the upper side of the underframe is fixedly connected with a supporting seat, and the supporting seat is provided with a clamping mechanism and a tightening mechanism. According to the invention, the worm drives the worm wheel to rotate, so that the upper clamping block moves downwards, the electric wire is clamped between the upper clamping block and the lower clamping block, the electric wire is clamped before being tightened, the electric wire is convenient to wind, the worm rotates to drive the rotating rod to rotate through the belt pulley and the conveyor belt, and then the tightening wheel is driven to rotate through the fixing rod, so that the electric wire is tightened, the electric wire is tidied, and the electric wire is not messy to be distributed in the distribution box.

Description

Adjusting device suitable for mounting structure of complicated regional electric wire

Technical Field

The invention relates to the technical field of power distribution, in particular to an adjusting device suitable for a mounting structure of an electric wire in a complex area.

Background

A large number of wires are usually distributed in the distribution box, the number of the wires is more messy, if the wires in the distribution box are messy, an electrician can not only be difficult to separate the purpose of each line, so that the maintenance is not facilitated, potential safety hazards exist, the circuit safety problem is easily caused, and therefore, the electrician needs to be careful in arranging the wires when installing the wires.

Because the quantity of the electric wires is too much, the electric wires are quite time-consuming to arrange by electrician only, the working efficiency is lower, so the electric wires are required to be arranged by means of the adjusting device, the electric wires are wound and are tightened, but most of the current adjusting device anti-dislocation devices cannot be arranged in place, and dislocation can occur when the electric wires are wound and are not straight, so that the arrangement effect on the electric wires is poor. In addition, when the wires with different lengths are wound in batches, the situation that the wires are not wound enough can occur, so that after some wires are tightened, other wires are still in a loose and disordered state.

Disclosure of Invention

In order to solve the technical problems, the invention provides an adjusting device suitable for an installation structure of wires in a complex area, which can prevent the wires from dislocation when the wires are wound, and can wind the wires with different lengths better.

The technical proposal is as follows: the utility model provides an adjusting device suitable for mounting structure of complicated regional electric wire, includes chassis, supporting seat, clamping mechanism and tightening mechanism, the last side fixedly connected with supporting seat of chassis, be provided with clamping mechanism and tightening mechanism on the supporting seat.

In one embodiment, the clamping mechanism comprises a lower clamping block, a screw rod, an upper clamping block, worm wheels, supporting frames, limiting columns, bolts, limiting rings and worms, wherein three lower clamping blocks are fixedly connected to a supporting seat, each lower clamping block is provided with the screw rod through threaded connection, each lower clamping block is provided with the upper clamping block in a sliding mode, each upper clamping block is connected with the adjacent screw rod through threaded connection, each top end of each screw rod is fixedly connected with the worm wheel, each screw rod is rotatably connected with the supporting frame, each supporting frame is fixedly connected with the limiting columns and the bolts in a sliding mode, three limiting rings are fixedly connected to the supporting seat, each limiting ring is fixedly connected with the adjacent supporting frame, the worms are rotatably connected between the supporting frames, and the worm is meshed with the three worm wheels.

In one embodiment, the tightening mechanism comprises a supporting column, supporting rings, rotating rods, belt pulleys, a conveyor belt, tightening wheels and fixing rods, wherein three supporting columns are connected to the supporting seat in a sliding mode, the upper portions of the supporting columns are fixedly connected with the supporting rings, the rotating rods are connected between the supporting rings in a rotating mode, the belt pulleys are fixedly connected to the worm and the rotating rods, the conveyor belt is wound between the two belt pulleys, the three tightening wheels are connected to the rotating rods in a rotating mode, and the three fixing rods are connected to the rotating rods in a sliding mode.

In one embodiment, a plurality of limiting holes are formed in the outer wall of the rotating rod.

In one embodiment, two small holes are formed in one side of each tightening wheel, and each fixing rod is clamped into two small holes of the adjacent tightening wheels.

In one embodiment, the tightening mechanism is further provided with an anti-dislocation mechanism, the anti-dislocation mechanism comprises a supporting rod, pressing plates and extrusion springs, the supporting rod is fixedly connected to the underframe and is rotationally connected with the rotating rod, three pressing plates are connected to the supporting rod in a sliding mode, each pressing plate is connected with the extrusion springs, and the lower ends of the pressing plates are in contact with the adjacent tightening wheels.

In one embodiment, the self-adaptive mechanism is further arranged on the clamping mechanism, the self-adaptive mechanism comprises extrusion columns, large extrusion blocks, small extrusion blocks and reset springs, each lower extrusion block is internally connected with two extrusion columns in a sliding mode, each upper clamping block is internally connected with one extrusion column in a sliding mode, one end of each extrusion column connected with the upper clamping block is fixedly connected with the large extrusion block, one end of each extrusion column connected with the lower clamping block is fixedly connected with the small extrusion block, each large extrusion block is connected with the small extrusion block, and each reset spring is connected between the small extrusion block and the lower clamping block.

In one embodiment, the tightening wheel further comprises extrusion rods and tension springs, one side of each tightening wheel is connected with three extrusion rods in a sliding mode, one end of each extrusion rod is clamped into one of the limiting holes of the rotating rod, and each tension spring is connected between each tightening wheel and each extrusion rod.

In one embodiment, the device further comprises fixing columns and homing springs, wherein three fixing columns are fixedly connected to the underframe, each supporting column penetrates through the adjacent fixing column, and each homing spring is connected between each supporting column and each fixing column.

In one embodiment, the fixing column is vertically arranged.

The invention has the following advantages: 1. according to the invention, the worm drives the worm wheel to rotate, so that the upper clamping block moves downwards, the electric wire is clamped between the upper clamping block and the lower clamping block, the electric wire is clamped before being tightened, the electric wire is convenient to wind, the worm rotates to drive the rotating rod to rotate through the belt pulley and the conveyor belt, and then the tightening wheel is driven to rotate through the fixing rod, so that the electric wire is tightened, the electric wire is tidied, and the electric wire is not messy to be distributed in the distribution box.

2. The wire tightening device is provided with the pressing plate, the lower end of the pressing plate is in contact with the tightening wheel, and the pressing plate can always press the wire in the wire tightening process to prevent the wire from dislocation.

3. The upper clamping block and the lower clamping block are provided with the extrusion column, the large extrusion block, the small extrusion block and the reset spring, and the electric wire can be clamped through the elasticity of the reset spring.

4. When one of the wires is tightened and the other wires are not tightened, the worker can pull out the fixing rod to enable the fixing rod to be separated from the tightening wheels, so that the rotating rod does not drive the tightening wheels to rotate, and simultaneously, the rotating rod can continuously drive the other two tightening wheels to rotate, and therefore the wires with different lengths can be wound better.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a first part of the present invention.

Fig. 4 is a schematic perspective view of a second part of the present invention.

Fig. 5 is a schematic view of a part of the perspective structure of the clamping mechanism and the adaptive mechanism of the present invention.

FIG. 6 is a schematic view of a portion of a tightening mechanism according to the present invention.

Marked in the figure as: 1. the device comprises a chassis, 2, a supporting seat, 51, a lower clamping block, 511, a screw rod, 512, an upper clamping block, 52, a worm wheel, 53, a supporting frame, 54, a limiting post, 55, a bolt, 56, a limiting ring, 57, a worm, 61, a supporting post, 62, a supporting ring, 63, a rotating rod, 64, a belt pulley, 641, a conveyor belt, 65, a tightening wheel, 66, a fixed rod, 71, a supporting rod, 72, a pressing plate, 73, a pressing spring, 81, a pressing post, 82, a large pressing block, 83, a small pressing block, 84, a return spring, 9, a pressing rod, 91, a tension spring, 10, a fixed post, 101 and a return spring.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: the utility model provides an adjusting device suitable for mounting structure of complicated regional electric wire, as shown in fig. 1-6, including chassis 1, supporting seat 2, clamping mechanism and tightening mechanism, the upside of chassis 1 is through bolted connection having supporting seat 2, be provided with clamping mechanism and tightening mechanism on the supporting seat 2.

The clamping mechanism comprises a lower clamping block 51, a screw 511, an upper clamping block 512, worm wheels 52, supporting frames 53, limiting columns 54, bolts 55, limiting rings 56 and worms 57, wherein three lower clamping blocks 51 are connected to a supporting seat 2 through bolts, each lower clamping block 51 is connected with the screw 511 through threads, each lower clamping block 51 is connected with the upper clamping block 512 in a sliding mode, each upper clamping block 512 is connected with the adjacent screw 511 through threads, the top end of each screw 511 is connected with the worm wheel 52 through a flat key, each screw 511 is connected with the supporting frame 53 in a rotating mode, each supporting frame 53 is connected with the limiting columns 54 and the bolts 55 in a sliding mode, each limiting ring 56 is fixedly connected with the adjacent supporting frame 53 through bolts, the worm 57 is connected with the worm 57 in a rotating mode between the three supporting frames 53, and the worm 57 is meshed with the three worm wheels 52.

The tightening mechanism comprises a support column 61, a support ring 62, a rotating rod 63, belt pulleys 64, a conveyor belt 641, tightening wheels 65 and a fixing rod 66, wherein three support columns 61 are connected to the support seat 2 in a sliding mode, the support columns 61 are arranged vertically, the upper portions of the support columns 61 are all connected with the support ring 62 through bolts, the rotating rods 63 are connected between the support rings 62 in a rotating mode, the belt pulleys 64 are connected to the worm 57 and the rotating rods 63 through flat keys, the conveyor belt 641 is wound between the belt pulleys 64 in a rotating mode, the three tightening wheels 65 are connected to the rotating rods 63 in a rotating mode, and the three fixing rods 66 are connected to the rotating rods 63 in a sliding mode.

The outer wall of the rotating rod 63 is provided with a plurality of limiting holes.

Two small holes are formed in one side of each tightening wheel 65, and each fixing rod 66 is clamped into the two small holes of the adjacent tightening wheels 65.

The tightening mechanism is further provided with an anti-dislocation mechanism, the anti-dislocation mechanism comprises a supporting rod 71, pressing plates 72 and extrusion springs 73, the supporting rod 71 is connected to the underframe 1 through bolts, the supporting rod 71 is connected with the rotating rod 63 in a rotating mode, the supporting rod 71 is connected with three pressing plates 72 in a sliding mode, each pressing plate 72 is connected with the supporting rod 71 through hooks, the extrusion springs 73 are used for resetting of the pressing plates 72, and the lower ends of the pressing plates 72 are in contact with the adjacent tightening wheels 65.

The self-adaptive mechanism is arranged on the clamping mechanism and comprises extrusion columns 81, large extrusion blocks 82, small extrusion blocks 83 and reset springs 84, each lower clamping block 51 is internally connected with two extrusion columns 81 in a sliding mode, each upper clamping block 512 is internally connected with one extrusion column 81 in a sliding mode, one end of each extrusion column 81 connected with each upper clamping block 512 is connected with a large extrusion block 82 through a bolt, one end of each extrusion column 81 connected with each lower clamping block 51 is connected with a small extrusion block 83 through a bolt, each large extrusion block 82 and each upper clamping block 512 are connected with a reset spring 84 through a hook, and each small extrusion block 83 and each lower clamping block 51 are connected with a reset spring 84 through a hook, and the reset springs 84 are used for resetting the large extrusion blocks 82 and the small extrusion blocks 83.

The specific embodiment is as follows: initially, the bolt 55 is clamped into the limit post 54, the worm 57 is meshed with the worm wheel 52, one end of three wires is wound on the three tightening wheels 65 respectively by a worker, the other end of the three wires is placed on the three groups of small extrusion blocks 83 respectively, the small extrusion blocks 83 are moved downwards by the gravity of the wires, the reset spring 84 is compressed, then the worker rotates the worm 57 again, the worm 57 rotates to drive the three worm wheels 52 to rotate, the worm wheel 52 rotates to drive the screw 511 to rotate, the screw 511 rotates to enable the upper clamping block 512 to move downwards, the wires are clamped between the upper clamping block 512 and the lower clamping block 51, the wires are clamped before being tightened, the wires are conveniently wound, then the worker pulls the bolt 55 upwards, the bolt 55 is not clamped into the limit post 54 any more, the limit post 54 is pulled to move away from the direction of the worm wheel 52, the worm 57 is moved to be separated from the three groups of small extrusion blocks 52, at this time, the worker presses the bolt 55 downwards to enable the worm 57 to be clamped into the limit post 54 again, the worm 57 is continuously rotated, the worm wheel 57 is driven to rotate, the worm wheel belt pulley is driven to rotate, the worm wheel 511 rotates to drive one of the worm wheels 511, the worm wheel belt pulley is driven to rotate, the other wire belt 64 is not to be tightened up the wire belt 64 is driven to rotate, the other wire belt 65 is wound around the worm wheel 64, the other wire belt 65 rotates the wire 65, and the wire box 64 is distributed around the wire box 63, and the wire 65 rotates, and the wire box 64 is rotated, and the wire 65 is rotated, and the gear 65, and the wire box 64 is rotated; the worm 57 reversely rotates to drive one belt pulley 64 to reversely rotate, the other belt pulley 64 is driven to reversely rotate through the conveying belt 641, the other belt pulley 64 reversely rotates to drive the rotating rod 63 to reversely rotate, the rotating rod 63 reversely rotates to drive the three fixing rods 66 to reversely rotate, the fixing rods 66 reversely rotate to drive the tightening wheels 65 to reversely rotate, so that the tightened electric wire is released, a worker pulls the bolt 55 upwards, the bolt 55 is not clamped into the limit post 54, the limit post 54 is pulled to reset in the direction close to the worm wheel 52 again, the limit post 54 is reset to drive the worm 57 to reset, the worm 57 is reset to be re-meshed with the three worm wheels 52, at the moment, the worker downwards presses the bolt 55 to be clamped into the limit post 54 again, the worm 57 is reversely rotated again, the worm 57 reversely rotates to reversely rotate the three worm wheels 52, the worm 511 reversely rotates, the upper clamping block 512 is driven to reset upwards by reversely rotating the worm wheel 52, and the electric wire is not clamped.

Initially, the lower end of the pressing plate 72 is in contact with the pinch roller 65, when the wire on the pinch roller 65 is wound more and thicker, the wire will press the pressing plate 72 and move it upward, the pressing spring 73 is compressed, so that the pressing plate 72 always presses the wire in the process of tightening the wire, the wire is prevented from dislocation, and when the wire is released, the pressing spring 73 is reset to drive the pressing plate 72 to reset.

The downward movement of the three upper clamping blocks 512 can drive the three extrusion columns 81 to move downward, wherein the downward movement of the three extrusion columns 81 can drive the three large extrusion blocks 82 to move downward, the large extrusion blocks 82 move downward to contact with the electric wires and extrude the electric wires, the return springs 84 are compressed, so that the electric wires are clamped through the elasticity of the return springs 84, and the return springs 84 can be compressed, so that the electric wires with different thicknesses can be better clamped; the upward reset of the three upper clamping blocks 512 will drive the three of the pressing posts 81 to be reset upward, wherein the three pressing posts 81 will be out of contact with the electric wire, and the reset spring 84 will also push the three pressing posts 81 to be reset upward.

Example 2: on the basis of embodiment 1, as shown in fig. 4, the device further comprises a squeeze rod 9 and a tension spring 91, wherein one side of each tightening wheel 65 is slidably connected with three squeeze rods 9, one end of each squeeze rod 9 is clamped into one of the limit holes of the rotating rod 63, each tightening wheel 65 is connected with the tension spring 91 through a hook, and the tension spring 91 is used for resetting the squeeze rod 9.

At first, in one of the spacing holes of dwang 63 was all blocked to the one end of every extrusion pole 9, tighten up wheel 65 rotates and can drive the extrusion pole 9 that links to each other and rotate, because electric wire length is different, can lead to wherein three extrusion pole 9 and make it not tightened up when one electric wire has been tightened up, the dead lever 66 next to the electric wire that the staff can will tighten up this moment, and rotate 180 degrees with it, make this dead lever 66 no longer block in the aperture on one of the tight pulley 65, this tight pulley 65 of staff's independent regulation, in order to adjust the elasticity degree of electric wire, then the staff can continue to rotate dwang 63, the tight pulley 63 rotates and can make three extrusion pole 9 and the spacing hole of dwang 63 break contact, the dwang 63 can extrude wherein three extrusion pole 9 and make it remove to the direction that keeps away from each other, extension spring 91 is compressed, along with the rotation of dwang 63, wherein three extrusion pole 9 will contact with the spacing hole of dwang 63 again, extension spring 91 resets and can drive wherein three extrusion pole 9 reset, make three extrusion pole 9 card in the aperture on one of tight pulley 65 again, thereby can continue to tighten up wheel 65 rotation with the tight pulley 63, thereby can continue to tighten up with the other wire 65 continuously to tighten up with the tight pulley 63, thereby can not rotate by one of the tight pulley 65 continuously.

Example 3: on the basis of embodiment 2, as shown in fig. 1-4, the device further comprises fixing columns 10 and a return spring 101, wherein three fixing columns 10 are connected to the underframe 1 through bolts, each supporting column 61 penetrates through the adjacent fixing column 10, the return spring 101 is connected between each supporting column 61 and the fixing column 10 through a hook, and the return spring 101 is used for returning the supporting column 61.

The fixing column 10 is vertically arranged.

When the electric wire is tightened, the support column 61 can push down the homing spring 101 under the action of gravity for the homing spring 101 is compressed, and the electric wire can expand when meeting heat, and then makes the electric wire become loose no longer be in the state of being tightened, and support column 61 can move down this moment, continues to compress homing spring 101 for the electric wire is tightened again, prevents that the electric wire from becoming messy, and the electric wire can shrink when meeting cold, and the electric wire shrink can make the electric wire be tightened, and then can pull support column 61 to reciprocate, and homing spring 101 resets and also can promote support column 61 to reciprocate upward for the electric wire can not too tight, prevents that the electric wire from being broken.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An adjusting device suitable for mounting structure of complicated regional electric wire, characterized by: the device comprises a bottom frame (1), a supporting seat (2), a clamping mechanism and a tightening mechanism, wherein the supporting seat (2) is fixedly connected to the upper side surface of the bottom frame (1), the supporting seat (2) is provided with the clamping mechanism and the tightening mechanism, the clamping mechanism comprises a lower clamping block (51), a screw rod (511), an upper clamping block (512), a worm wheel (52), a supporting frame (53), a limiting column (54), a bolt (55), a limiting ring (56) and a worm (57), three lower clamping blocks (51) are fixedly connected to the supporting seat (2), each lower clamping block (51) is connected with the screw rod (511) through threads, each lower clamping block (51) is connected with an upper clamping block (512) in a sliding mode, each upper clamping block (512) is connected with the adjacent screw rod (511) through threads, the top end of each screw rod (511) is fixedly connected with the supporting frame (53) through threads, each worm wheel (53) is connected with the supporting frame (53) in a sliding mode, each limiting column (55) is connected with the supporting frame (56) in a sliding mode, each limiting ring (56) is connected with the supporting frame (56) in a sliding mode, the utility model provides a tightening mechanism, including support column (61), support ring (62), dwang (63), belt pulley (64), conveyer belt (641), tightening wheel (65) and dead lever (66), sliding connection has three support column (61) on supporting seat (2), every the upper portion of support column (61) all fixedly connected with support ring (62), three rotating connection has dwang (63) between support ring (62), all fixedly connected with belt pulley (64) on worm (57) and the dwang (63), two around there being conveyer belt (641) between belt pulley (64), rotating connection has three tightening wheel (65) on dwang (63), sliding connection has three dead lever (66) on dwang (63).

2. An adjusting device for a mounting structure for electric wires in a complex area according to claim 1, characterized in that: the outer wall of the rotating rod (63) is provided with a plurality of limiting holes.

3. An adjusting device for a mounting structure for electric wires in a complex area according to claim 1, characterized in that: two small holes are formed in one side of each tightening wheel (65), and each fixing rod (66) is clamped into the two small holes of the adjacent tightening wheels (65).

4. An adjusting device for a mounting structure for electric wires in a complex area according to claim 1, characterized in that: the tightening mechanism is characterized by further comprising an anti-dislocation mechanism, the tightening mechanism is provided with the anti-dislocation mechanism, the anti-dislocation mechanism comprises a supporting rod (71), a pressing plate (72) and an extrusion spring (73), the supporting rod (71) is fixedly connected to the underframe (1), the supporting rod (71) is rotationally connected with a rotating rod (63), three pressing plates (72) are connected to the supporting rod (71) in a sliding mode, each pressing plate (72) is connected with the extrusion spring (73) between the supporting rod (71), and the lower end of each pressing plate (72) is in contact with an adjacent tightening wheel (65).

5. An adjusting device for a mounting structure for a complex area wire according to claim 4, characterized in that: still including self-adaptation mechanism, be provided with self-adaptation mechanism on the clamping mechanism, self-adaptation mechanism is including extrusion post (81), big extrusion piece (82), little extrusion piece (83) and reset spring (84), every all be connected with two extrusion posts (81) in the lower clamp block (51), every in the last clamp block (512) all be connected with one extrusion post (81), every with last clamp block (512) linked to each other the one end of extrusion post (81) all fixedly connected with big extrusion piece (82), every with the one end of extrusion post (81) that down clamps block (51) links to each other all fixedly connected with little extrusion piece (83), every all be connected with reset spring (84) between big extrusion piece (82) and the last clamp block (512), every all be connected with reset spring (84) between little extrusion piece (83) and the lower clamp block (51).

6. An adjusting device for a mounting structure for a complex area wire according to claim 5, characterized in that: the tightening wheel is characterized by further comprising extrusion rods (9) and tension springs (91), wherein one side of each tightening wheel (65) is connected with three extrusion rods (9) in a sliding mode, one end of each extrusion rod (9) is clamped into one of the limiting holes of the rotating rod (63), and each tension spring (91) is connected between each tightening wheel (65) and each extrusion rod (9).

7. An adjusting device for a mounting structure for a complex area wire according to claim 6, characterized in that: the novel lifting device is characterized by further comprising fixing columns (10) and homing springs (101), wherein three fixing columns (10) are fixedly connected to the underframe (1), each supporting column (61) penetrates through the adjacent fixing column (10), and each homing spring (101) is connected between each supporting column (61) and each fixing column (10).

8. An adjusting device for a mounting structure for a complex area wire according to claim 7, characterized in that: the fixing column (10) is vertically arranged.