CN219105240U - Electric pole frame optical cable hoop based on intelligent pole arrangement - Google Patents

Abstract

The utility model relates to a technical field of cable installation specifically is an electric power pole frame optical cable staple bolt based on intelligence row pole, including machine storehouse and chain one end fixed connection in machine storehouse, the other end runs through the machine storehouse, install the sprocket in the machine storehouse rotationally, sprocket meshing chain, sprocket fixed mounting has, the turning handle runs through machine storehouse wall, fixed mounting has the slide shaft in the machine storehouse, the cover is equipped with the power spring on the slide shaft, power spring free end fixed mounting has the power needle, the power needle runs through machine storehouse wall, power groove has been seted up to machine storehouse wall relevant position, power groove one side is provided with the scale, the cover is equipped with the slider on the slide shaft, the slider laminating shows power spring free end, the trigger is installed rotationally to the slider, the trigger free end card is gone into the chain, install the dog on the slider, dog laminating trigger one side makes the trigger at dog position unidirectional rotation. The compression amount of the force indicating spring is indicated on the scale through the force indicating needle, so that the condition that the pulling force of the chain is too large or too small is reduced.

Description

Electric pole frame optical cable hoop based on intelligent pole arrangement

Technical Field

The application relates to the technical field of cable installation, in particular to an electric power pole frame optical cable hoop based on an intelligent pole arrangement.

Background

When cables such as optical cables and electric cables are mounted on a power pole frame, clamping is sometimes required by using a hoop. The staple bolt that uses at present is the staple bolt of fixed size and the adjustable staple bolt of staple bolt class, and wherein adjustable staple bolt uses comparatively conveniently, can adjust according to actual conditions, compares in fixed size's staple bolt, and adjustable staple bolt application scope is also wider.

However, because the adjustable anchor ear is tightened in a spiral mode and the like, the tightening force is not easy to grasp in the tightening process, the anchor ear cannot be clamped due to too small force, and the cable can be damaged due to too strong force.

Disclosure of Invention

Aiming at the defects in the prior art, the purpose of the application is to provide an intelligent pole arrangement-based optical cable hoop for an electric pole rack, which is helpful for workers to grasp fastening force.

The above application object of the present application is achieved by the following technical solutions:

electric power pole frame optical cable staple bolt based on pole is arranged to intelligence includes:

the machine cabin is hollow and rectangular;

one end of the chain is fixedly connected with the machine cabin, and the other end of the chain penetrates through the machine cabin;

a sprocket rotatably mounted within the machine housing, the sprocket engaging the chain;

the rotating handle penetrates through the cabin wall and is mounted on the chain wheel;

the sliding shaft is fixedly arranged in the cabin;

the force indicating spring is sleeved on the sliding shaft, a force indicating needle is fixedly arranged at the free end of the force indicating spring, the force indicating needle penetrates through the machine cabin wall, and a force indicating groove is formed in the corresponding position of the machine cabin wall;

the sliding block is sleeved on the sliding shaft in a sliding manner and is attached to the free end of the force indicating spring;

the trigger is rotatably arranged on the sliding block, the free end of the trigger is clamped into the chain, a stop block is arranged on the sliding block, and the stop block is attached to one side of the trigger to enable the trigger to rotate unidirectionally at the stop block position;

the scale is arranged on one side of the force indication groove.

Optionally, the dog screw thread is connected in the slider, the dog runs through to outside the machine storehouse wall.

Optionally, the hole of the machine cabin wall penetrated by the stop block is a threaded hole.

Optionally, the mounting hole has been seted up to the machine storehouse upside near sprocket department, sprocket demountable installation in the machine storehouse, the turning handle is from the machine storehouse outside runs through machine storehouse and sprocket demountable installation.

Optionally, the sprocket with stem spline connection, stem one end fixedly connected with butterfly handle.

Optionally, the chain is a detachable chain.

Optionally, the chain comprises a plurality of links, and the links are connected through pins.

Optionally, the pin is a magnetized pin.

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

1. when the chain is tensioned, the trigger is pulled by the reaction force after the chain is tightened, so that the sliding block compresses the force indicating spring along the sliding shaft until the tension of the chain is balanced with the elasticity of the force indicating spring, and the compression amount of the force indicating spring is indicated on the scale through the force indicating needle, so that the condition that the tension of the chain is overlarge or overlarge is reduced;

2. the chain wheel and the rotating handle do not participate in locking of the chain, and the detachable chain wheel and the rotating handle are arranged, so that the chain is tightened, and then the rotating handle and the chain wheel are disassembled to act on other chains, so that material loss is reduced, and resources are saved;

3. the chain is a detachable chain, so that the length of the chain can be changed, and the detachable chain is convenient for installing cables with different sizes.

Drawings

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

fig. 2 is an enlarged schematic view of the portion a in fig. 1.

Reference numerals: 1. a machine cabin; 11. a mounting hole;

2. a chain; 21. a chain link;

31. a sprocket; 32. a rotating handle;

41. a slide shaft; 42. a force-indicating spring; 421. a force indicator needle; 422. a force display groove; 43. a slide block; 44. a trigger; 45. a stop block; 46. a scale.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 and fig. 2, for an intelligent bar-arrangement-based optical cable holder hoop, disclosed in this embodiment, the intelligent bar-arrangement-based optical cable holder hoop comprises a machine cabin 1 and a chain 2, wherein the machine cabin 1 is hollow and rectangular, one end of the chain 2 is fixedly connected to the machine cabin 1, the other end of the chain penetrates through the machine cabin 1, a sprocket 31 is rotatably mounted in the machine cabin 1, the sprocket 31 is meshed with the chain 2, the sprocket 31 is fixedly mounted with a 32, a rotating handle 32 penetrates through the wall of the machine cabin 1, a sliding shaft 41 is fixedly mounted in the machine cabin 1, a force indicating spring 42 is sleeved on the sliding shaft 41, a force indicating needle 421 is fixedly mounted at the free end of the force indicating spring 42, a scale 46 is arranged at one side of the force indicating groove 422 and sleeved on the sliding shaft 41, a slider 43 is attached to the free end of the force indicating spring 42, a trigger 44 is rotatably mounted on the slider 43, the free end of the trigger 44 is clamped into the chain 2, a stop 45 is mounted on the slider 43, and one side of the stop 45 enables the trigger 44 to rotate unidirectionally at the position of the stop 45.

Specifically, a slide shaft 41 is installed in the machine cabinet 1, a trigger 44 is slidably installed on the slide shaft 41, a force indicating spring 42 is sleeved on the slide shaft 41, and the compression position of the force indicating spring 42 is displayed through a force indicating needle 421 and a scale 46 on a force indicating groove 422.

Thus, when the chain 2 is pulled tightly, the trigger 44 is pulled by the reaction force after the chain 2 is tightened, so that the slide block 43 compresses the force indicating spring 42 along the slide shaft 41 until the pulling force of the chain 2 is balanced with the elastic force of the force indicating spring 42, and the compression amount of the force indicating spring 42 is indicated on the scale 46 through the force indicating needle 421, so that the situation that the pulling force of the chain 2 is too large or too small can occur.

In some possible modes, the machine cabin 1 is in a hollow rectangular shape, the first end of the chain 2 is fixedly connected with the first end of the machine cabin 1, the second end of the chain 2 penetrates out of the second end of the machine cabin 1 from the second end of the machine cabin 1, the chain wheel 31 which is engaged with the chain 2 is rotatably arranged in the machine cabin 1 and is close to the position of the first end, the chain wheel 31 is controlled to rotate through the rotating handle 32, the partition plate is arranged at the position of the chain wheel 31 which is close to the second end of the machine cabin 1, the sliding shaft 41 is arranged between the partition plate and the inner wall of the second end of the machine cabin 1, the sliding block 43 is slidably sleeved on the sliding shaft 41, the force showing spring 42 is arranged between the sliding block 43 and the inner wall of the second end of the machine cabin 1, the rectangular groove is formed in one side of the sliding block 43 which is close to the chain 2, the trigger 44 is rotatably arranged in the rectangular groove, and the stop 45 is arranged at the rear side of the trigger 44 to limit the rotation of the trigger 44.

Further description will be provided below in connection with specific use cases.

When the tightening device is used, the rotating handle 32 is rotated to drive the chain wheel 31 to rotate, so that the chain 2 is tightened, the chain 2 is used for tightening the cable to form a reaction force on the chain 2, the chain 2 is used for pulling the sliding block 43 to push the force indication spring 42, the force indication needle 421 slides along the force indication groove 422, but when the chain 2 is tighter, the larger the reaction force is formed on the chain 2 by the cable, the larger the force indication spring 42 is stressed and contracted, and the tightening force is reflected on the scale 46 through the force indication needle 421, so that an operator can apply a tightening force in a proper range of the cable.

For the application to provide a concrete implementation of electric power pole frame optical cable staple bolt based on intelligence row pole, dog 45 threaded connection is in slider 43, and dog 45 runs through outside the machine storehouse 1 wall.

In the whole, the stop 45 is screwed off by the stop 45, so that the chain 2 can be reversed by unscrewing the stop 45, and the anchor ear is convenient to loosen.

Further, the hole of the wall of the machine cabin 1 penetrated by the stop block 45 is a threaded hole.

It should be understood that the screw thread is arranged at the hole on the machine cabin 1, so that the stop block 45 is not completely screwed out, is not easy to lose and is convenient to use.

In some possible ways, the stop 45 is a bolt.

As another specific implementation mode of electric power pole frame optical cable staple bolt based on intelligence row pole that the application provided, the mounting hole 11 has been seted up to the machine storehouse 1 upside near sprocket 31 department, sprocket 31 demountable installation in machine storehouse 1, and machine storehouse 1 and sprocket 31 demountable installation are run through from the machine storehouse 1 outside to stem 32.

The chain wheel 31 and the rotating handle 32 do not participate in the locking of the chain 2 in combination with a specific use scene, and after the chain 2 is tightened, the rotating handle 32 and the chain wheel 31 are disassembled to enable the chain to act on other chains 2, so that the material loss is reduced, and the resource is saved.

Further, the sprocket 31 is spline-connected with the stem 32, and one end of the stem 32 is fixedly connected with a butterfly handle.

It will be appreciated that the spline connection allows for more stability in the transfer of rotation of the stem 32 and for more convenient rotation of the stem by the butterfly handle.

In some possible ways, the side wall of the machine cabin 1 is provided with a through hole, and the rotating handle 32 penetrates through the through hole, is connected to the chain wheel 31 and penetrates out from the through hole on the other side of the machine cabin 1.

As a specific implementation mode of the intelligent pole-arrangement-based optical cable hoop for the power pole rack, the chain 2 is a detachable chain.

It will be appreciated that the chain 2 is provided as a detachable chain, with the length of the chain 2 being variable so as to accommodate different sizes of cable installations.

Further, the chain 2 comprises several links 21, the links 21 being connected by pins.

It will be appreciated that the removal and installation of the links 21 is facilitated by a bayonet connection.

Further, the pin is a magnetized pin.

It will be appreciated that the magnetized pins do not easily fall off after installation.

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

Claims (6)

1. Electric pole frame optical cable staple bolt based on pole is arranged to intelligence, a serial communication port includes:

the machine cabin (1), wherein the machine cabin (1) is hollow rectangular;

one end of the chain (2) is fixedly connected with the machine cabin (1), the other end of the chain penetrates through the machine cabin (1), and the chain (2) is a detachable chain;

a sprocket (31), the sprocket (31) being rotatably mounted within the machine bin (1), the sprocket (31) engaging the chain (2);

a rotating handle (32), wherein the rotating handle (32) penetrates through the wall of the machine cabin (1) and is then arranged on the chain wheel (31);

the sliding shaft (41) is fixedly arranged on the cabin (1);

the force indication spring (42), the force indication spring (42) is sleeved on the sliding shaft (41), a force indication needle (421) is arranged at the free end of the force indication spring (42), the force indication needle (421) penetrates through the wall of the machine cabin (1), and a force indication groove (422) is formed in the corresponding position of the wall of the machine cabin (1);

the sliding block (43) is sleeved on the sliding shaft (41) in a sliding manner, and the sliding block (43) is attached to the free end of the force indication spring (42);

the trigger (44) is rotatably arranged on the sliding block (43), the free end of the trigger (44) is clamped into the chain (2), a stop block (45) is arranged on the sliding block (43), and the stop block (45) is attached to one side of the trigger (44) to enable the trigger (44) to rotate unidirectionally at the position of the stop block (45);

the stop block (45) is connected with the sliding block (43) in a threaded mode, and the stop block (45) penetrates out of the wall of the machine cabin (1);

and a scale (46), wherein one side of the force indicating groove (422) is provided with the scale (46).

2. The intelligent row bar-based power pole rack optical cable hoop of claim 1, wherein: the hole of the wall of the machine cabin (1) penetrated by the stop block (45) is a threaded hole.

3. The intelligent row bar-based power pole rack optical cable hoop of claim 1, wherein: the machine bin (1) is provided with a mounting hole (11) at the upper side close to the sprocket (31), the sprocket (31) is detachably mounted in the machine bin (1), and the rotating handle (32) penetrates through the machine bin (1) from the outer side of the machine bin (1) and is detachably mounted with the sprocket (31).

4. The intelligent row bar-based power pole rack optical cable hoop of claim 3, wherein: the chain wheel (31) is in spline connection with the rotating handle (32), and one end of the rotating handle (32) is fixedly connected with a butterfly handle.

5. The intelligent row bar-based power pole rack optical cable hoop of claim 1, wherein: the chain (2) comprises a plurality of chain links (21), and the chain links (21) are connected through pins.

6. The intelligent row bar-based power pole rack optical cable hoop of claim 5, wherein: the pin is a magnetized pin.

Images