CN211655578U - Cable laying device for electric power automation equipment - Google Patents

Abstract

The utility model discloses a cable laying device for electric power automation equipment, which comprises a frame body, a wire collecting rod, a hand wheel, a rotating rod, a pedal, a deceleration strip and a stable wire outlet device, the cable laying device for the electric power automation equipment is provided with the stable wire outlet device, after the cable passes through the wire through port, the rotating bolt drives the threaded sleeve to rotate through the first conical gear and the second conical gear, so that the threaded rod drives the ring body to retract, thereby leading the two clamping blocks to be close to each other to clamp the cable, solving the problems that the cable is easy to swing left and right due to external force when the existing laying device is used, the surface of the cable is easy to be heated due to continuous friction, and potential safety hazards exist, through having set up clamping mechanism, when the clamping bar drove the clamp splice and packed up, can carry out fine rotation through the bearing, make the clamp bar rotate more stably to the clamp splice is that the arc can be better presss from both sides the cable conductor tightly.

Description

Cable laying device for electric power automation equipment

Technical Field

The utility model relates to a cable laying correlation field specifically is a cable laying device for electric power automation equipment.

Background

The power automation system provides modern equipment monitoring control management and remote online monitoring for users based on advanced network communication, automation control, microcomputer relay protection technology and reliable products, and ensures stable and reliable supply of the power system and flexible and diverse optimized power load management system structures.

The laying device is used when the cable needs to be laid in the electric power automation equipment, but when the existing laying device is used, the cable is easy to heat up on the surface of the cable due to the fact that the cable swings left and right under the action of external force and is continuously rubbed, and potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned insufficiency, the utility model provides a cable laying device for electric power automation equipment here.

The utility model is realized in such a way, construct a cable laying device for electric power automation equipment, the device comprises a frame body, the middle part of the frame body is in running fit with a take-up rod through a rotating shaft, the two ends of the take-up rod are provided with hand wheels, the frame body is in running fit with the rear part of the rotating rod, the front end of the rotating rod is in electric arc welding with a pedal, the upper end of the rotating rod is fixed with a deceleration strip, the frame body is fixed with the bottom of a stable wire outlet device, the stable wire outlet device consists of a block body, a wire port, a bolt, a rotating shaft, a first bevel gear, a second bevel gear, a thread sleeve, a threaded rod, a ring body and a clamping mechanism, the middle part of the block body is provided with the wire port, the middle part of the bolt is in running fit with the block body through the rotating shaft, the bottom, the middle part of the second bevel gear is fixed with the threaded sleeve, two ends of the threaded sleeve are in threaded connection with the threaded rod, the bottom of the ring body is in arc welding with the threaded rod, and the clamping mechanism is in running fit with the block body.

Preferably, the clamping mechanism consists of a clamping rod, a bearing and a clamping block, the left side of the clamping rod is in running fit with the block body through the bearing, the middle part of the clamping rod is in sliding fit with the ring body, and the left side of the clamping block is fixed with the clamping rod.

Preferably, the port is circular in cross-section and the port diameter is seventy percent of the block height.

Preferably, the first bevel gear and the second bevel gear are the same in shape and size, and the installation angle of the first bevel gear and the second bevel gear is 90 degrees.

Preferably, the depth of the grains on the inner side of the threaded sleeve is the same as the grains on the outer side of the threaded rod, and the threaded sleeve and the threaded rod are arranged in parallel.

Preferably, the two threaded rods are arranged in parallel up and down, and the lines of the two threaded rods are opposite.

Preferably, the ring body is provided with two rings which are vertically symmetrical, and the diameter of the inner side of the ring body is 2 cm.

Preferably, the clamping mechanisms are provided in two, and the two clamping mechanisms are symmetrically mounted to each other.

Preferably, the middle part of the clamping block is arc-shaped, and the thickness of the middle part of the clamping block is 1.5 cm.

Preferably, the bearing is made of stainless steel.

The utility model has the advantages of as follows: the utility model discloses an improve and provide a cable laying device for electric power automation equipment here, compare with equipment of the same type, have the following improvement:

the method has the advantages that: a cable laying device for electric power automation equipment, through having set up steady play line device, after the cable conductor passed the wire access, the rotation bolt drove the thread bush through first conical gear and second conical gear and rotates, made the threaded rod drive the ring body and pack up to make two clamp splices be close to tight cable conductor each other, the cable makes cable surface heat up easily because of external force horizontal hunting when having solved current laying device and using, continuous friction, has the problem of potential safety hazard.

The method has the advantages that: a cable laying device for electric power automation equipment, through having set up clamping mechanism, when the clamping bar drove the clamp splice and receive up, can carry out fine rotation through the bearing, make the clamp splice rotate more stably to the clamp splice is that the arc can be better presss from both sides the cable conductor tightly.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of a rotating rod of the present invention;

fig. 3 is a schematic structural view of the stable wire outlet device of the present invention;

fig. 4 is a schematic view of the thread bushing of the present invention;

fig. 5 is a schematic view of the bearing structure of the present invention.

In the figure: the wire winding machine comprises a frame body-1, a wire winding rod-2, a hand wheel-3, a rotating rod-4, a pedal-5, a speed reducing belt-6, a stable wire outlet device-7, a block body-71, a wire through opening-72, a bolt-73, a rotating shaft-74, a first bevel gear-75, a second bevel gear-76, a threaded sleeve-77, a threaded rod-78, a ring body-79, a clamping mechanism-710, a clamping rod-7101, a bearing-7102 and a clamping block-7103.

Detailed Description

The present invention will be described in detail with reference to the accompanying fig. 1-5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a cable laying device for electric power automation equipment through the improvement, including support body 1, support body 1 middle part is through pivot and take-up reel 2 normal running fit, take-up reel 2 both ends are provided with hand wheel 3, support body 1 and dwang 4 rear portion normal running fit, dwang 4 front end and footboard 5 carry out arc welding, dwang 4 upper end is fixed with deceleration strip 6, support body 1 is fixed with steady outlet device 7 bottom, steady outlet device 7 comprises block 71, wire through 72, bolt 73, pivot 74, first conical gear 75, second conical gear 76, thread bush 77, threaded rod 78, ring 79 and clamping mechanism 710, block 71 middle part is seted up wire through 72, bolt 73 middle part is through pivot 74 and block 71 normal running fit, and bolt 73 bottom is fixed with first conical gear 75, first conical gear 75 and second conical gear 76 intermeshing, the middle part of the second bevel gear 76 is fixed with a threaded sleeve 77, two ends of the threaded sleeve 77 are in threaded connection with a threaded rod 78, the bottom of a ring body 79 is in arc welding with the threaded rod 78, and a clamping mechanism 710 is in rotating fit with the block body 71.

Further, the clamping mechanism 710 comprises a clamping rod 7101, a bearing 7102 and a clamping block 7103, the left side of the clamping rod 7101 is in rotating fit with the block body 71 through the bearing 7102, the middle of the clamping rod 7101 is in sliding fit with the ring body 79, and the left side of the clamping block 7103 is fixed with the clamping rod 7101.

Further, the cross section of the wire port 72 is circular, and the diameter of the wire port 72 is seventy percent of the height of the block 71, so that wire passing can be well performed.

Further, the first bevel gear 75 and the second bevel gear 76 have the same shape and size, and the first bevel gear 75 and the second bevel gear 76 are mounted at an angle of 90 degrees, so as to better mesh with each other.

Further, the thread depth on the inner side of the thread bush 77 is the same as the thread on the outer side of the threaded rod 78, and the thread bush 77 and the threaded rod 78 are arranged in parallel to each other and are better meshed with each other.

Furthermore, two threaded rods 78 are arranged in parallel up and down, and the two threaded rods 78 are opposite in line and are meshed with each other better.

Furthermore, the ring 79 is vertically and symmetrically provided with two rings, and the diameter of the inner side of the ring 79 is 2cm, so that the ring can slide well.

Further, two clamping mechanisms 710 are provided, and the two clamping mechanisms 710 are symmetrically arranged with each other, so as to better clamp.

Furthermore, the middle of the clamping block 7103 is arc-shaped, and the thickness of the middle of the clamping block 7103 is 1.5cm, so that clamping is better performed.

Furthermore, the bearing 7102 is made of stainless steel and is not easy to rust.

The utility model provides a cable laying device for electric power automation equipment through improvement, and the working principle is as follows;

firstly, the frame body 1 plays a main supporting role, the hand wheel 3 is rotated to enable the wire take-up rod 2 to rotate to take up and lay cables, and meanwhile, the pedal 5 can be treaded to enable the rotating rod 4 to rotate to drive the speed reducing belt 6 to move downwards to press the wire take-up rod 2 to reduce the speed;

secondly, after the cable passes through the through hole 72 in the middle of the block 71, the rotating bolt 73 drives the threaded sleeve 77 to rotate through the first bevel gear 75 and the second bevel gear 76 under the fixation of the rotating shaft 74, so that the threaded rod 78 drives the ring 79 to retract, and the two clamping blocks 7103 approach to each other to clamp the cable;

thirdly, when the clamping bar 7101 drives the clamping block 7103 to be folded, the clamping bar 7101 can rotate better through the bearing 7102, so that the clamping bar 7101 rotates more stably, and the clamping block 7103 is arc-shaped and can clamp the cable better.

The utility model discloses an improvement provides a cable laying device for electric power automation equipment, through having set up steady device 7 of being qualified for the next round of competitions, the cable conductor passes behind the wire mouth 72, it drives thread bush 77 through first conical gear 75 and second conical gear 76 to rotate bolt 73, make threaded rod 78 drive ring body 79 pack up, thereby make two clamp splice 7103 be close to tight cable conductor each other, the cable is because of external force horizontal hunting easily when having solved current laying device and using, constantly the friction makes the cable surface heat up easily, there is the problem of potential safety hazard, through having set up clamping mechanism 710, when clamp splice 7101 drives clamp splice 7103 and packed up, can carry out fine rotation through bearing 7102, make clamp splice 7101 rotate more stable, and clamp splice 7103 is that the arc can be better presss from both sides the cable conductor tightly.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The cable laying device for the electric power automation equipment comprises a frame body (1), wherein the middle part of the frame body (1) is in running fit with a wire take-up rod (2) through a rotating shaft, hand wheels (3) are arranged at two ends of the wire take-up rod (2), the frame body (1) is in running fit with the rear part of a rotating rod (4), the front end of the rotating rod (4) is in electric arc welding with a pedal (5), and the upper end of the rotating rod (4) is fixed with a deceleration strip (6);

the method is characterized in that: the wire outlet device comprises a frame body (1) and a stable wire outlet device (7), wherein the frame body (1) is fixed to the bottom of the stable wire outlet device (7), the stable wire outlet device (7) is composed of a block body (71), a wire through opening (72), a bolt (73), a rotating shaft (74), a first bevel gear (75), a second bevel gear (76), a threaded sleeve (77), a threaded rod (78), a ring body (79) and a clamping mechanism (710), the wire through opening (72) is formed in the middle of the block body (71), the middle of the bolt (73) is in running fit with the block body (71) through the rotating shaft (74), the bottom of the bolt (73) is fixed to the first bevel gear (75), the first bevel gear (75) is meshed with the second bevel gear (76), the middle of the second bevel gear (76) is fixed to the threaded sleeve (77), and two ends of the threaded sleeve (77) are in threaded connection with the threaded rod (78, the bottom of the ring body (79) and the threaded rod (78) are subjected to electric arc welding, and the clamping mechanism (710) is in running fit with the block body (71).

2. A cabling arrangement for a power automation device as claimed in claim 1 wherein: clamping mechanism (710) comprises clamping bar (7101), bearing (7102) and clamp splice (7103), bearing (7102) and block (71) normal running fit are passed through to clamping bar (7101) left side to clamping bar (7101) middle part and ring body (79) sliding fit, clamp splice (7103) left side is fixed with clamping bar (7101).

3. A cabling arrangement for a power automation device as claimed in claim 1 wherein: the cross section of the through hole (72) is circular, and the diameter of the through hole (72) is seventy percent of the height of the block body (71).

4. A cabling arrangement for a power automation device as claimed in claim 1 wherein: the first bevel gear (75) and the second bevel gear (76) are the same in shape and size, and the installation angle of the first bevel gear (75) and the second bevel gear (76) is 90 degrees.

5. A cabling arrangement for a power automation device as claimed in claim 1 wherein: the depth of the grain on the inner side of the threaded sleeve (77) is the same as the grain on the outer side of the threaded rod (78), and the threaded sleeve (77) and the threaded rod (78) are installed in parallel.

6. A cabling arrangement for a power automation device as claimed in claim 1 wherein: the two threaded rods (78) are arranged in parallel up and down, and the lines of the two threaded rods (78) are opposite.

7. A cabling arrangement for a power automation device as claimed in claim 1 wherein: the ring body (79) is provided with two rings which are vertically symmetrical, and the diameter of the inner side of the ring body (79) is 2 cm.

8. A cabling arrangement for a power automation device as claimed in claim 1 wherein: the clamping mechanisms (710) are provided in two, and the two clamping mechanisms (710) are installed symmetrically with each other.

9. A cabling arrangement for a power automation device as claimed in claim 2 wherein: the middle part of the clamping block (7103) is arc-shaped, and the thickness of the middle part of the clamping block (7103) is 1.5 cm.

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