CN115092782A - Take-up structure of electric power engineering take-up equipment - Google Patents

Abstract

The invention provides a wire take-up structure of electric power engineering wire take-up equipment, which belongs to the technical field of electric power engineering, and comprises a support component, wherein the top of the support component is provided with a guide mechanism and a power output mechanism, the power output mechanism and the support component are respectively connected with a rope winding mechanism through a first connecting component and a second connecting component, the rope winding mechanism consists of a rope winding frame and an assembly component, the guide mechanism comprises a first motor, the first motor is arranged on the support component, the whole wire take-up device has reasonable structure, ingenious design and high use automation degree, authorized cables are automatically arranged on the rope winding frame by utilizing automatic guide, a wound rope is more tidy, the next use of the rope is facilitated, meanwhile, the wound rope distance can be measured, the wire take-up structure is adaptive to different use requirements, and has stronger practicability and market application prospect, the labor intensity of operators when the rope is reeled can be reduced, the labor is saved, and the reeling efficiency is improved.

Description

Take-up structure of electric power engineering take-up equipment

Technical Field

The invention belongs to the technical field of electric power engineering, and particularly relates to a wire rewinding structure of wire rewinding equipment in electric power engineering.

Background

Electric power engineering (electric power engineering), i.e. engineering related to the production, transportation, distribution of electric energy, also broadly includes engineering of electricity as a power and energy source for applications in various fields. Meanwhile, the transmission and transformation power expansion project can be understood.

In electrical engineering, cables are often used. The cables are typically wound around the cables using a cylindrical configuration. In common cable take-up device, when rolling the cable, need the coiling direction of artifical guide cable, just can guarantee that the cable can be inseparable orderly coiling above that, if do not guide it, the cable after the rolling is very easily appear knoing or the card is pause, be not convenient for use next time, but the side rolling of leading through the manual work is got up extremely inconveniently, the degree of automation of its use has been reduced, extravagant manpower, operating personnel's intensity of labour has been improved, therefore, design a take-up structure of electric power engineering take-up equipment.

Disclosure of Invention

The invention aims to provide a wire take-up structure of a wire take-up device in electric power engineering, and aims to solve the problems that when a common cable take-up device in the prior art is used for taking up a cable, the winding direction of the cable needs to be manually guided to ensure that the cable can be wound on the cable in a tight and orderly manner, if the cable is not guided, the wound cable is easy to knot or block, the cable is inconvenient to use next time, but the cable is inconvenient to take up by manually guiding, the automation degree of the use of the cable is reduced, the manpower is wasted, the labor intensity of operators is improved, and the like.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a take-up structure of electric power engineering receipts line equipment includes the supporting component, the top of supporting component is provided with guiding mechanism and power take-off mechanism, power take-off mechanism and supporting component are connected with wiring mechanism through first coupling assembling and second coupling assembling respectively, wiring mechanism comprises wiring frame and built-up member, guiding mechanism includes first motor, first motor sets up on the supporting component, the output of first motor is fixed with the lead screw, and the lead screw rotates to be connected in the supporting component, the surperficial threaded connection of lead screw has the screw sleeve, the last fixed surface of screw sleeve has last extension board, the top of supporting component has been seted up and has been moved the groove, and goes up extension board sliding connection in moving the groove, it is fixed with the base plate to go up the extension board, the top of base plate is fixed with two curb plates, two rotate in proper order from the front to back between the curb plate and be connected with first spacing roller, The guide roll, the compression roller and the cooperation roller, two the bottom of curb plate is all rotated and is connected with the spacing roller of second, the top of cooperation roller is provided with detection subassembly.

Preferably, the detection assembly includes the flange, the flange is fixed in the top of base plate, be fixed with the connecting rod on the flange, the other end of connecting rod rotates and is connected with even board, and is provided with friction rubber between even board and the connecting rod, be provided with the encoder on even board, be fixed with the carousel on the output shaft of encoder, and carousel and cooperation roller phase-match.

Preferably, the support assembly comprises a support plate, two side supports and an access plate, the two side supports are connected to the rear side of the support plate, the access plate is fixed to the tops of the two side supports, and the power output mechanism is arranged on the access plate.

Preferably, the power output mechanism includes the second motor, the second motor sets up in the top of attachment strap, the output of second motor is connected with the speed reducer, the output of speed reducer is fixed with the driving gear, is located the left side be fixed with the shell body on the collateral branch frame, the shell body internal rotation is connected with driven gear, the transmission is connected with the driving chain between driving gear and the driven gear.

Preferably, the rope winding frame includes two inner rings, two it is fixed through a plurality of vaulting poles between the inner ring, two the surface of inner ring all is fixed with the outer loop through a plurality of extension rods, two the inboard of inner ring all is fixed with four lugs, and is a plurality of the caulking hole has all been seted up in the lug.

Preferably, the assembly part comprises a middle shaft, the middle shaft is located on the inner sides of the two inner rings, two clamping plates are arranged on the surface of the middle shaft, one clamping plate is fixed at one end of the middle shaft, the other clamping plate is sleeved on the surface of the middle shaft through a sleeve hole, four embedded shafts are fixed on one sides, close to the two lugs, of the two clamping plates, the embedded shafts are matched with the embedded holes, the other end of the middle shaft is connected with a threaded rod, a locking threaded sleeve is connected to the surface of the threaded rod in a threaded manner, and two levers are fixed on the surface of the locking threaded sleeve.

Preferably, the first connecting assembly comprises a T-shaped clamping block, the T-shaped clamping block is fixed at the tail end of the threaded rod, a connecting seat is fixed on the side face of the driven gear, a T-shaped clamping groove is formed in the connecting seat, and the T-shaped clamping block is embedded in the T-shaped clamping groove.

Preferably, the second coupling assembling includes the fixed block, the fixed block is fixed in on the top of right side collateral branch frame, the top of fixed block is fixed with the connecting block, the caulking groove has been seted up in the connecting block, centraxonial right-hand member is connected with the bearing through linking the axle rotation, the right side of bearing is fixed with a board, and a board inlays and locates in the caulking groove, the upper surface lid of connecting block and a board is equipped with the concave plate, all seted up two perforations in concave plate, a board and the caulking groove, the internal thread connection that perforates has fixing bolt.

Preferably, be located the right side be provided with the block terminal on the lateral wall of collateral branch frame, and block terminal and first motor and second motor electric connection.

Preferably, the transverse moving distance of the guide mechanism is matched with the length of the plurality of supporting rods.

Compared with the prior art, the invention has the beneficial effects that:

in this scheme, whole take-up structure sets up rationally, think about ingeniously, it is high to use degree of automation, utilize the automatic direction to arrange the cable of authorizing on the rope winding frame automatically, the serving after the rolling is more neat, be favorable to the next use of serving, can measure the serving distance of rolling simultaneously, the different user demands of adaptation have stronger practicality and market perspective, can reduce operating personnel to the intensity of labour when the rope cable is rolled up, use manpower sparingly, the efficiency of improvement roll-up.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a partial view taken at A of FIG. 1 in accordance with the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is a second perspective view of FIG. 3 in accordance with the present invention;

FIG. 5 is a partial view taken at B of FIG. 4 in accordance with the present invention;

fig. 6 is a third perspective view of fig. 3 according to the present invention.

In the figure: 1. a support plate; 2. a side bracket; 3. a butt strap; 4. a first motor; 401. a screw rod; 402. moving the groove; 403. a substrate; 404. a side plate; 405. a first limit roller; 406. a second limit roller; 407. a guide roller; 408. a compression roller; 409. a mating roller; 410. a convex plate; 411. a connecting rod; 412. connecting plates; 413. an encoder; 414. a turntable; 5. a second motor; 501. a speed reducer; 502. an outer housing; 503. a driving gear; 504. a drive chain; 505. a driven gear; 6. a connecting seat; 601. a T-shaped slot; 602. a T-shaped fixture block; 7. a fixed block; 701. connecting blocks; 702. caulking grooves; 703. a line plate; 704. perforating; 705. a concave plate; 706. fixing the bolt; 707. a bearing; 8. a middle shaft; 801. clamping a plate; 802. embedding a shaft; 803. trepanning; 804. a threaded rod; 805. locking the threaded sleeve; 806. a lever; 807. an inner ring; 808. a stay bar; 809. an extension rod; 810. a lug; 811. embedding holes; 812. an outer ring; 9. a distribution box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-6, the present invention provides the following technical solutions: a wire take-up structure of electric power engineering wire take-up equipment comprises a supporting component, wherein a guide mechanism and a power output mechanism are arranged at the top of the supporting component, the power output mechanism and the supporting component are connected with a rope winding mechanism through a first connecting component and a second connecting component respectively, the rope winding mechanism is composed of a rope winding frame and an assembly component, the guide mechanism comprises a first motor 4, the first motor 4 is arranged on the supporting component, a lead screw 401 is fixed at the output end of the first motor 4, the lead screw 401 is rotatably connected into the supporting component, a threaded sleeve is in threaded connection with the surface of the lead screw 401, an upper extension plate is fixed on the upper surface of the threaded sleeve, a moving groove 402 is formed in the top of the supporting component, the upper extension plate is slidably connected into the moving groove 402, a base plate 403 is fixed on the upper extension plate, two side plates 403 are fixed on the top of the base plate, and a first limiting roller 405 is sequentially and rotatably connected between the two side plates 404 from front to back, Guide roll 407, compression roller 408 and cooperation roller 409, the bottom of two curb plates 404 all rotates and is connected with second spacing roller 406, and the top of cooperation roller 409 is provided with detecting component.

In the specific embodiment of the invention, the guiding mechanism is utilized in the device to guide the wound cable, and meanwhile, the reciprocating guide mechanism matching device can wind the cable on the cable winding frame from left to right and then from right to left, so that the winding is more tidy, knotting is avoided, and the convenience and smoothness for unwinding the cable in the next use are improved.

Specifically, the detection assembly comprises a convex plate 410, the convex plate 410 is fixed on the top of the base plate 403, a connecting rod 411 is fixed on the convex plate 410, the other end of the connecting rod 411 is rotatably connected with a connecting plate 412, friction rubber is arranged between the connecting plate 412 and the connecting rod 411, an encoder 413 is arranged on the connecting plate 412, a rotary disc 414 is fixed on an output shaft of the encoder 413, and the rotary disc 414 is matched with the matching roller 409.

In this embodiment: in the process that the cable penetrates through the upper part of the matching roller 409 and winds the cable winding frame by the detection assembly, the rotating disc 414 in contact with the cable rotates due to the movement of the cable, and the quantitative circumference of the rotating winding matching rotating disc 414 calculates the winding length of the cable in the whole winding process through the encoder 413, wherein the encoder 413 is the prior art, and the internal structure of the encoder 413 is not described in detail.

Specifically, the supporting component comprises a supporting plate 1, two side supports 2 and an access board 3, the two side supports 2 are connected to the rear side of the supporting plate 1, the access board 3 is fixed at the tops of the two side supports 2, and the power output mechanism is arranged on the access board 3.

In this embodiment: the supporting component provides support for the whole furling device, so that the device can run more stably.

Specifically, the power output mechanism includes a second motor 5, the second motor 5 is disposed at the top of the strap 3, an output end of the second motor 5 is connected with a speed reducer 501, an output end of the speed reducer 501 is fixed with a driving gear 503, a housing 502 is fixed on the bracket 2 on the left side, the housing 502 is rotatably connected with a driven gear 505, and a transmission chain 504 is connected between the driving gear 503 and the driven gear 505.

In this embodiment: the power output mechanism drives the speed reducer 501 connected with the output end of the power output mechanism and the driving gear 503 connected with the speed reducer 501 to rotate by utilizing the rotation of the second motor 5, and the driving gear 503 drives the driven gear 505 to rotate by the transmission of the transmission chain 504, so that the continuous rotation rope winding of the whole rope winding frame is realized.

Specifically, the roping frame includes two inner rings 807, and is fixed through a plurality of vaulting poles 808 between two inner rings 807, and the surface of two inner rings 807 all is fixed with outer loop 812 through a plurality of extension rod 809, and the inboard of two inner rings 807 all is fixed with four lugs 810, has all seted up in a plurality of lugs 810 and has inlayed hole 811.

In this embodiment: the rope winding frame adopts the frame structure, so that the whole rope winding frame is lighter and convenient to disassemble into the device.

Specifically, the assembly part comprises a middle shaft 8, the middle shaft 8 is located on the inner sides of two inner rings 807, two clamping plates 801 are arranged on the surface of the middle shaft 8, one clamping plate 801 is fixed at one end of the middle shaft 8, the other clamping plate 801 is sleeved on the surface of the middle shaft 8 through a sleeve hole 803, four embedded shafts 802 are fixed on one side, close to one side, of two lugs 810, the embedded shafts 802 are matched with the embedded holes 811, the other end of the middle shaft 8 is connected with a threaded rod 804, a locking threaded sleeve 805 is connected to the surface of the threaded rod 804 through threads, and two levers 806 are fixed on the surface of the locking threaded sleeve 805.

In this embodiment: the built-up member can be assembled or dismantled with the wiring frame, can realize that one wiring frame has accomplished the roll-up back of cable and has changed next wiring frame, recycles, and the dismouting is also comparatively convenient simultaneously to can be convenient for install or dismantle through in two coupling assembling and the device whole wiring mechanism.

Specifically, the first connecting assembly includes a T-shaped fixture block 602, the T-shaped fixture block 602 is fixed at the end of the threaded rod 804, a connecting seat 6 is fixed on a side surface of the driven gear 505, a T-shaped clamping groove 601 is formed in the connecting seat 6, and the T-shaped fixture block 602 is embedded in the T-shaped clamping groove 601.

In this embodiment: the first connecting assembly is inserted and installed on one side of the rope winding mechanism by inserting the T-shaped fixture block 602 at the end of the threaded rod 804 into the T-shaped fixture groove 601 fixed in the connecting seat 6 on the side surface of the driven gear 505.

Specifically, second coupling assembling includes fixed block 7, fixed block 7 is fixed in on the top of right side support 2, the top of fixed block 7 is fixed with connecting block 701, caulking groove 702 has been seted up in connecting block 701, the right-hand member of axis 8 is connected with bearing 707 through connecting the axle rotation, the right side of bearing 707 is fixed with I-shaped plate 703, and I-shaped plate 703 inlays and locates in caulking groove 702, the upper surface lid of connecting block 701 and I-shaped plate 703 is equipped with concave plate 705, two perforation 704 have all been seted up in I-shaped plate 703 and the caulking groove 702, perforation 704 female connection has fixing bolt 706.

In this embodiment: after the second connecting assembly is mounted on one side of the rope winding mechanism, the straight plate 703 in the second connecting assembly on the other side is embedded into the embedding groove 702 on the connecting block 701, and then the concave plate 705 is covered on the second connecting assembly and is locked by the two fixing bolts 706.

Specifically, be located and be provided with block terminal 9 on the lateral wall of right side collateral branch frame 2, and block terminal 9 and first motor 4 and second motor 5 electric connection.

In this embodiment: the distribution box 9 is used to control two motors in the device.

Specifically, the lateral travel distance of the guide mechanism matches the length of the plurality of struts 808.

In this embodiment: the transverse moving distance of the guide mechanism is matched with the length of the support rods 808, so that the length of the whole rope winding frame can be matched, and the wound cable can be wound on the rope winding frame layer by layer.

The working principle and the using process of the invention are as follows: when the invention is used, one end of a cable to be wound penetrates through the guide mechanism and is connected with a rope winding frame in the rope winding mechanism, when the cable penetrates through the guide mechanism, the cable sequentially penetrates between the first limiting roller 405 and the two second limiting rollers 406, the upper side of the guide roller 407, the lower side of the compression roller 408 and the upper side of the matching roller 409, when the cable penetrates through the upper side of the matching roller 409, the cable is contacted with the cable by using a turntable 414 in the detection assembly, after the cable is wound, the turntable 414 is driven to rotate by the movement of the cable, the winding length of the cable is detected by the turntable 414 through an encoder 413, when the rope winding mechanism winds the rope, a speed reducer 501 connected with the output end of the rope winding mechanism and a driving gear 503 connected with the speed reducer 501 are driven to rotate by the rotation of the second motor 5 in the power output mechanism, the driving gear 503 drives a driven gear 505 to rotate through the transmission chain 504, so as to realize the continuous rotation and rope winding of the whole rope winding frame, and whole wiring mechanism accessible two sets of coupling assembling of installation dismantlement not only can be convenient for later maintenance on supporting component, and the change of the wiring frame of being convenient for has improved roll-up efficiency also is convenient for the dismantlement of whole wiring frame and built-up member of being convenient for simultaneously.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an electric power engineering receipts line structure of line equipment which characterized in that: the rope winding mechanism comprises a rope winding frame and an assembly part, the guide mechanism comprises a first motor (4), the first motor (4) is arranged on the supporting component, a lead screw (401) is fixed at the output end of the first motor (4), the lead screw (401) is rotatably connected in the supporting component, a threaded sleeve is connected to the surface of the lead screw (401), an upper extension plate is fixed on the upper surface of the threaded sleeve, a moving groove (402) is formed in the top of the supporting component, the upper extension plate is slidably connected in the moving groove (402), a base plate (403) is fixed on the upper extension plate, two side plates (404) are fixed on the top of the base plate (403), two from preceding rotation in proper order backward between curb plate (404) is connected with first spacing roller (405), guide roll (407), compression roller (408) and cooperation roller (409), two the bottom of curb plate (404) all rotates and is connected with spacing roller of second (406), the top of cooperation roller (409) is provided with detection components.

2. A wire take-up structure of an electric power engineering wire take-up device as claimed in claim 1, characterized in that: the detection assembly comprises a convex plate (410), the convex plate (410) is fixed at the top of the base plate (403), a connecting rod (411) is fixed on the convex plate (410), the other end of the connecting rod (411) is rotatably connected with a connecting plate (412), friction rubber is arranged between the connecting plate (412) and the connecting rod (411), an encoder (413) is arranged on the connecting plate (412), a rotary disc (414) is fixed on an output shaft of the encoder (413), and the rotary disc (414) is matched with a matching roller (409).

3. A wire take-up structure of an electric power engineering wire take-up device as claimed in claim 2, characterized in that: the supporting assembly comprises a supporting plate (1), side supports (2) and an access board (3), the number of the side supports (2) is two, the side supports (2) are connected to the rear side of the supporting plate (1), the access board (3) is fixed to the tops of the two side supports (2), and the power output mechanism is arranged on the access board (3).

4. A wire take-up structure of an electric power engineering wire take-up device according to claim 3, characterized in that: the power output mechanism comprises a second motor (5), the second motor (5) is arranged at the top of the access board (3), the output end of the second motor (5) is connected with a speed reducer (501), the output end of the speed reducer (501) is fixedly provided with a driving gear (503) and is located on the left side, an outer shell (502) is fixedly arranged on the side support (2), a driven gear (505) is rotationally connected to the outer shell (502), and a transmission chain (504) is connected between the driving gear (503) and the driven gear (505).

5. A wire take-up structure of an electric power engineering wire take-up device according to claim 4, characterized in that: the rope winding frame comprises two inner rings (807), the two inner rings (807) are fixed through a plurality of support rods (808), the surface of each inner ring (807) is fixed with an outer ring (812) through a plurality of extension rods (809), the inner sides of the two inner rings (807) are fixed with four lugs (810), and the lugs (810) are internally provided with embedding holes (811).

6. A wire take-up structure of an electric power engineering wire take-up device according to claim 5, characterized in that: the assembly part comprises a middle shaft (8), the middle shaft (8) is located on the inner sides of two inner rings (807), two clamping plates (801) are arranged on the surface of the middle shaft (8), one clamping plate (801) is fixed at one end of the middle shaft (8), the other clamping plate (801) is sleeved on the surface of the middle shaft (8) through a sleeve hole (803), four embedded shafts (802) are fixed on one sides of two lugs (810) close to each other, the embedded shafts (802) are matched with the embedded holes (811), the other end of the middle shaft (8) is connected with a threaded rod (804), a locking thread sleeve (805) is connected to the surface of the threaded rod (804) in a threaded manner, and two levers (806) are fixed on the surface of the locking thread sleeve (805).

7. A wire take-up structure of an electric power engineering wire take-up device as claimed in claim 6, characterized in that: the first connecting assembly comprises a T-shaped clamping block (602), the T-shaped clamping block (602) is fixed to the tail end of the threaded rod (804), a connecting seat (6) is fixed to the side face of the driven gear (505), a T-shaped clamping groove (601) is formed in the connecting seat (6), and the T-shaped clamping block (602) is embedded in the T-shaped clamping groove (601).

8. A wire take-up structure of an electric power engineering wire take-up device as claimed in claim 7, characterized in that: the second coupling assembling includes fixed block (7), fixed block (7) are fixed in on the top of right side support (2), the top of fixed block (7) is fixed with connecting block (701), caulking groove (702) have been seted up in connecting block (701), the right-hand member of axis (8) is connected with bearing (707) through linking the axle rotation, the right side of bearing (707) is fixed with slotted board (703), and slotted board (703) inlay locate in caulking groove (702), the upper surface lid of connecting block (701) and slotted board (703) is equipped with concave plate (705), two perforation (704) have all been seted up in concave plate (705), slotted board (703) and caulking groove (702), it has fixing bolt (706) to perforate (704) internal thread connection.

9. A wire take-up structure of an electric power engineering wire take-up device according to claim 8, characterized in that: and the side wall of the side support (2) is provided with a distribution box (9), and the distribution box (9) is electrically connected with the first motor (4) and the second motor (5).

10. A wire take-up structure of an electric power engineering wire take-up device as claimed in claim 9, characterized in that: the transverse moving distance of the guide mechanism is matched with the length of the plurality of support rods (808).

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