CN113003294B

CN113003294B - Electrical engineering unwrapping wire positioner

Info

Publication number: CN113003294B
Application number: CN202110197109.9A
Authority: CN
Inventors: 孙文祥; 邹培林; 陈诚; 任涛; 高亦斌; 郏进进; 柏煜; 刘唯猛
Original assignee: Anhui Xiangyuan Science And Technology Co ltd
Current assignee: Anhui Xiangyuan Science And Technology Co ltd
Priority date: 2021-02-22
Filing date: 2021-02-22
Publication date: 2023-06-23
Anticipated expiration: 2041-02-22
Also published as: CN113003294A

Abstract

The invention discloses an electrical engineering paying-off positioning device, which relates to the technical field of electrical engineering and comprises a supporting mechanism, two winding mechanisms and a reversing mechanism, wherein the two winding mechanisms are symmetrically distributed and are respectively and rotatably arranged at two sides of the upper end of the supporting mechanism, and the two winding mechanisms are connected through the reversing mechanism. The invention relates to an electric engineering paying-off positioning device which can bidirectionally and simultaneously carry out paying-off operation, improves paying-off speed, meets the cable laying requirement, saves labor, and can reversely stir a winding mechanism to carry out tightening operation through a reversing mechanism when the paying-off is finished by rotating an excessive cable which is paid out under the inertia action, and meanwhile, can avoid excessive and wasteful paying-off caused by random rotating the winding mechanism.

Description

Electrical engineering unwrapping wire positioner

Technical Field

The invention relates to the technical field of electrical engineering, in particular to an electrical engineering paying-off positioning device.

Background

In order to connect a circuit and arrange cables in a converging manner in the construction process of electric engineering, the cables are often required to be wound on an annular winding frame in advance in the use process of the cables, and paying off is carried out according to the use requirement, at present, because a traction-paying-off mode is adopted in the construction process of multi-circuit lines, the time required for using a single annular winding frame is long, manpower is wasted, in the paying-off process, after the length of the cable to be paid off meets the use requirement, the annular winding frame is subjected to inertia action, automatic paying-off operation can still be carried out, the cable cannot be stopped in time, the cable is required to be reversely rotated to the annular winding frame to be wound for surplus cables, and the operation is inconvenient, so that the electric engineering paying-off positioning device is designed so as to solve the problem.

Disclosure of Invention

The invention aims to provide an electrical engineering paying-off positioning device which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an electrical engineering unwrapping wire positioner, includes supporting mechanism, two wiring mechanism and reversing mechanism, two wiring mechanism symmetric distribution just rotates respectively and sets up in supporting mechanism's upper end both sides position, two connect through reversing mechanism between the wiring mechanism.

In a further embodiment, the supporting mechanism comprises two supporting columns, the two supporting columns are opposite to each other, the two winding mechanisms comprise a connecting seat and a winding rod, the winding rod is fixedly inserted into the central position of the side wall of the connecting seat, and the two connecting seats are respectively inserted into the tops of the opposite side walls of the two supporting columns through pin shafts in a rotating mode.

In a further embodiment, two extension rods are symmetrically welded on the radial side wall of the connecting seat, and a limiting hollow steel ring concentric with the connecting seat is arranged between the tips of the two extension rods.

In a further embodiment, the bottom ends of the two supporting upright posts are horizontally and fixedly welded with supporting bottom beams, reinforcing cross beams are arranged between the middle sections of the opposite side walls of the supporting bottom beams, and braking universal wheels are arranged on two sides of the bottom ends of the supporting bottom beams.

In a further embodiment, the reversing mechanism comprises a reversing seat and a positioning rod, the positioning rod is vertically welded at the middle section position of the upper end of the reinforcing beam, the top end of the positioning rod is fixedly inserted with the lowest point position of the radial side wall of the reversing seat, the inside of the reversing seat is of a hollow structure, the inside of the reversing seat is divided into two rotating cavities through a separation disc, one ends, close to each other, of the two winding connecting rods are respectively rotated and extended into the two rotating cavities, and are rotationally inserted with the central positions of the side walls of the two axial sides of the separation disc.

In a further embodiment, a limit rod is vertically arranged at the highest point of the radial side wall of the reversing seat.

In a further embodiment, a buffer cylinder is radially arranged at one end of the winding rod, which is close to the separation disc, the buffer cylinder is slidably inserted with an inverted T-shaped buffer rod through an inverted T-shaped buffer groove, a spring is arranged between the inverted T-shaped buffer rod and the inside of the inverted T-shaped buffer groove, and a spherical top block is arranged at the tip end of the inverted T-shaped buffer rod.

In further embodiments, a plurality of evenly distributed's mounting groove has been seted up to the inside radial lateral wall of rotating the cavity, every the inside of mounting groove all is equipped with toggle mechanism, toggle mechanism all includes the toggle plate, the one end of toggle plate is located the inside of mounting groove, and just is close to the inside rotation jack-in groove that extends to toggle plate both sides lateral wall respectively of seting up of one end of mounting groove, the inside of rotating the jack-in groove runs through the rotation and has pegged graft and has the dwang, and the axial both ends of dwang are pegged graft with the inside both sides lateral wall fixed of mounting groove respectively, the torsional spring that is located the inside of rotation jack-in groove has been cup jointed to the outer wall of dwang, the one end of torsional spring is pegged graft with the inside lateral wall fixed of rotation jack-in groove, and the other end is pegged graft with the radial lateral wall fixed of dwang, the other end of toggle plate extends to one side of buffering barrel.

In a further embodiment, a rotating mechanism for assisting in rotating the wire-wrapping mechanism is arranged at the top end of one side wall of the supporting upright far away from the wire-wrapping mechanism, the rotating mechanism comprises a transmission rod, and the transmission rod penetrates through the supporting upright in a rotating mode and is fixedly connected with a pin shaft of the connecting seat.

In a further embodiment, a rotating disc is fixedly arranged at one end, far away from the supporting upright post, of the transmission rod, and a crank is axially arranged at the edge position of the side wall of the rotating disc.

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

the invention relates to an electric engineering paying-off positioning device which can bidirectionally and simultaneously carry out paying-off operation, improves paying-off speed, meets the cable laying requirement, saves labor, and can reversely stir a winding mechanism to carry out tightening operation through a reversing mechanism when paying-off is finished by rotating an excessive cable which is paid out under the action of inertia, and simultaneously can position the winding mechanism to avoid excessive paying-off waste caused by random rotation of the winding mechanism.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a partial cross-sectional view of the reversing mechanism of the invention;

fig. 3 is a partial cross-sectional view of the reversing mechanism and the wire wrap mechanism of the present invention.

In the figure: 1. a support mechanism; 11. a support column; 12. supporting a bottom beam; 13. a brake universal wheel; 14. a reinforcing beam; 2. a wire-wrapping mechanism; 21. a connecting seat; 22. winding a connecting rod; 23. an extension rod; 24. limiting the hollow steel ring; 25. a buffer cylinder; 26. an inverted T-shaped buffer rod; 27. a spherical ejector block; 28. a spring; 3. a reversing mechanism; 31. a reverse rotation seat; 32. a limit rod; 33. a positioning rod; 34. a mounting groove; 35. a separation plate; 36. rotating the cavity; 4. a rotating mechanism; 41. a transmission rod; 42. a rotating disc; 43. a crank; 5. a toggle mechanism; 51. a toggle plate; 52. a rotating lever; 53. rotating the inserting groove; 54. and (3) a torsion spring.

Detailed Description

The following description will clearly and fully describe the technical solutions of the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, 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

Referring to fig. 1-3, the embodiment provides an electrical engineering paying-off positioning device, which comprises a supporting mechanism 1, two winding mechanisms 2 and a reversing mechanism 3, wherein the two winding mechanisms 2 are symmetrically distributed and respectively rotate at two sides of the upper end of the supporting mechanism 1, the two winding mechanisms 2 are connected through the reversing mechanism 3, and by arranging the two winding mechanisms 2, cables are firstly wound on the winding mechanisms 2 respectively, so that paying-off operation can be performed in two directions simultaneously, the paying-off speed is improved, the cable laying requirement is met, labor is saved, in addition, after paying-off is finished, redundant cables which are turned and paid-out by inertia are reversely stirred by the reversing mechanism 3 to perform tightening operation, and meanwhile, the winding mechanisms 2 can be positioned, so that the random turning-off of the winding mechanisms 2 is avoided, and excessive paying-off is caused.

In order to solve the problem of how to support the wire-wrapping mechanism 2, the supporting mechanism 1 comprises two supporting upright posts 11, the two supporting upright posts 11 are just to be distributed, the two wire-wrapping mechanisms 2 comprise connecting seats 21 and wire-wrapping rods 22, the wire-wrapping rods 22 are fixedly inserted into the central positions of the side walls of the connecting seats 21, the wire-wrapping rods 22 rotate, wire-wrapping operation of cables can be carried out up and down, the two connecting seats 21 are respectively inserted into the top ends of the side walls of the two supporting upright posts 11 in a rotating mode through pin shafts, the two connecting seats 21 are inserted into the top ends of the side walls of the two supporting upright posts 11 in a rotating mode through pin shafts, so that the wire-wrapping mechanism 2 can be supported in a rotating mode, wire-wrapping operation can be carried out on cables conveniently, and the wire-wrapping operation requirement can be met.

In order to solve the problem of how to avoid loose and falling of the cables wound on the winding mechanism 2, two extension rods 23 are symmetrically welded on the radial side wall of the connecting seat 21, a limiting hollow steel ring 24 concentric with the connecting seat 21 is arranged between the tips of the two extension rods 23, the limiting hollow steel ring 24 is erected by utilizing the extension rods 23, and the cables wound on the winding rod 22 can be prevented from loose and falling at the edge position by utilizing the extension rods 23 as edge limiting.

In order to solve the problem of how to carry out paying-off operation, the reversing mechanism 3 comprises a reversing seat 31 and a positioning rod 33, the positioning rod 33 is vertically welded at the middle section position of the upper end of the reinforcing beam 14, the top end of the positioning rod 33 is fixedly spliced with the lowest point position of the radial side wall of the reversing seat 31, the interior of the reversing seat 31 is of a hollow structure, the interior of the reversing seat is divided into two rotating cavities 36 through a separation disc 35, one ends, close to each other, of the two winding rods 22 respectively rotate and extend into the two rotating cavities 36 and are rotatably spliced with the central positions of the side walls of the two axial sides of the separation disc 35, the winding rods 22 rotate and extend into the rotating cavities 36 and are rotatably spliced with the side walls of the separation disc 35, and the positioning rod 33 vacates to support the reversing seat 31, so that the reversing seat 31 can be used as a rotating supporting point of the two winding mechanisms 2;

when the paying-off operation is performed, the staff can respectively pull the starting ends of the cables wound outside the two winding connection rods 22 and pull the starting ends in opposite directions, so that the winding connection rods 22 can rotate, and the paying-off operation can be performed.

In order to further solve the problem of how to avoid the loose and falling-off of the cables connected to the wire-connecting mechanism 2, the highest point of the radial side wall of the reversing seat 31 is vertically provided with a limiting rod 32, and the limiting rod 32 is vertically arranged at the highest point of the radial side wall of the reversing seat 31, so that the limiting rod can be matched with the extension rod 23 to synchronously limit the cables connected to the wire-connecting rod 22 in a wire-connecting mode, and the cables are prevented from being loosely separated from the wire-connecting rod 22.

In order to solve the problem of how to assist in positioning the wire-wrapping mechanism 2, a buffer cylinder 25 is radially arranged at one end of the wire-wrapping rod 22 close to the separation disc 35, the buffer cylinder 25 is slidably inserted with an inverted T-shaped buffer rod 26 through an inverted T-shaped buffer groove, a spring 28 between the inverted T-shaped buffer rod 26 and the inside of the inverted T-shaped buffer groove is utilized to jack up the inverted T-shaped buffer rod 26 in real time along the inside of the inverted T-shaped buffer groove, a spherical jack-up block 27 is arranged at the tip of the inverted T-shaped buffer rod 26, and the real-time jack-up of the spherical jack-up block 27 can be driven by the real-time jack-up inverted T-shaped buffer rod 26 so as to be convenient for being matched with the positioning wire-wrapping mechanism 2.

In order to further solve the problem of how to assist in positioning the wire-wrapping mechanism 2, a plurality of evenly distributed mounting grooves 34 are formed in the inner radial side wall of the rotating cavity 36, a toggle mechanism 5 is arranged in each mounting groove 34, each toggle mechanism 5 comprises a toggle plate 51, one end of each toggle plate 51 is located in each mounting groove 34, rotating inserting grooves 53 which extend to the side walls of the two sides of each toggle plate 51 are formed in one end of each mounting groove 34, rotating rods 52 penetrate through the inside of each rotating inserting groove 53 and are fixedly inserted into the side walls of the two sides of the inside of each mounting groove 34, torsion springs 54 which are located in the rotating inserting grooves 53 are sleeved on the outer walls of the rotating rods 52, one ends of the torsion springs 54 are fixedly inserted into the side walls of the inside of the rotating inserting grooves 53, the other ends of the torsion springs 54 are fixedly inserted into the radial side walls of the rotating rods 52, the torsion potential energy of the torsion springs 54 ensures that the toggle plates 51 rotate around the rotating rods 52, and the tips of the toggle plates 51 have a trend of guiding the inner central position of the rotating cavity 36 in real time, and the wire-wrapping rod 22 can be limited;

the other end of the poking plate 51 extends to one side of the buffer cylinder 25, and the poking plate 51 which guides the inner center position of the rotating cavity 36 in real time can be utilized to poke the buffer cylinder 25 by extending the other end of the poking plate 51 to one side of the buffer cylinder 25, so that the winding connection rod 22 can adaptively rotate around the plug-in point;

when a worker pulls the beginning end of a cable to pay off, the winding connection rod 22 can be driven to rotate around the plug-in point, then the buffer cylinder 25 and the spherical jacking block 27 at the tip end of the inverted T-shaped buffer rod 26 can be driven to synchronously rotate, the poking plate 51 positioned on one side of the buffer cylinder 25 can be jacked, the poking plate 51 rotates around the rotating rod 52, the torsion spring 54 rotates to generate torsion potential energy, the winding connection rod 22 can rotate by jacking the poking plate 51 by using the spherical jacking block 27 along with the continuing force pulling of the worker, the paying-off operation can be carried out, when the worker loosens the pulled cable, the poking plate 51 reversely rotates around the rotating rod 52 by using the torsion potential energy of the torsion spring 54, the rotating winding connection rod 22 can be damped, the auxiliary positioning winding connection mechanism 2 is realized, the phenomenon that the winding connection rod 22 continuously rotates due to inertia is avoided, and the excessive paying-off is caused.

In order to solve the problem of how supplementary rotation wire-wound mechanism 2 carries out wire-wound operation in advance, the support post 11 is kept away from wire-wound mechanism 2's one side lateral wall top and is equipped with the slewing mechanism 4 that is used for supplementary rotation wire-wound mechanism 2, slewing mechanism 4 includes transfer line 41, transfer line 41 rotates and runs through support post 11, and with the round pin axle fixed connection of connecting seat 21, through freehand rotation transfer line 41, can drive connecting seat 21 synchronous rotation, pivoted connecting seat 21 can drive wire-wound pole 22 synchronous rotation, wire-wound operation in advance, so that later stage carries out the unwrapping wire operation according to the unwrapping wire demand.

In order to solve the problem of how to assist in rotating the transmission rod 41, one end, far away from the supporting upright post 11, of the transmission rod 41 is fixedly provided with a rotating disc 42, a crank 43 is axially arranged at the edge of the side wall of the rotating disc 42, and the rotating disc 42 can be assisted in rotating by holding the crank 43, so that the transmission rod 41 can be driven, and time and labor are saved.

Example two

Referring to fig. 1, a further improvement is made on the basis of embodiment 1:

in order to solve the problem of how to remove overall structure, the equal horizontal fixed welding in bottom of two support posts 11 has support sill 12, is equipped with stiffening beam 14 between the relative lateral wall middle section position of two support sill 12, and the bottom both sides of support sill 12 all are equipped with brake universal wheel 13, utilize support sill 12 to support up support post 11 to strengthen the supporting stability of support post 11, can assist to remove overall structure through brake universal wheel 13.

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

1. The utility model provides an electrical engineering unwrapping wire positioner, includes supporting mechanism (1), two wiring mechanism (2) and reversing mechanism (3), its characterized in that: the two winding mechanisms (2) are symmetrically distributed and respectively arranged at two sides of the upper end of the supporting mechanism (1) in a rotating way, the two winding mechanisms (2) are connected through the reversing mechanism (3),

the supporting mechanism (1) comprises two supporting upright posts (11), the two supporting upright posts (11) are opposite to each other, the two winding mechanisms (2) comprise a connecting seat (21) and a winding rod (22), the winding rod (22) is fixedly inserted into the central position of the side wall of the connecting seat (21), the two connecting seats (21) are respectively inserted into the tops of the opposite side walls of the two supporting upright posts (11) in a rotating way through pin shafts,

the bottom ends of the two supporting upright posts (11) are horizontally and fixedly welded with supporting bottom beams (12), a reinforcing cross beam (14) is arranged between the middle sections of the opposite side walls of the two supporting bottom beams (12), braking universal wheels (13) are arranged on two sides of the bottom ends of the supporting bottom beams (12),

the reversing mechanism (3) comprises a reversing seat (31) and a positioning rod (33), the positioning rod (33) is vertically welded at the middle section position of the upper end of the reinforcing beam (14), the top end of the positioning rod (33) is fixedly inserted with the lowest point position of the radial side wall of the reversing seat (31), the inside of the reversing seat (31) is of a hollow structure, the inside of the reversing seat is divided into two rotating cavities (36) through a separation disc (35), one ends, close to each other, of the two winding rods (22) respectively rotate and extend into the two rotating cavities (36) and are rotatably inserted with the center positions of the side walls of the two axial sides of the separation disc (35),

one end of the winding connection rod (22) close to the separation disc (35) is radially provided with a buffer cylinder body (25), the buffer cylinder body (25) is slidably inserted with an inverted T-shaped buffer rod (26) through an inverted T-shaped buffer groove, a spring (28) is arranged between the inverted T-shaped buffer rod (26) and the inside of the inverted T-shaped buffer groove, the tip end of the inverted T-shaped buffer rod (26) is provided with a spherical jacking block (27),

the inside radial lateral wall of rotating cavity (36) has seted up a plurality of evenly distributed's mounting groove (34), every the inside of mounting groove (34) all is equipped with toggle mechanism (5), toggle mechanism (5) all include toggle plate (51), the one end of toggle plate (51) is located the inside of mounting groove (34), and is close to the inside rotation jack-in groove (53) that extend to toggle plate (51) both sides lateral wall respectively of seting up of one end of mounting groove (34), the inside of rotating jack-in groove (53) runs through the rotation and has pegged graft and has dwang (52), and the axial both ends of dwang (52) are pegged graft with the inside both sides lateral wall of mounting groove (34) is fixed respectively, torsion spring (54) that are located the inside of rotation jack-in groove (53) have been cup jointed to the outer wall of dwang (52), the one end of torsion spring (54) is pegged graft with the inside lateral wall is fixed with the rotation jack-in groove (53), and the other end is pegged graft with the radial lateral wall of dwang (52) is fixed, the other end that toggle plate (51) extends to one side of buffering barrel (25).

2. An electrical engineering pay-off positioning device according to claim 1, wherein: two extension rods (23) are symmetrically welded on the radial side wall of the connecting seat (21), and a limiting hollow steel ring (24) concentric with the connecting seat (21) is arranged between the tips of the two extension rods (23).

3. An electrical engineering pay-off positioning device according to claim 1, wherein: and a limiting rod (32) is vertically arranged at the highest point of the radial side wall of the reversing seat (31).

4. An electrical engineering pay-off positioning device according to claim 1, wherein: the support column (11) is kept away from the rotary mechanism (4) that is used for assisting in rotating rotary mechanism (2) on one side lateral wall top of wire-wound joint mechanism (2), rotary mechanism (4) are including transfer line (41), transfer line (41) rotate and run through support column (11), and with the round pin axle fixed connection of connecting seat (21).

5. An electrical engineering pay-off positioning device as defined in claim 4, wherein: one end of the transmission rod (41) far away from the supporting upright post (11) is fixedly provided with a rotating disc (42), and a crank (43) is axially arranged at the edge of the side wall of the rotating disc (42).