CN112408096B - Spool automatic disc-changing wire-rewinding machine - Google Patents

Abstract

The invention discloses an automatic spool changing and winding machine which comprises a transmission structure, a positioning structure, a tangent structure and a supporting structure, wherein the positioning structure is matched with the tangent structure, the positioning structure comprises a rotating shaft sleeve, a fixed bayonet and a connecting rod, the rotating shaft sleeve is sleeved on the peripheral side of the fixed bayonet and is in rotating connection with the fixed bayonet, one end of the connecting rod is in rotating connection with the fixed bayonet, the rotating shaft sleeve comprises a rotating bearing, a fixed column, a sleeve body and a pushing plate, the fixed column is in rotating connection with the fixed bayonet, the rotating bearing is in rotating connection with the sleeve body, the pushing plate is fixedly connected with the other end of the connecting rod, on the basis of the prior art, the spool is fixed through the rotating shaft sleeve, the winding machine is matched with the transmission structure, so that the winding requirement is met, and the connecting rod is driven by the pushing plate, so that the fixed bayonet is separated from the spool, the transmission structure takes away the spool, and the purpose of automatically changing the spool is achieved.

Description

Spool automatic disc-changing wire-rewinding machine

Technical Field

The invention relates to the technical field of wire rewinding machines, in particular to an automatic spool changing wire rewinding machine.

Background

The existing spool winding machine often needs manpower to replace spools after winding is completed, so that the working efficiency is low, the spool replacement process is unsafe, and once operators neglect, the whole production is possibly stagnated.

Disclosure of Invention

The invention provides an automatic spool changing and winding machine, which aims to solve the problem that in the prior art, spool changing needs manpower.

The utility model provides an automatic reel change admission machine of spool, includes transmission structure, location structure, tangent line structure and bearing structure, location structure set up in one side of transmission structure, and with tangent line structure cooperatees, tangent line structure set up in location structure's upside, bearing structure set up in location structure's downside, location structure includes rotation axle sleeve, fixed bayonet lock and connecting rod, rotation axle sleeve cover is located the periphery side of fixed bayonet lock, and with fixed bayonet lock rotates to be connected, the connecting rod is followed rotation axle sleeve's length extending direction set up in rotation axle sleeve's inside, the one end of connecting rod with fixed bayonet lock rotates to be connected, rotation axle sleeve includes slewing bearing, fixed column, cover body and advancing plate, the cover body cover is located the periphery side of connecting rod, the fixed column set up in the inside of cover body, and with fixed bayonet lock rotates to be connected, the axis of rotation bearing set up in the periphery side of cover body, and with the cover body rotates to be connected, the other end with the inside of connecting rod sets up in the fixed cover.

The fixed bayonet lock is characterized by comprising a base provided with a rotating hole and a rubber layer, wherein the base is rotationally connected with the fixed rod through the rotating hole, and the rubber layer is arranged on the upper side of the base.

The supporting structure comprises a bottom supporting seat, a telescopic rod and a supporting frame, wherein the bottom supporting seat is arranged on the outer peripheral side of the rotating shaft sleeve and is rotationally connected with the rotating shaft sleeve, one end of the telescopic rod is fixedly connected with the pushing plate, the other end of the telescopic rod is externally connected with an air cylinder, and the supporting frame is fixedly connected with the tangent structure and is arranged on the lower side of the tangent structure.

The bottom support seat comprises a driving motor, a threaded rod and a sliding plate, wherein the sliding plate is arranged on the lower side of the bottom support seat and fixedly connected with the bottom support seat, one end of the threaded rod is in threaded connection with the sliding plate, and the other end of the threaded rod is connected with a speed reducer externally connected with the output end of the driving motor.

The conveying structure comprises a conveying track, a conveying driving piece and a conveying roller, wherein the conveying roller is matched with the conveying driving piece, and the conveying track is arranged on the outer peripheral side of the conveying roller and is abutted to the spool.

The wire cutting structure comprises a wire cutting piece and a push rod piece, the wire cutting piece is matched with the push rod piece, and the push rod piece is arranged on the upper side of the supporting frame.

The beneficial effects of the invention are as follows: on the basis of the prior art, a take-up machine capable of automatically replacing spool is provided, spool is fixed through rotating shaft sleeve and is matched with a transmission structure, so that the requirement on take-up is met, a pushing plate is utilized to drive a connecting rod, so that a fixed bayonet lock is separated from the spool, the spool is taken away by the transmission structure, a new spool is transported to a position matched with a positioning structure, and the purpose of automatically replacing the spool is achieved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the front view structure of the spool automatic disc-changing wire-rewinding machine of the present invention.

Fig. 2 is a schematic cross-sectional structure of a rotating shaft sleeve of the spool automatic disc-changing wire-rewinding machine.

Fig. 3 is a schematic cross-sectional view of a tangential structure of the spool automatic disc-changing wire-rewinding machine according to the present invention.

10-transmission structure, 20-positioning structure, 30-tangential structure, 40-supporting structure, 11-transmission crawler, 12-transmission driving piece, 13-transmission roller, 21-rotation sleeve, 22-fixed bayonet, 23-connecting rod, 31-wire cutting piece, 32-pushing piece, 41-bottom supporting seat, 42-telescopic rod, 43-supporting frame, 211-rotation bearing, 212-fixed column, 213-sleeve body, 214-pushing plate, 221-base, 222-rubber layer, 223-rotation hole, 311-top block, 312-spring, 313-wire cutting piece, 314-triangle unfilled corner, 321-pushing cylinder, 322-moving rod, 411-driving motor, 412-threaded rod, 413-sliding plate.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

In the description of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention. Furthermore, in the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1 to 3, the present invention provides a technical solution:

the utility model provides an automatic reel change admission machine of spool, includes transmission structure 10, location structure 20, tangent line structure 30 and bearing structure 40, location structure 20 set up in one side of transmission structure 10, and with tangent line structure 30 cooperatees, tangent line structure 30 set up in the upside of location structure 20, bearing structure 40 set up in the downside of location structure 20, location structure 20 includes rotation axle sleeve 21, fixed bayonet lock 22 and connecting rod 23, rotation axle sleeve 21 cover is located the periphery side of fixed bayonet lock 22, and with fixed bayonet lock 22 rotates to be connected, connecting rod 23 follows the length extending direction of rotation axle sleeve 21 set up in the inside of rotation axle sleeve 21, the one end of connecting rod 23 with fixed bayonet lock 22 rotates to be connected, rotation axle sleeve 21 includes rotation bearing 211, fixed column 212, cover body 213 and propulsion board 214, cover body 213 is located the periphery side of connecting rod 23, fixed column 212 set up in the inside of cover body 213 to rotate with bayonet lock 22 sets up in rotation body 211 and the other end rotation body 213 sets up in the rotation body 213 and propulsion board.

In this embodiment, the transmission structure 10 is configured to convey the spool on one hand, and provide rotational power for the spool on the other hand, so that the spool can be wound up, the positioning structure 20 is configured to clamp the spool, and the connecting rod 23 is used to drive the fixing latch 22 to rotate, so that the spool can be fixed on the outer circumference of the rotating sleeve 21 by fixing the spool on the upper side of the transmission structure 10, and winding of the cable is achieved by rotating the spool, and the tangent structure 30 is configured to cut off after the winding is completed, the supporting structure 40 is configured to support the positioning structure 20 and the tangent structure 30, the rotating sleeve 21 is configured to allow the positioning structure 20 to rotate along with rotation of the spool, the fixing latch 22 is configured to drive the fixing latch 22 by the connecting rod 23, and the rotating bearing 211 is configured to allow the sleeve body 213 to rotate along with the rotating plate 214 of the spool, and the connecting rod 23 is configured to push the fixing latch 22 by the connecting rod 23, so that the connecting rod is configured to push the fixing pin 22.

Further, the fixing latch 22 includes a base 221 provided with a rotation hole 223 and a rubber layer 222, the base 221 is rotatably connected with the fixing rod through the rotation hole 223, and the rubber layer 222 is disposed on the upper side of the base 221.

In this embodiment, the base 221 is configured to support the rubber layer 222 and bear a carrier for rotating the fixed bayonet 22, the rotation hole 223 is configured to cooperate with the fixed column 212, and the rubber layer 222 utilizes its physical property to help to improve the friction between the fixed bayonet 22 and the spool, i.e. further improve the rotation stability of the spool, by using the friction of the rubber.

Further, the supporting structure 40 includes a bottom supporting seat 41, a telescopic rod 42 and a supporting frame 43, where the bottom supporting seat 41 is disposed on the outer peripheral side of the rotating shaft sleeve 21 and is rotationally connected with the rotating shaft sleeve 21, one end of the telescopic rod 42 is fixedly connected with the pushing plate 214, the other end of the telescopic rod 42 is externally connected with an air cylinder, and the supporting frame 43 is fixedly connected with the tangent structure 30 and is disposed on the lower side of the tangent structure 30.

In this embodiment, the bottom support 41 is configured to support the positioning structure 20, and the telescopic rod 42 is configured to cooperate with the pushing plate 214, so as to achieve the purpose of moving the pushing plate 214, and the support 43 is configured to support the tangential structure 30, so as to effectively improve the stability of the tangential structure 30.

Further, the bottom support seat 41 includes a driving motor 411, a threaded rod 412 and a sliding plate 413, the sliding plate 413 is disposed on the lower side of the bottom support seat 41 and fixedly connected with the bottom support seat 41, one end of the threaded rod 412 is in threaded connection with the sliding plate 413, and the other end of the threaded rod 412 is connected with a speed reducer externally connected with the output end of the driving motor 411.

In this embodiment, the driving motor 411 is configured to drive the threaded rod 412 to rotate, and the sliding plate 413 is in threaded connection with the threaded rod 412, so that the sliding plate 413 can be moved by using the rotation of the threaded rod 412, so as to drive the positioning structure 20 to move, that is, the rotating shaft sleeve 21 can be separated from the spool, that is, when the spool needs to be replaced after wire winding is completed, the driving motor 411 is started to drive the threaded rod 412 to rotate, so that the sliding plate 413 moves, so that the positioning structure 20 moves, so that the rotating shaft sleeve 21 is taken out from the spool, the tangential structure 30 is started, then the spool after the winding is completed can be conveyed along with the conveying structure, and the rotating shaft sleeve 21 can be inserted into the spool after the next spool to be wound reaches the positioning structure 20, so as to complete automatic replacement of the spool.

Further, the conveying structure 10 includes a conveying track 11, a conveying driving member 12, and a conveying roller 13, the conveying roller 13 is matched with the conveying driving member 12, and the conveying track 11 is disposed on an outer peripheral side of the conveying roller 13 and abuts against the spool.

In the present embodiment, the conveyor belt 11 is wrapped around the outer circumference of the conveyor roller 13, and the conveyor roller 13 is rotated by the conveyor roller 13, the conveyor roller 13 is connected to the conveyor drive 12, the rotation is performed by the conveyor drive 12, and the rotation is transmitted to the conveyor belt 11, and the conveyor belt 11 is used as a power source for rotating the spool, so that the spool can rotate.

Further, the tangential structure 30 includes a wire cutting member 31 and a push rod member 32, the wire cutting member 31 is matched with the push rod member 32, and the push rod member 32 is disposed on the upper side of the supporting frame 43.

In this embodiment, the wire cutting member 31 is configured to cut the wire when the wire is wound, and the pushing rod member 32 is configured to push the wire cutting member 31, so as to achieve the purpose of cutting the wire cutting member 31.

Further, the push rod 32 includes a pushing cylinder 321 and a moving rod 322, one end of the moving rod 322 is engaged with the pushing cylinder 321, and the other end of the moving rod 322 is engaged with the wire cutting member 31.

In this embodiment, the pushing cylinder 321 is configured to push the moving rod 322, and let the moving rod 322 push the wire cutting member 31, so that the wire cutting member 31 cuts the cable.

Further, the wire cutting member 31 includes a top block 311, a spring 312, a wire cutting rod 313 and a triangular unfilled corner 314, the top block 311 is disposed at one end of the spring 312 away from the triangular unfilled corner 314 and is matched with the movable rod 322, the spring 312 is sleeved on the outer peripheral side of the wire cutting rod 313, the triangular unfilled corner 314 is abutted to the wire cutting rod 313 and is disposed at one end of the wire cutting rod 313 away from the movable rod 322.

In this embodiment, the top block 311 is configured to cooperate with the moving rod 322, when the moving rod 322 moves, the top block 311 is pushed to move, so that the wire cutting rod 313 moves, and the wire cutting rod 313 is configured to push the triangular unfilled corner 314, so as to cut off the wire, when the cutting is completed, the moving rod 322 resets, at this time, the spring 312 is compressed by the top block 311 when the cutting is completed, so that the spring 312 resets the top block 311, that is, drives the triangular unfilled corner 314 to also complete resetting, so that the whole wire cutting member 31 completes resetting.

According to the invention, on the basis of the prior art, the transmission crawler belt 11 is utilized to drive the spool to rotate, so that the bundling of the wires is completed, the transmission crawler belt 11 is reasonably utilized to realize the automatic replacement of the spool, the waste of human resources is effectively reduced, and the bundling efficiency of the wires is effectively improved.

The above disclosure is only a preferred embodiment of the present invention, and it should be understood that the scope of the invention is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present invention.

Claims (3)

1. The spool automatic disc changing and wire collecting machine is characterized by comprising a transmission structure, a positioning structure, a wire cutting structure and a supporting structure, wherein the positioning structure is arranged on one side of the transmission structure and matched with the wire cutting structure, the wire cutting structure is arranged on the upper side of the positioning structure, the supporting structure is arranged on the lower side of the positioning structure, the positioning structure comprises a rotating shaft sleeve, a fixed clamping pin and a connecting rod, the rotating shaft sleeve is sleeved on the outer peripheral side of the fixed clamping pin and is in rotating connection with the fixed clamping pin, the connecting rod is arranged in the rotating shaft sleeve along the length extending direction of the rotating shaft sleeve, one end of the connecting rod is in rotating connection with the fixed clamping pin, the rotating shaft sleeve comprises a rotating bearing, a fixed column, a sleeve body and a pushing plate, the sleeve body is sleeved on the outer peripheral side of the connecting rod, the fixed column is arranged in the sleeve body and is in rotating connection with the fixed clamping pin, and the rotating shaft sleeve is arranged on the outer peripheral side of the sleeve body and in rotating connection with the pushing plate, and the other end of the rotating shaft sleeve is in rotating connection with the connecting rod and is in fixed connection with the sleeve.

The supporting structure comprises a bottom supporting seat, a telescopic rod and a supporting frame, wherein the bottom supporting seat is arranged on the peripheral side of the rotating shaft sleeve, is rotationally connected with the rotating shaft sleeve, one end of the telescopic rod is fixedly connected with the pushing plate, the other end of the telescopic rod is externally connected with an air cylinder, and the supporting frame is fixedly connected with the tangent structure and is arranged on the lower side of the tangent structure;

the bottom supporting seat comprises a driving motor, a threaded rod and a sliding plate, the sliding plate is arranged on the lower side of the bottom supporting seat and is fixedly connected with the bottom supporting seat, one end of the threaded rod is in threaded connection with the sliding plate, and the other end of the threaded rod is connected with a speed reducer externally connected with the output end of the driving motor;

the transmission structure comprises a transmission crawler, a transmission driving piece and a transmission roller, wherein the transmission roller is matched with the transmission driving piece, and the transmission crawler is arranged on the outer peripheral side of the transmission roller and is abutted to the spool.

2. The spool automatic disc changing and winding machine according to claim 1, wherein the fixed bayonet comprises a base provided with a rotation hole and a rubber layer, the base is rotatably connected with the fixed column through the rotation hole, and the rubber layer is arranged on the upper side of the base.

3. The spool automatic reel change wire take-up machine according to claim 1, wherein the wire cutting structure comprises a wire cutting member and a push rod member, the wire cutting member is matched with the push rod member, and the push rod member is arranged on the upper side of the support frame.