CN211444365U - Double-station reversing winding machine - Google Patents

Abstract

The utility model discloses a duplex position switching-over rolling machine, bearing structure and setting are at bearing structure power structure. The supporting structure is rotatably provided with a cross-shaped fixing plate through a supporting structure, a winding shaft and a tension shaft are arranged on the fixing plate, the power structure drives the power rotating shaft to rotate through the motor, the reversing shaft on the power rotating shaft acts on the output shaft sleeve to drive the transmission shaft sleeve to rotate and enable the winding shaft to work, and the power gas is arranged on the supporting base and used for reversing the reversing shaft. The utility model discloses work efficiency is high, and power transmission is stable, drives the output axle sleeve that the switching-over axle drove the different sides of power pivot through the cylinder and rotates to realize that the output axle sleeve does not rotate simultaneously, realize the switching-over of power, and realize rolling axle duplex position work in turn.

Description

Double-station reversing winding machine

Technical Field

The utility model relates to a hot pressing field, in particular to duplex position switching-over rolling machine.

Background

The receiving part of the coil processing production line winds raw materials into coils in a mechanical mode, is widely applied to paper rolls, cloth rolls, plastic rolls and metal coil processing production lines, and is designed to be diversified according to actual process requirements.

Current rolling machine rolling process is single, mostly is simple bearing structure, cooperates single wind-up roll, needs the manual work to unload after the rolling of rolling machine is accomplished, could carry out rolling on next step, and whole work efficiency is low, so needs a neotype rolling machine.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned problem, provide a duplex position switching-over rolling machine, drive the output axle sleeve that the switching-over axle drove the different side of power pivot through the cylinder and rotate to realize that the output axle sleeve does not rotate simultaneously, realize the switching-over of power, whole power transmission is effectual, and the switching-over is stable, and the fault rate is low.

The fixed plate that the rolling was used can rotate under the effect that turns to the motor to being equipped with the double-track wind-up roll of parallel on the fixed plate, accomplishing the back at the single-track rolling, can the switching-over rolling, thereby can unloading after the switching-over, the rolling is unloaded and is gone on simultaneously, and rolling efficiency is higher, and equipment lasts operating condition excellence.

Meanwhile, the winding shaft adopts an air expansion shaft, the winding effect can be guaranteed by matching with the tension roller, double-station alternate work can be realized by the winding machine, and the winding efficiency is greatly improved.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a double-station reversing winding machine comprises a support structure and a power structure arranged on the support structure, wherein the support structure comprises a support base, support structures are arranged on the support base in parallel, a fixing plate is arranged on the support structures on two sides, the center of the fixing plate is arranged on the support structures through a rotating shaft, the fixing plate is of a cross orthogonal structure, the transverse end parts of the fixing plate are respectively provided with a first winding shaft and a second winding shaft, the longitudinal end parts of the fixing plate are respectively provided with a first tension shaft and a second tension shaft, the support structure on one side is also provided with a steering motor connected with the rotating shaft,

the power structure comprises a power rotating shaft connected with a power motor, the power motor is arranged on a bracket base, a reversing shaft is arranged on a middle shaft body of the power rotating shaft in a sliding manner, output shaft sleeves are arranged at two ends of the power rotating shaft and correspond to the reversing shaft, the reversing shaft and the power rotating shaft synchronously rotate, the output shaft sleeves are sleeved outside the power rotating shaft and do not synchronously rotate with the power rotating shaft, reversing parts are arranged on two sides of the reversing shaft, power cylinders arranged on two sides of the reversing shaft are fixed on the bracket base and act on the reversing parts through a reversing push rod structure, the power cylinders are used for sliding reversing of the reversing shaft on the power rotating shaft, and one side;

two side covers are equipped with driving shaft sleeve in the axis of rotation, and driving shaft sleeve does not rotate with the axis of rotation is synchronous, and the output shaft cover of homonymy passes through first belt and connects driving shaft sleeve, and the driving shaft cover of both sides passes through the second belt and connects first rolling axle and second rolling axle respectively.

Furthermore, the push rod structure comprises a hinged seat, the middle part of the Z-shaped reversing rod is hinged to the hinged seat, and two ends of the Z-shaped reversing rod are respectively connected with the power cylinder and the reversing part.

Furthermore, the reversing part comprises a reversing disc and a connecting concave part, and the Z-shaped reversing rod is connected with the connecting concave part at the connecting end of the reversing part.

Further, the Z-shaped reversing lever acts as a connecting recess through a circular bearing.

Further, the output shaft sleeve comprises an output connecting disc and a belt connecting disc, wherein the output connecting disc and the reversing disc act, and the belt connecting disc is used for connecting a belt.

Furthermore, the reversing disc and the output connecting disc are correspondingly provided with clamping groove structures.

Furthermore, the first winding shaft and the second winding shaft are both air expansion shafts.

Furthermore, a steering speed reducer is arranged between the steering motor and the rotating shaft.

To sum up, the utility model discloses possess following advantage:

the utility model discloses a cylinder drives the output shaft cover that the switching-over axle drove the different sides of power pivot and rotates to realize that the output shaft cover does not rotate simultaneously, realize the switching-over of power, whole power transmission is effectual, and the switching-over is stable, and the fault rate is low.

The fixed plate that the rolling was used can rotate under the effect that turns to the motor to being equipped with the double-track wind-up roll of parallel on the fixed plate, accomplishing the back at the single-track rolling, can the switching-over rolling, thereby can unloading after the switching-over, the rolling is unloaded and is gone on simultaneously, and rolling efficiency is higher, and equipment lasts operating condition excellence.

Meanwhile, the winding shaft adopts an air expansion shaft, the winding effect can be guaranteed by matching with the tension roller, double-station alternate work can be realized by the winding machine, and the winding efficiency is greatly improved.

Drawings

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

FIG. 2 is a schematic view of the connection of the push rod structure with the diverter;

fig. 3 is a schematic power configuration.

Detailed Description

The invention will be further described with reference to the following drawings and examples:

example 1:

a double-station reversing winding machine is shown in figures 1-3 and comprises a support structure and a power structure arranged on the support structure, wherein the support structure comprises a support base 1-1, support structures 1-2 are parallelly arranged on the support base 1-1, a fixing plate 1-3 is arranged on the support structures 1-2 on two sides, the center of the fixing plate is arranged on the support structures 1-2 through a rotating shaft 1-4, meanwhile, a steering motor 1-5 is arranged on the support structure 1-2 on one side and connected with the rotating shaft 1-4, a steering speed reducer 1-6 is arranged between the steering motor 1-5 and the rotating shaft 1-4, the steering motor outputs stably through the action of the steering speed reducer to drive the rotating shaft to rotate, and the rotating shaft is fixed with the fixing plate 1-3, thereby driving the fixing plates 1-3 to rotate and realizing steering.

Specifically, the fixing plate 1-3 is of a cross-shaped orthogonal structure, the transverse end parts of the fixing plate are respectively provided with a first winding shaft 1-31 and a second winding shaft 1-32, the longitudinal end parts of the fixing plate are respectively provided with a first tension shaft 1-33 and a second tension shaft 1-34, namely, the first winding shaft and the second winding shaft are coaxially arranged in parallel, in the winding process, only a single winding shaft runs and winds, the other winding shaft is standby, after the winding is completed, the fixing plate 1-3 turns, the other winding shaft works, the wound winding shaft unloads materials, and the wound winding shaft is in a standby state again.

And the tension shaft can play the effect of controlling the tension of the coiled material in the winding process, so that the winding effect is improved.

Preferably, the first winding shaft 1-31 and the second winding shaft 1-32 are inflatable shafts

The power structure comprises a power rotating shaft 2 connected with a power motor 1, the power motor is arranged on a bracket base 1-1, a reversing shaft 3 is arranged on a middle shaft body of the power rotating shaft 2 in a sliding mode, output shaft sleeves 4 are arranged at two ends of the power rotating shaft and correspond to the reversing shaft 3, the output shaft sleeves are used for outputting the whole power structure and are connected with a winding roller, the reversing shaft 3 and the power rotating shaft 2 rotate synchronously, and the output shaft sleeves 4 are sleeved on the outer side of the power rotating shaft 2 and do not rotate synchronously with the power rotating shaft 2, so that the output shaft sleeves can rotate under the action of the reversing shaft to achieve the purpose of power output.

Specifically, in the reversing arrangement, reversing portions 31 are arranged on two sides of a reversing shaft 3, power cylinders 5 arranged on two sides are fixed on a support base 1-1 and act on the reversing portions 31 through reversing push rod structures 6, the reversing shaft 3 is used for reversing in a sliding mode on a power rotating shaft 2, and the drawing 2 is continuously referred to, each push rod structure 6 comprises a hinged seat 61, the middle of a Z-shaped reversing rod 62 is hinged to the hinged seat 61, two ends of the Z-shaped reversing rod are respectively connected with the power cylinders 5 and the reversing portions 31, two sides of the Z-shaped reversing rod 62 are spatially parallel rod bodies, the middle of the Z-shaped reversing rod is a hinged end, the hinged end is hinged to the hinged seat 61, rotation of the Z-shaped reversing rod is achieved, the spatially parallel rod bodies on two sides are respectively connected with the power cylinders 5.

With further reference to fig. 2, the reversing part 31 includes a reversing disc 311 and a connecting recess 312, the Z-shaped reversing rod 62 is connected with the connecting recess 312 at the connecting end of the reversing part 31, and the Z-shaped reversing rod 62 acts on the connecting recess 312 through the circular bearing 7, so that the push rod structure can act on the reversing part without affecting the rotation of the reversing shaft, the overall effect is good, and the reversing fault is not easy to occur.

In the application process, the reversing shaft 3 at one side always acts on the output shaft sleeve 4.

And on the connection of switching-over portion and output shaft sleeve, output shaft sleeve 4 includes output connection pad 41 with the effect of switching-over dish 311, still includes belt connection pad 42 that is used for the belt to connect to, switching-over dish 311 and output connection pad 41 correspond be equipped with draw-in groove structure 8, when two disk bodies block together under the effect of cylinder, also can realize the transmission, but realize its dislocation connection through draw-in groove structure 8, can make the transmission effect reach the optimum.

On the rotation of a specific winding shaft, transmission shaft sleeves 9 are sleeved on two sides of a rotating shaft 1-4, the transmission shaft sleeves 9 do not rotate synchronously with the rotating shaft 1-4, an output shaft sleeve 4 on the same side is connected with the transmission shaft sleeve 9 through a first belt 10, a belt connecting disc 42 is connected on the output shaft sleeve specifically, the transmission shaft sleeves 9 on two sides are respectively connected with a first winding shaft 1-31 and a second winding shaft 1-32 through a second belt 101, and therefore the output shaft sleeves on two sides correspond to different winding shafts respectively.

The power motor operates, the power rotating shaft is driven to rotate through the speed reducer, the reversing shaft and the power rotating shaft synchronously rotate, the output shaft sleeve on one side can be driven to rotate under the action of the power air cylinder, the output shaft sleeve drives the transmission shaft sleeve to rotate, and the transmission shaft sleeve drives the winding shaft to rotate.

In the rolling, first tension roller can use with first wind-up roll cooperation, also can use with second wind-up roll cooperation simultaneously, use coiled material left side feeding as the example, when the coiled material is rolled up by first wind-up roll under the tension control of first tension roller promptly, the coiled material need be walked around first tension roller and realizes reverse rolling, second tension roller and second wind-up roll mutually support this moment, and when the coiled material was rolled up by second wind-up roll under the tension control of first tension roller, the coiled material was rolled up by second wind-up roll through forward from first tension roller upside, second tension roller and first wind-up roll mutually support this moment.

In the winding process, a winding shaft on one side is rotated to wind, a winding shaft on the other side is reserved, after winding is completed, a steering motor drives a fixing plate 3 to steer, the winding shaft on the other side works, the wound winding shaft unloads and is in a reserved state again, and the power reversing process is that a power cylinder pulls or pushes a reversing shaft to move through a push rod structure to act on an output shaft sleeve on the other side, so that power reversing is realized.

Preferably, the power cylinders on the two sides can work synchronously, and the reversing action mechanism is better.

In conclusion, the output shaft sleeves on different sides of the power rotating shaft are driven to rotate by the reversing shaft driven by the air cylinder, so that the output shaft sleeves do not rotate simultaneously, the power reversing is realized, the overall power transmission effect is good, the reversing is stable, and the fault rate is low.

The fixed plate that the rolling was used can rotate under the effect that turns to the motor to being equipped with the double-track wind-up roll of parallel on the fixed plate, accomplishing the back at the single-track rolling, can the switching-over rolling, thereby can unloading after the switching-over, the rolling is unloaded and is gone on simultaneously, and rolling efficiency is higher, and equipment lasts operating condition excellence.

Meanwhile, the winding shaft adopts an air expansion shaft, the winding effect can be guaranteed by matching with the tension roller, double-station alternate work can be realized by the winding machine, and the winding efficiency is greatly improved.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

It will be understood that the above-described embodiments are illustrative only and not restrictive, and that various obvious and equivalent modifications and substitutions may be made in the details described herein by those skilled in the art without departing from the basic principles of the invention.

Claims (8)

1. A double-station reversing winder is characterized in that: comprises a support structure and a power structure arranged on the support structure, wherein the support structure comprises a support base (1-1), the support base (1-1) is provided with a support structure (1-2) in parallel, the fixing plate (1-3) is arranged on the support structure (1-2) at both sides, the central position is arranged on the supporting structure (1-2) through a rotating shaft (1-4), the fixing plate (1-3) is of a cross-shaped orthogonal structure, the transverse end parts of the two-way winding mechanism are respectively provided with a first winding shaft (1-31) and a second winding shaft (1-32), the longitudinal end parts of the two-way winding mechanism are respectively provided with a first tension shaft (1-33) and a second tension shaft (1-34), and the supporting structure (1-2) on one side is also provided with a steering motor (1-5) connected with the rotating shaft (1-4);

the power structure comprises a power rotating shaft (2) connected with a power motor (1), the power motor is arranged on the support base (1-1), a reversing shaft (3) is arranged on a shaft body in the middle of the power rotating shaft (2) in a sliding manner, output shaft sleeves (4) are arranged at two ends of the power rotating shaft and correspond to the reversing shaft (3), the reversing shaft (3) and the power rotating shaft (2) synchronously rotate, the output shaft sleeves (4) are sleeved on the outer side of the power rotating shaft (2) and do not synchronously rotate with the power rotating shaft (2), reversing parts (31) are arranged on two sides of the reversing shaft (3), a power cylinder (5) arranged on two sides of the power rotating shaft is fixed on the support base (1-1) and acts on the reversing parts (31) through a reversing push rod structure (6) for sliding reversing of the reversing shaft (3) on the power rotating shaft (2), and a reversing shaft (3) at one side acts on the output shaft sleeve (4) all the time;

two side covers are equipped with driving sleeve (9) on axis of rotation (1-4), just driving sleeve (9) not with axis of rotation (1-4) synchronous rotation, the output axle sleeve (4) of homonymy are connected through first belt (10) driving sleeve (9), both sides driving sleeve (9) are connected respectively through second belt (101) first rolling axle (1-31) and second rolling axle (1-32).

2. The double-station reversing winder according to claim 1, characterized in that: the push rod structure (6) comprises a hinged seat (61), the middle part of the Z-shaped reversing rod (62) is hinged to the hinged seat (61), and two ends of the Z-shaped reversing rod are respectively connected with the power cylinder (5) and the reversing part (31).

3. The double-station reversing winder according to claim 2, characterized in that: the reversing part (31) comprises a reversing disc (311) and a connecting concave part (312), and the Z-shaped reversing rod (62) is connected with the connecting concave part (312) at the connecting end of the reversing part (31).

4. The double-station reversing winder according to claim 3, characterized in that: the Z-shaped reversing lever (62) acts on the connecting concave part (312) through a circular bearing (7).

5. The double-station reversing winder according to claim 3, characterized in that: the output shaft sleeve (4) comprises an output connecting disc (41) acting with the reversing disc (311) and a belt connecting disc (42) used for connecting a belt.

6. The double-station reversing winder according to claim 5, characterized in that: the reversing disc (311) and the output connecting disc (41) are correspondingly provided with a clamping groove structure (8).

7. The double-station reversing winder according to claim 1, characterized in that: the first winding shaft (1-31) and the second winding shaft (1-32) are both inflatable shafts.

8. The double-station reversing winder according to claim 1, characterized in that: a steering speed reducer (1-6) is arranged between the steering motor (1-5) and the rotating shaft (1-4).

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