CN112609281B - Multi-press-roller pressurizing exchange mechanism - Google Patents

Abstract

The invention discloses a multi-compression roller pressurization exchange mechanism which comprises a compression roller rack, wherein a rotary compression roller warehouse support is rotatably arranged on the compression roller rack, at least two compression rollers are arranged on the rotary compression roller warehouse support, a roller shaft of each compression roller penetrates through the rotary compression roller warehouse support, a roller shaft hole in the rotary compression roller warehouse support is arranged on the same circular motion track, a warp beam pressurization support positioned on two sides of the rotary compression roller warehouse support is hinged on the compression roller rack, a compression roller clamping mechanism is arranged on the warp beam pressurization support, the warp beam pressurization support is driven by a compression roller pressurization servo cylinder hinged on the compression roller rack, the rotary compression roller warehouse support comprises a warehouse support chuck driven by a driving mechanism and a notch disc rotatably arranged with the warehouse support chuck, the driving mechanism is arranged on the compression roller rack, a notch matched with the notch disc is arranged on the warehouse support, and the notch disc is driven by a safety cylinder hinged on the compression roller rack. The invention can change the compression roller in work, so that the warping machine can be suitable for warp beams with several widths, and has ingenious conception and simple structure.

Description

Multi-press-roller pressurizing exchange mechanism

Technical Field

The invention relates to a multi-press-roll pressurizing exchange mechanism.

Background

When the warping machine works, the press roller is pressed on the surface of the warp beam to ensure the winding roundness of the warp beam. The width of the beam determines the width of the press roll. A warper can only generally operate on a beam of one width due to the width limitation of the press rolls. Thus, for an enterprise, several machines are needed for several widths, and the cost and the occupied space are too large.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a multi-compression-roller pressurizing exchange mechanism, which can replace compression rollers during working, so that the warping machine can be suitable for warp beams with various widths, and has ingenious conception and simple structure.

In order to achieve the purpose, the technical scheme of the invention is to design a multi-compression roller pressurizing exchange mechanism which comprises a compression roller frame, wherein a rotary compression roller warehouse support is rotatably arranged on the compression roller frame, at least two compression rollers are arranged on the rotary compression roller warehouse support, a roller shaft of each compression roller penetrates through the rotary compression roller warehouse support, a roller shaft hole on the rotary compression roller warehouse support is arranged on the same circular motion track, a warp shaft pressurizing support positioned at two sides of the rotary compression roller warehouse support is hinged on the compression roller frame, a compression roller clamping mechanism is arranged on the warp shaft pressurizing support, the warp shaft pressurizing support is driven by a compression roller pressurizing servo cylinder hinged on the compression roller frame, the rotary compression roller warehouse support comprises a warehouse support chuck driven by a driving mechanism and a notch disc rotatably arranged with the warehouse support chuck, the driving mechanism is arranged on the compression roller frame, a notch matched with the notch disc is arranged on the warehouse support chuck, the notch disc is driven to rotate by a safety cylinder hinged on the compression roller frame. The roller shaft holes on the rotary type press roller library bracket are arranged on the same circular motion track, so that when the rotary type press roller library bracket is rotated, the original working roller can be replaced by the spare press rollers with other widths, and the effect of replacing the press rollers is achieved; the warehouse support chuck and the gap disc are arranged in a rotating mode, so that the position of the gap on the warehouse support chuck is consistent with that of the gap disc when the compression roller needs to be replaced, and the gap on the warehouse support chuck is staggered with the gap disc gap when the compression roller does not need to be replaced. For better realizing this scheme, be equipped with a plurality of breach on the storehouse support chuck, breach quantity is unanimous with compression roller quantity, and the compression roller passes through breach and breach dish realization and inserts on storehouse support chuck.

The further technical scheme is that three press rolls are arranged on the rotary press roll library support, one of the three press rolls is used as a working roll, the other two press rolls are used as standby press rolls, and three roll shaft holes in the rotary press roll library support are arranged in an annular array.

The further technical scheme is that the library bracket chuck is in an I-shaped disc shape and is rotationally arranged on the compression roller frame, the gap disc is in an annular shape, and a gap for breaking the ring is arranged on the gap disc; the notch on the library support chuck is arranged at the edge of the library support chuck.

A further technical scheme is that the warehouse support chuck comprises a middle cylinder and two side discs fixedly arranged at two ends of the cylinder, the two side discs are of a double-layer structure, each side disc comprises an inner disc and an outer disc, the two discs are fixed on the cylinder, a gap is formed between the two discs, a rubber wheel is arranged between the two discs in a rotating mode, and the notch disc is arranged in a rotating mode relative to the warehouse support chuck through the rubber wheel.

The further technical proposal is that the compression roller pressurizing servo cylinder is an air cylinder or an oil cylinder; the compression roller clamping mechanism is an air cylinder; the driving mechanism is a worm gear stepping speed reducing motor or a servo motor.

The action process is as follows:

1. when the compression roller needs to be replaced, the safety cylinder drives the notch disc to rotate, so that the notch on the notch disc and the notch on the library bracket chuck are located at the same position;

2. the compression roller pressurizing servo cylinder pulls the warp beam pressurizing bracket back, so that the compression roller < working roller > enters the notch;

3. loosening the compression roller clamping mechanisms on the two sides of the warp beam pressurizing bracket;

4. a worm gear stepping speed reducing motor (or a servo motor) rotates the warehouse support chuck, a driving compression roller rotates around the center of the warehouse support chuck, and the operation is stopped and the new compression roller to be replaced is positioned when the new compression roller reaches the notch;

5. the compression roller clamping mechanism clamps the replaced compression roller;

6. the compression roller pressurizing servo cylinder pushes the warp beam pressurizing bracket outwards, and the clamped compression roller is pushed out of the exchange position for warping of equipment;

7. the safety cylinder acts < reset > to close the exchange gap.

The length and the process of the safety cylinder are set according to the initial positions of the notch and the notch disc on the library support chuck.

The invention has the advantages and beneficial effects that: the roller shaft holes on the rotary type press roller library bracket are arranged on the same circular motion track, so that when the rotary type press roller library bracket is rotated, the original working roller can be replaced by the spare press rollers with other widths, and the effect of replacing the press rollers is achieved; the warehouse support chuck and the gap disc are arranged in a rotating mode, so that the position of the gap on the warehouse support chuck is consistent with that of the gap disc when the compression roller needs to be replaced, and the gap on the warehouse support chuck is staggered with the gap disc gap when the compression roller does not need to be replaced. The press roller can be replaced during working, so that the warping machine can be suitable for warp beams with various widths, and the warping machine is ingenious in conception and simple in structure.

Drawings

FIG. 1 is a schematic view of a multiple nip roll press exchange mechanism of the present invention;

FIG. 2 is a schematic view from another perspective of FIG. 1;

FIG. 3 is a schematic view of the library holder cartridge of FIG. 1 in a state in which the gap is misaligned with the gap in the gap plate, i.e., in a closed state of the gap of the present invention;

FIG. 4 is a schematic view showing the opened state of the notch of FIG. 3;

FIG. 5 is a schematic view of the library holder cartridge of FIG. 3;

FIG. 6 is a perspective view of FIG. 5;

fig. 7 is a schematic view of the notched disc of fig. 4.

In the figure: 1. a press roll frame; 2. pressing rollers; 3. a warp beam pressurizing bracket; 4. a compression roller clamping mechanism; 5. a compression roller pressurizing servo cylinder; 6. a drive mechanism; 7. a library support chuck; 8. a notch disc; 9. a safety cylinder; 10. a notch; 11. a cylinder; 12. a disc; 13. and (4) rubber wheels.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 7 (in fig. 1, a reed mechanism arranged on a compression roller frame is arranged at the upper right part), the invention relates to a multi-compression roller pressurization exchange mechanism, which comprises a compression roller frame 1, a rotary compression roller base bracket is rotatably arranged on the compression roller frame 1, at least two compression rollers 2 are arranged on the rotary compression roller base bracket, a roller shaft of each compression roller 2 passes through the rotary compression roller base bracket and a roller shaft hole on the rotary compression roller base bracket is arranged on the same circular motion track, a warp shaft pressurization bracket 3 positioned at two sides of the rotary compression roller base bracket is hinged on the compression roller frame 1, a compression roller clamping mechanism 4 is arranged on the warp shaft pressurization bracket 3, the warp shaft pressurization bracket 3 is driven by a compression roller pressurization servo cylinder 5 hinged on the compression roller frame 1, the rotary compression roller base bracket comprises a base bracket chuck 7 driven by a driving mechanism 6 and a notch disc 8 rotatably arranged with the base bracket chuck 7, the driving mechanism 6 is arranged on the compression roller frame 1, the warehouse support chuck 7 is provided with a notch 10 matched with the notch disc 8, and the notch disc 8 is driven to rotate by a safety cylinder 9 hinged on the compression roller frame 1. Three press rolls 2 are arranged on the rotary press roll storage bracket, one of the press rolls is used as a working roll, the other two press rolls are used as standby press rolls, and three roll shaft holes on the rotary press roll storage bracket are arranged in an annular array. The warehouse support chuck 7 is in an I-shaped disc shape, the warehouse support chuck 7 is rotatably arranged on the compression roller frame 1, the gap disc 8 is in an annular shape, and a gap 10 for breaking the ring is arranged on the gap disc 8; the indentations 10 on the library holder cartridge 7 are provided at the edge of the library holder cartridge 7. Storehouse support chuck 7 includes a cylinder 11 in the middle of and fixed two side dishes that set up at cylinder 11 both ends, and two side dishes are bilayer structure, and every side dish comprises two inside and outside discs 12, and two discs 12 are all fixed on cylinder 11, are equipped with the clearance between two discs 12, rotate between two discs 12 and are equipped with the rubber tyer, and notch dish 8 rotates the setting relatively through rubber tyer and storehouse support chuck 7. The compression roller pressurizing servo cylinder 5 is a cylinder or an oil cylinder; the compression roller clamping mechanism 4 is an air cylinder; the driving mechanism 6 is a worm gear stepping speed reducing motor or a servo motor.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make various improvements and modifications without departing from the technical principle of the present invention, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (5)

1. The multi-compression-roller pressurizing exchange mechanism is characterized by comprising a compression roller rack, wherein a rotary compression roller warehouse support is rotatably arranged on the compression roller rack, at least two compression rollers are arranged on the rotary compression roller warehouse support, a roller shaft of each compression roller penetrates through the rotary compression roller warehouse support and a roller shaft hole in the rotary compression roller warehouse support is arranged on the same circular motion track, a warp beam pressurizing support positioned on two sides of the rotary compression roller warehouse support is hinged to the compression roller rack, a compression roller clamping mechanism is arranged on the warp beam pressurizing support, the warp beam pressurizing support is driven by a compression roller pressurizing servo cylinder hinged to the compression roller rack, the rotary compression roller warehouse support comprises a warehouse support chuck driven by a driving mechanism and a notch disc rotatably arranged with the warehouse support chuck, the driving mechanism is arranged on the compression roller rack, a notch matched with the notch disc is arranged on the warehouse support chuck, and the notch disc is driven to rotate by a safety cylinder hinged to the compression roller rack.

2. The multi-roller press exchange mechanism according to claim 1, wherein three rollers are provided on the rotary roller house support, one of the rollers is used as a working roller, the other two rollers are used as backup rollers, and three roller shaft holes on the rotary roller house support are arranged in an annular array.

3. The multi-roller press exchange mechanism of claim 2, wherein said magazine holder chuck is in the shape of an i-shaped disk and rotatably mounted on said press roller frame, said gap disk is in the shape of a ring and has a gap for breaking said ring; the notch on the storehouse support chuck is arranged at the edge of the storehouse support chuck.

4. The multi-roller pressing exchange mechanism of claim 3, wherein the cartridge holder chuck comprises a middle cylinder and two side discs fixedly arranged at two ends of the cylinder, the two side discs are of a double-layer structure, each side disc is composed of an inner disc and an outer disc, the two discs are both fixed on the cylinder, a gap is arranged between the two discs, a rubber wheel is rotatably arranged between the two discs, and the gap disc is rotatably arranged relative to the cartridge holder chuck through the rubber wheel.

5. The multi-nip roll press exchange mechanism of claim 4, wherein the nip roll press servo cylinder is an air cylinder or an oil cylinder; the compression roller clamping mechanism is an air cylinder; the driving mechanism is a worm gear stepping speed reducing motor or a servo motor.

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