CN113136665B

CN113136665B - Automatic cloth dyeing equipment for spinning

Info

Publication number: CN113136665B
Application number: CN202110366603.3A
Authority: CN
Inventors: 何水
Original assignee: Jiangsu Qunxing Mining Machinery Co ltd
Current assignee: Taixing Zhenxing Shoes Co ltd
Priority date: 2021-04-06
Filing date: 2021-04-06
Publication date: 2022-12-06
Anticipated expiration: 2041-04-06
Also published as: CN113136665A

Abstract

The invention relates to dyeing equipment, in particular to automatic dyeing equipment for cloth for spinning. The invention provides automatic textile cloth dyeing equipment which can automatically supplement materials, is convenient to operate and can reduce waste. The utility model provides an automatic dyeing equipment of cloth for weaving, is equipped with the paintbox including base and paintbox, base top, is equipped with rotary mechanism on the paintbox, is equipped with dyestuff mechanism on the paintbox. The automatic material squeezing and supplementing device is provided with the dye mechanism, the dye mechanism operates and enables part of cloth to be immersed in dyeing, so that the cloth is dyed, the operation is convenient, the material squeezing mechanism operates and squeezes out redundant dye on the cloth, the purpose of automatic material squeezing is achieved, the dye can be fully used, unnecessary waste is reduced, the material supplementing mechanism operates and drives the material supplementing mechanism to operate, the dye in the dye box is supplemented, and the effect of automatic material supplementing is achieved.

Description

Automatic cloth dyeing equipment for spinning

Technical Field

The invention relates to dyeing equipment, in particular to automatic dyeing equipment for cloth for spinning.

Background

When using, the existing cloth dyeing device often adopts the direct soaking method of the coloring agent to dye, thereby leading to the uneven condition of dyeing, in addition, the cloth that comes out from the coloring agent inside is directly sent to next process, a large amount of coloring agents drip on the ground from the cloth, causing the waste and the environmental pollution of the coloring agent, and in addition, when the existing cloth dyeing device is manually operated, the coloring agent needs to be continuously supplemented, so the time and labor are consumed, and the work efficiency is lower.

Patent application CN211036420U, published as 2020.07.17, a cloth dyeing apparatus is disclosed, which comprises a base, a rack, a dyeing box, an ultrasonic generator, a supporting frame, a feeding roller, a winding roller, a motor and the like, wherein the cloth is installed on the feeding roller, and then the cloth passes through a discharge port and is wound on the winding roller, then a dyeing agent is poured into the dyeing box through a liquid pouring port, the dyeing agent is enabled to sink over a guide roller, an end cover is covered, the motor is sequentially started, a blowing fan, a heating wire and an exhaust fan are arranged on the winding roller, the motor drives the cloth to be continuously wound on the winding roller, the undyed cloth is continuously pulled into the dyeing box and is immersed in the dyeing agent, the dyeing agent passes through ultrasonic energy generated by the ultrasonic generator, the activity of internal molecules of the dyeing agent is improved, the dyeing speed of the cloth is accelerated, the cloth is extruded by a pressing roller, and is dried by a dryer, and the dyeing work is rapidly completed.

Therefore, it is required to design an automatic textile cloth dyeing device which can automatically feed materials, is convenient to operate and can reduce waste.

Disclosure of Invention

The invention aims to provide automatic textile cloth dyeing equipment which can automatically supplement materials, is convenient to operate and can reduce waste, so as to solve the defects of time and labor consumption, low working efficiency and waste of dye caused by manual operation in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an automatic dyeing equipment of cloth for weaving, is equipped with the paintbox including base and paintbox, base top, is equipped with rotary mechanism on the paintbox, is equipped with dyestuff mechanism on the paintbox.

Further, be equipped with four first supports on the paintbox, install the motor on the paintbox, two first support upper portion inboard equal rotary types that are close to one side of motor are equipped with the second pivot, the second pivot of one side and the output shaft of motor, and equal sliding type is connected with first pivot between two first supports of one side of keeping away from the motor and the second pivot, is equipped with the cam in the second pivot of one side of being close to the motor.

Furthermore, two second supports are arranged on the pigment box, lower pressing rods are arranged on the inner sides of the two second supports in a sliding mode, first compression springs are wound on the lower pressing rods and connected between the second supports and the lower pressing rods, first connecting rods are connected between the upper portions of the two lower pressing rods, and idler wheels are connected between the lower portions of the two lower pressing rods in a rotating mode.

Furthermore, a third support is arranged on the paint box, a fourth support is arranged on the paint box, a push rod is arranged on the inner side of the upper portion of the third support in a sliding mode and matched with the first connecting rod, a lock rod is arranged on the push rod and connected with the fourth support in a sliding mode, a second compression spring is wound on the lock rod and connected between the fourth support and the lock rod, a clamping block is arranged on the inner side of the upper portion of the fourth support in a sliding mode and matched with the lock rod.

Further, be equipped with two fifth supports on the paintbox, the inboard rotary type of fifth support is equipped with first bull stick, all be equipped with the supporting shoe on two second supports, all be equipped with the movable block with two supporting shoe inboards on two depression bars down, two movable blocks and the supporting shoe sliding connection of one side of keeping away from the head rod, two movable blocks and the second support sliding connection of one side near the head rod, all be connected with the second bull stick between two adjacent movable blocks and the first bull stick, the second bull stick is connected with the movable block rotary type, all be connected with the squeeze bar between the movable block between two supporting shoe upper portions and the one side of keeping away from the head rod, the squeeze bar of upper and lower both sides is mutually supported, two movable block tops of one side of keeping away from the head rod all are equipped with the guide bar, guide bar and supporting shoe sliding connection, around having third compression spring on the guide bar, third compression spring connects between the supporting shoe and the movable block of one side of keeping away from the head rod.

Furthermore, the pigment box is provided with a material supplementing pipe on the inner side, a rotating block is arranged on the first rotating rod on one side close to the material supplementing pipe, a valve is arranged in the material supplementing pipe in a sliding mode, a fourth compression spring is wound on the valve, and the fourth compression spring is connected between the material supplementing pipe and the valve.

Furthermore, a fixing frame is arranged on the first support closest to one side of the fourth support, two friction rods are arranged on the inner side of the fixing frame in a sliding mode and are symmetrical to each other, the friction rods are matched with a second rotating shaft closest to one side of the fixing frame, a fifth compression spring is wound on the friction rods, and the fifth compression spring is connected between the friction rods and the fixing frame.

Further, the fixing frame is made of alloy.

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

1. according to the dyeing machine, the rotating mechanism is arranged, so that people can operate the rotating mechanism, and the cloth can enter the dye in the pigment box and then move out of the dye through the operation of the rotating mechanism, so that the cloth can be conveniently dyed;

2. according to the dyeing machine, the dyeing mechanism is arranged, so that people can operate the dyeing mechanism, and the dyeing mechanism can immerse part of cloth into dyeing, so that the cloth is dyed, and the operation is convenient;

3. the automatic dyeing machine is provided with the pressing mechanism, and the rotating mechanism operates to drive the pressing mechanism to operate, so that the dye mechanism operates, cloth is dyed, and the aim of automatic dyeing is fulfilled;

4. the automatic material extruding device is provided with the material extruding mechanism, the dye mechanism operates to drive the material extruding mechanism to operate, and further, redundant dye on the cloth is extruded out, so that the aim of automatically extruding the material is fulfilled, the dye can be fully used, and unnecessary waste is reduced;

5. the automatic dye replenishing device is provided with the dye replenishing mechanism, the dye mechanism operates to drive the dye replenishing mechanism to operate, and then the dye in the dye box is replenished, so that the effect of automatic dye replenishing is achieved;

6. according to the invention, the clamping mechanism is arranged and matched with the rotating mechanism, so that the cloth in the rotating mechanism can be prevented from moving too fast to cause uneven dyeing.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the rotating mechanism of the present invention.

Fig. 3 is a schematic perspective view of a second part of the rotating mechanism of the present invention.

Fig. 4 is a schematic perspective view of the dye mechanism of the present invention.

Fig. 5 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 6 is a schematic perspective view of the material extruding mechanism of the present invention.

Fig. 7 is a partially enlarged perspective view of fig. a of the present invention.

FIG. 8 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 9 is a perspective view of the chucking mechanism of the present invention.

In the above drawings: 1: base, 2: pigment box, 3: rotation mechanism, 31: first bracket, 32: motor, 33: first rotating shaft, 34: second rotating shaft, 35: cam, 4: dye mechanism, 41: second bracket, 42: depression bar, 43: first compression spring, 44: first connecting rod, 45: roller, 5: pressing mechanism, 51: third bracket, 52: fourth bracket, 53: push rod, 54: second compression spring, 55: a latch, 56: locking lever, 6: material extruding mechanism, 61: fifth bracket, 62: first rotating lever, 63: moving block, 64: second rotating rod, 65: extrusion stem, 66: guide bar, 67: third compression spring, 68: supporting block, 7: feed supplement mechanism, 71: material supplementing pipe, 72: rotation block, 73: valve, 74: fourth compression spring, 8: chucking mechanism, 81: mount, 82: friction lever, 83: and a fifth compression spring.

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.

Referring to fig. 1-9, the present invention provides a technical solution: an automatic dyeing device for cloth for spinning comprises a base 1, a pigment box 2, a rotating mechanism 3, a first support 31, a motor 32, a first rotating shaft 33, a second rotating shaft 34, a cam 35, a dye mechanism 4, a second support 41, a lower pressing rod 42, a first compression spring 43, a first connecting rod 44, a roller 45, a lower pressing mechanism 5, a third support 51, a fourth support 52, a push rod 53, a second compression spring 54, a fixture block 55, a locking rod 56, a squeezing mechanism 6, a fifth support 61, a first rotating rod 62, a moving block 63, a second rotating rod 64, a squeezing rod 65, a guide rod 66, a third compression spring 67, a support block 68, a material supplementing mechanism 7, a material supplementing pipe 71, a rotating block 72, a valve 73, a fourth compression spring 74, a clamping mechanism 8, a fixing frame 81, a friction rod 82 and a fifth compression spring 83, wherein the pigment box 2 is arranged at the top of the base 1, the rotating mechanism 3 is arranged on the pigment box 2, and the dye mechanism 4 is arranged on the pigment box 2.

Four first supports 31 are arranged on the pigment box 2, a motor 32 is arranged at the front portion of the left side of the top of the pigment box 2, second rotating shafts 34 are arranged on the inner sides of the upper portions of the first supports 31 on the left and right sides of the front portion in an equal rotating mode, the left second rotating shafts 34 are connected with an output shaft of the motor 32, first rotating shafts 33 are connected between the first supports 31 on the left and right sides of the rear portion and the second rotating shafts 34 in a sliding mode, and a cam 35 is arranged on the left second rotating shafts 34.

Two second supports 41 are arranged on the paint box 2, lower compression rods 42 are arranged on the inner sides of the second supports 41 on the front side and the rear side in a sliding mode, first compression springs 43 are wound on the lower compression rods 42, the first compression springs 43 are connected between the second supports 41 and the lower compression rods 42, first connecting rods 44 are connected between the upper portions of the two lower compression rods 42, and idler wheels 45 are rotatably connected between the lower portions of the two lower compression rods 42.

The lower part of the front side of the paint box 2 is provided with a third bracket 51, the paint box 2 is provided with a fourth bracket 52, the inner side of the upper part of the third bracket 51 is provided with a push rod 53 in a sliding manner, the push rod 53 is matched with the first connecting rod 44, the front part of the right side of the push rod 53 is provided with a lock rod 56, the lock rod 56 is connected with the fourth bracket 52 in a sliding manner, the lock rod 56 is wound with a second compression spring 54, the second compression spring 54 is connected between the fourth bracket 52 and the lock rod 56, the inner side of the upper part of the fourth bracket 52 is provided with a fixture block 55 in a sliding manner, and the fixture block 55 is matched with the lock rod 56.

The front side and the rear side of the pigment box 2 are respectively provided with a fifth support 61, the inner side of the fifth support 61 is rotatably provided with a first rotating rod 62, the left sides of two second supports 41 are respectively provided with a support block 68, two lower pressing rods 42 are respectively provided with a moving block 63 inside the two support blocks 68, the left moving block 63 is slidably connected with the support blocks 68, the right moving block 63 is slidably connected with the second supports 41, the left moving block 63 and the first rotating rod 62 are respectively connected with a second rotating rod 64, the second rotating rod 64 is rotatably connected with the moving block 63, the upper portions of the two support blocks 68 and the left two moving blocks 63 are respectively connected with each other by an extrusion rod 65, the extrusion rods 65 on the upper side and the lower side are mutually matched, the tops of the left moving blocks 63 on the front side and the rear side are respectively provided with a guide rod 66, the guide rods 66 are slidably connected with the support blocks 68, a third compression spring 67 is wound on the guide rods 66, and the third compression spring 67 is connected between the support blocks 68 and the left moving block 63.

A material supplementing pipe 71 is arranged on the inner side of the rear part of the paint box 2, a rotating block 72 is arranged on the rear side of the first rotating rod 62 on the rear side, a valve 73 is arranged on the inner side of the material supplementing pipe 71 in a sliding mode, a fourth compression spring 74 is wound on the valve 73, and the fourth compression spring 74 is connected between the material supplementing pipe 71 and the valve 73.

A fixed frame 81 is arranged on the first bracket 31 at the front side of the right part, two friction rods 82 are arranged on the inner side of the fixed frame 81 in a sliding mode, the two friction rods 82 are symmetrical, the friction rods 82 are matched with the second rotating shaft 34 at the right side, a fifth compression spring 83 is wound on the friction rods 82, and the fifth compression spring 83 is connected between the friction rods 82 and the fixed frame 81.

When people need to dye cloth, firstly people pour dye into the pigment box 2, then people enable the cloth to wind the rotating mechanism 3 and enable the cloth to pass between the dye mechanism 4 and the pigment box 2, then people enable the rotating mechanism 3 and the dye mechanism 4 to operate, the dye mechanism 4 enables part of the cloth to be soaked in the pigment box 2, the rotating mechanism 3 enables the cloth to enter the dye and then move out of the dye, at the moment, the color of the dye is attached to the cloth, the purpose of dyeing is achieved, after the cloth finishes dyeing work, people enable the rotating mechanism 3 and the dye mechanism 4 to stop operating, then the cloth is taken out of the rotating mechanism 3, and if the equipment is used again, the steps are repeated.

The person manually slides the first right rotating shaft 33 out of the second right rotating shaft 34, simultaneously slides the first right rotating shaft 33 back in the first rear right bracket 31, then wraps a piece of undyed cloth on the first right rotating shaft 33, then pushes the first right rotating shaft 33 back to the original position, then pulls out the piece of cloth and makes the piece of cloth pass between the dye mechanism 4 and the paint box 2, then the person winds one end of the piece of cloth around the first rotating shaft 33, then starts the motor 32, rotates the output shaft of the motor 32 to drive the second left rotating shaft 34 to rotate clockwise, further rotates the first left rotating shaft 33 and the cam 35 to rotate clockwise, rotates the first left rotating shaft 33 to move the piece of cloth to the left, then winds the dyed piece of cloth, further rotates the piece of cloth and discharges the undyed piece of cloth, thereby rotating the first right rotating shaft 33, further rotates the second right rotating shaft 34, after the piece of cloth is dyed, the person turns off the motor 32, stops the rotation of the first left rotating shaft 33 and then slides the first left rotating shaft 33 back to the dyed piece of cloth.

After the cloth is placed, a user manually presses the first connecting rod 44 downwards, the first connecting rod 44 moves to enable the lower pressing rod 42 to slide downwards in the second support 41, the first compression spring 43 is changed from an initial state to a compression state, the lower pressing rod 42 moves to enable the roller 45 to move downwards, the roller 45 moves downwards to enable part of the cloth to be immersed into the dye in the dye box 2, the dyeing purpose is achieved, when the cloth moves, the cloth is in contact with the roller 45 and generates friction, the roller 45 rotates due to friction force, the cloth can be dyed uniformly, after the cloth dyeing work is completed, the user loosens the first connecting rod 44, the first compression spring 43 is reset from the compression state, and the elastic force enables the first connecting rod 44 and the roller 45 to move back to the original position.

When the cam 35 rotates to contact with the push rod 53, the cam 35 rotates clockwise to enable the push rod 53 to slide rightwards in the third bracket 51, so that the first connecting rod 44 moves downwards, the roller 45 presses part of the cloth into the dye, in addition, the push rod 53 moves to enable the lock rod 56 to slide rightwards in the fourth bracket 52, the second compression spring 54 changes from an initial state to a compressed state, the lock rod 56 moves rightwards to enable the fixture block 55 to slide upwards in the fourth bracket 52, when the lock rod 56 is separated from the fixture block 55, the fixture block 55 moves back to the original position due to gravity, so that the lock rod 56 and the push rod 53 are prevented from returning to the original position, the effect of continuous pressing is achieved, after the cloth dyeing work is completed, the cam 35 stops rotating, the fixture block 55 is pulled upwards manually by people, the second compression spring 54 returns from the compressed state, the elastic force enables the lock rod 56 and the push rod 53 to return to the original position, the fixture block 55 is released again, the fixture block 55 returns to the original position due to gravity, and the first compression spring 43 enables the first connecting rod 44 and the roller 45 to return to the original position.

When the cloth passes between the two squeezing rods 65, when the lower pressing rod 42 moves downwards, the lower pressing rod 42 can enable the right moving block 63 to slide downwards in the second bracket 41, and further enable the right second rotating rod 64 to rotate downwards, so that the first rotating rod 62 rotates, and further enable the left second rotating rod 64 to rotate upwards, the left second rotating rod 64 rotates, so that the left moving block 63 slides upwards in the supporting block 68, and further enable the lower squeezing rod 65 to move upwards, and enable the guide rod 66 to slide upwards in the supporting block 68, the third compression spring 67 is changed from an initial state to a compressed state, then the squeezing rods 65 on the upper side and the lower side are matched with each other, and meanwhile, the cloth moves leftwards, so that redundant dye on the cloth is squeezed out, the redundant dye falls into the box 2 due to gravity, so that the surface of the cloth can be uniformly dyed, the dye can be fully used, unnecessary waste is reduced, when the lower pressing rod 42 moves back to the original position, the third compression spring 67 is reset from the compressed state, so that the squeezing rods 65 on the lower side is in the original position, and simultaneously the first rotating rod 62 and the moving block 63 are reset.

When the first rotating rod 62 on the rear side rotates, the first rotating rod 62 on the rear side drives the rotating block 72 to rotate, when the rotating block 72 rotates to be in contact with the valve 73, the valve 73 slides upwards in the material supplementing pipe 71 through the rotating block 72, the fourth compression spring 74 is changed from an initial state to a compressed state, the dye in the material supplementing pipe 71 is in a flowing state at the moment, the dye in the pigment box 2 is supplemented, and therefore the automatic material supplementing effect is achieved.

Because the friction lever 82 is matched with the second rotating shaft 34 on the right side, the fifth compression spring 83 is in a compression state, the elastic force of the fifth compression spring 83 can enable the friction lever 82 to be better contacted with the second rotating shaft 34 on the right side, when the second rotating shaft 34 on the right side rotates, the friction lever 82 is contacted with the second rotating shaft 34 on the right side and generates friction, the friction force can prevent the second rotating shaft 34 on the right side from rotating too fast, further can prevent the first rotating shaft 33 on the right side from rotating too fast, further can prevent an undyed cloth roll from rotating too fast and releasing too much cloth at one time, and thus the condition that the cloth is not uniformly dyed can be reduced.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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. An automatic dyeing device for cloth for spinning comprises a base (1) and a pigment box (2), and is characterized in that the pigment box (2) is arranged at the top of the base (1), a rotating mechanism (3) is arranged on the pigment box (2), and a dye mechanism (4) is arranged on the pigment box (2);

the rotating mechanism (3) comprises a first support (31), a motor (32), a first rotating shaft (33), a second rotating shaft (34) and a cam (35), four first supports (31) are arranged on the pigment box (2), the motor (32) is installed on the pigment box (2), the second rotating shaft (34) is rotatably arranged on the inner sides of the upper parts of the two first supports (31) on one side close to the motor (32), the second rotating shaft (34) on one side is connected with an output shaft of the motor (32), the first rotating shaft (33) is connected between the two first supports (31) on one side far away from the motor (32) and the second rotating shaft (34) in a sliding mode, and the cam (35) is arranged on the second rotating shaft (34) on one side close to the motor (32);

the dye mechanism (4) comprises second supports (41), lower compression rods (42), first compression springs (43), first connecting rods (44) and rollers (45), two second supports (41) are arranged on the pigment box (2), lower compression rods (42) are arranged on the inner sides of the two second supports (41) in a sliding mode, the first compression springs (43) are wound on the lower compression rods (42), the first compression springs (43) are connected between the second supports (41) and the lower compression rods (42), the first connecting rods (44) are connected between the upper portions of the two lower compression rods (42), and the rollers (45) are rotatably connected between the lower portions of the two lower compression rods (42);

a third support (51) is arranged on the pigment box (2), a fourth support (52) is arranged on the pigment box (2), a push rod (53) is arranged on the inner side of the upper portion of the third support (51) in a sliding mode, the push rod (53) is matched with a first connecting rod (44), a lock rod (56) is arranged on the push rod (53), the lock rod (56) is connected with the fourth support (52) in a sliding mode, a second compression spring (54) is wound on the lock rod (56), the second compression spring (54) is connected between the fourth support (52) and the lock rod (56), a clamping block (55) is arranged on the inner side of the upper portion of the fourth support (52) in a sliding mode, and the clamping block (55) is matched with the lock rod (56);

two fifth brackets (61) are arranged on the pigment box (2), a first rotating rod (62) is rotatably arranged on the inner side of each fifth bracket (61), supporting blocks (68) are respectively arranged on the two second brackets (41), moving blocks (63) are respectively arranged on the two lower pressing rods (42) and the inner sides of the two supporting blocks (68), two moving blocks (63) on one side far away from the first connecting rod (44) are slidably connected with the supporting blocks (68), two moving blocks (63) on one side close to the first connecting rod (44) are slidably connected with the second brackets (41), a second rotating rod (64) is respectively connected between the two adjacent moving blocks (63) and the first rotating rod (62), the second rotating rod (64) is rotatably connected with the moving blocks (63), extrusion rods (65) are respectively connected between the upper parts of the two supporting blocks (68) and between the moving blocks (63) on one side far away from the first connecting rod (44), the extrusion rods (65) on the upper side and the lower side are mutually matched, guide rods (66) are respectively arranged on the tops of the two moving blocks (63) on one side far away from the first connecting rod (44), a compression spring is wound on the supporting blocks (66), and a compression spring (67), a third compression spring (67) is connected between the support block (68) and the moving block (63) on the side away from the first connecting rod (44).

2. The automatic dyeing equipment for the cloth for spinning as claimed in claim 1, characterized in that the inside of the color box (2) is provided with a material supplementing pipe (71), the first rotating rod (62) near one side of the material supplementing pipe (71) is provided with a rotating block (72), the inside of the material supplementing pipe (71) is slidably provided with a valve (73), the valve (73) is wound with a fourth compression spring (74), and the fourth compression spring (74) is connected between the material supplementing pipe (71) and the valve (73).

3. An automatic dyeing device for cloth for textile use according to claim 2, characterized in that a fixed frame (81) is provided on the first bracket (31) closest to the side of the fourth bracket (52), two friction rods (82) are slidably provided inside the fixed frame (81), the two friction rods (82) are symmetrical, the friction rods (82) are engaged with the second rotating shaft (34) closest to the side of the fixed frame (81), a fifth compression spring (83) is wound on the friction rods (82), and the fifth compression spring (83) is connected between the friction rods (82) and the fixed frame (81).

4. An automatic dyeing device for textile pieces of cloth according to claim 3, characterized in that the material of the fixing frame (81) is an alloy.