CN210420492U - Fabric rinsing device of continuity - Google Patents

Abstract

The utility model provides a surface fabric rinsing device of continuity belongs to mechanical technical field. This surface fabric rinsing device of continuity, which comprises a frame, the frame both sides are provided with the feeding mechanism who is used for the propelling movement cloth and the winding mechanism who is used for the rolling cloth, be provided with the potcher in the frame, the leading wheel has set gradually in the potcher, auxiliary wheel one, the auxiliary block, flattening and dehydrating pulley, it forms the flat passageway to flatten between piece and the potcher ground, rinsing mechanism includes step motor, the oscillating axle, connecting piece one, a plurality of contact shafts and connecting piece two, step motor fixes on the potcher, the oscillating axle is fixed on step motor's output shaft, connecting piece one end links to each other with the oscillating axle, connecting piece one end is fixed with the contact shaft, connecting piece two is fixed at the contact shaft end, form the auxiliary channel that supplies the surface fabric to pass through between the adjacent contact shaft, the utility model has the characteristics of rinsing is efficient.

Description

Fabric rinsing device of continuity

Technical Field

The utility model belongs to the technical field of machinery, a surface fabric rinsing device of rinsing device, especially a continuity is related to.

Background

The fabric is used for manufacturing the material of the clothes, is one of three elements of the clothes, and not only can explain the style and the characteristics of the clothes, but also directly controls the expression effects of the color and the shape of the clothes. The fabric is subjected to singeing, desizing, dyeing and rinsing from the original fabric to the finished product, the singeing aims at burning off the fluff on the fabric surface to ensure that the fabric surface is smooth and beautiful, and prevent uneven dyeing and printing defects caused by the existence of fluff during dyeing and printing, desizing aims to smooth the woven fabric, sizing is carried out on the warp yarns to improve the strength and the wear resistance, but the sizing agent on the grey cloth influences the water absorption performance of the fabric and also influences the quality of dyeing and finishing products, therefore, the size is removed through desizing, the dyeing is to dye the cloth through pad dyeing, jig dyeing or high-temperature high-pressure dyeing and other means, after dyeing, impurities contained in the natural fiber are removed by rinsing, and in the processes of textile processing and dyeing, dirt of various sizing agents, oil agents and dyes and the like are added, the rinsing efficiency is low, and the effect is poor, so that the design of a continuous fabric rinsing device is necessary.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provided a surface fabric rinsing device of continuity, this rinsing device has the efficient characteristics of rinsing.

The purpose of the utility model can be realized by the following technical proposal: a continuous fabric rinsing device comprises a rack and is characterized in that a feeding mechanism used for pushing cloth and a rolling mechanism used for rolling the cloth are arranged on two sides of the rack, a rinsing tank is arranged on the rack, a guide wheel, an auxiliary wheel I, an auxiliary block, a flattening piece and a dewatering wheel are sequentially arranged in the rinsing tank, the flattening piece is fixed on the rinsing tank through a fixing piece I and a fixing piece II, a flattening channel is formed between the flattening piece and the bottom surface of the rinsing tank, a plurality of rinsing mechanisms used for accelerating rinsing are arranged between the guide wheel and the auxiliary wheel I, the dewatering wheel is fixed at the upper end of the rinsing tank and used for dewatering the cloth, the rinsing mechanism comprises a stepping motor, a swinging shaft, a connecting piece I, a plurality of contact shafts and a connecting piece II, the stepping motor is fixed on the rinsing tank, the swinging shaft is fixed on an output shaft of the stepping motor, one end of the, and a contact shaft is fixed at the other end of the connecting piece, a second connecting piece is fixed at the tail end of the contact shaft, and an auxiliary channel for the fabric to pass through is formed between the adjacent contact shafts.

The utility model discloses a theory of operation is down: the feeding mechanism pushes the cloth into the rinsing groove, the cloth enters an auxiliary channel between contact shafts after passing through the guide wheel, the stepping motor reciprocates through a swinging shaft and a connecting piece to drive the contact shafts to reciprocate, the contact shafts drive the cloth to reciprocate and simultaneously drive the water solution to move, the rinsing speed is accelerated, the rinsed cloth sequentially passes through a first auxiliary wheel and an auxiliary block and enters a flattening channel formed between a flattening piece and the ground of the rinsing groove, the flattening piece flattens the cloth, the cloth is dewatered through the dewatering wheel, and then the cloth which is rinsed is wound by the winding mechanism, so that the automatic rinsing of the cloth can be realized.

The feeding mechanism comprises a first support, a first rotating shaft, a first conveying wheel set and a second auxiliary wheel, the first support is arranged on one side of the frame, the first rotating shaft is arranged on the first support in a rolling mode, and the fabric roll is arranged on the first rotating shaft and sequentially passes through the first conveying wheel set and the second auxiliary wheel.

The winding mechanism comprises a second support, a second rotating shaft and a second conveying wheel set, the second support is arranged on the other side of the rack, the second rotating shaft is arranged on the second support in a rolling mode, and the cloth sequentially passes through the dewatering wheel and the second conveying wheel set and returns to the second rotating shaft.

The flattening piece is V-shaped.

By adopting the structure, the flattening piece is designed in a V shape, and a flattening channel formed between the flattening piece and the ground of the rinsing groove narrows along the conveying direction of the cloth, so that the cloth can be flattened and partial moisture in the cloth can be extruded at the same time.

Compared with the prior art, this surface fabric rinsing device of continuity passes through feeding mechanism with cloth propelling movement to the potcher in, the cloth passes through the leading wheel and then gets into the auxiliary passage between the contact shaft, step motor reciprocating motion drives the reciprocating motion of contact shaft through oscillating axle and connecting piece, the contact shaft drives cloth reciprocating motion, drive the motion of aqueous solution simultaneously, accelerate rinsing speed, the cloth after rinsing loops through auxiliary wheel one and supplementary piece again, get into the flat passageway of flattening that forms between flattening piece and the potcher ground, flattening piece flattens the cloth, the cloth passes through the dehydration wheel dehydration back, winding mechanism rolls the cloth that the rinsing was accomplished again, can realize automatic rinsing cloth, the efficient advantage of rinsing has.

Drawings

Fig. 1 is a schematic cross-sectional view of the present invention.

Fig. 2 is a schematic plan view of the rinsing mechanism of the present invention.

Figure 3 is a schematic plan view of the flattening element according to the invention.

In the figure, 1, a frame; 2. a rinsing tank; 3. a guide wheel; 4. a first auxiliary wheel; 5. an auxiliary block; 6. flattening the workpiece; 7. a first fixing part; 8. a second fixing part; 9. a stepping motor; 10. A swing shaft; 11. a first connecting piece; 12. a contact shaft; 13. a second connecting piece; 14. a first bracket; 15. a first rotating shaft; 16. a first conveying wheel set; 17. a second auxiliary wheel; 18. a second bracket; 19. a second rotating shaft; 20. a second conveying wheel set; 21. and (4) a dewatering wheel.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 3, a continuous fabric rinsing device includes a frame 1, in this embodiment, a feeding mechanism for pushing a fabric and a winding mechanism for winding the fabric are disposed on two sides of the frame 1, a rinsing tank 2 is disposed on the frame 1, a guide wheel 3, a first auxiliary wheel 4, an auxiliary block 5, a pressing member 6 and a dewatering wheel 21 are sequentially disposed in the rinsing tank 2, the pressing member 6 is fixed on the rinsing tank 2 through a first fixing member 7 and a second fixing member 8, a pressing channel is formed between the pressing member 6 and the ground of the rinsing tank 2, a plurality of rinsing mechanisms for accelerating rinsing are disposed between the guide wheel 3 and the first auxiliary wheel 4, in this embodiment, the number of the rinsing mechanisms is four, the dewatering wheel 21 fixes the upper end of the rinsing tank 2, the dewatering wheel 21 is used for dewatering the fabric, and the rinsing mechanism includes a stepping motor 9, a swing shaft 10, a first connecting member 11, a second connecting member, The number of the contact shafts 12 is four, the stepping motor 9 is fixed on the rinsing tank 2, the swing shaft 10 is fixed on an output shaft of the stepping motor 9, one end of the first connecting piece 11 is connected with the swing shaft 10, the other end of the first connecting piece 11 is fixed with the contact shafts 12, the second connecting piece 13 is fixed at the tail end of the contact shafts 12, and an auxiliary channel for fabric to pass through is formed between the adjacent contact shafts 12.

The feeding mechanism comprises a first support 14, a first rotating shaft 15, a first conveying wheel set 16 and a second auxiliary wheel 17, the first support 14 is arranged on one side of the rack 1, the first rotating shaft 15 is arranged on the first support 14 in a rolling mode, and the cloth roll is arranged on the first rotating shaft 15 and sequentially passes through the first conveying wheel set 16 and the second auxiliary wheel 17.

The winding mechanism comprises a second support 18, a second rotating shaft 19 and a second conveying wheel set 20, the second support 18 is arranged on the other side of the rack 1, and the second rotating shaft 19 is arranged on the second support 18 in a rolling mode. The cloth returns to the second rotating shaft 19 through the second dewatering wheel 21 and the second conveying wheel set 20 in sequence.

The flattening member 6 has a V-shape.

By adopting the structure, the flattening piece 6 is designed in a V shape, and a flattening channel formed between the flattening piece 6 and the bottom surface of the rinsing groove 2 narrows along the cloth conveying direction, so that the cloth can be flattened and partial moisture in the cloth can be extruded at the same time.

The utility model discloses a theory of operation is down: feeding mechanism pushes the cloth to the rinsing groove 2, the cloth enters an auxiliary channel between contact shafts 12 after passing through a guide wheel 3, a stepping motor 9 reciprocates to drive the contact shafts 12 to reciprocate through an oscillating shaft 10 and a connecting piece 11, the contact shafts 12 drive the cloth to reciprocate and simultaneously drive aqueous solution to move, the rinsing speed is accelerated, the rinsed cloth sequentially passes through an auxiliary wheel 4 and an auxiliary block 5 and enters a flattening channel formed between a flattening piece 6 and the ground of the rinsing groove 2, the flattening piece 6 flattens the cloth, and after the cloth is dehydrated through a dehydrating wheel 21, a winding mechanism winds the rinsed cloth, and the automatic rinsing cloth can be realized.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (4)

1. A continuous fabric rinsing device comprises a rack and is characterized in that a feeding mechanism used for pushing cloth and a rolling mechanism used for rolling the cloth are arranged on two sides of the rack, a rinsing tank is arranged on the rack, a guide wheel, an auxiliary wheel I, an auxiliary block, a flattening piece and a dewatering wheel are sequentially arranged in the rinsing tank, the flattening piece is fixed on the rinsing tank through a fixing piece I and a fixing piece II, a flattening channel is formed between the flattening piece and the bottom surface of the rinsing tank, a plurality of rinsing mechanisms used for accelerating rinsing are arranged between the guide wheel and the auxiliary wheel I, the dewatering wheel is fixed at the upper end of the rinsing tank and used for dewatering the cloth, the rinsing mechanism comprises a stepping motor, a swinging shaft, a connecting piece I, a plurality of contact shafts and a connecting piece II, the stepping motor is fixed on the rinsing tank, the swinging shaft is fixed on an output shaft of the stepping motor, one end of the, and a contact shaft is fixed at the other end of the connecting piece, a second connecting piece is fixed at the tail end of the contact shaft, and an auxiliary channel for the fabric to pass through is formed between the adjacent contact shafts.

2. The continuous fabric rinsing device according to claim 1, wherein the feeding mechanism comprises a first support, a first rotating shaft, a first conveying wheel set and a second auxiliary wheel, the first support is arranged on one side of the frame, the first rotating shaft is arranged on the first support in a rolling manner, and the fabric roll is arranged on the first rotating shaft and sequentially passes through the first conveying wheel set and the second auxiliary wheel.

3. The continuous fabric rinsing device according to claim 1, wherein the winding mechanism comprises a second support, a second rotating shaft and a second conveying wheel set, the second support is arranged on the other side of the rack, and the second rotating shaft is arranged on the second support in a rolling manner.

4. The continuous web rinsing device of claim 1 wherein said flattening member is V-shaped.

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