CN210194204U - Weaving cloth coloring mechanism - Google Patents

Abstract

The utility model provides a weaving cloth coloring mechanism, including electrical control cabinet, steam mechanism, dyeing case, cloth roller, first filter cloth mechanism, second filter cloth mechanism, cloth inlet and cloth outlet, the utility model discloses the setting of steam mechanism, steam not only can carry out pasteurization to weaving cloth, can also make weaving cloth contain the hydrone, increases weaving cloth to the absorption velocity of pigment, and the weaving cloth of being heated can increase the kinematic strength of molecule in the pigment moreover, has better coloring effect; the first filter cloth mechanism is arranged, the textile cloth after being dip-dyed with the pigment enters the filter cloth roller, the rotating motor drives the filter cloth roller to reversely rotate through the gear to roll the textile cloth, the pigment is pressed into the textile cloth, the adsorption effect of the textile cloth is enhanced, and gas molecules in the textile cloth are rolled out, so that the absorption effect of dip-dyeing is facilitated again; and the second filter cloth mechanism is arranged to extrude redundant pigment, so that the coloring uniformity of the woven cloth is ensured.

Description

Weaving cloth coloring mechanism

Technical Field

The utility model belongs to the technical field of dye on weaving, especially, relate to a weaving cloth dyeing mechanism.

Background

The weaving principle is a general name taken from spinning and weaving, but with the continuous development and perfection of a weaving knowledge system and a subject system, particularly after non-woven textile materials, three-dimensional compound weaving and other technologies are produced, the current weaving is not only the traditional hand-made spinning and weaving, but also clothing textiles, industrial textiles and decorative textiles produced by non-woven fabric technology, modern three-dimensional weaving technology, modern electrostatic nano-web technology and the like, so the modern weaving refers to a multi-scale structure processing technology of fibers or fiber aggregates.

The invention discloses a dyeing device for textile cloth, which is named as CN 207738979U and comprises a base, wherein the top of the base is fixedly connected with a box body and a water pump from left to right, the inner cavity of the box body is transversely and fixedly connected with a slide bar and a filter plate from top to bottom, the surface of the slide bar is sleeved with a slide sleeve, the bottom of the slide sleeve is fixedly connected with a communicating pipe, and the bottom of the inner cavity of the box body is fixedly connected with a dyeing box. But present weaving dyeing apparatus for cloth still has the pure utilization and sprays the technique and color weaving cloth, and the effect of coloring is poor, and the color and luster is inhomogeneous, and dry weaving cloth infiltration effect is poor moreover, can only realize the single face and color, and the consistency is different according to pigment can lead to the phenomenon that the shower blockked up to and the problem of the inefficiency of coloring.

Therefore, the invention of a textile cloth coloring mechanism is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a weaving cloth mechanism of coloring to solve current weaving cloth and still having the simple utilization of the dyeing apparatus and spraying the technique and color the weaving cloth, the effect of coloring is poor, and the color and luster is inhomogeneous, and dry weaving cloth infiltration effect is poor moreover, can only realize the single face and color, can lead to the phenomenon that the shower blockked up according to the consistency of pigment is different, and color the problem of inefficiency. A textile cloth coloring mechanism comprises an electrical control cabinet, a steam mechanism, a dyeing box, a cloth feeding roller, a first filter cloth mechanism, a second filter cloth mechanism, a cloth inlet and a cloth outlet, wherein the steam mechanism is connected with the electrical control cabinet through a lead; the dyeing box is arranged on one side of the steam mechanism; a plurality of cloth feeding rollers are embedded in the dyeing box; the first filter cloth mechanism and the second filter cloth mechanism are both connected with the dyeing box through bolts and are connected with the electrical control cabinet through wires; the cloth inlet and the cloth outlet are respectively arranged at two ends of the dyeing box.

The steam mechanism comprises a steam generator, a steam pipe, a mounting plate, a housing, an optical axis, an interlayer cavity and a steam outlet, and the steam generator is connected with the electric control cabinet through a lead; the mounting plate is mounted above the steam generator through a bolt; two ends of the steam pipe are respectively connected with the steam hair generator and the interlayer cavity; the housing is externally arranged into a rectangular shape, is internally arranged into a semicircular shape, and is arranged on one side of the mounting plate through a bolt.

The interlayer cavity is semicircular and is arranged in the housing; the steam outlets are multiple and are formed along the inner wall of the interlayer cavity; the optical axis adopts a plurality ofly, all passes through the bearing with the mounting panel and is connected, can improve the stifling effect of weaving cloth, contains the hydrone in making weaving cloth, increases weaving cloth to the absorption rate of pigment, reaches the purpose of coloring fast.

The hair growing device of steam specifically adopts LDR type industrial steam generator, and the steam that the hair growing device of steam produced not only can carry out pasteurization to weaving cloth, and the weaving cloth that is heated moreover can increase the motion intensity of molecule in the pigment, has better effect of coloring.

The first filter cloth mechanism and the second filter cloth mechanism are arranged by the same mechanism; the first filter cloth mechanism comprises a rotary motor, a gear and a filter cloth roller, and the rotary motor is installed on the outer side of the dyeing box through a bolt and is connected with the electric control cabinet through a lead; the number of the gears is 2, the gears are embedded at one end of the cloth filtering roller and are meshed with each other; the number of the filter cloth rollers is 2, two ends of each filter cloth roller are connected with the dyeing box through bearings, and one end of each filter cloth roller penetrates through the outer side of the dyeing box; and protective covers are arranged outside the rotating motor and the gear.

The rotating motor is particularly in a 3I/RK15A-C type.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses the setting of steam mechanism, at first get into the housing through the optical axis before weaving cloth gets into the dyeing case inside, steam grows the ware and produces steam and gets into the intermediate layer intracavity through the steam pipe, then fumigate dry weaving cloth through steam outlet, steam not only can carry out pasteurization to weaving cloth, can also make to contain the hydrone in the weaving cloth, increase weaving cloth to the absorption rate of pigment, the weaving cloth that is heated moreover can increase the kinematic strength of molecule in the pigment, better effect of coloring has.

2. The utility model discloses the setting of first filter cloth mechanism, weaving cloth after the dip-dyeing pigment gets into the filter cloth roller, and the rotating electrical machines drives the reverse operation of filter cloth roller through the gear and rolls weaving cloth, impresses pigment inside the weaving cloth, strengthens the adsorption effect of weaving cloth to grind out the gas molecule in the weaving cloth, so that the absorption effect of dip-dyeing once more.

3. The utility model discloses the setting of second filter cloth mechanism, through the extrusion of first filter cloth mechanism to weaving cloth and secondary dip-dye back, second filter cloth mechanism carries out the filter cloth to weaving cloth, extrudes unnecessary pigment, guarantees weaving cloth's the homogeneity of coloring.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the steam mechanism of the present invention.

Fig. 3 is a B-B sectional view of the present invention.

Fig. 4 is a sectional view taken along line a-a of the present invention.

Fig. 5 is a schematic structural view of the first filter cloth mechanism of the present invention.

In the figure:

1-an electrical control cabinet, 2-a steam mechanism, 21-a steam generator, 22-a steam pipe, 23-a mounting plate, 24-a housing, 25-an optical axis, 26-a sandwich cavity, 27-a steam outlet, 3-a dyeing box, 4-a cloth roller, 5-a first filter cloth mechanism, 51-a rotating motor, 52-a gear, 53-a filter cloth roller, 6-a second filter cloth mechanism, 7-a cloth inlet and 8-a cloth outlet.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 5

The utility model provides a textile cloth coloring mechanism, which comprises an electrical control cabinet 1, a steam mechanism 2, a dyeing box 3, a cloth feeding roller 4, a first filter cloth mechanism 5, a second filter cloth mechanism 6, a cloth inlet 7 and a cloth outlet 8, wherein the steam mechanism 2 is connected with the electrical control cabinet 1 through a wire; the dyeing box 3 is arranged on one side of the steam mechanism 2; a plurality of cloth feeding rollers 4 are embedded in the dyeing box 3; the first filter cloth mechanism 5 and the second filter cloth mechanism 6 are both connected with the dyeing box 3 through bolts and are connected with the electrical control cabinet 1 through wires; the cloth inlet 7 and the cloth outlet 8 are respectively arranged at two ends of the dyeing box 3.

The steam mechanism 2 comprises a steam generator 21, a steam pipe 22, a mounting plate 23, a housing 24, an optical axis 25, an interlayer cavity 26 and a steam outlet 27, and the steam generator 21 is connected with the electric control cabinet 1 through a lead; the mounting plate 23 is mounted above the steam generator 21 through bolts; two ends of the steam pipe 22 are respectively connected with the steam generator 21 and the interlayer cavity 26; the housing 24 is rectangular outside and semicircular inside, and is mounted on one side of the mounting plate 23 by bolts.

The interlayer cavity 26 is semicircular and is arranged inside the housing 24; a plurality of steam outlets 27 are formed along the inner wall of the interlayer cavity 26; optical axis 25 adopts a plurality ofly, all passes through the bearing with mounting panel 23 and is connected, can improve the stifling effect of weaving cloth, contains the hydrone in the messenger weaving cloth, increases the absorption rate of weaving cloth to pigment, reaches the purpose of coloring fast.

The ware 21 is grown to steam specifically adopts LDR type industrial steam generator, and the steam that the ware 21 was grown to steam produced not only can carry out pasteurization to weaving cloth, and the weaving cloth that is heated moreover can increase the motion strength of molecule in the pigment, has better effect of coloring.

The first filter cloth mechanism 5 and the second filter cloth mechanism 6 are arranged by adopting the same mechanism; the first filter cloth mechanism 5 comprises a rotary motor 51, a gear 52 and a filter cloth roller 53, wherein the rotary motor 51 is installed on the outer side of the dyeing box 3 through bolts and is connected with the electric control cabinet 1 through a lead; 2 gears 52 are arranged and are embedded at one end of the cloth filter roller 53 and are meshed with each other; the number of the cloth filtering rollers 53 is 2, two ends of each cloth filtering roller are connected with the dyeing box 3 through bearings, and one end of each cloth filtering roller penetrates through the outer side of the dyeing box 3; a protective cover is provided outside the rotating electric machine 51 and the gear 52.

The rotating motor 51 is specifically of a 3I/RK15A-C type.

Principle of operation

In the utility model, before textile fabric enters into dyeing box 3, firstly, the textile fabric enters into housing 24 through optical axis 25, steam generator 21 generates steam which enters into interlayer cavity 26 through steam pipe 22, then dry textile fabric is fumigated through steam outlet 27, steam not only can carry out high-temperature sterilization to textile fabric, but also can make textile fabric contain water molecules, increase the absorption speed of textile fabric to pigment, and heated textile fabric can increase the movement intensity of molecules in pigment, and has better coloring effect, textile fabric after dyeing pigment enters into filter cloth roller 53, rotating motor 51 drives filter cloth roller 53 to reversely rotate through gear 52 to roll textile fabric, press pigment into textile fabric, enhance the adsorption effect of textile fabric, and roll out gas molecules in the textile fabric, so as to be convenient for the absorption effect of dyeing again, after the extrusion and secondary dyeing of textile fabric through first filter cloth mechanism 5, the second filter cloth mechanism carries out filter cloth to the weaving cloth, extrudes redundant pigment, guarantees weaving cloth's homogeneity of coloring.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (6)

1. The utility model provides a weaving cloth coloring mechanism which characterized in that: the dyeing machine comprises an electrical control cabinet (1), a steam mechanism (2), a dyeing box (3), a cloth feeding roller (4), a first cloth filtering mechanism (5), a second cloth filtering mechanism (6), a cloth inlet (7) and a cloth outlet (8), wherein the steam mechanism (2) is connected with the electrical control cabinet (1) through a lead; the dyeing box (3) is arranged on one side of the steam mechanism (2); a plurality of cloth feeding rollers (4) are embedded in the dyeing box (3); the first filter cloth mechanism (5) and the second filter cloth mechanism (6) are both connected with the dyeing box (3) through bolts and are connected with the electrical control cabinet (1) through wires; the cloth inlet (7) and the cloth outlet (8) are respectively arranged at two ends of the dyeing box (3).

2. The woven cloth coloring mechanism according to claim 1, characterized in that: the steam mechanism (2) comprises a steam generator (21), a steam pipe (22), a mounting plate (23), a housing (24), an optical axis (25), a sandwich cavity (26) and a steam outlet (27), and the steam generator (21) is connected with the electric control cabinet (1) through a lead; the mounting plate (23) is mounted above the steam generator (21) through a bolt; two ends of the steam pipe (22) are respectively connected with the steam generator (21) and the interlayer cavity (26); the outer portion of the cover shell (24) is rectangular, the inner portion of the cover shell is semicircular, and the cover shell is installed on one side of the installation plate (23) through bolts.

3. The woven cloth coloring mechanism according to claim 2, characterized in that: the interlayer cavity (26) is semicircular and is arranged in the housing (24); a plurality of steam outlets (27) are formed along the inner wall of the interlayer cavity (26); the optical axis (25) is multiple and is connected with the mounting plate (23) through a bearing.

4. The woven cloth coloring mechanism according to claim 2, characterized in that: the steam generator (21) is an LDR type industrial steam generator.

5. The woven cloth coloring mechanism according to claim 1, characterized in that: the first filter cloth mechanism (5) and the second filter cloth mechanism (6) are arranged by adopting the same mechanism; the first filter cloth mechanism (5) comprises a rotating motor (51), a gear (52) and a filter cloth roller (53), wherein the rotating motor (51) is installed on the outer side of the dyeing box (3) through a bolt and is connected with the electric control cabinet (1) through a lead; 2 gears (52) are arranged and are embedded at one end of the cloth filter roll (53) and meshed with each other; 2 cloth filtering rollers (53) are adopted, two ends of each cloth filtering roller are connected with the dyeing box (3) through bearings, and one end of each cloth filtering roller penetrates through the outer side of the dyeing box (3); and a protective cover is arranged outside the rotating motor (51) and the gear (52).

6. The woven cloth coloring mechanism according to claim 5, characterized in that: the rotating motor (51) is specifically in a 3I/RK15A-C type.

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