CN215163751U - Cloth guide pipe device - Google Patents

Abstract

A cloth guide tube device comprises a cloth guide cylinder body, a nozzle and a cloth guide tube; one end of the cloth guide cylinder body is connected with a nozzle in a downward mode, the nozzle is connected with a cloth guide pipe, the cloth guide pipe is connected with the other end of the cloth guide cylinder body in an upward mode, and the cloth guide cylinder body, the nozzle and the cloth guide pipe form a circulation loop; the vortex-proof inner pipe, the water filtering cloth guiding inner pipe and the variable cross-section cloth running pipe are embedded in the cloth guiding pipe and are sequentially connected; the vortex breaking part is arranged on the inner wall of the vortex preventing inner pipe in a protruding mode and extends from one end of the vortex preventing inner pipe to the other end of the vortex preventing inner pipe; the pipe body of the water filtering and cloth guiding inner pipe is of a polygonal tubular structure; the variable cross-section cloth running pipe is changed from a circular cross section at two end parts into an approximately elliptical cross section at the middle part. The utility model discloses a setting up vortex-proof inner tube, drainage guide cloth inner tube and variable cross section walk the stringing, solve the fabric because of beating to turn round and produce crease, colored flower, fold and turn-up scheduling problem to constantly change the fabric state in the guide cloth pipe, carry out latitudinal direction extension to the fabric, release fabric internal stress improves the dyeing quality of fabric.

Description

Cloth guide pipe device

Technical Field

The utility model relates to a dyeing machine technical field especially relates to a cloth guide tube device.

Background

In the dyeing process of the fabric in the dyeing machine, the fabric generally carries out continuous circular motion of a loop structure formed by a cloth lifting wheel, a nozzle, a cloth guide pipe and a cloth storage groove so as to achieve the purpose of continuous dyeing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to the defect in the background art, provide a cloth guide pipe device, through setting up vortex-proof inner tube, drainage cloth guide inner tube and variable cross section walk the stringing, solve the fabric and produce phenomenons such as crease, colored flower, fold and turn-up, improve the dyeing quality of fabric.

In order to solve the above problem, the utility model discloses realize according to following technical scheme:

the utility model relates to a cloth guide pipe device, which comprises a cloth guide cylinder body, a nozzle and a cloth guide pipe;

one end of the cloth guide cylinder body is connected with the nozzle in a downward mode, the nozzle is connected with the cloth guide pipe, the cloth guide pipe is connected with the other end of the cloth guide cylinder body in an upward mode, and the cloth guide cylinder body, the nozzle and the cloth guide pipe form a circulation loop;

a vortex-proof inner pipe, a water filtering and cloth guiding inner pipe and a variable cross-section cloth running pipe are embedded in the cloth guiding pipe and are sequentially connected;

the vortex breaking part extends from one end part of the vortex preventing inner pipe to the other end part, and the extending direction of the vortex breaking part is parallel to the water inlet direction;

the pipe body of the water filtering and cloth guiding inner pipe is of a polygonal tubular structure;

the variable cross-section cloth running pipe is gradually narrowed from the circular cross sections at the two end parts to the elliptical cross section in the middle part.

Preferably, the vortex breaking portion forms a cone structure protruding from the inner wall of the vortex-preventing inner tube, the cone tip of the cone structure faces the center of the vortex-preventing inner tube, the cone structure is in arc transition with the inner wall of the vortex-preventing inner tube, and the cone tip of the cone structure is provided with an arc surface.

Preferably, the pipe body of the vortex-proof inner pipe is inwards recessed to form a water passing groove;

the interior of the cone structure of the vortex breaking part is hollow and is communicated with the water passing groove.

Preferably, the vortex breaking parts are provided with a plurality of groups, and the conical tips between every two vortex breaking parts are arranged oppositely.

Preferably, the cross-sectional area of the inlet end of the water filtering and cloth guiding inner pipe is larger than that of the pipe body of the water filtering and cloth guiding inner pipe;

the inlet end of the water filtering and cloth guiding inner pipe is obliquely connected with the pipe body of the water filtering and cloth guiding inner pipe.

Preferably, the pipe body of the water filtering and cloth guiding inner pipe narrows from two sides to the middle part along one direction.

Preferably, the water filtering and cloth guiding inner tube is embedded in the tube body of the cloth guiding tube.

Preferably, the variable cross-section routing pipe comprises a water inlet end, a variable cross-section end and a water outlet end, and the cross sections of the water inlet end and the water outlet end are gradually changed from circular cross sections into elliptical cross sections of the variable cross-section end.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model arranges the vortex-proof inner pipe at the connecting water inlet of the nozzle and the cloth guide pipe, the vortex-proof inner pipe is nested in the cloth guide pipe, and the structural design of the vortex breaking part is utilized to prevent the fabric from generating a vortex when water flows through the nozzle so as to prevent the fabric from generating a twisting phenomenon along with the water flow, thereby avoiding the dyeing quality problems of crease marks, color flowers and the like caused by twisting;

2. the utility model arranges the water filtering and cloth guiding inner pipe on the cloth guiding pipe device, and utilizes the tubular pipe body of the polygonal structure of the water filtering and cloth guiding inner pipe to ensure that the dye liquor is not easy to form a vortex, thereby avoiding the phenomena of twisting, folding or curling of the fabric under the impact of the dye liquor and improving the dyeing quality of the fabric;

3. the utility model discloses a set up the variable cross section and walk the stringing, utilize the variable cross section to walk the change of stringing cross section shape, prevent that the dye liquor from producing the swirl in the cloth guide tube, make the fabric constantly change the state in the variable cross section walks the stringing to carry out latitudinal direction extension to the fabric, release fabric internal stress, solve the problem that the higher and closely high fabric of spandex produces the crease easily, improve the dyeing quality.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only the embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts. Wherein:

fig. 1 is a schematic structural view of a cloth guide tube device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a vortex-preventing inner tube according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of the vortex breaker inner tube and the cloth guide tube of an embodiment of the present invention;

fig. 4 is a schematic structural view of a water filtration cloth guide inner tube according to an embodiment of the present invention;

fig. 5 is a schematic cross-sectional view of an inner tube of a water filtration cloth guide according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a variable cross-section distribution pipe according to an embodiment of the present invention.

Wherein: the cloth guide device comprises a cloth guide cylinder body 1, a cloth lifting roller 11, a nozzle 2, a cloth guide pipe 3, an anti-vortex inner pipe 4, a vortex breaking part 41, a water passing groove 42, a water filtering and cloth guide inner pipe 5, a variable cross-section cloth running pipe 6, a water inlet end 61, a variable cross-section end 62, a water outlet end 63 and a fabric 7.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only for the purpose of illustrating and explaining the present invention, and are not to be considered as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are merely for convenience of description of the present invention and simplification of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

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. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In order to solve the problems, the cloth guide pipe device in the prior art comprises a cloth guide cylinder body 1, a nozzle 2 and a cloth guide pipe 3, wherein a certain vortex is generated when strong water flows pass through the nozzle 2, and the fabric is twisted along with the water flow direction, so that the fabric has the phenomena of creases, color flowers, folds, curling and the like, and the dyeing quality of the fabric is affected;

one end part of the cloth guide cylinder body 1 is connected with the nozzle 2 in a downward mode, the nozzle 2 is connected with the cloth guide pipe 3, the cloth guide pipe 3 is connected with the other end of the cloth guide cylinder body 1 in an upward mode, and the cloth guide cylinder body 1, the nozzle 2 and the cloth guide pipe 3 form a circulation loop;

a vortex-proof inner pipe 4, a water filtering and cloth guiding inner pipe 5 and a variable cross-section cloth running pipe 6 are embedded in the cloth guiding pipe 3 and are sequentially connected;

as shown in fig. 1, in the embodiment, the head of the cloth guide cylinder 1 is tilted upward, a cloth lifting roller 11 is arranged in the head, the head part of the device is connected with the nozzle 2 in a downward way, the nozzle 2 is used for spraying dye liquor, the nozzle 2 is connected with the anti-vortex inner pipe 4 of the cloth guide pipe 3, the vortex-proof inner pipe 4 is connected with the water filtering and cloth guiding inner pipe 5, the water filtering and cloth guiding inner pipe 5 is connected with the variable cross-section cloth running pipe 6, the variable cross-section cloth traveling pipe 6 is connected with the tail part of the cloth guiding cylinder body 1 in an upward way, the water flow direction is from the head part to the tail part of the cloth guiding cylinder body 1, the fabric is guided to a nozzle 2 in the fabric guide cylinder body 1 through the fabric lifting roller 11, returns to the fabric guide cylinder body 1 from the nozzle 2 to the fabric guide pipe 3 and the fabric guide pipe 3, dye liquor sprayed out of the nozzle 2 is in contact with the fabric for dyeing, and water flow achieves a driving effect;

the vortex breaking part 41 is arranged on the vortex preventing inner pipe 4, the vortex breaking part 41 is arranged on the inner wall of the vortex preventing inner pipe 4 in a protruding mode, the part of the vortex breaking part 41 is perpendicular to the vortex rotation direction, the vortex breaking part 41 extends from one end of the vortex preventing inner pipe 4 to the other end of the vortex preventing inner pipe, and the extending direction of the vortex breaking part is parallel to the water inlet direction;

in the present application, the vortex breaking portion 41 is disposed on the vortex preventing inner tube 4, and the vortex breaking portion 41 in this embodiment is a structure protruding from the inner wall of the vortex preventing inner tube 4, and the protruding structure makes the body of the vortex breaking portion 41 perpendicular to the rotation direction of the vortex, so as to continuously resist the rotation force of the vortex by using the body, thereby eliminating the generation of the vortex;

further, the body of the vortex breaking portion 41 extends from one end of the inner vortex preventing pipe 4 to the other end of the inner vortex preventing pipe 4, so that the extending direction of the body is parallel to the water inlet direction, that is, the water inlet direction is consistent with the extending direction, which is beneficial for the water flow to flow along the body of the inner vortex preventing pipe 4 after vortex breaking, and reduces the water inlet resistance.

The pipe body of the water filtering and cloth guiding inner pipe 5 is of a polygonal tubular structure;

in this embodiment, the tubular body of the water filtration and cloth guide inner tube 5 is a polygonal tubular structure, and the polygonal tubular structure is utilized to make the dye liquor not easily form a vortex, so that the dye liquor drives the fabric to rapidly and frequently change the state in the tubular body and generate a certain degree of latitudinal extension, thereby reducing the phenomena of wrinkles and curling.

The variable cross-section cloth running pipe 6 is changed from a circular cross section at two end parts into an elliptical cross section at the middle part.

In this embodiment, since the variable cross-section cloth feeding tube 6 is changed from the circular cross-section at the two end portions to the elliptical cross-section at the middle portion, the fabric moves freely and under low tension in this area, and the variable cross-section cloth feeding tube 6 changes the fabric state, retracts radially, expands latitudinally, and keeps the fabric in a loose state all the time, thereby effectively solving the problem that the fabric with high elastic fiber and high tightness is easy to crease.

Preferably, the vortex breaking portion 41 forms a cone structure protruding from the inner wall of the vortex-proof inner tube 4, and a cone tip of the cone structure faces the center of the vortex-proof inner tube 4.

In this embodiment, the vortex breaking portion 41 has a cone structure protruding from the inner wall of the vortex-proof inner tube 4, and the cone tip of the cone structure faces the center of the vortex-proof inner tube 4, so that the influence of the cone structure on the circulation of the fabric in the cloth guide tube 3 can be avoided, and meanwhile, the cone surface of the cone structure is more favorable for reducing water flow resistance and facilitates the flow of the fabric in the vortex-proof inner tube 4 because the cone surface of the cone structure is provided with a certain inclination angle compared with the inner wall of the vortex-proof inner tube 4.

Preferably, the pipe body of the vortex preventing inner pipe 4 is recessed inwards to form a water passing groove 42;

the cone structure of the vortex breaking part 41 is hollow and communicated with the water passing groove 42.

In this embodiment, because the vortex-proof inner tube 4 is nested inside the cloth guide tube 3, because the volume of the vortex-proof inner tube 4 affects, it only can flow in the vortex-proof inner tube 4 to lead to water flow, which can lead to water flow not enough to guide the circulation of fabric, so this application is in set up the water passing groove 42 on the body of the vortex-proof inner tube 4, and will the cone structure of the vortex breaking portion 41 sets up to be inside hollow, will the water passing groove 42 communicates the inside of the cone structure, like this when rivers pass through the cone structure, can follow the water passing groove 42 flow out to the cloth guide tube 3 with between the vortex-proof inner tube 4, increase water flow power, disperse the rivers simultaneously and also be favorable to reducing the impact of rivers, avoid forming the swirl.

Preferably, the vortex breaking portions 41 are provided in multiple groups, and the cone tips between every two vortex breaking portions 41 are arranged oppositely.

In this embodiment, broken whirlpool portion 41 is provided with the group, and the awl point between two liang sets up relatively for the line formation cross of its broken whirlpool portion 41 that the awl point is relative, is convenient for prevent the formation of swirl, and the vortex prevention technique among the conventional art is mostly the cross plate, but the last vortex inner tube 4 of preventing of this application need walk cloth, and the structure that adopts the cross plate then can hinder walks cloth, so adopts the long-range relative structure of awl point, makes the center of vortex inner tube 4 leave empty, can walk cloth.

Preferably, as shown in fig. 4 and 5, the cross-sectional area of the inlet end of the water filtration cloth guide inner pipe 5 is larger than that of the pipe body thereof;

the inlet end of the water filtering and cloth guiding inner pipe 5 is obliquely connected with the pipe body of the water filtering and cloth guiding inner pipe 5.

In this embodiment, the cross-sectional area of the inlet end of the water filtering and cloth guiding inner tube 5 is larger than that of the tube body, so that the fabric can be rapidly narrowed after entering the tube body from the inlet end, the state of the fabric is changed, the fabric can be rapidly straightened, and the wrinkle phenomenon is reduced.

Preferably, the tube body of the water filtering and cloth guiding inner tube 5 is narrowed from two sides to the middle part in one direction.

In this embodiment, the body of drainage guide cloth inner tube 5 narrows to the middle part by both sides in a direction for the body becomes the narrow wide structure about the side of "oval" regular polygon from the same diameter of "circular" cross-section of traditional art, makes the fabric can realize latitudinal direction extension after getting into the body, reduces the turn-up phenomenon.

Preferably, the water filtering and cloth guiding inner tube 5 is embedded in the tube body of the cloth guiding tube 3.

In this embodiment, drainage cloth guide inner tube 5 embedded with the body of cloth guide 3, promptly the body outside of drainage cloth guide inner tube 5 still includes the body of cloth guide 3 for drainage cloth guide inner tube 5 can install and dismantle as spare part alone, works as drainage cloth guide inner tube 5 appears damaging the back, need not to change whole section cloth guide 3, only needs to change drainage cloth guide inner tube 5 can.

Preferably, as shown in fig. 6, the variable cross-section distribution pipe 6 comprises a water inlet end 61, a variable cross-section end 62 and a water outlet end 63, and the cross-sectional shapes of the water inlet end 61 and the water outlet end 63 are changed from a circle to an oval of the variable cross-section end.

In this embodiment, the fabric enters from the water inlet end 61, flows to the variable cross-section end 62 along with the dye solution, and then changes the state of the fabric along with the change of the cross-sectional shape of the cloth guide tube, and retracts radially, and then the fabric flows to the water outlet end 63 from the variable cross-section end 62, and at this time, the state of the fabric changes again along with the change of the cross-sectional shape of the cloth guide tube again, and expands in the weft direction, so that the state of the fabric changes continuously, and the problem that the fabric with high elastic fiber and high tightness is easy to crease is effectively solved.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, so that any modification, equivalent change and modification made by the technical spirit of the present invention to the above embodiments do not depart from the technical solution of the present invention, and still fall within the scope of the technical solution of the present invention.

Claims (8)

1. A cloth guide pipe device is characterized in that:

comprises a cloth guide cylinder body, a nozzle and a cloth guide pipe;

one end of the cloth guide cylinder body is connected with the nozzle in a downward mode, the nozzle is connected with the cloth guide pipe, the cloth guide pipe is connected with the other end of the cloth guide cylinder body in an upward mode, and the cloth guide cylinder body, the nozzle and the cloth guide pipe form a circulation loop;

a vortex-proof inner pipe, a water filtering and cloth guiding inner pipe and a variable cross-section cloth running pipe are embedded in the cloth guiding pipe and are sequentially connected;

the vortex breaking part extends from one end part of the vortex preventing inner pipe to the other end part, and the extending direction of the vortex breaking part is parallel to the water inlet direction;

the pipe body of the water filtering and cloth guiding inner pipe is of a polygonal tubular structure;

the variable cross-section cloth running pipe is gradually narrowed from the circular cross sections at the two end parts to the elliptical cross section in the middle part.

2. The cloth guide tube device of claim 1, wherein:

the vortex breaking part forms a cone structure protruding from the inner wall of the vortex preventing inner pipe, the cone tip of the cone structure faces the center of the vortex preventing inner pipe, the circular arc of the cone structure is transited to the inner wall of the vortex preventing inner pipe, and the cone tip of the cone structure is provided with an arc surface.

3. The cloth guide tube device of claim 2, wherein:

the pipe body of the vortex-proof inner pipe is inwards sunken to form a water passing groove;

the interior of the cone structure of the vortex breaking part is hollow and is communicated with the water passing groove.

4. The cloth guide tube device of claim 1, wherein:

the vortex breaking parts are provided with a plurality of groups, and the conical tips between every two vortex breaking parts are arranged oppositely.

5. The cloth guide tube device of claim 1, wherein:

the cross-sectional area of the inlet end of the water filtering and cloth guiding inner pipe is larger than that of the pipe body of the water filtering and cloth guiding inner pipe;

the inlet end of the water filtering and cloth guiding inner pipe is obliquely connected with the pipe body of the water filtering and cloth guiding inner pipe.

6. The cloth guide tube device of claim 1, wherein:

the pipe body of the water filtering and cloth guiding inner pipe is narrowed from two sides to the middle part along the same direction.

7. The cloth guide tube device of claim 1, wherein:

the water filtering and cloth guiding inner pipe is embedded in the pipe body of the cloth guiding pipe.

8. The cloth guide tube device of claim 1, wherein:

the variable cross-section cloth travelling pipe comprises a water inlet end, a variable cross-section end and a water outlet end, wherein the cross sections of the water inlet end and the water outlet end are gradually changed from circular cross sections into elliptical cross sections of the variable cross-section end.

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