CN210506601U - Cooling device is used in processing of high-elastic hard cotton low melting point fibre - Google Patents

Abstract

The utility model discloses a high-elastic cotton low melting point cooling device for fibre processing of stereoplasm, include: annular cooling feed liquor pipe, annular cooling drain pipe, first annular cooling blowpipe, second annular cooling blowpipe and third annular cooling blowpipe, annular cooling feed liquor pipe and annular cooling drain pipe are parallel to each other and set up, and annular cooling feed liquor pipe and annular cooling drain pipe between annular cooling feed liquor pipe and the annular cooling drain pipe annular wait the angle be connected with a plurality of heat exchange tubes. The utility model discloses in, through being equipped with the heat exchange tube, when cooling blow gun through on the annular cooling blowpipe cooling, heat exchange tube cooperation heat exchanger fin can cool down blowing, realize two cooling system and carry out cooling treatment to the cotton low melting point fibre of high-elastic stereoplasm, improve the effect to the cotton low melting point fibre cooling treatment of high-elastic stereoplasm, the crisscross distribution of cooling blow gun on the three annular cooling blowpipe of while realizes asymmetric ring blow cooling, more evenly comprehensive when handling high-elastic stereoplasm low melting point fibre cooling treatment.

Description

Cooling device is used in processing of high-elastic hard cotton low melting point fibre

Technical Field

The utility model relates to a cooling device technical field especially relates to a cooling device is used in processing of cotton low melting point fibre of high-elastic stereoplasm.

Background

The high-elasticity hard cotton low-melting-point fiber is used for replacing the traditional sponge product fiber, has the characteristics of low-melting-point adhesion, high elasticity, good ventilation effect and the like after being combed, is an ideal filler for mattresses and sofas, has large market demand for the high-elasticity hard cotton low-melting-point polyester fiber, and is a cooling device for processing the high-elasticity hard cotton low-melting-point fiber, namely a ring blowing cooling device for processing the high-elasticity hard cotton low-melting-point fiber;

traditional high-elastic hard cotton low melting point fiber processing is with cooling device cooling method singleness, and the cooling effect is poor and the cooling is even comprehensive inadequately, influences the high-elastic hard cotton low melting point fiber's of production quality.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a cooling device for processing high-elastic hard cotton low-melting-point fibers.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a high-elastic hard cotton low-melting-point fiber processing cooling device comprises: the annular cooling liquid inlet pipe, the annular cooling liquid outlet pipe, the first annular cooling blow pipe, the second annular cooling blow pipe and the third annular cooling blow pipe;

the annular cooling liquid inlet pipe and the annular cooling liquid outlet pipe are arranged in parallel, and a plurality of heat exchange pipes are annularly connected between the annular cooling liquid inlet pipe and the annular cooling liquid outlet pipe at equal angles;

the first annular cooling blowpipe, the second annular cooling blowpipe and the third annular cooling blowpipe are sleeved on the outer sides of the plurality of heat exchange pipes at equal intervals, and the first annular cooling blowpipe, the second annular cooling blowpipe and the third annular cooling blowpipe are fixedly connected between the annular cooling liquid inlet pipe and the annular cooling liquid outlet pipe through fixed side frames.

As a further description of the above technical solution:

the pipe diameters of the annular cooling liquid inlet pipe and the annular cooling liquid outlet pipe are equal, and the annular cooling liquid inlet pipe and the annular cooling liquid outlet pipe are respectively communicated with a liquid inlet interface and a liquid outlet interface.

As a further description of the above technical solution:

the pipe diameters and the diameters of the first annular cooling blowpipe, the second annular cooling blowpipe and the third annular cooling blowpipe are equal, cooling blow nozzles are connected to the inner sides of the first annular cooling blowpipe, the second annular cooling blowpipe and the third annular cooling blowpipe at equal angles, and the cooling blow nozzles on the inner sides of the first annular cooling blowpipe, the second annular cooling blowpipe and the third annular cooling blowpipe are distributed in a staggered mode.

As a further description of the above technical solution:

and the outer sides of the first annular cooling blowpipe, the second annular cooling blowpipe and the third annular cooling blowpipe are communicated with an air supply main pipe through air supply branch pipes.

As a further description of the above technical solution:

a plurality of heat exchange fins are welded on the outer shell of the heat exchange tube at equal intervals.

As a further description of the above technical solution:

the device also comprises an annular center frame;

the annular central frames are respectively fixed on the inner sides of the annular cooling liquid inlet pipe and the annular cooling liquid outlet pipe through a cross-shaped fixing frame;

and two annular limiting frames are welded on the cross fixing frame at equal intervals on the outer side of the annular center frame.

Advantageous effects

The utility model provides a high-elastic hard cotton low melting point cooling device for fiber processing. The method has the following beneficial effects:

(1): this cooling device is used in processing of cotton low melting point fibre of high-elastic stereoplasm is through being equipped with the heat exchange tube, when cooling blow gun through on the annular cooling blowpipe carries out the cooling of blowing, heat exchange tube cooperation heat exchanger fin can cool down blowing, realize that two cooling system carry out cooling treatment to the cotton low melting point fibre of high-elastic stereoplasm, improve the effect to the cotton low melting point fibre cooling treatment of high-elastic stereoplasm, the crisscross distribution of cooling blow gun on the three annular cooling blowpipe of while, realize asymmetric ring and blow the cooling, more even comprehensive when the cotton low melting point fibre cooling treatment of high-elastic stereoplasm.

(2): this cooling device is used in processing of cotton low melting point fibre of high-elastic stereoplasm is through being equipped with annular spacing, can run through the high-elastic cotton low melting point cellosilk of stranded high-elastic stereoplasm that passes this cooling device inside respectively in the chamber that separates between annular spacing and cross mount, thereby deposit the spacing part of the cotton low melting point cellosilk of high-elastic stereoplasm of stranded high-elastic, the cotton low melting point cellosilk of high-elastic stereoplasm is gathered together and is influenced refrigerated effect when preventing the ring from blowing, improve this cooling device is used in processing of cotton low melting point fibre of high-elastic stereoplasm's practicality.

Drawings

FIG. 1 is a schematic view of the overall structure of a cooling device for processing low-melting point fibers of high-elasticity hard cotton according to the present invention;

FIG. 2 is a schematic structural view of a middle ring cooling blowpipe of the present invention;

FIG. 3 is a schematic structural view of a heat exchange tube of the present invention;

fig. 4 is a schematic structural view of the middle ring center frame of the present invention.

Illustration of the drawings:

1. circularly cooling the liquid inlet pipe; 2. a liquid inlet interface; 3. a heat exchange pipe; 31. a heat exchanger fin; 4. an annular cooling liquid outlet pipe; 5. a liquid outlet interface; 6. a first annular cooling blowpipe; 7. a second annular cooling blowpipe; 8. a third annular cooling blowpipe; 9. a fixed side frame; 10. a wind supply branch pipe; 11. a main air supply pipe; 12. cooling the blowing nozzle; 13. a cross-shaped fixing frame; 14. an annular steady rest; 15. annular spacing.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1, 2 and 3, a cooling device for processing low-melting point fibers of high-elasticity hard cotton comprises: an annular cooling liquid inlet pipe 1, an annular cooling liquid outlet pipe 4, a first annular cooling blowpipe 6, a second annular cooling blowpipe 7 and a third annular cooling blowpipe 8;

the annular cooling liquid inlet pipe 1 and the annular cooling liquid outlet pipe 4 are arranged in parallel, and a plurality of heat exchange pipes 3 are annularly connected between the annular cooling liquid inlet pipe 1 and the annular cooling liquid outlet pipe 4 at equal angles;

the first annular cooling blowpipe 6, the second annular cooling blowpipe 7 and the third annular cooling blowpipe 8 are sleeved on the outer sides of the plurality of heat exchange pipes 3 at equal intervals, and the first annular cooling blowpipe 6, the second annular cooling blowpipe 7 and the third annular cooling blowpipe 8 are fixedly connected between the annular cooling liquid inlet pipe 1 and the annular cooling liquid outlet pipe 4 through the fixed side frames 9.

The pipe diameters of the annular cooling liquid inlet pipe 1 and the annular cooling liquid outlet pipe 4 are equal, and the annular cooling liquid inlet pipe 1 and the annular cooling liquid outlet pipe 4 are respectively communicated with a liquid inlet interface 2 and a liquid outlet interface 5.

The pipe diameters and the diameters of the first annular cooling blowpipe 6, the second annular cooling blowpipe 7 and the third annular cooling blowpipe 8 are equal, and cooling blow nozzles 12 are connected to the inner equal angles of the first annular cooling blowpipe 6, the second annular cooling blowpipe 7 and the third annular cooling blowpipe 8, wherein the cooling blow nozzles 12 on the inner sides of the first annular cooling blowpipe 6, the second annular cooling blowpipe 7 and the third annular cooling blowpipe 8 are alternately distributed in a staggered manner, and asymmetrical ring blowing cooling is realized through the cooling blow nozzles 12 on the inner sides of the first annular cooling blowpipe 6, the second annular cooling blowpipe 7 and the third annular cooling blowpipe 8, so that the high-elasticity hard cotton low-melting-point fiber is cooled more uniformly and comprehensively.

The outsides of the first annular cooling blowpipe 6, the second annular cooling blowpipe 7 and the third annular cooling blowpipe 8 are communicated with an air supply main pipe 11 through an air supply branch pipe 10.

A plurality of heat exchange fins 31 are welded on the outer shell of the heat exchange tube 3 at equal intervals, the contact area between the heat exchange fins 31 and air is increased, and the air blowing cooling effect is improved.

The working principle is as follows: when the cooling device for processing the high-elasticity hard cotton low-melting-point fibers is used, high-elasticity hard cotton low-melting-point fibers needing cooling treatment penetrate through an inner cavity of the cooling device after being taken up, then cooling liquid is injected into the annular cooling liquid inlet pipe 1 through the liquid inlet interface 2, the cooling liquid can flow into the plurality of heat exchange pipes 3 through the annular cooling liquid inlet pipe 1 and then flows into the annular cooling liquid outlet pipe 4 from the plurality of heat exchange pipes 3, finally the cooling liquid is discharged through the liquid outlet interface 5 to realize circulating conveying, cooling air is conveyed through the air supply main pipe 11 and enters the first annular cooling blowpipe 6, the second annular cooling blowpipe 7 and the third annular cooling blowpipe 8 through the air supply branch pipes 10, and finally is blown out through the cooling blowpipes 12 on the first annular cooling blowpipe 6, the second annular cooling blowpipe 7 and the third annular cooling blowpipe 8, and when the cooling air blown out by the cooling blowpipes 12 penetrates through the heat exchange pipes 3, the heat exchange tube 3 further cools the cooling air, then cools the high-elasticity hard cotton low-melting-point fiber, and finally realizes the circular blowing cooling of the high-elasticity hard cotton low-melting-point fiber.

Also included is an annular steady rest 14;

the annular central frames 14 are provided with two annular central frames 14, and the two annular central frames 14 are respectively fixed on the inner sides of the annular cooling liquid inlet pipe 1 and the annular cooling liquid outlet pipe 4 through a cross fixing frame 13;

and two annular limiting frames 15 are welded on the cross fixing frame 13 at equal intervals outside the annular center frame 14.

Can run through the high-elastic stereoplasm low melting point cellosilk of stranded inside this cooling device respectively in the chamber that separates between annular spacing 15 and cross mount 13 to deposit the high-elastic stereoplasm low melting point cellosilk of stranded spacing separately, influence refrigerated effect together in the high-elastic stereoplasm low melting point cellosilk doubling polymerization when preventing the ring from blowing, improve this high-elastic stereoplasm is cooling device for low melting point fiber processing's practicality.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A high-elastic hard cotton low-melting-point fiber processing cooling device is characterized by comprising: the device comprises an annular cooling liquid inlet pipe (1), an annular cooling liquid outlet pipe (4), a first annular cooling blow pipe (6), a second annular cooling blow pipe (7) and a third annular cooling blow pipe (8);

the annular cooling liquid inlet pipe (1) and the annular cooling liquid outlet pipe (4) are arranged in parallel, and a plurality of heat exchange pipes (3) are annularly connected between the annular cooling liquid inlet pipe (1) and the annular cooling liquid outlet pipe (4) at equal angles;

the first annular cooling blowpipe (6), the second annular cooling blowpipe (7) and the third annular cooling blowpipe (8) are sleeved on the outer sides of the plurality of heat exchange pipes (3) at equal intervals, and the first annular cooling blowpipe (6), the second annular cooling blowpipe (7) and the third annular cooling blowpipe (8) are fixedly connected between the annular cooling liquid inlet pipe (1) and the annular cooling liquid outlet pipe (4) through the fixed side frames (9).

2. The cooling device for processing the high-elasticity hard cotton low-melting-point fibers according to claim 1, wherein the pipe diameters of the annular cooling liquid inlet pipe (1) and the annular cooling liquid outlet pipe (4) are equal, and the annular cooling liquid inlet pipe (1) and the annular cooling liquid outlet pipe (4) are respectively communicated with a liquid inlet interface (2) and a liquid outlet interface (5).

3. The cooling device for processing the low-melting-point fiber of the high-elasticity hard cotton is characterized in that the first annular cooling blowpipe (6), the second annular cooling blowpipe (7) and the third annular cooling blowpipe (8) are equal in pipe diameter and diameter, cooling blow nozzles (12) are connected to the inner sides of the first annular cooling blowpipe (6), the second annular cooling blowpipe (7) and the third annular cooling blowpipe (8) at equal angles, and the cooling blow nozzles (12) on the inner sides of the first annular cooling blowpipe (6), the second annular cooling blowpipe (7) and the third annular cooling blowpipe (8) are distributed in a staggered mode.

4. The cooling device for processing the high-elasticity hard cotton low-melting-point fiber is characterized in that the outsides of the first annular cooling blowing pipe (6), the second annular cooling blowing pipe (7) and the third annular cooling blowing pipe (8) are communicated with an air supply main pipe (11) through air supply branch pipes (10).

5. The cooling device for processing the high-elasticity hard cotton low-melting-point fibers is characterized in that a plurality of heat exchange fins (31) are welded on an outer shell of the heat exchange tube (3) at equal intervals.

6. The cooling device for processing the low-melting-point fiber of the high-elasticity hard cotton, as recited in claim 1, further comprising an annular center frame (14);

the two annular center frames (14) are arranged, and the two annular center frames (14) are respectively fixed on the inner sides of the annular cooling liquid inlet pipe (1) and the annular cooling liquid outlet pipe (4) through a cross fixing frame (13);

and two annular limiting frames (15) are welded on the cross fixing frame (13) at the outer side of the annular center frame (14) at equal intervals.

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