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A multi-row synthetic tow cooling system

A cooling system and tow technology, applied in filament/thread forming, complete sets of equipment for producing artificial threads, textiles and papermaking, etc., can solve problems such as uniformity defects of filament products, to ensure uniform quality, ensure wind Consistent pressure and guaranteed stability

Active Publication Date: 2015-11-04
王振海
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] Therefore, the technical problem to be solved by the present invention is to overcome the technical problem of uniformity defects in the filament products obtained by cooling the existing multi-row synthetic filament bundle cooling device, so as to provide a synthetic filament that can uniformly cool the multi-row synthetic filament products. beam cooling system

Method used

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  • A multi-row synthetic tow cooling system
  • A multi-row synthetic tow cooling system
  • A multi-row synthetic tow cooling system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0079] Such as Figure 3-12 As shown, this embodiment provides a double-row synthetic tow cooling system, which includes a spinning device and a double-row synthetic tow cooling device. Among them, such as Figure 3-6 As shown, the spinneret includes a spinneret 500 and an airtight passage for hermetically connecting the spinneret 500 with the wire mesh cylinder 103 installed in the cooling box 100 . The number of the above-mentioned airtight passages is the same as the number of the spinneret 500 and the wire mesh tube 103, and they are set independently of each other; because the temperature of the spinneret 500 is high during operation, in order to reduce heat conduction, avoid passing through the above-mentioned airtight passages and the spinneret. The temperature of the cooling box 100 connected to 500 rises, reducing its cooling effect, and a heat shield is also provided between the spinneret 500 and the closed channel. The thin stream 501 of polymer melt sprayed out f...

Embodiment 2

[0098] This embodiment provides a double-row synthetic tow cooling system, which is a deformation based on Embodiment 1, such as Figure 13 and Figure 14 As shown, in this embodiment, the wall structure of the cooling box 100 is different from that of Embodiment 1, specifically, the cooling box 100 is a housing, and the housing includes a horizontal inner wall 100c and a horizontal inner wall 100c connected to at least one inclined inner wall 100d, multiple rows of the wire mesh cylinders 103 are respectively arranged parallel to the horizontal inner wall 100c, the adjacent rows of the wire mesh cylinders 103 are arranged in a staggered manner, different rows close to the inclined inner wall 100d A line connecting the centers of a plurality of adjacent wire mesh cylinders 103 forms a straight line, and the inclined inner wall 100 d is substantially parallel to the straight line, and the inclined inner wall 100 d intersects the perforated plate 201 at the hypotenuse 107 . Whe...

Embodiment 3

[0101] This embodiment provides a dual-row synthetic tow cooling system, which is a modification based on Embodiment 1. In this example, if Figure 15 As shown, the means of reducing the amount of cool air entering the first circulation space A through the ventilation holes 111 per unit time is different from that of Embodiment 1. In this embodiment, by changing the perforated plate 201 The arrangement of the ventilation holes 111 is to change the amount of cold air entering the first circulation space A, specifically, the density of the ventilation holes 111 on the perforated plate 201 opposite to the first circulation space A The density of the ventilation holes 111 on the perforated plate 201 opposite to the other circulation spaces B is lower, so that the amount of cold air in the first circulation space A is different from the amount of cool air in the other circulation spaces B. Basically the same.

[0102] Here, "basically the same" should be understood as that the am...

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Abstract

The invention provides a multi-row synthetic tow cooling system which comprises a spinneret device, a cooling box and an air supplying device used for supplying cold air into the cooling box. Multiple rows of air tube assemblies used for passing of tows are arranged on the cooling box, a multi-hole plate is arranged between the cooling box and the air supplying device, and a plurality of ventilation holes are formed in the multi-hole plate. The cold air from the air supplying device enters the outsides of silk screen tubes in the air tube assemblies through the ventilation holes and enters the insides of the silk screen tubes from the outer circumferences of the silk screen tubes, polymer melt trickles jetted by the spinneret device is cooled to be filaments, circulation spaces formed at the outer circumferences of the silk screen tubes are communicated with the same rows of adjacent silk screen tubes, the different rows of adjacent silk screen tubes and different inner walls of the cooling box, and differential values between air pressure of the cold air at different positions in the circulation space and air pressure of the insides of the silk screen tubes are basically accordant through control over the cold air amount at the different positions in the circulation space.

Description

technical field [0001] The invention relates to a cooling system for multi-row synthetic tow, which belongs to the technical field of synthetic tow cooling. Background technique [0002] When producing synthetic filaments, the thin stream of polymer melt ejected from the micropores of the spinneret is forced to cool in the cooling device by blowing cold air, and condenses and solidifies into filaments in a short time. The wind pressure and wind speed of the cold air in the cooling device have a great influence on the uniformity of the filaments formed after the polymer melt fine stream condenses and solidifies. The above-mentioned uniformity mainly refers to the diameter, strength, elongation, etc. of the filament. Therefore, maintaining uniform and stable external cooling conditions (mainly controlling the uniform and stable wind speed) is very important for spinning high-quality filaments. [0003] Chinese patent document CN201377007Y discloses a cooling device for cooli...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): D01D5/088D01D13/02
Inventor 王振海
Owner 王振海
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