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Method for preparing dermal fiber cotton and dermal flocking machine

A technology of leather fiber and manufacturing method, which is applied in the field of utilization of leather leftovers, and can solve problems such as excessive leather fiber breaking and affecting fiber quality

Inactive Publication Date: 2008-08-06
尹金良
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In this method, the leather fiber is broken too much, which affects the quality of the fiber

Method used

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  • Method for preparing dermal fiber cotton and dermal flocking machine
  • Method for preparing dermal fiber cotton and dermal flocking machine
  • Method for preparing dermal fiber cotton and dermal flocking machine

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] (1) Put 6 kg of American cowhide second-layer leather scraps into the container, add 100 kg of water, control the water temperature at 48-50°C, and soak for 24 hours;

[0025] (2) the soaked leather scraps are placed in a centrifugal dehydrator for dehydration;

[0026] (3) Put the dehydrated leather leftovers into the first hammering machine and hammer for 30 minutes at a speed of 1200 rpm;

[0027] (4) putting the material obtained in step (3) into the second hammering machine and hammering for 25 minutes at 1100 rpm;

[0028] (5) putting the material obtained in step (4) into the third hammering machine and hammering for 20 minutes, with a rotating speed of 900 rpm;

[0029] (6) Put the material obtained in step (5) into the fourth hammering machine and hammer for 15 minutes at 800 rpm;

[0030] (7) putting the material obtained in step (6) into the fifth hammering machine and hammering for 10 minutes, with a rotating speed of 600 rpm;

[0031] (8) the fiber mass ...

Embodiment 2

[0034] (1) Put 6 kg of American cowhide three-layer leather scraps into the container, add 100 kg of water, control the water temperature at 48-50 °C, and soak for 20 hours;

[0035](2) the soaked leather scraps are placed in a centrifugal dehydrator for dehydration;

[0036] (3) Put the dehydrated leather leftovers into the first hammering machine and hammer for 30 minutes at a speed of 1200 rpm;

[0037] (4) putting the material gained in step (3) into the second hammering machine and hammering for 25 minutes at 1000 rpm;

[0038] (5) putting the material obtained in step (4) into the third hammering machine and hammering for 20 minutes, with a rotating speed of 900 rpm;

[0039] (6) put the material obtained in step (5) into the fourth hammering machine and hammer for 15 minutes, with a rotating speed of 600 rpm;

[0040] (7) the fiber mass obtained in step (6) is placed on the needle roller opening device and loosened into dermis fiber cotton;

[0041] (8) drying at 80°...

Embodiment 3

[0043] (1) Put 6 kg of domestic cowhide second-layer leather scraps into the container, add 100 kg of water, control the water temperature at 45-48 °C, and soak for 20 hours;

[0044] (2) the soaked leather scraps are placed in a centrifugal dehydrator for dehydration;

[0045] (3) Put the dehydrated leather leftovers into the first hammering machine and hammer for 30 minutes at a speed of 1200 rpm;

[0046] (4) putting the material gained in step (3) into the second hammering machine and hammering for 25 minutes at 1000 rpm;

[0047] (5) putting the material obtained in step (4) into the third hammering machine and hammering for 20 minutes, with a rotating speed of 900 rpm;

[0048] (6) put the material obtained in step (5) into the fourth hammering machine and hammer for 15 minutes, with a rotating speed of 600 rpm;

[0049] (7) the fiber mass obtained in step (6) is placed on the needle roller opening device and loosened into dermis fiber cotton;

[0050] (8) drying at 8...

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Abstract

A method for manufacturing corium fiber floss comprises the following steps: firstly, soaking the rim leftover of leather in water and fully expanding the rim leftover, secondly, removing water by dewatering centrifuges, thirdly, hammering the rim leftover into flocculent corium fiber agglomerate through corium cashmere-making machines, then opening the corium fiber agglomerate into corium fiber floss by needle roller opening devices, fourthly, drying, wherein the cashmere-making machines comprise shells, main axle(1)s, hammer carriers (2), hammer (7), bases (9), motors and actuating mechanism. ribs with gear form (5) are distributed on the whole inner-wall of the cylindrical surface of the shell, a plurality of weep holes (10) and a discharge hole are mounted on the lower portion of the cylindrical surface, and a can-be opened-and-closed discharging gate (11) is mounted on the discharge hole. Since the method separates the fiber with each other by hammering the leather after the leather is soaked and expended, then opening the fiber by the needle roller opening device, thereby, the manufacturing time is greatly reduced, the opening forces of opening machines are small, the damage is small, and the high quality corium fiber floss can be obtained.

Description

technical field [0001] The invention relates to a utilization technology of leather leftovers, a manufacturing method of leather fiber cotton and a leather cashmere making machine specially used for manufacturing leather fiber cotton. Background technique [0002] Genuine leather scraps are wastes produced in the production of leather products, and people are exploring how to recycle them. Chinese patent 200510007524.4 "Processing technology of leather fiber fleece and its products" introduces a processing method of leather fiber fleece, adding water, penetrant, slaked lime, softening treasure and sulfur ammonia to the leather scraps, and performing forward and backward in the drum equipment Spin and brush, then dry and fluff to become a genuine leather fiber product. Because this method mainly relies on the rotation of the drum equipment for brushing, it is particularly time-consuming, and a production cycle takes about 77 to 97 hours. The method of making leather into fi...

Claims

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Application Information

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IPC IPC(8): D01G11/00D01G15/06
CPCY02W30/66
Inventor 尹金良
Owner 尹金良
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