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Production method of non heat seal teabag paper

A technology of tea filter paper and manufacturing method, which is applied in the direction of filter paper, separation method, chemical instrument and method, etc., can solve the problems of high energy consumption, many chemical additives, and many links in the manufacturing process, and achieve low energy consumption, low product cost, The effect of making paper soft to the touch

Inactive Publication Date: 2013-01-16
ZHEJIANG WINBON SPECIALTY PAPER
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The technical problem to be solved and the technical task proposed by the present invention are to overcome the defects of the existing non-heat-sealed tea filter paper through surface sizing or coating in the manufacturing process with many links, many chemical additives, and high energy consumption, and provide a manufacturing process Simple, healthy, safe, low-energy, low-cost manufacturing method of non-heat-sealable tea filter paper

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0019] Fiber ratio: 55% coniferous wood, 30% cotton pulp, 15% Manila hemp

[0020] Fiber treatment:

[0021] The first step: Cotton pulp and Manila hemp pulp tank type beating machine heavy knife deflaking, the concentration is controlled at 2.5-3.0%, the current is 30-35A, after ten minutes, enter the high-frequency deflaking machine for 90 minutes, and the beating degree reaches 41 0 SR, wet weight 31.5g, put into pulp tank for use.

[0022] Step 2: The softwood pulp is deconcentrated by a trough beater, the concentration is controlled at 2.0%, and the current is 30-35A. After 30 minutes, it is put into the pulp tank and mixed with cotton pulp and Manila hemp pulp.

[0023] Step 3: After the above slurry is mixed evenly, enter the 3# toothed disc mill and 4# toothed disc mill for series circulation treatment until the beating degree of mixing is 40-45 O SR, wet weight 13.5 g.

[0024] Step 4: Add a thermosetting strengthening agent γ-glycidoxypropyltrimethoxysilane-polyam...

Embodiment 2

[0028] Fiber ratio: 50% coniferous wood, 20% hardwood, 30% cotton pulp

[0029] Fiber treatment:

[0030] The first step: Cotton pulp is decomposed in the pulp tank type beater with a heavy knife, the concentration is controlled at 2.5-3.0%, the current is 30-35A, and after ten minutes, it enters the high-frequency decomposer for 90 minutes, and the beating degree reaches 35 0 SR, wet weight 26g, put into pulp tank for use.

[0031] Step 2: The softwood pulp is deconcentrated by a trough beater, the concentration is controlled at 2.0%, and the current is 30-35A. After 30 minutes, it is put into the pulp tank and mixed with cotton pulp and Manila hemp pulp.

[0032] Step 3: After the above slurry is mixed evenly, enter the 3# toothed disc mill and 4# toothed disc mill for series circulation treatment until the beating degree of mixing is 40-45 O SR, wet weight 12.5g.

[0033] Step 4: Add 0.05% thermosetting strengthening agent γ-glycidoxypropyltrimethoxysilane-polyamide po...

Embodiment 3

[0037] Fiber ratio: 65% coniferous wood, 35% Manila hemp

[0038] Fiber treatment:

[0039] Step 1: Manila hemp pulp trough-type beating machine with heavy knife, the concentration is controlled at 2.5-3.0%, the current is 30-35A, ten minutes later, enter the high-frequency deflaking machine for 90 minutes, and the beating degree reaches 45 0 SR, wet weight 46g, put into pulp tank for use.

[0040] Step 2: The softwood pulp is deconcentrated by a trough beater, the concentration is controlled at 2.0%, and the current is 30-35A. After 30 minutes, it is put into the pulp tank and mixed with cotton pulp and Manila hemp pulp.

[0041] Step 3: After the above slurry is mixed evenly, enter the 3# toothed disc mill and 4# toothed disc mill for series circulation treatment until the beating degree of mixing is 40-45 O SR, wet weight 17.5g.

[0042] Step 4: Add a thermosetting strengthening agent γ-glycidoxypropyltrimethoxysilane-polyamide polyamine epichlorohydrin, which is equiv...

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Abstract

The invention discloses a production method of non heat seal teabag paper. Final products can be obtained through a surface sizing process or a coating process in the existing production method of the non heat seal teabag paper, and a plurality of adhesives and additives are needed to add. The production method includes subjecting plant fibers to special processing, and reserving the length of fibers as far as possible during fully fibrillation; and adding appropriate thermosetting type reinforcing agent into the fiber after the special processing to obtain a body paper product through papermaking. The body paper product can be used directly without the surface sizing and the follow-up coating processing and can adapt to processing requirements for modern high-speed packing machines. According to the production method, the defect that final products can be obtained through the surface sizing or coating in the existing production method of the non heat seal teabag paper is overcome, the paper is formed once, the surface sizing or coating process is reduced, usage of chemical additives in the non heat seal teabag paper is reduced, obtained products are environment-friendly and good in processability, simultaneously, the production process is simplified, and the energy consumption and cost are reduced.

Description

technical field [0001] The invention relates to a manufacturing method of a non-heat-seal tea filter paper, in particular to a non-heat-seal tea filter paper of whole plant fiber without surface sizing or coating. Background technique [0002] The traditional manufacturing method of non-heat-seal tea filter paper is that the fibers are formed by paper machine and then surface sized or coated. This type of manufacturing method has many links in the whole manufacturing process, many chemical additives, and large energy consumption. With the improvement of people's quality of life, higher requirements are put forward for the environmental protection, health and safety performance requirements of products. The main purpose of the manufacturing method is to reduce the use of chemical products as much as possible, and at the same time, since the manufacturing method does not require surface sizing or coating processes, the energy consumption is obviously reduced. Contents of th...

Claims

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Application Information

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IPC IPC(8): D21H27/08D21H15/10D21H17/26D21H17/29D21H21/18D21H21/20
Inventor 陈建斌王盼盼
Owner ZHEJIANG WINBON SPECIALTY PAPER
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