RU2157409C1 - Offal treatment process - Google Patents

Abstract

FIELD: leather industry. SUBSTANCE: offal is treated with ammonium sulfate in amount 0.3-0.8% of the weight of offal in presence of 2:1 formaldehyde-urea condensation product, after which additional deashing is effected consuming 2.0-2.5% of ammonium sulfate based on the weight of offal. Finally, skin is softened. EFFECT: reduced leather quality and reduced offal consumption. 1 tbl, 5 ex

Description

 The invention relates to the chemical treatment of gnole and can be used in the leather industry in the production of leathers of various assortments.

 A known method of treating a loach, including washing it in the presence of phthalic anhydride in an amount of 0.2-0.3% by weight of the loach and anesthetization with ammonium sulfate at a flow rate of 1.25-1.75% by weight of the loach / SU, Copyright certificate, 1638166, A1, March 30. 1991 /.

 The disadvantage of this method is that it does not allow to obtain finished skin with high strength properties.

 The closest analogue of the proposed technical solution is a method of treating a gole, including its anesthesia of 1.5-2.5% ammonium sulfate in the presence of phthalic acid in an amount of 0.4-0.8% by weight of the gole and softening / SU, Copyright certificate, 1051127 , A, 10.30.1983 /.

 The disadvantage of this method is that, despite the almost complete degree of desalination of the foil, the use of phthalic acid leads to the deposition of protein substances and calcium phthalates on the surface of the foil, which leads to a tough, fragrant skin. The decrease in the pH of the processing fluid with the introduction of phthalic acid promotes the formation of hydrogen sulfide, which dramatically worsens the environmental situation in the shops.

The technical result of the invention is to improve the quality of leathers and reduce the consumption of raw materials for the production of 100 m ^{2 of} leather.

 This result is achieved by the fact that in a method for treating a min, including its anesthesia with ammonium sulfate in the presence of an organic compound and softening, anesthetization is carried out at a flow rate of ammonium sulfate 0.3-0.8% by weight of the net, and the product of formaldehyde condensation is used as an organic compound and urea with a ratio of 2: 1, after which additional anesthesia is carried out at a flow rate of ammonium sulfate of 2.0-2.5% by weight of the target.

 A distinctive feature of the proposed method is that the use of formaldehyde and urea condensation product as an organic compound at the indicated ratio allows to improve the quality and reduce the consumption of raw materials due to the structuring effect. The condensation products, penetrating into the facial layer of the gol, bind to the functional groups of collagen and provide a strong bond between the facial and middle layers of the dermis. Additional structuring is achieved by the deposition of oligomeric condensation products at the boundary of the papillary and reticular layers. Thus, the perfume of the skin is significantly reduced and the yield of finished skins is calculated based on the mass of raw materials.

 Condensation products of formaldehyde and urea at a 2: 1 ratio are produced by the industry under the names M-2 Fastener TU 6-06-0203398-388-90, Carbamol MT-2 TU 2484-120-057-4685-93, Carbamol CEM TU 6- 36-935-89.

 The declared value of the consumption of ammonium sulfate during the anesthesia of the foil corresponds to the optimal treatment conditions of the condensation products. Thus, the use of ammonium sulfate of less than 0.3% of the mass of the target does not allow the removal of calcium from the surface layers of the target and to ensure the penetration of condensation products into the zone between the reticular and papillary dermis.

 An increase in the consumption of ammonium sulfate by more than 0.8% leads to a decrease in the pH of the processing fluid, which negatively affects the reactivity of the condensation products and the structuring effect is not achieved.

 Additional anesthesia at a flow rate of ammonium sulfate of less than 2.0% does not provide complete removal of calcium from the loam, which leads to tough skin. An increase in the consumption of ammonium sulfate with additional anesthesia of more than 2.5% is not economically feasible and, in addition, reduces the effectiveness of enzymatic softening.

 The method is as follows.

 A jelly obtained by a standard method from cattle skins is anesthetized after Zh.K. 1.2-1.3 for 20 minutes 0.3-0.8% ammonium sulfate, then 0.3-0.5% of the condensation product of formaldehyde and urea is introduced at a ratio of 2: 1 and processing continues for 45-50 minutes . Additional anesthesia is carried out at Zh.K. 1.2-1.3 on fresh processing fluid at a flow rate of ammonium sulfate 2.0-2.5% by weight of the target for 45-50 minutes. Then 0.2-0.3% of the enzyme preparation is added based on the mass of the loach, and the loaf is softened for 30 minutes. After washing, the processes of pickling and tanning are carried out according to the current method.

Example 1. A jelly obtained from the skins of cattle according to the current method, after zoling, is anesthetized for 20 minutes with ammonium sulfate in an amount of 0.3% by weight of the jelly with J.K. 1.3 and a temperature of 28 ^o C, after which 0.3% of M-2 Fastener is introduced and processing continues for 45 minutes. The liquid is drained and an additional anesthesia is carried out of the clay when J.K. 1.2, a temperature of 37-38 ^o C and a flow rate of ammonium sulfate 2.0% by weight of the target, after 45 minutes the enzyme preparation protosubtilin G-ZX is introduced in an amount of 0.2% by weight of the target and soften for 30 minutes. The waste solution is drained. Rinsing, pickling, tanning, subsequent processes and operations are carried out according to the current method.

 Example 2. The jelly obtained from the skins of cattle according to a standard method, after the gold plating process, as in example 1, but the desalination is carried out in the presence of 0.4% Carbamol MT-2, the consumption of ammonium sulfate during desalination is 0.6%, and with an additional anesthesia of 2.3% by weight of the target.

 Example 3. The jelly obtained by a standard method from the skins of cattle is treated as in example 1, but the desolation is carried out in the presence of 0.5% CEM carbamol at a flow rate of ammonium sulfate of 0.8%, with additional desalination, the consumption of ammonium sulfate is 2 , 5% by weight of the gol.

 Example 4. The jelly obtained by a standard method from the skins of cattle is treated as in example 1, but the consumption of ammonium sulfate during anesthesia and additional anesthesia is 0.2% and 1.9%, respectively, of the mass of the net and anesthesia is performed in the presence of 0.2% of M-2 Fastener.

 Example 5. The jelly obtained from the skins of cattle by a standard method is processed as in example 1, but the consumption of ammonium sulfate during anesthesia and additional anesthesia is respectively 0.9% and 2.6% by weight of the net and anesthesia is carried out in the presence of 0.6% Carbamol MT-2.

 Qualitative indicators of the obtained skin in comparison with the skin of the prototype are presented in the table.

 Using the proposed method will improve the quality of the finished leather and significantly reduce the consumption of raw materials.

Claims (1)

 A method of treating a goal, including its anesthesia with ammonium sulfate in the presence of an organic compound and softening, characterized in that the anesthesia is carried out at a flow rate of ammonium sulfate 0.3 - 0.8% by weight of the target, and the product of formaldehyde and urea condensation is used as an organic compound when they are a ratio of 2: 1, after which additional anesthesia is carried out at a flow rate of ammonium sulfate of 2.0 - 2.5% by weight of the target.

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