CN112143571A - Production process of antioxidant environment-friendly sodium bicarbonate detergent - Google Patents

Abstract

The invention discloses a production process of an antioxidant environment-friendly baking soda detergent, which relates to the technical field of detergents and comprises the following raw materials in parts by weight: 40-70 parts of food-grade baking soda, 5-20 parts of food-grade sodium carbonate, 25-40 parts of food-grade sodium citrate, 1-10 parts of food-grade enzyme preparation, 5-10 parts of nonionic surfactant and 10-20 parts of food-grade tea polyphenol. This production technology of antioxidative environment-friendly baking soda detergent, through the food level tea polyphenol of adding certain composition in the raw materials, it is strong to have an antioxidant capacity through food level tea polyphenol, no toxic and side effect, characteristics such as no peculiar smell, can improve baking soda detergent's anti-oxidant effect, and do not injure the hand when using, harmless composition remains, make can protect human body or environment can not receive the damage, through passing through the machine finished product with baking soda detergent, make baking soda detergent exist with the fine powder state, harmless has, high efficiency, save resource and environmental protection characteristic.

Description

Production process of antioxidant environment-friendly sodium bicarbonate detergent

Technical Field

The invention relates to the technical field of cleaning agents, in particular to a production process of an antioxidant environment-friendly baking soda cleaning agent.

Background

The cleaning agent is a liquid ceramic tile cleaning agent which is mainly prepared by a surfactant, a bactericide, a polishing agent, an imported penetration agent, a unique brightness factor and other environmental protection technologies; has the characteristics of strong decontamination capability, permeability, bactericidal power, polishing brightness and the like. The unique permeability and polishing brightness factor can remove lime scale, aluminum scratch, metal scratch, black scale, mildew scale, water scale, various paints, various glues, various heavy oil stains and the like more quickly, and when the polishing. The water-saving detergent can use the characteristics of the detergent to save water with little or no water.

In the prior art, along with the enhancement of domestic environmental protection consciousness, the selection of products harmless to the environment has become a trend, but the existing cleaning agents are added with oxidants for improving the bleaching effect, and when people use the cleaning agents containing the oxidants for a long time, the cleaning agents can cause harm to the human body and the environment.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a production process of an antioxidant environment-friendly baking soda cleaning agent, which solves the problem that the prior cleaning agent is added with an oxidant to improve the bleaching effect and causes harm to human bodies and the environment when people use the cleaning agent containing the oxidant for a long time, and the problem that the prior cleaning agent has a trend of selecting products which are harmless to the environment along with the enhancement of the domestic environmental awareness.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a production process of an antioxidant environment-friendly baking soda cleaning agent comprises the following raw materials in parts by weight: 40-70 parts of food-grade baking soda, 5-20 parts of food-grade sodium carbonate, 25-40 parts of food-grade sodium citrate, 1-10 parts of food-grade enzyme preparation, 5-10 parts of nonionic surfactant and 10-20 parts of food-grade tea polyphenol.

Preferably, the method comprises the following steps:

the method comprises the following steps of material taking in the first step, weighing in the second step, premixing in the third step, melt extrusion in the fourth step, tabletting in the fifth step, coarse crushing in the sixth step, and fine crushing in the seventh step.

Preferably, the first step material comprises:

and taking food-grade baking soda, food-grade sodium carbonate, food-grade sodium citrate, food-grade enzyme preparation, nonionic surfactant and food-grade tea polyphenol raw materials from a material taking area.

Preferably, the second weighing step comprises:

the raw materials are weighed and divided according to the weight part ratio.

Preferably, the third step of premixing comprises:

and (4) putting the weighed and divided raw materials into a stirrer for stirring.

Preferably, the fourth step of melt extruding comprises:

the raw materials stirred and mixed sufficiently in the stirrer are heated and melted by a melting device.

Preferably, the fifth tabletting step comprises:

and cooling and extruding the heated and melted raw materials into sheets by a tablet machine.

Preferably, the sixth step of coarse pulverization comprises:

slicing the cooled raw materials, and feeding the sliced raw materials into a crusher for primary crushing.

Preferably, the seventh fine pulverization comprises:

feeding the coarsely pulverized material into a grinder, removing the superfine part with cyclone separator, and sieving with the grinder to obtain the final product.

(III) advantageous effects

The invention provides a production process of an antioxidant environment-friendly sodium bicarbonate cleaning agent. The method has the following beneficial effects:

(1) the production process of the antioxidant environment-friendly baking soda detergent has the advantages that the food-grade tea polyphenol with certain components is added into the raw materials, the food-grade tea polyphenol has the characteristics of strong antioxidant capacity, no toxic or side effect, no peculiar smell and the like, the antioxidant effect of the baking soda detergent can be improved, hands are not hurt during use, no harmful component is left, and the human body or the environment can be protected from being damaged.

(2) The production process of the antioxidant environment-friendly baking soda cleaning agent comprises the step of grinding the baking soda cleaning agent by a grinder, so that the baking soda cleaning agent exists in a fine powder state, and has the characteristics of harmlessness, high efficiency, resource saving and environmental protection.

Drawings

FIG. 1 is a schematic view of the step structure of the present invention;

FIG. 2 is a schematic view of the fine pulverization structure of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, the present invention provides a technical solution: a production process of an antioxidant environment-friendly baking soda cleaning agent comprises the following raw materials in parts by weight: 40-70 parts of food-grade baking soda, 5-20 parts of food-grade sodium carbonate, 25-40 parts of food-grade sodium citrate, 1-10 parts of food-grade enzyme preparation, 5-10 parts of nonionic surfactant and 10-20 parts of food-grade tea polyphenol.

Further, the method comprises the following steps:

the method comprises the following steps of material taking in the first step, weighing in the second step, premixing in the third step, melt extrusion in the fourth step, tabletting in the fifth step, coarse crushing in the sixth step, and fine crushing in the seventh step.

Further, the first step material comprises:

and taking food-grade baking soda, food-grade sodium carbonate, food-grade sodium citrate, food-grade enzyme preparation, nonionic surfactant and food-grade tea polyphenol raw materials from a material taking area.

Further, the second weighing step comprises:

the raw materials are weighed and divided according to the weight part ratio.

Further, the third step of premixing comprises:

and (4) putting the weighed and divided raw materials into a stirrer for stirring.

Further, the fourth melt extruding comprises:

the raw materials stirred and mixed sufficiently in the stirrer are heated and melted by a melting device.

Further, the fifth tabletting step comprises:

and cooling and extruding the heated and melted raw materials into sheets by a tablet machine.

Further, the sixth coarse pulverization step includes:

slicing the cooled raw materials, and feeding the sliced raw materials into a crusher for primary crushing.

Further, the seventh fine pulverization includes:

feeding the coarsely pulverized material into a grinder, removing the superfine part with cyclone separator, and sieving with the grinder to obtain the final product.

Referring to fig. 2, the present invention includes the following steps:

firstly, material taking, namely performing material taking operation on a material taking area according to materials required by food-grade baking soda, food-grade sodium carbonate, food-grade sodium citrate, food-grade enzyme preparations, nonionic surfactants and food-grade tea polyphenol;

weighing in the second step, namely weighing and dividing the raw materials from the material taking area, wherein the raw materials are proportioned according to the parts by weight: 40-70 parts of food-grade baking soda, 5-20 parts of food-grade sodium carbonate, 25-40 parts of food-grade sodium citrate, 1-10 parts of food-grade enzyme preparation, 5-10 parts of nonionic surfactant and 10-20 parts of food-grade tea polyphenol for approximate weighing;

the third step is premixing, the raw materials which are weighed and divided in proportion are placed in a stirrer to be stirred, so that the raw materials are fully mixed, food-grade tea polyphenol is added into the raw materials, the food-grade tea polyphenol is used as an antioxidant, and the tea polyphenol mostly contains more than 2 ortho-position hydroxyl polyphenols and has strong hydrogen supply capacity, so that the food-grade tea polyphenol is an antioxidant and can prevent the raw materials from being oxidized in the mixing process;

fourthly, melt extrusion, namely heating and melting the fully mixed raw materials by a melting device;

fifthly, tabletting, namely performing cold cutting and pressurization on the melted raw materials into tablets through a tabletting machine;

the sixth step of coarse crushing, namely cutting the flaky raw materials by a slicer to reduce the flaky area, and then putting the sliced raw materials into a crusher to perform primary crushing;

the seventh step is finely pulverized, the raw materials after the one-stage pulverization are put into a grinding machine, the grinding machine firstly cools the input raw materials through a refrigerating machine set, then the raw materials are separated originally through a cyclone separator, superfine particles are extracted through an induced draft fan and scrapped, the separated raw materials are put into a screening device through the cyclone separator, coarse powder is screened out through the screening device and reground, the rest raw materials can be finished into finished products, and the baking soda cleaning agent is made into materials through the grinding machine, so that the baking soda cleaning agent exists in a fine powder state, and the baking soda cleaning agent is harmless, high efficiency and resource and environmental protection characteristics are saved.

Example two:

referring to fig. 1, the present invention provides a technical solution: a production process of an antioxidant environment-friendly baking soda cleaning agent comprises the following raw materials in parts by weight: 50-60 parts of food-grade baking soda, 15-25 parts of food-grade sodium carbonate, 15-20 parts of food-grade sodium citrate, 5-15 parts of food-grade enzyme preparation, 10-15 parts of nonionic surfactant and 5-10 parts of food-grade tea polyphenol.

Further, the method comprises the following steps:

the method comprises the following steps of material taking in the first step, weighing in the second step, premixing in the third step, melt extrusion in the fourth step, tabletting in the fifth step, coarse crushing in the sixth step, and fine crushing in the seventh step.

Further, the first step material comprises:

and taking food-grade baking soda, food-grade sodium carbonate, food-grade sodium citrate, food-grade enzyme preparation, nonionic surfactant and food-grade tea polyphenol raw materials from a material taking area.

Further, the second weighing step comprises:

the raw materials are weighed and divided according to the weight part ratio.

Further, the third step of premixing comprises:

and (4) putting the weighed and divided raw materials into a stirrer for stirring.

Further, the fourth melt extruding comprises:

the raw materials stirred and mixed sufficiently in the stirrer are heated and melted by a melting device.

Further, the fifth tabletting step comprises:

and cooling and extruding the heated and melted raw materials into sheets by a tablet machine.

Further, the sixth coarse pulverization step includes:

slicing the cooled raw materials, and feeding the sliced raw materials into a crusher for primary crushing.

Further, the seventh fine pulverization includes:

feeding the coarsely pulverized material into a grinder, removing the superfine part with cyclone separator, and sieving with the grinder to obtain the final product.

Referring to fig. 2, the present invention includes the following steps:

firstly, material taking, namely performing material taking operation on a material taking area according to materials required by food-grade baking soda, food-grade sodium carbonate, food-grade sodium citrate, food-grade enzyme preparations, nonionic surfactants and food-grade tea polyphenol;

weighing in the second step, namely weighing and dividing the raw materials from the material taking area, wherein the raw materials are proportioned according to the parts by weight: 40-70 parts of food-grade baking soda, 5-20 parts of food-grade sodium carbonate, 25-40 parts of food-grade sodium citrate, 1-10 parts of food-grade enzyme preparation, 5-10 parts of nonionic surfactant and 10-20 parts of food-grade tea polyphenol for approximate weighing;

the third step is premixing, the raw materials which are weighed and divided in proportion are placed in a stirrer to be stirred, so that the raw materials are fully mixed, food-grade tea polyphenol is added into the raw materials, the food-grade tea polyphenol is used as an antioxidant, and the tea polyphenol mostly contains more than 2 ortho-position hydroxyl polyphenols and has strong hydrogen supply capacity, so that the food-grade tea polyphenol is an antioxidant and can prevent the raw materials from being oxidized in the mixing process;

fourthly, melt extrusion, namely heating and melting the fully mixed raw materials by a melting device;

fifthly, tabletting, namely performing cold cutting and pressurization on the melted raw materials into tablets through a tabletting machine;

the sixth step of coarse crushing, namely cutting the flaky raw materials by a slicer to reduce the flaky area, and then putting the sliced raw materials into a crusher to perform primary crushing;

the seventh step is finely pulverized, the raw materials after the one-stage pulverization are put into a grinding machine, the grinding machine firstly cools the input raw materials through a refrigerating machine set, then the raw materials are separated originally through a cyclone separator, superfine particles are extracted through an induced draft fan and scrapped, the separated raw materials are put into a screening device through the cyclone separator, coarse powder is screened out through the screening device and reground, the rest raw materials can be finished into finished products, and the baking soda cleaning agent is made into materials through the grinding machine, so that the baking soda cleaning agent exists in a fine powder state, and the baking soda cleaning agent is harmless, high efficiency and resource and environmental protection characteristics are saved.

According to the production process of the antioxidant environment-friendly baking soda detergent, the food-grade tea polyphenol with certain components is added into the raw materials, and the food-grade tea polyphenol has the characteristics of strong antioxidant capacity, no toxic or side effect, no peculiar smell and the like, so that the antioxidant effect of the baking soda detergent can be improved, the baking soda detergent is free from hurting hands when in use, and no harmful component is left, so that the human body or the environment can be protected from being damaged.

According to the production process of the antioxidant environment-friendly baking soda cleaning agent, the baking soda cleaning agent is formed by a grinding machine, so that the baking soda cleaning agent exists in a fine powder state, and has the characteristics of harmlessness, high efficiency, resource saving and environmental protection.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The production process of the antioxidant environment-friendly baking soda detergent is characterized by comprising the following raw materials in parts by weight: 40-70 parts of food-grade baking soda, 5-20 parts of food-grade sodium carbonate, 25-40 parts of food-grade sodium citrate, 1-10 parts of food-grade enzyme preparation, 5-10 parts of nonionic surfactant and 10-20 parts of food-grade tea polyphenol.

2. The production process of the oxidation-resistant environment-friendly baking soda cleaner as claimed in claim 1, characterized by comprising the following steps:

the method comprises the following steps of material taking in the first step, weighing in the second step, premixing in the third step, melt extrusion in the fourth step, tabletting in the fifth step, coarse crushing in the sixth step, and fine crushing in the seventh step.

3. The production process of the oxidation-resistant environment-friendly baking soda cleaner as claimed in claim 2, wherein the production process comprises the following steps: the first step material comprises:

and taking food-grade baking soda, food-grade sodium carbonate, food-grade sodium citrate, food-grade enzyme preparation, nonionic surfactant and food-grade tea polyphenol raw materials from a material taking area.

4. The production process of the oxidation-resistant environment-friendly baking soda cleaner as claimed in claim 2, wherein the production process comprises the following steps: the second weighing step comprises:

the raw materials are weighed and divided according to the weight part ratio.

5. The production process of the oxidation-resistant environment-friendly baking soda cleaner as claimed in claim 2, wherein the production process comprises the following steps: the third step of premixing comprises the following steps:

and (4) putting the weighed and divided raw materials into a stirrer for stirring.

6. The production process of the oxidation-resistant environment-friendly baking soda cleaner as claimed in claim 2, wherein the production process comprises the following steps: the fourth step of melt extrusion comprising:

the raw materials stirred and mixed sufficiently in the stirrer are heated and melted by a melting device.

7. The production process of the oxidation-resistant environment-friendly baking soda cleaner as claimed in claim 2, wherein the production process comprises the following steps: the fifth tabletting step comprises:

and cooling and extruding the heated and melted raw materials into sheets by a tablet machine.

8. The production process of the oxidation-resistant environment-friendly baking soda cleaner as claimed in claim 2, wherein the production process comprises the following steps: the sixth step of coarse crushing comprises:

slicing the cooled raw materials, and feeding the sliced raw materials into a crusher for primary crushing.

9. The production process of the oxidation-resistant environment-friendly baking soda cleaner as claimed in claim 2, wherein the production process comprises the following steps: the seventh step of fine crushing comprises:

feeding the coarsely pulverized material into a grinder, removing the superfine part with cyclone separator, and sieving with the grinder to obtain the final product.

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