Microwave oven cleanser and preparation method thereof

A technology for cleaning agents and microwave ovens, applied in chemical instruments and methods, detergent compounding agents, detergent compositions, etc., can solve the problems of unsatisfactory removal of oil stains, low safety of formula raw materials, and unsatisfactory cleaning effects, etc. problems, achieve excellent transparency and fluidity, high temperature and freeze-thaw stability, and easy secondary cleaning effect

Inactive Publication Date: 2017-06-13
于文 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Due to the stubborn grease on the inner wall of the microwave oven, the traditional cleaning method is mainly to clean the microwave oven with a rag dipped in detergent or kitchen cleaner. After cleaning, it needs to be scrubbed again with water.
Commercially available kitchen degreasing cleaners are highly alkaline, and although they have a strong ability to remove heavy oil stains, they are also highly corrosive, causing corrosion to the surface of the object to be cleaned, and

Method used

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  • Microwave oven cleanser and preparation method thereof
  • Microwave oven cleanser and preparation method thereof
  • Microwave oven cleanser and preparation method thereof

Examples

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preparation example Construction

[0066]The preparation method of above-mentioned microwave oven cleaning agent, comprises the following steps:

[0067] Step 1: prepare materials according to the following proportions by weight:

[0068] 1-15 parts by weight of nonionic surfactant;

[0069] 5-50 parts by weight of safe and environment-friendly solvent;

[0070] 0.05-5 parts by weight of rheology modifier;

[0071] 0.05-5 parts by weight of anti-oil redeposition agent;

[0072] 1-10 parts by weight of acid-base regulator;

[0073] 0.05 to 2 parts by weight of conventional additives;

[0074] Deionized water balance;

[0075] The sum of parts by weight of each component is 100;

[0076] Step 2: At room temperature, add a rheology modifier to deionized water, dilute the rheology modifier at least 10 to 20 times, stir and mix evenly to obtain solution A;

[0077] Step 3: Add non-ionic surfactants into solution A one by one, stir and mix in turn to obtain solution B;

[0078] Step 4: Add an anti-oil redepos...

Embodiment 1

[0090] Step 1: prepare materials according to the following proportions by weight:

[0091] 1 part by weight of nonionic surfactant;

[0092] 50 parts by weight of safe and environment-friendly solvent;

[0093] 0.05 parts by weight of rheology modifier;

[0094] 5 parts by weight of anti-oil redeposition agent;

[0095] 1 part by weight of acid-base regulator;

[0096] 2 parts by weight of conventional additives;

[0097] Deionized water balance;

[0098] The sum of parts by weight of each component is 100;

[0099] Step 2: At room temperature, add a rheology modifier to deionized water, dilute the rheology modifier at least 10 times, stir and mix evenly, and obtain solution A;

[0100] Step 3: Add non-ionic surfactants into solution A one by one, stir and mix in turn to obtain solution B;

[0101] Step 4: Add an anti-oil redeposition agent into solution B, stir until it dissolves evenly, and obtain solution C;

[0102] Step 5: Add safe and environment-friendly solven...

Embodiment 2

[0113] Step 1: prepare materials according to the following proportions by weight:

[0114] 7 parts by weight of nonionic surfactant;

[0115] 30 parts by weight of safe and environment-friendly solvent;

[0116] 2.5 parts by weight of rheology modifier;

[0117] 2.5 parts by weight of anti-oil redeposition agent;

[0118] 5 parts by weight of acid-base regulator;

[0119] 1 part by weight of conventional additives;

[0120] Deionized water balance;

[0121] The sum of parts by weight of each component is 100;

[0122] Step 2: At room temperature, add a rheology modifier to deionized water, dilute the rheology modifier at least 15 times, stir and mix evenly, and obtain solution A;

[0123] Step 3: Add non-ionic surfactants into solution A one by one, stir and mix in turn to obtain solution B;

[0124] Step 4: Add an anti-oil redeposition agent into solution B, stir until it dissolves evenly, and obtain solution C;

[0125] Step 5: Add safe and environment-friendly solv...

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Abstract

The invention relates to microwave oven cleanser and a preparation method thereof. As oil dirt on an inner wall of a microwave oven is more stubborn, a cleaning effect of a traditional cleaning method is not ideal. The microwave oven cleanser disclosed by the invention is prepared from a non-ionic surface active agent, a safe environment-friendly solvent, a rheology modifier, an oil dirt redeposition resisting agent, an acid-base conditioning agent, a general addition agent and deionized water; the microwave oven cleanser is moderate, free of stimulation, safe, free of toxin, convenient to use, green and environment-friendly; the microwave oven cleanser is a product which can fully remove stubborn oil dirt and is specially applied to cleaning the microwave oven. The microwave oven cleanser disclosed by the invention has a moderate formula and avoids corroding a coating and a device; secondary cleaning is facilitated by adding an oil dirt redeposition resisting technology; by means of a gel state, the microwave oven cleanser has long retention time, can fully remove oil and can provide a clean cooking environment.

Description

technical field [0001] The invention belongs to the field of cleaning oil stains on kitchen utensil surfaces, and in particular relates to a microwave oven cleaner and a preparation method thereof. Background technique [0002] With the advancement of science and technology, the pace of life of urban residents has accelerated, and more and more kitchen appliances for fast cooking have been used, such as microwave ovens, electric cake stalls, and electric ovens. During the use of the microwave oven, a certain amount of water will volatilize when the food is heated by the microwave. This water often entrains substances such as grease and adheres to the inner wall of the microwave oven. Because the oil stains volatilized by heating or cooking food are not obvious, people generally do not wipe the inner wall of the microwave oven frequently. Therefore, the oil stains on the inner wall of the microwave oven are basically the result of accumulation over time. After repeated heatin...

Claims

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Application Information

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IPC IPC(8): C11D1/825C11D3/60C11D3/44C11D3/37C11D3/20C11D3/04C11D3/10C11D3/30
CPCC11D1/825C11D1/66C11D1/662C11D1/667C11D1/72C11D1/8255C11D3/044C11D3/10C11D3/201C11D3/2044C11D3/2065C11D3/2068C11D3/2086C11D3/30C11D3/3707C11D3/3765C11D3/3773C11D3/3776
Inventor 于文雷敏
Owner 于文
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