WO2011088626A1

WO2011088626A1 - Manufacturing method of quantitatively-outputting ceramic rice storage device

Info

Publication number: WO2011088626A1
Application number: PCT/CN2010/070532
Authority: WO
Inventors: 黄耀生
Original assignee: Huang Yaosheng
Priority date: 2010-01-20
Filing date: 2010-02-05
Publication date: 2011-07-28
Also published as: CN102049808B; CN102049808A

Abstract

A manufacturing method of a quantitatively-outputting ceramic rice storage device includes the following steps: A. making a ceramic jar body with a top lid; B. making a rice quantitatively-outputting apparatus; C. making an adhesive; D. putting the rice quantitatively-outputting apparatus in the polished ceramic jar body and fixing it, and adhering the upper edge of the funnel of the rice quantitatively-outputting apparatus to the inner wall of the ceramic jar body with the adhesive and sealing the joint. The adhesive is a mixture composed of natural fresh egg white, gypsum powder (CaSO₄⋅2H₂O), white cement and pure water, therefore it is of safety and environmental protection, a firm adhesion can be obtained, and a crack or a lose powder phenomenon can be avoided.

Description

Method for manufacturing ceramic rice storage device for quantifying rice

The invention relates to a rice storage container, in particular to a method for manufacturing a ceramic rice storage device for quantitatively measuring rice. Background technique

At present, there are many kinds of storage containers for rice and other foods on the market. The ceramic rice storage device that can quantitatively produce rice is one of them. The basic structure is the combination of ceramic cylinder and quantitative rice device, such as Chinese patent number. The rice storage devices announced by ZL2008201177028 and ZL2008201392537 belong to this kind of products, and such rice storage devices have received the attention and use of the majority of users. In the production process of the metered rice ceramics, it is necessary to bond the joints of the ceramics to the inner cavity of the ceramic cylinder by means of an adhesive on the funnel of the metering device to seal the gap of the joint. However, the binder used in the existing quantitative rice ceramic rice storage device is a chemical product. When the grain in the rice storage device is in contact with the adhesive, it is contaminated by the adhesive, especially During the use process, when the cracking or powder falling phenomenon is not strong, the chemical binder particles fall into the rice storage device and are eaten by the food together with the food. Over time, the body will accumulate and the body will be human. Health causes harm.

Summary of the invention

It is an object of the present invention to provide a method of making a metered ceramic rice hopper. The method uses a safe and environmentally friendly adhesive to seal and bond the joint between the ceramic cylinder and the metered rice device without cracking or powder falling.

The object of the invention is achieved in this way:

A method for manufacturing a ceramic rice concentrator for quantifying rice, comprising the following steps:

A. Make a ceramic cylinder with a lid on the top, and set the pressing device under the ceramic cylinder The upper and lower openings corresponding to the button plate and the discharge chute are polished to the inner wall of the ceramic cylinder;

B. Making a certain amount of rice output device, the shape of the funnel on the quantitative rice device is matched with the inner cavity of the ceramic cylinder body, and the button plate and the discharge trough of the quantitative rice device are respectively arranged below the ceramic cylinder body The upper and lower openings are correspondingly arranged;

C, preparing a binder, the preparation method of the binder is as follows: a, egg white and purified water are mixed in a ratio of parts by weight to a ratio of 1: 1 and stirred uniformly to prepare an egg water mixture; b, Mixing raw gypsum powder (CaS0 ₄ *2H ₂ 0) and white cement in a ratio by weight ratio of 35 to 40: 60 to 65, stirring uniformly to prepare a mixed powder; c, by weight ratio of 27 ~29: ratio of 71~73, the mixed powder and egg water mixture are mixed, stirred evenly to obtain a binder;

D. The quantitative rice device is placed in the polished ceramic cylinder and fixed to the joint portion of the funnel on the inner wall of the ceramic cylinder, and the adhesive is used to bond the meter to the meter. The funnel of the device is sealed along the gap between the inner wall of the ceramic cylinder, and the bonding portion is smooth and smooth during the bonding process. After being placed for 24 hours, the adhesive is allowed to dry out, that is, the ceramic rice storage device is metered out.

In the A step, when the inner wall of the ceramic cylinder is polished, the inner wall of the ceramic cylinder is ground and cut from the top to the bottom by using a diamond grinding head, and then finely ground after the grinding is completed to make the surface of the cylinder smooth.

In the step C, the preparation method of the adhesive is as follows: a. Mix egg white and purified water in a ratio of 1:1 by weight, and mix well to prepare an egg water mixture; b. Raw gypsum powder (CaS0 ₄ *2H ₂ 0) and white cement are mixed in a ratio of 40: 60 by weight, and evenly mixed to prepare a mixed powder; c. Mixing powder in a ratio of parts by weight to 28:72 The mixture of the material and the egg-water mixture is mixed and stirred to obtain a binder.

In order to make the bonding position between the ceramic cylinder and the quantitative rice device smoother, in the D step, after the adhesive is dried, the evenly coated egg white is evenly coated at the bonding site, naturally Air dried. The invention has the beneficial effects that: the ceramic rice storage device produced by the method has a ceramic cylinder body and a joint portion of the quantitative rice device sealed and bonded, and a safe and environmentally friendly adhesive is used, the adhesive agent It is a mixture of natural and environmentally friendly fresh egg white, raw gypsum powder (CaS0 ₄ *2H ₂ 0), white cement and pure water. It is safe, environmentally friendly and firmly bonded without cracks or powder falling. The quantitative rice ceramic storage device of the present invention is also suitable for containing other granular foods.

The present invention will be further described below in conjunction with the embodiments.

detailed description

Example:

In this embodiment, a method for preparing a ceramic rice storage device for quantifying rice to produce a Chinese patent number

ZL2008201177028 discloses a quantitative ceramic rice storage device as an example, including the following steps:

A. First make a ceramic cylinder with a cover on the top. The ceramic cylinder is made by traditional ceramics, and will not be described here. When making the ceramic cylinder, the upper and lower openings corresponding to the button plate and the discharge chute of the metering device are disposed below the ceramic cylinder. After the ceramic cylinder is made, the inner wall of the ceramic cylinder is polished. When the inner wall of the ceramic cylinder is polished, the inner wall of the ceramic cylinder is ground and cut from the top to the bottom by using a diamond grinding head, and then finely ground after the grinding is completed. , to make the cylinder surface smooth.

B. Making a quantitative rice device, when making a quantitative rice device, the shape of the funnel on the quantitative rice device should be matched with the inner cavity of the ceramic cylinder, and the button plate and the discharge tank of the quantitative rice device respectively Corresponding to the upper and lower openings provided under the ceramic cylinder;

C. Preparation of a binder, the preparation method of the binder is as follows: a. Mix egg white and purified water in a ratio of 1:1 by weight, stir evenly to prepare a mixture of egg water; b. Mixing powder (CaS0 ₄ *2H ₂ 0) and white cement in a ratio of 40: 60 by weight, stirring uniformly to form a mixed powder; c, mixing in a ratio of 28:72 by weight Mix the powder and egg water mixture and mix well. 5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5 .

D. The quantitative rice device is placed in the polished ceramic cylinder to be fixed, and the button plate and the discharge trough of the quantitative rice device are respectively arranged corresponding to the upper and lower openings provided under the ceramic cylinder body, and the meter is metered out. The funnel of the device is bonded to the inner wall of the ceramic cylinder and bonded by the adhesive to seal the gap between the funnel of the metering device and the inner wall of the ceramic cylinder, and the adhesive is adhered during the bonding process. The joint is smooth and smooth, and after 24 hours, the adhesive is allowed to dry out, that is, the ceramic rice hopper having a metered amount of rice is obtained. In this embodiment, in order to make the bonding portion between the ceramic cylinder and the quantitative rice device smoother, after the adhesive is dried, the adhered portion can be uniformly coated again with the stirred egg white. Then air dry naturally.

The rice storage device disclosed in Chinese Patent No. 200820139253. 7 can also be made by using the concept of the method of the present invention, and the outer casing and the sliding plate of the rice storage device are made into a ceramic cylinder body, and the feeding tube of the metering device of the rice storage device is The slide in the ceramic cylinder is bonded.

Finally, it should be noted that the above embodiments are only for illustrating the present invention, and do not limit the technical solutions described in the present invention; therefore, although the present specification has been described in detail in the above embodiments, It is to be understood by those skilled in the art that the present invention may be modified or equivalently substituted without departing from the spirit and scope of the invention.

Claims

Claim

A method for fabricating a ceramic rice concentrator for quantitative metering, characterized in that it comprises the following steps:

A. A ceramic cylinder with a cover is prepared, and two upper and lower openings corresponding to the button plate and the discharge chute of the quantitative rice device are arranged under the ceramic cylinder body, and the inner wall of the ceramic cylinder is polished;

C, preparing a binder, the preparation method of the binder is as follows: a, egg white and purified water are mixed in a ratio of parts by weight to a ratio of 1: 1 and stirred uniformly to prepare an egg water mixture; b, The raw gypsum powder and the white cement are mixed in a ratio of 35 to 40: 60 to 65 by weight ratio, and uniformly stirred to prepare a mixed powder; c, the ratio by weight to the ratio of 27 to 29: 71 to 73 Mixing the mixed powder and the egg-water mixture, and stirring uniformly to obtain a binder;

D. The quantitative rice device is placed in the polished ceramic cylinder for fixing, and the bonding portion of the funnel on the inner wall of the ceramic cylinder is bonded with the adhesive to make the quantitative rice device. The funnel is sealed along the gap between the inner wall of the ceramic cylinder, and the bonding portion is smooth and smooth during the bonding process. After being placed for 24 hours, the adhesive is allowed to dry out, that is, the ceramic rice storage device is quantitatively obtained.

2 . The method for manufacturing a quantitative rice ceramic rice storage device according to claim 1 , wherein in the step A, when the inner wall of the ceramic cylinder is polished, the inner wall of the ceramic cylinder is polished by using a diamond grinding head Grinding is performed from top to bottom, and fine grinding is performed after grinding and cutting to make the surface of the cylinder smooth.

The method for manufacturing a quantitative rice ceramic rice storage device according to claim 1, wherein in the step C, the preparation method of the adhesive agent is as follows: a. weighing egg white and purified water by weight Number of copies Mixing ratio of 1:1, mixing evenly, making egg-water mixture; b, mixing raw gypsum powder and white cement in a ratio of 40:60 by weight, stirring evenly to make mixed powder; c. Mix the mixed powder and the egg-water mixture in a ratio of parts by weight to 28:72, and stir evenly to obtain a binder.

The method for manufacturing a metered rice ceramic rice storage device according to claim 1, wherein in the D step, after the adhesive is dried, the stirred egg white is further used at the bonding portion. Apply evenly and dry naturally.