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Method for making soybean milk by a full-automatic soybean milk maker

A soybean milk machine, fully automatic technology, applied in applications, dairy products, household appliances, etc., can solve problems such as long working hours, low milk yield, uncertain water temperature, etc., to shorten working hours, ensure stability, and ensure water temperature. Effect

Active Publication Date: 2013-04-10
KINGCLEAN ELECTRIC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] The current automatic soymilk machines usually have the function of "dried beans". Under the control of the internal preset program of the soymilk machine, it is possible to make delicious soymilk without soaking soybeans for a long time. The key is to grasp the water temperature And accurate control of beating time. According to long-term tests, the water temperature during beating should generally be stable between 90°C and 95°C, so as to ensure that the subsequent delayed cooking process is not easy to produce paste tubes; for this reason, the existing soymilk machine Usually, a temperature sensing device is installed to detect the water temperature, and timely feedback information to the microcontroller control circuit to determine the start and stop of the heating tube and the beating motor, but the introduction of the temperature sensing device will undoubtedly increase the cost of the soybean milk machine
[0003] Of course, there are also soymilk makers on the market without a temperature sensor device, which usually heat up first, and then beat the pulp with a preset time value. The working time is long, and the water temperature during beating is uncertain. Although it is easy to cook the beans, it will lead to a low pulp yield during beating. If the initial water temperature is low, it is easy to produce mushy tubes when cooking after beating.

Method used

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  • Method for making soybean milk by a full-automatic soybean milk maker
  • Method for making soybean milk by a full-automatic soybean milk maker

Examples

Experimental program
Comparison scheme
Effect test

Embodiment

[0018] Embodiment: The present invention uses the method for making soybean milk with full-automatic soya-bean milk machine, is attached to existing full-automatic soya-bean milk machine and realizes, and the structure of this full-automatic soya-bean milk machine is as follows figure 1 As shown, it mainly includes a machine head 1 and a cup body 2 that are interlocked with each other. The machine head 1 is provided with a control circuit board and a motor electrically connected to the control circuit board, an electric heating tube 3, an anti-overflow electrode 4, and an anti-dry heating device. Electrode 5, button panel 6 and audible alarm. The bottom of the machine head 1 extends into the cup body 2, on which a circle of splash guard 7 is formed; the motor spindle 7 extends out of the machine head 1 and fixes the rotary blade 8, and the key panel 6 is also provided with a signal indicator light . The bottom of the cup body 2 is provided with a turbulent body 10 , and the r...

Embodiment approach 1

[0022] 1. If the machine head 1 is placed in place, then connect the normally open contact, turn on the power, and the indicator light of the function key will flash cyclically.

[0023] 2. Start the "Dry Bean" function, the "Dry Bean" indicator light will be on, and two "beep" beeps will prompt the program to start working.

[0024] 3. Check the anti-overflow (this step should not be connected), anti-dry heating (should be connected during the whole working process) signal detection circuit, if it does not meet the normal state, it will alarm. If there is no problem, the motor beats for 10 to 50 seconds to produce an appropriate amount of foam.

[0025] 4. After the motor stops, the electric heating tube starts heating, and stops heating when the foam touches the anti-overflow electrode. After the foam leaves the anti-overflow electrode for t seconds (where t=15~25), perform the next step:

[0026] 5. Beating steps: start the motor for beating n times, n≥2 (n is preferably 3...

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Abstract

The invention discloses a method for making soybean milk by a full-automatic soybean milk maker The method comprises steps of heating, mashing and subsequent boiling performed by a full-automatic soybean milk maker controlled by a single-chip microcomputer program; which is characterized in that a motor initiates mashing for several seconds before heating for producing proper foams, a tubular heater heats the soybean milk till the foams get into contact with an overflow prevention electrode, and then steps such as subsequent mashing and boiling are performed. The method for making soybean milk by the full-automatic soybean milk maker is characterized by mashing and cooling to stabilize water temperature immediately after heating and boiling the soybean milk till the foams get into contactwith the overflow prevention electrode, thus being capable of accurately controlling the water temperature without a temperature sensor, ensuring stability of the water temperature in mashing, and preventing pasty soybean milk on the heater during boiling out so that delicious soybean milk is made; hot water can be added in this method to reduce the working time.

Description

technical field [0001] The invention relates to a method for making soybean milk with a full-automatic soybean milk machine. Background technique [0002] The current automatic soymilk machines usually have the function of "dried beans". Under the control of the internal preset program of the soymilk machine, it is possible to make delicious soymilk without soaking soybeans for a long time. The key is to grasp the water temperature And accurate control of beating time. According to long-term tests, the water temperature during beating should generally be stable between 90°C and 95°C, so as to ensure that the subsequent delayed cooking process is not easy to produce paste tubes; for this reason, the existing soymilk machine Usually, a temperature sensing device is installed to detect the water temperature, and timely feedback information to the microcontroller control circuit to determine the start and stop of the heating tube and the beating motor, but the introduction of th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A23L1/20A23C11/10A47J31/00A47J31/44A47J31/54A47J31/56A23L11/65
Inventor 倪祖根
Owner KINGCLEAN ELECTRIC