CN201589953U - Electronic control apparatus for full-automatic tea-drinking machine - Google Patents

Abstract

The utility model relates to an electronic control apparatus for full-automatic tea-drinking machine, including a power module providing electricity to the apparatus, a microcontroller for performing control algorithm, a man-machine interaction module provided with a key, an LED and a buzzer, a milling motor control circuit for controlling the start and stop of the milling motor, a wafering motor control circuit for controlling the positive turn or reverse turn of the wafering motor, a sealing motor control circuit for controlling the positive turn or reverse turn of the sealing motor, a water pump control circuit for controlling on or off of the water pump, a water temperature sense circuit for detecting the water temperature at heating member export, and a flow quantity sense circuit for detecting the pump output of the water pump. The tea leaves are pulverized, and extruded into a tea bread, and then the hot-water with high-temperature and high-pressure to making tea, the utility model has positive effect of good tea taste and fast preparing velocity, and can meet the drinking of multiple persons.

Description

The electronic-controlled installation of full-automatic tea-drinking machine

Technical field

The utility model relates to a kind of electronic-controlled installation of full-automatic tea-drinking machine, belongs to household appliance technical field.

Background technology

Have very long history though Chinese drink tea, still adopt very traditional method of drink now.Tealeaves is put into the teacup the inside, adds the hot-water soak of proper temperature then.After a period of time, just can drink the tea of delicate fragrance.With the quickening pace of modern life, the beverage that people need to have sth. ready while waiting satisfies life style efficiently, if a kind of drink needs time waiting, would rather not drink so.Therefore, increasing young man likes cola, Sprite or instant coffee, and has abandoned healthy more tea drink.

Summary of the invention

The purpose of this utility model is in order to change traditional method of drink, with the tealeaves pulverize, and is squeezed into the tea cake, and the hot water with High Temperature High Pressure brews then, can improve the tea mouthfeel, and it is fast to produce speed, can satisfy more people and drink.

The technical scheme that its technical matters that solves the utility model adopts is:

The electronic-controlled installation of full-automatic tea-drinking machine is included as the power module that this device provides electric power, carries out the single-chip microcomputer of control algolithm, with the human-computer interaction module that described single-chip microcomputer is connected, is used for instruction input and information feedback; The abrasive dust circuit for controlling motor that is connected with described single-chip microcomputer, be used to control the abrasive dust motor startup, stop; The cake of press circuit for controlling motor that is connected with described single-chip microcomputer is used to control the forward or reverse of cake of press motor; The sealed electric-motor control circuit that is connected with described single-chip microcomputer is used to control the forward or reverse of sealed electric-motor; The calandria control circuit that is connected with described single-chip microcomputer, the heating power of control calandria; With the water pump control circuit that described single-chip microcomputer is connected, be used to control opening or closing of water pump; The water temperature testing circuit that is connected with described single-chip microcomputer detects the water temperature that calandria exports; The flow detection circuit that is connected with described single-chip microcomputer can detect the pump-out of water pump.

Described human-computer interaction module is provided with button, light emitting diode and hummer.Described button is set to touch-switch or touch-screen, can select different tea kinds to brew, and described single-chip microcomputer is provided with the different water temperatures that brews according to different tea kinds.

Described water temperature testing circuit, the outlet of thermistor R1 at described calandria is set, and described thermistor R1 one end is connected with power supply VCC, and an end is connected with resistance R 2 with the AD1 mouth of described single-chip microcomputer, described resistance R 2 other end ground connection, capacitor C 4 is in parallel with described resistance R 2.

The beneficial effects of the utility model mainly show: 1, circuit structure is simple, and is reliable and stable, and the life-span is long; 2, has abundant man-machine interface; 3, can improve the tea mouthfeel, accelerate to produce speed, satisfy more people and drink;

Description of drawings

Fig. 1 is the system principle diagram of the electronic-controlled installation of full-automatic tea-drinking machine;

Fig. 2 is the power module schematic diagram of the electronic-controlled installation of full-automatic tea-drinking machine;

Fig. 3 is the abrasive dust circuit for controlling motor schematic diagram of the electronic-controlled installation of full-automatic tea-drinking machine;

Fig. 4 is cake of press motor, the sealed electric-motor control circuit schematic diagram of the electronic-controlled installation of full-automatic tea-drinking machine;

Fig. 5 is calandria, the water pump control circuit schematic diagram of the electronic-controlled installation of full-automatic tea-drinking machine;

Fig. 6 is the water temperature testing circuit schematic diagram of the electronic-controlled installation of full-automatic tea-drinking machine.

Embodiment

Below in conjunction with accompanying drawing the utility model is further described.

With reference to Fig. 1-6, the electronic-controlled installation of full-automatic tea-drinking machine is included as the power module 2 that this device provides electric power, carries out the single-chip microcomputer 1 of control algolithm, with the human-computer interaction module 3 that described single-chip microcomputer 1 is connected, is used for instruction input and information feedback; With the abrasive dust circuit for controlling motor 4 that described single-chip microcomputer 1 is connected, be used to control the abrasive dust motor startup, stop; With the cake of press circuit for controlling motor 5 that described single-chip microcomputer 1 is connected, be used to control the forward or reverse of cake of press motor; With the sealed electric-motor control circuit 6 that described single-chip microcomputer 1 is connected, be used to control the forward or reverse of sealed electric-motor; The calandria control circuit 7 that is connected with described single-chip microcomputer 1, the heating power of control calandria; With the water pump control circuit 8 that described single-chip microcomputer 1 is connected, be used to control opening or closing of water pump; The water temperature testing circuit 9 that is connected with described single-chip microcomputer 1 detects the water temperature that calandria exports; With the flow detection circuit 10 that described single-chip microcomputer 1 is connected, can detect the pump-out of water pump.

Described power module 2, comprise transformer T1, its input end connects the civil power that exchanges, output connects rectifier D1, the output terminal output low-voltage AC of described rectifier D1, filtering generates power supply V24 later on through electrochemical capacitor C1, and linear power supply U1 input end connects power supply V24, output terminal connects capacitor C 2, generates power supply VCC.Linear power supply U1 can adopt LM7805.

Described human-computer interaction module 3 is provided with button, light emitting diode and hummer.Described button is set to touch-switch or touch-screen, can select different tea kinds to brew, such as, green tea, black tea, oolong tea etc., described single-chip microcomputer 1 is provided with the different water temperatures that brews according to different tea kinds.Described light emitting diode as the background light source of described button, can adopt the mode of lighting, glimmering to point out, and described hummer is as the auditory tone cues under the abnormal conditions.

Described abrasive dust circuit for controlling motor 4 adopts circuit structure as shown in Figure 3.Described single-chip microcomputer 1 control actuating switch pipe Q1, the abrasive dust motor rotates, and it is the effect of voltage signal that flow measurement resistance R 3 plays current conversion, connects the AD3 mouth of described single-chip microcomputer 1, and the detection by described single-chip microcomputer 1 can realize overcurrent protection.

Described cake of press circuit for controlling motor 5 and sealed electric-motor control circuit 6, adopt circuit structure as shown in Figure 4, bridge circuit on switching tube Q2 and the switching tube Q4 composition, switching tube Q3 and switching tube Q5 form bridge circuit down, connect cake of press motor or sealed electric-motor between last bridge circuit and the following bridge circuit, two ends shunt capacitance C3 plays the effect of filtering noise jamming.Flow measurement resistance R 4 is connected down between bridge circuit and the ground, can be voltage signal with current conversion, and connects the AD2 mouth of single-chip microcomputer 1, and the detection by single-chip microcomputer 1 can realize overcurrent protection.When motor just changes, single-chip microcomputer 1 control actuating switch pipe Q2 and switching tube Q5, off switch pipe Q3 and switching tube Q4; When motor reverses, single-chip microcomputer 1 control off switch pipe Q2 and switching tube Q5, actuating switch pipe Q3 and switching tube Q4.

Described calandria control circuit 7 and water pump control circuit 8 adopt circuit structure as described in Figure 5.This circuit is subjected to described single-chip microcomputer 1 control, when controllable silicon Q6 conducting, and calandria or pump working; When controllable silicon Q6 by the time, calandria or water pump quit work, capacitor C 5 plays the afterflow effect.

Described flow detection circuit 10 can detect the pump-out of water pump.Adopt flowmeter to be arranged on the water pump front end, the every certain excessively flow of flowmeter can send a signal, and this signal is delivered to described single-chip microcomputer 1, and single-chip microcomputer 1 leaving or closing according to this signal controlling water pump, realizes the control of confluent.

Described water temperature testing circuit 9 adopts circuit structure as shown in Figure 6.The outlet of thermistor R1 at described calandria is set, and described thermistor R1 one end is connected with power supply VCC, and an end is connected with resistance R 2 with the AD1 mouth of described single-chip microcomputer, described resistance R 2 other end ground connection, and capacitor C 4 is in parallel with described resistance R 2.The resistance of thermistor R1 changes along with the variation of water temperature, and the input voltage of the AD1 mouth of single-chip microcomputer 1 also changes thereupon, therefore just can obtain concrete water temperature numerical value by the numerical value of measuring this voltage.

Claims (4)

1. the electronic-controlled installation of full-automatic tea-drinking machine is included as the power module that this device provides electric power, it is characterized in that: also comprise the single-chip microcomputer of carrying out control algolithm,

With the human-computer interaction module that described single-chip microcomputer is connected, be used for instruction input and information feedback;

The abrasive dust circuit for controlling motor that is connected with described single-chip microcomputer, be used to control the abrasive dust motor startup, stop;

The cake of press circuit for controlling motor that is connected with described single-chip microcomputer is used to control the forward or reverse of cake of press motor;

The sealed electric-motor control circuit that is connected with described single-chip microcomputer is used to control the forward or reverse of sealed electric-motor;

The calandria control circuit that is connected with described single-chip microcomputer, the heating power of control calandria;

With the water pump control circuit that described single-chip microcomputer is connected, be used to control opening or closing of water pump;

The water temperature testing circuit that is connected with described single-chip microcomputer detects the water temperature that described calandria exports;

The flow detection circuit that is connected with described single-chip microcomputer can detect the pump-out of described water pump.

2. the electronic-controlled installation of full-automatic tea-drinking machine as claimed in claim 1 is characterized in that: described human-computer interaction module is provided with button, light emitting diode and hummer.

3. the electronic-controlled installation of full-automatic tea-drinking machine as claimed in claim 1, it is characterized in that: described button, be set to touch-switch or touch-screen, can select different tea kinds to brew, described single-chip microcomputer is provided with the different water temperatures that brews according to different tea kinds.

4. the electronic-controlled installation of full-automatic tea-drinking machine as claimed in claim 1, it is characterized in that: described water temperature testing circuit, the outlet of thermistor R1 at described calandria is set, described thermistor R1 one end is connected with power supply VCC, one end is connected with resistance R 2 with the AD1 mouth of described single-chip microcomputer, described resistance R 2 other end ground connection, capacitor C 4 is in parallel with described resistance R 2.

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