CN105615654A - Full-automatic milk powder mixing equipment - Google Patents

Abstract

The invention provides full-automatic milk powder mixing equipment. A shell is cylindrical. A display screen and a rotary knob are arranged on the top of the shell. A water supply cavity, a milk powder cavity and a stirring cavity are formed in the shell. A boiling water cavity is formed in the upper half portion of the water supply cavity, and a warm water cavity is formed in the lower half portion of the water supply cavity. A quantitative supply device is arranged in the milk powder cavity; the stirring cavity is connected with the warm water cavity through a second electromagnetic valve and connected with a discharge port of the quantitative supply device through a third electromagnetic valve; an electromotor is arranged on the top of the stirring cavity, an output shaft of the electromotor is connected with a stirring blade through a coupler, and the bottom of the stirring cavity is connected to a milk outlet in the shell through a fourth electromagnetic valve; a first heating rod is connected to an alternating current power source, a second heating rod is connected to the output end of a power conversion circuit, and the input end of the power conversion circuit is connected to the alternating current power source.

Description

A kind of full-automatic milk powder preparation facilities

Technical field

The present invention relates to electricity field, in particular to the full-automatic milk powder preparation facilities of one.

Background technology

For the father and mother of newborn infant, rush milk powder be one heavy and need careful work. Baby may drink milk at any time, it is necessary to the boiling water punching preparing suitable temperature at any time is released, if milk water temp is too high, can destroy whey-protein structure in milk powder, cause milk powder nutrition leak; If milk water temp is too low, milk powder dissolves insufficient, causes baby to absorb not, even there will be the situation that stomach is suffered from cold; If milk excessive concentration, except babies causes having indigestion, fever, the sodium ion in milk powder cannot dilute, and causes baby's brain capillary rupture, can affect infant intelligence and grow time serious; If milk water concentration is inadequate, protein content deficiency will cause again infant nutrition bad, and physique is poor.

Manually carry out rushing milk to be difficult to temperature and concentration are accomplished accurate control, and need the regular hour to prepare, a lot of time can be expended.

Summary of the invention

The present invention proposes a kind of full-automatic milk powder preparation facilities, solves the problem manually rushed milk in prior art and be difficult to temperature and concentration are accurately controlled and expended time in.

The technical scheme of the present invention is achieved in that

A kind of full-automatic milk powder preparation facilities, shell is cylindrical, and cover top portion is provided with for the display screen of indicating system data and arranges the knob rushing milk amount; Enclosure is provided with cylindrical feedwater chamber, milk powder chamber and stir chamber; The upper half portion in described feedwater chamber is boiling water chamber, lower half is warm water chamber, boiling water chamber is provided with the first temperature inductor, the first water level sensor and the first heating rod, warm water chamber is provided with the 2nd temperature inductor, the 2nd water level sensor and the 2nd heating rod, is connected by the first magnetic valve between boiling water chamber and warm water chamber; Described milk powder chamber comprises for the weigh feeder to milk powder measurement; Described stir chamber is connected with described warm water chamber by the 2nd magnetic valve, is connected with the discharge port of described weigh feeder by the 3rd magnetic valve, the top of stir chamber is provided with electric motor, the output shaft of electric motor is connected with stirring rake by shaft coupling, the milk outlet that the bottom of stir chamber is connected on described shell by the 4th magnetic valve; Described display screen, knob, the first temperature inductor, the first water level sensor, the 2nd temperature inductor, the 2nd water level sensor, the first magnetic valve, the 2nd magnetic valve, the 3rd magnetic valve, the 4th magnetic valve, weigh feeder and electric motor are connected to controller, described first heating rod is connected to AC power, described 2nd heating rod is connected to the output terminal of power converter circuit, and the input terminus of power converter circuit is connected to described AC power;

Described power converter circuit comprises:

Input port, receives input voltage;

Output port, it is provided that output voltage;

Rectification unit, is coupled to input port and receives input voltage, produce rectification voltage;

Transformer, comprises former limit winding and vice-side winding, and its limit, Central Plains winding and vice-side winding respectively have the first terminal and two-terminal, and the first terminal of former limit winding is coupled to rectification unit and receives rectification voltage, and the two-terminal of vice-side winding connects secondary side reference ground;

Former limit power switch, is coupled between the two-terminal of former limit winding and reference ground, former limit;

Secondary side diode, is coupled between the first terminal of vice-side winding and output port;

Output capacitance device, is coupled between output port and secondary side reference ground;

Feedback component, comprises secondary part and former rim portion;

Secondary contact resistance, the first Zener diode and former limit contact resistance, wherein secondary part, secondary contact resistance and the first Zener diode are coupled in series between output port and secondary side reference ground, produce feedback voltage with the former rim portion in feedback component;

Voltage comparator, has in-phase input end, inverting input and output terminal, its inverting input threshold level voltage, and its in-phase input end is coupled to feedback component and receives feedback voltage, and its output terminal produces voltage comparison signal;

Error amplifier, has in-phase input end, inverting input and output terminal, and its in-phase input end receives reference voltage, and the former rim portion that its inverting input is coupled to feedback component receives feedback voltage, and its output terminal produces error amplification signal;

Clamper, is coupled between the output terminal of error amplifier and reference ground, former limit;

First logical switch, has the first terminal, two-terminal and control terminal, and the output terminal that its first terminal is coupled to error amplifier receives error amplification signal, and the output terminal receiver voltage that its control terminal is coupled to voltage comparator compares signal;

2nd logical switch, has the first terminal, two-terminal and control terminal, and its first terminal couples current peak signal, and the output terminal receiver voltage that its control terminal is coupled to voltage comparator compares signal;

Electric current comparer, there is in-phase input end, inverting input and output terminal, its in-phase input end is coupled to the coupled in series node of former limit power switch and former limit winding to receive the current sampling signal characterizing and flowing through former limit power switch, its inverting input is coupled to the two-terminal of the first logical switch and the two-terminal of the 2nd logical switch, and its output terminal generation current compares signal;

Control and driving circuit, the output terminal being coupled to electric current comparer receives current ratio relatively signal, and based on current ratio relatively signal, produces switching drive signal, to control the break-make of former limit power switch.

Can selection of land, the full-automatic milk powder preparation facilities of the present invention also comprises the lithium cell being connected to described power converter circuit output end.

Can selection of land, described shell is also provided with and the USB interface that described lithium cell is connected.

Can selection of land, described controller is dsp processor.

Can selection of land, the lower section of described shell milk outlet is provided with tank, sink top install slip through the net.

Can selection of land, described cover top portion is also provided with LED.

Can selection of land, the quantity in described milk powder chamber is multiple.

Can selection of land, the rotating disk clockwise direction of described knob is disposed with scale 0,3,6,9,12,15,18,21.

Can selection of land, the top of described shell is also provided with handle.

The invention has the beneficial effects as follows:

(1) temperature of milk and concentration accurately can be controlled, save the time;

(2) the normal use gone out when carrying can be ensured by additional lithium battery.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, it is briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the perspective view of the full-automatic milk powder preparation facilities embodiment of the present invention;

Fig. 2 is the plan structure schematic diagram of the full-automatic milk powder preparation facilities embodiment of the present invention;

Fig. 3 is the control circui block diagram of the full-automatic milk powder preparation facilities embodiment of the present invention;

Fig. 4 is the structural representation of knob in Fig. 1;

Fig. 5 is the perspective view of full-automatic milk powder another embodiment of preparation facilities of the present invention;

Fig. 6 is the control circui block diagram of full-automatic milk powder another embodiment of preparation facilities of the present invention;

Fig. 7 is the schematic circuit of power converter circuit of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only the present invention's part embodiment, instead of whole embodiments. Based on the embodiment in the present invention, those of ordinary skill in the art, not making other embodiments all obtained under creative work prerequisite, belong to the scope of protection of the invention.

As shown in Figure 1 to Figure 3, an embodiment according to the full-automatic milk powder preparation facilities of the present invention, the shell 10 of full-automatic milk powder preparation facilities is cylindrical, shell 10 top is provided with for the display screen 11 of indicating system data and arranges the knob 12 rushing milk amount, display screen 11 indication example such as water temperature, water outlet, go out the status information such as milk, lack of water, in Fig. 1, the shape of display screen 11 is only schematic, and those skilled in the art can be designed to arbitrary shape to realize effect attractive in appearance. shell 10 inside is provided with cylindrical feedwater chamber 20, milk powder chamber 30 and stir chamber 40, the upper half portion in feedwater chamber 20 is boiling water chamber 21, lower half is warm water chamber 26, boiling water chamber 21 is provided with the first temperature inductor 22, first water level sensor 23 and the first heating rod 24, first temperature inductor 22 detects the water temperature in boiling water chamber 21, export the first water temperature signal to controller 50, ensure that water temperature reaches 100 degrees Celsius and maintains for some time, first water level sensor 23 detects boiling water chamber 21 median water level, at water level lower than sending the first signal of water shortage during minimum water level to controller 50, first heating rod 24 is connected to AC power 60, can ensure water completely boiled, warm water chamber 26 is provided with the 2nd temperature inductor 27, 2nd water level sensor 28 and the 2nd heating rod 29, 2nd temperature inductor 27 detects the water temperature in warm water chamber, export the 2nd water temperature signal to controller 50, 2nd water level sensor 28 detects warm water chamber 26 median water level, at water level lower than sending the 2nd signal of water shortage during minimum water level to controller 50, 2nd heating rod 29 is connected to the output terminal of power converter circuit 61, the input terminus of power converter circuit 61 is connected to AC power 60, the power of the 2nd heating rod 29 is lower than the power of the first heating rod 24, ensure that water temperature maintains 40-50 degree Celsius, when the water temperature in warm water chamber 26 is higher than 50 degrees Celsius, 2nd heating rod 29 stops heating, when water temperature in warm water chamber is lower than 40 degrees Celsius, 2nd heating rod 29 starts heating, it is connected by the first magnetic valve 25 between boiling water chamber 21 and warm water chamber 26, when controller 50 receives the 2nd signal of water shortage, opening the first magnetic valve 25, boiling water is flowed into warm water chamber 26 from boiling water chamber 21, when controller 50 receives the first signal of water shortage, display screen 11 shows lack of water information. milk powder chamber 30 comprises for the weigh feeder 31 to milk powder measurement, and weigh feeder 31 can adopt the existing device measured by powder. stir chamber 40 is connected with warm water chamber 26 by the 2nd magnetic valve 41, is connected with the discharge port of weigh feeder 31 by the 3rd magnetic valve 42, the top of stir chamber 40 is provided with electric motor 43, the output shaft of electric motor 43 is connected with stirring rake by shaft coupling, the milk outlet 13 that the bottom of stir chamber 40 is connected on shell 10 by the 4th magnetic valve 45, above-mentioned display screen 11, knob 12, first temperature inductor 22, first water level sensor 23, the 2nd temperature inductor 27, the 2nd water level sensor 28, first magnetic valve 25, the 2nd magnetic valve 41, the 3rd magnetic valve 42, the 4th magnetic valve 45, weigh feeder 31 and electric motor 43 are connected to controller 50, and such as controller 50 can be the controller that dsp processor, arm processor or micro-chip etc. have signal processing function.

As shown in Figure 4, the clockwise direction of knob rotating disk is disposed with scale 0,3,6,9,12,15,18,21, representing out milk amount respectively is 0ml, 30ml, 60ml, 90ml, 120ml, 150ml, 180ml, 210ml and 240ml, and wherein 0 scale also represents out milk amount is 240ml. In Fig. 4, the shape of turn-knob is only schematic, and those skilled in the art can be designed to any suitable shape, to realize out the function that milk amount is arranged.

As shown in Figure 5 and Figure 6, the all parts of another embodiment of the present invention's full-automatic milk powder preparation facilities except comprising in above-described embodiment, also comprise: the lithium cell 62 being connected to power converter circuit 61 output terminal, shell 10 is also provided with the USB interface 63 being connected with lithium cell 62, when needs go out to carry, system power supply can be given by lithium cell 62, water temperature in warm water chamber 26 is maintained 40-50 degree Celsius, when lithium cell 62 electricity is not enough, it is possible to charged by vehicle power or other circuit with usb compatible; On shell 10, the lower section of milk outlet 13 is provided with tank 14, and sink top is installed and slipped through the net 15, and the water capacity of tank 14 is at least 200ml, can not pollute other objects when ensureing that milk overflows; Shell 10 top is also provided with LED, position instruction when using for night; The quantity in milk powder chamber can be multiple, it is possible to holds the milk powder of multiple brand, selects with the physical appearance according to baby; The top of shell 10 is also provided with handle 16, carries when conveniently going out.

As shown in Figure 7, the power converter circuit 100 of the present invention comprises: input port 101, receives input voltage vin; Output port 102, it is provided that output voltage Vo; Rectification unit 103, is coupled to input port 101 and receives input voltage vin, produce rectification voltage; Transformer, comprise former limit winding 104-1 and vice-side winding 104-2, its limit, Central Plains winding 104-1 and vice-side winding 104-2 respectively has the first terminal and two-terminal, first terminal of former limit winding 104-1 is coupled to rectification unit 103 and receives rectification voltage, and the two-terminal of vice-side winding 104-2 connects secondary side reference ground; Former limit power switch 105, is coupled between the two-terminal of former limit winding 104-1 and reference ground, former limit; Secondary side diode 106, is coupled between first terminal of vice-side winding 104-2 and output port 102; Output capacitance device 107, is coupled between output port 102 and secondary side reference ground; Feedback component, comprises secondary part 108-1 and former rim portion 108-2; Secondary contact resistance 109, first Zener diode 110 and former limit contact resistance 111, wherein the secondary part 108-1 of feedback component, secondary contact resistance 109 and the first Zener diode 110 are coupled in series between output port 102 and secondary side reference ground, produce feedback voltage Vfb with the former rim portion 108-2 in feedback component; Voltage comparator 112, there is in-phase input end, inverting input and output terminal, its inverting input threshold level voltage Vth, its in-phase input end is coupled to former limit with reference to ground via former rim portion 108-2 and the former limit contact resistance 111 of feedback component, to receive feedback voltage Vfb, its output terminal produces voltage comparison signal; Error amplifier 113, there is in-phase input end, inverting input and output terminal, its in-phase input end receives reference voltage Vref, and the former rim portion 108-2 that its inverting input is coupled to feedback component receives feedback voltage Vfb, and its output terminal produces error amplification signal Vc; Clamper 114, is coupled between the output terminal of error amplifier 113 and reference ground, former limit; First logical switch 115, there is the first terminal, two-terminal and control terminal, the output terminal that its first terminal is coupled to error amplifier 113 receives error amplification signal Vc, and the output terminal receiver voltage that its control terminal is coupled to voltage comparator 112 compares signal; 2nd logical switch 116, has the first terminal, two-terminal and control terminal, and its first terminal couples current peak signal Ilim, and the output terminal receiver voltage that its control terminal is coupled to voltage comparator 112 compares signal; Electric current comparer 117, there is in-phase input end, inverting input and output terminal, its in-phase input end is coupled to the coupled in series node of former limit power switch 105 and former limit winding 104-1 to receive the current sampling signal Isen characterizing and flowing through former limit power switch, its inverting input is coupled to the two-terminal of the first logical switch 115 and the two-terminal of the 2nd logical switch 116, and its output terminal generation current compares signal; Control and driving circuit 118, the output terminal being coupled to electric current comparer 117 receives current ratio relatively signal, and based on current ratio relatively signal, produces switching drive signal, to control the break-make of former limit power switch 105.

The temperature of milk and concentration can accurately be controlled by the full-automatic milk powder preparation facilities of the present invention, saved the time; And the normal use gone out when carrying can be ensured by additional lithium battery.

The foregoing is only the better embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment of doing, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (9)

1. a full-automatic milk powder preparation facilities, it is characterised in that, shell is cylindrical, and cover top portion is provided with for the display screen of indicating system data and arranges the knob rushing milk amount; Enclosure is provided with cylindrical feedwater chamber, milk powder chamber and stir chamber;

The upper half portion in described feedwater chamber is boiling water chamber, lower half is warm water chamber, boiling water chamber is provided with the first temperature inductor, the first water level sensor and the first heating rod, warm water chamber is provided with the 2nd temperature inductor, the 2nd water level sensor and the 2nd heating rod, is connected by the first magnetic valve between boiling water chamber and warm water chamber;

Described milk powder chamber comprises for the weigh feeder to milk powder measurement;

Described stir chamber is connected with described warm water chamber by the 2nd magnetic valve, is connected with the discharge port of described weigh feeder by the 3rd magnetic valve, the top of stir chamber is provided with electric motor, the output shaft of electric motor is connected with stirring rake by shaft coupling, the milk outlet that the bottom of stir chamber is connected on described shell by the 4th magnetic valve;

Described display screen, knob, the first temperature inductor, the first water level sensor, the 2nd temperature inductor, the 2nd water level sensor, the first magnetic valve, the 2nd magnetic valve, the 3rd magnetic valve, the 4th magnetic valve, weigh feeder and electric motor are connected to controller, described first heating rod is connected to AC power, described 2nd heating rod is connected to the output terminal of power converter circuit, and the input terminus of power converter circuit is connected to described AC power;

Described power converter circuit comprises:

Input port, receives input voltage;

Output port, it is provided that output voltage;

Rectification unit, is coupled to input port and receives input voltage, produce rectification voltage;

Transformer, comprises former limit winding and vice-side winding, and its limit, Central Plains winding and vice-side winding respectively have the first terminal and two-terminal, and the first terminal of former limit winding is coupled to rectification unit and receives rectification voltage, and the two-terminal of vice-side winding connects secondary side reference ground;

Former limit power switch, is coupled between the two-terminal of former limit winding and reference ground, former limit;

Secondary side diode, is coupled between the first terminal of vice-side winding and output port;

Output capacitance device, is coupled between output port and secondary side reference ground;

Feedback component, comprises secondary part and former rim portion;

Secondary contact resistance, the first Zener diode and former limit contact resistance, wherein secondary part, secondary contact resistance and the first Zener diode are coupled in series between output port and secondary side reference ground, produce feedback voltage with the former rim portion in feedback component;

Voltage comparator, has in-phase input end, inverting input and output terminal, its inverting input threshold level voltage, and its in-phase input end is coupled to feedback component and receives feedback voltage, and its output terminal produces voltage comparison signal;

Error amplifier, has in-phase input end, inverting input and output terminal, and its in-phase input end receives reference voltage, and the former rim portion that its inverting input is coupled to feedback component receives feedback voltage, and its output terminal produces error amplification signal;

Clamper, is coupled between the output terminal of error amplifier and reference ground, former limit;

First logical switch, has the first terminal, two-terminal and control terminal, and the output terminal that its first terminal is coupled to error amplifier receives error amplification signal, and the output terminal receiver voltage that its control terminal is coupled to voltage comparator compares signal;

2nd logical switch, has the first terminal, two-terminal and control terminal, and its first terminal couples current peak signal, and the output terminal receiver voltage that its control terminal is coupled to voltage comparator compares signal;

Electric current comparer, there is in-phase input end, inverting input and output terminal, its in-phase input end is coupled to the coupled in series node of former limit power switch and former limit winding to receive the current sampling signal characterizing and flowing through former limit power switch, its inverting input is coupled to the two-terminal of the first logical switch and the two-terminal of the 2nd logical switch, and its output terminal generation current compares signal;

Control and driving circuit, the output terminal being coupled to electric current comparer receives current ratio relatively signal, and based on current ratio relatively signal, produces switching drive signal, to control the break-make of former limit power switch.

2. full-automatic milk powder preparation facilities as claimed in claim 1, it is characterised in that, also comprise the lithium cell being connected to described power converter circuit output end.

3. full-automatic milk powder preparation facilities as claimed in claim 2, it is characterised in that, described shell is also provided with and the USB interface that described lithium cell is connected.

4. full-automatic milk powder preparation facilities as claimed in claim 1, it is characterised in that, described controller is dsp processor.

5. full-automatic milk powder preparation facilities as claimed in claim 1, it is characterised in that, the lower section of described shell milk outlet is provided with tank, and sink top is installed and slipped through the net.

6. full-automatic milk powder preparation facilities as claimed in claim 1, it is characterised in that, described cover top portion is also provided with LED.

7. full-automatic milk powder preparation facilities as claimed in claim 1, it is characterised in that, the quantity in described milk powder chamber is multiple.

8. full-automatic milk powder preparation facilities as claimed in claim 1, it is characterised in that, the rotating disk clockwise direction of described knob is disposed with scale 0,3,6,9,12,15,18,21.

9. full-automatic milk powder preparation facilities as claimed in claim 1, it is characterised in that, the top of described shell is also provided with handle.