CN201775573U - Automatic induction soap liquid device - Google Patents

Abstract

The utility model provides an automatic induction soap liquid device, comprising a soap liquid providing module, an air providing module, a liquid outlet faucet inductor and an external power source, wherein the soap liquid providing module comprises a foam soap liquid tank and a liquid pump; and the air providing module comprises an air pump. The automatic induction soap liquid device also comprises a control unit, wherein the inductor comprises an infrared emitting module and an infrared receiving module; the control unit comprises a microprocessor unit, a liquid pump drive circuit module, an air pump drive circuit module, a clock module, a power module, a motor drive power control module and a distance control module, wherein a microprocessing module outputs a control command according to the infrared induction signal frequency received by the infrared receiving module; and the distance control module controls the working power of the infrared emitting unit according to the control command input by the microprocessor. The automatic induction soap liquid device adjusts the emitting distance of the infrared emitting module and avoids mistaken induction.

Description

A kind of automatic induction liquid soap device

Technical field

[0001] The utility model relates to the sanitaryware field, is specifically related to a kind of automatic induction that is applied in the fields such as kitchen or toilet and gives liquid soap device.

Background technology

In the prior art, kitchen or toilet flagship product, no matter be manual pull-type or the induction backwashing manner, all have only general flushing function.When the user need wash one's hands or clean other things, need from other device as independent hand cleanser bottle or be arranged on the soap dispenser on tap next door, extract and clean soap lye.

Then, wash by tap.But so manual soap structure of giving needs could obtain soap lye by manual squeezing on the one hand, and is cumbersome; Also allow surrounding enviroment become messy on the other hand, the problem of cross-infection takes place in person easily very.

Therefore, a kind of automatic soap dispenser that is dragged a reciprocating motion of the pistons by motor has appearred in the prior art.Automatic soap dispenser in the prior art is sensed the user by induction installation needs the soap lye washing, further controls motor movement by control circuit, realizes reciprocating motion of the pistons and the final action that realizes giving soap.Though this automatic soap dispenser is compared with manual soap dispenser, has convenient, healthy advantage, still there is the shortcoming of the big grade of power consumption in it.All be tending towards under safety, the energy-conservation trend at present kitchen and toilet facility, the shortcoming of this automatic soap dispenser is just more outstanding.

Be called as Chinese utility model patent publication number " CN101143078 " name " automatically to the soap device and this is installed " automatically to the water flushing tap of soap device patent disclosure automatically to the soap device, this is a kind of automatically to the soap device, be arranged on the water flushing tap, comprise: give the soap dye piece, be provided with the position

Be communicated with in the soap fetching port of faucet outlet below, with soap fetching port and in order to the soap lye cylinder that holds soap lye and be arranged in the soap lye cylinder, can move back and forth and in the soap lye cylinder soap lye squeeze out the piston of soap fetching port; The feedwater module with water inlet pipe, be communicated with for the soap dye piece, is provided with water supply control valve; The sluicing module is communicated with giving the soap dye piece, is provided with the sluicing control valve, and this sluicing control valve comprises: the return unit that is positioned at water inlet piston, the sluicing piston of water inlet pipe, the connecting rod that connects water inlet piston and sluicing piston and order water inlet piston and sluicing piston reset.The described soap dye piece of giving is provided with a piston reset spring, and when the feedwater module was opened, hydraulic pressure was piston jack-up, back-moving spring pressurized or tension; After the sluicing module was opened, back-moving spring returned to initial position.

Though the automatic of said structure solves the aforementioned problem of mentioning to a certain extent to the soap device,, its inductive switch of automatic liquid soap device of this kind structure can't be avoided false sense fully, and it also can't be regulated to the soap amount.

Summary of the invention

For overcoming above-mentioned defective, the purpose of this utility model promptly is to provide a kind of simple in structure, automatic induction liquid soap device that stable performance is suitable for suitability for industrialized production.

The purpose of this utility model is achieved through the following technical solutions:

A kind of automatic induction liquid soap device of the utility model, mainly comprise: be used to provide the soap lye of soap lye that module is provided, be used to provide the gas that mixes soap lye gas that module is provided, provide module and gas to provide module the corresponding fluid tap that is connected with described soap lye by appendix respectively with defeated soap lye pipe, be arranged on the inductor on this fluid tap, be used to provide the external power supply of this automatic induction liquid soap device operation power;

Described soap lye provides module to comprise: be used to hold the boty foam flow container of foam soap lye, the liquid pump that provides power that the foam soap lye in the boty foam flow container is extracted out is provided;

Described gas provides module to comprise: be used to provide the air pump that mixes soap lye gas;

This kind automatic induction liquid soap device also comprises: with the control module that described inductor, soap lye provide module, gas to provide module by signal to connect alternately, this control module is controlled described liquid pump and air pump work according to inductor input induced signal wherein;

Wherein, described inductor comprises: be used to launch the infrared transmission module of infrared induction signal, be used to receive the infrared receiving module of the infrared induction signal of inductor reflected back;

Described control module comprises: connect with described infrared transmission module and infrared receiving block signal, be built-in with the microprocessor unit of coding handling procedure, connect alternately with this microprocessor unit signal, be subjected to the liquid pump drive circuit module of this microprocessor unit control work, connect with this microprocessor unit signal, be subjected to the air pump drive circuit module of this microprocessor unit control work, the clock module that is used to provide this microprocessing unit elapsed time clock that is connected with described microprocessing unit MCU, be connected with this microprocessor unit, be used to provide the power module of work energy, be connected with described power module outlet, be used to provide the motor drive power supply control module of air pump drive circuit module and the required electric energy of liquid pump drive circuit module work, be connected with described infrared emission unit, be subjected to the control of described microprocessor apart from control module, the infrared induction signal frequency output control command that described micro treatment module receives according to infrared receiving module, this is apart from the control command control infrared emission unit operating power of control module according to described microprocessor input; Thereby regulate the transmitting range of infrared transmission module, avoid taking place false sense.

The beneficial effects of the utility model are: connect with described infrared transmission module and infrared receiving block signal, be built-in with the microprocessor unit of coding handling procedure, connect alternately with this microprocessor unit signal, be subjected to the liquid pump drive circuit module of this microprocessor unit control work, connect with this microprocessor unit signal, be subjected to the air pump drive circuit module of this microprocessor unit control work, the clock module that is used to provide this microprocessing unit elapsed time clock that is connected with described microprocessing unit, be connected with this microprocessor unit, be used to provide the power module of work energy, be connected with described power module outlet, be used to provide the motor drive power supply control module of air pump drive circuit module and the required electric energy of liquid pump drive circuit module work, be connected with described infrared emission unit, be subjected to the control of described microprocessor apart from control module, the infrared induction signal frequency output control command that described micro treatment module receives according to infrared receiving module, this is apart from the control command control infrared emission unit operating power of control module according to described microprocessor input; Thereby regulate the transmitting range of infrared transmission module, avoid taking place false sense.Adopt the automatic induction liquid soap device of said structure, can control the duty of air pump, liquid pump according to control module, thereby reach control to the soap amount with and the size of the bubble content of soap lye, the infrared induction signal frequency output control command that described micro treatment module receives according to infrared receiving module, this is apart from the control command control infrared emission unit operating power of control module according to described microprocessor input; Thereby regulate the transmitting range of infrared transmission module, avoid taking place false sense.

Description of drawings

In order to be easy to explanation, the utility model is done to describe in detail by following preferred embodiment and accompanying drawing.

Fig. 1 is the structural representation of a kind of embodiment of a kind of automatic induction liquid soap device of the utility model;

Fig. 2 is the circuit theory schematic diagram of automatic induction liquid soap device among Fig. 1;

Fig. 3 is a microprocessing unit in the control module part of automatic induction liquid soap device among Fig. 1, apart from control module, and the circuit theory diagrams of liquid pump, air pump motor control circuit;

Fig. 4 is the circuit theory diagrams of power module in the control module part of automatic induction liquid soap device among Fig. 1;

Fig. 5 is the circuit theory diagrams of infrared emission and infrared receiving module part in the control module part of automatic induction liquid soap device among Fig. 1.

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer,, the utility model is further elaborated below in conjunction with drawings and Examples.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

See also Fig. 1-5, a kind of automatic induction liquid soap device of the utility model, mainly comprise: be used to provide the soap lye of soap lye that module is provided, be used to provide the gas that mixes soap lye gas that module is provided, provide module and gas to provide module the corresponding fluid tap 1 ' that is connected with described soap lye by appendix 12 ' respectively with defeated soap lye pipe 3 ', be arranged on the inductor on this fluid tap 1 ', be used to provide the external power supply 10 ' of this automatic induction liquid soap device operation power;

Described soap lye provides module to comprise: be used to hold the boty foam flow container 6 ' of foam soap lye, the liquid pump that provides power that the foam soap lye in the boty foam flow container 6 ' is extracted out is provided;

Described gas provides module to comprise: be used to provide the air pump that mixes soap lye gas;

This kind automatic induction liquid soap device also comprises: with the control module that described inductor, soap lye provide module, gas to provide module by signal to connect alternately, this control module is controlled described liquid pump and air pump work according to inductor input induced signal wherein;

Wherein, described inductor comprises: be used to launch the infrared transmission module of infrared induction signal, be used to receive the infrared receiving module of the infrared induction signal of inductor reflected back;

Described control module comprises: connect with described infrared transmission module and infrared receiving block signal, be built-in with the microprocessor unit of coding handling procedure, connect alternately with this microprocessor unit signal, be subjected to the liquid pump drive circuit module of this microprocessor unit control work, connect with this microprocessor unit signal, be subjected to the air pump drive circuit module of this microprocessor unit control work, being used to of being connected with described microprocessing unit MCU provides this microprocessing unit MCU the clock module of elapsed time clock, be connected with this microprocessor unit, be used to provide the power module of work energy, be connected with described power module outlet, be used to provide the motor drive power supply control module of air pump drive circuit module and the required electric energy of liquid pump drive circuit module work, be connected with described infrared emission unit, be subjected to the control of described microprocessor apart from control module, the infrared induction signal frequency output control command that described micro treatment module receives according to infrared receiving module, this is apart from the control command control infrared emission unit operating power of control module according to described microprocessor input; Thereby regulate the transmitting range of infrared transmission module, avoid taking place false sense.

In above-mentioned a kind of automatic induction liquid soap device, described control module also comprises the memory module that is used for storing this microprocessing unit MCU data that is connected with this microprocessing unit MCU, this memory module is for carrying out the nonvolatile memory of electricity read-write, preset first operational voltage value in this nonvolatile memory, this kind nonvolatile memory comprises first voltage sensor that is used to detect described microprocessing unit MCU operational voltage value; When this first voltage sensor senses during to first operational voltage value that described microprocessing unit MCU operational voltage value presets in less than this nonvolatile memory, start and preserve data and preserve operation, the processing information data of microprocessor is stored; Wherein, to preserve the energy of data manipulation be that a electric capacity that is attached to the capacitive energy pin by the outside provides to this nonvolatile memory; Owing to adopt this kind nonvolatile memory, so can when the automatic induction liquid soap device externally fed quits work, guarantee that the data of this kind nonvolatile memory can not lost.

Further, described memory module is built in the microprocessor unit, described power module comprises: the external adapter J3 that is connected with described external power supply 10 ', transient voltage suppresser diode D1 between this external adapter J3 output in succession, the high current low voltage voltage-stablizer of the one or three port U1, the high current low voltage voltage-stablizer of the two or three port U2; This external adapter J3 suppresses clamp by this transient voltage suppresser diode D1 transient state, input among the high current low voltage voltage-stablizer of the one or the three port U1, after being transformed to DC voltage, divides the high electric current voltage-stablizer of the one or three port U1 two-way output, one the tunnel exports behind the high current low voltage voltage-stablizer of the two or three port U2 for described microprocessing unit MCU and related peripheral use, and another road is delivered in the motor drive power supply control module.

Transient Voltage Suppressor is a kind of high-effect protection device of diode form, is called for short TVS.When the two poles of the earth of diode are subjected to reverse transient state high energy impact events; it can be with 10 the speed of bearing 12 power second-times; the high impedance of its two interpolar is become Low ESR; the surge power of absorption up to thousands of watts; the voltage clamp that makes two interpolars is in a predetermined value; protect the precision components in the electronic circuit effectively, avoid the damage of various surge pulses.

Further, described infrared transmission module comprises the infrared light emitting diode D4 that is used to launch the infrared induction signal, the negative pole end of this infrared light emitting diode D4 connects with the carrier signal output pin signal of described microprocessor unit, the positive terminal of this infrared light emitting diode D4 connects with the high level output pin signal of described microprocessing unit MCU, describedly comprises first of described microprocessor unit MCU apart from control module, second, the 3rd, the 4th, the 5th, the 6th, the 7th, the 8th, the 9th, the tenth high level output pin 4,2,28,27,26,25,24,23,22,21; Described high level output pin corresponding respectively through resistance different the tenth, the 11, the 12, the 13, the 14, the 15, the 16, the 17, the 18, the 19 current-limiting resistance R10-R19 is connected with the positive terminal of infrared light emitting diode D4.

By the first, second, third, fourth, the 5th, the 6th, the 7th, the 8th, the 9th, the tenth high level output pin 4,2,28,27,26,25,24,23,22,21 pin are exported high level respectively, when wherein a pin is exported high level, other pin is set to high-impedance state, every output once, infrared receiving module is judged and once to be seen if there is inductor, when judgement has inductor to exist, microprocessor is write down the correlation distance state, then microprocessor unit inner adjust reduce certain transmitting power as actual actual induction apart from power.As sensing object at the 13CM place, the microprocessor unit adjustment reduces transmitting power, and promptly 11CM is actual actual induction distance.

Described infrared receiving module comprises: with the infrared remote receiver U6 in described infrared light emitting diode D4 formation infrared reflection switch loop; Described infrared remote receiver is made up of U6 and related peripheral element; This partial circuit is finished two functions, and the first, constitute the infrared reflection switch with the infrared emission circuit, as inductor in actual induction distance, after the MCU program was repeatedly judged, the output respective electrical was divided equally and is not controlled motor power control circuit, motor drive circuit and LED light.The second, receive the dependent instruction that the infrared remote control handle sends.

Described liquid pump drive circuit module comprises: by the first, second, third, fourth pulse duty signal output pin 11 of microprocessing unit MCU, 12,14, the 17 and the 3rd peripheral triode, the encloses the H bridge motor drive circuit that triode, the 5th peripheral triode, the 6th peripheral triode Q3-Q6 constitute all round, liquid pump, air pump motor control circuit that the 8th triode Q8 and the 7th triode Q7 constitute, this H bridge motor drive circuit is connected in series with this liquid pump, air pump motor control circuit;

This circuit is realized the rotating of liquid pump motor.Change realizes that by first, second, third, fourth pulse duty signal output pin, 11,12,14, the 17 output duty of ratio of microprocessing unit MCU the rotating speed of liquid pump motor is adjustable, thereby realizes the liquid outlet quantity adjustable size.

Described liquid pump drive circuit module also comprises the microprocessor first voltage detecting pin 7, the first voltage detecting resistance R 31, the liquid pump operating current testing circuit that the first voltage detecting capacitor C 9 constitutes, the memory module of described microprocessor is built-in with liquid pump operating current threshold value, when detecting operating current, liquid pump operating current testing circuit reaches liquid pump operating current threshold value 800MA when above, control pin 15 output low levels by first power supply that microprocessor is connected with described liquid pump motor control circuit, by this liquid pump, the air pump motor control circuit cuts off liquid pump motor power supply.

Described air pump drive circuit module comprises: by microprocessor the 5th pulse duty signal output pin the 16 and the 7th peripheral triode Q1

Constitute the air pump motor drive circuit by microprocessor the 16th pin and periphery and related elements, change MCU the 16th pin output duty of ratio and realize that the rotating speed of air pump motor is adjustable.Thereby realize the gas output adjustable size.

Described air pump drive circuit module also comprises the second voltage detecting resistance R 23, tertiary voltage detects resistance R 24, the second voltage detecting capacitor C 12 is built-in with liquid pump operating current threshold value with the memory module of the described microprocessor of air pump operating current testing circuit that the microprocessor second voltage detecting pin 3 constitutes, when detecting operating current, liquid pump operating current testing circuit reaches liquid pump operating current threshold value 500MA when above, work as operating current, by microprocessor first power supply control pin 15 output low levels, by liquid pump, the air pump motor control circuit cuts off liquid pump motor power supply.

Described clock module comprises: the clock chip that is connected with microprocessor, the stand-by power supply that is used to provide this clock chip work capacity that is connected with this clock chip.

In the above-mentioned clock circuit, preset second operational voltage value in this clock chip, this clock chip has second voltage sensor that is used to detect described microprocessing unit MCU operating voltage, when this second voltage sensor senses arrives described microprocessing unit MCU operational voltage value less than this second operational voltage value, this clock chip is controlled this stand-by power supply work, and this clock chip work capacity is provided.

The memory module of microprocessor is built-in with the gentle pump work time threshold of liquid pump working time threshold value in the described automatic induction liquid soap device, and the gentle pump work time threshold of this liquid pump working time threshold value has two respectively at least.

Described described automatic induction liquid soap device also comprises remote controller.

Can be by remote controller governor motor rotation time (control MCU respective foot high level hold time): divide 7 shelves temporarily, be respectively 0.5 second, 1 second, 1.5 seconds, 2 seconds .2.5 seconds, 3 seconds, 3.5 seconds, Default Value be 2 seconds, can be designed to rotate some seconds according to customer demand.

The above only is preferred embodiment of the present utility model; not in order to restriction the utility model; all any modifications of within spirit of the present utility model and principle, being done, be equal to and replace and improvement etc., all should be included within the protection domain of the present utility model.

Claims (2)

1. A kind of automatic induction liquid soap device, mainly comprise: be used to provide the soap lye of soap lye that module is provided, be used to provide the gas that mixes soap lye gas that module is provided, provide module and gas to provide module the corresponding fluid tap that is connected with described soap lye by appendix respectively with defeated soap lye pipe, be arranged on the inductor on this fluid tap, be used to provide the external power supply of this automatic induction liquid soap device operation power;

Described soap lye provides module to comprise: be used to hold the boty foam flow container of foam soap lye, the liquid pump that provides power that the foam soap lye in the boty foam flow container is extracted out is provided;

Described gas provides module to comprise: be used to provide the air pump that mixes soap lye gas;

It is characterized in that, this kind automatic induction liquid soap device also comprises: with the control module that described inductor, soap lye provide module, gas to provide module by signal to connect alternately, this control module is controlled described liquid pump and air pump work according to inductor input induced signal wherein;

Wherein, described inductor comprises: be used to launch the infrared transmission module of infrared induction signal, be used to receive the infrared receiving module of the infrared induction signal of inductor reflected back;

Described control module comprises: connect with described infrared transmission module and infrared receiving block signal, be built-in with the microprocessor unit of coding handling procedure, connect alternately with this microprocessor unit signal, be subjected to the liquid pump drive circuit module of this microprocessor unit control work, connect with this microprocessor unit signal, be subjected to the air pump drive circuit module of this microprocessor unit control work, the clock module that is used to provide this microprocessing unit elapsed time clock that is connected with described microprocessing unit MCU, be connected with this microprocessor unit, be used to provide the power module of work energy, be connected with described power module outlet, be used to provide the motor drive power supply control module of air pump drive circuit module and the required electric energy of liquid pump drive circuit module work, be connected with described infrared emission unit, be subjected to the control of described microprocessor apart from control module, the infrared induction signal frequency output control command that described micro treatment module receives according to infrared receiving module, this is apart from the control command control infrared emission unit operating power of control module according to described microprocessor input.

2. Automatic induction liquid soap device as claimed in claim 1, it is characterized in that: described control module also comprises the memory module that is used for storing this microprocessing unit MCU data that is connected with this microprocessing unit, this memory module is for carrying out the nonvolatile memory of electricity read-write, preset first operational voltage value in this nonvolatile memory, this kind nonvolatile memory comprises first voltage sensor that is used to detect described microprocessing unit MCU operational voltage value; When this first voltage sensor senses during to first operational voltage value that described microprocessing unit MCU operational voltage value presets in less than this nonvolatile memory, start and preserve data and preserve operation, the processing information data of microprocessor is stored; Wherein, to preserve the energy of data manipulation be that a electric capacity that is attached to the capacitive energy pin by the outside provides to this nonvolatile memory.

3. automatic induction liquid soap device as claimed in claim 2, it is characterized in that: described memory module is built in the microprocessor unit, described power module comprises: the external adapter that is connected with described external power supply, transient voltage suppresser diode between this external adapter output in succession, the high current low voltage voltage-stablizer of the one or three port, the high current low voltage voltage-stablizer of the two or three port; This external adapter suppresses clamp by this transient voltage suppresser diode transient state, input in the high current low voltage voltage-stablizer of the one or three port, after being transformed to DC voltage, divides by the high electric current voltage-stablizer of the one or three port two-way output, one the tunnel exports behind the high current low voltage voltage-stablizer of the two or three port for described microprocessing unit MCU and related peripheral use, and another road is delivered in the motor drive power supply control module.

4. automatic induction liquid soap device as claimed in claim 3, it is characterized in that: described infrared transmission module comprises the infrared light emitting diode that is used to launch the infrared induction signal, the negative pole end of this infrared light emitting diode connects with the carrier signal output pin signal of described microprocessor unit, the positive terminal of this infrared light emitting diode connects with the high level output pin signal of described microprocessing unit, describedly comprises first of described microprocessor unit apart from control module, second, the 3rd, the 4th, the 5th, the 6th, the 7th, the 8th, the 9th, the tenth high level output pin; Described high level output pin corresponding respectively through resistance different the tenth, the 11, the 12, the 13, the 14, the 15, the 16, the 17, the 18, the 19 current-limiting resistance is connected with the positive terminal of infrared light emitting diode.

5. automatic induction liquid soap device as claimed in claim 4 is characterized in that: described infrared receiving module comprises: with the infrared remote receiver in described infrared light emitting diode formation infrared reflection switch loop.

6. automatic induction liquid soap device as claimed in claim 5, it is characterized in that: described liquid pump drive circuit module comprises: enclose the H bridge motor drive circuit that triode, the 5th peripheral triode, the 6th peripheral triode constitute all round by first, second, third, fourth pulse duty signal output pin of microprocessing unit and the 3rd peripheral triode,, liquid pump, air pump motor control circuit that the 8th triode and the 7th triode constitute, this H bridge motor drive circuit is connected in series with this liquid pump, air pump motor control circuit;

Described liquid pump drive circuit module also comprises the microprocessor first voltage detecting pin, the first voltage detecting resistance, the liquid pump operating current testing circuit that the first voltage detecting electric capacity constitutes, the memory module of described microprocessor is built-in with liquid pump operating current threshold value, when liquid pump operating current testing circuit detects operating current and reaches liquid pump operating current threshold value, by first power supply control pin output low level that microprocessor is connected with described liquid pump motor control circuit, cut off liquid pump motor power supply by this liquid pump, air pump motor control circuit.

7. automatic induction liquid soap device as claimed in claim 6 is characterized in that: described air pump drive circuit module comprises: by microprocessor the 5th pulse duty signal output pin and the 7th peripheral triode;

Described air pump drive circuit module also comprises the second voltage detecting resistance, tertiary voltage detects resistance, the memory module of the described microprocessor of air pump operating current testing circuit that the second voltage detecting electric capacity and the microprocessor second voltage detecting pin constitute is built-in with liquid pump operating current threshold value, when liquid pump operating current testing circuit detects operating current and reaches liquid pump operating current threshold value, work as operating current, by microprocessor first power supply control pin output low level, cut off liquid pump motor power supply by liquid pump, air pump motor control circuit.

8. automatic induction liquid soap device as claimed in claim 7 is characterized in that: described clock module comprises: the clock chip that is connected with microprocessor, the stand-by power supply that is used to provide this clock chip work capacity that is connected with this clock chip; Preset second operational voltage value in this clock chip, this clock chip has second voltage sensor that is used to detect described microprocessing unit MCU operating voltage, when this second voltage sensor senses arrives described microprocessing unit MCU operational voltage value less than this second operational voltage value, this clock chip is controlled this stand-by power supply work, and this clock chip work capacity is provided.

9. automatic induction liquid soap device as claimed in claim 8 is characterized in that: described described automatic induction liquid soap device also comprises remote controller.

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