阅读说明：本技术 一种清洗机系统 (Cleaning machine system ) 是由 陈创业 赵校军 于 2019-09-19 设计创作，主要内容包括：本发明公开了一种清洗机系统,涉及清洗技术领域。该清洗机系统通过加热控制模块控制的液体加热器对储水罐内的液体进行预加热,超声波控制模块控制超声波气雾器将储水罐内液体通过高频震荡产生为清洗气雾,压力控制模块控制的加压泵对储气罐中气体进行加压；储气罐中的加压气体在清洗机的管道内极速流动,经过储水罐产生的负压吸出清洗气雾,清洗气雾经过气雾加热器高温二次加热后从清洗机的清洗枪头喷射出强力高压的高温蒸汽,高温蒸汽不会对物品进行外力破坏,不会造成物品原有的结构和外观的损坏,且高温蒸汽能有效的杀菌、除尘和去油等,无需添加任何清洗剂,提高了清洗机的清洗效果。(The invention discloses a cleaning machine system, and relates to the technical field of cleaning. The cleaning machine system preheats liquid in the water storage tank through a liquid heater controlled by a heating control module, an ultrasonic control module controls an ultrasonic atomizer to generate the liquid in the water storage tank into cleaning aerosol through high-frequency oscillation, and a pressure pump controlled by a pressure control module pressurizes gas in a gas storage tank; pressurized gas in the gas holder flows at the utmost point fast in the pipeline of cleaning machine, negative pressure suction cleaning aerosol that produces through the water storage tank, cleaning aerosol jets powerful highly compressed high-temperature steam from the cleaning gun head of cleaning machine after aerial fog heater high temperature secondary heating, high-temperature steam can not carry out external force to article and destroy, can not cause the damage of original structure of article and outward appearance, and high-temperature steam can effectual disinfecting, remove dust and deoil etc. need not to add any cleaner, the cleaning performance of cleaning machine has been improved.)

1. A washer system, comprising: the device comprises a voltage sampling module, a current sampling module, a data processing module, an alarm display module, an ultrasonic control module, an ultrasonic aerosol device, a heating control module, a liquid heater, an aerosol heater, a pressure control module and a pressure pump;

the power input end of the voltage sampling module is electrically connected with a power supply, and the power output end of the voltage sampling module is respectively electrically connected with the power input end of the current sampling module, the power input end of the data processing module and the power input end of the alarm display module; the communication end of the voltage sampling module is electrically connected with the communication end of the data processing module; the voltage sampling module is used for sampling the voltage value of the power supply and transmitting the voltage value to the data processing module, and the voltage sampling module is also used for carrying out voltage reduction processing on the power supply and providing the voltage-reduced power supply for the data processing module and the alarm display module;

the communication end of the current sampling module is electrically connected with the communication end of the data processing module; the output end of the current sampling module is electrically connected with the power input end of the ultrasonic control module, the power input end of the heating control module and the power input end of the pressure control module respectively; the current sampling module is used for detecting the current of the ultrasonic wave control module, the heating control module and the pressure control module and transmitting the current to the data processing module;

The communication end of the ultrasonic control module is electrically connected with the communication end of the data processing module; the output end of the ultrasonic control module is electrically connected with the input end of the ultrasonic atomizer; the ultrasonic control module is used for receiving the instruction of the data processing module and controlling the ultrasonic atomizer according to the instruction of the data processing module;

the ultrasonic atomizer is used for vibrating liquid in a water storage tank of the cleaning machine into cleaning aerosol at high frequency;

The communication end of the heating control module is electrically connected with the communication end of the data processing module; the output end of the heating control module is electrically connected with the input end of the liquid heater and the input end of the aerosol heater respectively; the heating control module is used for receiving the instruction of the data processing module and controlling the liquid heater and the aerosol heater according to the instruction of the data processing module;

The liquid heater is used for heating liquid in the water storage tank of the cleaning machine;

The aerosol heater is used for heating the cleaning aerosol;

The communication end of the pressure control module is electrically connected with the communication end of the data processing module; the output end of the pressure control module is electrically connected with the input end of the pressure pump; the pressure control module is used for receiving the instruction of the data processing module and controlling the pressure pump according to the instruction of the data processing module;

the pressurizing pump is used for pressurizing gas in a gas storage tank of the cleaning machine;

The communication end of the data processing module is electrically connected with the communication end of the alarm display module; the data processing module is used for receiving data parameters of the voltage sampling module and the current sampling module and outputting instructions to the ultrasonic control module, the heating control module and the pressure control module according to the data parameters, and the data processing module is also used for outputting the data parameters and the instructions to the alarm display module;

And the alarm display module is used for receiving the data parameters and the instructions and displaying the data parameters and the instructions.

2. the washer system as recited in claim 1, further comprising: an aerosol humidity sensor;

The output end of the aerosol humidity sensor is electrically connected with the induction end of the ultrasonic control module; the aerosol humidity sensor is used for detecting the humidity of cleaning aerosol generated by high-frequency oscillation of the ultrasonic aerosol device in the water storage tank.

3. the washer system as recited in claim 1, further comprising: a liquid temperature sensor;

The output end of the liquid temperature sensor is electrically connected with the sensing end of the heating control module; the liquid temperature sensor is used for detecting the temperature of the liquid in the water storage tank.

4. the washer system as recited in claim 1, further comprising: an aerosol temperature sensor;

The output end of the aerosol temperature sensor is electrically connected with the induction end of the heating control module; the aerosol temperature sensor is used for detecting the temperature of cleaning aerosol jetted by a cleaning gun head of the cleaning machine.

5. The washer system as recited in claim 1, further comprising: a gas pressure sensor;

the output end of the gas pressure sensor is electrically connected with the sensing end of the pressure control module; the gas pressure sensor is used for detecting the gas pressure in the gas storage tank.

6. The washer system as recited in claim 1, further comprising: setting a key;

The first end of the setting key is electrically connected with the communication end of the data processing module, and the second end of the setting key is respectively electrically connected with the communication end of the voltage sampling module, the communication end of the current sampling module, the communication end of the alarm display module, the communication end of the ultrasonic control module, the communication end of the heating control module, the communication end of the pressure control module and the public communication end of the data processing module;

the setting key is used for setting the range of rated data of the cleaning machine system, and the rated data comprises: rated voltage, rated current, cleaning aerosol humidity, cleaning aerosol temperature, temperature of liquid in the water storage tank and pressure of gas in the gas storage tank.

7. The washer system as recited in claim 1, further comprising: accumulating the keys;

The first end of the accumulation key is electrically connected with the communication end of the data processing module, and the second end of the accumulation key is respectively electrically connected with the communication end of the voltage sampling module, the communication end of the current sampling module, the communication end of the alarm display module, the communication end of the ultrasonic control module, the communication end of the heating control module, the communication end of the pressure control module and the public communication end of the data processing module;

The accumulation key is used for enlarging the range of rated data of the cleaning machine system.

8. the washer system as recited in claim 1, further comprising: accumulating and subtracting the keys;

The first end of the accumulation and reduction key is electrically connected with the communication end of the data processing module, and the second end of the accumulation and reduction key is respectively electrically connected with the communication end of the voltage sampling module, the communication end of the current sampling module, the communication end of the alarm display module, the communication end of the ultrasonic control module, the communication end of the heating control module, the communication end of the pressure control module and the public communication end of the data processing module;

the accumulation button is used for reducing the range of rated data of the cleaning machine system.

Technical Field

The invention relates to the technical field of cleaning, in particular to a cleaning machine system.

Background

With the improvement of living conditions, the increase of household articles and the popularization of rare articles, the habit of caring, tidying and sanitation of people is strengthened, but the daily articles bring much trouble and hidden trouble due to the use: such as heavy fumes from kitchen hoods and kitchen cabinet equipment, mold from bathtubs and wash basins in bathrooms, dirt from the engine room and driver's cab of automobiles, etc., the use of detergents poses risks of injury to hands and corrosion, may not achieve the desired cleaning effect, wastes a lot of resources and time, and pollutes the environment because of the use of detergents.

At present, the cleaning machine on the market generally adopts a high-pressure direct injection technical scheme, dirt is powerfully removed, but the original structure and appearance of an article are damaged by the powerfully, and troubles are brought to cleaning. Thus, existing cleaners can spoil the original structure and appearance of the article.

Disclosure of Invention

The invention aims to provide a cleaning machine system, which solves the problem that the original structure and appearance of an article are damaged by a cleaning machine.

in order to achieve the purpose, the invention provides the following scheme:

A washer system comprising: the device comprises a voltage sampling module, a current sampling module, a data processing module, an alarm display module, an ultrasonic control module, an ultrasonic aerosol device, a heating control module, a liquid heater, an aerosol heater, a pressure control module and a pressure pump;

The power input end of the voltage sampling module is electrically connected with a power supply, and the power output end of the voltage sampling module is respectively electrically connected with the power input end of the current sampling module, the power input end of the data processing module and the power input end of the alarm display module; the communication end of the voltage sampling module is electrically connected with the communication end of the data processing module; the voltage sampling module is used for sampling the voltage value of the power supply and transmitting the voltage value to the data processing module, and the voltage sampling module is also used for carrying out voltage reduction processing on the power supply and providing the voltage-reduced power supply for the data processing module and the alarm display module;

The communication end of the current sampling module is electrically connected with the communication end of the data processing module; the output end of the current sampling module is electrically connected with the power input end of the ultrasonic control module, the power input end of the heating control module and the power input end of the pressure control module respectively; the current sampling module is used for detecting the current of the ultrasonic wave control module, the heating control module and the pressure control module and transmitting the current to the data processing module;

The communication end of the ultrasonic control module is electrically connected with the communication end of the data processing module; the output end of the ultrasonic control module is electrically connected with the input end of the ultrasonic atomizer; the ultrasonic control module is used for receiving the instruction of the data processing module and controlling the ultrasonic atomizer according to the instruction of the data processing module;

the ultrasonic atomizer is used for vibrating liquid in a water storage tank of the cleaning machine into cleaning aerosol at high frequency;

The communication end of the heating control module is electrically connected with the communication end of the data processing module; the output end of the heating control module is electrically connected with the input end of the liquid heater and the input end of the aerosol heater respectively; the heating control module is used for receiving the instruction of the data processing module and controlling the liquid heater and the aerosol heater according to the instruction of the data processing module;

The liquid heater is used for heating liquid in the water storage tank of the cleaning machine;

the aerosol heater is used for heating the cleaning aerosol;

the communication end of the pressure control module is electrically connected with the communication end of the data processing module; the output end of the pressure control module is electrically connected with the input end of the pressure pump; the pressure control module is used for receiving the instruction of the data processing module and controlling the pressure pump according to the instruction of the data processing module;

The pressurizing pump is used for pressurizing gas in a gas storage tank of the cleaning machine;

the communication end of the data processing module is electrically connected with the communication end of the alarm display module; the data processing module is used for receiving data parameters of the voltage sampling module and the current sampling module and outputting instructions to the ultrasonic control module, the heating control module and the pressure control module according to the data parameters, and the data processing module is also used for outputting the data parameters and the instructions to the alarm display module;

And the alarm display module is used for receiving the data parameters and the instructions and displaying the data parameters and the instructions.

Optionally, the washing machine system further includes: an aerosol humidity sensor;

the output end of the aerosol humidity sensor is electrically connected with the induction end of the ultrasonic control module; the aerosol humidity sensor is used for detecting the humidity of cleaning aerosol generated by high-frequency oscillation of the ultrasonic aerosol device in the water storage tank.

Optionally, the washing machine system further includes: a liquid temperature sensor;

The output end of the liquid temperature sensor is electrically connected with the sensing end of the heating control module; the liquid temperature sensor is used for detecting the temperature of the liquid in the water storage tank.

optionally, the washing machine system further includes: an aerosol temperature sensor;

The output end of the aerosol temperature sensor is electrically connected with the induction end of the heating control module; the aerosol temperature sensor is used for detecting the temperature of cleaning aerosol jetted by a cleaning gun head of the cleaning machine.

optionally, the washing machine system further includes: a gas pressure sensor;

the output end of the gas pressure sensor is electrically connected with the sensing end of the pressure control module; the gas pressure sensor is used for detecting the gas pressure in the gas storage tank.

optionally, the washing machine system further includes: setting a key;

The first end of the setting key is electrically connected with the communication end of the data processing module, and the second end of the setting key is respectively electrically connected with the communication end of the voltage sampling module, the communication end of the current sampling module, the communication end of the alarm display module, the communication end of the ultrasonic control module, the communication end of the heating control module, the communication end of the pressure control module and the public communication end of the data processing module;

The setting key is used for setting the range of rated data of the cleaning machine system, and the rated data comprises: rated voltage, rated current, cleaning aerosol humidity, cleaning aerosol temperature, temperature of liquid in the water storage tank and pressure of gas in the gas storage tank.

Optionally, the washing machine system further includes: accumulating the keys;

The first end of the accumulation key is electrically connected with the communication end of the data processing module, and the second end of the accumulation key is respectively electrically connected with the communication end of the voltage sampling module, the communication end of the current sampling module, the communication end of the alarm display module, the communication end of the ultrasonic control module, the communication end of the heating control module, the communication end of the pressure control module and the public communication end of the data processing module;

The accumulation key is used for enlarging the range of rated data of the cleaning machine system.

Optionally, the washing machine system further includes: accumulating and subtracting the keys;

The first end of the accumulation and reduction key is electrically connected with the communication end of the data processing module, and the second end of the accumulation and reduction key is respectively electrically connected with the communication end of the voltage sampling module, the communication end of the current sampling module, the communication end of the alarm display module, the communication end of the ultrasonic control module, the communication end of the heating control module, the communication end of the pressure control module and the public communication end of the data processing module;

the accumulation button is used for reducing the range of rated data of the cleaning machine system.

according to the specific embodiment provided by the invention, the invention discloses the following technical effects: the invention discloses a cleaning machine system, comprising: the device comprises a voltage sampling module, a current sampling module, a data processing module, an alarm display module, an ultrasonic control module, an ultrasonic aerosol device, a heating control module, a liquid heater, an aerosol heater, a pressure control module and a pressure pump. The cleaning machine system preheats liquid in the water storage tank through a liquid heater controlled by a heating control module, an ultrasonic control module controls an ultrasonic atomizer to generate the liquid in the water storage tank into cleaning aerosol through high-frequency oscillation, and a pressure pump controlled by a pressure control module pressurizes gas in a gas storage tank; pressurized gas in the gas holder flows at the utmost point fast in the pipeline of cleaning machine, negative pressure suction cleaning aerosol that the process water storage tank produced, cleaning aerosol jets powerful highly compressed high-temperature steam from the cleaning gun head of cleaning machine after aerial fog heater high temperature secondary heating, high-temperature steam can not carry out external force to article and destroy, can not cause the damage of original structure of article and outward appearance, and high-temperature steam can effectual disinfecting, remove dust and deoil etc., need not to add any cleaner, can not be because of the remaining of the detergent of chooseing for use and articles for washing in the cleaning process, the secondary pollution who causes the environment, consequently, the cleaning performance of cleaning machine has been improved. The cleaning machine system also converts liquid into gas fog through the ultrasonic gas fog device to form water fog particles, so that the use amount of water resources is reduced, and the loss of the resources is reduced.

Drawings

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

Fig. 1 is a circuit diagram of a cleaning machine according to an embodiment of the present invention.

101, a voltage sampling module; 102. a current sampling module; 103. an ultrasonic control module; 104. an ultrasonic atomizer; 105. an aerosol humidity sensor; 106. a heating control module; 107. a liquid heater; 108. an aerosol heater; 109. a liquid temperature sensor; 110. a pressure control module; 111. a pressure pump; 112. a gas pressure sensor; 113. a data processing module; 114. an alarm display module; 115. an aerosol temperature sensor; 116. setting a key; 117. accumulating the keys; 118. the keys are subtracted.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

in order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Fig. 1 is a circuit diagram of a cleaning machine according to an embodiment of the present invention. Referring to fig. 1, the method includes: a voltage sampling module 101, a current sampling module 102, a data processing module 113, an alarm display module 114, an ultrasonic control module 103, an ultrasonic aerosol 104, a heating control module 106, a liquid heater 107, an aerosol heater 108, a pressure control module 110, and a pressure pump 111.

the power input end of the voltage sampling module is electrically connected with a power supply, when the power supply is alternating current, a pin 1 at the power input end of the voltage sampling module is electrically connected with a live wire of the alternating current, and a pin 2 at the power input end of the voltage sampling module is electrically connected with a zero line of the alternating current; when the power supply is direct current, a pin 1 of the power supply input end of the voltage sampling module is electrically connected with the anode of the direct current, and a pin 2 of the power supply input end of the voltage sampling module is electrically connected with the cathode of the direct current.

the power supply output end of the voltage sampling module is respectively and electrically connected with the power supply input end of the current sampling module, the power supply input end of the data processing module and the power supply input end of the alarm display module; the communication end of the voltage sampling module is electrically connected with the communication end of the data processing module; the voltage sampling module is used for sampling the voltage value of the power supply and transmitting the voltage value to the data processing module, the voltage sampling module is also used for carrying out voltage reduction processing on the power supply and providing the power supply after voltage reduction for the data processing module and the alarm display module, the voltage sampling module is also used for carrying out on-off control on the current sampling module, and when the voltage value of the sampled power supply is not consistent with a preset value, the power supply of the current sampling module is disconnected.

Referring to fig. 1, a pin 3 of a negative electrode output end of a power output end of the voltage sampling module, which is subjected to rectification and voltage reduction processing, is electrically connected with a pin 12 of a power input end of the data processing module and a pin 1 of a power input end of the alarm display module respectively; and a pin 4 of the positive output end of the power input end of the voltage sampling module after rectification and voltage reduction processing is respectively and electrically connected with a pin 1 of the power input end of the data processing module and a pin 2 of the power input end of the alarm display module. And a power control output pin 7 of the power output end of the voltage sampling module is electrically connected with a power input end pin 2 of the current sampling module, and a power control output pin 8 of the power output end of the voltage sampling module is electrically connected with a power input end pin 1 of the current sampling module. The communication terminal pin 5 of the voltage sampling module is electrically connected with the communication terminal pin 6 of the data processing module, and the communication terminal pin 6 of the voltage sampling module is electrically connected with the common terminal pin 11 of the communication terminal of the data processing module.

the communication end of the current sampling module is electrically connected with the communication end of the data processing module; the output end of the current sampling module is respectively and electrically connected with the power input end of the ultrasonic control module, the power input end of the heating control module and the power input end of the pressure control module; the current sampling module is used for detecting current values of the ultrasonic control module, the heating control module and the pressure control module and transmitting the current values to the data processing module.

Referring to fig. 1, a pin 1 and a pin 2 at a power input end of the current sampling module are used for providing a working power supply, the pin 1 is a live wire or a positive electrode of the power supply and is connected with a pin 8 at a power output end of the voltage sampling module through a wire, and the pin 2 is a zero wire or a negative electrode of the power supply and is connected with a pin 7 at the power output end of the voltage sampling module through a wire. The communication terminal pin 3 of the current sampling module is connected with the communication terminal pin 7 of the data processing module through a wire, and the communication terminal pin 4 of the current sampling module is connected with the communication terminal public terminal pin 11 of the data processing module through a wire. A pin 5 and a pin 6 at the output end of the current sampling module provide working power for the ultrasonic control module and the ultrasonic mist generator and monitor the working current of the ultrasonic control module and the ultrasonic mist generator, wherein the pin 5 is connected with a pin 2 at the power input end of the ultrasonic control module through a lead, and the pin 6 is connected with a pin 1 at the power input end of the ultrasonic control module through a lead; a pin 7 and a pin 8 at the output end of the current sampling module provide working power supplies for the heating control module, the liquid heater and the aerosol heater, and monitor the working current of the heating control module, the liquid heater and the aerosol heater, wherein the pin 7 is connected with a pin 2 at the power supply input end of the heating control module through a lead, and the pin 8 is connected with a pin 1 at the power supply input end of the heating control module through a lead; and a pin 9 and a pin 10 at the output end of the current sampling module provide working power supplies for the pressure control module and the pressure pump and monitor the working current of the pressure control module and the pressure pump, the pin 9 is connected with a pin 2 at the power supply input end of the pressure control module through a lead, and the pin 10 is connected with a pin 1 at the power supply input end of the pressure control module through a lead.

The communication end of the ultrasonic control module is electrically connected with the communication end of the data processing module; the output end of the ultrasonic control module is electrically connected with the input end of the ultrasonic atomizer; the ultrasonic control module is used for receiving the instruction of the data processing module and controlling the ultrasonic aerosol device according to the instruction of the data processing module.

the ultrasonic atomizer is used for high-frequency oscillation of liquid in a water storage tank of the cleaning machine into aerosol and arranged in the water storage tank of the cleaning machine.

the washer system further includes: aerosol humidity sensor 105.

The output end of the aerosol humidity sensor is electrically connected with the induction end of the ultrasonic control module. The quantity of aerial fog humidity transducer 105 is two at least, and two aerial fog humidity transducers set up respectively in the inside top of cleaning machine water storage tank and the muzzle of the washing rifle head of cleaning machine, and aerial fog humidity transducer is used for detecting the humidity of the washing aerial fog that ultrasonic wave aerial fog ware high frequency oscillation produced in the water storage tank and the humidity of the washing aerial fog of washing rifle head muzzle spun. The ultrasonic control module is also used for receiving the data of the aerosol humidity sensor, transmitting the data of the aerosol humidity sensor to the data processing module, and controlling the start and stop of the ultrasonic aerosol device, the adjustment of the aerosol content and the like according to the instruction of the data processing module.

referring to fig. 1, a pin 1 and a pin 2 at the power input end of the ultrasonic control module are used for being electrically connected with the output end of the current sampling module to provide a working power supply for the ultrasonic control module, wherein the pin 1 is connected with a live wire or an anode of the power supply, namely, the pin 6 at the power output end of the current sampling module is connected through a wire, and the pin 2 is connected with a zero wire or a cathode of the power supply, namely, the pin 5 at the power output end of the current sampling module is connected through a wire; a pin 3 and a pin 4 of the ultrasonic control module are communication ends of the ultrasonic control module, the pin 3 is connected with a pin 8 of the communication end of the data processing module through a lead, and the pin 4 is connected with a common end pin 11 of the communication end of the data processing module through a lead; a pin 5 and a pin 6 of the ultrasonic control module are output ends of the ultrasonic control module, the pin 5 is connected with one pin of the input end of the ultrasonic atomizer through a lead, and the pin 6 is connected with the other pin of the input end of the ultrasonic atomizer through a lead; pin 7 and pin 8 of ultrasonic control module are ultrasonic control module's response end, and pin 7 passes through a pin of wire connection aerial fog humidity transducer output, and pin 8 passes through another pin of wire connection aerial fog humidity transducer output.

The communication end of the heating control module is electrically connected with the communication end of the data processing module; the output end of the heating control module is respectively and electrically connected with the input end of the liquid heater and the input end of the aerial fog heater; the heating control module is used for receiving the instruction of the data processing module and controlling the liquid heater and the air fog heater according to the instruction of the data processing module.

The liquid heater is arranged in a water storage tank of the cleaning machine; the liquid heater is used for heating the liquid in the water storage tank of the cleaning machine.

the aerosol heater is arranged in a water storage tank of the cleaning machine; the aerosol heater is used for heating the cleaning aerosol in the water storage tank.

The washer system further includes: a liquid temperature sensor 109.

the output end of the liquid temperature sensor is electrically connected with the induction end of the heating control module. The liquid temperature sensor is arranged in a water storage tank of the cleaning machine; the liquid temperature sensor is used for detecting the temperature of the liquid in the water storage tank.

The washer system further includes: aerosol temperature sensor 115.

The output end of the aerosol temperature sensor is electrically connected with the induction end of the heating control module. The aerosol temperature sensor is arranged at the muzzle of the cleaning gun head of the cleaning machine; the aerosol temperature sensor is used for detecting the temperature of cleaning aerosol jetted by a cleaning gun head of the cleaning machine. The heating control module is also used for receiving the data of the liquid temperature sensor and the aerosol temperature sensor, transmitting the data of the liquid temperature sensor and the aerosol temperature sensor to the data processing module, and controlling the on-off of the liquid heater and the aerosol heater, the adjustment of the temperature and the like according to the instruction of the data processing module.

Referring to fig. 1, a pin 1 and a pin 2 at a power input end of a heating control module are used for being electrically connected with an output end of a current sampling module to provide a working power supply for the heating control module, the pin 1 is connected with a live wire or an anode of the power supply, namely, the pin 8 at the output end of the current sampling module is connected through a wire, and the pin 2 is connected with a zero line or a cathode of the power supply, namely, the pin 7 at the output end of the current sampling module is connected through a wire; the pin 3 and the pin 4 of the heating control module are communication ends of the heating control module, the pin 3 is connected with a communication end pin 9 of the data processing module through a lead, and the pin 4 is connected with a common end pin 11 of the communication end of the data processing module through a lead; a pin 5 and a pin 6 of the heating control module are liquid heating output ends of the heating control module, the pin 5 is connected with one pin of the input end of the liquid heater through a lead, and the pin 6 is connected with the other pin of the input end of the liquid heater through a lead; a pin 7 and a pin 8 of the heating control module are aerosol heating output ends of the output end of the heating control module, the pin 7 is connected with one pin of the input end of the aerosol heater through a lead, and the pin 8 is connected with the other pin of the input end of the aerosol heater through a lead; a pin 9 and a pin 10 of the heating control module are liquid temperature sensing ends of the heating control module, the pin 9 is connected with one pin of the output end of the liquid temperature sensor through a lead, and the pin 10 is connected with the other pin of the output end of the liquid temperature sensor through a lead; pin 11 and pin 12 of heating control module are the aerial fog temperature induction end of heating control module induction end, and pin 11 passes through a pin of wire connection aerial fog temperature sensor output, and pin 12 passes through another pin of wire connection aerial fog temperature sensor output.

The communication end of the pressure control module is electrically connected with the communication end of the data processing module; the output end of the pressure control module is electrically connected with the input end of the pressure pump; and the pressure control module is used for receiving the instruction of the data processing module and controlling the pressurizing pump according to the instruction of the data processing module.

The pressure pump is used for pressurizing gas in the gas storage tank of the cleaning machine and is arranged inside the gas storage tank of the cleaning machine.

The washer system further includes: a gas pressure sensor 112.

The output end of the gas pressure sensor is electrically connected with the induction end of the pressure control module. The gas pressure sensor is arranged in the gas storage tank of the cleaning machine; the gas pressure sensor is used for detecting the gas pressure in the gas storage tank. The pressure control module is also used for receiving the data of the gas pressure sensor, transmitting the data of the gas pressure sensor to the data processing module, and controlling the on-off of the pressure pump, the pressure regulation and the like according to the instruction of the data processing module.

Referring to fig. 1, a pin 1 and a pin 2 at the power input end of the pressure control module are used for being electrically connected with the output end of the current sampling module to provide a working power supply for the pressure control module, the pin 1 is connected with a live wire or an anode of the power supply, namely, connected with a pin 10 at the output end of the current sampling module through a wire, and the pin 2 is connected with a zero line or a cathode of the power supply, namely, connected with a pin 9 at the output end of the current sampling module through a wire; a pin 3 and a pin 4 of the pressure control module are communication ends of the pressure control module, the pin 3 is connected with a pin 10 of the communication end of the data processing module through a lead, and the pin 4 is connected with a common end pin 11 of the communication end of the data processing module through a lead; a pin 5 and a pin 6 of the pressure control module are output ends of the pressure control module, the pin 5 is connected with one pin of the input end of the pressure pump through a lead, and the pin 6 is connected with the other pin of the input end of the pressure pump through a lead; and a pin 7 and a pin 8 of the pressure control module are sensing ends of the pressure control module, the pin 7 is connected with one pin of the output end of the gas pressure sensor through a lead, and the pin 8 is connected with the other pin of the output end of the gas pressure sensor through a lead.

the communication end of the data processing module is electrically connected with the communication end of the alarm display module; the data processing module is used for receiving the data parameters of the voltage sampling module and the current sampling module, comparing the data parameters with set parameters according to the data parameters, and outputting control instructions to the ultrasonic control module, the heating control module and the pressure control module, and the data processing module is also used for outputting the data parameters, the control instructions and the alarm instructions to the alarm display module.

and the alarm display module is used for receiving and displaying the data parameters, the control instructions and the alarm instructions. Referring to fig. 1, a pin 1 and a pin 2 at the power input end of the alarm display module are used for being electrically connected with the power output end of the voltage sampling module to provide a working power supply for the alarm display module, wherein the pin 1 is connected with a live wire or a positive electrode of the power supply, namely, the pin is connected with a pin 3 at the power output end of the voltage sampling module through a wire, and the pin 2 is connected with a zero line or a negative electrode of the power supply, namely, the pin is connected with a pin 4 at the power output end of the voltage sampling module through a wire; and a pin 3 and a pin 4 of the alarm display module are communication ends of the alarm display module, the pin 3 is connected with a pin 2 of the communication end of the data processing module through a wire, and the pin 4 is connected with a public end pin 11 of the communication end of the data processing module through a wire.

The washer system further includes: a key 116 is provided.

The first end of the setting button 116 is electrically connected with the communication end of the data processing module, and the second end of the setting button 116 is respectively electrically connected with the communication end of the voltage sampling module, the communication end of the current sampling module, the communication end of the alarm display module, the communication end of the ultrasonic control module, the communication end of the heating control module, the communication end of the pressure control module and the public communication end of the data processing module.

the setting key is used for setting the range of rated data of the cleaning machine system, and the rated data comprises: rated voltage, rated current, cleaning aerosol humidity, cleaning aerosol temperature, temperature of liquid in the water storage tank and pressure of gas in the gas storage tank.

the washer system further includes: an accumulation button 117.

The first end of the accumulation button 117 is electrically connected with the communication end of the data processing module, and the second end of the accumulation button 117 is respectively electrically connected with the communication end of the voltage sampling module, the communication end of the current sampling module, the communication end of the alarm display module, the communication end of the ultrasonic control module, the communication end of the heating control module, the communication end of the pressure control module and the public communication end of the data processing module.

The accumulation button is used for enlarging the range of rated data of the cleaning machine system.

the washer system further includes: the button 118 is decremented.

The first end of the accumulation and subtraction key 118 is electrically connected with the communication end of the data processing module, and the second end of the accumulation and subtraction key 118 is respectively electrically connected with the communication end of the voltage sampling module, the communication end of the current sampling module, the communication end of the alarm display module, the communication end of the ultrasonic control module, the communication end of the heating control module, the communication end of the pressure control module and the public communication end of the data processing module.

the accumulation button is used for reducing the range of rated data of the cleaning machine system.

Referring to fig. 1, a pin 1 and a pin 12 at a power input end of the data processing module are used for being electrically connected with a power output end of the voltage sampling module to provide a working power supply for the data processing module, wherein the pin 1 is connected with a live wire or a positive electrode of the power supply, namely, the pin is connected with a pin 4 at the power output end of the voltage sampling module through a wire, and the pin 12 is connected with a zero line or a negative electrode of the power supply, namely, the pin is connected with a pin 3 at the power output end of the voltage sampling module through a wire; a pin 2 of a communication end of the data processing module is connected with a pin 3 of a communication end of the alarm display module through a wire, a pin 6 of the communication end of the data processing module is connected with a pin 5 of a communication end of the voltage sampling module through a wire, a pin 7 of the communication end of the data processing module is connected with a pin 3 of a communication end of the current sampling module through a wire, a pin 8 of the communication end of the data processing module is connected with a pin 3 of a communication end of the ultrasonic control module through a wire, a pin 9 of the communication end of the data processing module is connected with a pin 3 of a communication end of the heating control module through a wire, and a pin 10 of the communication end of the data processing module is connected with; a common terminal pin 11 of the data processing module communication terminal is respectively connected with a pin 4 of the alarm display module communication terminal, a pin 6 of the voltage sampling module communication terminal, a pin 4 of the current sampling module communication terminal, a pin 4 of the ultrasonic control module communication terminal, a pin 4 of the heating control module communication terminal, a pin 4 of the pressure control module communication terminal, a second terminal of the setting key, a second terminal of the accumulation key and a second terminal of the accumulation key through wires; pin 3 of data processing module communication end sets up the first end of button through the wire connection, and pin 4 of data processing module communication end accumulates the first end of button through the wire connection, and pin 5 of data processing module communication end accumulates the first end of button through the wire connection.

The working process of the cleaning machine system of the invention is as follows: after the voltage sampling module is connected with a power supply, the voltage sampling module is converted into voltage which accords with the work of the data processing module and the alarm display module through an internal circuit, and the voltage is respectively used for providing a working power supply for the data processing module and the alarm display module; and transmitting the detected overvoltage or undervoltage data of the power supply voltage value to the data processing module, receiving a power-on and power-off control instruction sent by the data processing module, performing power-on and power-off output control, and supplying power to the current sampling module, the ultrasonic control module, the heating control module and the pressure control module by using the control output voltage.

After the data processing module is powered on, the program is initialized and starts to receive, process and send corresponding data instructions. Pressing a setting key for the first time, entering a rated voltage value setting program, and adjusting a rated voltage range by matching with an accumulation key and an accumulation key; after the rated voltage range is adjusted, the data processing module compares the voltage value transmitted by the voltage sampling module with the rated voltage range, and when the received voltage value is within the set rated voltage value range, a switch-on control instruction is sent to the voltage sampling module, so that the voltage sampling module outputs voltage; otherwise, a disconnection control instruction is sent to the voltage sampling module, so that the voltage sampling module does not output voltage, and meanwhile, abnormal alarm information is output to the alarm display module to be displayed.

Pressing the setting key for the second time, entering a rated current value setting program, and adjusting a rated current range by matching with the accumulation key and the accumulation and subtraction key; the rated current value comprises the rated current value of the ultrasonic aerosol device, the rated current value of the liquid heater, the rated current value of the aerosol heater and the rated current value of the pressure pump; after the adjustment of the rated current range is completed, the data processing module compares the current value transmitted by the current sampling module with the rated current range, detects the overload, no-load and leakage working states of the ultrasonic control module, the heating control module and the pressure control module according to the set rated current value range, and when detecting that the monitoring current value of any one of the ultrasonic control module, the heating control module and the pressure control module does not accord with the set rated current value, the data processing module sends a disconnection control instruction to the corresponding module to stop the corresponding module from working, and simultaneously outputs corresponding abnormal alarm information to the alarm display module for displaying.

Pressing down a setting button for the third time, entering an ultrasonic aerosol content setting program, and adjusting an aerosol humidity value by matching with an accumulation button and an accumulation button; after the aerosol humidity value is set, the data processing module compares the aerosol humidity sensor data transmitted by the ultrasonic control module with the set aerosol humidity value, outputs an instruction to the ultrasonic control module to adjust the running state of the ultrasonic aerosol device, when the content of the aerosol detected in the data of the aerosol humidity sensor transmitted by the ultrasonic control module is lower than the set aerosol humidity value, namely, when the flow rate of the aerosol liquid is low or the aerosol is insufficient, the data processing module sends a switching-on instruction to the ultrasonic control module to enable the ultrasonic control module to output and control the ultrasonic aerosol device to work, when the aerosol content detected by the aerosol humidity sensor on the ultrasonic control module is higher than the set aerosol humidity value, the data processing module sends a disconnection instruction to the ultrasonic control module, so that the ultrasonic control module outputs an ultrasonic control signal to control the ultrasonic atomizer to stop working.

pressing the setting key for the fourth time, entering an aerosol temperature control setting program, and adjusting the temperature values of the liquid and the aerosol by matching with the accumulation key and the accumulation key; after the liquid temperature value and the aerosol temperature value are set, the data processing module compares the data detected by the liquid temperature sensor and the aerosol temperature sensor on the heating control module with the set liquid temperature value and the set aerosol temperature value, and outputs an instruction to the heating control module to adjust the operating states of the liquid heater and the aerosol heater; when the liquid or the aerosol temperature detected by the liquid temperature sensor and the aerosol temperature sensor on the heating control module is higher than the set liquid temperature value and the set aerosol temperature value, namely the temperature is too high, the data processing module sends a command of disconnecting the liquid heater or a command of disconnecting the aerosol heater to the heating control module, so that the heating control module outputs a command of controlling the liquid heater or the aerosol heater to stop working.

pressing the setting button for the fifth time, entering an aerosol pressure control setting program, and adjusting an aerosol pressure value by matching with the accumulation button and the accumulation button; after the aerial fog pressure value is set for and is accomplished, data processing module compares the data that gas pressure sensor on the pressure control module detected with the aerial fog pressure value of settlement, the running state of pressure control module adjustment force (forcing) pump is given to the output instruction, the gas pressure that gas pressure sensor on the pressure control module detected is less than the aerial fog pressure value of settlement, when pressure in the gas holder was low or aerial fog was not enough promptly, data processing module sends the switch-on instruction and gives pressure control module, make pressure control module output control force (forcing) pump carry out work, the gas pressure that gas pressure sensor on the pressure control module detected is higher than the aerial fog pressure value of settlement, when pressure in the gas holder was too high promptly, data processing module sends the switch-off instruction and gives pressure control module, make pressure control module output control force (forcing) pump stop work.

Pressing the setting key for the sixth time, entering the rated voltage value setting program again, circularly executing the rated voltage value setting program, the rated current value setting program, the ultrasonic aerosol content setting program and the aerosol temperature control setting program, and exiting the setting state after no key operation within 30 seconds. The data processing module sends all set parameters and data, and alarm content and data to the alarm display module for display, and can judge the running state of the machine equipment according to the display content of the alarm display module.

The current sampling module acquires a power supply output by the voltage sampling module and initializes the data of the current sampling module; and transmitting the detected and monitored current data information of each control module and the equipment electrical appliance to the data processing module, and receiving and executing a control instruction sent by the data processing module. When the current data of any one of the ultrasonic control module, the heating control module and the pressure control module does not meet the set requirement, sending the monitoring data of the module to the data processing module, sending a corresponding control command to the corresponding control module by the data processing module after data comparison, and correcting the working mode of the corresponding control module to enable the corresponding control module to reach the set working state; if the set working state can not be met, namely overload, no-load and leakage protection exist in any one of the ultrasonic control module, the heating control module and the pressure control module, the corresponding control module stops working, and alarming and displaying are carried out. The specific control process is as follows: when the current value of the ultrasonic control module detected by the current sampling module received by the data processing module is compared with a set value and meets a set requirement, a switch-on control instruction is sent to the ultrasonic control module to enable the ultrasonic atomizer controlled by the ultrasonic control module to operate, otherwise, a switch-off control instruction is sent to the ultrasonic control module to enable the ultrasonic atomizer to stop working; when the current value of the heating control module detected by the current sampling module received by the data processing module is compared with a set value and meets a set requirement, sending a switch-on control instruction to the heating control module to enable the heating control module to independently control the liquid heater or the aerosol heater to work, otherwise, sending a switch-off control instruction to the heating control module to enable the heating control module to independently control the liquid heater or the aerosol heater to stop working; when the current value of the pressure control module detected by the current sampling module received by the data processing module is compared with a set value, and the set value meets a set requirement, a switch-on control instruction is sent to the pressure control module to enable the pressure control module to control the pressure pump to work, otherwise, a switch-off control instruction is sent to the pressure control module to enable the pressure pump to stop working.

The ultrasonic control module receives humidity data sensed by the aerosol humidity sensor, aerosol humidity data parameters are transmitted to the data processing module after processing, and the data processing module sends a starting control instruction or a stopping control instruction to the ultrasonic control module after analyzing and comparing according to a set aerosol humidity value, so that the ultrasonic control module controls the starting or stopping of the ultrasonic aerosol device. The aerosol content that the aerosol humidity transducer that the ultrasonic control module that receives transmitted is received as data processing module detects is less than the aerosol humidity value of settlement, show that the aerosol liquid velocity of flow is low or when the aerial fog is not enough promptly, data processing module sends the switch-on instruction and gives ultrasonic control module, make ultrasonic control module output control ultrasonic wave aerosol fog ware carry out work, when the aerosol content that the aerosol humidity transducer that is on the ultrasonic control module detected is higher than the aerosol humidity value of settlement, data processing module sends the switch-off instruction and gives ultrasonic control module, make ultrasonic control module output control ultrasonic wave aerosol fog ware stop work, can prevent the water shortage condition.

The heating control module receives data of liquid temperature sensed by the liquid temperature sensor and data of gas mist temperature sensed by the gas mist temperature sensor, transmits liquid temperature and gas mist temperature data parameters to the data processing module after processing, the data processing module sends a starting control instruction or a stopping control instruction to the heating control module after analyzing and comparing the set liquid temperature value and the set gas mist temperature value, and the heating control module independently controls the starting and stopping of the liquid heater and the gas mist heater according to the starting control instruction or the stopping control instruction; when the liquid temperature value or the gas temperature value detected by the liquid temperature sensor or the gas temperature sensor on the heating control module received by the data processing module is lower than the set liquid temperature value and the set gas fog temperature value, the data processing module sends a command of switching on the liquid heater or a command of switching on the gas fog heater to the heating control module, so that the heating control module outputs a command of controlling the liquid heater or the gas fog heater to work, and can also preheat in advance; when the liquid temperature value or the gas temperature value detected by the liquid temperature sensor or the gas temperature sensor on the heating control module received by the data processing module is higher than the set liquid temperature value and the set aerosol temperature value, the data processing module sends a command of disconnecting the liquid heater or a command of disconnecting the aerosol heater to the heating control module, so that the heating control module outputs a command of controlling the liquid heater or the aerosol heater to stop working, and the dry burning condition can be prevented.

The pressure control module receives aerosol pressure data sensed by the gas pressure sensor, aerosol pressure data parameters are transmitted to the data processing module after processing, and the data processing module sends a starting control instruction or a stopping control instruction to the pressure control module after analyzing and comparing according to a set aerosol pressure value, so that the pressure control module controls the starting or stopping of the pressure pump; when the aerosol pressure value detected by the pressure sensor on the pressure control module received by the data processing module is lower than the set aerosol pressure value, the data processing module sends a switch-on instruction to the pressure control module, so that the pressure control module controls the pressurizing pump to work and also can pressurize in advance; when the gas mist pressure value detected by the gas pressure sensor on the pressure control module received by the data processing module is higher than the set gas mist pressure value, the data processing module sends a disconnection instruction to the pressure control module to control the pressurizing pump to stop working.

The alarm display module starts to display after being powered on, receives data transmitted by the data processing module, and displays set values of the voltage sampling module, the current sampling module, the ultrasonic control module, the heating control module and the pressure control module and detection data of the voltage sampling module, the current sampling module, the ultrasonic control module, the heating control module and the pressure control module in a circulating mode, and if alarm information exists, the alarm display module displays alarm data at the same time.

The cleaning machine system of the invention adopts the high-frequency oscillation of ultrasonic waves to generate gas fog, and uses air pressure vortex to spray out by adding liquid preheating and independent gas fog heating to generate strong airflow. The principle of driving the aerial fog to be sprayed is that the aerial fog generated by the ultrasonic aerial fog device meets an aerial fog heater and is converted into high-temperature and high-pressure strong steam, so that the energy loss of high-pressure air flow generated in the prior art can be reduced; in addition, this application has added the control mode of ultrasonic wave aerosol sprayer, through starting and stopping ultrasonic wave aerosol sprayer, can control the aerosol volume and the humidity that ultrasonic wave aerosol sprayer produced, not only saves power consumption, can also balanced control aerial fog's humidity.

The invention adopts the vortex pressure generated by the flow of high-pressure gas and the principle of driving aerial fog to spray, regulates the start-stop working period of the pressure pump through the pressure control module, generates a gas pressure output mode, and changes the flow of the aerial fog, so that the cleaning machine can adapt to more places and ranges and meet different environmental requirements; the high-temperature aerial fog passes through fine particle water drops to strip oil stains and dust strongly, can effectively sterilize, remove dust, deoil and the like and clean fine gaps and cavities, does not need to be soaked by a solvent or a reagent, does not cause secondary pollution to the environment due to the residues of selected cleaning agents and washing products in the cleaning process, improves the safety condition of the cleaning work, greatly reduces the cleaning time, the labor cost and the article cost, and improves the cleaning efficiency; and the liquid is converted into the gas fog to form water fog particles, so that the use amount of water resources can be greatly reduced, and the loss of the resources is reduced.

the principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.