CN217642137U - Self-adaptive nanometer water ion generator control system - Google Patents

Abstract

The utility model discloses a self-adaptive nanometer water ion generator control system, which relates to the technical field of nanometer water ion generator devices, and comprises a refrigeration control unit, a high-voltage discharge module and a nanometer water ion generator; the nanometer water ion generator comprises a refrigeration component, a water condensation component and a discharge electrode; the refrigeration assembly is in signal connection with the refrigeration control unit, the refrigeration control unit controls the water condensation assembly to work, the high-voltage discharge module is electrically connected with the discharge electrode, the refrigeration control unit comprises a temperature and humidity sensor, a signal processing circuit, a driving circuit, a power circuit and a single chip microcomputer, the temperature and humidity sensor is in signal connection with the signal processing circuit, the signal processing circuit and the driving circuit are both in signal connection with the single chip microcomputer, the driving circuit is in signal connection with the refrigeration assembly, and the power circuit is electrically connected with the single chip microcomputer; the utility model provides a carry out intelligent control to nanometer water ion generator, further reduce the technical problem of energy consumption.

Description

Self-adaptive nanometer water ion generator control system

Technical Field

The utility model relates to a nanometer water ion generator technical field especially relates to a self-adaptation nanometer water ion generator control system.

Background

Compared with negative ions, the nano water ions have long existence time in the air and long propagation distance, are more suitable for application scenes of disinfection, sterilization, air purification, peculiar smell removal and the like, and simultaneously, the water content is far higher than that of the negative ions and is weak-acid-compatible with the skin, so the nano water ions can also be used for hairdressing and beauty.

The existing nanometer water ion generator generally adopts a condensation mode, and generates nanometer water ions by absorbing moisture in air; in order to ensure that water can be condensed in different temperature and humidity environments, a water condensing component is usually maintained at an extremely low temperature, the temperature of the water condensing component and the refrigerating capacity of a refrigerating assembly cannot be adjusted, and a large amount of electric energy can be consumed by the corresponding refrigerating assembly; under the environment that air humidity is big, often condense water excessively, bring the electric energy waste, still need design complicated structure when condensing water excessively to handle the water that condenses.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at carries out intelligent control to nanometer water ion generator, further reduces the energy consumption, need not to handle excessive water that congeals simultaneously, and is more simple structurally.

In order to achieve the above purpose, the technical solution adopted by the utility model is as follows:

a self-adaptive nanometer water ion generator control system comprises a refrigeration control unit, a high-voltage discharge module and a nanometer water ion generator;

the nanometer water ion generator comprises a refrigeration assembly, a water condensation assembly and a discharge electrode;

the refrigeration assembly is in signal connection with the refrigeration control unit, the refrigeration control unit controls the water condensation assembly to work, and the high-voltage discharge module is electrically connected with the discharge electrode.

The refrigeration control unit comprises a temperature and humidity sensor, a signal processing circuit, a driving circuit, a power circuit and a single chip microcomputer, the temperature and humidity sensor is in signal connection with the signal processing circuit, the signal processing circuit and the driving circuit are in signal connection with the single chip microcomputer, the driving circuit is in signal connection with the refrigeration assembly, and the power circuit is electrically connected with the single chip microcomputer.

Furthermore, the temperature and humidity sensor is arranged in the refrigeration control unit.

Furthermore, the temperature and humidity sensor is externally arranged on the refrigeration control unit.

Further, the refrigeration assembly is a semiconductor refrigeration assembly.

Further, the discharge electrode is of a counter electrode structure.

Further, the discharge electrode is of a structure without an opposite electrode.

Furthermore, the water condensing assembly adopts a water condensing sleeve structure.

The utility model has the advantages that: the utility model discloses a refrigeration the control unit detects the humiture of current environment in real time, and calculate suitable water temperature of congealing, and then calculate required target refrigeration volume, refrigeration the control unit controls its power through the electric current or the voltage of adjusting the refrigeration subassembly simultaneously, and then adjust the refrigeration volume, thereby reach the target value, simultaneously, congeal the water subassembly then to produce the right amount and congeal water and supply the ionization of discharge electrode to generate nanometer water ion, compare with the conventional art, the intelligent control to nanometer water ion generator has been realized, and need not to make refrigeration subassembly and the water subassembly of congealing work with maximum power always, thereby further reduced the energy consumption, and simultaneously, need not to handle excessive water of congealing, it is more simple in structure.

Drawings

Fig. 1 is a schematic diagram of a refrigeration control unit, a high-voltage discharge module and a nanometer water ion generator of the present invention;

fig. 2 is a schematic diagram of a refrigeration control unit and a refrigeration assembly of the present invention;

the reference signs are:

a refrigeration control unit 1, a temperature and humidity sensor 11, a signal processing circuit 12, a driving circuit 13, a power circuit 14, a singlechip 15,

the high-voltage discharge module (2) is provided with a high-voltage discharge unit,

nanometer water ion generator 3, refrigeration subassembly 31, congeal water subassembly 32, discharge electrode 33.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

Fig. 1 and 2 show a self-adaptive nano water ionizer control system, which includes a refrigeration control unit 1, a high-voltage discharge module 2, and a nano water ionizer 3.

The refrigeration control unit 1 comprises a temperature and humidity sensor 11, a signal processing circuit 12, a driving circuit 13, a power circuit 14 and a single chip microcomputer 15, the temperature and humidity sensor 11 is in signal connection with the signal processing circuit 12, the signal processing circuit 12 and the driving circuit 13 are both in signal connection with the single chip microcomputer 15, the driving circuit 13 is in signal connection with a refrigeration assembly 31, and the power circuit 14 is electrically connected with the single chip microcomputer 15 and supplies power through the power circuit 14.

The temperature and humidity sensor 11 may be disposed inside the refrigeration control unit 1 or disposed outside the refrigeration control unit 1, and in this embodiment, it is preferable to select a connection structure in which the temperature and humidity sensor 11 is disposed inside the refrigeration control unit 1.

The nano water ionizer 3 includes a refrigerating assembly 31, a water condensing assembly 32, and a discharge electrode 33.

The refrigeration assembly 31 is in signal connection with the refrigeration control unit 1, the refrigeration control unit 1 controls the water condensation assembly 32 to work, and the high-voltage discharge module 2 is electrically connected with the discharge electrode 33.

After the temperature and humidity sensor 11 detects the temperature and humidity of the current environment, the temperature and humidity information of the current environment is transmitted to the signal processing circuit 12, the signal processing circuit 12 receives signals of the temperature and humidity sensor 11 and sends the processed signals to the single chip microcomputer 15, the single chip microcomputer 15 calculates the optimal refrigerating temperature and the required refrigerating capacity in the current temperature and humidity environment according to the read temperature and humidity signals, the single chip microcomputer 15 gives corresponding signals to the driving circuit 13 according to the information calculated through analysis, the driving circuit 13 adjusts the driving power of the refrigerating assembly 31 according to instructions of the single chip microcomputer 15, the purpose of adjusting the refrigerating capacity and the refrigerating temperature is achieved, appropriate amount of condensed water can be generated under any temperature and humidity environment, and self-adaptive adjustment can be carried out on the state of the refrigerating assembly 31 according to the environment state.

The high-voltage discharge module 2 provides the required high pressure that discharges for discharge electrode 33, and the water subassembly 32 that congeals produces the appropriate amount of water that congeals and supplies discharge electrode 33 ionization to generate nanometer water ion, the utility model discloses a to nanometer water ion generator 3's intelligent control, and need not to make refrigeration subassembly 31 and the water subassembly 32 that congeals work with maximum power always to the electric energy has further been practiced thrift.

In this embodiment, the driving circuit 13 may adjust the driving power of the cooling module 31 by adjusting the driving voltage, or by adjusting the driving current.

The refrigeration component 31 is a semiconductor refrigeration component 31, the semiconductor refrigeration component 31 adopted in the embodiment is a cooling device composed of semiconductors, and the semiconductor refrigeration component has the advantages that no sliding part is arranged, and the semiconductor refrigeration component is applied to occasions with limited space, high reliability requirement and no refrigerant pollution; by utilizing the Peltier effect of semiconductor materials, when direct current passes through a galvanic couple formed by connecting two different semiconductor materials in series, heat can be absorbed and released at two ends of the galvanic couple respectively, so that the aim of refrigeration can be fulfilled; the refrigerating technology which generates negative thermal resistance is characterized by no moving parts and higher reliability.

The discharge electrode 33 may have a counter electrode structure or a structure without a counter electrode, and in the present embodiment, a counter electrode structure is preferably selected.

The water condensing unit 32 may have a water condensing jacket structure, or may realize a water condensing function by the discharge electrode 33, and in the present embodiment, the water condensing unit 32 preferably has a water condensing jacket structure.

The utility model discloses a theory of operation does: after temperature and humidity sensor 11 detected the humiture of current environment, transmit the humiture information of current environment to signal processing circuit 12, signal processing circuit 12 receives temperature and humidity sensor 11's signal, and signal transmission after will handling gives singlechip 15, singlechip 15 is according to the humiture signal that reads, calculate the best refrigeration temperature and required refrigeration capacity under the current humiture environment, singlechip 15 is according to the information that the analysis calculated, give corresponding signal to drive circuit 13, drive circuit 13 adjusts the drive power of refrigeration subassembly 31 according to singlechip 15's instruction, thereby reach the purpose of adjusting refrigeration capacity and refrigeration temperature, in order to guarantee to congeal water subassembly 32 under any humiture environment and can both produce the right amount and congeal water, can carry out self-adaptation's regulation according to the state of environment to refrigeration subassembly 31 promptly, thereby realized the intelligent control to nanometer water ion generator 3, high pressure discharge module 2 provides the required high pressure of discharging for discharge electrode 33, congeal water subassembly 32 produces the right amount and congeals water and supplies discharge electrode 33 to ionize and generate nanometer water ion, thereby make the utility model discloses the energy consumption need not to make refrigeration subassembly 31 and congeal water subassembly 32 with work always with the work energy consumption, thereby further practice thrift the maximum power.

The above-mentioned only discloses the preferred embodiment of the present invention, can not limit the right protection scope of the present invention, therefore according to the present invention, the equivalent changes made on the application claims still belong to the scope covered by the present invention, the above is not any restriction to the technical scope of the present invention, all the changes, equivalent changes and modifications made by the technical essence of the present invention to the above embodiments all still belong to the scope of the technical solution of the present invention.

Claims (7)

1. A self-adaptive nanometer water ion generator control system is characterized in that: the device comprises a refrigeration control unit, a high-voltage discharge module and a nanometer water ion generator;

the nanometer water ion generator comprises a refrigeration assembly, a water condensation assembly and a discharge electrode;

the refrigeration assembly is in signal connection with a refrigeration control unit, the refrigeration control unit controls the water condensation assembly to work, and the high-voltage discharge module is electrically connected with the discharge electrode;

the refrigeration control unit comprises a temperature and humidity sensor, a signal processing circuit, a driving circuit, a power circuit and a single chip microcomputer, the temperature and humidity sensor is in signal connection with the signal processing circuit, the signal processing circuit and the driving circuit are in signal connection with the single chip microcomputer, the driving circuit is in signal connection with the refrigeration assembly, and the power circuit is electrically connected with the single chip microcomputer.

2. The adaptive nano-water ionizer control system of claim 1, wherein: the temperature and humidity sensor is arranged in the refrigeration control unit.

3. The adaptive nano-water ionizer control system of claim 1, wherein: the temperature and humidity sensor is externally arranged on the refrigeration control unit.

4. The adaptive nano-water ionizer control system of claim 1, wherein: the refrigeration assembly is a semiconductor refrigeration assembly.

5. The adaptive nano-water ionizer control system of claim 1, characterized in that: the discharge electrode is a counter electrode structure.

6. The adaptive nano-water ionizer control system of claim 1, characterized in that: the discharge electrode is of a structure without an opposite electrode.

7. The adaptive nano-water ionizer control system of any one of claims 1 to 6, wherein: the water condensing assembly adopts a water condensing sleeve structure.

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