CN210197549U - Anion generator for atomization cooling equipment - Google Patents

Abstract

An anion generator for an atomization cooling device comprises an ultrasonic atomizer, wherein the ultrasonic atomizer is connected with a fixing clamp, the fixing clamp is connected with a cooling air pipe, an anion spray head is arranged in the fixing clamp, and the anion spray head is respectively communicated with the ultrasonic atomizer and the cooling air pipe; the cooling air pipe is provided with an anion generator, one side of the anion generator is provided with a control box, and the anion generator is communicated with the anion spray head through a vent pipe; a first temperature measuring cavity, a cooling cavity and a second temperature measuring cavity are arranged in the cooling air pipe, the first temperature measuring cavity is communicated with the cooling cavity, the cooling cavity is communicated with the second temperature measuring cavity, a cooling assembly is arranged in the cooling cavity, and the second temperature measuring cavity is communicated with the negative ion spray head; the cooling air pipe is communicated with the fixed box, and an exhaust fan is arranged in the fixed box. The utility model discloses overall structure designs compactly, is convenient for adjust and control in real time the air temperature that gets into in the ultrasonic atomization ware, improves the cooling effect greatly, has fine popularization application prospect.

Description

Anion generator for atomization cooling equipment

Technical Field

The utility model relates to a technical field of atomizing cooling device especially relates to an anion generator for atomizing cooling device.

Background

The income per capita of residents is obviously improved in recent years, the residents pay more and more attention to the quality of life, especially for the aspect of daily life, the requirements on the indoor environment are also improved, especially for the indoor air temperature and humidity, in order to ensure the indoor proper temperature and humidity, the residents buy humidifiers to improve the temperature and humidity of the indoor air, the humidifier products on the market at present are various and have various functions, especially for the humidifiers of equipment for increasing negative ions, a generator for manufacturing the negative ions is a device for generating the negative ions of the air, and the device carries out overvoltage current limiting through a pulse type circuit after the input direct current or alternating current is processed by an EMI processing circuit and a lightning stroke protection circuit; high-low voltage isolation and other lines are raised to alternating current high voltage, then pure direct current negative high voltage is obtained after rectification and filtration through special grade electronic materials, the direct current negative high voltage is connected to a release tip made of metal or carbon elements, high corona is generated by utilizing the tip direct current high voltage, a large amount of electrons (e-) are emitted at high speed, the electrons cannot exist in the air for a long time (the service life of the existing electrons is only nS grade), and the electrons can be immediately captured by oxygen molecules (O2) in the air, so that air negative ions are generated. The nano fullerene negative ions release the tip, and pure negative ions can be generated. The air negative ions have three types of big, medium and small, and are beneficial to human health as small-particle-size negative ions, but the atomization cooling product with the function on the market has a complex integral structure and high price, and cannot well regulate and control the air inlet temperature, so that the integral cooling effect is poor.

SUMMERY OF THE UTILITY MODEL

Complicated to traditional atomizing cooling product overall structure, to the regulation and control that the air admission temperature can not be fine, whole cooling effect is poor technical problem, the utility model provides an anion generator for atomizing cooling equipment.

In order to solve the above problem, the technical scheme of the utility model is so realized:

an anion generator for an atomization cooling device comprises an ultrasonic atomizer, wherein the ultrasonic atomizer is connected with a fixing clamp, the fixing clamp is connected with a cooling air pipe, an anion spray head is arranged in the fixing clamp, and the anion spray head is respectively communicated with the ultrasonic atomizer and the cooling air pipe; the cooling air pipe is provided with a negative ion generator, one side of the negative ion generator is provided with a control box, and the negative ion generator is communicated with the negative ion spray head through a vent pipe; a first temperature measuring cavity, a cooling cavity and a second temperature measuring cavity are arranged in the cooling air pipe, the first temperature measuring cavity is communicated with the cooling cavity, a first temperature sensor is arranged in the first temperature measuring cavity, the cooling cavity is communicated with the second temperature measuring cavity, a cooling assembly is arranged in the cooling cavity, the second temperature measuring cavity is communicated with the negative ion spray head, and a second temperature sensor is arranged in the second temperature measuring cavity; the cooling air pipe is communicated with the fixed box, an exhaust fan is arranged in the fixed box, a first filter screen is arranged at the exhaust port of the fixed box, and an air outlet of the fixed box is communicated with the first temperature measuring cavity; the control box is respectively connected with the ultrasonic atomizer, the negative ion generator, the first temperature sensor, the cooling assembly, the second temperature sensor, the exhaust fan and the terminal.

Preferably, a storage battery is arranged in the control box and connected with the MCU, the MCU is respectively connected with the ultrasonic atomizer, the negative ion generator, the first temperature sensor, the cooling assembly, the second temperature sensor, the exhaust fan and the communication module, and the communication module is connected with the terminal.

Preferably, the cooling assembly comprises a first semiconductor refrigeration piece, a second semiconductor refrigeration piece and a third semiconductor refrigeration piece, and the first semiconductor refrigeration piece, the second semiconductor refrigeration piece and the third semiconductor refrigeration piece are respectively connected with the MCU in the control box through corresponding relays.

Preferably, the communication module is a bluetooth communication module, a WiFi communication module or a 4G communication module.

Preferably, the terminal is a smart phone or an iPad.

Preferably, the fixed clamp is provided with a limiting hole, and the vent pipe penetrates through the limiting hole and is respectively communicated with the negative ion generator and the negative ion spray head.

Preferably, the vent pipe is L-shaped.

Preferably, a water collecting tank is arranged on the outer side of the ultrasonic atomizer, and a water outlet is formed in the water collecting tank.

Preferably, the inlet end of the ultrasonic atomizer is communicated with the fixed box, and the outlet end of the ultrasonic atomizer is communicated with the negative ion generator through the negative ion spray head.

The utility model has the advantages that: the utility model discloses overall structure designs compactly, air temperature to the entering through the first temperature sensor in the cooling air duct monitors, start the piece according to the temperature value control semiconductor refrigeration piece of setting for through MCU afterwards, detect once more through the air temperature after second temperature sensor is handled in the cooling, if air temperature is higher than when setting for the temperature, MCU controls another group semiconductor refrigeration piece and starts, strengthen refrigeration effect, wholly be convenient for regulate and control in real time the air temperature that gets into in the ultrasonic nebulizer, improve the cooling effect greatly, fine popularization and application prospect has.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the middle cooling air duct of the present invention.

Fig. 3 is a schematic structural view of the negative ion showerhead of the present invention.

Fig. 4 is a schematic structural view of the air exhaust outlet of the middle fixing box of the present invention.

Fig. 5 is a schematic structural view of embodiment 2.

In the figure, 1 is anion generator, 2 is the breather pipe, 3 is mounting fixture, 4 is the water inlet, 5 is ultrasonic nebulizer, 6 is the atomizer, 7 is fixed box, 8 is the cooling air pipe, 9 is first temperature measurement chamber, 10 is the cooling chamber, 11 is the control box, 12 is the second temperature measurement chamber, 13 is first semiconductor refrigeration piece, 14 is anion shower nozzle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without any creative effort belong to the protection scope of the present invention.

Example 1: as shown in fig. 1-4, an anion generator for atomizing cooling device, including ultrasonic nebulizer 5, ultrasonic nebulizer adopts JW1007S ultrasonic nebulizer, be equipped with water inlet 5 on the ultrasonic nebulizer, the water inlet is linked together with external water pipe through the hose, in operation, the user can supply water through opening tap, need not to establish the water pump alone, application range has been improved, be equipped with the water catch bowl in the 5 outsides of ultrasonic nebulizer, utilize the water catch bowl to collect the processing to ultrasonic nebulizer outside comdenstion water, avoid dripping on the internal package component, influence the good performance of component, be equipped with the outlet on the water catch bowl, the user can regularly open the outlet and carry out drainage treatment.

The ultrasonic atomizer 5 is connected with the fixing clamp 3, the fixing clamp 3 is connected with the cooling air pipe 8, the fixing clamp 3 is internally provided with the negative ion spray head 14, the negative ion spray head 14 is respectively communicated with the ultrasonic atomizer 5 and the cooling air pipe 8, and the fixing clamp 3 is provided with a limiting hole; be equipped with anion generator 1 on the cooling air pipe 8, anion generator adopts XA-006 anion generator, and 1 one side of anion generator is equipped with control box 11, and anion generator 1 is linked together with anion shower nozzle 14 through breather pipe 2, and breather pipe 2 passes spacing hole and is linked together with anion generator 1 and anion shower nozzle 14 respectively, and breather pipe 2's shape is L shape, is convenient for assemble fixed whole anion generator, improves the stability that whole equipment is connected.

A first temperature measuring cavity 9, a cooling cavity 10 and a second temperature measuring cavity 12 are arranged in the cooling air pipe 8, the first temperature measuring cavity 9 is communicated with the cooling cavity 10, a first temperature sensor is arranged in the first temperature measuring cavity 9, the cooling cavity 10 is communicated with the second temperature measuring cavity 12, a cooling assembly is arranged in the cooling cavity 10, the cooling assembly comprises a first semiconductor refrigerating sheet 13, a second semiconductor refrigerating sheet and a third semiconductor refrigerating sheet, the first semiconductor refrigerating sheet, the second semiconductor refrigerating sheet and the third semiconductor refrigerating sheet are TEC1-12706 semiconductor refrigerating sheets, the first semiconductor refrigerating sheet, the second semiconductor refrigerating sheet and the third semiconductor refrigerating sheet are sequentially arranged in the cooling cavity in parallel, the first semiconductor refrigerating sheet 13, the second semiconductor refrigerating sheet and the third semiconductor refrigerating sheet are respectively connected with an MCU in the control box 11 through corresponding relays, the second temperature measuring cavity 12 is communicated with the negative ion spray head 14, a second temperature sensor is arranged in the second temperature measuring cavity 12, the first temperature sensor in the cooling air pipe monitors the temperature of the entering air, then the MCU controls the starting piece of the semiconductor refrigerating piece according to a set temperature value, then the second temperature sensor detects the temperature of the air after temperature reduction treatment again, and if the temperature of the air is not lower than the set temperature, the MCU controls the starting of the other group of semiconductor refrigerating pieces to enhance the refrigerating effect; the cooling air pipe 8 is communicated with the fixed box 7, an exhaust fan is arranged in the fixed box 7, a first filter screen is arranged at the exhaust port of the fixed box 7, and an air outlet of the fixed box 7 is communicated with the first temperature measuring cavity 9; control box 11 respectively with ultrasonic nebulizer 5, anion generator 1, first temperature sensor, cooling module, second temperature sensor, extraction fan and terminal are connected, be equipped with the battery in the control box 11, the battery is connected with MCU, MCU adopts STM32F103C8T6 singlechip, MCU respectively with ultrasonic nebulizer 5, anion generator 1, first temperature sensor, cooling module, second temperature sensor, extraction fan and communication module are connected, communication module is connected with the terminal, communication module is bluetooth communication module, wiFi communication module or 4G communication module, the terminal is smart mobile phone or iPad, MCU transmits cooling intracavity air temperature change information to the terminal through communication module in real time, be convenient for the user to look over and know.

Example 2: as shown in fig. 5, the anion generator is used for the atomization cooling device, the inlet end of the ultrasonic atomizer 5 is communicated with the fixing box 7, the outlet end of the ultrasonic atomizer 5 is communicated with the anion generator 1 through the anion nozzle 14, atomized water at the outlet of the ultrasonic atomizer is mixed by the anion generator, on one hand, the whole structure is saved, and on the other hand, the mixing speed of anions is improved.

The rest of the structure is the same as in example 1.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (9)

1. An anion generator for an atomization cooling device comprises an ultrasonic atomizer (5) and is characterized in that the ultrasonic atomizer (5) is connected with a fixing clamp (3), the fixing clamp (3) is connected with a cooling air pipe (8), an anion spray head (14) is arranged in the fixing clamp (3), and the anion spray head (14) is respectively communicated with the ultrasonic atomizer (5) and the cooling air pipe (8); the cooling air pipe (8) is provided with an anion generator (1), one side of the anion generator (1) is provided with a control box (11), and the anion generator (1) is communicated with an anion spray head (14) through an air pipe (2); a first temperature measuring cavity (9), a cooling cavity (10) and a second temperature measuring cavity (12) are arranged in the cooling air pipe (8), the first temperature measuring cavity (9) is communicated with the cooling cavity (10), a first temperature sensor is arranged in the first temperature measuring cavity (9), the cooling cavity (10) is communicated with the second temperature measuring cavity (12), a cooling assembly is arranged in the cooling cavity (10), the second temperature measuring cavity (12) is communicated with the negative ion spray head (14), and a second temperature sensor is arranged in the second temperature measuring cavity (12); the cooling air pipe (8) is communicated with the fixed box (7), an exhaust fan is arranged in the fixed box (7), a first filter screen is arranged at the exhaust port of the fixed box (7), and an air outlet of the fixed box (7) is communicated with the first temperature measuring cavity (9); the control box (11) is respectively connected with the ultrasonic atomizer (5), the negative ion generator (1), the first temperature sensor, the cooling assembly, the second temperature sensor, the exhaust fan and the terminal.

2. The anion generator for the atomization cooling device as claimed in claim 1, wherein a storage battery is arranged in the control box (11), the storage battery is connected with an MCU, the MCU is respectively connected with the ultrasonic atomizer (5), the anion generator (1), the first temperature sensor, the cooling assembly, the second temperature sensor, the exhaust fan and a communication module, and the communication module is connected with a terminal.

3. The anion generator for the atomization cooling device as claimed in claim 1 or 2, wherein the cooling assembly comprises a first semiconductor refrigeration piece (13), a second semiconductor refrigeration piece and a third semiconductor refrigeration piece, and the first semiconductor refrigeration piece (13), the second semiconductor refrigeration piece and the third semiconductor refrigeration piece are respectively connected with the MCU in the control box (11) through corresponding relays.

4. The anion generator for the atomization cooling device as claimed in claim 2, wherein the communication module is a bluetooth communication module, a WiFi communication module or a 4G communication module.

5. The anion generator for the atomization cooling device as claimed in claim 1 or 2, wherein the terminal is a smart phone or an iPad.

6. The anion generator for the atomization cooling device as claimed in claim 1, wherein the fixing clamp (3) is provided with a limiting hole, and the vent pipe (2) passes through the limiting hole and is respectively communicated with the anion generator (1) and the anion spray head (14).

7. The anion generator for the atomization cooling device as claimed in claim 1 or 6, wherein the shape of the air pipe (2) is L-shaped.

8. The anion generator for the atomization cooling device as claimed in claim 1, wherein a water collecting tank is arranged outside the ultrasonic atomizer (5), and a water outlet is arranged on the water collecting tank.

9. The anion generator for the atomization cooling device according to claim 1, wherein the inlet end of the ultrasonic atomizer (5) is communicated with the fixing box (7), and the outlet end of the ultrasonic atomizer (5) is communicated with the anion generator (1) through the anion nozzle (14).

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