CN110176720A - A kind of multi-cavity type nanometer water ion and anion complex generator - Google Patents

Abstract

A multi-cavity nanometer water ion and negative ion composite generating device, including a main positive plate, a main negative fixing seat, a positive discharge hole, a negative discharge electrode, an air negative ion generator, an air negative ion fixing block, a heat pump, a heat pump fixing seat, and a radiator . The fan, characterized in that: the main positive plate is connected in parallel with more than 2 positive discharge holes, and the main negative fixing seat is connected in parallel with more than 2 negative discharge electrodes. The beneficial effects of the invention are: since the main negative plate and the main positive plate of a multi-cavity nanometer water ion and negative ion composite generating device of the present invention are respectively connected in parallel with two or more negative discharge electrodes, the positive discharge holes and the negative discharge electrodes are respectively The scheme of common negative pole and common positive pole is adopted, which saves the manufacturing cost and reduces the installation volume; because a multi-cavity nano water ion and negative ion composite generating device of the present invention is provided with multiple negative discharge electrodes for discharging, it can generate more Nano-water ions can greatly improve the efficiency of sterilization and deodorization of the whole product; at the same time, because the air anion generator in a multi-cavity nano-water ion and negative ion composite generator of the present invention extends into the gap between the main negative electrode and the main positive electrode to discharge , It plays the role of diversion and mixing for the gas containing negative air ions and nano water ions, and improves the utilization rate of the two ions.

Description

A multi-cavity nanometer water ion and negative ion compound generator

technical field

The invention relates to a multi-cavity nanometer water ion and negative ion compound generator, which belongs to the fields of air purification, beauty and hairdressing, and sterilization and deodorization.

Background technique

Due to the advantages of biological activity, small particle size, stable performance, weak acidity, sterilization and deodorization of nano-water ions, nano-water ion technology has attracted more and more attention, and has been gradually applied to air purifiers, hair dryers, In air conditioners, deodorants and other products. Existing nano water ion generating device usually includes discharge electrode, refrigeration unit and heat dissipation conductive sheet; the refrigeration end of said refrigeration unit is connected with discharge electrode, and the heat dissipation end is connected with heat dissipation conductive sheet; directly above said discharge electrode is provided with High-voltage electrodes; the high-voltage electrodes are composed of high-voltage needles, and the high-voltage electrodes all adopt the negative terminal discharge method to ionize and decompose and crush the water on the surface of the discharge electrodes to generate charged particles containing active oxygen such as hydroxyl radicals and oxygen radicals. That is, nano water ions, such as patents CN106877179A, CN107528221A, CN106877179A, CN106936073A, CN103764294B, CN201720640141, etc. However, there are the following deficiencies in the prior art manufacturing of nano-water ion devices: 1. Adopt the unipolar mode of 1 discharge positive electrode and 1 discharge negative electrode, because the discharge electrodes are few and the discharge capacity is small, the amount of nano-water ions produced is insufficient. If Simply adding this unipolar mode nano-water ion generating device will increase the cost and the installed equipment will occupy space; Produced, the mixed output of negative air ions and nano-water ions is uneven, resulting in low efficiency of sterilization and deodorization.

Contents of the invention

In order to overcome the above disadvantages, the purpose of the present invention is to provide a more efficient and a large number of nano-water ions and negative air ions, improve the utilization of the two ions, a wider range of application, and a higher efficiency of sterilization and deodorization. Cave-type nano-scale water ion and negative ion composite generator, which improves the discharge mode of unipolar mode using one discharge positive electrode and one discharge negative electrode. Two or more positive discharge holes and negative discharge electrodes are connected in parallel on the main positive plate and the main negative electrode fixing seat, respectively, and the positive discharge holes and negative discharge electrodes are respectively adopted in the scheme of common negative and common positive poles; The fixing block fixes the air negative ion generating pole and then stretches into the gap between the main negative electrode fixing seat and the main positive electrode to discharge; the connecting piece connecting the main positive plate and the radiator is set as an insulating material to play the role of support, connection and insulation .

Technical scheme of the present invention is:

As a multi-cavity nano water ion and negative ion composite generating device of the present invention, it includes a main positive plate, a main negative fixing seat, an air negative ion generating pole, an air negative ion fixing block, a heat pump, a heat pump fixing seat, a radiator, and a fan, wherein , the heat pump is set under the main negative pole fixing seat, a radiator is arranged under the heat pump, and a fan is arranged under the radiator. more than one negative discharge electrode.

As a further measure, the positive discharge hole is hollow and ring-shaped, and the number of positive discharge holes and negative discharge electrodes is the same, and each positive discharge hole is opposite to a negative discharge electrode to form a pair of positive and negative ion electrodes, so that the device There are at least two positive and negative ion electrode pairs at the same time.

As a further measure, the main negative fixing base is provided with an insulating pad facing the surface of the main positive plate, and the insulating pad is provided with a negative discharge electrode through hole, the main negative fixing base is provided with a negative electrode installation hole, and the lower end of the negative discharge electrode is It is fixed on the installation hole of the negative electrode, and the other end of the negative discharge electrode extends into the positive discharge hole through the through hole of the negative discharge electrode.

As a further measure, a connecting piece made of insulating material is provided between the main positive plate and the main negative fixing base.

As a further measure, the negative air ion generating pole extends from the side of the gap between the main positive plate and the main negative electrode fixing seat, and the number of the negative air ion generating pole is more than one.

As a further measure, the negative air ion fixing block (10) is an insulating material.

As a further measure, the negative air ion generating pole extends into the gap between the main positive plate and the main negative electrode fixing seat through the through hole of the negative air negative ion fixing block.

As a further measure, the main positive plate is connected in parallel with the positive discharge hole, and the main negative fixing seat is connected in parallel with the negative discharge electrode.

As a further measure, the main positive plate is connected in parallel with the positive discharge holes, and the negative discharge electrodes are insulated.

As a further measure, the main negative electrode holder is connected in parallel with the negative electrode discharge electrodes, and the positive electrode discharge holes are insulated.

Beneficial effect

Compared with prior art, the beneficial effect of the present invention is:

First of all: the present invention improves the traditional unipolar discharge mode using one discharge positive electrode and one discharge negative electrode to adopt a multi-cavity design, and connect two or more negative electrodes in parallel on the main negative electrode holder and the main positive electrode plate respectively The discharge electrode and the positive discharge hole, and the positive discharge hole and the negative discharge electrode adopt the scheme of common negative and common positive respectively, which saves the manufacturing cost and reduces the installation volume; moreover: due to the multi-cavity nanometer water ion of the present invention and The negative ion composite generating device generates more nano-water ions by setting a plurality of negative discharge electrodes to discharge, which can greatly improve the efficiency of sterilization and deodorization of the whole product, and has a wider application range; at the same time, a multi-cavity nano-water ion and Negative ion composite generating device, by using the air negative ion fixing block to fix the air negative ion generating pole and then extending into the gap between the main negative electrode fixing seat and the main positive plate for discharge, it can generate gas containing air negative ions and nanometer water ions. The air negative ions produced will pass through the cavity and be fully mixed with the nano water ions generated in the cavity, which can produce nano water ions and air negative ions more efficiently and in large quantities, improving the utilization rate of the two ions.

Description of drawings

Fig. 1 is a schematic diagram of the overall structure of a multi-cavity nanometer water ion and negative ion composite generating device of the present invention.

The reference signs are explained as follows:

In the figure: 1. Main positive plate; 2. Main negative fixing seat; 3. Positive discharge hole; 4. Negative discharge electrode; 5. Connector; 6. Insulating pad; 7. Heat pump; 9. Air negative ion generator; 10. Air negative ion fixing block; 11. Heat pump fixing seat; 12. Negative electrode installation hole; 13. Radiator; 14. Fan; 15. Through hole of air negative ion fixing block.

Detailed ways

Below in conjunction with embodiment and accompanying drawing, the present invention will be further described:

As shown in Figure (1): a multi-cavity negative ion generating device, including the main positive plate (1), the main negative electrode fixing seat (2), the air negative ion generating pole (9), and the heat pump (7) from top to bottom. ), heat pump fixing seat (11), radiator (13), fan (14), 10, air negative ion fixing block (10), wherein, the main positive plate (1) is connected in parallel with more than two positive discharge holes (3), The positive discharge hole (3) is hollow and ring-shaped, and the main negative electrode fixing seat (2) is provided with a negative electrode mounting hole (12), and one end of the negative electrode discharge electrode (4) is fixed on the main negative electrode fixing seat through the negative electrode mounting hole (12) On (2), the upper surface of the main negative electrode holder (2) is provided with an insulating pad (6), and the insulating pad (6) has a negative discharge electrode through hole (8), and the negative discharge electrode (4) passes through the negative discharge electrode through hole (8) Extending into the positive discharge hole (3), the main negative electrode holder (2) is connected in parallel with more than 2 negative discharge electrodes (4), the number of positive discharge holes (3) and the negative discharge electrodes (4) are the same, each The positive discharge hole (3) is facing a negative discharge electrode (4), forming a positive and negative ion electrode pair, so that the device has at least two positive and negative ion electrode pairs at the same time, the main positive plate (1), the main A connecting piece (5) made of insulating material is provided between the negative electrode holders (2), and the negative air ion generator (9) protrudes from the side of the gap between the main positive plate (1) and the main negative electrode holder (2). , the number of negative air ion generating poles is more than one, and the negative air ion generating pole (9) extends into the main positive plate (1) through the negative ion fixing block through hole (15) on the negative ion fixing block (10) made of insulating material The heat pump (7) is fixed on the heat pump fixing seat (11), the heat pump (7) is connected under the main negative electrode fixing seat (2), and the radiator is connected under the heat pump (7) (13), the fan (14) is connected below the radiator (13). The heat pump (7) is composed of a pair of semiconductor refrigeration material P/N sections, and its cooling end surface is in close contact with the bottom of the main negative electrode fixing seat (2) to cool the negative discharge electrode (4). When the surface temperature of the negative discharge electrode (4) is low At the air dew point temperature, the water vapor in the air condenses on the surface of the negative discharge electrode (4), providing a water source for the manufacture of nanometer water ions, and each positive discharge hole (3) discharges to the negative discharge electrode (4) in the corresponding hole To generate nano-water ions, while discharging to generate nano-water ions, the negative air ion generating electrode (9) discharges to generate negative air ions, and simultaneously generates nano-water ions and negative air ions between the main positive plate (1) and the main negative electrode holder (2). Due to the turbulence effect of the negative electrode discharge electrode (4) and the negative air ion generating electrode (9), the two types of ions are evenly mixed and then output.

Finally, it should also be noted that what is listed above is only a specific embodiment of the present invention. Obviously, the present invention is not limited to the above embodiments, and many modifications are possible. All deformations that can be directly derived or associated by those skilled in the art from the content disclosed in the present invention should be considered as the protection scope of the present invention.

Claims (8)

1. a kind of multi-cavity type nanometer water ion and anion complex generator, including main positive plate (1), main cathode fixing seat (2), pole (9), negative aeroion fixed block (10), heat pump (7), heat pump fixing seat (11), radiator occur for negative aeroion (13), fan (14), wherein heat pump (7) is set to below main cathode fixing seat (2), is provided with radiator below heat pump (7) (13), fan (14) are provided with below radiator (13), it is characterised in that: main positive plate (1) is parallel with 2 or more positive discharges Cave (3) is also possible to the negative discharge electrode (4) that main cathode fixing seat is parallel with 2 or more.

2. a kind of multi-cavity type nanometer water ion as described in claim 1 and anion complex generator, it is characterised in that: institute Stating positive discharge cave (3) is hollow and annular, and the positive discharge cave (3) is identical as negative discharge electrode (4) quantity, each anode Electric discharge cave (3) and 1 negative discharge electrode (4), form 1 positive and negative ion electrode pair, possess the device at least while in 2 A above positive and negative ion electrode pair.

3. a kind of multi-cavity type nanometer water ion as described in claim 1 and anion complex generator, it is characterised in that: institute It states main cathode fixing seat (2) and is equipped with felt pad (6) towards main positive plate (1) surface, felt pad is provided with negative discharge pole on (6) Through-hole (8), the main cathode fixing seat (2) are equipped with negative electrode mounting hole (12), and negative discharge electrode (4) lower end is fixed On negative electrode mounting hole (12), negative discharge electrode (4) other end protrudes into anode through negative discharge pole through-hole (8) It discharges cave (3).

4. a kind of multi-cavity type nanometer water ion as described in claim 1 and anion complex generator, it is characterised in that: institute State the connector connection (5) for being equipped with and being made of insulating material between main positive plate (1), main cathode fixing seat (2).

5. a kind of multi-cavity type nanometer water ion as described in claim 1 and anion complex generator, it is characterised in that: institute Stating negative aeroion fixed block (10) is insulating materials.

6. a kind of multi-cavity type nanometer water ion as described in claim 1 and anion complex generator, it is characterised in that: institute It states negative aeroion generation pole (9) to protrude into from main positive plate (1), main cathode fixing seat (2) gap side, the negative aeroion The quantity that pole (9) occur has 1 or more.

7. a kind of multi-cavity type nanometer water ion as claimed in claim 6 and anion complex generator, it is characterised in that: institute Negative aeroion generation pole (9) is stated to protrude into through the negative aeroion fixed block through-hole (15) on negative aeroion fixed block (10) In gap between the main positive plate (1), main cathode fixing seat (2).

8. a kind of multi-cavity type nanometer water ion as claimed in claim 1 and anion complex generator, feature It is: main positive plate (1) the positive discharge cave (3) in parallel, main cathode fixing seat (2) negative discharge electrode (4) in parallel.