CN211781590U - Positive and negative water ion generating device - Google Patents

Abstract

The utility model relates to a positive and negative water ion generating device, which comprises a positive charge water ion generating electrode, a negative charge water ion generating electrode, a positive voltage applying part, a negative voltage applying part and a water supplying part; the positive charge water ion generating electrode is connected to the positive voltage applying part, and the negative charge water ion generating electrode is connected to the negative voltage applying part; the water supply unit is disposed below the positively charged water ion generating electrode and the negatively charged water ion generating electrode. The utility model discloses an above-mentioned structure, the positive and negative water ion that produces not only has good seizure effect and subsides dust particle after catching to the dust in the air, can reach the dust removal, more can disinfect, disinfect to the air, removes the peculiar smell to reach the quality that improves the air.

Description

Positive and negative water ion generating device

Technical Field

The utility model relates to a charged ion generating device especially relates to a positive negative water ion generating device.

Background

At present, most of space antibacterial and deodorization electronic products adopted in the household appliance industry are negative ion generators, ozone generators, ultraviolet lamps and the like, and although the products have good air purification functions, the products are not widely used in the household appliance industry all the time due to the defects of the products. Most of the anion generators available in the market use a high-voltage electric field to ionize air molecules in the electric field and discharge electrodes to obtain a large amount of air anions, and the technical scheme described in chinese patent No. zl03242177.x is to generate high-concentration anions by using high-voltage discharge. In addition, air is also used for compressing water spray to form negative ions, and as shown in the technical scheme of Chinese patent No. ZL03240381.X, the water in the water tank is atomized by using an ultrasonic negative ion generator. The function principle is that negative ions which can enable dust with germs to settle in the air are released through a negative ion generator, and therefore the air quality is improved. The method has the disadvantages that negative ions in the air are easy to combine with dust to form a pollution ion, namely a heavy ion. The suspended heavy ions are still adsorbed on various indoor articles in the falling process, and the heavy ions can fly into the air again due to the activity of indoor personnel; the survival time of the negative oxygen ions in the air is short, the effective diffusion range is small, the actual antibacterial effect is very limited, and dust which is difficult to remove is easily gathered around the negative ion generator; the long-term release of negative ions also easily causes electrostatic pollution, and may cause damage to electrical appliances if the negative ions are not noticed. It is important that the ozone produced is continuously accumulated and that too much ozone is harmful to the body. The ozone generator can generate a large amount of ozone, and can achieve a good sterilization effect, but once the concentration of the ozone exceeds the standard, the ozone generator can cause damage to human bodies. The same is true of the ultraviolet lamp, and the ultraviolet lamp can cause damage to human bodies while sterilizing.

Therefore, no purification product which can achieve good space antibacterial and deodorization functions, does not cause harm to human bodies and can be widely applied to the household appliance industry exists so far. Accordingly, there is a need for improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a positive and negative water ion generating device is provided to foretell technical current situation, the positive and negative water ion that its produced not only has good seizure effect and subsides dust particle after catching to the dust in the air, can reach the dust removal, more can disinfect, disinfect to the air, removes the peculiar smell to reach the quality that improves the air.

The utility model provides a positive and negative water ion generating device, which comprises a positive charge water ion generating electrode, a negative charge water ion generating electrode, a positive voltage applying part, a negative voltage applying part and a water supplying part; the positive charge water ion generating electrode is connected to the positive voltage applying part, and the negative charge water ion generating electrode is connected to the negative voltage applying part; the water supply unit is disposed below the positively charged water ion generating electrode and the negatively charged water ion generating electrode.

Preferably, the positively charged water ion generating electrode and the negatively charged water ion generating electrode are both disposed in close contact with the water supply portion.

Preferably, the positive and negative water ion generating device further comprises a heat sink disposed below the water supply part and closely attached to the water supply part.

Preferably, the water supply part includes one or two independent water supply blocks disposed below the positively charged water ion generating electrode and the negatively charged water ion generating electrode.

Preferably, a separator is disposed between the positively charged water ion generating electrode and the negatively charged water ion generating electrode.

Preferably, the height of the separator is higher than the positively charged water ion generating electrode and the negatively charged water ion generating electrode; the separator is made of an insulating material.

Preferably, the positive and negative water ion generating device further comprises a cover body, and the cover body is covered on the positive charge water ion generating electrode and the negative charge water ion generating electrode; and air outlets are arranged on the cover body and correspond to the positive charge water ion generating electrode and the negative charge water ion generating electrode.

Preferably, the cover body is made of a superconductor material, and the cover body is arranged in a grounding mode.

Compared with the prior art, the utility model provides a technical scheme has following advantage:

the utility model discloses an above-mentioned structure, the positive and negative water ion that produces not only has good seizure effect to the dust in the air and subsides dust particle after catching, can reach and remove dust, more can disinfect, disinfect to the air, remove the peculiar smell to reach the quality that improves the air.

Drawings

Fig. 1 is a schematic structural diagram of a water ion generating device of the present invention;

fig. 2 is a schematic structural diagram of a water ion generating device according to a second embodiment.

Reference numerals: 1-positive charge water ion generating electrode, 2-negative charge water ion generating electrode, 3-positive voltage applying part, 4-negative voltage applying part, 5-water supplying part, 6-radiating fin, 7-water supplying block, 8-partition board, 9-cover body and 10-air outlet.

Detailed Description

The present invention will be further described with reference to the following specific embodiments, but the present invention is not limited to these specific embodiments. It will be recognized by those skilled in the art that the present invention encompasses all alternatives, modifications, and equivalents as may be included within the scope of the claims.

Example one

As shown in fig. 1, there is shown a positive and negative water ion generating device comprising a positive charge water ion generating electrode 1, a negative charge water ion generating electrode 2, a positive voltage applying part 3, a negative voltage applying part 4 and a water supplying part 5; the positive charge water ion generating electrode 1 is connected to the positive voltage applying part 3, and the negative charge water ion generating electrode 2 is connected to the negative voltage applying part 4; the water supply unit 5 is disposed below the positively charged water ion generating electrode 1 and the negatively charged water ion generating electrode 2.

Wherein the positive voltage applying part 3 applies positive high voltage to the positive charge water ion generating electrode 1, and the positive high voltage released by the positive charge water ion generating electrode 1 ionizes air to generate positive ions; similarly, the negative voltage applying unit 4 applies a negative high voltage to the negative charge water ion generating electrode 2, and the negative high voltage released from the negative charge water ion generating electrode 2 ionizes air to generate negative ions. While the water supply part 5 supplies water particles to the positively charged water ion generating electrode 1 and the negatively charged water ion generating electrode 2. Make positive and negative water ion generating device can send out the water particle of taking positive ion and anion, not only have good seizure effect and subside the dust particle after catching the dust in the air, can reach the dust removal, more can disinfect, remove the peculiar smell to the air to reach the quality that improves the air.

Further, both the positive charge water ion generating electrode 1 and the negative charge water ion generating electrode 2 are disposed in close contact with the water supply portion 5. With this arrangement, the water supply part 5 can supply water to the positively charged water ion generating electrode 1 and the negatively charged water ion generating electrode 2 more quickly; while providing a sufficient amount of moisture.

Further, the positive and negative water ion generating device further includes a heat radiating fin 6, and the heat radiating fin 6 is disposed below the water supply portion 5 and closely attached to the water supply portion 5. In the present embodiment, the heat sink 6 is provided to allow the water supply unit 5 to generate water. The water supply unit 5 is a cooling device such as a peltier unit that cools the positive charge water ion generating electrode 1 and the negative charge water ion generating electrode 2, and cools the positive charge water ion generating electrode 1 and the negative charge water ion generating electrode 2 to reduce the temperature, so that water molecules in the air generate water mist or water droplets at the positive charge water ion generating electrode 1 and the negative charge water ion generating electrode 2 to supply water.

In this embodiment, the positive charge water ion generating electrode 1 and the negative charge water ion generating electrode 2 are both rod-shaped, and the whole of the portion away from the water supply unit 5 is conical, and the ends of the positive charge water ion generating electrode 1 and the negative charge water ion generating electrode 2 away from the water supply unit 5 are provided with emitter heads.

Example two

The present embodiment is different from the first embodiment in that the water supply part 5 of the present embodiment includes two independent water supply blocks 7, and the two water supply blocks 7 are respectively disposed below the positively charged water ion generating electrode 1 and the negatively charged water ion generating electrode 2. The division of the water supply section 5 into two independent water supply blocks 7 prevents the occurrence of a situation where the one water supply section 5 as a whole may cause the high voltages applied by the positive voltage application section 3 and the negative voltage application section 4 to cancel each other out at the water supply section 5.

In order to further prevent the above-described situation where the voltages cancel each other, the present embodiment further provides a spacer 8 between the positively charged water ion generating electrode 1 and the negatively charged water ion generating electrode 2, wherein the height of the spacer 8 is higher than the height of the positively charged water ion generating electrode 1 and the negatively charged water ion generating electrode 2. More specifically, the separator 8 is made of an insulating material. The partition plate of this embodiment is made of rubber. The arrangement of the partition plate 8 can also be used to prevent the positive and negative water ions generated by the positive and negative water ion generating electrodes 1 and 2 from affecting each other and electrically offsetting each other.

Meanwhile, in the embodiment, a cover body 9 is additionally arranged, and the cover body 9 is covered on the positive charge water ion generating electrode 1 and the negative charge water ion generating electrode 2; an air outlet 10 is arranged on the cover body 9 corresponding to the positive charge water ion generating electrode 1 and the negative charge water ion generating electrode 2. The lid 9 is made of a superconductor material. The cover 9 of this embodiment is made of one or two or more of graphene, fullerene and silver.

The structure can form nano-scale particles by water particles with positive and negative ions generated by discharge under the action of the superconductor, thereby improving the emission efficiency of the water particles.

It is to be understood by persons skilled in the art that the embodiments of the present invention described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The utility model discloses a function and structure principle can modify wantonly under the principle that does not deviate from above-mentioned show.

Claims (8)

1. The utility model provides a positive negative water ion generating device which characterized in that: comprises a positive charge water ion generating electrode (1), a negative charge water ion generating electrode (2), a positive voltage applying part (3), a negative voltage applying part (4) and a water supplying part (5); the positive charge water ion generating electrode (1) is connected to the positive voltage applying part (3), and the negative charge water ion generating electrode (2) is connected to the negative voltage applying part (4); the water supply unit (5) is disposed below the positively charged water ion generating electrode (1) and the negatively charged water ion generating electrode (2).

2. The positive and negative water ion generating device according to claim 1, wherein: the positively charged water ion generating electrode (1) and the negatively charged water ion generating electrode (2) are both disposed in close contact with the water supply section (5).

3. A positive and negative water ion generating device according to claim 2, wherein: the positive and negative water ion generating device further comprises a radiating fin (6), wherein the radiating fin (6) is arranged below the water supply part (5) and is tightly attached to the water supply part (5).

4. The positive and negative water ion generating device according to claim 1, wherein: the water supply part (5) comprises one or two independent water supply blocks (7), and the water supply blocks (7) are arranged below the positive charge water ion generating electrode (1) and the negative charge water ion generating electrode (2).

5. A positive and negative water ion generating device according to claim 1 or 4, wherein: a partition plate (8) is arranged between the positive charge water ion generating electrode (1) and the negative charge water ion generating electrode (2).

6. The positive and negative water ion generating device according to claim 5, wherein: the height of the separator (8) is higher than the positively charged water ion generating electrode (1) and the negatively charged water ion generating electrode (2); the separator (8) is made of an insulating material.

7. The positive and negative water ion generating device according to claim 5, wherein: the positive and negative water ion generating device also comprises a cover body (9), wherein the cover body (9) is arranged on the positive charge water ion generating electrode (1) and the negative charge water ion generating electrode (2) in a covering manner; and air outlets (10) are arranged on the cover body (9) and correspond to the positive charge water ion generating electrode (1) and the negative charge water ion generating electrode (2).

8. The positive and negative water ion generating device according to claim 7, wherein: the cover body (9) is made of a superconductor material and is arranged in a grounding mode.

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