KR200347197Y1 - Anion generator - Google Patents

Abstract

In the negative ion generating device which generates the negative ions by the transformer and the transformer is transformed by receiving the input power and the high voltage and the high voltage is generated, when the switch is turned on, the carbon fiber generates the negative ions generated by the negative ions generated by the transformer Anion generating carbon electrode consisting of, a motor driven by receiving a voltage, a motor driven by receiving power from the motor and the air to push the air upwards to discharge the negative ions generated from the negative ion generating carbon electrode to the outside, and the top of the negative ion generator It is formed along the outer circumferential surface so as not to come into contact with the fan in close proximity to the fan and pushes upward air generated from the fan to one place, and pushes it upwards, and discharges the pillar having the soundproof function and the negative ions pushed up by the fan. Through the negative ion outlet and the negative ion outlet It is constructed to face the negative ion generating carbon electrode where it is discharged, and it is composed of the ground terminal which prevents static electricity from generating in the negative ion generator, and by replacing the electrode part made of metal with carbon fiber, the performance of the negative ion generator And it has the effect of improving the durability oxidation resistance, and also by forming a fan that raises the anion to the top and a column to guide the wind generated from the fan, by forcibly raising the anion generated through the column with a strong force to the top, The air in the upper part can also be purified, and the pillars are formed around the motor or the fan to reduce the noise generated by the motor or the fan, and the ground terminal is used to remove the static electricity generated by the negative ion generator. It has the effect of increasing the amount of negative ions discharged to the top.

Description

Negative ion generator {ANION GENERATOR}

The present invention relates to an anion generator, and more specifically, the electrode portion made of metal material is replaced with carbon fiber to significantly increase the amount of anions generated, to control the amount of ozone generated, and to transport the anions to the outside. The present invention relates to an anion generator having air pillars for guiding anions thereon.

The general negative ion generator is composed of a metal material of the electrode portion, if used for a long time, the rust is rusted, the amount of negative ions generated is greatly reduced, and there is a problem that ozone (O ₃ ) harmful to the human body is also generated.

In addition, there is a problem that often causes discomfort to the user due to the static electricity generated around the negative ion generator.

In addition, the conventional negative ion generator does not measure any negative ions at the height of 5M in a state of no air flow. That is, unlike general fine dust is evenly distributed in the air, negative ions are distributed with low bias, and thus there is a problem in that the fine dust is not purified. In addition, such products are large in size, and thus there is a problem that the assembly is not easy.

The present design replaces the metal part of the electrode with carbon fiber to improve the performance and durability of the anion generator, and also to guide the fan that raises the anion to the top and the wind generated from the fan. It is possible to purify the air in the upper part by forcibly raising the negative ions generated by the strong force to the upper part by constructing a pillar which makes it possible to provide the negative ions generated from the negative ions generator. have.

1 is a perspective view showing a perspective view of an anion generator according to an embodiment of the present invention.

Figure 2 is a perspective front view of the negative ion generating device according to an embodiment of the present invention from the front.

Figure 3 is a perspective plan view of the negative ion generating device according to an embodiment of the present invention from the top.

<Brief description of symbols for the main parts of the drawings>

100: negative ion generator 102: TP terminal

103: motor 104: negative ion generation and transformer

106: switch 108: fan

110: pillar 114: negative ion outlet

116 anion generating carbon electrode 118 ground electrode

The present invention provides an anion generator for generating an anion by a transformer and an anion generator for transforming and receiving the input power and raising the voltage to a high pressure. When the switch is turned on, the anion generator generates an anion generated by a transformer. Anion generating carbon electrode composed of carbon fibers to be driven, a motor driven by receiving a voltage, a motor driven by receiving power from the motor, and a fan that discharges negative ions generated from the anion generating carbon electrode by pushing air upward, and an anion generator It is formed along the outer circumferential surface of the upper part of the upper part of the upper part so as not to contact the fan and pushes upward air generated from the fan to one place and pushes it to the upper part. Negative ion outlet, discharge hole and negative ion generated from transformer terminal It is constructed to face the negative ion generating carbon electrode where it is discharged through the outlet, and it is composed of a ground terminal which prevents static electricity from generating in the negative ion generator.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view showing a perspective view of an anion generator according to an embodiment of the present invention, Figure 2 is a perspective front view of the anion generator according to an embodiment of the present invention from the front, Figure 3 is one of the present invention Perspective plan view of the negative ion generating device according to the embodiment viewed from the top. 1 to 3, the negative ion generator 100 includes a TP terminal 102, a motor 103, an anion generator and a transformer 104, a switch 106, a fan 108, and a pillar 110. And an anion outlet 114, an anion generating carbon electrode 116, and a ground electrode 118.

When the switch 106 is turned on, power is input and the input power is increased to high pressure by the anion generation and the transformer 104, and anion is generated at the anion generating carbon electrode 116 composed of carbon fibers, and some voltage is generated by the motor ( The voltage driving 103. The motor 103 drives the fan 108 to push up the negative ions generated. Such a carbon electrode is not affected by moisture.

The TP terminal 102 automatically stops the motor 103 when an abnormality occurs in the negative ion generator 100.

The fan 108 and the wind generated by the fan 108 are driven up to the top without being scattered from side to side by the pillar 110 which functions as a guide to push up to the upper place, the anion generating carbon electrode 116 Negative ions generated in the discharged to the upper by the wind guided by the pillar 110 is pushed. The pillar 108 is formed along the outer circumferential surface of the upper portion of the upper portion of the anion generator 100 so as not to contact the fan 108 in close proximity to the fan 108 so that the negative ion generator (in this case, the guide reduces noise generated from the fan). In addition, by increasing the length of the column, it is possible to increase the force of the fan 108 to discharge negative ions upwards, and the length of the column 110 is directed toward the fan 108 to discharge air. It is preferable to configure as long as possible from the length which can cover 108. It is comprised so that it may be 1 to 2 times the length in the direction of the fan 108 which discharges air. By increasing the length of the fan 108 to increase the force to push the air upwards, and to increase the sound insulation effect.

The negative ion outlet 114 is configured to be plated on the pratic in order to beautify aesthetics so as to feel like a metallic material. However, in order to prevent the negative ions discharged due to the metal plating from being attracted to the metal, the negative electrode generating carbon electrode is discharged through the negative ion outlet 114 by extracting the grounding terminal 118 from the negative ion generating and transformer 104 terminals. 116). With this configuration, the generated negative ions repel with the ground terminal 118 and are smoothly discharged through the negative ion outlet.

In addition, since the ground terminal 118 prevents static electricity that may occur due to excessive charging, the user may reduce discomfort by eliminating static electricity generated when the user touches the negative ion generator 100.

In addition, by adjusting the distance between the ground terminal 118 and the negative ion generating carbon electrode 116, it is possible to control the amount of ozone (O3) generated by the high pressure in the ground terminal 118 and the negative ion generating carbon electrode 116. .

In addition, since the anion generating carbon electrode 116 is resistant to moisture, oxidation does not occur in the anion generating carbon electrode 116. That is, this means that the generation of ozone is reduced, which means that the anion generating carbon electrode 116 is not rusted.

The present invention has the effect of improving the performance and durability oxidation resistance of the anion generator by replacing the electrode portion made of a metal material with carbon fiber.

In addition, the present invention consists of a fan that raises negative ions to the top and a pillar to guide the wind generated from the fan, and by forcibly raising the negative ions generated through the columns to the upper part, the upper air can also be purified. In addition, since the pillar is configured around the motor or the fan in this way, the noise generated by the motor or the fan is reduced.

In addition, the present invention removes the static electricity generated by the negative ion generator by placing the earth terminal, and by increasing the amount of negative ions discharged to the top dramatically, the amount of negative ions discharged per 1m3 increased approximately 4.5 times from 400,000 to 1,750,000. There is.

Claims (4)

In the negative ion generating device for generating negative ions by the transformer 104 and the transformer 104, the power is input and receives the input power to transform and increase the pressure to high pressure, An anion generating carbon electrode 116 composed of carbon fibers which turns on the switch 106 and generates anions generated by the anion and the transformer; A motor 103 for driving by receiving the voltage; A fan 108 which is driven by receiving power from the motor 103 and pushes air upwards to discharge negative ions generated from the negative ion generating carbon electrode 116 to the outside; It is formed along the outer circumferential surface of the inner portion of the upper portion of the anion generator 100 so as not to contact the fan 108 in close proximity to the fan 108 to drive upward air generated in the fan 108 to one place to push upwards. Raising, and the soundproofing pole 110; An anion outlet 114 which is a hole for discharging the anion pushed up by the fan 108; It is configured to face the negative ion generating carbon electrode 116 where it is extracted from the negative ion generating and transformer 104 terminals and discharged through the negative ion outlet 114, and the ground terminal prevents static electricity from occurring in the negative ion generator 100. Anion generator comprising a (118). The method of claim 1, By adjusting the distance between the ground terminal 118 and the negative ion generating carbon electrode 116, it is configured to adjust the amount of ozone generated by the high pressure in the ground terminal 118 and the negative ion generating carbon electrode 116 Negative ion generator. The method of claim 1, And an TP terminal (102) configured to automatically stop the motor (103) when an abnormality occurs in the anion generator (100). The method of claim 1, The length of the pillar (110) is an anion generator, characterized in that configured to 1 to 2 times the length of the fan 108 for discharging air.