KR20190076153A - Anion generator nozzle of anion generator having the function of wind vane with no driving power - Google Patents

Abstract

The present invention relates to an anion generating nozzle of an anion generator having a function of a non-powered wind vane, which can minimize hindrances to a comfortable indoor environment such as unnecessary power waste or the inappropriate strength of wind by providing anion wind generated from the anion generating nozzle of an anion generator and having strength suitable to the size and area of an interior space. In the anion generating nozzle, a brush is fitted in a center portion of an anion emission tube, a coil type electrode wound several times as an electrode generating anion together with the brush is coupled to the inner circumferential surface of a front end of the anion emission tube, and the brush is connected to a voltage generating module. The anion generating nozzle outputs anion wind at a maximum wind speed of 1.1 m/s (small), 1.6 m/s (medium), and 2.7 m/s (large) under the conditions that the diameter of the anion emission tube is 21 mm (small), 26 mm (medium), 28 mm (large), the number of brushes is one (small), one (medium), two or three (large), the number of windings of the coil type electrode is eight (small), eight (medium), and 13 (large), and a distance between the brush and the coil type electrode is 4 mm (small), 7 mm (medium), and 14 mm (large). The anion can be emitted under an optimal condition in which the strength of the anion wind generated from the anion generating nozzle is suitable for the size and area of the interior space, thereby creating a more comfortable indoor environment.

Description

[0001] The present invention relates to an anion generating nozzle for anion generator having a non-powered wind direction function,

[0001] The present invention relates to an anion generating nozzle of an anion generator having a non-powered wind direction function, and more particularly, to an anion generating nozzle of a negative ion generator, To an anion generating nozzle of an anion generator having a nonmotor wind direction function for minimizing a deterioration factor of a pleasant indoor environment due to waste or inappropriate wind intensity.

Generally, various organic substances such as formaldehyde, nitrogen oxide and airborne smoke, sulfur dioxide, carbon monoxide and the like contained in the air form a "cation", which is neutralized and supplied with an anion , The indoor air can be kept clean and fresh. In addition, when exposed to a space containing positive ions such as bacteria, dust, pollen and the like for a long time, various allergic skin diseases such as atopy are induced, so that anion is supplied to neutralize the cation component. As a result, various skin diseases are alleviated, the discharge of waste products becomes smooth, and the activation of the cells and the metabolism are promoted, thereby promoting the growth of plants and animals, as well as the human body.

In order to utilize the beneficial effects of the negative ions, a dedicated device for generating negative ions together with the air purifying function has been developed and used. However, since it is bulky and expensive to purchase, it has not been popularized. However, An anion generating device which can be installed in an indoor or an automobile interior is widely used. Such a recent negative ion generating apparatus has an effect of smoothly performing an air cleaning function in a room, but has the following problems. That is, there is a problem that the anion generated in the discharge electrode of the lead-wire generating the negative ion takes a long time to spread out into the room, which takes a long time for neutralization and purification.

This is because the air velocity in the air is very weak when negative ions are generated in the discharge electrode. In order to solve this problem, it has been proposed to radiate anions generated on the discharge electrode to the room quickly by providing a fan rotated by a motor behind the lead wire. However, a separate fan motor must be provided, There is a problem that the inside environment of the building or the interior of the automobile can not be maintained comfortably due to the noise generated during the operation process of the fan motor.

In addition, there is also a problem that it is very difficult for the user to judge when the life span of the discharge electrode of the lead-in line is short or does not operate due to a failure or the like. That is, since the fan motor operates normally even when the discharge electrode of the lead wire fails, the user judges that the negative ions are emitted. In addition, even when not in use, there is a problem that a portion having an electrode or the like is exposed to the outside, thereby detracting from the beauty.

Accordingly, in order to solve the above-mentioned problems of the prior art, the present invention has proposed a negative ion generating nozzle of an anion generator having a nonmotor power direction function in a patent document 10-2012-0091634 (published on August 20, 2012). As shown in FIG. 1, the negative ion generating nozzle of the negative ion generator having the non-powered directional function includes an anion voltage generating module (not shown) for generating a voltage for generating negative ions, one end connected to the negative ion generating module, And a lead wire 200 in which a discharge electrode 210 is formed, and a cylindrical cover 100 which surrounds the lead wire. The lead wire 200 having the discharge electrode 210 formed thereon is located on the inner central surface of the cover 100 according to the feature of the present invention and an annular metal plate 300 is formed on the inner peripheral surface of the cover 100, . It will be appreciated by those skilled in the art that the distance between the discharge electrode 210 of the lead wire 200 and the metal plate 300 can be appropriately changed in consideration of the size of the cover 100 and the size of the negative ion generator itself. When an electric current is applied to the discharge electrode 210 of the lead wire 200 in a state where the discharge electrode 210 and the metal plate 300 are spaced apart from each other by a predetermined distance, an electric field is generated although not visible to each other. This is similar to the principle of the electron gun of a cathode-ray tube TV. An electric field generates an airflow above a predetermined wind speed. As a result, anions generated on the discharge electrode 210 rapidly radiate to the room. This has a fast wind velocity that is comparable to the wind speed caused when negative ions are generated on the conventional discharge electrode 210, thereby enabling the interior of the room to be quickly cleaned. Meanwhile, it is preferable that the material of the cover 100 on which the metal plate 300 is provided is formed of a ceramic material rather than a general synthetic resin in order to generate a more extended electric field.

Accordingly, the anion generated in the discharge electrode of the lead-in wire is radiated to the room to a certain amount of air volume without using the fan motor separately, so that it is possible to purify the room in a short period of time and reduce the unit cost. In addition, it is possible to satisfy user's satisfaction by exhibiting the effect of advertising, and in addition, it is possible to expose the interior to the outside only at the time of use, thereby enhancing the interior effect by not hurting the beauty. On the other hand, in the negative ion generating nozzle of the anion generator having such a non-motor-driven wind direction function, the key is to apply appropriate wind intensity according to the size and area of the indoor space, thereby preventing unnecessary power waste or inadequate wind intensity Element, but no more specific examples and suggestions have been made so far.

"Negative ion generating nozzle of anion generator having non-powered wind direction function"

Accordingly, it is an object of the present invention to provide a negative ion generating nozzle of an anion generator, which is capable of minimizing unnecessary intensity of anion wind from the nozzle, An anion generating nozzle of an anion generator having a non-powered wind direction function for minimizing a deterioration factor of a pleasant indoor environment due to power waste or inappropriate wind intensity.

According to an aspect of the present invention, there is provided an anion generating nozzle of an anion generator having a non-powered airfoil function, wherein a brush is inserted into a central portion of an anion outlet tube, And the brush is connected to the voltage generating module. The anion generating nozzle of the negative ion generator has a diameter of 21 mm, a diameter of the anion generating tube is 20 mm, The number of windings of the coil-shaped electrode is 8, and the distance between the brush and the coil-shaped electrode is 4 mm, so that the wind speed is 0.4 to 1.1 m / s.

According to another aspect of the present invention, there is provided an anion generating nozzle of an anion generator having a non-powered airflow function, wherein a brush is inserted into a central portion of the anion discharge pipe, and an electrode Wherein the anion generating tube has a diameter of 26 mm, the brush has a diameter of 1 mm, and the diameter of the brush is 1 mm. The number of windings of the coil-shaped electrode is 8, and the distance between the brush and the coil-shaped electrode is 7 mm, so that the wind speed is 0.4 to 1.6 m / s.

According to another aspect of the present invention, there is provided an anion generating nozzle of an anion generator having a non-powered airfoil function, wherein a brush is inserted into a central portion of the anion discharge tube, and an anion is generated along with the brush on an inner peripheral surface of a tip end portion of the anion discharge tube Wherein the anion generating tube has a diameter of 28 mm, the brush has a diameter of 2 to 3 mm, and the number of the brushes is 2 to 3 mm. The anion generating nozzle of the negative ion generator has a non- The number of windings of the coil-shaped electrode is 13, and the distance between the brush and the coil-shaped electrode is 14 mm. The wind speed is 0.4 to 2.7 m / s.

As described above, according to the present invention, a brush is inserted into a central portion of an anion discharge tube, and a coil type electrode wound several times with an electrode for generating negative ions together with the brush is coupled to an inner peripheral surface of an anterior end portion of the anion discharge tube, Wherein the anion generating tube has a small diameter of 21 mm, a medium size of 26 mm, and a large size of 28 mm, and the brush has one small size, one medium size, The number of windings of the coil type electrode is 8 small, 8 small, 13 large, and the distance between the brush and the coil electrode is 4 mm small, 7 mm wide, and 14 mm large. , Medium-sized 1.6 m / s, and large-sized 2.7 m / s, so that the strength of anion wind from the anion generating nozzle of the negative ion generator can be controlled by the size of the indoor space The anion is released under the optimum condition suitable for the area, thereby providing a more pleasant indoor environment.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view showing the principle of an anion generating nozzle of a negative ion generator having a conventional non-powered wind direction function.
FIG. 2 is a schematic cross-sectional view of an anion generator device that has been registered prior to the cause thereof; FIG.
3 is a cross-sectional view showing an anion generating nozzle of the negative ion generating device applied to Fig.
FIG. 4 is a photograph showing a state where the negative ion generating nozzle of FIG. 3 is connected to the voltage generating module. FIG.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the negative ion generator (registered patent application No. 1330642, Nov. 31, 2013), which is registered with the cause of the present invention, is located on the inner surface of the upper case 20 And is selectively protruded to the outside of the upper case 20 by a push button 40 provided on the upper case 20 to radiate negative ions to the outside. The detailed structure of the negative ion generating part 30 includes a main holder 31 located on the upper surface of the upper case 20 and having a receiving part with a predetermined depth. The sub holder 32 is connected to the main holder 31. The sub holder 32 is operated by the push button 40 and generates negative ions in the center of the sub holder 32. The discharge electrode 33 The lid 35 is provided with a gear portion 34 which is positioned and operated by being interlocked with the damper plate 22 of the upper case 20. The lid 35 is located at the opening portion of the upper case 20 As shown in Fig. A sub-holder 32 (hereinafter referred to as "anion-releasing tube") including the sub-holder 32, that is, the cap 36, as the anion generating nozzle of the negative ion generator having the non- Like electrodes 37 which are wound several times at predetermined intervals as an electrode for generating negative ions together with the discharge electrode 33 (hereinafter referred to as " brush " When the push button 40 is pressed in the indoor unit, the negative ion generating tube 32 is connected to the damper plate 22 and the gear portion 35 of the cover 35 34 and at the same time, negative ions are generated by the discharge action between the discharge electrode 33 and the coil-shaped electrode 37, and are emitted to the outside while generating a whirlwind.

On the other hand, the negative ion generating nozzle of the negative ion generator having the non-powered wind direction function according to the present invention is divided into a small size, a medium size and a large size according to the strength of the wind. The intensity of the wind is determined by the diameter of the anion discharge pipe 32 and the number of the brushes 33 entering the center of the anion discharge pipe 32 and the number of windings of the coiled electrode 37. In the case of the small size, the diameter of the negative ion discharge pipe 32 is 21 mm, the brush 33 is inserted into the center of the negative ion discharge pipe 32, and the number of windings of the coil- Electrode. At this time, the distance between the brush 33 and the coil-shaped electrode 37 is 4 mm, and the wind speed is 0.4 to 1.1 m / s. And it emits 10 ~ 120 thousand negative ions at a distance of 1m. The brush 33 is connected to the voltage generating module M as shown in FIG. 4, and the (+) electrons are filtered out and only (-) electrons are emitted to generate negative ions And an electric field is generated, and is output while causing a wind blowing by the coil-shaped electrode 37. At this time, the maximum output value is 1.1 m / s. Initially, the (-) electrons were dispersed with a single needle, but the multiple brushes of the lead wire act as a needle.

In the case of the medium type, a spring-shaped coil-shaped electrode 37 having a diameter of 26 mm, an brush 33 for entering the central portion of the anion discharge pipe 32, Respectively. At this time, the distance between the brush 33 and the coil-like electrode 37 is 7 mm and the wind speed is 0.4 to 1.6 m / s. As described above, the brush 33 is connected to the voltage generating module M, and the voltage generating module M is connected to the voltage generating module M, (+) Electrons are filtered out and only (-) electrons are emitted to generate negative ions by reacting with the currents coming from the coil-shaped electrodes 37, and an electric field is generated and a wind is generated by the coil- . At this time, the maximum output value outputted is 1.6 m / s.

In the case of the large size, a spring-shaped coil-shaped electrode having a diameter of 28 mm and two to three brushes 33 entering the central portion of the anion discharge pipe 32 and having a number of windings of 13 37). At this time, the distance between the brush 33 and the coil-like electrode 37 is 14 mm and the wind speed is 0.4 to 2.7 m / s. And it emits more than 600,000 negative ions at a distance of 1m. As described above, the international standard requires that at least 100,000 anions are emitted per meter. The brush 33 is connected to the voltage generating module M and the positive electrons are filtered and the negative electrons are emitted to generate anions by reacting with the currents from the coiled electrodes 37, And is outputted while causing a wind blowing by the incense electrode 37. At this time, the maximum output value outputted is 2.7 m / s.

On the other hand, as the number of windings of the coil-shaped electrode 37 increases, the intensity of the whirlwind becomes larger and the area becomes wider and the dust collecting effect is improved by the fine dust. However, in the case of the small diameter and the medium size, And noise caused by ozone and arc are generated. The generation of negative ions should be large and the generation of ozone should be small. The larger the diameter of the anion discharge pipe 32 is, the more negative ions are generated, and the more the number of turns of the coiled electrode 37 is, the more negative ions are generated. When the brush 33 is inserted into the negative ion discharge tube 32 at a distance of 2 to 3, even when one brush is inserted into the negative ion generating tube 32, negative ion generation is doubled. In addition, it is suitable for the emission of the fractional negative ion of the vertical only under the condition of the weak intensity because the condition that the anion whirlwind is emitted in a vertical fractional manner under the condition of the small size and the medium size and is applied as the lateral type The effect can be multiplied more than the fraction formula. When the plurality of brushes 33 are used, the intensity of the whirlwind is increased even when a plurality of voltage generating modules M are connected in parallel (1 / n). This is because the number of brushes 33 serving as a conventional needle bar increases due to the use of a plurality of lead wires, and the amount of electrons generated by the negative (-) electrons increases. By forming the electric field from the coil- It can be seen that the century is getting bigger. Generally, the small size is used for 3 ~ 6 pyong, the medium type is used for 6 ~ 8 pyong, the large is used for 18 ~ 24 pyong.

As described above, according to the present invention, the brush is inserted into the central portion of the anion discharge pipe, and the coil-shaped electrode wound several times with the electrode generating the negative ion together with the brush is coupled to the inner peripheral surface of the tip end portion of the anion discharge pipe, An anion generating nozzle of an anion generator having an associated nonmotor wind direction function, wherein the anion release tube has a small diameter of 21 mm, a medium size of 26 mm, and a large size of 28 mm, and the brush is one small, one medium and two large , The number of windings of the coil-type electrode was 8 small, 8 small, 13 large, and the distance between the brush and the coil electrode was small 4 mm, medium size 7 mm and large size 14 mm. m / s and a large 2.7 m / s wind speed, the intensity of anion wind coming from the anion generating nozzle of the negative ion generator is changed to the size and area of the indoor space The anion is released under the optimum conditions, thereby enabling a more pleasant indoor environment to be created.

Although the negative ion generating nozzle of the negative ion generator having the non-operation force wind direction function according to the present invention has been described above, it is only the most preferred embodiment of the present invention is described, but the present invention is not limited thereto, The range is determined and limited. It will be apparent to those skilled in the art that various changes and modifications can be made by those skilled in the art without departing from the scope of the present invention.

32: Anion discharge pipe 33: Brush
37: coil type electrode M: voltage generating module

Claims (3)

A brush 33 is inserted into a central portion of the anion discharge pipe 32 and a coil type electrode 37 wound several times with an electrode for generating negative ions together with the brush 33 is formed on the inner peripheral surface of the tip end portion of the anion discharge pipe 32, And the brush 33 is an anion generating nozzle of an anion generator having a non-powered wind direction function connected to a voltage generating module M,
The number of windings of the coil type electrode 37 is eight and the number of windings of the brush 33 and the coil type electrode 37 is eight, Wherein the negative ion generating nozzle has a wind speed of 0.4 to 1.1 m / s under a condition that the distance between the negative ion generator and the negative ion generator is 4 mm.
A brush 33 is inserted into a central portion of the anion discharge pipe 32 and a coil type electrode 37 wound several times with an electrode for generating negative ions together with the brush 33 is formed on the inner peripheral surface of the tip end portion of the anion discharge pipe 32, And the brush 33 is an anion generating nozzle of an anion generator having a non-powered wind direction function connected to a voltage generating module M,
The number of windings of the coil type electrode 37 is eight and the number of windings of the brush 33 and the coil type electrode 37 is eight, And a wind speed of 0.4 to 1.6 m / s under a condition that the distance between the anion generator and the anion generator is 7 mm.
A brush 33 is inserted into a central portion of the anion discharge pipe 32 and a coil type electrode 37 wound several times with an electrode for generating negative ions together with the brush 33 is formed on the inner peripheral surface of the tip end portion of the anion discharge pipe 32, And the brush 33 is an anion generating nozzle of an anion generator having a non-powered wind direction function connected to a voltage generating module M,
The number of windings of the coil-shaped electrode 37 is 13 and the number of windings of the brush 33 and the coil-shaped electrode 37 is three, 37) is set to have a wind speed of 0.4 to 2.7 m / s under a condition of a distance of 14 mm. An anion generating nozzle of an anion generator having a non-powered wind direction function.

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