KR102053506B1 - Anion generator nozzle of anion generator having the function of wind vane with no driving power - Google Patents

Abstract

According to the present invention, specific examples and presentations of the anion wind intensity from the anion generator nozzle of the anion generator can be used to minimize the inhibitory elements of the pleasant indoor environment due to unnecessary power waste or inappropriate wind intensity. An anion generating nozzle of an anion generator having a non-powered wind direction function, the configuration of which is embedded in the center of the anion discharge tube, the electrode is an electrode for generating anion with the brush on the inner peripheral surface of the distal end of the anion discharge tube Coil-like electrode wound several times is coupled, the brush in the negative ion generating nozzle of the negative ion generator having a non-powered wind direction function connected to the voltage generating module, the diameter of the negative ion discharge tube is small 21mm, medium 26mm, large 28mm, The brush is one small, one medium, two to three large , The number of turns of the coiled electrode is 8 times small, 8 times medium, 13 times large, the distance between the brush and the coiled electrode is 4mm small, 7mm medium, 14mm large conditions up to small 1.1 m / s, medium 1.6 m / s, the large 2.7 m / s wind speed is output so that the negative ion wind intensity from the negative ion generating nozzle of the negative ion generator is released under the optimum conditions suitable for the size and area of the indoor space. It will have the effect of creating an indoor environment.

Description

Anion generator nozzle of anion generator having the powerless wind direction function

The present invention relates to an anion generating nozzle of an anion generator having a non-powered wind direction function, and more particularly, the power of the anion wind emitted from the anion generating nozzle of the anion generator is unnecessary by specific examples and presentations suitable for the size and area of the indoor space. The present invention relates to an anion generating nozzle of an anion generator having a non-powered wind direction function which minimizes a factor of inhibiting a pleasant indoor environment due to waste or inappropriate wind strength.

In general, various organic substances such as formaldehyde, nitrogen oxide, and tobacco smoke, sulfur dioxide, and carbon monoxide contained in the air form "cationic", which are neutralized by supplying anions to collect dust. Can keep indoor air clean and fresh. In addition, since prolonged exposure to spaces containing cations such as bacteria, dust, pollen, and the like causes allergic skin diseases such as atopy, the anion is supplied to neutralize the cation component. As a result, various skin diseases are alleviated, and waste products are smoothly discharged to promote cell activation and metabolism, thereby promoting growth of animals and plants.

Thus, in order to take advantage of the beneficial effects of negative ions have been developed and used with a dedicated device for generating negative ions with the air cleaning function, but the situation was not popularized due to the bulky and expensive purchase cost, but in recent years the development of technology As a result, anion generators that can be installed and used indoors or inside cars are widely used. The recent negative ion generating device has the effect of smoothly performing the indoor air cleaning function, but has the following problems. That is, there is a problem in that the neutralization and purification time take longer because the negative ions generated from the discharge electrode of the lead-in electrode in which the negative ions are generated take a long time.

This is because the air velocity in the air is very weak when negative ions are generated at the discharge electrode. In order to solve this problem, conventionally, it is proposed to radiate negative ions generated on the discharge electrode to the room by providing a fan rotating by the motor behind the lead line, but a problem of causing a unit cost increase by providing a separate fan motor is required. Of course, due to the noise generated during the operation of the fan motor, there is a problem that can not comfortably maintain the indoor environment inside the building or inside the car.

In addition, there is a problem that it is very difficult for the user to determine when the discharge line of the lead wire is not operated due to the end of life or failure. In other words, the fan motor operates normally even when the discharge electrode of the lead wire fails, so the user determines that the negative ions are released. In addition, even when not in use, there is a problem that spoils the aesthetics because the site in which the electrode is embedded is exposed to the outside.

Accordingly, in order to solve the conventional problems as described above, the present disclosure has proposed a negative ion generating nozzle of an anion generator having a powerless wind direction function. The negative ion generating nozzle of the negative ion generator having the non-powered wind direction function is an anion voltage generating module (not shown) for generating a voltage for generating an anion as shown in FIG. 1, one end of which is connected to the negative ion voltage generating module, and an end portion thereof. The lead wire 200 has a discharge electrode 210 formed thereon, and has a cylindrical cover 100 surrounding them. In this case, the lead line 200 in which the discharge electrode 210 is formed is positioned on the inner center surface of the cover 100 according to the characteristics of the present invention, and the annular metal plate 300 is disposed on the inner circumferential surface of the cover 100 adjacent to the lead line 200. This is located. At this time, the distance between the discharge electrode 210 and the metal plate 300 of the lead line 200 may be appropriately changed in consideration of the size of the cover 100 or the size of the negative ion generator itself, it will be known to those skilled in the art. In this way, when a current is applied to the discharge electrode 210 and the metal plate 300 of the introduction line 200 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 the CRT TV, and the amount of air flows over a predetermined wind speed by the generation of the electric field, and the negative ions generated on the discharge electrode 210 are rapidly radiated into the room. This is to have a fast wind speed so as not to contrast with the wind speed caused when the negative ion is generated on the conventional discharge electrode 210 to thereby be able to clean the room in a short time. On the other hand, the material of the cover 100 is provided with the above-described metal plate 300 may be preferably formed of a ceramic material instead of a general synthetic resin in order to generate a more extended electric field.

Accordingly, by discharging the negative ions generated from the discharge electrode of the lead wire into the room with a certain amount of air flow without using a separate fan motor, it is possible not only to clean the room in a short time but also to reduce the unit cost. It can be surely determined, and in addition to the effect of the advertisement to satisfy the user's satisfaction as well as to expose the interior to the outside only when using it can increase the interior effect without harming the aesthetics. On the other hand, in the negative ion generating nozzle of the negative ion generator having the non-powered wind direction, the key is to apply an appropriate wind strength according to the size and area of the indoor space, thereby preventing the pleasant indoor environment caused by unnecessary power waste or inappropriate wind strength. While minimizing the elements, more specific examples and presentations have not been made to date.

Publication No. 10-2012-0091634 (2012.08.20.). "Negative ion generating nozzle of negative ion generator having no wind direction function"

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the purpose of which is unnecessary to the specific examples and presentations of the intensity of the anion wind from the negative ion generating nozzle of the negative ion generator suitable for the size and area of the indoor space The present invention provides a negative ion generating nozzle of a negative ion generator having a non-powered wind direction function which minimizes a factor of inhibiting a pleasant indoor environment due to power waste or inappropriate wind intensity.

One embodiment of the anion generating nozzle of the anion generator having a non-powered wind direction function according to the present invention for achieving the object of the present invention, the brush is embedded in the center portion of the anion discharge tube, the brush on the inner peripheral surface of the tip end of the anion discharge tube In the negative electrode generating nozzle of the negative ion generator having a non-powered wind direction function coupled to the voltage generating module, the brush is coupled to the electrode for generating anions and the negative electrode, the diameter of the negative ion discharge tube is 21mm, The brush is one, the number of turns of the coiled electrode is 8 times, the distance between the brush and the coiled electrode is characterized in that it is configured to have a wind speed of 0.4 ~ 1.1 m / s on the condition that 4mm.

In another embodiment of the negative ion generating nozzle of the negative ion generator having a non-powered wind direction function according to the present invention, a brush is embedded in the center of the negative ion discharge tube, and an electrode for generating negative ions together with the brush on the inner peripheral surface of the distal end of the negative ion discharge tube. In the negative electrode generating nozzle of the negative ion generator having a non-powered wind direction connected to the voltage generating module is coupled to the coiled electrode wound several times, the diameter of the negative ion discharge tube is 26mm, the brush is one, The number of windings of the coiled electrode is 8 times, and the distance between the brush and the coiled electrode is configured to have a wind speed of 0.4 to 1.6 m / s under a condition of 7 mm.

In addition, in another embodiment of the negative ion generating nozzle of the negative ion generator having a non-powered wind direction function according to the present invention, a brush is embedded in the center portion of the negative ion discharge tube, and generates anion together with the brush on the inner peripheral surface of the distal end of the negative ion discharge tube. In the negative electrode generating nozzle of the negative ion generator having a non-powered wind direction function is coupled to the coil-like electrode wound several times, the brush is 28mm, the brush is 2-3 ~ The number of turns of the coiled electrode is 13 times, and the distance between the brush and the coiled electrode is 14 mm, and the wind speed is 0.4 to 2.7 m / s.

As described above, in the present invention, a brush is embedded in the center of the negative ion discharge tube, and a coil-shaped electrode wound several times with an electrode for generating negative ions together with the brush is coupled to the inner circumferential surface of the distal end of the negative ion discharge tube, and the brush has a voltage. In the negative ion generating nozzle of the negative ion generator having a non-powered wind direction function connected to the generating module, the diameter of the negative ion discharge tube is 21mm small, medium 26mm, large 28mm, the brush is one small, one medium, one large 2 ~ The number of windings of the coiled electrode is 8 small, 8 medium, 13 large, and the distance between the brush and the coiled electrode is 4 mm small, 7 mm large, and 14 mm large. , 1.6 m / s for medium, 2.7 m / s for large wind speed, so that the anion wind intensity from the negative ion generating nozzle of the negative ion generator The anion is released under the optimum conditions for the area, which has the effect of creating a more comfortable indoor environment.

1 is a cross-sectional view showing the principle of the negative ion generating nozzle of the negative ion generator having a conventional wind power function.
Figure 2 is a schematic cross-sectional view showing a negative ion generating device that the applicant has been registered in advance.
3 is a cross-sectional view showing an anion generating nozzle of the anion generator applied to FIG.
Figure 4 is a photograph showing a state in which the negative ion generating nozzle of Figure 3 is connected to the voltage generating module.

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

The negative ion generating device (registered patent No. 1330642, 2013.11.18.), Which has been registered and filed by the applicant, is located in the inner surface of the upper case 20 as shown in FIG. 2. In addition, the push button 40 provided on the upper case 20 selectively protrudes to the outside of the upper case 20 so as to radiate negative ions to the outside. Looking at the detailed structure of the negative ion generating unit 30, the main holder 31 is provided on the upper surface of the upper case 20, the receiving portion of the predetermined depth is formed. And the sub holder 32 is coupled to the main holder 31, the sub holder 32 is operated by the above-described push button 40, the inner center to generate negative ions, the discharge electrode 33 is A cover 35 is provided which has a gear part 34 positioned and in particular interlocked with the damper plate 22 of the upper case 20, which cover 35 is an opening of the upper case 20. It performs a function to selectively seal the. In addition, the sub holder 32 (hereinafter referred to as "anion discharge tube") including the sub holder 32, that is, the cap 36, is an anion generating nozzle of the negative ion generator having a non-powered wind direction function. The coil-shaped electrode 37 wound several times at a predetermined interval is coupled to the inner circumferential surface of the discharge electrode 33 (hereinafter referred to as "brush") as an electrode for generating anion. When the negative ion generating device configured as described above is operated by pressing the push button 40 in a state of being located indoors, the negative ion discharge tube 32 is moved to the gear part of the damper plate 22 and the cover 35 to the outside of the upper case 20. 34 are protruded by the interlocking operation between them, and at the same time, negative ions are generated by the discharge action between the discharge electrode 33 and the coil type electrode 37 and are released to the outside while causing a whirlwind.

On the other hand, the negative ion generating nozzle of the negative ion generator having a non-powered wind direction according to the present invention is divided into small, medium, large according to the strength of the wind. The strength of the wind is determined by the aperture of the negative ion discharge tube 32 and the number of brushes 33 entering the central portion of the negative ion discharge tube 32 and the number of turns of the coil type electrode 37. In the case of a small size, the diameter of the negative ion discharge tube 32 is 21 mm, one brush 33 enters the center portion of the negative ion discharge tube 32, and the coil of the spring type has 8 turns of the coil type electrode 37. The electrode has At this time, the distance between the brush 33 and the coil electrode 37 is 4mm, the wind speed is 0.4 ~ 1.1 m / s. And, it emits 100,000 to 120,000 anions at a distance of 1m. Brush 33 is connected to the voltage generating module (M) as shown in Figure 4, the positive (+) electrons are filtered and only (-) electrons are emitted to react with the current from the coil-shaped electrode 37 to generate anions And while the electric field is formed by the coil-type electrode 37 is generated while causing the whirlwind. At this time, the maximum output value is 1.1 m / s. Initially, the needles distributed negative (-) electrons, but the needles of several strands of the lead line played a role.

In the case of the medium type, the diameter of the negative ion discharge tube 32 is 26 mm, and one brush 33 entering the central portion of the negative ion discharge tube 32 is provided, and the coil type electrode 37 of the spring shape has 8 turns. Has At this time, the distance between the brush 33 and the coil-type electrode 37 is 7mm, the wind speed is 0.4 ~ 1.6 m / s. In addition, 15 to 200,000 negative ions are discharged at a distance of 1 m. (International standard should release 100,000 or more negative ions based on 1 m.) As described above, the brush 33 has a voltage generating module (M) and The positive and negative electrons are filtered out and only the negative electrons are emitted to react with the current from the coiled electrode 37 to generate negative ions and an electric field to form a whirlwind by the coiled electrode 37 Is output. At this time, the maximum output value is 1.6 m / s.

In the case of a large size, the diameter of the negative ion discharge tube 32 is 28 mm, and two to three brushes 33 entering the center of the negative ion discharge tube 32 are provided, and the coil-shaped electrode having a spring shape having 13 turns of windings ( 37). At this time, the distance between the brush 33 and the coil-like electrode 37 is 14mm, the wind speed is 0.4 ~ 2.7 m / s. And, it releases 600,000 or more anions at a distance of 1m. As mentioned above, the international standard should release more than 100,000 anions on the basis of 1m. The brush 33 is connected to the voltage generating module (M) and the positive (+) electrons are filtered and only the negative (-) electrons are emitted to react with the current from the coil-type electrode 37 to generate negative ions and the electric field is formed It is outputted by generating the whirlwind by the incense electrode 37. The maximum output value at this time is 2.7 m / s.

On the other hand, the more the number of turns of the coil-type electrode 37, the greater the intensity of the whirlwind and the larger the area, the better the dust collection effect due to fine dust. Noise is generated as well as harmful to the generation of ozone and arc. Anion generation should be high and ozone generation should be small. As the diameter of the negative ion discharge tube 32 increases, negative ion generation increases, and as the number of turns of the coil electrode 37 increases, negative ion generation increases. In addition, when the brush 33 is placed in the anion discharge tube 32 at 2 to 3, even when one is added, the negative ions are doubled, but if more than that, there is no big difference. In addition, it is not suitable for the condition that the anion whirlwind emits as a vertical fountain under the conditions of small and medium size, and is not suitable for the vertical fractional anion release only under the large conditions, and it is applied by the lateral injection type under the large conditions. If you do, you can double the effect than the fraction. When the plurality of brushes 33 are used, even when the plurality of voltage generating modules M are connected in parallel (1 / n), the intensity of the whirlwind increases. This is due to the use of a plurality of lead wires, the number of brushes 33 that act as a conventional needle increases, the amount of (-) electrons also increases, and the electric current coming from the coil-type electrode 37 is bundled together to form an electric field, and the It could be seen that the century is growing. Typically, small to 3 to 6 pyeong, medium to 6 to 8 pyeong, large to 18 to 24 pyeong, and applied to the fine projections or Rwanna principle for acceleration, but did not work.

Thus, in the present invention, the brush is embedded in the center of the negative ion discharge tube, the coil-like electrode wound several times with the electrode for generating negative ions together with the brush is coupled to the inner peripheral surface of the distal end of the negative ion discharge tube, the brush is a voltage generating module and In the negative ion generating nozzle of the negative ion generator having the function of the non-powered wind direction, the diameter of the negative ion discharge tube is 21mm, medium 26mm, and large 28mm, and the brush is one small, one medium, and two or three large. , The number of turns of the coiled electrode is 8 times small, 8 times medium, 13 times large, the distance between the brush and the coiled electrode is 4mm small, 7mm medium, 14mm large conditions up to small 1.1 m / s, medium 1.6 m / s, It outputs the wind speed of large 2.7 m / s so that the intensity of the anion wind from the anion generator nozzle of the anion generator can be adjusted to the size and area of the room The negative ions are released under the optimal conditions, which can create a more comfortable indoor environment.

Although the negative ion generating nozzle of the negative ion generator having the non-powered wind direction function according to the present invention has been described in detail, it describes only the most preferred embodiment of the present invention, but the present invention is not limited thereto, and the appended claims The range is determined and defined by. In addition, anyone of ordinary skill in the art will be able to make various modifications and imitations according to the description of the specification of the present invention, but it will be apparent that this is also outside the scope of the present invention.

32: anion discharge tube 33: brush
37: coil type electrode M: voltage generating module

Claims (3)

A brush 33 is inserted into the center portion of the negative ion discharge tube 32 and the coil type electrode 37 wound several times with an electrode for generating negative ions together with the brush 33 on the inner circumferential surface of the distal end of the negative ion discharge tube 32. Is coupled, the brush 33 in the negative ion generating nozzle of the negative ion generator having a non-powered wind direction function connected to the voltage generating module (M),
The diameter of the negative ion discharge tube 32 is 21 mm, the brush 33 is one, the number of turns of the coil-shaped electrode 37 is eight times, the brush 33 and the coil-shaped electrode 37 The distance between the negative ion generating nozzle of the negative ion generator having a non-powered wind direction, characterized in that configured to have a wind speed of 0.4 ~ 1.1 m / s under the condition of 4mm.
A brush 33 is inserted into the center portion of the negative ion discharge tube 32 and the coil type electrode 37 wound several times with an electrode for generating negative ions together with the brush 33 on the inner circumferential surface of the distal end of the negative ion discharge tube 32. Is coupled, the brush 33 in the negative ion generating nozzle of the negative ion generator having a non-powered wind direction function connected to the voltage generating module (M),
The diameter of the negative ion discharge tube 32 is 26mm, the brush 33 is one, the number of turns of the coil-shaped electrode 37 is eight times, the brush 33 and the coil-shaped electrode 37 The distance between the negative ion generating nozzle of the negative ion generator with a non-powered wind direction, characterized in that configured to have a wind speed of 0.4 ~ 1.6 m / s under the condition of 7mm.
A brush 33 is inserted into the center portion of the negative ion discharge tube 32 and the coil type electrode 37 wound several times with an electrode for generating negative ions together with the brush 33 on the inner circumferential surface of the distal end of the negative ion discharge tube 32. Is coupled, the brush 33 in the negative ion generating nozzle of the negative ion generator having a non-powered wind direction function connected to the voltage generating module (M),
The diameter of the negative ion discharge tube 32 is 28mm, the brush 33 is two to three, the number of turns of the coiled electrode 37 is 13 times, the brush 33 and the coiled electrode ( 37) The negative ion generating nozzle of the negative ion generator having a non-powered wind direction, characterized in that configured to have a wind speed of 0.4 ~ 2.7 m / s with a distance of 14mm.

Images