JPH02159283A - Negative ion generator - Google Patents

Abstract

PURPOSE:To well discharge and diffuse a negative ion by preventing the contact with an ion generating needle by arranging the ion generating needle in an ion discharge cylinder having an open port at one end thereof and a closed end wall at the other end thereof so that the leading end thereof is directed to the open port and boring a vent hole in the ion discharge cylinder in close vicinity to the closed end wall. CONSTITUTION:When a cord 2 is connected to a power supply and an opening and closing switch 4 is closed, a negative ion is generated from an ion generating needle 11 by a high voltage generator 3 and accelerated by an ion discharge cylinder 9 to be discharged from an open port 9a to generate an electron wind flowing toward the open port 9a while the air of an air chamber 8 is sucked in the ion discharge cylinder 9 from vent holes 16, 16 to be discharged from the open port 9a. The open air flows in the air chamber 8 through a vent hole 15 so as to make up for said discharge. The air stream generated in the ion discharge cylinder 9 accelerates the discharge and diffusion of the negative ion and prevent the stagnation of ozone having strong oxidizing properties generated around the ion generating needle 11.

Description

DETAILED DESCRIPTION OF THE INVENTION A0 OBJECTS OF THE INVENTION <1) Industrial Field of Use The present invention relates to a negative ion generator that generates negative ions for use in improving health, breeding, cultivation, and the like.

Here, negative ions refer to everything that exists in the atmosphere, ranging from extremely minute atoms and electrons to floating particles with a particle size, which are negatively charged.

(2) Conventional technology Research has already been conducted on the physiological effects when air containing a large amount of negative ions is introduced into the human body.
It has been confirmed that it has positive effects on the human body, such as sedating the nerves, hypnotic analgesia, inducing a feeling of exhilaration, increasing appetite, recovering from nervous fatigue, and delaying aging.

Therefore, a conventional negative ion generator is known which includes a high voltage generator and an ion generating needle connected to the output section of the high voltage generator.

(3) Problems to be Solved by the Invention By the way, the above conventional device has an ion generating needle protruding from the outer wall of a case housing a high voltage generator;
There is a case in which an ion generating needle is housed together with a high voltage generator, and an ion emitting port is opened in the case opposite the tip of the ion generating needle.In the former case, the generated ions diffuse well, but In the latter case, contact with the ion generating needle can be avoided, but the release and diffusion of negative ions are poor, and both have advantages and disadvantages.

The present invention was made in view of the above circumstances, and an object of the present invention is to provide a negative ion generator that can efficiently release and diffuse negative ions while preventing contact with the ion generating needle. do.

B1 Structure of the Invention (1) Means for Solving the Problems In order to achieve the above object, the present invention provides a negative ion generator comprising a high voltage generator and an ion generating needle connected to its output part. In the apparatus, an ion generating needle is disposed in an ion emitting tube having an open port at one end and a closed end wall at the other end, with its tip pointing toward the open port, and the closed end wall is placed in the ion emitting tube. It is characterized by having a ventilation hole that opens into the wall adjacent to the wall.

(2) Effect According to the above configuration, the ion emitting tube prevents the human body or objects from touching the ion generating needle.

When negative ions are generated from the ion generating needle, the negative ions are accelerated in the ion emitting tube and emitted from the open mouth of the ion emitting tube. , outside air is sucked into the ion emitting cylinder through the ventilation hole to generate an airflow passing through the ion emitting cylinder, and this airflow promotes the release and diffusion of negative ions.

(3) Examples Embodiments of the present invention will be described below with reference to the drawings.

First, we will begin with a first embodiment of the present invention shown in FIG. The case 2 of the general consumer negative ion generator 1 includes a bowl-shaped upper case half 2a and a lower case half 2b.
This case 2 houses a high voltage generator 3 and an on/off switch 4 that controls its operation and stop. The high voltage generator 3 is connected to the lower case half 2
It is supported by a pair of brackets 5.5 erected on the bottom wall of the high voltage generator 3, and a connector 1 is connected to the input section of the high voltage generator 3.
A power cord 12 is connected to the power cord 12 through a power cord 4, and an ion generating needle 11, which will be described later, is connected to the same output section through an output line 13. Further, the open/close switch 4 is supported by an operation panel 6 attached to the upper surface of the upper case half 2a.

The upper case half 2a has a partition plate 7 fixed to its upper wall.
An air chamber 8 is formed by the upper case half 2a and the operation panel 6 covering above, and an ion emitting cylinder 9 supported by the upper case half 2a and the operation panel 6 is disposed in the air chamber 8. This ion emitting cylinder 9 has an open opening 9a opened at the front of the case 2.
at one end, and the other end is closed by an end wall 9b. A distance collar 10 is interposed between the end wall 9b and the partition plate 7.

An ion generating needle 11 is disposed in the ion emitting tube 9 along the axis of the core portion 9, with its tip facing the open opening 9a. The proximal end of the ion generating needle 11 is supported by the end wall 9b of the ion emitting cylinder 9, penetrates the distance collar 10 and the partition plate 7, and protrudes into the case 2. is connected.

The operation panel 6 is provided with a through hole 15 that opens the air chamber 8 to the atmosphere, and the ion emitting tube 9 has an air chamber 8 inside.
A plurality of ventilation holes 16, 16, .

When the cord 12 is connected to the power source and the on/off switch 4 is closed, the ion generating needle 1 is activated by the operation of the high voltage generator 3.
Negative ions are generated from 1. These negative ions are accelerated in the ion emitting tube 9 and emitted from the open port 9a, and an electronic wind flowing toward the open port 9a is generated in the ion emitting tube 9 as shown by arrow a in FIG. Due to this electronic wind, the air in the air chamber 8 is drawn into the ion emitting tube 9 through the vent holes 16, 16, as shown by the arrows in FIG. be done. When air is drawn into the ion emitting cylinder 9 from the air chamber 8, atmospheric air flows into the air chamber 8 through the through hole 15 as indicated by arrow C in FIG. 2 to supplement the air.

The airflow thus generated in the ion emitting tube 9 promotes the release and diffusion of negative ions from the ion emitting tube 9, and contributes to preventing the accumulation of highly oxidizing ozone generated around the ion generating needle 11. . Therefore, negative ions can be effectively emitted to the outside of the ion emitting cylinder 9, and at the same time, oxidation of the ion generating needle 11 can be suppressed.

Incidentally, a large amount of ozone is generated in the ion generating needle 11 where the generation density of negative ions is high, and the ion generating needle 11 is formed into a round rod shape with a hemispherical portion 11a at the tip, as shown in FIG. By doing so, the density of negative ion generation can be averaged and ozone generation can be reduced.

In addition, in order to effectively generate an air flow within the ion emitting tube 9, as shown in FIG. It is desirable to arrange the ventilation hole 15 within a range of up to one-third of the length of the ion generating needle 11 at .

The cross-sectional shape of the ion emitter 9 and the number of ventilation holes 16 are appropriately selected depending on the application of the negative ion generator 1, and some examples are shown in FIGS. ).

Next, another embodiment of the present invention will be described with reference to FIGS. 5 to 7. In the figure, parts corresponding to those in the previous embodiment are designated by the same reference numerals as in the previous embodiment.

FIG. 5 shows a negative ion generator 1 for use in a car interior, in which the ion emitting cylinder 9 is provided with a vent hole 16 that is directly open to the atmosphere, and the air chamber 8 as in the previous embodiment is omitted. , which aims to make the device more compact.

Figure 6 shows the local negative ion generator 1, which includes the device A equipped with a high voltage generator 3 and an ion generating needle 1.
1 and a movable part B.

The movable part B includes a cylindrical holder 17 that is integrally connected to the closed end wall 9b of the ion emitting cylinder 9, and within this holder 17, the output line 13 drawn out from the main unit A is connected to the ion generating needle 11. Connected. In addition, the ion emitting tube 9 and the holder 17 include
Both ends of a cylindrical grip 18 surrounding them are fixed, and a ventilation hole 16 of the ion emitting tube 9 is inserted into this grip 18.
An air chamber 8 having an opening is formed, and this air chamber 8
A through hole 15 is formed at the rear end of the grip 18 to open the grip to the atmosphere.

According to this embodiment, by gripping the grip 18 and moving only the lightweight movable part B, it is possible to direct the opening 9a of the ion emitting tube 9 to a necessary location, and then to cause the emitted negative ions to act in a concentrated manner. can. In this case, air drawn into the ion emitting tube 9 from the air chamber 8 through the vent hole 15 can generate an air flow within the ion emitting tube 9.

FIG. 7 shows a negative ion generator for rearing and cultivation, which includes a main case 19 and a sub-case 20 joined to the front surface of the main case 19. An air chamber 8 is formed in the upper part of the sub case 20-, and an ion emitting tube 9 is attached to the lower part. According to this embodiment, the output, operating time, etc. of the high voltage generator 3 are controlled by the generation controller 21, and the amount of ions generated by the ion generating needle 11, the generation time, etc. can be adjusted as appropriate. In this case as well, the air sucked into the ion emitter 9 from the air chamber 8 through the vent 16 causes the ion emitter 9 to
airflow can be created within the

C0 Effects of the Invention As described above, according to the present invention, the ion emitting cylinder can prevent the human body, objects, etc. from coming into contact with the ion generating needle, resulting in high safety. In addition, the negative ions generated from the ion generating needle can be released and diffused well, and the retention of ozone can be prevented, thereby greatly improving the service life of the ion generating needle.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal cross-sectional side view showing the first embodiment of the present invention, FIG. 2 is an enlarged view of the main part of the ion generating needle, and FIG. Figures 4(a) to 4(e) all show modified examples of the ion emitting tube.
5, 6, and 7 are cross-sectional views similar to those shown in FIG. 2 of the present invention. FIG. 7 is a vertical side view showing the third and fourth embodiments.

Claims (1)

[Claims] In a negative ion generator equipped with a high voltage generator and an ion generating needle connected to its output part, the ion generating needle is placed in an ion emitting tube having an open port at one end and a closed end wall at the other end. The ion emitting tube is disposed so that its tip is directed toward the open port, and the ion emitting tube is provided with a ventilation hole that opens into the inside of the ion emitting tube near the closed end wall.
Negative ion generator.