KR100776572B1 - An automatic needle cleaning apparatus of a blowing-type ionizer - Google Patents

Abstract

An automatic needle cleaning apparatus of a blow-type ionizer is provided to easily clean needles of the ionizer whenever necessary via a remote system or a manual way. An automatic needle cleaning apparatus of a blow-type ionizer includes a plurality of discharge needles(10), a motor(20), brush shafts(30), an articulation unit, and a brush(50). The discharge needles are arranged symmetrically from each other along a circumference from an ion generating unit of the ionizer. The motor is arranged on a center of the circumference such that the motor generates rotating force and is controlled by a switch of the ionizer. The brush shafts are attached to a rotary shaft of the motor. The articulation unit is attached to an end of the brush, and opened by centrifugal forces during rotation of the motor and folded when the motor stops. The brush is arranged at an end of the articulation unit, and automatically cleans dust and dirt from the needle during rotation of the motor.

Description

An automatic needle cleaning apparatus of a blowing-type ionizer

1 is an operating state of the automatic needle cleaning device of the blower type ionizer according to the present invention.

2 is a side view of the device of FIG. 1 at standstill;

<Description of Symbols for Main Parts of Drawings>

10: discharge needle 20: motor

30: brush axis 40: joint

50: brush 60: switch (not shown)

This invention discloses the automatic needle cleaning apparatus of a blower type ionizer. In particular, the present invention describes a device capable of automatically cleaning a plurality of needles inside an ionizer using a motor.

In the conventional blower type ionizer, there is a problem in that the static elimination effect is reduced due to the imbalance of + and − ions generated in the static eliminator and the reduction of + and − ion generation. Therefore, there was a need to balance the amount of + and-ions supplied from the static eliminator and maintain + and-ion generation. There are many reasons why the + and-ions are disproportionately generated.

The first reason is that the saliva of the blown ionizer is contaminated. Therefore, most companies solve this problem by regularly cleaning the airflow of the blower ionizer. In other words, the conditions for cleaning needles are determined in advance, and the corresponding needles are cleaned according to the conditions. For example, if the + and-ion production of the ionizer is reduced by 80% during normal operation, the needle of the blower type ionizer is cleaned and the + and-ion production of the ionizer is reduced by about 60% during normal operation. If you are approaching a situation where you need to clean the needle by sounding an alarm, remind the staff to be careful. However, the blower type ionizer is equipped with a plurality of needles, so it is not common to clean them one by one, which causes a lot of time and money.

Secondly, due to deterioration of component characteristics and aging characteristics (high voltage generator), + and-ions are disproportionately generated.

Third, because a strong charged object or an adjacent grounding body affects the sensing part of the bar.

There is a need for a technique that can efficiently solve the problems of the prior art at a low cost.

An object of the present invention is to provide a device for automatically cleaning the needle with a brush by rotating the drive motor when it is determined that the needle is contaminated by judging the contamination of the needle in order to eliminate the imbalance of the conventional ion generation amount.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

The configuration of the automatic needle cleaning device of the blower type ionizer according to the present invention includes a plurality of discharge needles 10 symmetrically installed on a circumference of a predetermined radius in the ion generator of the ionizer, installed in the center of the column. A motor 20 generating a rotational force around the circumferential axis, a plurality of brush shafts 30 attached to the rotational shaft of the motor, attached to the ends of the brushes, and unfolded by centrifugal force when the motor is rotated, when the motor is stopped The joint part 40 folded inward, the brush 50 is installed at the end of each joint part to automatically clean the dust and dirt adhered to the needle by passing through the needle when the motor rotates, and a switch for controlling the operation of the motor ( 60).

In the present invention, the discharge needles are preferably installed in the same plane. In addition, in this invention, it is preferable to control the motor drive by an external switch or remote control of the ionizer.

In this invention, it is preferable to centrally control one or more of the motors by an external switch or remote control of the ionizer.

In this invention, it is preferable to individually control the driving of the motors.

In the present invention, the material of the brush is preferably in the form of a brush having a strength enough to shake off the dust attached to the precipitation electrode.

Meanwhile, in order to clean the needles in the present invention, it is necessary to determine the degree of contamination of the needles according to specific criteria. Otherwise, you might think about cleaning regularly at a reasonable time, but it's not efficient.

There are many ways to determine the cleaning cycle of an ionizer.

An example of one of the specific methods is as follows.

First, turn on the ionizer. Then, a constant high voltage (e.g., ± 6 KV) is applied to the discharge needle of the ionizer to induce a constant voltage (e.g., less than 5V conventionally less than 1V) in the sensing plate. Next, the induced voltage value (for example, 4 V) at the optimum state among the induced voltages is stored. The improvement is the determination of contamination, warning or alarm and auto-balancing.

Conventionally, needle shape was used as a sensing plate. However, when the needle is used, the induced signal is weak and it is difficult to separate the signal between the ambient noise and the induced voltage. Therefore, in the present invention, a stable network combined detection plate is used.

The next step is to activate the balancing detector. The external applied voltage is controlled to control the high voltage generator. At this time, linear control is made, DC 18 ~ 22V in AC model and DC 7 ~ 8V in DC model are applied externally. Increasing the applied voltage at + 3.5V and -2.5V increases -charge, and processing this momentarily creates an ion balance. But if it's out of balance, it can trigger an alarm and cause a system-wide problem. Thus, a system fail alarm can be triggered.

When the problem of deterioration in antistatic performance occurs, the induced voltage may be measured, and the lower side may be raised when the reference voltage is lower than the reference induced voltage.

The present invention can be variously modified and can take various forms and only the specific embodiments thereof are described in the detailed description of the invention. It is to be understood, however, that the present invention is not limited to the specific forms mentioned in the detailed description of the invention, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

First, the needle cleaning can be timely cleaned according to the present invention, and thus the elimination efficiency is improved.

Second, the needle of the blow-type ionizer installed in the field according to the present invention can be easily cleaned whenever necessary, thereby maintaining a constant level of ion generation efficiency.

Third, the structure is simple, and the control and remote control using the operation switch is possible, and the needles of a plurality of ionizers can be cleaned at a time remotely or manually individually.

Fourthly, the problem of imbalance in the amount of generated ions is solved, and the ion generating capacity can be maintained.

Claims (6)

In the device for cleaning the discharge needle of the blower type ionizer, A plurality of discharge needles symmetrically installed on each other on a circumference of a predetermined radius in the ionizer of the ionizer; A motor installed in the center of the circumference to generate a rotational force about the circumferential axis, and the operation of which is controlled by a switch separately installed in the blower type ionizer or remotely; A plurality of brush shafts attached to the rotating shaft of the motor; A joint part attached to an end of each brush and stretched by centrifugal force when the motor rotates, and folded inward when the motor stops; And a brush installed at the end of each joint part and having a brush that automatically cleans dust and dirt adhered to the needle by passing through the needle when the motor rotates. The apparatus of claim 1, wherein the discharge needles are installed on the same plane or in the trajectory of the brush for cleaning. delete 2. The automatic needle cleaning apparatus of claim 1, wherein a plurality of the motors are separately operated or remotely controlled by a switch installed in the blower type ionizer. The apparatus of claim 1, wherein the driving of the motors is individually controlled. The method of claim 1, wherein the material of the brush is characterized in that the brush having a strength enough to shake off the dust attached to the precipitation electrode, automatic needle cleaning device of the blower type ionizer.

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