KR102200897B1 - purification device for conductive filter module - Google Patents

Abstract

The conductive filter module purification apparatus includes: a housing providing a space in which a conductive filter module to be purified can be disposed; And a removal unit installed under the conductive filter module disposed inside the housing and configured to remove contaminants collected in the conductive filter module.

Description

Purification device for conductive filter module

The present invention relates to a conductive filter module purification device. For example, it may relate to an apparatus for purifying a conductive filter module for purifying and reusing a conductive filter module by removing and sterilizing particulate and gaseous pollutants on the conductive filter module.

In general, fine dust is small in size and does not get caught in the mouth or nasal bronchi during human breathing, but penetrates deep into the alveoli, and has optical properties such as refraction and scattering of light, which causes many obstacles to securing vision. In addition, fine dust contains many organic and inorganic harmful substances, so fine dust that has penetrated into the lungs remains in the lungs and delivers various organic and inorganic harmful substances that contain them to the human body, resulting in very serious respiratory diseases such as pneumonia, lung cancer, and bronchitis. Cause.

These fine dusts are not only mobile pollutants such as automobiles in Korea, but also fixed pollutants generated by household heating and industrial energy consumption, as well as yellow dust generated from the Gobi Desert in China, and the entire East Asia due to the recent large-scale industrialization of China. As it is placed in, it is suffering a lot of difficulties not only outdoors but also indoors due to fine dust.

Accordingly, recently, air purifiers for purifying surrounding air by removing fine dust and various foreign substances have been widely spread. In order to optimize the performance of the air purifier and use it for air purification, it is necessary to periodically clean, purify, or replace the filter module installed inside.

However, the currently used air purifier takes a lot of labor and cost to manage the filter, which plays a key role in removing pollutants, and thus, in practice, the cleaning, purification, and replacement of the filter are not well managed.

For example, most air purifiers currently in use are equipped with HEPA filters that can remove 99.97% or more of 0.3 micrometer-sized particles. The HEPA filter is very effective in purifying the air by filtering fine dust, but it is impossible to reuse the collected fine dust by shaking off or washing the filter, so it is necessary to discard the filter after a certain period of use and replace it with a new filter. In this process, considerable cost consumption occurs regularly. However, even if the economic burden is not taken into account, the performance of the air purifier to remove pollutants is rapidly deteriorated because the replacement cannot be performed at the appropriate time of replacement, or it creates conditions that worsen the health of users.

In order to solve this inconvenience, an air purifier of an electricity collection method has been recently developed and sold. The electric collection method air purifier is equipped with an electric collection system composed of a conductive plate such as metal to effectively collect fine dust. The collecting plate that collects fine dust is composed of a conductive material such as metal, so if it is contaminated after a certain period of use, it is cleaned with water and reused. The electricity collection plate can be reused continuously through cleaning without being discarded, so the economic burden of consumers is solved, but if the process of completely drying the collection plate after cleaning with water is not performed, sparks are generated in the process of applying high voltage due to operation characteristics. Electrical accidents such as, may cause equipment failure, electric shock, and fire.

In addition, the cleaning device for conventional filters that can clean, such as a pre-filter and a medium filter, not HEPA filters, removes contaminants separated from the filter by injecting a fluid containing the recovered liquid directly to the filter. Because of the purification, the filter is washed with water to completely remove the recovered liquid, and the washed filter is dried. Therefore, it takes a long time to purify the filter, and there is a cumbersome problem.

In addition, in the case of a conductive filter module that ionizes particles such as fine dust and collects them in a charged conductive filter, there is a problem in that it is difficult to remove contaminants such as fine dust collected in the conductive filter by using a recovery solution.

Unexamined Patent Publication No. 10-2017-0076031 (announcement date 2017.07.04.)

The present invention was created to solve the above problem, and an object of the present invention is to provide a conductive filter module purification device capable of easily removing contaminants collected in a conductive filter module and sterilizing the conductive filter module. have.

A conductive filter module purifying apparatus according to the present invention for achieving the above object comprises: a housing providing a space in which a conductive filter module to be purified can be disposed; And a removal unit installed under the conductive filter module disposed inside the housing and configured to remove contaminants collected in the conductive filter module.

It is installed inside the housing, and may further include a sterilization unit for sterilizing the conductive filter module disposed inside the housing.

It may further include a neutralizer installed inside the housing and electrically neutralizing the pollutants collected in the conductive filter module.

It may further include a control unit for controlling the operation of the neutralization unit, sterilization unit, and removal unit.

The neutralization unit may generate negative ions and positive ions at the same time to neutralize contaminants collected in the conductive filter module.

The neutralization unit may include at least one of soft X-ray, americium (Am-241), polonium (Po-210), and krypton (Kr-85).

The neutralization unit may be provided with a high voltage application device including carbon fibers or carbon brushes.

The neutralization unit may be provided as a high voltage application device including at least one of a metal wire, a metal brush, a metal plate, and a metal pin.

The sterilization unit may be provided with a UV lamp that irradiates ultraviolet rays (UV) onto the conductive filter module.

The UV lamp may be provided as an LED lamp as well as a general ultraviolet fluorescent lamp.

The sterilization unit may be provided in plural, and may be installed on the inner wall of the housing at predetermined intervals along the outer periphery of the conductive filter module.

The control unit controls the neutralization unit to operate at all times, and may simultaneously or sequentially operate the removal unit and the sterilization unit to remove contaminants from the conductive filter module or to sterilize the conductive filter module.

The removal unit is installed on one side of the housing, the suction device for vacuum suction so that the pollutants collected in the conductive filter module are detached; A negative pressure device installed below the conductive filter module and having a negative pressure hole formed therein to provide a uniform negative pressure to the conductive filter module; And a suction pipe providing a suction path so that contaminants detached from the conductive filter module by the suction device are vacuum sucked.

The negative pressure hole formed in the negative pressure device may be provided in a funnel-shaped upper light lower stiff structure whose area becomes narrower toward the lower side compared to the upper side.

According to an embodiment of the present invention, it is possible to quickly purify the conductive filter module by easily removing contaminants collected in the conductive filter module, so that it is easy to reuse. In addition, it is possible to sterilize the conductive filter module.

1 shows a conductive filter module purifying apparatus according to an embodiment of the present invention.
2 shows a conductive filter module.
3 is a diagram illustrating a conductive filter module purifying apparatus and a conductive filter module inserted therein according to an embodiment of the present invention.

Preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, but technical parts that are already well known will be omitted or compressed for conciseness of description.

FIG. 1 shows a conductive filter module purifying apparatus according to an embodiment of the present invention, and FIG. 3 shows a conductive filter module purifying apparatus according to an embodiment of the present invention and a conductive filter module inserted therein.

1 and 3, a conductive filter module purification apparatus 100 according to an embodiment of the present invention includes a housing 110 that provides a space in which a conductive filter module 10 as a purification target can be disposed therein; And a removal unit 120 installed under the conductive filter module 10 disposed inside the housing 110 and configured to remove contaminants collected in the conductive filter module 10.

The housing 110 has a space in which the conductive filter module 10, which is a purification target, can be disposed therein, and forms the overall appearance of the conductive filter module purification apparatus 100.

As shown in FIG. 1, the housing 110 may be provided in a rectangular parallelepiped shape, but is not limited thereto and may be provided in various shapes.

In addition, the housing 110 is preferably formed of a conductive material that can be grounded so that contaminants detached from the conductive filter module 10 are not collected on the inner wall by electrostatic force.

Further, a plurality of through holes H are formed in the upper surface of the housing 110 so that external air may flow into the interior of the housing 110.

The removal unit 120 is installed under the conductive filter module 10 disposed inside the housing 110, and vacuum suctions contaminants including fine dust collected in the conductive filter module 10 This is a configuration to remove.

To this end, the removal unit 120 is installed on one side of the housing 110, the suction device 121 for vacuum suction so that the pollutants collected in the conductive filter module 10 are detached; A negative pressure device 122 installed under the conductive filter module 10 and having a negative pressure hole 122a penetrating therein for providing a uniform negative pressure to the conductive filter module 10; And a suction pipe 123 that provides a suction path so that contaminants detached from the conductive filter module 10 by the suction device 121 are vacuum sucked.

Here, the negative pressure hole 122a formed in the negative pressure device 122 may be provided in a funnel-shaped upper-gwanghahyeop structure whose area becomes narrower toward the lower side compared to the upper side.

Accordingly, contaminants collected in the conductive filter module 10 are detached from the conductive filter module 10 by suction force through the inhaler 121 and are vacuum sucked through the inhaler 121.

That is, the contaminants detached from the conductive filter module 10 are provided with a uniform negative pressure to the conductive filter module 10 through the negative pressure hole 122a formed at the lower side of the conductive filter module 10, and the suction pipe 123 It is then discharged to the outside of the housing 110 by the suction force of the inhaler 121.

In addition, the inhaler 121 is preferably provided with a vacuum pump or a vacuum cleaner so as to vacuum suction the pollutants collected in the conductive filter module 10 according to implementation, but is not limited thereto. Accordingly, it may be provided with various devices capable of vacuum suction of contaminants.

The conductive filter module purification apparatus 100 according to an embodiment of the present invention is installed inside the housing 110, and a sterilizing unit 130 for sterilizing the conductive filter module 10 disposed inside the housing 110 ); may further include.

Here, the sterilization unit 130 may be provided as a UV lamp that irradiates ultraviolet rays (UV) to the conductive filter module 10, and may be provided as a fluorescent lamp type UV lamp or a UV LED lamp according to implementation. .

In addition, as shown in FIG. 3, the sterilization unit 130 may be provided in plural, and may be installed on the inner wall of the housing 110 at predetermined intervals along the outer circumference of the conductive filter module 10. .

The conductive filter module purification apparatus 100 according to an embodiment of the present invention is installed inside the housing 110 and electrically neutralizes the pollutants collected in the conductive filter module 10 (neutralizing) ( neutralizer, 140); may further include.

The neutralization unit 140 may play a role of neutralizing the electrical polarity of particulate contaminants collected in the conductive filter module 10 on the inner upper part of the housing 110.

That is, the neutralization unit 140 serves as an electrical neutralizer for neutralizing the electrical polarity of charged particles collected in the conductive filter module 10 by generating negative ions and positive ions at the same time.

To this end, the neutralization unit 140 may be a device or system capable of generating negative ions and positive ions at the same time, and is provided in plural and at a predetermined interval along the outer circumference of the conductive filter module 10 at the top of the housing 110. Can be installed on the inner wall.

Specifically, the neutralization unit 140 contains at least one of a soft X-ray, americium (Am-241), polonium (Po-210), and krypton (Kr-85), which are radioactive materials capable of generating anions and cations at the same time. Can include.

In addition, the neutralization unit 140 may be provided with a high voltage application device or a high voltage application system including carbon fibers or carbon brushes, which may generate only ions of the same polarity according to the polarity of the applied voltage.

Further, the neutralization unit 140 may be provided as a high voltage application device or a high voltage application system including at least one of a metal wire, a metal brush, a metal plate, and a metal pin capable of generating only ions of the same polarity according to the polarity of the applied voltage. .

That is, when the neutralization unit 140 includes at least one of the soft X-ray, americium (Am-241), polonium (Po-210), and krypton (Kr-85), an anion and a cation are simultaneously generated. Because it is possible, it is preferable to be installed at the top inlet side of the housing 110 that can generate ions so as to smoothly contact the pollutant particles collected in the conductive filter module 10.

On the other hand, when the neutralization unit 140 is provided as a high voltage application device including at least one of a metal wire, a metal brush, a metal plate, and a metal pin, a high voltage application device including carbon fiber or a carbon brush, the polarity of the applied high voltage Since the polarity of the ions generated is determined according to ), it is preferable to be composed of at least two or more so that anions and cations can be simultaneously generated in the housing 110.

The conductive filter module purification apparatus 100 according to an embodiment of the present invention may further include a control unit 150 for controlling the operation of the removal unit 120, the sterilization unit 130, and the neutralization unit 140.

Specifically, the control unit 150 may be installed on one side of the housing 110, and may apply a voltage to the neutralization unit 140 through external power or operate the sterilization unit 130 and the removal unit 120. .

Here, the control unit 150 controls the neutralization unit 140 to operate at all times, and the removal unit 120 to remove contaminants from the conductive filter module 10 or sterilize the conductive filter module 10. ) And the sterilization unit 130 may be operated simultaneously or sequentially.

That is, the control unit 150 may sequentially operate the sterilization unit 130 and the removal unit 120 while operating the neutralization unit 140 throughout the purification operation for the conductive conductive filter module 10 according to implementation. .

In addition, the control unit 150 may operate the removal unit 120 while operating the neutralization unit 140 throughout the purification operation of the conductive conductive filter module 10 and then operate the sterilization unit 130 according to implementation. .

In addition, the control unit 150 may operate the removal unit 120 and the sterilization unit 130 at the same time while operating the neutralization unit 140 throughout the cleaning operation of the conductive conductive filter module 10 according to implementation.

On the other hand, when the sterilization operation for the conductive filter module 10 is completed and the operation of the sterilization unit 130 is completed, the control unit 150 may remove contaminants from the conductive filter module 10. The neutralization unit 140 and the removal unit 120 may be sequentially operated.

Hereinafter, an operation mode of the conductive filter module purification apparatus 100 according to an embodiment of the present invention will be described in detail.

First, the conductive filter module 10 of FIG. 2 as a purification target is placed inside the housing 110 and the neutralization unit 140 is operated through the control unit 150 to generate sufficient negative ions and positive ions in the housing 110. . The generated negative ions and positive ions come into contact with particulate contaminants collected in the conductive filter module 10 by external air introduced through the through hole H formed on the upper surface of the housing 110. At this time, the electrical polarity of the particulate pollutant is neutralized, and the electrostatic force acting between the conductive filter module 10 and the particulate pollutant is removed. Due to this process, particulate contaminants collected in the conductive filter module 10 can be easily removed from the conductive filter module 10 even by a light external force (suction power).

At this time, when the inhaler 121 is operated through the control unit 150, the negative pressure is maintained inside the housing 100, and air is introduced from the outside of the housing 100 to the inside through the through hole H, and the introduced air is a conductive filter. While flowing into the module 10, the electrically neutralized particulate contaminants collected in the conductive filter module 10 are desorbed from the conductive filter module 10, and the desorbed particulate contaminants are vacuumed through the inhaler 121. By being sucked, it is discharged to the outside of the housing 100.

Thereafter, the sterilization unit 130 is operated to irradiate ultraviolet rays (UV) onto the conductive filter module 10 to perform a sterilization operation on the conductive filter module 10.

At this time, since the sterilization unit 130 is installed on all sides of the inner wall corresponding to the side of the housing 110 with a predetermined distance from the conductive filter module 10, ultraviolet rays (UV) can be evenly irradiated to the conductive filter module 10. Therefore, it is possible to increase the efficiency of the sterilization operation for the conductive filter module 10.

That is, the purification operation for the conductive filter module 10 is completed by performing the particulate contaminant removal and sterilization operation for the conductive filter module 10 through the above process.

In addition, the conductive filter module purification apparatus 100 according to another embodiment of the present invention operates the neutralization unit 140 throughout the purification operation of the conductive filter module 10 under the control of the control unit 150, and the sterilization unit 130 and the The purification operation for the conductive filter module 10 can be quickly completed by operating the removal unit 120 at the same time.

The purification process for the conductive filter module 10 is one of the embodiments, and the order of electrical neutralization and removal of particulate contaminants and sterilization of the conductive filter module 10 due to the characteristics of particulate contaminants collected in the conductive filter module 10 It can be changed accordingly.

As described above, the specific description of the present invention has been made by examples, but since the above-described embodiments have been only described with reference to preferred examples of the present invention, it is understood that the present invention is limited to the above embodiments. It should not be construed, and the scope of the present invention should be understood as the following claims and equivalent concepts.

100: conductive filter module purification device
110: housing
H: through hole
120: removal unit
121: inhaler
122: negative pressure
122a: negative pressure hole
123: suction pipe
130: sterilization unit
140: neutralization unit
10: conductive filter module

Claims (13)

A housing providing a space in which a conductive filter module to be purified can be disposed therein;
A neutralizer installed inside the housing and electrically neutralizing contaminants collected in the conductive filter module;
A removal unit installed below the conductive filter module disposed in the housing and removing contaminants collected in the conductive filter module; And
It is installed inside the housing and includes a sterilizing unit for sterilizing the conductive filter module disposed inside the housing,
The neutralization unit simultaneously generates anions and cations so as to neutralize the pollutants collected in the conductive filter module,
The sterilization unit includes a UV lamp that irradiates ultraviolet (UV) light to the conductive filter module, the sterilization unit is provided in plurality, and is installed on the inner wall of the housing at a predetermined interval along the outer circumference of the conductive filter module,
The removal unit,
An inhaler installed on one side of the housing and vacuum suction so that contaminants collected in the conductive filter module are removed;
A negative pressure device installed below the conductive filter module and having a negative pressure hole formed therein to provide a uniform negative pressure to the conductive filter module; And
And a suction pipe providing a suction path so that contaminants detached from the conductive filter module by the suction device are vacuum sucked.
delete delete The method of claim 1,
And a control unit for controlling the operation of the neutralization unit, the sterilization unit, and the removal unit.
delete The method of claim 1,
The neutralization unit comprises at least one of soft X-ray, americium (Am-241), polonium (Po-210), and krypton (Kr-85).
The method of claim 1,
The neutralization unit is a conductive filter module purification device, characterized in that provided with a high voltage application device including carbon fiber or carbon brush.
The method of claim 1,
The neutralization unit is a conductive filter module purification device, characterized in that provided with a high voltage application device including at least one of a metal wire, a metal brush, a metal plate and a metal pin.
delete delete The method of claim 4,
The control unit controls the neutralization unit to operate at all times, and simultaneously or sequentially operates the removal unit and the sterilization unit to remove contaminants from the conductive filter module or to sterilize the conductive filter module. Modular purification device.
delete The method of claim 1,
The negative pressure hole formed in the negative pressure device is a conductive filter module purifying apparatus, characterized in that the negative pressure hole is provided in a funnel-shaped upper optical lower narrow structure whose area becomes narrower toward a lower side compared to an upper side.

Images