KR101886394B1 - Filter with Ceramic ball - Google Patents

Abstract

The present invention relates to a filling type ceramic ball filter. According to the present invention, after a functional ceramic ball (or stone, soil, and a synthetic resin material) of a porous shape is filled between porous plates of a sandwich structure, an integrated filter comprises a frame. The filling type ceramic ball filter can easily filter dust and oil pollutants such as oil, asphalt, and tar and can even accurately filter ultrafine dust due to the filling structure (causing an obstacle so that the flow of air current is not straight, other than filtering of a blow hole of the ceramic ball) of the ceramic ball randomly arranged between the multiple porous plates. The filling type ceramic ball filter can largely improve the air quality environment near residential and industrial facilities including subways or large public facilities (supermarket or station) by having complex filtering performance. The filling type ceramic ball filter is semi-permanent and can be washed and reused, which extends the life of the filter and improves usage durability and economic feasibility.

Description

[0001] The present invention relates to a ceramic ball filter,

The present invention is characterized in that a functional ceramic ball (or a stone, a soil, a synthetic resin material, or the like) in a porous form is filled between sandwich-structured perforated plates so that the frame frame forms an integral filter, Various kinds of dust, dust, grease, asphalt residue, tar, dust, etc., oil pollutants due to charging structure of randomly arranged ceramic balls (not only pore filtration of ceramic balls but also obstruction preventing flow of air flow) The filtration can be carried out smoothly to the ultrafine dust, so that the complex filtration performance can greatly improve the air quality environment for the residential and industrial facilities including subways and large public facilities (such as shopping mall or history). And the ceramic ball can be reused, so that the life of the filter is semi-permanently Secured bar, which relates to a filled-type filter, characterized in that ceramic balls are used durability and economic efficiency are greatly improved.

In general, an air filter is an environmental device that removes dust, germs and odors in the air to keep indoor air in a pleasant state.

Such an air filter removes dust, germs and odors from the air when supplying outside air to the room, so that a filter for air conditioning is essentially used.

Such a filter has a pre-filter for primarily filtering large pollution or dust from circulating air and external inflow air, and a medium filter for secondarily filtering various bacteria, odors and ultrafine particles from air passing through the pre- And is generally used.

At this time, when the conventional air filter is used for a certain period of time, foreign matter or contaminants are collected on the surface of the filter, and the amount of collected water is increased, thereby increasing the pressure loss and ultimately lowering the air purification efficiency.

Therefore, in order to continuously and smoothly purify the air filter, it is necessary to replace or clean the filter filter immediately when the collection efficiency of the air filter, that is, the collection amount is exceeded.

On the other hand, in the conventional air filter, there is an exchange type in which the disposing filter is separated and dispose of the disposable filter when the trapping amount exceeds the trapping amount, and the filter is wound on the endless track drum, There is also a continuous rotating type which can perform sedimentation type automatic cleaning while rotating, and in particular, there is an air filter type equipped with a water spray cleaning device in consideration of cost and maintenance.

However, the above-mentioned various types of air filters are disadvantageous in that the filter used is a general filter medium such as an electrostatic filtration filter or an uninterruptible filtration filter, The performance can not be exerted properly, and the air quality of the indoor environment is exposed to the contamination.

That is, in the conventional filter filters, a plurality of wire materials formed of a metal material are woven in a longitudinal direction and a transverse direction to form a mesh network, or a non-woven network is used to secure a collection amount, and a material such as a sponge is stacked This mesh network can not filter the fine contaminants such as dust. Particularly, as the use time of the nonwoven fabric network for filtering dust increases, the filtration efficiency is lowered. In addition, since it is impossible to wash and reuse, There is a disadvantage to be processed.

1. Korean Registered Patent No. 10-0603548 (Registered on July 13, 2006)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is a technical object of the present invention to provide a frame structure in which a functional ceramic ball (or a stone, a soil, a synthetic resin material, etc.) in a porous form is filled between sandwich- This is because of the filling structure of the ceramic balls randomly arranged among the plurality of perforated plates (in addition to the pore filtration of the ceramic balls, causing the flow of the air flow to be prevented from being straightened), various dusts, It is able to easily filter various oil pollutants such as asphalt residue, tar, dust and so on, as well as to precisely filter fine particulate matter in particular, so that the complex filtration capability can be used for a subway or a large public facility To provide a significant improvement in the air quality environment for all residential and industrial facilities, including Never.

In order to achieve the above object, the present invention is characterized in that a framing frame (100) is provided to form a rectangular frame, and a perforated plate (200) is formed to be engaged with the front and rear faces of the framing frame, And a plurality of ceramic balls 300 are filled between the ceramic balls 200 so that ultrafiltration of contaminants in the air to be transferred is possible.

Accordingly, the frame frame 100 is formed to prevent the perforated plate 200 from being detached outward by forming the folding step 110 on the opened front and rear surfaces.

In addition, the perforated plate 200 may have a plurality of pores 210 formed on the surface thereof as either iron or stainless steel, and the pores 210 preferably have a diameter of 1 to 10 mm.

At this time, the ceramic ball 300 is formed of any one of ceramics, stones, and synthetic resins capable of filtering ultrafine dust, and has a diameter of 5 to 30 mm.

The frame frame 100 is formed with a draw-out opening 130 in which the opening and closing door 120 is installed to supply and discharge the ceramic ball 300 to one side of the tip of the rectangular frame.

As described above, according to the present invention, after the functional ceramic balls (or the stone, the soil, the synthetic resin material, etc.) of porous form are filled between the porous plates of the sandwich structure, the frame frame forms the integral filter, Because of the charging structure of randomly arranged ceramic balls between the plates (in addition to the pore filtration of ceramic balls, causing the flow of the air flow to be prevented from being straightened), various kinds of dusts, dust, grease, asphalt residue, tar, The present invention has an effect that it is possible to filter the pollutants easily and precisely, particularly to the ultrafine dust.

In the present invention, the composite filtration performance is formed such that the air quality environment is greatly improved in all residential and industrial facilities including a subway or a large public facility (mart or history), and the ceramic ball can be reused, Which is advantageous in that the durability and economic efficiency are greatly improved.

1 is an exploded perspective view of a filling-type ceramic ball filter according to the present invention;
FIG. 2 is a cross-sectional view of another embodiment of the filling-type ceramic ball filter according to the present invention,
FIG. 3 is a cross-sectional view of another embodiment of the filling-type ceramic ball filter according to the present invention,
FIG. 4 is a side cross-sectional view of still another embodiment of the filling-type ceramic ball filter according to the present invention,
5 is an exemplary view of a ceramic ball according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

As shown in FIGS. 1 to 4, the present invention relates to a fill-up type ceramic ball filter, in which a frame frame 100 is provided to form a square rim, and on the front and rear surfaces of the frame frame, And a plurality of ceramic balls 300 are filled between the plurality of perforated plates 200 so that ultrafine filtering of contaminants in the transferred air can be performed.

At this time, it is preferable that the framework frame is formed by bending a channel-type steel plate having a side cross-sectional shape, and the thickness of the steel plate is about 0.5 to 2 mm.

That is, the framing frame 100 is formed to prevent the perforated plate 200 from being detached outwardly by forming the folding jaws 110 on the opened front and rear surfaces.

Such a frame frame is formed by a porous plate in a flat hollow shape (box), and is formed as a kind of frame that holds a ceramic ball filled therein. Such a frame frame is mounted on a holding frame of an air filter, do.

In addition, the perforated plate 200 may have a plurality of pores 210 formed on the surface thereof as either iron or stainless steel, and the pores 210 preferably have a diameter of 1 to 10 mm.

At this time, the perforated plate is formed such that a reinforcing plate is formed on the outer circumferential surface of the four sides corresponding to the frame frame to prevent the ceramic ball from falling down or tilting before filling, and the reinforcing plate is formed as a kind of elbow- So that the outermost four sides are not pushed out or pierced.

Thus, the ceramic ball 300 is formed of any one of ceramic, stone, earth, and synthetic resin capable of filtering ultrafine dust, and has a diameter of 5 to 30 mm.

That is, the ceramic ball is formed so that nano pores are formed and ultrafine dust can be completely filtered.

As shown in FIG. 5, the ceramic ball may be a spherical shape of a solid shape filled with bubbles or a through hole formed in the spherical shape, as shown in FIG. 5.

In addition, the ceramic balls may be formed with dimples (hemispherical grooves or cutting surfaces) such as golf balls so that the filtration surface to which the air touches is further expanded so as to increase the filtration area of the introduced air.

The ceramic ball may be formed in a flat plate shape or a hexagonal plate shape corresponding to a honeycomb net, and may be formed of a solid type or a donut shape in which a through hole is formed at the center of the plane.

In addition, the ceramic ball may be formed in a three-dimensional shape, a polygonal shape, a pellet shape of a long or short cylindrical shape, or a porous shape in which a hollow is formed.

The frame frame 100 is formed with a draw-out opening 130 in which the opening and closing door 120 is installed to supply and discharge the ceramic ball 300 to one side of the tip of the rectangular frame.

That is, the drawing ball can be filled with a ceramic ball by pouring it, and it is possible to easily supply and collect when exchanging, such as design change or specification change of the ball according to a specific reason.

3, a honeycomb-shaped frame or a mesh-shaped panel 140 is disposed in the middle part of the ceramic balls 300 filled between the perforated plates 200, as shown in FIG. 3 Or at least two or more spaced intervals so as to reduce the amount of filling of numerous ceramic balls and to reduce the weight of the filter itself or to assist the flow of air smoothly. So that the smooth flow of the airflow can be ensured due to the pressure reducing effect.

4, a plurality of PP (polypropylene) nets are provided between the ceramic balls 300 filled in between the mesh screens 400, as shown in Fig. 4 3). It is also possible to arrange them in the order of mesh screen + PP network + ceramic ball + mesh screen inserted in accordance with the set interval.

This also reduces the filling amount of the ceramic balls and reduces the weight of the filter itself or assists the flow of air smoothly. Particularly, the interval of the ceramic balls is formed to be spaced by a predetermined interval, So that a smooth flow of the airflow can be ensured.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

100 ... frame frame 110 ... tilt jaw
120 ... opening / closing door 130 ... drawer
200 ... perforated plate 210 ... perforated
300 ... Ceramic Ball 400 ... Mesh Screen
500 ... PP network

Claims (5)

A plurality of ceramic balls (200) are formed between the perforated plates (200), and a plurality of ceramic balls (200) are formed between the perforated plates (200) (300) is filled to enable ultra fine filtration of contaminants in the air to be transported.
The frame frame 100 is formed on the opened front and rear surfaces to prevent the assembled perforated plate 200 from being detached from the outside by forming a folding step 110. The perforated plate 200 is made of iron or stainless steel A plurality of pores 210 are formed on the surface of the ceramic balls 300. The pores 210 are formed to have a diameter of 1 to 10 mm and the ceramic balls 300 are formed in a porous form and include ceramics capable of filtering ultrafine dust, The door frame 120 is formed of any one of stone, earth, and synthetic resin. The frame 100 has a diameter of 5 to 30 mm. The frame 100 has an opening / closing door 120 so as to supply and discharge the ceramic balls 300, And the reinforcing plate is formed as an elbow-shaped bent portion, and a load of the filled ceramic ball is formed in the perforated plate 200. The reinforcing plate is formed on the outer surface of four sides corresponding to the frame frame, The outermost 4 sides are pushed by The ceramic ball 300 is formed such that a dimple (hemispherical groove or a cutting surface) is formed on the outer circumferential surface so as to increase the filtration area of the air to be introduced, In the inside of the perforated plate 200, a honeycomb-shaped frame or a mesh-shaped panel 140 is inserted into the middle part of the filled ceramic balls 300 at intervals of one or two, The weight of the filter itself can be reduced or the air flow can be smoothly passed. The gap between the ceramic balls is spaced by a predetermined interval to ensure a smooth flow of the airflow due to the pressure reduction effect Filled ceramic ball filter. delete delete delete delete

Images