KR101946272B1 - Ion exchange scrubber capable of selecting and removing a trace amount of chemical gas - Google Patents

Abstract

In the present invention, a cylindrical or rolled chemical filter having an ion exchange capacity is coupled to the inside of the nets of the impeller constituting the centrifugal blower, and a simple and compact structure is formed, which is a gaseous pollutant contained in the air, And the regeneration liquid is accommodated in the lower part of the housing of the centrifugal blower so that a part of the chemical filter is locked so that the chemical filter coupled to the impeller is rotated together with the impeller and the chemical filter is periodically regenerated The present invention relates to an ion exchange scrubber apparatus for selectively removing a trace amount of chemical gas which can be used for a long period of time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an ion exchange scrubber capable of removing a trace amount of chemical gas,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ion exchange scrubber apparatus capable of purifying the atmosphere by selectively removing a small amount of polluted gas contained in air.

A chemical filter or chemical filter module is installed in a place where harmful gas is directly generated in order to remove harmful gas generated from industrial sites or public places that generally cause air pollution.

These harmful gases are classified into particulate dust and gaseous materials, and chemical filters using impregnated activated carbon or non-woven fabric made of ion-exchange resin are used for removing gaseous contaminants.

However, these chemical filters can not be used continuously, and after a certain period of time, they have to be replaced due to their lifetime. Therefore, an electronic automatic control system that periodically injects regenerant liquid into a chemical filter to solve such a short life span has recently been developed and used.

However, an electronic automatic control system that periodically injects regenerant liquid into such a chemical filter requires a complicated injection device and chamber for periodically injecting the regenerant liquid into the chemical filters, and the air containing the chemical gas Since the chemical gas is passed through the space between the chemical filters and is removed by ion exchange, some of the chemical gas can be passed through the chemical filters to be discharged as it is. Therefore, the chemical gas removing performance is deteriorated. Since the chemical filter modules are installed in series so as to be long, the size of the device can be increased and the structure can be complicated.

KR 10-1435006 B1 (2014.08.21.)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a simple and compact structure that can selectively remove a small amount of chemical gas, which is a gaseous contaminant contained in air, And a chemical filter having an ion exchange capacity for removing a polluted gas can be brought into contact with the regeneration liquid periodically, thereby prolonging the service life of the chemical filter.

According to an aspect of the present invention, there is provided an ion exchange scrubber apparatus for removing a trace amount of chemical gas, comprising: an impeller rotatably installed in an inner space of an inlet through which air is introduced and an outlet through which air is discharged; Centrifugal blower; And a porous chemical filter having an ion exchange capacity capable of selectively removing a trace amount of chemical gas contained in the air, the porous chemical filter being disposed on the inner side surrounded by the nests spaced apart from each other along the circumferential direction of the impeller, So that the air sucked through the inlet of the housing by the rotation of the impeller can be passed through the chemical filter and then discharged to the outlet of the housing through the nets of the impeller.

In addition, a regeneration liquid capable of regenerating the chemical filter is accommodated in a lower portion of the inner space of the housing, and the regeneration liquid may be filled with a water level at which a part of the chemical filter can be locked.

Further, the chemical filter may be formed in a cylindrical or rolled shape of a flexible elastic material, and may be fixedly attached to the radially inner end of the feathers.

Further, it may further comprise fixing means for fixing the chemical filter to the impeller.

The fixing means may be a plate spring provided inside the chemical filter and pushing the chemical filter radially outward to fix the chemical filter in close contact with the nether.

The impeller includes a first plate coupled to a rotatable shaft and a second plate spaced apart from the first plate, wherein both ends of the first and second plates are coupled to the first plate, And can be positioned inside.

In addition, an inlet filter may be installed at the inlet side of the housing.

An outlet filter may be installed on the outlet side of the housing.

The ion exchange scrubber apparatus for removing trace amount of chemical gas according to the present invention is capable of purifying the atmosphere by selectively removing a trace amount of chemical gas, which is a gaseous contaminant contained in air, and is formed into a simple and compact structure, There is an advantage of easy maintenance.

Further, the chemical filter having an ion exchange capacity for removing the polluted gas can be periodically brought into contact with the regeneration liquid, thereby extending the service life of the chemical filter.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 are perspective views showing an outer shape and an internal structure of an ion exchange scrubber apparatus for selective removal of trace chemical gases according to an embodiment of the present invention; FIG.
3 and 4 are a front sectional view and a side sectional view, respectively, of an ion exchange scrubber apparatus for selective removal of trace chemical gases according to an embodiment of the present invention.
5 is a front sectional view showing a state in which a regeneration liquid is filled in a lower portion of a housing of a centrifugal blower according to the present invention and a part of the chemical filter is immersed in a regeneration liquid.
6 is a perspective view of one embodiment of a chemical filter according to the present invention.

Hereinafter, an ion exchange scrubber apparatus for removing a trace amount of chemical gas according to the present invention will be described in detail with reference to the accompanying drawings.

[Example]

FIGS. 1 and 2 are perspective views showing an outer shape and an internal structure of an ion exchange scrubber apparatus for removing a trace amount of chemical gas according to an embodiment of the present invention. FIGS. 3 and 4 are cross- Sectional view and side sectional view showing an ion exchange scrubber apparatus for gas selection removal.

As shown in the figure, an ion exchange scrubber apparatus 1000 for removing a trace amount of chemical gas according to an embodiment of the present invention includes a housing 110 having an inlet 111 through which air flows and an outlet 112 through which air is discharged. A centrifugal blower 100 provided with an impeller 120 rotatable in an inner space of the centrifugal blower 100; And a plurality of vanes 123 disposed on the impeller 120 in a circumferential direction of the impeller 120. The impeller 120 is disposed at an inner side surrounded by vagons 123 spaced apart from each other along the circumferential direction of the impeller 120, A porous chemical filter 200 having an ion exchange capacity; The air sucked through the inlet 111 of the housing 110 by the rotation of the impeller 120 passes between the vanes 123 of the impeller 120 after passing through the chemical filter 200, And then to the outlet 112 of the housing 110.

First, the centrifugal blower 100 may be a blower that increases the pressure of the air by the action of the centrifugal force due to the rotation of the impeller 120 (blade wheel) and presses the air. The centrifugal blower 100 may include a housing 110 and an impeller 120 coupled to the rotating shaft 151 to be rotatable within the housing 110. At this time, for example, a space is formed in the housing 110 so that an inlet 111 through which external air flows may be formed at one side in the width direction of the rotating shaft 151, The inlet duct 130 may extend from the inlet duct 130 to the outside. The impeller 120 is installed in the housing (not shown) so that the air introduced in the width direction through the inlet 111 can be introduced into a central portion, which is an empty space, through a portion of one side (left side) of the width direction of the impeller 120 And the impeller 120 may be disposed inside the housing 110 so that the rotating shaft 151 is exposed to the outside of the housing 110 by coupling the rotating shaft 151 to the other side (right side) of the impeller 120. In addition, the impeller 120 may be arranged such that the vanes 123 are spaced from each other in the circumferential direction, and the radially outer side of the impeller 120 is oriented in the longitudinal direction and the height direction. In addition, the housing 110 may be formed with an outlet 112 through which air is discharged, and the outlet 112 may be formed on the upper side of the housing 110 in the height direction as shown and may be connected to the outlet 112 And an outlet duct 140 may be formed extending from the upper side of the housing 110 to the outside. The rotating shaft 151 may be directly coupled to the driving motor 150 or may be connected to the driving motor 150 by a belt or the like so as to be rotatable. The inner surface of the outer side housing 110 of the impeller 120 And the outer surface of the impeller 120 may be disposed so as to be close to the inner surface of the housing 110.

The chemical filter 200 may be an ion exchange resin having an ion exchange capability capable of selectively removing a small amount of chemical gas contained in the air, and the chemical filter 200 may be disposed along the circumferential direction of the impeller 120 And may be provided on the inner side surrounded by the vanes 123 arranged apart from each other. At this time, the chemical filter 200 may be coupled to the impeller 120 so that the impeller 120 and the chemical filter 200 are rotated together.

The air containing a small amount of chemical gas sucked through the inlet 111 of the housing 110 by the rotation of the impeller 120 passes through the chemical filter 200 and then flows into the gap between the vanes 123 of the impeller 120 To the outlet (112) of the housing (110).

Accordingly, when the impeller 120 of the centrifugal blower 100 is rotated, air containing a small amount of chemical gas as a contaminant flows through the inlet 111 of the housing 110, thereby forming a chemical filter 200 And then discharged through the outlet 123 of the impeller 120 through the outlet 112 of the housing 110 and the impeller 120 of the centrifugal blower 100 Can be formed in a simple and compact structure in which the chemical filter 200 is disposed in the inner space surrounded by the vanes 123 constituting the impeller 120 and is coupled to the impeller 120, And the entire size of the ion exchange scrubber apparatus for removing a trace amount of chemical gas including the chemical filter of the present invention including the chemical filter can be compactly formed.

A regeneration liquid 400 capable of regenerating the chemical filter 200 is accommodated in a lower portion of the inner space of the housing 110. The regeneration liquid 400 is a part of the chemical filter 200, It can be filled with water levels.

That is, as the chemical filter 200 is used, the ion exchange capability of the chemical filter 200 is lowered due to the ion exchange reaction with the chemical gas as a contaminant. Therefore, the chemical filter 200 is contacted with the regeneration liquid 400, 200 can be regenerated to restore the ion exchange capacity. 5, the regeneration liquid 400 may be deposited in the lower part of the inner space of the housing 110 for regeneration of the chemical filter 200, and the regeneration liquid 400 may be part of the chemical filter 200 May be filled with a level that can be locked. The chemical filter 200 coupled to the impeller 120 is rotated together with the impeller 120 while the regenerant 400 is filled at a predetermined level in the lower part of the housing 110, Can be regenerated in contact with the regeneration liquid as a whole. The regeneration liquid inlet 113 for injecting the regeneration liquid may be formed on the upper side of the housing 110. The regeneration liquid inlet 113 may be formed on the lower side of the housing 110 to discharge the regeneration liquid filled in the housing 110 A regeneration liquid outlet 114 may be formed. Valves may be formed in the regeneration liquid inlet 113 and the regeneration liquid outlet 114, respectively. The regeneration liquid 400 may be always filled in the housing 110 so that the impeller 120 is rotated to purify the air by the chemical filter 200 and the chemical filter 200 regenerates the regeneration liquid 400 So that regeneration of the chemical filter 200 can be performed. The regeneration liquid 400 may be used in a state where the regeneration liquid 400 is not present in the housing 110 while the air is being purified and the regeneration liquid 400 may be partially filled in the housing 110 while the air is not purified, The regeneration liquid filled in the housing 110 may be discharged to the outside when the regeneration of the chemical filter 200 is completed. At this time, the regenerant solution, which is buried or seeped into the chemical filter 200 while discharging the regenerant solution 400 filled in the housing 110, is rotated by the centrifugal force while the chemical filter 200 is rotated together with the impeller 120, .

In addition, since the regenerant solution 400 may be contaminated when the regeneration of the chemical filter 200 is repeated and its ability to regenerate the chemical filter may be drastically reduced, the regenerant solution may be periodically replaced. And a regeneration liquid detection sensor for detecting the contamination of the regeneration liquid 400 and informing the replacement period. The regeneration liquid detection sensor may be installed at various positions of the housing 110. For example, the regeneration liquid sensor may be a pH sensor, and the pH of the regeneration liquid may change below or above a certain level depending on whether the chemical gas, which is a pollutant contained in air, is acidic or basic, By detecting the pH of the regeneration liquid, it is possible to know the replacement period of the regeneration liquid simply. Further, the regeneration liquid detection sensor may be installed at a position where it can be contacted with the regeneration liquid 400. The regenerant 400 may be an acidic regenerant or a basic regenerant.

In addition, the chemical filter 200 may be formed in a cylindrical shape or a roll shape of a flexible elastic material, and may be fixedly attached to the radially inner end portions of the vanes 123.

6, the chemical filter 200 is formed in a cylindrical shape so that all the air including the chemical gas introduced through the inlet 111 of the housing 110 can pass through the chemical filter 200 and the chemical gas can be removed. A roll shape, or the like. At this time, the chemical filter 200 is formed of a foam filter in the form of a sponge, which is a flexible elastic material. The chemical filter 200 is formed in a flat plate shape and rolled in a cylindrical shape or a roll shape to cover the chemical filter 200 in a space surrounded by the collar 123 When inserted, the chemical filter 200 can be tightly fixed to the radially inner end of the vanes 123 while being curled slightly outwardly by elasticity due to elasticity. In addition, the chemical filter 200 may be formed in a cylindrical shape as shown in the drawing, and both end portions in the circumferential direction may be in contact with or close to each other to be slightly spaced apart. It may also be in the form of two or more coats.

Thus, it is very easy to install or replace the chemical filter 200 on the impeller 120, and the chemical filter 200 can be fixed to the impeller 120 without being separated from the impeller 120, so that the construction can be greatly simplified.

Further, it may further comprise fixing means 300 for fixing the chemical filter 200 to the impeller 120.

That is, as described above, the chemical filter 200 can be fixedly coupled to the impeller 120 without the need for a separate member. However, since the impeller 120 is rotated, the chemical filter 200 is firmly fixed to the impeller 120 A separate fastening means 300 can be used. At this time, the fixing means 300 may be in various forms, and the fixing means 300 may be fixed to the impeller 120, or they may be separated from each other.

The fixing means 300 is provided inside the chemical filter 200 and pushes the chemical filter 200 radially outward to fix the chemical filter 200 to the vats 123 Spring.

That is, as shown in the drawing, the fixing means 300 according to the present invention may be formed as a snap spring for an inner diameter, for example, and a leaf spring in the form of a thin strip having a width larger than the thickness. The width of the leaf spring is relatively narrow as compared with the width of the chemical filter 200, so that the air passing through the chemical filter 200 is not blocked as much as possible. In addition, the plate spring as the fixing means 300 can be pressed against the inner surface of the chemical filter 200 by the elasticity to be expanded, thereby pushing the chemical filter 200 outward in the radial direction, 200 can be closely fixed to the radially inner ends of the vanes 123. Further, the leaf springs may be provided with one or more than two leaf springs, and two or more leaf springs may be arranged to be spaced apart from each other in the width direction. In addition, the leaf spring is formed in a rolled shape in the form of a spiral spring or a roll, and the chemical filter 200 is tightly attached to and fixed to the vanes 123 by a force tending to expand outward in the circumferential direction while being stretched by elasticity It is possible.

The impeller 120 has a first plate 121 coupled to a rotatable shaft 151 and a second plate 122 spaced apart from the first plate 121 so that both ends of the vanes 123 are coupled And the chemical filter 200 may be positioned inwardly surrounded by the first plate 121, the second plate 122, and the collar 123.

That is, the impeller 120 includes a first plate 121 having a rotation shaft 151 coupled to the center of the disk, a hole formed at a central portion of the impeller 120 so as to be spaced apart from the first plate 121 in the width direction, A second plate 122 in the form of a donut and a plurality of vanes 123 joined at both ends to the first plate 121 and the second plate 122 and spaced apart from each other along the circumferential direction have. In this case, the first plate 121 and the second plate 122 may be concentrically formed with the same outer diameter, and the vagons 123 may have radially outer ends connected to the first plate 121 and the second plate 122, And the radially inner end of the second plate 122 may be positioned radially outward of the inner periphery of the second plate 122. Here, the chemical filter 200 may be inserted into and surrounded by the first plate 121, the second plate 122, and the collar 123, and the chemical filter 200 may be inserted into the first plate 121 121, the second plate 122, and the collar 123, as shown in FIG. Before the chemical filter 200 is coupled to the impeller 120, the width of the chemical filter 200 is formed to be equal to or greater than the width between the first plate 121 and the second plate 122, A gap may not be formed between the first plate 121 or the second plate 122 in contact with the chemical filter 200 after the impeller 200 is coupled to the impeller 120.

An inlet filter 131 may be installed at the inlet of the housing 110.

That is, the air introduced through the inlet 111 of the housing 110 may contain particulate matter or various foreign substances, so that foreign matter or the like is filtered through the inlet filter 131 such as a prefilter installed at the inlet side So that the performance of the chemical filter 200 can be prevented from deteriorating. The inlet filter 131 may be installed in the inlet duct 130 and may be arranged in various positions and shapes in front of the inlet 111 including the inlet 111 of the housing 110 in the direction of air flow. .

An outlet filter 141 may be installed at the outlet of the housing 110.

That is, the regenerant liquid 400 filled in the housing 110 may be splashed by the rotation of the impeller 120 to the air discharged through the outlet 112 of the housing 110, It is possible to remove regenerated liquid mist or the like which may be contained in the air discharged through the installed outlet filter 141. The outlet filter 141 may be disposed in the outlet duct 130 and may be disposed in various positions and shapes behind the outlet 112 including the outlet 112 of the housing 110 in the direction of air flow. .

The outlet 112 of the housing 110 is formed at the upper side of the housing 110 in the height direction so that the outlet duct 140 extends upward from the outlet 112 to be connected to the outlet 112, An outlet filter 141 is installed in the outlet duct 140 at a spaced position so that the regenerant solution that can be splashed when the impeller 120 is rotated can not be applied to the outlet filter 141.

In addition, the chemical filter 200 may be formed in the form of foamed resin. For example, the chemical filter 200 may be formed as a laminate of a foam formed by physically foaming ion-exchange resin pellets or beads or another ion exchange resin such as a non- . The chemical filter 200 formed of such an ion exchange resin foam may be relatively light in weight and may have little influence on the rotation of the impeller 120 and may be formed during a relatively short contact time due to rapid absorption by a large number of pores formed in the foam Sufficient ion exchange reaction can be carried out to efficiently purify the air and regenerate the chemical filter.

The vanes 123 of the impeller 120 constituting the centrifugal blower 100 may be formed in various shapes and the vanes 123 may be concavely or convexly bent toward the rotational direction of the impeller 120 And the collar 123 may be plate or airfoil. In addition, the radial range in which the vagaries 123 are formed can be variously formed.

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 invention as defined by the appended claims. It goes without saying that various modifications can be made.

1000: Ion exchange scrubber device for selective removal of trace chemical gas
100: Centrifugal blower
110: Housing
111: entrance 112: exit
113: regeneration liquid inlet 114: regeneration liquid outlet
120: Impeller
121: first plate 122: second plate
123: Feathers
130: inlet duct 131: inlet filter
140: outlet duct 141: outlet filter
150: drive motor 151:
200: Chemical filter
300: fixing means
400: Refill

Claims (8)

And a regenerant inlet port formed in the housing to inject the regenerant liquid into an area where the impeller is provided, wherein the regenerant inlet port and the regenerant inlet port are formed in the housing, And a regeneration liquid outlet formed in the housing through which the regeneration liquid is discharged; And
A porous, flexible elastic material having an ion exchange capacity capable of selectively removing a trace amount of chemical gas contained in the air, the porous material being provided on the inner side surrounded by the nests spaced apart from each other along the circumferential direction of the impeller, Chemical filters in the form of cylinders or rolls; And
And fixing means for fixing the chemical filter in close contact with the radially inward end of the nest,
The air sucked through the inlet of the housing by the rotation of the impeller passes through the chemical filter and then is discharged to the outlet of the housing through the nets of the impeller,
Wherein the regenerating liquid is a liquid which is capable of being partially immersed in the inside of the housing so that the impeller is rotated to purify the air by the chemical filter, Wherein the ion exchange material is filled with an ion exchange material.
delete delete delete The method according to claim 1,
Wherein the fixing means is a plate spring provided inside the chemical filter and pushing the chemical filter radially outward so that the chemical filter is fixedly attached to the nether's to fix the ion exchange scrubber apparatus.
The method according to claim 1,
The impeller includes a first plate coupled to a rotatable shaft and a second plate spaced apart from the first plate,
Wherein the chemical filter is enclosed by the first plate, the second plate, and the nests. ≪ RTI ID = 0.0 > 11. < / RTI >
The method according to claim 1,
And an inlet filter is installed at an inlet side of the housing.
The method according to claim 1,
And an outlet filter is installed at an outlet side of the housing.

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