KR100480467B1 - channel pipe adhesive absorber - Google Patents

Abstract

In a purification system in which a contaminated gas or liquid introduced into a flow path contacts a filter to treat a specific component of a harmful gas or liquid, the fluid introduced into the flow path comes into contact with and passes through the filter in a dead-end or cross-flow manner. Disclosed is an adsorption-type flow path tube for solving the problem of pressure drop occurring during the purification process by affecting the flow of the fluid flowing in the tube and contaminants accumulated on the surface of the filter to shorten the life of the filter.

Adsorber-attached flow path tube of the present invention, at least one connection portion is formed in communication with the flow path, the contaminated or harmful fluid flows in; At least one adsorber screwed or clamped to the connection part of the flow path tube, respectively, for contacting and purifying the gas introduced into the flow path with an adsorbent packed therein; It is formed in the inner center of the flow path tube, the tip portion is located on the inlet side of the flow path tube, has a conical shape so that the bottom portion is located in the vicinity of the connecting portion of the flow path tube on the outlet side, and by the plurality of supports at the inner center of the flow path tube And a fluid dispenser that is fixedly supported.

Description

Channel pipe adhesive absorber

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adsorber-attached flow path tube. In particular, in a purification system in which harmful gas or liquid introduced into a flow path tube contacts a filter to treat harmful fluids, the fluid flow in the flow path tube comes into contact with or permeates the filter. The present invention relates to an adsorber-attached flow path tube for solving the problem of pressure drop occurring during the purification process by affecting the flow of the fluid flowing therein and contaminants accumulated on the surface of the filter to shorten the life of the filter.

In general, the air purification portion of the environmental field has made considerable progress with the development of many types of filters and filter modules. In this air purification process, the contaminated gas is introduced into the flow path by contacting the filter and the filter module installed on one side and receiving the contaminated gas into the flow path, thereby performing the filtration, adsorption and removal of the polluted gas by the filter. Treat gas.

However, when the pollutant gas introduced into the toll pipe in the air purification system penetrates through the filter and the filter module to remove the noxious gas, it affects the flow of the fluid flowing in the flow path tube, causing a problem of pressure drop of the fluid. The contaminated gas is in contact with the surface of the filter, contaminants accumulate on the surface of the filter, shortening the life of the filter, and thus there is a problem of maintenance such as frequent replacement of the filter and the filter module.

The present invention has been invented to solve the above problems, to form a conical fluid disperser capable of dispersing the contaminated fluid introduced into the inner side of the flow path tube, at least one in communication with the flow path tube on the outer surface of the flow path tube With the structure of the above adsorber combined, the pressure drop problem caused by the fluid flowing in the flow path tube in contact with the filter and the filter module during the fluid purification process and contaminants accumulate on the surface of the filter can shorten the life of the filter. An object of the present invention is to provide an adsorber-attached flow channel for solving the problem.

In order to achieve the above object, the adsorber attachment type flow tube of the present invention is

At least one connection part formed in communication with the inside, and a flow path tube into which a contaminated or harmful fluid is introduced;

At least one adsorber screwed or clamped to the connection portion of the flow path tube, respectively, for contacting and purifying the fluid introduced into the flow path with an adsorbent filled therein; And,

It is formed in the inner center of the flow pipe, the tip is located on the inlet side of the flow pipe, and has a conical shape so that the bottom part is located near the connecting portion of the flow pipe on the outlet side, and is fixedly fixed to the inner center of the flow pipe by a plurality of supports. Characterized in that it is composed of a fluid disperser.

According to the present invention, a spongy body of a specific structure is installed at the connection portion of the flow path tube so that the adsorbent filled in the adsorber does not escape even in the flow of strong fluid flowing in the flow path pipe.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view showing an embodiment of the adsorber attached flow channel according to the present invention, Figure 2 is a cross-sectional view showing the structure of the adsorber attached flow channel according to the present invention, Figure 3 (a) and (b) are sectional views for showing the installation of the fluid disperser in FIG. 4 is a block diagram showing the structure of the adsorber in FIG.

First, as shown in FIG. 1, the adsorber-attached flow passage tube according to the present invention communicates with the flow passage tube 110 on the outside of the flow passage tube 110 so that at least one adsorber 120 is coupled by a screw or a clamp. . The adsorber 120 is formed in a cylindrical shape as shown in FIG. 4, and a connection part 122 is formed on the outside of the flow path tube 110 to be coupled with a screw or a clamp, and is introduced into the adsorber 120. Filled with adsorbents (not shown) due to contaminated or hazardous fluids. In the connection part 122, a spongy body 123 having a specific structure is installed so that the adsorbent filled in the adsorber 120 does not escape even in the flow of a strong fluid flowing in the flow path tube 110.

As shown in FIG. 2, at least one adsorber 120 having the above structure is coupled to the at least one adsorber 120 by a screw or a clamp. At least one connection part 122 is formed in communication with the flow path tube 110 so that the conical fluid distributor 130 is supported by the support part 112 inside the flow path tube 110.

As shown in FIGS. 3A and 3B, the fluid disperser 130 has a peak portion 132 located at the inlet side through which the fluid is introduced, and a bottom portion 134 near the connection portion 122 of the flow path 110 at the outlet side of the fluid. Is fixed to the central portion of the flow path tube 110 by the plurality of support parts 112 to the outside of the peak portion 132 and the bottom portion 134 so that is located. In particular, the fluid disperser 13 has a conical shape that extends radially from the peak portion 132 to the bottom portion 134, and the fluid introduced through the flow path tube 110 contacts the outer surface of the fluid disperser 130. It is located in the center part of the flow path pipe 110 so that it may flow.

Referring to the operation of the adsorber attached flow tube according to the present invention configured as described above are as follows.

When the fluid having the component to be contaminated or removed is introduced through the flow path tube 110 in the direction of the arrow of FIG. 1, the conical fluid distributor 130 fixed by the support part 112 inside the flow path tube 110 is fixed. The tip 132 is in contact with the outer surface and flows to the outside of the bottom 134 under the influence of the conical fluid distributor 130. The outside of the flow path tube 110 in which the bottom 134 of the fluid disperser 130 is located is in communication with the flow path tube 110 and the adsorber 120 filled with the adsorbent therein is combined to remove or remove the contamination. The fluid component of the object is adsorbed and removed by the adsorbent filled in the adsorber 120.

At this time, the spherical body 123 having a specific structure is installed in the connection portion 122 so that the adsorbent filled in the adsorber 120 is not separated even by the flow of the strong fluid flowing in the flow path tube 110. Only the contaminated fluid introduced into the adsorber 120 is adsorbed and removed. As a result, the fluid flowing in the flow path tube 110 does not directly contact and permeate the filter, but because the fluid flows in contact with the adsorbent filled in the adsorber 120, the pressure drop caused by the direct contact between the fluid and the filter. It can solve the problem of shortening the filter life by the problem and contact.

The adsorber 120 according to the present invention is filled with an adsorbent capable of treating it according to the type of fluid introduced thereto. For example, in order to process ammonia gas and chlorine gas, activated carbon of granular type or granule type activated carbon is used. Filled, silica gel is filled to remove moisture, and chitosan may be filled to remove fermentation gas.

Therefore, one or more adsorbers 120 may be used at the same time according to the kind of the contaminated fluid introduced into the flow pipe 110, and at least one adsorber 120 may be screwed or clamped outside the flow pipe 110. Since it is connected by, the replacement of the adsorber 120 is easy and can be easily used for replacement depending on the type of fluid introduced.

In addition, as shown in FIG. 1, in another embodiment of the present invention, a plurality of flow path tubes may be connected in parallel by a Y-shaped connecting tube 150 or the like. In the drawing, reference numeral 121 is an O-ring, and 151 is a connecting joint part.

As described above, the present invention has a structure in which a fluid having a contaminated or harmful component introduced into the flow passage flows into the flow passage and is in contact with an adsorber communicating with the flow passage at the outside of the flow passage, so that the fluid and the filter directly contact and permeate. There is an effect that can solve the problem of force drop of the generated fluid and shortening the life of the filter by contact of the contaminated fluid.

Although the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited thereto and may be improved or modified by those skilled in the art within the scope of the technical idea of the present invention.

1 is a front view showing an embodiment of the adsorber-attached flow channel according to the present invention.

Figure 2 is a cross-sectional view showing the structure of the adsorber attached flow path tube according to the present invention.

3 (a) and 3 (b) are cross-sectional views illustrating the installation of the gas disperser in FIG. 2.

FIG. 4 is a configuration diagram illustrating the structure of the adsorber in FIG. 2.

<Description of the code | symbol about the principal part of drawing>

Reference Signs List 110: flow path tube 112: support part 120: adsorber 121: O-ring 122: connection part 123: sponge body 130: fluid disperser 132: tip 134: bottom part 150: Y-shaped connector 151: connection joint part

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Claims (7)

At least one connection part 122 communicating with an inside is formed, and a flow path tube 110 into which a fluid having a component to be contaminated or removed is introduced; At least one or more adsorber 120 which is screwed or clamped to the connection part 122 of the flow path pipe 110, for contacting and purifying the fluid introduced into the flow path pipe 110 with an adsorbent filled therein; And, It is formed in the inner center of the flow pipe 110, the peak portion 132 is located toward the inlet side of the flow pipe 110, the bottom portion in the vicinity of the connection portion 122 of the flow pipe 110 is an outlet 134 has a conical shape so as to be located, the adsorber-attached flow path tube, characterized in that composed of a fluid distributor 130 is fixed to the central portion of the flow path pipe 110 by a plurality of support (112). According to claim 1, The connecting portion 122 is provided with a spongy body 123 of a specific structure so that the adsorbent filled in the inside of the adsorber 120 does not escape even in the flow of a strong fluid flowing in the flow path tube 110 Adsorber-attached flow path tube, characterized in that there is. The adsorber-attached flow path tube according to claim 1, wherein the adsorbent filled in the adsorber (120) is fibrous activated carbon or granule-type activated carbon for treating ammonia gas and chlorine gas. According to claim 1, wherein the adsorbent filled in the adsorber 120, the adsorber attachment flow path tube, characterized in that the silica gel for removing water. The adsorber-attached flow path tube according to claim 1, wherein the adsorbent filled in the adsorber (120) is chitosan for removing fermentation gas. The adsorber of claim 1, wherein the adsorber 120 includes an adsorber 120 filled with at least one adsorbent filled therein according to the kind of the pollutant gas introduced into the flow path tube 110. Attachable flow pipe. According to claim 1, wherein the adsorber attached flow path tube attached to the adsorber, characterized in that used in series or in parallel in accordance with the treatment efficiency of the contaminated gas introduced into the flow.