KR102450110B1 - Uniflow cyclone with a filter - Google Patents

Abstract

The present invention relates to a unidirectional cyclone structure equipped with a mesh filter. The present invention is applied to vacuum cleaners, air conditioning facilities, air cleaning facilities, power plant post-processing facilities, etc., in the process of collecting fine dust components, and the collection efficiency for particles with a size of 2 ㎛ or less is improved while the pressure loss is maintained at an appropriate level. The unidirectional cyclone structure with a mesh filter according to the present invention, which includes a cylinder body, a dust box, a fluid inlet connected to one side of the cylinder body, and a fluid outlet connected to the other side of the cylinder body, comprises: a spindle formed at the inner center in the axial direction of the fluid inlet, wherein a certain section of the front part is formed in the form of a cone whose outer diameter gradually increases along the flow direction of the fluid, and a certain section of the rear part is formed with the same outer diameter; a plurality of swirl vanes formed at regular angular intervals in a predetermined section of the rear part of the spindle; a vortex finder formed in a cylindrical shape with a structure in which the fluid inlet is connected to the inside of the cylinder body for a certain period of time; and a mesh filter formed of a material woven with metal yarn into a cylindrical shape having a diameter smaller than that of the cylinder body and having a diameter larger than that of the vortex finder, and installed axially at the inner side of the cylinder body to divide the inside of the cylinder body.

Description

Uniflow cyclone with a filter

The present invention relates to a unidirectional cyclone equipped with a filter, and more particularly, it is applied to vacuum cleaners, air conditioners, air cleaning facilities, post-treatment facilities for power generation facilities, etc. It relates to a unidirectional cyclone equipped with a filter so that the collection efficiency of the cyclone can be improved while the pressure loss can be maintained at an appropriate level.

A cyclone is applied to vacuum cleaners, air conditioners, air cleaning facilities, post-processing facilities for power generation facilities, etc. to effectively collect fine dust components. Such cyclones are being developed in various structures depending on the applied device or facility, the type of pollutant, and the like.

According to the inlet structure of the cyclone, it can be divided into a tangential cyclone or an axial cyclone. The case where the angle between the body and the inlet is 90 degrees is classified as a tangential cyclone, and the case where the angle between the body and the inlet is 0 degrees or 180 degrees is classified as an axial cyclone.

On the other hand, cyclones are also classified into unidirectional cyclones or countercurrent cyclones according to the flow direction of the gas. A case in which the air inflow and outflow directions are the same is called a unidirectional cyclone, and a case in which the gas inflow and outflow directions are not the same is called a countercurrent cyclone.

As described above, various cyclone structures are applied to vacuum cleaners, air conditioning facilities, air cleaning facilities, post-treatment facilities for power generation facilities, and the like, but it is difficult to simultaneously satisfy pressure loss aspects and particle collection efficiency aspects. For example, if the particle collection efficiency is improved by changing the internal structure, such as increasing the flow rate, reducing the inlet height, or reducing or increasing the diameter of the vortex finder, the pressure loss also increases.

In addition, when a unidirectional cyclone is applied, problems such as a decrease in the collection efficiency for particles having a size of 2 μm or less are pointed out.

Korean Patent Office Publication No. 10-2006-0013855 (published on Feb. 14, 2006) Korean Patent Office Laid-Open Patent Publication No. 10-2006-0013856 (published on Feb. 14, 2006) Korean Patent Office Publication No. 10-2006-0040777 (published on May 10, 2006) Korean Patent Office Laid-Open Patent Publication No. 10-2006-0040778 (published on May 10, 2006)

This invention was devised to solve the problems of the prior art as described above, and is applied to vacuum cleaners, air conditioners, air cleaning facilities, post-treatment facilities for power generation facilities, etc. An object of the present invention is to provide a unidirectional cyclone equipped with a filter that improves particle collection efficiency while maintaining an appropriate level of pressure loss.

As a means for achieving the object of the present invention as described above, a unidirectional cyclone equipped with a filter may be configured as follows.

A unidirectional cyclone with a filter according to an embodiment of the present invention includes a cylinder body having a hollow cylindrical structure; a dust box connected to one side of the cylinder body to have a predetermined space; a fluid inlet connected to one side of the cylinder body and having a relatively small inner diameter compared to the inner diameter of the cylinder body; a fluid outlet connected to the other side of the cylinder body and having a relatively small inner diameter compared to the inner diameter and the fluid inlet of the cylinder body; a spindle formed in the inner center of the fluid inlet in the axial direction, a predetermined section of the front part is formed in the form of a cone whose outer diameter is gradually increased along the flow direction of the fluid, and a certain section of the rear part is formed with the same outer diameter; A plurality of swirl vanes formed at regular angular intervals in a certain section of the rear part of the spindle; a vortex finder having a structure in which the fluid inlet is connected to the inside of the cylinder body for a predetermined section and formed in a cylindrical shape; and a mesh filter made of a metal woven material, having a smaller diameter than the diameter of the cylinder body, and being molded into a cylinder having a larger diameter than that of the vortex finder and installed axially on the inner side of the cylinder body to divide the inside of the cylinder body; It may be composed of

A unidirectional cyclone with a filter according to another embodiment of the present invention includes a cylinder body having a hollow cylindrical structure; a dust box connected to one side of the cylinder body to have a predetermined space; a fluid inlet connected to one side of the cylinder body and having a relatively small inner diameter compared to the inner diameter of the cylinder body; a fluid outlet connected to the other side of the cylinder body and having a relatively small inner diameter compared to the inner diameter and the fluid inlet of the cylinder body; a spindle formed in the inner center of the fluid inlet in the axial direction, a predetermined section of the front part is formed in the form of a cone whose outer diameter is gradually increased along the flow direction of the fluid, and a certain section of the rear part is formed with the same outer diameter; A plurality of swirl vanes are formed at regular angular intervals in a certain section of the rear portion of the spindle; a vortex finder having a structure in which the fluid inlet is connected to the inside of the cylinder body for a predetermined section and formed in a cylindrical shape; and a material woven with metal thread, which is formed into a cylinder having a smaller diameter than the cylinder body diameter and a larger diameter than the vortex finder, and is a pleated bag filter installed axially on the inner side of the cylinder body to divide the inside of the cylinder body ; It may be composed of

In a unidirectional cyclone structure provided with a mesh filter or pleated bag filter according to an embodiment of the present invention, flanges are integrally formed at the front and rear ends of the mesh filter, respectively, and the flanges may be fixedly installed at the front and rear ends of the cylinder body, respectively. .

In a unidirectional cyclone equipped with a mesh filter or pleated bag filter according to an embodiment of the present invention, the fluid outlet may be formed in a two-stage structure in which the diameter of the rear portion is smaller than the diameter of the front portion.

According to the unidirectional cyclone equipped with a mesh filter or a pleated bag filter according to an embodiment of the present invention, there is an advantage in that fine dust collection efficiency is improved, such as being able to more effectively separate particles having a size of 2 μm or less contained in a fluid. Meanwhile, as described above, although the collection efficiency for fine dust is greatly improved, there is an advantage in that the pressure loss is maintained at an appropriate level in terms of pressure loss. That is, in the unidirectional cyclone provided with the mesh filter or pleated bag filter according to an embodiment of the present invention, the particle collection efficiency is increased, while the pressure loss is not significantly affected.

1 is a perspective view for explaining the configuration of a unidirectional cyclone according to an embodiment of the present invention.
Figure 2 is a front view for explaining the configuration of a unidirectional cyclone according to an embodiment of the present invention.
3 and 4 are cross-sectional views for explaining the configuration of a unidirectional cyclone according to an embodiment of the present invention.
5 is a view showing a fluid flow in a unidirectional cyclone equipped with a mesh filter according to an embodiment of the present invention.

Hereinafter, a unidirectional cyclone with a filter according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

In the drawings for describing an embodiment of the present invention, parts irrelevant to the description are omitted in order to clearly describe the present invention, and similar reference numerals will be assigned to similar parts throughout the specification. Throughout the specification, when a part is "connected" with another part, this includes not only the case of being "directly connected" but also the case of being "indirectly connected" with another member interposed therebetween. . In addition, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated.

Figure 1 is a perspective view for explaining the configuration of a unidirectional cyclone according to an embodiment of the present invention, Figure 2 is a front view for explaining the configuration of a unidirectional cyclone according to an embodiment of the present invention, Figures 3 and 4 are A cross-sectional view for explaining the configuration of a unidirectional cyclone according to an embodiment of the present invention, FIG. 5 is a view showing a fluid flow in a unidirectional cyclone equipped with a mesh filter according to an embodiment of the present invention. Reference numeral 100 indicated in the drawings indicates a unidirectional cyclone according to an embodiment of the present invention.

The unidirectional cyclone 100 according to an embodiment of the present invention may be formed as a part of a flow path through which a fluid passes in a vacuum cleaner, an air conditioning facility, an air cleaning facility, a power generation facility post-treatment facility, and the like.

The unidirectional cyclone 100 according to the present invention communicates with the cylinder body on one side of the cylinder body 110 and the cylinder body 110 formed in a cylindrical structure with a relatively large diameter compared to the surroundings, as shown in FIGS. The dust box 120 formed to have a certain space, connected to one side of the cylinder body 110 and connected to the fluid inlet 130 having a relatively small diameter compared to the diameter of the cylinder body, connected to the other side of the cylinder body 110 . and is configured to include a fluid outlet 140 having a relatively small diameter compared to the diameter of the cylinder body. That is, the unidirectional cyclone 100 according to the embodiment of the present invention is configured in a line in which the air inflow and outflow directions are the same. As shown in the drawing, at both ends of the cylinder body 110 according to the present invention, a flange 112 for mutual assembly of the fluid inlet 130 and the fluid outlet 140 is formed, and of each flange 112 . A packing groove 114 is formed on the outer surface. For mutual assembly with the cylinder body 110 , a flange 132 of a shape corresponding to the flange 112 on one side of the cylinder body 110 is formed on one side of the fluid inlet 130 , and one side of the fluid outlet 140 . A flange 142 of a shape corresponding to the flange 112 on the other side of the cylinder body 110 is formed. In this way, the cylinder body 110 , the fluid inlet 130 , and the fluid outlet 140 may be mutually assembled through an assembly process after they are formed to be separated from each other. In the assembly process, the packing 192 is disposed in the packing groove 114, and the fluid inlet 130 and the fluid outlet 140 with respect to the cylinder body 110 are tightly fastened through the fastening means 190. can be maintained

In the inner central portion of the fluid inlet 130 of the unidirectional cyclone 100 according to the present invention, a spindle 150 for inducing the flow of the incoming fluid to flow along the inner surface of the fluid inlet rather than the central portion of the fluid inlet is an axis. installed in the direction

The front portion of the spindle 150 is formed in the form of a cone whose outer diameter gradually increases along the flow direction of the fluid, and a certain section of the rear portion is formed in a cylindrical or cylindrical structure having the same diameter. As shown in the drawing, the spindle 150 may be integrally formed with the fluid inlet 130 .

In the unidirectional cyclone 100 according to an embodiment of the present invention, a swirl vane 160 is formed in a certain section of the rear portion of the spindle 150 so that a stronger centrifugal force can act on the flowing fluid.

The swirl vanes 160 are formed in a number of about 6 to 10 at regular angular intervals in a streamline-shaped pinwheel structure. That is, as a plurality of swirl vanes 160 having the same shape as a streamline are formed at regular angular intervals, the fluid passing between the inside of the fluid inlet 130 and the outside of the spindle 150 is a section in which the swirl vanes 160 are formed. As it passes through, a strong centrifugal force acts as it causes a swirl, and in this process, the particles contained in the flowing fluid are separated.

And as shown in the cross-sectional views of FIGS. 3 and 4 , a vortex finder 170 is provided inside the cylinder body 110 .

The aforementioned vortex finder 170 has a structure connected to the fluid outlet 140 in the axial direction, and has a hollow cylindrical structure formed over a predetermined section toward the inside of the cylinder body 110 . As shown in the drawing, the vortex finder 170 is integrally formed to have the same diameter as the fluid outlet 140 .

The fluid outlet 140 of the unidirectional cyclone 100 according to an embodiment of the present invention may be formed in a two-stage structure in which the diameter of the rear portion is smaller than the diameter of the front portion. In addition, the intermediate section may have a structure in which the inner diameter is gradually reduced.

The fluid inlet 140 and the vortex finder 170 described above may be manufactured as an integral structure as shown in the drawing, and a flange 142 for mutual assembly to the flange 112 of the cylinder body 110 in the middle portion thereof. ) can be formed.

The unidirectional cyclone 100 provided with a mesh filter according to an embodiment of the present invention has a mesh filter 180 for filtering particles having a size of 2 μm or less inside the cylinder body 110 as shown in FIGS. 3 and 4 . is installed

The mesh filter 180 applied to the unidirectional cyclone 100 according to the present invention may be formed in a cylindrical shape by rolling a material woven with metal yarn. The mesh filter 180 is formed to have a smaller diameter than that of the cylinder body 110 and a larger diameter than the vortex finder 170 .

And flanges 182 are provided at the front and rear ends of the mesh filter 180 , respectively, and are assembled and installed at the front and rear ends of the cylinder body 110 , respectively.

The mesh filter 180 configured as described above divides the inside of the cylinder body 110 into the inside and outside of the mesh filter 180 . The outer side of the mesh filter 180 is a portion through which the fluid is introduced and passed through the fluid inlet 130 , and the inner side of the mesh filter 180 is a portion through which the fluid flows out through the fluid outlet 140 . That is, the inside of the cylinder body 110 is divided into a center and a periphery by the mesh filter 180, and the flow of the fluid is guided from the outside to the inside, so that in the process of the fluid flowing from the outside to the inside, fine dust of a fine size will be filtered out

The mesh filter 180 applied to the unidirectional cyclone 100 according to the present invention is preferably made of a stainless steel material.

5 is a view showing a fluid flow in a unidirectional cyclone equipped with a mesh filter according to an embodiment of the present invention.

As shown in FIG. 5, the fluid flowing along the inner surface of the fluid inlet 130 and the outer surface of the spindle 150 passes through the section in which the swirl vane 160 is formed, while the centrifugal force is accelerated. It is introduced into the inside of the cylinder body 110 while raising.

In this way, the fluid flowing into the cylinder body 110 is directed from the front to the rear along the inner surface of the cylinder body 110 as shown in the figure, and a part is blocked by a wall located at the rear of the cylinder body 110 . The flow of the fluid flows forward again.

As described above, the fluid directed forward along the inner surface of the cylinder body 110 inside the cylinder body 110 or the fluid that collides with the rear and faces the front again decreases the centrifugal force acting on the cylinder body 110 as described above. towards the central side of

In this process, the fluid passes through the mesh filter 180 , and particles having a size of 2 μm or less included in the fluid are filtered by the mesh filter 180 .

Particles such as dust separated in this process are collected in the dust box 120 . Accordingly, particle collection efficiency in which particles such as dust are separated from the fluid introduced into the cylinder body 110 is improved.

- capture Efficiency and Pressure Loss Experiment Example

The collection efficiency and pressure loss of the unidirectional cyclone 100 provided with the mesh filter 180 formed of a stainless steel material using KCl particles and silica particles in a diameter range of 0.5 to 2.5 μm were measured. At this time, when the flow rate flowing into the fluid inlet 130 was 500 PLM, the 50% cut particle diameter was 0.9 μm, and the pressure loss was measured to be 716 Pa.

On the other hand, after removing the mesh filter 180 under the same conditions, the 50% cut particle diameter was 1.3 μm, and the pressure loss was measured to be 452 Pa.

As can be seen from the above experimental results, it can be confirmed that the pressure loss was maintained within an appropriate range even though the collection efficiency was significantly increased.

In addition, due to the deposition mechanism of the filter, it was confirmed that the particle collection efficiency of particles with a size of 2 μm or less increased significantly, and that when the particle size was 1 μm, the particle collection efficiency increased by about 30%.

In the above, a unidirectional cyclone equipped with a mesh filter according to an embodiment of the present invention has been described with reference to the accompanying drawings.

The mesh filter 180 applied to the unidirectional cyclone 100 according to the present invention may be formed in a cylindrical shape by rolling a material woven with metal yarn. The mesh filter 180 is formed to have a smaller diameter than that of the cylinder body 110 and a larger diameter than the vortex finder 170 .

And flanges 182 are provided at the front and rear ends of the mesh filter 180 , respectively, and are assembled and installed at the front and rear ends of the cylinder body 110 , respectively.

Although not shown in the drawings of the present invention, a pleated bag filter may be installed instead of the mesh filter to increase the filtration area.

While the mesh filter 180 is made of a metal material, the pleated bag filter may be made of synthetic resin or paper material, and the filtration area may be improved due to wrinkles, and in the case of the pleated bag filter, dust accumulated using a pulse jet It has the advantage of being able to reuse the filter by exhausting it and regenerating the filter.

The pleated bag filter may be configured by substituting the mesh filter 180 in the unidirectional cyclone provided with the mesh filter 180 described above, and all other configurations are the same.

The above description of the present invention is for illustration, and those of ordinary skill in the art to which the present invention pertains can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, the embodiments described above are exemplary in all aspects and should not be construed as limiting. For example, each component described as a single type may be implemented in a distributed manner, and likewise components described as distributed may be implemented in a combined form.

100: unidirectional cyclone 110: cylinder body
120: dust box 130: fluid inlet
140: fluid outlet 150: spindle
152: assembly groove 160: swirl vane
170: vortex finder 180: mesh filter

Claims (4)

a cylinder body having a hollow cylindrical structure, flanges formed at both ends, and packing grooves formed on an outer surface of the flange;
a dust box connected to one side of the cylinder body to have a predetermined space;
a fluid inlet having a cylindrical structure having an inner diameter relatively smaller than that of the cylinder body and having a flange corresponding to the flange of the cylinder body to be connected to one side of the cylinder body;
a fluid outlet formed in a cylindrical structure having an inner diameter relatively smaller than that of the cylinder body and the fluid inlet and having a flange corresponding to the flange of the cylinder body to be connected to the other side of the cylinder body;
The spindle is formed integrally with the fluid inlet in the center of the axial direction of the fluid inlet, the front portion is formed in the form of a cone whose outer diameter gradually increases along the flow direction of the fluid, and the rear portion has the same outer diameter ;
a plurality of swirl vanes formed integrally with the spindle at regular angular intervals in a certain section of the rear portion of the spindle;
a vortex finder in which the fluid outlet is connected to the inside of the cylinder body for a predetermined section and is formed in a cylindrical shape having the same diameter as the fluid outlet and is integrally formed with the fluid outlet;
It is a material woven with metal yarn, which is formed into a cylinder having a smaller diameter than the diameter of the cylinder body and a larger diameter than the vortex finder, and is installed axially on the inner side of the cylinder body to divide the inside of the cylinder body mesh filter; and
a fastening means such that a flange of the fluid inlet and a flange of the fluid outlet, respectively, corresponding to the flanges of the cylinder body are buttted to each other, and a state in which the packing is arranged in the packing groove is tightly maintained; A unidirectional cyclone with a filter, characterized in that it comprises a.
a cylinder body having a hollow cylindrical structure, flanges formed at both ends, and packing grooves formed on an outer surface of the flange;
a dust box connected to one side of the cylinder body to have a predetermined space;
a fluid inlet having a cylindrical structure having an inner diameter relatively smaller than that of the cylinder body and having a flange corresponding to the flange of the cylinder body to be connected to one side of the cylinder body;
a fluid outlet formed in a cylindrical structure having an inner diameter relatively smaller than that of the cylinder body and the fluid inlet and having a flange corresponding to the flange of the cylinder body to be connected to the other side of the cylinder body;
The spindle is formed integrally with the fluid inlet in the center of the axial direction of the fluid inlet, the front portion is formed in the form of a cone whose outer diameter gradually increases along the flow direction of the fluid, and the rear portion has the same outer diameter ;
a plurality of swirl vanes formed integrally with the spindle at regular angular intervals in a certain section of the rear portion of the spindle;
a vortex finder in which the fluid outlet is connected to the inside of the cylinder body for a predetermined section and is formed in a cylindrical shape having the same diameter as the fluid outlet and is integrally formed with the fluid outlet;
a pleated bag filter having a smaller diameter than that of the cylinder body and being molded into a cylinder having a larger diameter than that of the vortex finder and installed axially on the inner side of the cylinder body to divide the inside of the cylinder body; and
a fastening means such that a flange of the fluid inlet and a flange of the fluid outlet, respectively, corresponding to the flanges of the cylinder body are buttted to each other, and a state in which the packing is arranged in the packing groove is tightly maintained; A unidirectional cyclone with a filter, characterized in that it comprises a.
3. The method of claim 1 or 2,
A one-way cyclone with a filter, characterized in that the front and rear ends of the mesh filter or the pleated bag filter are integrally formed with flanges, and the flanges are fixedly installed on the front and rear ends of the cylinder body, respectively.
3. The method of claim 1 or 2,
The fluid outlet is a unidirectional cyclone with a filter, characterized in that formed in a two-stage structure having a smaller diameter of the rear portion than the diameter of the front portion.

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