TWM542508U - Filtering apparatus - Google Patents

Abstract

A filtering apparatus is described, which includes a housing, a filtering structure, and a flow-guiding structure. The housing has an accommodating space, at least one feed-inlet and at least one feed-outlet. The feed-inlet and the feed-outlet are located on a wall of the housing, and the feed-outlet communicates with the accommodation space. The filtering structure is detachably disposed in the accommodation space. The filtering structure has a filtering space, and the feed-outlet communicates with the filtering space. The flow-guiding structure is disposed in the accommodation space and surrounds an outer wall of the filtering structure.

Description

filter

The present invention relates to a filtering device, and more particularly to a filtering device that produces a better filtering effect.

The filtering device is mainly used to filter out all or part of the particles in the liquid. The general filtration method is mainly to allow the liquid to pass through the filter material, and the filter material can intercept the particles in the liquid to achieve the purpose of filtration.

However, when the direction of the liquid flowing toward the filter material is the same as the flow direction of the liquid in the filter material, the particles intercepted by the filter material are often impinged and driven by the flow of the liquid, blocking the pores of the filter material, even through the filter material. The pores pass through the filter material, which not only causes damage to the filter material, but also leads to poor filtration.

Therefore, it is an object of the present invention to provide a filtering device which increases the filtration time of the liquid to be filtered in the filtering device and changes the flow pattern of the liquid to be filtered, thereby improving the filtering effect.

According to the above object of the present invention, a filtering device is proposed. The filter device includes a housing, a filter structure, and a drainage structure. The housing has a capacity a space, at least one feed port, and at least one discharge port. Wherein, the feeding port and the discharging port are located on the side wall of the casing, and the feeding port is in communication with the accommodating space. The filter structure is detachably disposed in the accommodating space. The filtering structure has a filtering space, and the discharge port communicates with the filtering space. The drainage structure is disposed in the accommodating space and surrounds the filtering structure.

According to an embodiment of the present invention, the drainage structure is a spiral structure.

According to another embodiment of the present invention, the filter structure includes an outer layer portion and an inner layer portion, wherein the outer layer portion covers the inner layer portion, and the outer layer portion has a pore size different from that of the inner layer portion.

According to still another embodiment of the present invention, the outer layer portion has a pore size larger than that of the inner layer portion.

According to still another embodiment of the present invention, the bottom of the housing has a protruding structure, and the protruding structure has an opening communicating with the discharge opening. The filter structure is sleeved on the protruding structure, and the filtering space is connected to the opening of the protruding structure.

According to still another embodiment of the present invention, the housing includes a base and a cover. The cover is fixed on the base, and the feed port is disposed on the cover, and the discharge port is disposed on the base.

According to still another embodiment of the present invention, the bottom of the base has a protruding structure, and the protruding structure has an opening communicating with the discharge opening. The filter structure is sleeved on the protruding structure, and the filtering space is connected to the opening of the protruding structure.

According to still another embodiment of the present invention, the housing further includes at least one discharge opening, wherein the discharge opening is located on a side wall of the housing, and the discharge opening is Connected to the accommodation space.

In accordance with still another embodiment of the present invention, the centerline of the feed port is parallel to the tangent to the contour of the filter structure.

It can be seen from the above that the filtering device of the present invention has a drainage structure, which can guide the liquid to be filtered to spirally flow along the filtering structure, thereby increasing the distance and time for the liquid to be filtered to flow in the accommodating space, so that the filtering device can sufficiently filter the filter to be filtered. liquid.

On the other hand, since the liquid to be filtered flows spirally along the filter structure and enters the inside of the filter structure, the flow direction of the liquid to be filtered in the filter structure is different from the direction in which it enters the filter structure. In this way, the larger-sized particles in the liquid to be filtered can be first intercepted by the outer layer of the filtering structure, and are not pushed by the force of the liquid to the inner layer, thereby maintaining the smoothness of the filtering structure, thereby improving filtration. The filtration quality of the structure.

100‧‧‧Filter device

110‧‧‧shell

112‧‧‧Base

114‧‧‧ Cover

110a‧‧‧ accommodating space

110b‧‧‧ Feed inlet

110c‧‧‧Outlet

110d‧‧‧ discharge opening

110e‧‧‧ protruding structure

110f‧‧‧ openings

120‧‧‧Filter structure

120a‧‧‧Filter space

122‧‧‧Outer Ministry

124‧‧‧ Inner Department

130‧‧‧Drainage structure

For a more complete understanding of the embodiments and the advantages thereof, reference is made to the following description in conjunction with the accompanying drawings, wherein: FIG. 1 is a schematic cross-sectional view showing a filter device according to an embodiment of the present invention; 2] is a top view of a filter device in accordance with an embodiment of the present invention.

The directional terms mentioned in the following embodiments, such as "upper", "lower", "front", "back", "left", "right", etc., are only directions referring to the additional schema. Therefore, the directional terminology used is intended to be illustrative, and not to limit the invention.

Please refer to FIG. 1 and FIG. 2 simultaneously, which are respectively a cross-sectional view and a top view of a filtering device according to an embodiment of the present invention. The filter device 100 of the present embodiment mainly includes a housing 110, a filter structure 120, and a drain structure 130. Both the filter structure 120 and the drainage structure 130 are disposed in the housing 110. The filter structure 120 is mainly used to filter the liquid to be filtered into the housing 110. The drainage structure 130 is disposed on the outer surface of the filter structure 120, and is mainly used to guide the liquid to be filtered to flow along the surface of the filter structure 120. The distance and time that the liquid to be filtered flows through the housing 110 is increased, thereby increasing the chance of the liquid to be filtered entering the filtering structure 120, so that the liquid to be filtered can be sufficiently filtered by the filtering structure 120.

For the sake of clarity, the "liquid to be filtered" referred to in this embodiment may be a liquid used in a chemical polishing process or a liquid used in other wafer wet processing processes. The filter structure 120 can be designed to filter out a portion of the particles in the liquid to be filtered (eg, only filter out larger particles and leave the particles of the desired size) depending on the structural design. In other embodiments, the filter structure 120 can also be designed to filter out all particles (solid-liquid separation) in the liquid to be filtered according to different needs.

1 and 2, the housing 110 has an accommodation space 110a, at least one inlet port 110b, and at least one discharge port 110c. Wherein, the feeding port 110b and the discharging port 110c are located on the side wall of the housing 110, and The feed port 110b is in communication with the accommodating space 110a. In the present embodiment, the feed port 110b may be disposed near the top end of the housing 110, and the discharge port 110c may be disposed near the bottom end of the housing 110. The filter structure 120 is detachably disposed in the accommodating space 110a. The filter structure 120 has a filter space 120a, and the discharge port 110c communicates with the filter space 120a. Thereby, the liquid to be filtered can enter the accommodating space 110a of the housing 110 from the feeding port 110b, and then filtered by the filtering structure 120 to become the filtered liquid to enter the filtering space 120a, and then flow out of the housing 110 from the discharging port 110c. outer. In an embodiment, the central axis of the inlet port 110b is parallel to the tangent of the contour of the filter structure 120, so that when the liquid to be filtered enters the accommodating space 110a from the inlet port 110b, it can follow the contour of the filter structure 120. The tangential direction flows around the filter structure 120.

In the present embodiment, the bottom of the housing 110 has a protruding structure 110e, and the protruding structure 110e has an opening 110f. In this embodiment, the filter structure 120 is a tube body and can be fixed on the protruding structure 110e through a sleeve. The filtering space 120a is defined in the hollow space of the filtering structure 120. Therefore, when the filtering structure 120 is sleeved on the protruding structure 110e, the filtering space 120a communicates with the opening 110f of the protruding structure 110e. Therefore, the filtered liquid in the filtration space 120a can flow through the opening 110f and flow out from the discharge port 110c. In an embodiment, the housing 110 can include a base 112 and a cover 114, and the cover 114 can be fixed to the base 112 by means of a locking or other fixing means. In this embodiment, the protruding structure 110e is disposed at the bottom of the base 112 for fixing the filter structure 120.

1 and 2, the filter structure 120 may include an outer layer portion 122 and an inner layer portion 124, wherein the outer layer portion 122 covers the inner layer portion 124. Moreover, the pore size of the outer layer portion 122 is different from the pore size of the inner layer portion 124. In the present embodiment, the pore size of the outer layer portion 122 is greater than the pore size of the inner layer portion 124. Thereby, when the liquid to be filtered flows in the accommodating space 110a of the housing 110, the larger sized particles in the liquid to be filtered may be first intercepted by the outer layer portion 122, thereby preventing the large-sized particles from blocking the inner layer portion 124 to ensure The pores of the inner layer portion 124 are unobstructed. It is to be understood that the pore size of the outer layer portion 122 of the present embodiment is larger than the pore size of the inner layer portion 124. The pore size of the outer layer portion 122 and the inner layer portion 124 can also be designed according to different liquids to be filtered or different filtration requirements.

Referring to FIG. 1 and FIG. 2 , the drainage structure 130 is disposed in the accommodating space 110 a of the housing 110 and surrounds the filtering structure 120 . In one embodiment, the drainage structure 130 can be a helical structure and extends from an outer end adjacent the feed port 110b along an outer side of the filter structure 120 to an end adjacent the discharge port 110c. Thereby, the liquid to be filtered can be guided to flow along the filtering structure 120 in the accommodating space 110a through the drainage structure 130. While the liquid to be filtered flows, it also enters the filtering structure 120 along the tangential direction of the contour of the filtering structure 120, and is filtered by the filtering structure 120 to become filtered liquid into the filtering space 120a. Therefore, the design of the drainage structure 130 can mainly increase the time and distance of the liquid to be filtered flowing in the accommodating space 110a, so that the liquid to be filtered can be sufficiently filtered. In an embodiment, the pitch and the total length of the spiral structure can be designed according to different filtering requirements to control the distance and time through which the liquid to be filtered flows in the accommodating space 110a.

Referring to FIG. 1 and FIG. 2 again, in other embodiments, at least one discharge opening 110d may be selectively disposed on the housing 110, wherein the discharge opening is 110d connects the accommodating space 110a. The discharge port 110d can mainly discharge the liquid to be filtered in the accommodating space 110a out of the housing 110. In some embodiments, the inlet port 110b, the discharge port 110c, and the discharge port 110d may also be respectively connected to a valve (not shown), and through the valve to control the inlet port 110b, the discharge port 110c, and the discharge port 110d. Open, close or open size to meet different operational needs.

In other embodiments, the discharge port 110d can also communicate with the feed port 110b through a return pipe (not shown). Thereby, the unfiltered liquid to be filtered is discharged from the discharge port 110d and can be returned to the feed port 110b, and enters the casing 110 again through the feed port 110b for the purpose of recovering the liquid to be filtered. It should be noted that the number of the feed port 110b, the discharge port 110c, and the discharge port 110d of the present embodiment can be adjusted as needed.

It can be seen from the above-mentioned embodiments of the present invention that the filtering device of the present invention has a drainage structure, which can guide the liquid to be filtered to spirally flow along the filtering structure, so as to increase the distance and time for the liquid to be filtered to flow in the accommodating space, so the filtering device can The liquid to be filtered is sufficiently filtered.

On the other hand, since the liquid to be filtered flows spirally along the filter structure and enters the inside of the filter structure, the flow direction of the liquid to be filtered in the filter structure is different from the direction in which it enters the filter structure. In this way, the larger-sized particles in the liquid to be filtered can be first intercepted by the outer layer of the filtering structure, and are not pushed by the force of the liquid to the inner layer, thereby maintaining the smoothness of the filtering structure, thereby improving filtration. The filtration quality of the structure.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention, and anyone skilled in the art can Within the scope of God and the scope, the various modifications and refinements may be made, and the scope of protection of this new type shall be subject to the definition of the scope of the patent application.

100‧‧‧Filter device

110‧‧‧shell

112‧‧‧Base

114‧‧‧ Cover

110a‧‧‧ accommodating space

110b‧‧‧ Feed inlet

110c‧‧‧Outlet

110d‧‧‧ discharge opening

110e‧‧‧ protruding structure

110f‧‧‧ openings

120‧‧‧Filter structure

120a‧‧‧Filter space

122‧‧‧Outer Ministry

124‧‧‧ Inner Department

130‧‧‧Drainage structure

Claims (9)

A filter device comprising: a housing having an accommodating space, at least one feed port, and at least one discharge port, wherein the feed port and the discharge port are located on a side wall of the case, and the feeding The port is connected to the accommodating space; a filtering structure is detachably disposed in the accommodating space, wherein the filtering structure has a filtering space, and the discharging port is connected to the filtering space; and a drainage structure is arranged In the accommodating space and surrounding the filtering structure. The filter device of claim 1, wherein the drainage structure is a spiral structure. The filter device of claim 1, wherein the filter structure comprises an outer layer portion and an inner layer portion, wherein the outer layer portion covers the inner layer portion, and the outer layer portion has a pore size different from that of the inner layer portion Pore size. The filter device of claim 3, wherein the outer layer has a pore size larger than a pore size of the inner layer portion. The filter device of claim 1, wherein the bottom of the housing has a protruding structure, and the protruding structure has an opening communicating with the discharge opening; and the filtering structure is sleeved on the protruding structure. And the filtering space The opening of the protruding structure is connected. The filter device of claim 1, wherein the housing comprises a base and an outer cover is fixed to the base, and the feeding port is disposed on the outer cover, and the discharging opening is disposed on the base. The filter device of claim 6, wherein the bottom of the base has a protruding structure, and the protruding structure has an opening communicating with the discharge opening; and the filtering structure is sleeved on the protruding structure, and The filtering space is in communication with the opening of the protruding structure. The filter device of claim 1, wherein the housing further comprises at least one discharge opening, wherein the discharge opening is located on a side wall of the housing, and the discharge opening is in communication with the receiving space. The filter device of claim 1, wherein the central axis of the feed port is parallel to a tangent to the contour of the filter structure.