JP6019717B2 - Fluid filter - Google Patents

Description

  The present invention relates to a fluid filter suitable for use as a gas filter, and more particularly to a fluid filter suitable for use as an air filter for a fuel cell.

  If impurities are included in the fuel or air fluid supplied to the fuel cell, the electrocatalyst of the fuel cell is reduced because the electrode catalyst is poisoned, resulting in a decrease in power generation efficiency and a decrease in life. It is known to cause.

  Patent Document 1 discloses a filter composed of a porous base material having a three-dimensional network skeleton structure and activated carbon held on the porous base material as a filter for removing impurities supplied to the fuel cell and air and fuel. Is described.

  Patent Document 2 describes a fluid filter in which an adsorbent such as activated carbon is filled in a cartridge and the cartridge is inserted into a housing.

WO2005 / 062411 WO2007 / 060923

  In the fluid filter in which the adsorbent is filled in the cartridge as in Patent Document 2 and this cartridge is inserted into the housing, air leaks through the gap between the outer peripheral surface of the cartridge and the inner peripheral surface of the housing. There is a possibility that the impurity concentration in the air does not decrease sufficiently.

  An object of the present invention is to provide a fluid filter capable of obtaining a highly purified fluid in which leakage of a fluid to be treated is prevented.

A fluid filter according to a first aspect is a fluid filter having a housing having a fluid inlet and outlet and a filter element disposed in the housing, wherein the housing is closed at one end and opened at the other end. And a lid body detachably attached to the other end surface of the housing body, and a peripheral surface on one end side of the housing body constitutes an outlet. 1 opening is provided, and the lid body is provided with a second opening that constitutes an inflow port, and the first opening and the filter element arrangement portion are partitioned on one end side in the housing body. partition member having a fluid passage resistance is installed for both when the filter element is filled in the filter element arrangement unit, the partition member, the housings A half plate that has a round plate that crosses the main body, and a leg that is erected on one end side of the housing main body from the fine plate, the leg being substantially half a circle along the outer peripheral edge of the round plate. A cylindrical portion is provided on the inner peripheral surface of the housing main body with a convex portion for positioning the leg portion so that the leg portion is not in contact with the first opening. It is characterized by this.

The fluid filter according to the second aspect is characterized in that, in the first aspect, a buffer material made of a fiber material is interposed between the upper surface of the filter element and the lid .

A fluid filter according to a third aspect is the fluid filter according to the first or second aspect, wherein the fluid filter is an air filter for a fuel cell, and the filter element is held by the porous substrate having a three-dimensional network skeleton structure and the substrate. And having activated carbon .

The fluid filter according to a fourth aspect is characterized in that, in the first to third aspects, the filter element is compressed in the radial direction and filled in the housing .

  In the fluid filter of the first aspect, since the filter element is directly filled in the housing and no cartridge is used, there is no leakage of fluid from between the cartridge and the housing, and a high degree of purification is achieved. A processing fluid can be obtained.

In the above fluid filter, the filter element can be easily put in and out of the housing by opening the lid.

Furthermore, according to the fluid filter, since there is a space between the eye plate portion of the partition and the one end face of the housing body, the fluid comes into contact with the filter element evenly.

Furthermore, according to the fluid filter, the fluid filter can be easily assembled without the first opening being closed by the legs of the partition.

According to the fluid filter of the third aspect , highly purified air can be supplied to the fuel cell.

It is a longitudinal cross-sectional view of the fluid filter which concerns on embodiment. It is a disassembled perspective view of the fluid filter which concerns on embodiment. It is a top view of a lid. It is the III-III sectional view taken on the line of FIG.

  Hereinafter, the fluid filter 1 according to the embodiment will be described with reference to FIGS. FIG. 1 shows a longitudinal section along the line II in FIG. In FIG. 2, the filter element and the buffer material are not shown. In the following description, “upper” and “lower” represent “upper” and “lower” in FIGS. 1 and 2 and do not limit the installation state of the fluid filter.

  The fluid filter 1 has a housing 2 and a filter element 3 directly filled in the housing 2. The housing 2 is closed at one end and opened at the other end, and has a substantially cylindrical bottomed housing body 4 and a lid 5 detachably attached to the other end of the housing body 4; And a partition 6 disposed in the housing body 4.

  As for the housing main body 4, the lower end side of a figure is closed and the upper end is open | released. In this embodiment, the housing main body 4 has a slightly smaller diameter at the lower end side than the upper end side, and is configured so that the partition 6 can be easily taken in and out. A nozzle portion 7 projects from the lower outer peripheral surface of the housing body 4, and a first opening 8 is provided in the nozzle portion 7.

  As clearly shown in FIG. 2, the partition 6 includes an eye plate portion 6 a and a leg portion 6 b that makes a half turn around the outer periphery of the eye plate portion 6 a. The eye plate part 6a is provided with a number of through holes 6c. The shape of the through-hole 6c of the eye plate portion 6a is the same as the shape of the second opening 10 of the lid 5 described later.

  A plurality of convex portions 9 are provided on the first opening 8 side of the lower inner peripheral surface of the housing body 4. In this embodiment, the convex part 9 is a protrusion extending in the vertical direction, and is provided on the lower side of the eye plate part 6a. Although the convex part 9 is provided in total on the both sides of the first opening 8 and in the immediate vicinity of the leg part 6b, it is not limited to this.

  As clearly shown in FIG. 3, the lid 5 includes a large ring 5a that circulates on the outermost periphery, an intermediate ring 5b that circulates inside the outer ring, a small ring 5c that circulates inside the intermediate ring 5b, The body 5a and the middle ring body 5b are connected to each other, and a bridge portion 5d extending in the radial direction is connected. The middle ring body 5b and the small ring body 5c are connected to each other, and a bridge portion 5e extending in the radial direction is provided. ing. A second opening 10 is formed between each ring body and the bridge portion. A locking projection 11 protrudes from the outer peripheral surface of the large ring body 5a.

  A locking recess 14 (FIG. 2) into which the locking projection 11 is inserted is provided on the inner peripheral surface of the upper end portion of the housing body 4. Further, on the inner peripheral surface of the upper end portion of the housing main body 4, a stepped portion 12 with which the large ring body 5 a is engaged is provided slightly below the locking recess 14.

  The filter element 3 is filled between the eye plate portion 6 a of the partition 6 and the lid 5. In this embodiment, a buffer material 13 made of a fiber material such as a nonwoven fabric is interposed between the upper surface of the filter element 3 and the lid 5.

  For the fluid filter 1, a fluid may flow from the first opening 8 toward the second opening 10, and conversely, a fluid flows from the second opening 10 toward the first opening 8. Also good.

  In order to assemble the fluid filter 1, the partition body 6 is inserted into the housing body 4, the filter element 3 is filled above the eye plate portion 6 a, the buffer material 13 is disposed thereon, and the lid body 5 is Mount on the housing body 4. When the lid 5 is pushed into the housing body 4 in a state where the direction of the latching convex portion 11 of the lid 5 is matched with the latching concave portion 14, the latching convex portion 11 is fitted into the latching concave portion 14, and the lid 5 Is locked to the housing body 4. In addition, if the buffer material 13 is put in multiple positions so as to be compressed by the lid 5, the vertical movement of the filter element 3 is restricted. In order to replace the filter element 3 or the like, the lid 5 is pulled and removed from the housing body 4.

  The filter element 3 can be appropriately selected according to the physical properties of the fluid to be applied. From the viewpoint of maximizing the internal filtration function of the filter, an adsorbent is applied to the filter substrate having a three-dimensional network structure. What is carried is suitable, specifically, the one described in Patent Document 1 (a filter element comprising a porous substrate having a three-dimensional network skeleton structure and activated carbon held on the porous substrate) Is preferred.

  In the fluid filter 1 configured as described above, the filter element 3 is directly filled in the housing 2 and the cartridge is not used. Therefore, the fluid leaks between the cartridge and the housing body 4. And a highly purified treatment fluid can be obtained. In addition, it is preferable that the filter element is compressed in the radial direction and installed (filled) in terms of further preventing leakage. In the fluid filter 1, the filter element can be easily put in and out of the housing body 4 by opening the lid 5. According to the fluid filter 1, since the space 16 (FIG. 1) exists between the eye plate portion 6 a of the partition 6 and the bottom surface of the housing body 4, the fluid is evenly distributed throughout the housing body 4. The fluid flows and comes into contact with the filter element 3 evenly.

  In this embodiment, since the convex portion 9 is provided in the vicinity of the first opening 8 on the lower inner peripheral surface of the housing body 4, the semi-cylindrical leg portion 6 b is connected to the first opening 8. The partition 6 is inserted so as to be located on the opposite side. Therefore, the first opening 8 is not closed by the leg 6b, and the fluid filter 1 can be easily assembled.

  This fluid filter is suitable for use in supplying highly purified air to the fuel cell, but can also be used for filtering other gases and liquids.

  Hereinafter, examples and comparative examples will be described.

[Example 1]
The filter element 3 was manufactured as follows. Acrylic emulsion binder (trade name WA-470-2 manufactured by Dainichi Seika Kogyo Co., Ltd.) with a solid content of 50% solids on urethane foam (trade name QWK-09 5 mm thickness, manufactured by Bridgestone Corporation) having a three-dimensional network skeleton structure ) Is impregnated to a solid content of 30 g / L, then dried at 120 ° C. for 5 minutes, and the cocoon-patterned activated carbon with a mean particle diameter of 30 mesh on the front and back surfaces is attached and the surplus activated carbon is shaken off. An activated carbon filter sheet having an adhesion amount of 750 ± 200 g / m ² was obtained. This activated carbon filter sheet was punched out to a diameter of 74.6 mm to obtain a filter element.

  As the buffer material 13, urethane foam having a three-dimensional network skeleton structure was used.

The fluid filter 1 shown in FIGS. 1-4 was manufactured using this filter element and a buffer material. In addition, the dimension of each part was as follows.
The diameter of the eye plate 6a of the partition 6 is 74 mm.
The diameter of the housing body 4 just below the step 12 is 80.09 mm.
Height from the upper surface of the eye plate 6a to the lower surface of the lid body 155mm
Filling thickness of filter element 3 155mm
Buffer material 13 filling thickness 3mm

Air having an SO ₂ concentration of 15 ppm was circulated through the fluid filter 1 from the second opening 10 to the first opening 8 at 1 L / min. After 15 minutes, the SO ₂ concentration in the treated air that passed through the fluid filter 1 was measured with a detector tube manufactured by GASTEC, and found to be 0 ppm.

[Comparative Example 1]
In Example 1, a casing having a shape that fits snugly into the housing body 4 was manufactured, and the ventilation test was performed in the same manner as in Example 1 except that the same amount of filter element as in Example 1 was filled in the casing. It was. The SO ₂ concentration in the treated air after 15 minutes was 3 ppm.

  From the above results, it was confirmed that according to the present invention, the fluid can be highly purified without causing fluid leakage.

DESCRIPTION OF SYMBOLS 1 Fluid filter 2 Housing 3 Filter element 4 Housing main body 5 Lid body 6 Partition body 6a Eye plate part 6b Leg part 7 Nozzle part 8 1st opening 10 2nd opening 11 Locking convex part 14 Locking recessed part

Claims (4)

In a fluid filter having a housing having a fluid inlet and outlet and a filter element disposed in the housing,
The housing includes a bottomed, uncovered cylindrical housing body having one end closed and the other end opened, and a lid detachably attached to the other end surface of the housing body. A first opening that constitutes an outlet is provided on the peripheral surface of the side, and a second opening that constitutes an inlet is provided in the lid, and at one end side in the housing body, the first and the partition member is installed to the opening and the filter element arrangement unit having a fluid pervious for partitioning, together when the filter element is filled in the filter element arrangement unit, the partition body A leg plate section that crosses the housing body, and a leg portion that is erected from the eye dish portion to one end side of the housing body, and the leg portion is substantially half a circumference along the outer peripheral edge of the eye plate portion. A semi-cylindrical shape, and The fluid filter is characterized in that a convex portion for positioning the leg portion is provided on the inner peripheral surface of the housing main body so that the leg portion is not facing the first opening. .   The fluid filter according to claim 1, wherein a buffer material made of a fiber material is interposed between the upper surface of the filter element and the lid.   The fluid filter according to claim 1, wherein the fluid filter is an air filter for a fuel cell, and the filter element includes a porous base material having a three-dimensional network skeleton structure and activated carbon held on the base material.   The fluid filter according to claim 1, wherein the filter element is compressed in a radial direction and filled in the housing.

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