JP6070248B2 - Fuel filter device - Google Patents

Description

  The present invention relates to a fuel filter device that filters fuel with a filter body housed in a housing.

  Conventionally, a filter body accommodated in a housing is supported by a support member, and the support member supports an upstream space on the upstream side of the fuel flow with respect to the filter body and a downstream space on the downstream side of the fuel flow with respect to the filter body. There is a fuel filter device that is divided into two. In such a fuel filter device, a columnar filter body is inserted into the opening of the support member, the support member and the filter body are bonded, and the support member supports the outer periphery of the filter body ( For example, see the following Patent Document 1.)

Japanese Patent Application Laid-Open No. 8-291777

  However, in the above-described conventional fuel filter device, the support member is located outward from the outer periphery of the filter body. Therefore, there is a problem that the size of the fuel filter device tends to increase in a direction orthogonal to the axis of the filter body.

  The present invention has been made in view of the above points, and an object of the present invention is to provide a fuel filter device capable of downsizing the physique in the direction orthogonal to the axis.

  In order to achieve the above object, in the present invention, the filter body (30) includes a cylindrical outermost filter medium part (33) and an inner filter medium part (34) positioned inward of the outermost filter medium part. In addition, at the one end in the axial direction (XX) of the outermost filter medium part, the outermost filter medium part protrudes in the axial direction from the inner filter medium part to form an annular protruding wall part (33a). And the supporting member (40) is arrange | positioned inside the annular protrusion wall part, and is joined to the internal peripheral surface (33b) of an annular protrusion wall part, It is characterized by the above-mentioned.

  According to this, the support member is disposed inside the annular projecting wall portion in which the outermost filter medium portion of the filter body projects in the axial direction, and is joined to the inner peripheral surface of the annular projecting wall portion. Therefore, it is not necessary to provide the joint part of the support member with the filter body outside the outer periphery of the filter body. Thereby, it is possible to reduce the dimension of the joined body (20) of the filter body and the support member in the direction perpendicular to the axis, and the housing for housing the joined body can also reduce the dimension in the direction perpendicular to the axis. is there. In this way, the size of the fuel filter device (1) can be reduced in the direction perpendicular to the axis of the filter body.

  In addition, the code | symbol in the parenthesis attached | subjected to each said means is an example which shows a corresponding relationship with the specific means as described in embodiment mentioned later.

It is sectional drawing which shows the structure of the fuel filter apparatus in 1st Embodiment to which this invention is applied. It is a perspective view which shows the filter medium which comprises the filter body used for the fuel filter apparatus of 1st Embodiment. It is a top view of the sheet | seat body wound by 1st Embodiment and used as a filter body. It is sectional drawing which shows the structure of the filter member used for the fuel filter apparatus of 1st Embodiment. It is a top view of the sheet body which becomes a filter body by winding of a 2nd embodiment. It is sectional drawing which shows the structure of the fuel filter apparatus in 3rd Embodiment.

  A plurality of modes for carrying out the present invention will be described below with reference to the drawings. In each embodiment, parts corresponding to the matters described in the preceding embodiment may be denoted by the same reference numerals, and redundant description may be omitted. In the case where only a part of the configuration is described in each embodiment, the other parts of the configuration are the same as those described previously. In addition to the combination of parts specifically described in each embodiment, the embodiments may be partially combined as long as the combination is not particularly troublesome.

(First embodiment)
A first embodiment to which the present invention is applied will be described with reference to FIGS.

  A fuel filter device 1 shown in FIG. 1 is used in, for example, a common rail system that supplies fuel to a diesel engine that is an internal combustion engine. The fuel filter device 1 is mounted, for example, in an engine room of a vehicle and is interposed in a fuel supply path that supplies fuel in a fuel tank to a high-pressure pump, and removes moisture, foreign matter, and the like from the fuel. is there.

  As shown in FIG. 1, the fuel filter device 1 includes a housing 10 and a filter member 20 accommodated in the housing 10.

  The housing 10 includes a cup-shaped (bottomed cylindrical) case 11 constituting an outer shell, and a cap 12 attached to the right opening end of the case 11 in the figure. The case 11 includes a cylindrical portion 111 and a bottom portion 112 that closes the illustrated left end of the cylindrical portion 111, and the cylindrical portion 111 and the bottom portion 112 are integrally formed. The cap 12 includes a disk-shaped flat plate portion 121 and a rib 122 erected on the left side of the flat plate portion 121 in the drawing, and the flat plate portion 121 and the rib 122 are integrally formed.

  A plurality of ribs 122 are provided on the left side of the flat plate portion 121 in the drawing, and the plurality of ribs 122 are disposed on the outer peripheral side of the downstream end opening portion of the introduction passage described later. These are arranged at equal intervals in the circumferential direction, and each extend in the radial direction. The plurality of ribs 122 are extended to positions where their outer ends contact the inner peripheral surface of the cylindrical portion 111, and have a function of positioning the flat plate portion 121 in the radial direction of the cylindrical portion 111. Yes.

  Both the case 11 and the cap 12 are made of, for example, a resin such as polyamide resin, and the right end portion of the cylindrical portion 111 shown in the figure and the outer peripheral edge portion of the flat plate portion 121 are joined to each other by, for example, welding. The cap 12 is attached to. The case 11 and the cap 12 are not limited to resin, and may be made of metal such as iron or aluminum alloy.

  The cap 12 has an introduction pipe 13 projecting toward the right in the figure at the center of the flat plate portion 121. On the other hand, the case 11 has a lead-out pipe 14 that protrudes toward the left in the figure at the center of the bottom 112. A fuel passage is formed in the housing 10 from the fuel introduction passage in the introduction pipe 13 to the fuel lead-out passage in the lead-out pipe 14.

  A filter member 20 is accommodated in the housing 10. The filter member 20 includes a filter body 30, a support body 40 (corresponding to a support member), and an adhesive 50 that bonds the filter body 30 and the support body 40. The filter member 20 is disposed in the housing 10 coaxially with the cylindrical portion 111.

  The filter body 30 is composed of, for example, two filter media made of a pulp material or the like, and has a cylindrical shape as a whole. The filter body 30 includes an outermost filter medium part 33 located on the outermost periphery and an inner filter medium part 34 positioned on the inner side of the outermost filter medium part 33. The outermost filter medium part 33 has a cylindrical shape (cylindrical in this example), and is configured by one outermost filter medium layer in this example. Hereinafter, the axial direction of the outermost periphery filter medium part 33 may be referred to as the XX direction.

  The outermost filter medium part 33 has an annular protruding wall part 33 a that protrudes in the XX direction from the inner filter medium part 34 at the left end (corresponding to one end in the axial direction) of the figure. In this example, the annular protruding wall portion 33a is an annular wall portion, and the support body 40 is disposed inside the annular protruding wall portion 33a.

  The support body 40 that supports the filter body 30 includes a support plate 41 made of a resin such as polyamide resin, and a gasket 42 made of a rubber such as NBR (acrylonitrile butadiene rubber) or fluorine rubber.

  The support plate 41 is integrally formed with a flat plate portion 411 (corresponding to a plate portion), a rib 412, a circumferential wall 413, and the like. The flat plate portion 411 is formed in a plate shape that extends in a direction orthogonal to the XX direction, and the outer peripheral surface 411b is disposed along the inner peripheral surface 33b of the annular projecting wall portion 33a.

  An opening 411 a that penetrates the flat plate portion 411 is formed at the center of the flat plate portion 411. A plurality of ribs 412 are erected on the right side of the flat plate portion 411 in the figure. The plurality of ribs 412 are disposed on the outer peripheral side with respect to the opening 411a. The plurality of ribs 412 are arranged at equal intervals in the circumferential direction, and each extend in the radial direction.

  The plurality of ribs 412 are extended to positions where the outer ends thereof are aligned with the outer peripheral surface 411b (positions that become continuous surfaces). Further, the illustrated right side portion of each of the plurality of ribs 412 is in contact with the illustrated left end of the inner filter material portion 34.

  The circumferential wall 413 is erected on the left side of the flat plate portion 411 on the left side in the drawing from a slightly inner part than the outer periphery. The circumferential wall 413 is disposed coaxially with the outer peripheral surface 411b, and an annular filling groove for filling and applying the adhesive 50 is formed between the circumferential wall 413 and the annular protruding wall portion 33a. Yes. The adhesive 50 filled in the filling groove is formed by the outer surface 411c (corresponding to the left side in the drawing, the bottom surface of the filling groove, and one end side surface) of the outer peripheral edge of the flat plate portion 411 and the inner periphery of the annular protruding wall portion 33a. The surface 33b is joined over the entire circumference. As the adhesive 50, for example, an epoxy adhesive can be employed.

  On the left side of the flat plate portion 411 shown in the figure, an annular housing groove 414 is formed between the two circumferential wall portions erected on the same axis between the standing portion of the circumferential wall 413 and the opening portion 411a. Has been. The gasket 42 is housed in the housing groove 414.

  The gasket 42 which is a seal member is a so-called lip seal member. The gasket 42 has an annular lip portion extending from an annular main body portion accommodated in the accommodation groove 414, and the lip portion is in close contact with the bottom portion 112 of the case 11 in a circumferential shape. The gasket 42 may be mounted in the receiving groove 414 of the support plate 41, but may be provided in advance on the support plate 41 by, for example, two-color molding.

  In the filter member 20, the outermost filter medium part 33 of the filter body 30 is along the inner peripheral surface of the cylindrical part 111, and the illustrated right end of the filter body 30 is pressed against the illustrated left side part of the rib 122, It is disposed at a predetermined position. As the filter member 20 is pressed to the left in the drawing by the rib 122, the lip portion of the gasket 42 is bent and is in close contact with the bottom portion 112.

  The filter member 20 is disposed at a predetermined position in the housing 10 and the gasket 42 forms a seal structure, so that the support 40 divides the space in the housing 10 into two spaces. In the housing 10, an upstream space 10 a upstream of the fuel flow from the filter body 30 is formed, and a downstream space 10 b downstream of the fuel flow from the filter body 30 is formed.

  The upstream space 10 a is a space communicating with the fuel introduction passage in the introduction pipe 13. The rib 122 supports the right end of the filter body 30 in the drawing, so that an upstream space 10 a is formed between the flat plate portion 121 of the cap 12 and the filter body 30.

  The downstream space 10 b is a space that communicates with the fuel outlet passage in the outlet pipe 14. The downstream space 10 b includes a space between the support body 40 and the bottom portion 112, an inner space from the gasket 42, an opening 411 a, and a space between the flat plate portion 411 and the inner filter material portion 34.

  Here, the manufacturing method of the filter member 20 is demonstrated. As shown in FIG. 2, the filter body 30 is formed of two filter media, a flat filter medium 31 and a corrugated filter medium 32.

  When the filter body 30 is formed, first, the flat filter medium 31 and the corrugated filter medium 32 shown in FIG. 2 are bonded to produce a sheet body 30A as shown in FIG. The corrugated filter medium 32 of this example is a corrugated sheet having a cross section in which semicircular arcs are continuous, and the folded portion between adjacent arcs is bonded to the flat filter medium 31.

  As shown in FIG. 2, the flat filter medium 31 and the corrugated filter medium 32 have a rectangular shape with a long side length and a short side length that are equal to each other (in this example, a strip shape with a relatively long long side). However, the flat filter medium 31 has a rectangular protruding portion 31a at a part of the end portion on the long side (upper right portion in the figure). As a result, as shown in FIG. 3, in the sheet body 30 </ b> A in which the filter media 31 and 32 are overlapped and bonded to each other, the protruding portion 31 a protrudes upward in the figure without overlapping the corrugated filter media 32. .

  When this sheet body 30A is wound from the left so that the corrugated filter medium 32 is inside with the left side portion in the figure as the center, the lower portion in the figure of the protruding portion 31a is located on the outermost periphery of the filter body 30. . The flat filter medium 31 of this part becomes the outermost periphery filter medium part 33 mentioned above, and the protrusion part 31a becomes the cyclic | annular protrusion wall part 33a. Therefore, the dimension of the protruding part 31a in FIG. The portion of the flat filter medium 31 that does not become the outermost filter medium part 33 and the entire corrugated filter medium 32 become the inner filter medium part 34.

  When the sheet body 30A shown in FIG. 3 is formed, the flat filter medium 31 and the corrugated filter medium 32 are bonded to form an internal space inside. The internal space is a space having a semicircular cross section, extends in the vertical direction in the figure, and the ceiling portion at the upper end in FIG. 3 is closed with an adhesive. Therefore, the sheet body 30A is a sheet in which the columnar (having a ceiling portion) tubular filter media forming an internal space which is a semi-cylindrical space (so-called kamaboko-shaped space) are arranged in a line and connected in parallel. Is the body. The internal space of the tubular filter medium is a space communicating with the upstream space 10a in FIG.

  When the sheet body 30A is wound, the filter body 30 is formed by adhering an adhesive between the flat filter medium 31 and the corrugated filter medium 32 of adjacent layers. The adhesive for adhering the adjacent flat filter medium 31 and the corrugated filter medium 32 by winding is disposed in the vicinity of the opening-side end portion of the bottomed tubular filter medium. The space above the adhesive in the drawing, which adjoins the flat filter medium 31 and the corrugated filter medium 32 adjoining each other, is the external space of the tube-shaped filter medium. The outer space of the tubular filter medium is a space communicating with the downstream space 10b in FIG.

  Thus, the filter body 30 is a so-called honeycomb-shaped filter body having a very large filtration area with respect to the physique.

  When the filter body 30 is formed by winding the sheet body 30 </ b> A, the support body 40 is attached to the filter body 30. As shown in FIG. 4, for example, the filter body 30 is placed so that the protruding direction of the annular protruding wall portion 33a is upward, and the support body 40 is disposed inside the annular protruding wall portion 33a from above in the drawing. The rib 412 of the support body 40 comes into contact with the upper end of the inner filter member 34 in the figure, and the positional relationship between the filter body 30 and the support body 40 is determined.

  When the filter body 30 and the support body 40 are combined, the adhesive 50 is applied to the outer surface 411c (the upper surface on the outer peripheral side of the peripheral wall 413) of the flat plate portion 411 of the support plate 41 from above in the drawing. Then, the adhesive 50 is cured to bond the inner peripheral surface 33b of the annular projecting wall portion 33a and the outer surface 411c of the flat plate portion 411. In this way, the filter member 20 can be obtained.

  In the fuel filter device 1 shown in FIG. 1, the fuel introduced into the housing 10 via the introduction pipe 13 flows into the upstream space 10 a and enters the above-described tubular filter medium of the filter body 30 from the right end face in the figure. Inflow. The fuel that has flowed into the filter body 30 is filtered when passing through either the flat filter medium 31 or the corrugated filter medium 32, and flows out of the tube-shaped filter medium (external space of the above-described tube-shaped filter medium). The fuel from which moisture and foreign matter have been removed by passing through the filter media 31 and 32 flows from the external space to the downstream space 10b and is led out of the housing 10 through the lead-out pipe 14.

  According to the fuel filter device 1 having the above-described configuration, the filter body 30 has the cylindrical outermost filter medium part 33 and the inner filter medium part 34 positioned inward of the outermost filter medium part 33. Yes. The outermost filter medium part 33 protrudes in the axial direction from the inner filter medium part 34 at one end in the axial direction of the outermost filter medium part 33 to form an annular protruding wall part 33a. A support body 40 that divides the space in the housing 10 into an upstream space 10a and a downstream space 10b and supports the filter body 30 is disposed inward of the annular projecting wall portion 33a. It is joined to the inner peripheral surface 33b.

  According to this, the support body 40 is arrange | positioned inside the annular protrusion wall part 33a which the outermost periphery filter media part 33 of the filter body 30 protruded in the XX direction, and is joined to the inner peripheral surface 33b of the annular protrusion wall part 33a. Yes. Therefore, it is not necessary to provide the joint part of the support body 40 with the filter body 30 outside the outer periphery of the filter body 30.

  As is clear from FIGS. 1 and 4, the entire support body 40 is disposed within the projection range of the filter body 30 in the XX direction. That is, when viewed from the XX direction, the entire support body 40 is disposed inward of the outer periphery of the filter body 30.

  Thereby, the dimension of the radial direction of the filter member 20 which is a joined body of the filter body 30 and the support body 40 can be made small, and the housing 10 which accommodates the filter member 20 can also make the dimension of a radial direction small. it can. In this way, the physique of the fuel filter device 1 can be reduced in size in the radial direction of the filter body 30 (direction perpendicular to the axis).

  Further, the filter body 30 is formed by winding a sheet body 30A in which a flat filter medium 31 and a corrugated filter medium 32 are joined. The outermost filter medium part 33 is composed of a flat filter medium 31 located on the outermost part of the filter body 30.

  According to this, in the filter body 30 having a relatively large filtration area constituted by winding the sheet body 30A in which the plate-like filter medium 31 and the corrugated filter medium 32 are joined, the plate-like shape positioned at the outermost part when wound. The annular protruding wall portion 33a can be easily formed with the filter medium 31.

  Further, the support 40 and the inner peripheral surface 33 b of the annular projecting wall 33 a are joined by an adhesive 50. According to this, the support body 40 and the inner peripheral surface 33b of the annular projecting wall portion 33a can be easily joined with the adhesive 50.

  Further, the support 40 has a flat plate portion 411 disposed so that the outer peripheral surface 411b in the spreading direction is along the inner peripheral surface 33b of the annular projecting wall portion 33a, and the adhesive 50 is an outer peripheral edge of the flat plate portion 411. The outer surface 411c of the part and the inner peripheral surface 33b of the annular projecting wall 33a are joined.

  According to this, the adhesive 50 which joins the flat plate part 411 of the support body 40 and the inner peripheral surface 33b of the annular projecting wall part 33a is a surface on the projecting direction side of the annular projecting wall part 33a out of both surfaces of the flat plate part 411. Placed on top. That is, the adhesive 50 is disposed on the surface of the flat plate portion 411 on the side opposite to the inner filter material portion. Therefore, it is easy to dispose the adhesive 50 that bonds the outer peripheral edge of the flat plate portion 411 and the inner peripheral surface 33b of the annular projecting wall 33a after the filter body 30 and the support body 40 are positioned relative to each other. It is.

(Second Embodiment)
Next, a second embodiment will be described based on FIG.

  2nd Embodiment differs in the structure of the sheet | seat body used as a filter body compared with the above-mentioned 1st Embodiment. In addition, about the part similar to 1st Embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted. Components having the same reference numerals as those in the drawings according to the first embodiment and other configurations not described in the second embodiment are the same as those in the first embodiment, and have the same effects. .

  As shown in FIG. 5, in the present embodiment, a sheet body 30 </ b> B is formed by bonding a flat filter medium 31 </ b> B and a corrugated filter medium 32. The outer shape of the flat filter medium 31B is substantially the same as the corrugated filter medium 32. As shown in FIG. 5, the flat filter medium 31 </ b> B and the corrugated filter medium 32 are overlapped so that the vertical position in the figure substantially coincides with the left end in the figure.

  However, in the right side of the figure, the flat filter medium 31B and the corrugated filter medium 32 are overlapped so that the extending directions of the long sides are slightly different. Specifically, for example, from the left end of the figure, when the band-shaped flat filter medium 31B and the corrugated filter medium 32 are sequentially overlapped, the flat filter medium 31B and the corrugated filter medium 32 for a while after the start of superposition. The positions in the vertical direction (width direction) in the figure are matched. Then, when approaching the right side in the figure, the plate-like filter medium 31B is superimposed on the corrugated filter medium 32 so as to be shifted upward in the figure as it goes to the right in the figure. In the present embodiment, the upper portion in the figure that does not overlap the corrugated filter medium 32 of the flat filter medium 31B is a protrusion 31Ba. And when the sheet | seat body 30B is wound, the cyclic | annular protrusion wall part 33a of a filter body is formed of protrusion part 31Ba.

  According to this embodiment, the same effect as that of the first embodiment can be obtained. Moreover, it is not necessary to provide a rectangular protrusion on the flat filter medium 31B. Therefore, both the flat filter medium 31B and the corrugated filter medium 32 can be formed as band-shaped members, and the filter body can be easily manufactured.

(Third embodiment)
Next, a third embodiment will be described with reference to FIG.

  The third embodiment is different from the first embodiment described above in that an introduction pipe and a discharge pipe are provided at the same end of the housing. In addition, about the part similar to 1st Embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted. Components having the same reference numerals as those in the drawings according to the first embodiment, and other configurations not described in the third embodiment are the same as those in the first embodiment, and have the same effects. .

  As shown in FIG. 6, the fuel filter device of the present embodiment includes a housing 310 and a filter member 320 accommodated in the housing 310. The housing 310 includes a cup-shaped (bottom-bottomed cylindrical) case 311 constituting an outer shell, and a cap 312 attached to the right opening end of the case 311 in the figure.

  Both the case 311 and the cap 312 are made of, for example, a resin such as a polyamide resin, and the right end portion of the cylindrical portion 111 and the outer peripheral edge portion of the flat plate portion 121 are joined to each other by, for example, welding. A cap 312 is attached. The case 311 and the cap 312 are not limited to resin, and may be made of metal such as iron or aluminum alloy.

  The case 311 has an L-shaped introduction pipe 13 projecting outward at the center of the bottom 112. The case 311 has an L-shaped lead-out pipe 14 projecting outward from the peripheral edge of the bottom 112. A fuel passage is formed in the housing 310 from the fuel introduction passage in the introduction pipe 13 to the fuel lead-out passage in the lead-out pipe 14.

  A filter member 320 is accommodated in the housing 310. The filter member 320 includes a filter body 30, a support body 340 (corresponding to a support member), and an adhesive 50 that bonds the filter body 30 and the support body 340. The filter member 320 is disposed in the housing 310 coaxially with the cylindrical portion 111.

  The filter body 30 of the present embodiment is configured, for example, by winding the sheet body 30A described in the first embodiment around a center pipe 3415 described later. A support body 340 is disposed inside the annular projecting wall portion 33a of the filter body 30. Also in the filter member 320, the adhesive 50 joins the outer surface 411c of the outer peripheral edge portion of the flat plate portion 411 and the inner peripheral surface 33b of the annular protruding wall portion 33a over the entire circumference.

  The support body 340 that supports the filter body 30 includes a support plate 341 made of a resin such as a polyamide resin and a gasket 42. The support plate 341 is integrally formed with a flat plate portion 411, a rib 412, a peripheral wall 413, a center pipe 3415, and the like. A plurality of openings 411d are formed in the peripheral portion surrounding the opening 411a of the flat plate portion 411 so as to penetrate the flat plate portion 411 and spaced in the circumferential direction. The opening 411d is formed between the plurality of ribs 412 standing portions.

  In the filter member 320, the outermost filter medium portion 33 of the filter body 30 extends along the inner peripheral surface of the cylindrical portion 111, and the illustrated right end of the filter body 30 is pressed against the illustrated left side portion of the rib 122, It is disposed at a predetermined position.

  The filter member 320 is disposed at a predetermined position in the housing 310, and the gasket 42 forms a seal structure, so that the support 340 divides the space in the housing 310 into two spaces. In the housing 310, an upstream space 10a on the upstream side of the fuel flow from the filter body 30 is formed, and a downstream space 10b on the downstream side of the fuel flow from the filter body 30 is formed.

  The upstream space 10 a is a space communicating with the fuel introduction passage in the introduction pipe 13. The upstream space 10 a is a space between the support 340 and the bottom 112, a space inside the gasket 42, the opening 411 a, the center pipe 3415, and the flat plate portion 121 of the cap 312 and the filter body 30. It consists of a space between.

  The downstream space 10 b is a space that communicates with the fuel outlet passage in the outlet pipe 14. The downstream space 10 b includes a space between the flat plate portion 411 and the inner filter material portion 34, an opening portion 411 d, and a space between the support 340 and the bottom portion 112 and outside the gasket 42.

  According to this embodiment, the same effect as that of the first embodiment can be obtained. Further, since the filter body 30 is formed by winding the sheet body 30A around the center pipe 3415, it is very easy to form the filter body 30.

(Other embodiments)
The preferred embodiments of the present invention have been described above, but the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention.

  In each said embodiment, although the outermost periphery filter material part 33 of the filter body 30 was comprising the cylindrical shape, it is not limited to this. For example, the outermost filter medium part 33 may have an elliptical cylindrical shape or a rectangular cylindrical shape.

  Moreover, in each said embodiment, although the outermost periphery filter material part 33 of the filter body 30 was comprised by the flat filter material 31 of one layer, it is not limited to this. For example, the outermost filter medium part may be constituted by two or more layers of filter mediums integrated. That is, the annular projecting wall portion may be made of two or more layers of filter media integrated.

  In each of the above embodiments, the filter body 30 is a so-called honeycomb-shaped filter body, and the inner filter medium portion 34 is constituted by the corrugated filter medium 32 and the flat filter medium 31, but is not limited thereto. It is not a thing. For example, an inner filter medium part formed by bending a continuous filter medium from the outermost filter medium part may be used.

  Moreover, in each said embodiment, although the outer surface 411c of the outer peripheral edge of the flat plate part 411 and the inner peripheral surface 33b of the cyclic | annular protrusion wall part 33a were adhere | attached with the adhesive agent 50, it is limited to this. is not. For example, an adhesive may be interposed between the outer peripheral surface 411b of the flat plate portion 411 and the inner peripheral surface 33b of the annular protruding wall portion 33a to bond both surfaces.

  Moreover, in each said embodiment, although the support body was provided with the flat plate part 411 extended to radial direction, and the flat plate part 411 and the cyclic | annular protrusion wall part 33a were adhere | attached, it is not limited to this. For example, the portion of the support that adheres to the annular protruding wall portion 33a may be a curved plate-like portion.

  Moreover, in each said embodiment, although the support body and the internal peripheral surface of the cyclic | annular protrusion wall part were adhere | attached, it is not limited to this. For example, you may join a support body and the internal peripheral surface of a cyclic | annular protrusion wall part by heat welding.

  Moreover, in each said embodiment, although the housing comprised the case and the cap combining, it is not limited to this, For example, you may comprise a housing combining three or more members. Further, the joining of the plurality of members when forming the housing is not limited to welding, and may be, for example, adhesion or screwing.

  Moreover, in each said embodiment, although the fuel filter apparatus was used for the common rail system which supplies a fuel to a diesel engine, it is not limited to this. For example, it may be employed in a fuel supply system for a diesel engine using a distribution pump, or may be employed in a fuel supply system for a gasoline engine.

DESCRIPTION OF SYMBOLS 1 Fuel filter apparatus 10,310 Housing 10a Upstream space 10b Downstream space 30 Filter body 33 Outermost filter medium part 33a Annular protrusion wall part 33b Inner peripheral surface 34 Inner filter medium part 40, 340 Support body (support member)

Claims (4)

A housing (10) through which fuel flows;
A filter body (30) accommodated in the housing (10) and for filtering fuel flowing through the housing (10);
The space in the housing (10) is divided into an upstream space (10a) on the upstream side of the fuel flow with respect to the filter body (30) and a downstream space (10b) on the downstream side of the fuel flow with respect to the filter body (30). A partition member and a support member (40) for supporting the filter body (30),
The filter body (30)
While having a cylindrical outermost filter medium part (33) and an inner filter medium part (34) located inward of the outermost filter medium part (33),
At one end in the axial direction (XX) of the outermost filter medium part (33), the outermost filter medium part (33) protrudes in the axial direction (XX) more than the inner filter medium part (34), and an annular protruding wall Part (33a),
The support member (40)
The fuel filter device, wherein the fuel filter device is disposed inward of the annular projecting wall portion (33a) and joined to an inner peripheral surface (33b) of the annular projecting wall portion (33a). The filter body (30) is formed by winding a sheet body (30A) in which a flat filter medium (31) and a corrugated filter medium (32) are joined.
2. The fuel filter device according to claim 1, wherein the outermost filter medium part (33) includes the flat filter medium (31) positioned at the outermost part of the filter body (30).   The fuel filter device according to claim 1 or 2, wherein the support member (40) and the inner peripheral surface (33b) are joined together by an adhesive (50). The support member (40) has a plate portion (411) disposed so that an outer peripheral surface (411b) in the spreading direction is along the inner peripheral surface (33b).
The adhesive (50) includes a surface (411c) opposite to the inner filter material (34) in the axial direction (XX) of the outer peripheral edge of the plate (411), The fuel filter device according to claim 3, wherein the fuel filter device is joined to the inner peripheral surface (33 b).

Images