JP7295601B2 - Filter element cartridge and filtration device - Google Patents

Description

The present invention relates to a filter element cartridge and a filter device that are attached to a filter device for filtering fuel or oil of an internal combustion engine such as an automobile.

2. Description of the Related Art Conventionally, filter element cartridges are detachably attached to filtration devices for filtering fuel or oil in internal combustion engines such as automobiles. For example, Patent Literature 1 below discloses a filter element assembly as a filter element cartridge configured such that fuel to be filtered is introduced into the filter element after flowing through a cylindrical body penetrating the filter element. ing.

JP 2014-194215 A

However, in the filter element cartridge described in Patent Document 1, the fuel to be filtered is guided into the filter element after flowing through the cylindrical body. There is a concern that the flow path leading to the fuel is long, and foreign matter contained in the fuel adheres or accumulates in the flow path, hindering the flow of the fuel.

SUMMARY OF THE INVENTION The present invention has been made to address the above-mentioned problems, and its object is to shorten the flow path through which the fuel to be filtered is guided to the filter element so that foreign substances contained in the fuel remain in the flow path. An object of the present invention is to provide a filter element cartridge and a filtering device capable of suppressing the

In order to achieve the above object, a feature of the present invention is a case in which an introduction path for introducing a liquid into a storage section that temporarily stores the liquid and a discharge path for discharging the liquid in the storage section are arranged adjacent to each other. A filter element cartridge for purifying a liquid introduced from an introduction passage and discharging it to a discharge passage, wherein the filter element has an introduction end face facing the introduction passage and is formed in a cylindrical shape to be fitted in the case. a return passage pipe axially penetrating through the center of the filter element and opening on the introduction end face side and the discharge end face side opposite to the introduction end face, and both end portions of the return passage pipe, and a discharge communication pipe for liquid-tightly connecting the opening on the introduction end face side of the filter element with the discharge channel, and the introduction end face of the filter element can take in the liquid introduced from the introduction channel into the filter element. The discharge end face is exposed so as to discharge the liquid that has passed through the inside of the filter element into the storage part, and the discharge communication pipe is made of an elastic material and is located on the inner side surface of the case. It has an annular case connection portion that is pressed against the periphery, and an annular support portion that supports the case connection portion that is pressed against the inner surface of the case, and the support portion presses the case connection portion against the inner surface of the case. It is to have an annular groove recessed along the circumferential direction in the portion .

According to the features of the present invention configured as described above, in the filter element cartridge, the liquid introduced into the storage portion from the introduction passage is immediately taken into the filter element from the introduction end face of the filter element and is discharged through the discharge communication pipe. Since the liquid to be filtered is guided to the discharge path, it is possible to shorten the flow path along which the liquid to be filtered is guided to the filter element, thereby suppressing foreign substances contained in the liquid from remaining in the flow path.

Also according to a feature of the invention, the filter element cartridge has an annular case connection where the discharge passage tube is larger in diameter than the discharge passage on the inner surface of the case and is pressed around the same discharge passage. Therefore, it can be commonly used for a plurality of types of cases having different discharge passage positions.

Further, according to the feature of the present invention, in the filter element cartridge, the annular support portion that supports the case connection portion that is pressed against the inner surface of the case has an annular groove that is recessed along the circumferential direction. Further, it is possible to improve the tightness between the case connecting portion and the supporting portion regardless of the hardness or molding accuracy of the case connecting portion, thereby maintaining the liquid-tightness in the discharge communication passage pipe for a long period of time.

Another feature of the present invention is that the filter element cartridge further comprises an introduction end surface covering member having a surface facing the introduction end surface of the filter element and fitted to the outer peripheral surface of the introduction end surface side, The introduction end face cover has a through-hole for allowing the liquid introduced from the introduction path to flow to the introduction end face.

According to another feature of the present invention configured as described above, the filter element cartridge further includes an introduction end face cover that has an opposing surface that faces the introduction end face of the filter element and that is fitted to the outer peripheral surface of the introduction end face side. Since the filter element is provided with the body, it is possible to prevent the liquid from flowing out between the outer peripheral surface of the filter element and the inner peripheral surface of the case while securing the flow of the liquid introduced from the introduction path to the introduction end surface by the communication through hole. Filtration accuracy can be improved. Further, in the filter element cartridge according to the present invention, it is possible to adjust the amount and position of the liquid introduced to the introduction end face of the filter element by appropriately setting the size or shape of the communication through hole.

Another feature of the present invention resides in that, in the filter element cartridge, the discharge communication pipe and the introduction end surface cover are integrally formed.

According to another feature of the present invention configured as described above, since the filter element cartridge has the discharge communicating passage pipe and the introduction end surface covering body integrally formed, the discharge communicating passage pipe and the introduction end surface covering body are integrated with each other. The rigidity can be improved, and the number of parts of the filter element cartridge can be reduced, thereby reducing the burden of managing the assembly work and the work itself.

Another feature of the present invention is that, in the filter element cartridge, the facing surface is formed at a position facing the introduction path.

According to another feature of the present invention configured as described above, the filter element cartridge is formed so that the opposing surface faces the introduction path, so that the liquid supplied from the introduction path hits the opposing surface and the flow is diffused. As a result, the liquid is prevented from flowing intensively into the portion of the inlet end face of the filter element facing the inlet channel, and the filtration accuracy of the filter element can be maintained for a long period of time.

Another feature of the present invention is that, in the filter element cartridge, the facing surface is provided with a gap with respect to the introduction end surface.

According to another feature of the present invention configured as described above, since the opposing surface of the filter element cartridge is provided with a gap with respect to the introduction end surface, the opposing surface closes the introduction end surface, thereby preventing the introduction end surface from reaching the introduction end surface. It is possible to prevent a decrease in the liquid filtering ability by preventing the area for taking in the liquid from decreasing.

According to another feature of the present invention, in the filter element cartridge, the facing surface has a protrusion projecting toward the introduction end surface on the inner surface facing the introduction end surface.

According to the feature of the present invention configured as described above, the filter element cartridge has a protrusion projecting toward the introduction end surface on the inner surface facing the introduction end surface of the opposing surface. It is possible to prevent the entire surface of the filter from coming into contact with the introduction end surface and blocking a part of the introduction end surface, thereby preventing the filtering ability from being lowered.

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In addition, the present invention can be implemented not only as an invention of a filter element cartridge, but also as an invention of a filtering apparatus equipped with this filter element cartridge.

Specifically, the filtering device is provided in a case in which an introduction path for introducing liquid into a storage section that temporarily stores the liquid and a discharge path for discharging the liquid in the storage section are arranged adjacent to each other. In a filtering device provided with a filter element cartridge for purifying a liquid introduced from an introduction path and discharging it to a discharge path, the filter element cartridge has an introduction end face facing the introduction path and has a cylindrical shape fitted in the case. a return passage pipe axially penetrating through the center of the filter element and opening on the introduction end face side and the discharge end face side opposite to the introduction end face, and the return passage The filter element is provided with a discharge communication channel pipe that liquid-tightly communicates an opening on the introduction end face side of both ends of the pipe with the discharge channel, and the filter element has an introduction end face that allows the liquid introduced from the introduction channel to flow into the filter element. The discharge end surface is exposed so as to discharge the liquid that has passed through the inside of the filter element into the storage portion , and the discharge communication pipe is made of an elastic material and is disposed inside the case. It has an annular case connection portion pressed around the discharge passage on the side surface and an annular support portion supporting the case connection portion pressed against the inner surface of the case, the support portion connecting the case connection portion to the case. The part pressed against the inner surface has an annular groove recessed along the circumferential direction . According to this, the filtering device can be expected to have the same effect as the filter element described above.

FIG. 2 is a perspective view showing an outline of the external configuration of a filter element cartridge provided in the filtering device according to the present invention; FIG. 2 is a front view schematically showing the external configuration of the filter element cartridge shown in FIG. 1; FIG. 2 is a cross-sectional view schematically showing the configuration of a filtering device provided with the filter element cartridge shown in FIG. 1; FIG. 2 is a perspective view of the external configuration of an introduction end face cover provided in the filter element cartridge shown in FIG. 1 as viewed from the inner surface side;

Hereinafter, one embodiment of a filter element cartridge according to the present invention and a filter device provided with this filter element cartridge will be described with reference to the drawings. FIG. 1 is a perspective view schematically showing the external configuration of a filter element cartridge 110 provided in a filtering device 100 according to the present invention. FIG. 2 is a front view schematically showing the external configuration of the filter element cartridge 110 shown in FIG. 1. FIG. 3 is a cross-sectional view schematically showing the configuration of a filtering device 100 including the filter element cartridge 110 shown in FIG. 1. As shown in FIG. This filtering device 100 is a device for filtering out physical foreign matter contained in fuel such as gasoline or oil in an internal combustion engine such as a four-wheeled vehicle.

(Configuration of filtering device 100)
Filter device 100 includes case 101 . The case 101 is a resin container that accommodates the filter element cartridge 110, and mainly includes a case body 102, a lid 103, and a connector 105, respectively. The case main body 102 is a component that accommodates a portion (lower side in the figure) of the filter element cartridge 110, and is formed in a bottomed cylindrical shape with a wall portion standing upright on the periphery of a disk.

The lid 103 is a part that covers the opening of the case body 102 and accommodates another portion (the upper side in the drawing) of the filter element cartridge 110, and is formed with a wall hanging down from the peripheral edge of the disk. It is formed in a hollow cylindrical shape. That is, the case main body 102 and the lid 103 are integrally assembled to form a housing portion 104 for housing the entire filter element cartridge 110 in the internal space. The cover 103 is formed with an introduction path 103a and a discharge path 103b.

The introduction path 103a is a portion for introducing fuel (not shown) as a liquid to be filtered by the filter element cartridge 110 into the storage section 104, and is a tube integrally formed on the outer surface of the lid 103. A path is formed to open on the inner surface of the lid 103 . This introduction passage 103a is connected to a fuel tank via a pipe and a fuel supply pump (not shown). The introduction path 103a is formed at a position radially displaced from the center of the lid 103. As shown in FIG.

The discharge passage 103 b is a portion for guiding the fuel filtered in the storage portion 104 to the outside of the storage portion 104 , and a pipe line integrally formed on the outer surface of the lid 103 is connected to the inner surface of the lid 103 . is formed with an opening in the A part of the discharge passage 103b is led to the internal combustion engine via a pipe (not shown), and the other part is connected to the fuel tank. The discharge path 103b is formed in the central portion of the lid 103. As shown in FIG.

The connector 105 is a component for detachably connecting the case body 102 and the lid 103 to each other, and is configured by forming a female screw on the inner peripheral surface of a cylindrical body. That is, the connector 105 is screw-fitted into the seam portion between the case body 102 and the cover 103 arranged on the opening of the case body 102 to detachably connect the case body 102 and the cover 103 to each other. .

The filter element cartridge 110 is a component for filtering the fuel guided into the housing portion 104, and mainly includes a filter element 111, a return passage pipe 112, and a liquid supply/drainage aid 120, respectively.

The filter element 111 is a component for filtering the fuel guided into the housing portion 104, and is configured by rolling a sheet-like filter paper into a cylindrical shape. In this case, the filter element 111 is formed to have an outer diameter that is fitted to the inner peripheral surface of the case main body 102 with a slight gap or a contact therebetween. In the filter element 111, one (upper in the drawing) end face of the cylindrical body constitutes an inlet end face 111a and the other (lower in the drawing) end face constitutes a discharge end face 111b.

The introduction end surface 111 a is a portion that takes in the fuel introduced into the housing portion 104 through the introduction path 103 a and is arranged so as to face the inner surface of the lid 103 . The discharge end face 111b is a portion from which the fuel that has passed through the filter element 111 flows out from the filter element 111, and is arranged to face the bottom of the case main body 102. As shown in FIG.

The return passage pipe 112 is a part made of resin for returning the fuel that has flowed out from the discharge end surface 111b of the filter element 111 to the discharge passage 103b side, and has a circular tubular shape that penetrates through a through hole formed in the center of the filter element 111. is formed in One end (the upper side in the drawing) of the return passage pipe 112 protrudes from the introduction end surface 111 a of the filter element 111 and is connected to the discharge communication pipe 121 of the liquid supply/drainage aid 120 .

The other (upper in the drawing) end of the return passage pipe 112 protrudes from the discharge end face 111b of the filter element 111 and has a sub-filter holding portion 113 formed thereon. Further, the return passage pipe 112 is formed in a tapered shape in which the thickness of the pipe constituting the pipe increases from the one end to the other end. It is configured to center and hold the element 111 . Further, the return passage pipe 112 is formed to have an outer diameter that is fitted to the inner peripheral surface of the filter element 111 with a contact or a slight gap.

The sub-filter holding portion 113 is a portion that holds the sub-filter 114, and is mainly composed of a holding portion 113a and a bottom plate 113d. The holding portion 113a is a portion that holds the sub-filter 114 formed in an annular shape, and is formed at the other end portion of the return passage pipe 112 so as to expand radially outward in a disc shape.

In this case, on the plate surface of the holding portion 113a, three inner support portions 113b that define the position of the inner surface of the sub-filter 114 are formed along the circumferential direction in a state of protruding toward the bottom plate 113d. An outer support portion 113c that defines the position of the inner surface of the sub-filter 114 and detachably holds the bottom plate 113d protrudes toward the bottom plate 113d at the outer peripheral portion of the plate surface of the holding portion 113a. Three are formed along the

The bottom plate 113d is a part for sandwiching and holding the sub-filter 114 fitted to the inner supporting portion 113b and the outer supporting portion 113c of the holding portion 113a together with the holding portion 113a. It is The central portion of the bottom plate 113d protrudes toward the holding portion 113a in a conical shape, and the outer peripheral portion of the bottom plate 113d is formed with a hook portion for hooking the hook-shaped portion formed at the tip portion of the outer support portion 113c. It is

The sub-filter 114 is a component that filters the fuel flowing out from the discharge end face 111b of the filter element 111 and allows it to flow through the return passage pipe 112, and is made of a resin-made elastic porous body. In this case, the porous material may be a foam material having open cells, a network structure, or a fiber assembly in which a large number of fibers are entangled. In this embodiment, the sub-filter 114 is configured by stacking a plurality of (five in this embodiment) annular flat plate-shaped sub-filters 114. However, it is possible to configure the sub-filter 114 by a single cylindrical body. can also

The liquid supply/drainage aid 120 is a resin component for assisting the supply and discharge of fuel to/from the filter element 111, and mainly includes a discharge communication pipe 121 and an introduction end surface cover 124. . The discharge communication pipe 121 is a component for guiding the fuel guided by the return pipe 112 to the discharge passage 103b, and mainly includes a pipe-side connection portion 121a, a case connection portion 122 and a support portion 123, respectively. ing.

As shown in FIG. 4, the pipe-side connecting portion 121a is a portion that is inserted into and airtightly connected to one end (the upper side in the drawing) of the return passage pipe 112, and is formed in a cylindrical shape. In this case, the pipe-side connecting portion 121a is fixed to one end (the upper side in the drawing) of the return passage pipe 112 using an adhesive or the like.

The case connecting portion 122 is a portion connected to the discharge path 103b on the inner surface of the lid 103, and is made of a rubber material or an elastomer that elastically deforms when pressed around the discharge path 103b and adheres liquid-tightly. It is constructed by forming an elastic material into a cylindrical shape. In this case, the case connecting portion 122 is formed with a sufficiently large inner diameter that is two to five times the inner diameter of the discharge passage 103b.

The support portion 123 is a portion that supports the case connection portion 122, and is mainly composed of an inner fitting portion 123a and a receiving portion 123b. The inner fitting portion 123 a is formed in a cylindrical shape that fits into the inner diameter of the case connecting portion 122 . The receiving portion 123b is a portion that supports the illustrated lower surface of the case connecting portion 122 and presses the supporting portion 123 against the lid body 103, and is formed in an annular shape. In this case, a plurality of recessed annular grooves 123c are concentrically formed in a portion of the receiving portion 123b on which the case connecting portion 122 is placed.

The lead-in end surface covering member 124 is a component that covers a part of the lead-in end surface 111a of the filter element 111 and is fitted to the outer edge, and is formed in a substantially disc shape in plan view. The lead-in end surface covering body 124 is mainly configured with a facing surface 125, a communication through-hole 126, and a fitting portion 127, respectively.

As shown in FIG. 4, the opposing surface 125 is a portion of the filter element 111 that faces the introduction end surface 111a, and is formed in a plate shape. The opposing surface 125 is formed so that the inner side surface 125a on the side of the introduction end surface 111a does not come into contact with the introduction end surface 111a with the gap S interposed therebetween. In this case, the facing surface 125 is formed with a protrusion 125b protruding from the inner surface 125a toward the introduction end surface 111a.

The projecting portion 125b is a portion for preventing the inner side surface 125a of the opposing surface 125 from coming into close contact with the introduction end surface 111a. formed to protrude from the In this case, the protruding portion 125 is formed with a protruding amount that contacts the introduction end surface 111a in this embodiment, but may be formed with a protruding amount that does not contact the introduction end surface 111a.

The flow through-hole 126 is a portion for allowing the fuel supplied from the introduction path 103a to flow toward the introduction end surface 111a, and is configured by a through-hole penetrating the opposing surface 125. As shown in FIG. In this case, the opening area of the through-hole 126 is appropriately set according to the amount of fuel that is desired to flow through the introduction end surface 111a.

The fitting portion 127 is a portion fitted to the outer edge portion of the filter element 111, and is formed in a hollow cylindrical shape that covers the outer edge portion of the introduction end face 111a and fits to the outer peripheral portion adjacent to the outer edge portion. . The lower end portion of the fitting portion 127 is placed on the upper end portion of the annular ring of the case body 102 so that the filter element 111 is arranged in the accommodating portion 104 in a floating state without bottoming. To support. A sealing member such as an O-ring is provided on the outer periphery of the fitting portion 127 to prevent the fuel on the introduction end surface cover 124 from entering between the filter element 111 and the case body 102 .

The discharge communication pipe 121 and the introduction end surface cover 124 are integrally formed by a molding method such as injection molding of a resin material to constitute the liquid supply/drainage aid 120, but they are separately formed. The liquid supply/drainage assisting tool 120 can also be configured by assembling them together.

(Operation of filtering device 100)
Next, the operation of the filter device 100 configured in this manner will be described. This filtering device 100 is used with a filter element cartridge 110 set in a case 101 arranged in an engine room of an automobile.

Specifically, an operator who sets the filter element cartridge 110 in the case 101 inserts the filter element cartridge 110 into the case body 102 and fits the case body 102 into the lid 103 . In this case, the operator can fit the case main body 102 to the lid 103 while the facing surface 125 of the filter element cartridge 110 is positioned to face the introduction path 103a of the lid 103 .

Next, the worker fastens the case body 102 to the lid body 103 using the connector 105 . As a result, the filter element cartridge 110 is arranged in the housing portion 104 with the case connecting portion 122 pressed against the inner surface of the lid 103 . Of course, the operator may fit the case main body 102 to the lid 103 in a position where the facing surface 125 of the filter element cartridge 110 is not opposed to the introduction path 103a of the lid 103. is.

When using the filter device 100, fuel is supplied from a fuel tank (not shown) through the introduction passage 103a (see the dashed arrow in FIG. 3). In this case, the area above the inlet end surface 111a in the drawing is separated from the inner surface of the lid 103 and the case main body 102 by the case connecting portion 122 of the discharge communicating pipe 121 and the fitting portion 127 of the inlet end surface cover 124. The space between them and the inner surface is closed. Therefore, the fuel supplied to the housing portion 104 of the case 101 does not enter the discharge communication pipe 121 and between the filter element 111 and the case body 102, but passes through the communication through-hole 126 to the filter element 111. flows into the introduction end face 111a.

In this case, the opposed surface 125 prevents the fuel from being directly guided to the introduction end surface 111a, and the inner surface 125a of the opposed surface 125 is separated from the introduction end surface 111a, so that the fuel is evenly distributed over the entire introduction end surface 111a. It can flow into the introduction end face 111a. After entering the filter element 111 through the inlet end face 111a, the fuel flows out from the discharge end face 111b after physical foreign matter is filtered out by the filter element 111 (see the dashed arrow in FIG. 3).

The fuel that has flowed out of the filter element 111 temporarily stays in a region below the discharge end face 111b in the housing portion 104, and then enters the sub-filter holding portion 113 via the sub-filter 114 (see FIG. 3). (see dashed arrow in ). Next, the fuel that has entered the interior of the sub-filter holding portion 113 flows into the return passage pipe 112, flows through the return passage pipe 112 toward the discharge communication pipe 121 side (upper side in the drawing), and then flows into the discharge communication passage. It flows into the discharge passage 103b via the pipe 121 (see the dashed arrow in FIG. 3). As a result, the fuel in the storage portion 104 is discharged from the filter element cartridge 110 to the outside (see the dashed arrow in FIG. 3).

When the filtering performance of the filter element 111 is deteriorated due to the use of such a filtering device 100, the filter element cartridge 110 can be replaced. Specifically, after loosening the tightening state of the connecting member 105 and separating the case body 102 from the lid body 103, the operator removes the filter element cartridge 110 from the inside of the case body 102 and replaces it with a new filter element cartridge 110. Replace. Next, the operator inserts the filter element cartridge 110 into the case body 102 in the same manner as described above, fits the case body 102 into the cover 103, and tightens the connector 105 to cover the case body 102. It can be attached to body 103 .

As can be understood from the above explanation of the operation, according to the above embodiment, the filter device 100 allows the fuel introduced into the storage portion 104 from the introduction passage 103a to immediately flow into the filter element 111 from the introduction end surface 111a of the filter element 111. Since it is taken in and guided to the discharge passage 103b through the discharge communication pipe 121, the flow passage for the fuel to be filtered is shortened and foreign matter contained in the fuel remains in the flow passage. can be suppressed.

Furthermore, the implementation of the present invention is not limited to the above-described embodiments, and various modifications are possible without departing from the object of the present invention.

For example, in the above embodiment, the filter element cartridge 110 is configured with the liquid supply/drainage aid 120 . However, the filter element cartridge 110 can also be configured without the liquid supply/drainage aid 120 . In this case, the filter element cartridge 110 should be configured so that the return passage pipe 112 is directly connected to the discharge passage 103b.

Further, in the above-described embodiment, the filter element cartridge 110 includes both the discharge communication pipe 121 and the introduction end surface cover 124 . However, the filter element cartridge 110 can also be configured with one of the discharge passage tube 121 and the introduction end surface cover 124 .

In the above-described embodiment, the introduction end surface covering member 124 has the opposing surfaces 125 along the directions perpendicular to each other in the radial direction of the filter element 111 . However, the introduction end surface cover 124 may have the opposing surface 125 formed in a direction other than the direction perpendicular to the radial direction of the filter element 111, for example, radially from the center of the filter element 111, or in a mesh shape. may be formed.

Further, in the above-described embodiment, the facing surface 125 is configured to form the gap S with respect to the introduction end surface 111a of the filter element 111 . As a result, the filter element cartridge 110 can prevent a decrease in the area of the introduction end surface 111a for taking in the fuel, thereby preventing deterioration in the fuel filtering capability. However, the opposing surface 125 can be configured so as to be in close contact with the introduction end surface 111a of the filter element 111 so that the gap S is not formed.

Further, in the above-described embodiment, the facing surface 125 is configured by forming the protruding portion 125b on the inner side surface 125a. As a result, even when the opposing surface 125 is deformed toward the introduction end surface 111a, the filter element cartridge 110 prevents the entire inner surface 125a of the opposing surface 125 from contacting the introduction end surface 111a and blocking a part of the introduction end surface 111a. Therefore, it is possible to prevent deterioration of filtering ability. However, the facing surface 125 can be configured without the protrusion 125b. Further, the facing surface 125 can be configured by forming protrusions 125b that protrude intermittently or in the form of dots instead of the protrusions 125b that protrude continuously in a straight line.

Further, in the above embodiment, the filter element cartridge 110 is configured with the sub-filter 114 . However, the filter element cartridge 110 can also be constructed without the sub-filter 114 . In this case, the filter element cartridge 110 can be configured without the sub-filter holding portion 113 .

Further, in the above-described embodiment, the discharge communication pipe 121 is provided with the size case connection portion 122 that covers the circumference of the discharge passage 103b. However, the case connecting portion 122 may be formed to have an inner diameter approximately the same as the inner diameter of the discharge passage 103b. Further, the discharge communication pipe 121 may be configured such that the case connecting portion 122 is omitted and the discharge communication pipe 121 itself is directly connected to the discharge passage 103b.

In the above-described embodiment, the support portion 123 has an annular groove portion 123c that is recessed along the circumferential direction in the receiving portion 123b that presses the case connection portion 122 against the inner surface of the lid 103 of the case 101. It is configured with As a result, the filter element cartridge 110 improves the tightness between the case connection portion 122 and the receiving portion 123b regardless of the hardness or the molding accuracy of the case connection portion 122, and maintains the liquid tightness in the discharge communication pipe 121 for a long period of time. can be maintained over However, the support portion 123 can also configure the receiving portion 123b by omitting the groove portion 123c.

Further, in the above embodiment, the filter device 100 is configured to filter the fuel of the internal combustion engine. However, the filtration device 100 can be widely applied to filtration of liquids other than fuel for internal combustion engines. For example, filtering device 100 may be configured to filter lubricating or hydraulic oil in an internal combustion engine.

S...Gap,
100... Filtration device,
DESCRIPTION OF SYMBOLS 101... Case, 102... Case main body, 103... Lid body, 103a... Introduction path, 103b... Discharge path, 104... Storage part, 105... Connector,
DESCRIPTION OF SYMBOLS 110... Filter element cartridge 111... Filter element 111a... Introduction end face 111b... Discharge end face 112... Return passage pipe 113... Sub-filter holding part 113a... Holding part 113b... Inner support part 113c... Outer support part , 113d... bottom plate, 114... sub-filter,
DESCRIPTION OF SYMBOLS 120... Liquid supply/discharge auxiliary tool 121... Discharge communication pipe 121a... Pipe side connection part 122... Case connection part 123... Support part 123a... Inside fitting part 123b... Receiving part 123c... Groove part 124 Introductory end surface cover 125 Opposing surface 125a Inner surface 125b Protrusion 126 Through-hole 127 Fitting portion.

Claims (7)

An introduction path for introducing the liquid into a storage section that temporarily stores the liquid and a discharge path for discharging the liquid in the storage section are provided in a case arranged adjacent to each other, and the liquid is introduced from the introduction path. In the filter element cartridge that purifies the liquid and discharges it to the discharge passage,
a cylindrical filter element having an introduction end face facing the introduction path and fitted in the case;
a return passage pipe axially penetrating through the center portion of the filter element and opening on the introduction end face side and on the discharge end face side opposite to the introduction end face, respectively;
a discharge communication pipe that liquid-tightly communicates an opening on the introduction end face side of both ends of the return passage pipe with the discharge passage,
The filter element is
The introduction end surface is exposed so that the liquid introduced from the introduction path can be taken into the filter element,
The discharge end surface is exposed so as to discharge the liquid that has passed through the filter element into the storage section,
The discharge communication pipe,
an annular case connecting portion made of an elastic material and pressed against the periphery of the discharge passage on the inner surface of the case;
an annular support portion that supports the case connection portion that is pressed against the inner surface of the case;
The support part is
A filter element cartridge , wherein an annular groove recessed in a circumferential direction is provided in a portion that presses the case connecting portion against the inner surface of the case. The filter element cartridge of claim 1, further comprising:
an introduction end surface covering body having a surface facing the introduction end surface of the filter element and fitted to the outer peripheral surface on the introduction end surface side;
The lead-in end face covering body
A filter element cartridge, comprising a through-hole for allowing the liquid introduced from the introduction path to flow through the introduction end face. A filter element cartridge according to claim 2, wherein
A filter element cartridge, wherein the discharge communication pipe and the introduction end surface cover are integrally formed. In the filter element cartridge according to claim 2 or 3,
The facing surface is
A filter element cartridge characterized by being formed at a position facing the introduction path. In the filter element cartridge according to any one of claims 2 to 4,
The facing surface is
A filter element cartridge, wherein the filter element cartridge is provided with a gap with respect to the introduction end face. A filter element cartridge according to any one of claims 2 to 5,
The facing surface is
A filter element cartridge, wherein an inner surface facing the introduction end surface has a protrusion projecting toward the introduction end surface. An introduction path for introducing the liquid into a storage section that temporarily stores the liquid and a discharge path for discharging the liquid in the storage section are provided in a case arranged adjacent to each other, and the liquid is introduced from the introduction path. A filtering device comprising a filter element cartridge that purifies the liquid and discharges it to the discharge path,
The filter element cartridge is
a cylindrical filter element having an introduction end face facing the introduction path and fitted in the case;
a return passage pipe axially penetrating through the center portion of the filter element and opening on the introduction end face side and on the discharge end face side opposite to the introduction end face, respectively;
a discharge communication pipe that liquid-tightly communicates an opening on the introduction end face side of both ends of the return passage pipe with the discharge passage,
The filter element is
The introduction end surface is exposed so that the liquid introduced from the introduction path can be taken into the filter element,
The discharge end surface is exposed so as to discharge the liquid that has passed through the filter element into the storage section,
The discharge communication pipe,
an annular case connecting portion made of an elastic material and pressed against the periphery of the discharge passage on the inner surface of the case;
an annular support portion that supports the case connection portion that is pressed against the inner surface of the case;
The support part is
A filtration device , wherein a portion pressing the case connecting portion against the inner side surface of the case has an annular groove recessed in a circumferential direction.

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