Source: https://patents.google.com/patent/JP4924465B2/en
Timestamp: 2019-10-21 14:00:19
Document Index: 357778614

Matched Legal Cases: ['art 28', 'art 34', 'art 35', 'art 31', 'art 29', 'art 31', 'art 29', 'art 18', 'art 18', 'art, 24', 'art, 29', 'art, 30']

JP4924465B2 - Drain mechanism and fluid filter including the same - Google Patents
Drain mechanism and fluid filter including the same Download PDF
JP4924465B2
JP4924465B2 JP2008039426A JP2008039426A JP4924465B2 JP 4924465 B2 JP4924465 B2 JP 4924465B2 JP 2008039426 A JP2008039426 A JP 2008039426A JP 2008039426 A JP2008039426 A JP 2008039426A JP 4924465 B2 JP4924465 B2 JP 4924465B2
JP2008039426A
JP2009197663A (en
正広 冨田
展弘 小川
2008-02-20 Application filed by トヨタ紡織株式会社 filed Critical トヨタ紡織株式会社
2008-02-20 Priority to JP2008039426A priority Critical patent/JP4924465B2/en
2009-09-03 Publication of JP2009197663A publication Critical patent/JP2009197663A/en
2012-04-25 Publication of JP4924465B2 publication Critical patent/JP4924465B2/en
The present invention relates to a drain mechanism and a fluid filter including the drain mechanism, and more specifically, a drain that allows a drain pipe to be easily inserted into a drain hole of a cap with a relatively small force, and that the drain pipe can be inserted straight and securely held. The present invention relates to a mechanism and a fluid filter including the mechanism.
As a conventional fluid filter, an oil filter having a drain mechanism that can exchange a filtration element and discharge oil remaining inside the case at the time of the exchange is known (for example, see Patent Document 1). .
In Patent Document 1, for example, as shown in FIG. 7, a cap 103 that is detachably attached to the case of the oil filter 101 and has a drain hole 115 formed therein, and a cap 103 that closes the drain hole 115. A valve member 125 provided in the drain hole 115, the valve member 125 is pushed up against the urging force of the spring 111 at the distal end portion 134 of the drain pipe 133 inserted into the drain hole 115, and the drain hole 115 is opened. A drain mechanism 124 is disclosed in which residual oil inside the cap 103 is discharged via the drain pipe 133. When the residual oil is discharged, the engaging portion 135 of the drain pipe 133 is engaged with the engaging protrusion 118 of the cap 103, and the distal end portion 134 of the drain pipe 133 is engaged with the holding recess 128 of the valve member 125. The drain pipe 133 is fixed to the cap 103 by being held.
JP 2005-111447 A
However, in the drain mechanism 124 of Patent Document 1 described above, as shown in FIG. 8, the front end side of the engaging portion 135 of the drain pipe 133 inserted into the drain hole 115 is located on the rear end side of the engaging protrusion 118 of the cap 103. In the abutted state, the distance A ′ between the abutting tips of the engaging portion 135 and the engaging protrusion 118 and the opening end of the holding recess 128 of the valve member 125 is the contact between the engaging portion 135 and the engaging protrusion 118. Since the distance B ′ between the contact tip and the tip of the drain pipe 133 is set to be shorter, when the insertion of the drain pipe 133 is further advanced, the tip portion 134 of the drain pipe 133 is moved into the holding recess 128 as shown in FIG. In this state, the drain pipe 133 is forcibly elastically deformed to engage the engaging portion 135 and the engaging protrusion 118, so that the drain pipe 133 can be inserted relatively large. Forces have become a thing difficult to insert is required. Further, since it is difficult to insert, the drain pipe 133 is not inserted straight into the drain hole 115, and there is a possibility that the tip end portion 134 of the drain pipe 133 does not fit in the holding recess 128 and falls off.
The present invention has been made in view of the above-described situation, and a drain mechanism capable of easily inserting a drain pipe into a drain hole of a cap with a relatively small force and capable of inserting the drain pipe straight and holding the drain pipe securely. It aims at providing a fluid filter provided with.
1. A cap that is detachably attached to the case of the fluid filter, has a drain hole, and further has an engaging protrusion that engages with an engaging portion of a drain pipe that is inserted into the drain hole;
A valve member that is provided inside the cap so as to close the drain hole and is displaced in a direction to release the closing of the drain hole by contact with a tip end portion of the drain pipe inserted into the drain hole. And comprising
The valve member is provided with a holding recess for holding the tip of the drain pipe, and a contact portion with which the tip of the drain pipe abuts is provided inside the holding recess of the valve member. And
In a state where the front end side of the engagement portion of the drain pipe inserted into the drain hole is in contact with the rear end side of the engagement projection portion of the cap, the engagement portion and the engagement projection portion abut The distance (A) between the tip and the opening end of the holding recess of the valve member in a state where the drain hole is closed is the distance between the contact tip of the engagement portion and the engagement protrusion and the tip of the drain pipe. A fluid filter drain mechanism characterized by being longer than the interval (B).
2. A protruding portion that protrudes toward the drain hole is provided inside the contact portion of the valve member. A drain mechanism of the fluid filter described.
3. The outer end side of the contact portion and the inner end side of the holding recess are communicated with each other through the curved surface portion. Or 2. The drain mechanism of the fluid filter described in 1.
4). Above 1. To 3. A fluid filter comprising the drain mechanism according to any one of the above.
According to the drain mechanism of the fluid filter of the present invention, in the state where the front end side of the engaging portion of the drain pipe inserted into the drain hole is in contact with the rear end side of the engaging projection portion of the cap, the front end portion of the drain pipe is the cap. In this state, when the drain pipe is further inserted, the drain pipe is pressed by the engagement portion of the drain pipe and the engagement protrusion of the cap. Due to elastic deformation, the tip of the abutment abuts against the abutment and displaces the valve member in the direction to release the drain hole closure, and the engagement portion of the drain pipe gets over the engagement projection of the cap and is engaged. At the same time, the tip of the drain pipe is held in the holding recess of the valve member. As described above, since the distal end portion of the drain pipe inserted into the drain hole is easily elastically deformed to engage the engaging portion and the engaging projection portion, the drain pipe is inserted into the drain hole of the cap. In addition to being easily inserted with a relatively small force, the drain pipe can be inserted straight and securely held in the holding recess. In addition, the drain pipe engaging portion is engaged with the cap engaging projection, and the drain pipe tip is held in the holding recess of the valve member, so that the drain pipe is extremely strong against the cap. Can hold.
In addition, when a protruding portion that protrudes toward the drain hole is provided inside the contact portion of the valve member, when the valve member is displaced by the drain pipe, the leading end portion of the drain pipe is Since it abuts on the abutting portion of the member and is supported by the protruding portion, the drain pipe can be inserted more straightly.
Furthermore, when the outer end side of the abutting portion and the inner end side of the holding recess are connected by a curved surface portion, the end of the drain pipe smoothly passes from the abutting portion to the holding recess via the curved surface portion. It is moved, and the front-end | tip part of a drain pipe can be hold | maintained more reliably by a holding | maintenance recessed part.
According to the fluid filter of the present invention, in the state where the distal end side of the engaging portion of the drain pipe inserted into the drain hole is in contact with the rear end side of the engaging projection portion of the cap, the distal end portion of the drain pipe is the holding recess of the cap. In this state, if the drain pipe is further inserted, the drain pipe is elastically deformed by the pressure contact between the drain pipe engaging portion and the cap engaging protrusion. Then, the tip end portion abuts against the abutting portion to displace the valve member in the direction of releasing the drain hole closing, and the engaging portion of the drain pipe is engaged over the engaging projection portion of the cap, The tip of the drain pipe is held in the holding recess of the valve member. As described above, since the distal end portion of the drain pipe inserted into the drain hole is easily elastically deformed to engage the engaging portion and the engaging projection portion, the drain pipe is inserted into the drain hole of the cap. In addition to being easily inserted with a relatively small force, the drain pipe can be inserted straight and securely held in the holding recess. In addition, the drain pipe engaging portion is engaged with the cap engaging projection, and the drain pipe tip is held in the holding recess of the valve member, so that the drain pipe is extremely strong against the cap. Can hold.
The fluid filter drain mechanism according to the present embodiment includes a cap and a valve member described below.
As long as the “cap” is detachably attached to the case of the fluid filter, has a drain hole, and further has an engaging protrusion that engages with the engaging part of the drain pipe inserted into the drain hole, The structure, shape, material, etc. are not particularly limited. For example, the engaging protrusion can protrude inward of the drain hole. Moreover, the said engaging part can be provided in the front end side outer periphery of the drain pipe so that it may protrude outward, for example. Furthermore, for example, a slit cut in the axial direction from the tip can be formed on the tip side of the drain pipe. Thereby, the elastic deformation of the drain pipe can be further facilitated.
The “valve member” is provided inside the cap so as to close the drain hole, and is displaced in a direction to release the closure of the drain hole by contact with the tip of the drain pipe inserted into the drain hole. As long as the structure, shape, material, etc. are not particularly limited. The valve member is provided with a holding recess and a contact portion described below. Furthermore, the valve member can be provided with a protrusion described later, for example.
The valve member is normally biased in a direction to close the drain hole by an elastic body such as a spring. Moreover, the said valve member can close a drain hole by the contact with the engaging protrusion part of the said cap, for example.
As long as the “holding recess” holds the tip of the drain pipe, the structure, shape, arrangement form, etc. are not particularly limited. The holding recess can be, for example, an annular shape that is approximately the same size as the tip of the annular drain pipe. Moreover, the vertical cross-sectional shape of this holding | maintenance recessed part can be a concave arc shape corresponding to the front-end | tip part of the drain pipe which is a vertical cross-section convex arc shape, for example. Thereby, the front-end | tip part of a drain pipe can be hold | maintained more reliably with a holding | maintenance recessed part.
The “contact portion” is not particularly limited in its structure, shape, arrangement form and the like as long as it is disposed inside the holding recess of the valve member and the tip end portion of the drain pipe comes into contact.
The outer end side of the contact portion and the inner end side of the holding recess can be communicated with each other by, for example, a curved surface portion. The curved surface portion can be constituted by, for example, the outer end side of the contact portion and / or the inner end side of the holding recess.
The “projection” is not particularly limited as long as it is provided inside the contact part of the valve member and projects toward the drain hole. This protrusion normally supports the tip of the drain pipe.
The protruding portion can have, for example, a tapered surface that decreases in diameter toward the drain hole. Thereby, even when the drain pipe is inserted obliquely into the drain hole, the distal end portion of the drain pipe is guided by the projecting portion, and the distal end portion of the drain pipe can be brought into contact with an appropriate position of the contact portion.
The outer end side of the protruding portion and the inner end side of the abutting portion are connected to each other by, for example, a curved surface portion having a concave arc shape corresponding to the distal end portion of the drain pipe having a convex arc shape. it can. Thereby, the front-end | tip part of a drain pipe can be more reliably supported by a contact part and a protrusion part. The curved surface portion can be constituted by, for example, an inner end side of the protruding portion and / or an outer end side of the contact portion.
Here, in the state where the front end side of the engaging portion of the drain pipe to be inserted into the drain hole is in contact with the rear end side of the engaging protrusion portion of the cap, the contact tip of the engaging portion and the engaging protrusion portion and the drain The interval (A) between the opening end of the holding recess of the valve member in a state where the hole is closed is longer than the interval (B) between the contact tip of the engagement portion and the engagement protrusion and the tip of the drain pipe. (See FIG. 4).
In this case, for example, the interval (C) between the engagement end of the engagement protrusion of the cap and the holding bottom end of the holding recess of the valve member in a state where the drain hole is closed is the engagement portion and the engagement protrusion. It can be made longer than the space | interval (D) between the contact | abutting front-end | tip of a part and the front-end | tip of a drain pipe (refer FIG. 5). Thereby, compared with what made the said space | interval (C) shorter than the said space | interval (D), the displacement amount of a valve member can be restrained to required minimum, and the force required for insertion of a drain pipe can be made smaller.
In addition, as a drain method of the fluid filter according to another embodiment, for example, a drain method using the drain mechanism described above, in which the drain pipe is inserted into the drain hole of the cap, and the drain pipe engaging portion and the cap The drain pipe is elastically deformed by pressure contact with the engaging projection, and the tip of the drain pipe is brought into contact with the abutting portion of the valve member to displace the valve member in the direction to release the drain hole. The insertion of the drain pipe is further advanced so that the engagement portion of the drain pipe gets over the engagement protrusion of the cap and engages both portions, and the tip of the drain pipe is held in the holding recess of the valve member. Can do. As a result, the end of the drain pipe inserted into the drain hole can be easily elastically deformed with the free end to engage the engaging portion and the engaging protrusion, and the drain pipe can be relatively inserted into the drain hole of the cap. It can be easily inserted with a small force, and the drain pipe can be inserted straight and securely held in the holding recess. In addition, the drain pipe engagement portion is engaged with the cap engagement projection, and the drain pipe tip is held in the holding recess of the valve member, so the drain pipe is held very firmly against the cap. it can.
Hereinafter, the present invention will be described in detail with reference to the drawings. In this embodiment, an oil filter attached to a cylinder block (not shown) of an internal combustion engine is exemplified as the “fluid filter” according to the present invention.
(1) Configuration of Oil Filter As shown in FIG. 1, the oil filter 1 according to the present embodiment is detachably attached to a bottomed cylindrical resin case 2 having an open bottom, and the case 2 A bottomed cylindrical resin cap 3 having an open top, and a chrysanthemum filter element 5 housed in a housing 4 constituted by the case 2 and the cap 3. It is structured.
A male screw portion 8 is formed on the outer peripheral surface of the cap 3 and an O-ring 9 is attached. An internal thread portion 10 is formed on the inner peripheral surface of the case 2. When the male screw portion 8 and the female screw portion 10 are screwed together and the case 2 and the cap 3 are engaged via the O-ring 9, the inside of the housing 4 is held in a liquid-tight state. Inside the housing 4, the upper and lower end portions of the filter element 5 are sealed by the case protrusions 6 provided on the cylindrical body 12 and the case 2 by the urging force of the spring 11 via the sealing members 13 and 14. . Further, an outlet 2 a for returning the oil filtered by the filter element 5 to the internal combustion engine is formed on the upper center side of the case 2. A plurality of inflow ports 2 b for allowing the contaminated oil sent from the internal combustion engine to flow into the case 2 are formed around the outflow port 2 a of the case 2.
Further, a metallic cylindrical member 16 is integrally fixed to the center hole of the bottom 3a of the cap 3 by insert molding. An inner peripheral side of the cylindrical member 16 is a drain hole 15 in which a female screw 15a is formed. Further, a sealing member 17 such as an O-ring is mounted on the lower end side of the bottom 3 a of the cap 3 so as to surround the drain hole 15. A metal drain bolt 20 is detachably mounted in the drain hole 15. The drain bolt 20 has a plug portion 21 having a male screw 21 a formed on the outer peripheral side thereof, and a flange portion 22 connected to the lower end side of the plug portion 21. Then, when the male screw 21a of the drain bolt 20 and the female screw 15a of the drain hole 15 are screwed together and the drain bolt 20 is screwed into the drain hole 15, the drain hole 15 is blocked by the plug portion 21, When the flange portion 22 is in pressure contact with the seal member 17, the drain hole 15 is held liquid-tight.
Further, an annular engagement protrusion 18 that engages with an engagement portion 35 (see FIG. 3) of the drain pipe 33 is provided on the upper center side of the bottom portion 3 a of the cap 3. As shown in FIG. 2, the engaging protrusion 18 protrudes inward of the drain hole 15 and extends obliquely toward the case side. Further, as shown in FIG. 4, the engaging protrusion 18 is connected to the inner inclined surface 18 a extending inclined with respect to the axial direction of the drain hole 15 and the upper end side of the inner inclined surface 18 a. A first wall surface 18b extending in the axial direction, a second wall surface 18c extending to the upper end side of the first wall surface 18b and extending in a direction substantially perpendicular to the first wall surface 18b, and an inner slope connected to the outer end side of the second wall surface 18c. An outer inclined surface 18d extending in a direction parallel to the surface 18a.
Next, the drain mechanism 24 will be described. As shown in FIG. 2, the drain mechanism 24 includes a plate-like metal valve member 25 provided inside the cap 3 so as to close the drain hole 15. The valve member 25 is supported so as to be movable in the axial direction (vertical direction in FIG. 2) inside the cylindrical body 12 (see FIG. 1), and closes the drain hole 15 by the spring 11 (FIG. 2). It is energized downward. The valve member 25 is provided with a tapered valve portion 26 that abuts against the outer inclined surface 18d of the engagement protrusion 18. Therefore, even when the drain bolt 20 is removed from the drain hole 15, the valve portion 26 of the valve member 25 biased by the spring 11 comes into contact with the outer inclined surface 18d of the engaging projection portion 18 to thereby drain the drain hole. 15 closed states are maintained.
On the inner side of the valve portion 26 of the valve member 25, as shown in FIG. 4, a holding concave portion 28 that holds the distal end portion 34 of the drain pipe 33 via a tapered wall 27 is provided. The planar shape of the holding recess 28 is an annular shape having substantially the same diameter as the distal end portion 34 of the drain pipe 33 whose planar shape is an annular shape. Moreover, the vertical cross-sectional shape of this holding | maintenance recessed part 28 is made into the concave arc shape corresponding to the front-end | tip part 34 of the drain pipe 33 whose vertical cross-sectional shape is a convex arc shape. Further, a flat contact portion 29 with which the tip end portion 34 of the drain pipe 33 contacts is provided inside the holding recess 28 of the valve member 25. The outer end side of the contact portion 29 and the inner end side of the holding recess 28 are connected by a curved surface portion 30 having a convex arc shape in the longitudinal section. Further, a protruding portion 31 that protrudes toward the drain hole 15 is provided inside the contact portion 29 of the valve member 25. The protruding portion 31 has a tapered surface 31 a that decreases in diameter toward the drain hole 15. Further, the outer end side of the projecting portion 31 and the inner end side of the abutting portion 29 are connected by a curved surface portion 32 having a concave arcuate cross section corresponding to the tip 34 of the drain pipe 33 having a convex arcuate cross sectional shape. Has been.
As shown in FIG. 3, the drain pipe 33 is made of resin and is formed in a cylindrical shape having an outer diameter that can be inserted into the drain hole 15. A plurality of (for example, three) engaging portions 35 bulging outward are provided on the outer periphery on the distal end side of the drain pipe 33 at equal pitch intervals (for example, 120 degree intervals) along the circumferential direction. It has been. In addition, a plurality of (for example, three) slits 36 that are cut in the axial direction from the tip of the drain pipe 33 are formed between the plurality of engaging portions 35 on the tip side of the drain pipe 33. As shown in FIG. 4, each of the engaging portions 35 includes a tip inclined surface 35 a extending inclined with respect to the axial direction of the drain pipe 33, and an axial direction of the drain pipe 33 connected to the lower end side of the tip inclined surface 35 a. And a rear end inclined surface 35c that extends to the lower end side of the wall surface 35b and that inclines with respect to the axial direction of the drain pipe 33. In addition, a flange portion 37 is provided on the outer periphery of the intermediate portion in the axial direction of the drain pipe 33. On the surface side of the flange portion 37, when the engaging portion 35 of the drain pipe 33 is engaged with the engaging projection portion 18 of the cap 3, the standing portion that presses and engages with the seal member 17 of the bottom portion 3 a of the cap 3. A raising piece 37a is provided {see FIG. 6 (c)}.
Here, as shown in FIG. 4, the tip inclined surface 35 a that is the tip side of the engaging portion 35 of the drain pipe 33 inserted into the drain hole 15 is the rear end side of the engaging protrusion 18 of the cap 3. The distance A between the contact tip of the engagement portion 35 and the engagement projection 18 and the open end of the holding recess 28 of the valve member 25 in the state where the drain hole 15 is closed in the state of contact with the inner inclined surface 18a is: The distance between the contact tip of the engagement portion 35 and the engagement protrusion 18 and the tip of the drain pipe 33 is longer than B. Further, as shown in FIG. 5, between the second wall surface 18 c that is the engaging end of the engaging protrusion 18 of the cap 3 and the holding bottom end of the holding recess 28 of the valve member 25 in a state where the drain hole 15 is closed. The distance C is longer than the distance D between the contact tip of the engagement portion 35 and the engagement protrusion 18 and the tip of the drain pipe 33.
(3) Operation of Oil Filter Next, the operation of the oil filter 1 will be described.
During normal use of the oil filter 1, as shown in FIG. 1, a drain bolt 20 is attached to the drain hole 15 of the cap 3 via a seal member 17, and the drain hole 15 is closed by the drain bolt 20 and the valve member 25. ing.
On the other hand, when exchanging the filter element 5, the O-ring 9, the seal member 17, etc., first, the drain bolts 20 are loosened and removed from the drain holes 15 as indicated by phantom lines in FIG. 2. At this time, the drain hole 15 is kept closed by the valve member 25, and residual oil inside the housing 4 is not discharged from the drain hole 15.
Next, when the drain pipe 33 is inserted into the drain hole 15, as shown in FIG. 3, the front end side of the engaging portion 35 of the drain pipe 33 comes into contact with the rear end side of the engaging protrusion 18 of the cap 3. At this time, the leading end 34 of the drain pipe 33 is located outside the holding recess 28 of the valve member 25 and is a free end.
When the insertion of the drain pipe 33 is further advanced from this state, as shown in FIG. 6A, the drain pipe 33 is elastically deformed by the slit 36 and the engaging portion 35 rides on the engaging projection portion 18. Then, when the insertion of the drain pipe 33 is further advanced, as shown in FIG. 6B, the drain pipe 33 is further elastically deformed, and the leading end portion 34 of the drain pipe 33 is brought into contact with the contact portion 29 and the valve member 25. The valve member 25 is pushed up in contact with the protruding portion 31 and the drain hole 15 is opened. At this time, residual oil in the housing 4 starts to be discharged to the outside through the slit 36 and the center hole of the drain pipe 33.
Next, when the insertion of the drain pipe 33 is further advanced, as shown in FIG. 6C, the engaging portion 35 of the drain pipe 33 gets over the engaging protrusion 18 and the engaging portion by the elastic restoring force of the drain pipe 33. 35 engages with the engaging protrusion 18. At substantially the same time as the engagement of the engagement portion 35 and the engagement protrusion 18, the distal end portion 34 of the drain pipe 33 is accommodated and held in the holding recess 28, and the drain pipe 33 is fixed to the cap 3. Then, residual oil inside the housing 4 is discharged through the slit 36 and the center hole of the drain pipe 33 in the fixed state.
Thereafter, when the draining of the residual oil inside the housing 4 is completed, the drain pipe 33 is pulled out from the drain hole 15, and the cap 3 is loosened and separated from the case 2, and the filter element 5, O-ring 9, seal member 17, etc. Replacement work is performed. Note that the draining action of the drain pipe 33 is performed by a procedure substantially reverse to the above-described inserting action of the drain pipe 33.
(3) Effects of Embodiment As described above, in the drain mechanism 24 of the present embodiment, the contact portion 29 with which the distal end portion 34 of the drain pipe 33 contacts is provided inside the holding recess 28 of the valve member 25, and the drain hole 15. In the state where the tip inclined surface 35a of the engaging portion 35 of the drain pipe 33 inserted into the inner surface is in contact with the inner inclined surface 18a of the engaging protruding portion 18 of the cap 3, the engaging portion 35 and the engaging protruding portion 18 are in contact with each other. The distance A between the contact tip and the open end of the holding recess 28 of the valve member 25 in a state where the drain hole 15 is closed is the distance between the contact tip of the engagement portion 35 and the engagement protrusion 18 and the tip of the drain pipe 33. Since it is longer than B, the engaging portion 35 and the engaging protrusion 18 can be engaged with each other by easily elastically deforming the distal end portion 34 of the drain pipe 33 inserted into the drain hole 15 as a free end. Therefore, the drain pipe 33 can be easily inserted into the drain hole 15 of the cap 3 with a relatively small force, and the drain pipe 33 can be inserted straight and securely held by the holding recess 28. In the drain mechanism 24 of the present embodiment, the drain pipe 133 is forcibly pushed in a state in which the distal end portion 134 of the drain pipe 133 is accommodated and held in the holding recess 128 as in the conventional drain mechanism (see FIG. 9). Compared with the case where the engaging portion 135 and the engaging protrusion 118 are engaged with each other by elastic deformation, the force required for inserting the drain pipe can be reduced to about 1/3.
In the present embodiment, the cap 3 is provided with the engaging protrusion 18 that engages with the engaging portion 35 of the drain pipe 33, and the holding recess 28 that holds the distal end portion 34 of the drain pipe 33 on the valve member 25. When the residual oil in the housing 4 is discharged, the engaging portion 35 of the drain pipe 33 is engaged with the engaging protrusion 18 of the cap 3, and the distal end portion 34 of the drain pipe 33 is held by the valve member 25. Since the recess 28 is held, the drain pipe 33 can be held extremely firmly against the cap 3. As a result, even if a lateral external force is applied to the drain pipe, it is difficult to cause inclination, separation or the like.
In the present embodiment, the cap 3 in a state where the tip inclined surface 35 a of the engaging portion 35 of the drain pipe 33 inserted into the drain hole 15 is in contact with the inner inclined surface 18 a of the engaging protrusion 18 of the cap 3. The distance C between the second wall surface 18c of the engaging projection 18 and the holding bottom end of the holding recess 28 of the valve member 25 in a state in which the drain hole 15 is closed is defined as the distance between the engaging portion 35 and the engaging projection 18. Since the distance D between the contact tip and the end of the drain pipe 33 is longer than the distance D, the displacement amount of the valve member 25 is minimized as compared with the distance C set shorter than the distance D. The force required for inserting the drain pipe 33 can be further reduced.
Further, in this embodiment, since the protruding portion 31 that protrudes with a reduced diameter toward the drain hole 15 is provided inside the contact portion 29 of the valve member 25, when the valve member 25 is displaced by the drain pipe 33. Further, the distal end portion 34 of the drain pipe 33 is abutted against the abutting portion 29 of the valve member 25 and is supported by the protruding portion 31, so that the drain pipe 33 can be inserted more straightly. Even when the drain pipe 33 is inserted obliquely into the drain hole 15, the distal end portion 34 of the drain pipe 33 is guided by the tapered surface 31 a of the protruding portion 31, and the distal end portion 34 of the drain pipe 33 is brought into contact with the contact portion 29. Can be brought into contact with each other at an appropriate position.
In the present embodiment, the outer end side of the projecting portion 31 and the inner end side of the abutting portion 29 are curved with a concave cross section corresponding to the tip end portion 34 of the drain pipe 33 having a convex cross section. Since the contact is made by the portion 32, the tip end portion 34 of the drain pipe 33 can be more reliably supported by the contact portion 29 and the protruding portion 31, and the valve member 25 can be pushed up more straightly.
Further, in the present embodiment, the outer end side of the contact portion 29 and the inner end side of the holding recess 28 are connected by the curved surface portion 30 having a convex arc shape in the longitudinal section, so that the distal end portion 34 of the drain pipe 33 is curved. It is smoothly moved from the abutting portion 29 to the holding recess 28 via the portion 30, and the distal end portion 34 of the drain pipe 33 can be reliably held in the holding recess 28.
In the present invention, the present invention is not limited to the above embodiment, and various modifications can be made within the scope of the present invention depending on the purpose and application. That is, in the above embodiment, in a state where the engagement portion 35 of the drain pipe 33 is engaged with the engagement projection portion 18 of the cap 3, the gap between the engagement projection portion 18 of the cap 3 and the holding recess portion 28 of the valve member 25. The distance C is longer than the distance D between the contact tip of the engagement portion 35 and the engagement protrusion 18 and the tip of the drain pipe 33, but is not limited to this. For example, the cap 3 The distance C between the engagement protrusion 18 and the holding recess 28 of the valve member 25 is shorter than the distance D between the contact tip of the engagement part 35 and the engagement protrusion 18 and the tip of the drain pipe 33. It is good also as a form.
Moreover, in the said Example, although the thing which provided the protrusion part 31 inside the contact part 29 was illustrated as the valve member 25, it is not limited to this, For example, it does not provide the protrusion part 31 but is disk shape. It is good also as a valve member which has this contact part 29.
Furthermore, in the said Example, although the function as a valve seat of the valve member 25 was given to the engagement protrusion part 18 of the cap 3, it is not limited to this, For example, as a valve seat of the valve member 25, You may make it give a function to a site | part different from the engagement protrusion part 18. FIG.
It is widely used as a technique for discharging the internal residual fluid of a filter that filters fluid. In particular, it is suitably used as a technique for discharging oil remaining in an element exchange type oil filter used in an internal combustion engine.
It is a longitudinal cross-sectional view of the oil filter which concerns on an Example. It is a principal part enlarged view of FIG. It is explanatory drawing for demonstrating the drain mechanism which concerns on an Example. It is a principal part enlarged view of FIG. It is a principal part enlarged view of FIG. It is explanatory drawing for demonstrating the effect | action of a drain mechanism, (a) shows the state which the engaging part of the drain pipe got on the engaging protrusion part of a cap, (b) is a valve member in the front-end | tip part of a drain pipe. (C) shows the state where the tip of the drain pipe is held in the holding recess of the valve member. It is an expanded sectional view of the conventional drain mechanism. It is a principal part enlarged view of FIG. It is explanatory drawing for demonstrating the effect | action of the conventional drain mechanism.
DESCRIPTION OF SYMBOLS 1; Oil filter, 2; Case, 3; Cap, 15: Drain hole, 18: Engagement protrusion part, 24: Drain mechanism, 25: Valve member, 28: Holding recessed part, 29: Contact part, 30: Curved part , 31; protrusion, 33; drain pipe, 34; tip, 35; engagement portion, A, B;
A cap that is detachably attached to the case of the fluid filter, has a drain hole, and further has an engaging protrusion that engages with an engaging portion of a drain pipe that is inserted into the drain hole;
The drain mechanism of the fluid filter according to claim 1, wherein a projecting portion that projects toward the drain hole is provided inside the contact portion of the valve member.
The drain mechanism of the fluid filter according to claim 1 or 2, wherein the outer end side of the contact portion and the inner end side of the holding recess are communicated with each other through a curved surface portion.
A fluid filter comprising the drain mechanism according to any one of claims 1 to 3.
JP2008039426A 2008-02-20 2008-02-20 Drain mechanism and fluid filter including the same Active JP4924465B2 (en)
JP2008039426A JP4924465B2 (en) 2008-02-20 2008-02-20 Drain mechanism and fluid filter including the same
US12/363,998 US8512562B2 (en) 2008-02-20 2009-02-02 Drain mechanism and fluid filter including drain mechanism
JP2009197663A JP2009197663A (en) 2009-09-03
JP4924465B2 true JP4924465B2 (en) 2012-04-25
ID=40954136
JP2008039426A Active JP4924465B2 (en) 2008-02-20 2008-02-20 Drain mechanism and fluid filter including the same
US (1) US8512562B2 (en)
JP (1) JP4924465B2 (en)
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2008-02-20 JP JP2008039426A patent/JP4924465B2/en active Active
2009-02-02 US US12/363,998 patent/US8512562B2/en active Active
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