JP5942770B2 - Oil mist separator - Google Patents

Description

  The present invention relates to an oil mist separator. More specifically, the present invention relates to an oil mist separator capable of ensuring oil separation efficiency while reducing an increase in blow-by gas pressure in a gas flow passage.

  2. Description of the Related Art Conventionally, there has been known a PCV (positive crankcase ventilation) system that introduces blow-by gas leaking into a crankcase from a combustion chamber of an internal combustion engine through a gap between a piston and a cylinder into an intake system. In this PCV system, blow-by gas, which is incomplete combustion gas, is sent again into the combustion chamber, thereby preventing the release of fuel components and carbon monoxide contained in the blow-by gas into the atmosphere.

  However, the blow-by gas contains an oil component for lubricating the internal combustion engine in a mist form. When the blow-by gas containing this oil component is burned, the amount of lubricating oil decreases, Problems such as generation of white smoke due to the combustion of components occur. For this reason, it is known that an oil mist separator is provided in the PCV system to separate mist-like oil contained in blow-by gas (see, for example, Patent Document 1).

Japanese Utility Model Publication No. 61-159611

  In Patent Document 1, a bypass valve is provided in a blow-by gas passage in parallel with a filter that separates oil contained in the blow-by gas. The bypass valve is opened when the pressure on the upstream side of the filter rises above a certain value due to clogging of the filter or the like. However, in the case of the configuration as in Patent Document 1, when the bypass valve is opened, the blow-by gas passing through the bypass valve flows out downstream with insufficient oil separation. For this reason, it has been desired that the oil separation efficiency can be ensured even when the bypass valve or the like is operated.

  The present invention has been made in view of the above-described present situation, and an object thereof is to provide an oil mist separator capable of securing oil separation efficiency while reducing an increase in pressure of blow-by gas in a gas flow passage. To do.

In order to solve the above problems, the invention described in claim 1 is an oil mist separator that separates a mist-like oil contained in the blow-by gas by circulating a blow-by gas leaking into the crankcase. And
A gas flow path through which the blow-by gas flows;
A relief valve disposed in the gas flow passage and opened and closed by the pressure of the blow-by gas,
The relief valve is
A wall portion arranged to partition the gas flow passage and having an opening;
And covering the opening from the downstream side of the gas flow passage,
The valve body is urged toward the wall portion to close the opening,
When the pressure of the blow-by gas rises above a predetermined pressure, the valve body is pushed to the downstream side to open the opening,
The surface of the valve body on the side facing the opening is provided with a filter element ,
The valve body includes a substantially cylindrical support body having an enlarged diameter portion that supports an outer peripheral side of the filter element,
The valve body is configured such that an outer peripheral side of the filter element is pressed against the wall portion and closes the opening portion when the enlarged diameter portion of the support body is urged toward the wall portion by a coil spring. It is a summary.

Invention of Claim 2 is supported from the said downstream by the said support body in which the said filter element formed the through-hole which can distribute | circulate the said blowby gas in Claim 1 ,
The gist of the present invention is that the through holes are formed on the surface side and the peripheral wall surface side of the support that are in contact with the downstream surface of the filter element .

  The gist of a third aspect of the present invention is that, in the first or second aspect, a convex portion that protrudes toward the valve body is formed on the periphery of the opening.

A fourth aspect of the present invention is the method according to any one of the first to third aspects, wherein the support is formed with a protrusion that protrudes toward the filter element.
The gist of the invention is that the downstream surface of the filter element is supported by a tip portion of the projection of the support, and is separated from a portion other than the projection of the support.

  A gist of a fifth aspect of the present invention is that, in any one of the first to fourth aspects, the opening is formed by forming a plurality of holes.

  The oil mist separator of the present invention includes a gas flow passage through which blow-by gas flows, and a relief valve that is arranged in the gas flow passage and opens and closes by the pressure of the blow-by gas. The relief valve has a wall portion that is arranged so as to partition the gas flow passage and includes an opening, and a valve body that covers the opening from the downstream side of the gas flow passage. The valve body is urged in the direction of the wall portion to close the opening portion, and when the blowby gas pressure rises above a predetermined pressure, the valve body is pushed downstream to open the opening portion. . And the filter element is provided in the surface of the side facing the opening part of a valve body.

  With such a configuration, a sufficient oil separation function is ensured by allowing blow-by gas to pass through the filter element during normal operation. In addition, when the pressure in the gas flow passage increases, the relief valve operates to reduce the pressure increase of the blow-by gas in the gas flow passage. In this case as well, the blow-by gas passing through the opening collides with the filter element of the valve body, so that the oil separation efficiency can be ensured. Therefore, the oil mist separator of the present invention can ensure the oil separation efficiency while reducing the pressure increase of the blow-by gas in the gas flow passage.

  Further, when the filter element is supported from the downstream side by a support body in which a through-hole through which blow-by gas can flow is formed, the blow-by gas can escape from the through-hole, so that when the blow-by gas flows Resistance can be suppressed and pressure rise can be suppressed. In addition, since the filter element is supported by the support, deformation of the filter element can be suppressed.

  Furthermore, when the convex part which protrudes toward the direction of a valve body is formed in the periphery of an opening part, the sealing performance of a relief valve can be improved.

  In addition, a protrusion that protrudes toward the filter element is formed on the support, and the downstream surface of the filter element is supported by the tip of the protrusion of the support, and other than the protrusion of the support. When separated from the portion, the filter element can be supported by the support while reducing the contact area between the filter element and the support. As a result, the ventilation area of the filter element can be secured and the oil separation efficiency can be improved.

  Furthermore, when the opening is formed with a plurality of holes, the cross-sectional area of the flow path can be reduced compared to the case where one hole is formed in a range corresponding to the opening. It is possible to increase the flow rate of blow-by gas passing through the opening. Thereby, oil separation efficiency can be improved more.

The present invention will be further described in the following detailed description with reference to the drawings referred to, with reference to non-limiting examples of exemplary embodiments according to the present invention. Similar parts are shown throughout the several figures.
It is a longitudinal cross-sectional view which shows the outline of the oil mist separator which concerns on an Example. It is a principal part expanded sectional view of FIG. It is a fragmentary sectional perspective view of the valve element concerning an example. It is explanatory drawing for demonstrating the effect | action of the oil mist separator which concerns on an Example. It is explanatory drawing for demonstrating the oil mist separator which concerns on other embodiment. It is explanatory drawing for demonstrating the oil mist separator which concerns on other embodiment. It is explanatory drawing for demonstrating the oil mist separator which concerns on other embodiment. It is explanatory drawing for demonstrating the oil mist separator which concerns on a reference example .

  The items shown here are exemplary and illustrative of the embodiments of the present invention, and are the most effective and easy-to-understand explanations of the principles and conceptual features of the present invention. It is stated for the purpose of providing what seems to be. In this respect, it is not intended to illustrate the structural details of the present invention beyond what is necessary for a fundamental understanding of the present invention. It will be clear to those skilled in the art how it is actually implemented.

  The oil mist separator (1) according to the present embodiment is an oil mist separator that separates mist-like oil contained in blow-by gas by circulating blow-by gas leaking into the crankcase. The oil mist separator includes a gas flow passage (3) through which blow-by gas flows, and a relief valve (5) that is disposed in the gas flow passage and opens and closes by the pressure of the blow-by gas. The relief valve has a wall portion (15) provided so as to partition the gas flow passage and having an opening (19), and a valve body (17) that covers the opening from the downstream side of the gas flow passage. doing. The valve body is urged toward the wall portion to close the opening. Further, the valve body is pushed downstream of the gas flow passage when the blow-by gas pressure rises above a predetermined pressure, thereby opening the opening. And the filter element (21) is provided in the surface on the side facing the opening part of a valve body (for example, refer FIGS. 1-4).

The configuration, shape, size, material, etc. of the filter element are not particularly limited. The filter element should just be what can capture | acquire and isolate | separate the oil mist contained in blowby gas by letting blowby gas pass.
For example, the contact surface with the wall portion can be compressed by the biasing of the filter element. Thereby, the peripheral part of the said opening part and filter element can be stuck, and the sealing performance of a relief valve can be improved.

  As an oil mist separator according to this embodiment, for example, the filter element is supported from the downstream side of the gas flow passage by a support body (23) in which a through-hole through which blow-by gas can flow is formed. (For example, see FIG. 3 etc.). The shape, size, number, etc. of the through holes are not particularly limited. As a through-hole, it can be the clearance gap of the grating | lattice of the support body formed in the grid | lattice form, for example.

  As an oil mist separator according to the present embodiment, for example, a form in which a convex portion protruding toward the valve body is formed on the periphery of the opening (for example, FIG. 5). Etc.). The size of the convex portion, the cross-sectional shape, etc. are not particularly limited.

  As the oil mist separator according to the present embodiment, for example, the support is formed with a protrusion that protrudes toward the filter element, and the downstream surface of the filter element is formed by the protrusion of the support. The form which is separated from parts other than the projection part of a support body while being supported by the front-end | tip part can be mentioned (for example, refer FIG. 6 etc.). The shape, size, number, etc. of the protrusions are not particularly limited.

  As an oil mist separator according to the present embodiment, for example, the opening may have a form in which a plurality of holes are formed (see, for example, FIG. 7). The shape, size, number, etc. of the plurality of holes are not particularly limited.

  The oil mist separator according to the present embodiment may have a form in which the relief valve is provided as a main oil separation means, or a form in which a main oil separation means is provided separately from the relief valve. May be.

Hereinafter, the present invention will be specifically described with reference to the drawings.
(1) Configuration of Oil Mist Separator An oil mist separator 1 according to the present embodiment separates mist-like oil contained in blow-by gas by circulating blow-by gas leaking into a crankcase of an internal combustion engine. It is a separator. As shown in FIG. 1, the oil mist separator 1 includes a gas flow passage 3 through which blow-by gas flows, and a relief valve 5 that is disposed in the gas flow passage 3 and opens and closes by the pressure of the blow-by gas. .

  The gas flow passage 3 is an inner space of the separator body 7 having a substantially rectangular tube shape. The separator body 7 is provided with a gas introduction part 9 for introducing blow-by gas, a gas discharge part 11 for discharging blow-by gas from which oil has been separated, and an oil discharge part 13 for discharging separated oil. ing.

  The gas introduction part 9 and the gas discharge part 11 are respectively formed at both ends of the separator body 7. The gas introduction unit 9 communicates with a space in the crankcase of the internal combustion engine (not shown), and introduces blow-by gas leaked into the crankcase into the separator body 7. The gas discharge unit 11 communicates with an intake system of an internal combustion engine (not shown), and blow-by gas discharged from the separator body 7 is introduced into the combustion chamber together with intake air.

  The oil discharge portion 13 is formed in a cylindrical shape so as to extend downward from the bottom wall of the separator body 7, and a hole having a smaller cross-sectional area than that of the cylindrical portion is formed in the bottom portion. As a result, oil separated in the oil discharge portion 13 is accumulated therein. Further, when the oil in the oil discharge part 13 is accumulated to a predetermined height, it is discharged to the outside against the pressure of the blow-by gas in the gas flow passage 3. The discharged oil is returned to the oil pan below the crankcase.

  As shown in FIG. 2, the relief valve 5 includes a wall portion 15 and a valve body 17. The wall portion 15 is formed in a plate shape extending inward from the inner wall of the separator body 7, and is provided so as to partition the gas flow passage 3 and includes an opening 19 through which blow-by gas can flow. ing. The opening 19 is formed with a single hole penetrating the wall 15. The valve body 17 is provided so as to cover the opening 19 of the wall 15 from the downstream side of the gas flow passage 3. The valve body 17 is urged in the direction of the wall 15 to close the opening 19, and when the blowby gas pressure rises above a predetermined pressure, it is pushed downstream of the gas flow passage 3, The opening 19 is opened.

  The valve element 17 is provided with a filter element 21 on the surface facing the opening 19. The filter element 21 is a substantially disk-shaped nonwoven fabric. The valve body 17 includes a support body 23 that supports the filter element 21 from the downstream side. As shown in FIG. 3, the support body 23 is configured in a substantially cylindrical shape in which a portion that supports the filter element 21 is expanded in diameter. Further, the surface of the support 23 that contacts the downstream surface of the filter element 21 and the peripheral wall surface are each formed in a lattice shape, and the gap (illustrated as a through hole according to the present invention) of this lattice is blow-by gas. Can be distributed.

  In this embodiment, the valve body 17 is urged by a coil spring 25. Thereby, as shown in FIG. 2, the valve body 17 is configured to close the opening 19 in a state where the filter element 21 is pressed against the wall 15 and compressed. The coil spring 25 is disposed between an enlarged diameter portion of the support body 23 of the valve body 17 and a guide member 27 that supports the support body 23 slidably and guides the valve body 17 along the operation direction. ing.

(2) Operation of Oil Mist Separator Next, the operation of the oil mist separator 1 having the above configuration will be described. The blow-by gas leaked into the crankcase is introduced into the oil mist separator 1 to separate the oil. Specifically, as shown in FIG. 1, blow-by gas is first introduced into the separator body 7 from the gas introduction part 9. The introduced blow-by gas reaches the relief valve 5 and collides with the filter element 21 of the valve body 17 through the opening 19 of the wall 15. Since the valve body 17 is urged toward the wall portion 15 to close the opening portion 19, the blow-by gas that has collided passes through the filter element 21 and flows in the downstream direction. At this time, mist-like oil contained in the blow-by gas is collected by the filter element 21, and the oil is separated. The blow-by gas that has passed through the filter element 21 is discharged from the gas discharge unit 11. Further, the separated oil falls on the bottom wall of the separator body 7 and is discharged from the oil discharge portion 13.

When the filter element is clogged and the pressure of the blow-by gas rises above a predetermined pressure, the valve body 17 is pushed downstream as shown in FIG. 4 to open the opening 19. Thereby, the pressure rise of the blow-by gas in the gas flow path 3 is reduced.
At this time, the blow-by gas that has passed through the opening 19 collides with the filter element 21 that has receded to the downstream side of the opening 19. The blow-by gas that has collided with the filter element 21 passes through the filter element 21 in the downstream direction in the same way as in the normal state, and the other part changes its path to change the wall 15 and the valve body 17. It passes through the gap between and flows in the downstream direction. The blow-by gas that has passed through the filter element 21 is separated and separated as usual, and the oil mist contained in the blow-by gas that has passed through the gap between the wall portion 15 and the valve body 17 by changing the path is filtered by the filter element 21. Separated by inertial collision. As described above, even when the relief valve 5 is operated, the oil is appropriately separated.

(3) Effects of the Embodiment From the above, according to the oil mist separator 1 of the present embodiment, the gas flow passage 3 through which the blowby gas flows, and the relief valve that is arranged in the gas flow passage 3 and opens and closes by the pressure of the blowby gas. 5 is provided. The relief valve 5 is arranged so as to partition the gas flow passage 3 and has a wall portion 15 having an opening 19 and a valve body 17 that covers the opening 19 from the downstream side of the gas flow passage 3. Yes. The valve body 17 is biased in the direction of the wall portion 15 to close the opening portion 19, and when the blowby gas pressure rises above a predetermined pressure, the valve body 17 is pushed downstream to open the opening portion 19. Has been. A filter element 21 is provided on the surface of the valve body 17 on the side facing the opening 19.

  With such a configuration, a sufficient oil separation function is ensured by allowing the blow-by gas to pass through the filter element 21 at normal times. Further, when the pressure in the gas flow passage 3 increases, the relief valve 5 operates to reduce the pressure increase of the blow-by gas in the gas flow passage 3. In this case as well, the blow-by gas passing through the opening 19 collides with the filter element 21 of the valve body 17, so that the oil separation efficiency can be ensured. Therefore, the oil mist separator 1 can ensure the oil separation efficiency while reducing the pressure increase of the blow-by gas in the gas flow passage 3.

  Moreover, in the said Example, since the filter element 21 is supported from the downstream by the support body 23 in which the clearance gap of the grid | lattice as a through-hole which can distribute | circulate blow-by gas was formed, resistance at the time of flow of blow-by gas The pressure rise can be suppressed. Further, since the filter element 21 is supported by the support body 23, the deformation of the filter element 21 can be suppressed.

  Further, in the above embodiment, the valve element 17 is configured to block the opening 19 in a state where the filter element 21 is compressed by being pressed against the wall 15, so that the sealing performance of the relief valve 5 can be improved. it can.

  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 said Example, although the wall part 15 was formed in the plate shape extended toward inner side from the inner wall of the separator main body 7, it is not limited to this, For example, as shown in FIG. In addition to the shaped wall portion 15, a convex portion protruding toward the valve body 17 may be formed on the periphery of the opening portion 19.

  Moreover, in the said Example, although the valve body 17 illustrated the form provided with the support body 23 which supports the filter element 21 from a downstream, it is not limited to this, For example, as shown in FIG. Is formed with a protrusion 29 protruding toward the filter element 21, and the downstream surface of the filter element 21 is supported by the tip of the protrusion 29 of the support 23, while the protrusion of the support 23 is It is good also as a form separated from parts other than the part 29. FIG.

  Furthermore, in the said Example, although the opening part 19 in which one hole which penetrates the wall part 15 was formed was illustrated, it is not limited to this, For example, as shown in FIG. However, a form in which a plurality of holes are formed and opened may be used.

Moreover, in the said Example, the example which equips the valve body 17 with the support body 23 which supports the filter element 21 was shown . As a reference example, for example, can be cited as shown in FIG. 8, a valve body 17 made of filter element 21.

  The foregoing examples are for illustrative purposes only and are not to be construed as limiting the invention. Although the invention has been described with reference to exemplary embodiments, it is to be understood that the language used in the description and illustration of the invention is illustrative and exemplary rather than limiting. As detailed herein, changes may be made in its form within the scope of the appended claims without departing from the scope or spirit of the invention. Although specific structures, materials, and examples have been referred to in the detailed description of the invention herein, it is not intended to limit the invention to the disclosure herein, but rather, the invention is claimed. It covers all functionally equivalent structures, methods and uses within the scope of

  The present invention is not limited to the embodiments described in detail above, and various modifications or changes can be made within the scope of the claims of the present invention.

  DESCRIPTION OF SYMBOLS 1; Oil mist separator, 3; Gas flow path, 5; Relief valve, 7; Separator main body, 9: Gas introduction part, 11: Gas discharge part, 13: Oil discharge part, 15: Wall part, 17: Valve body, 19; opening, 21; filter element, 23; support, 27; guide member, 29;

Claims (5)

An oil mist separator that separates mist-like oil contained in the blowby gas by circulating a blowby gas leaking into the crankcase,
A gas flow path through which the blow-by gas flows;
A relief valve disposed in the gas flow passage and opened and closed by the pressure of the blow-by gas,
The relief valve is
A wall portion arranged to partition the gas flow passage and having an opening;
And covering the opening from the downstream side of the gas flow passage,
The valve body is urged toward the wall portion to close the opening,
When the pressure of the blow-by gas rises above a predetermined pressure, the valve body is pushed to the downstream side to open the opening,
The surface of the valve body on the side facing the opening is provided with a filter element ,
The valve body includes a substantially cylindrical support body having an enlarged diameter portion that supports an outer peripheral side of the filter element,
The valve body is configured such that an outer peripheral side of the filter element is pressed against the wall portion and closes the opening portion when the enlarged diameter portion of the support body is urged toward the wall portion by a coil spring. It is the oil mist separator, characterized in that are. The filter element is supported from the downstream side by the support allows flow through holes are formed to the blow-by gas,
2. The oil mist separator according to claim 1 , wherein the through-hole is formed on a surface side and a peripheral wall surface side of the support body that are in contact with a downstream surface of the filter element .   The oil mist separator according to claim 1 or 2, wherein a convex portion protruding toward the valve body is formed at a peripheral edge of the opening. The support is formed with a protrusion protruding toward the filter element,
The downstream surface of the filter element is supported by a tip portion of the projection of the support, and is separated from a portion other than the projection of the support . The oil mist separator according to one item .   The oil mist separator according to any one of claims 1 to 4, wherein the opening is formed with a plurality of holes.

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