This application is based on Japanese Patent Application No. 2018-223229 filed on Nov. 29, 2018, the disclosure of which is incorporated herein by reference in its entirety.
The present disclosure is related to an air cleaner for a vehicle.
An air cleaner has a rib to ensure rigidity. A pressure loss is reduced or suppressed by optimizing a shape of the rib.
According to an aspect of the present disclosure, an air cleaner is provided. The air cleaner has a body, an intake part, an exhaust pipe, a mounting section, a rib, and a straightening element. The intake part takes air into the body. The mounting section mounts an air flow meter to the exhaust pipe to exhaust the air from the body. The rib is disposed on an inner surface of the body and extends toward the exhaust pipe. The straightening element is disposed on an inner surface of the exhaust pipe and extends in a same direction where the rib extends. The straightening element is located closer to the body than the mounting section.
To begin with, examples of relevant techniques will be described.
An air cleaner has a rib to ensure rigidity. A pressure loss is reduced or suppressed by optimizing a shape of the rib.
However, when air in the air cleaner flows along the rib, eddies are generated at a downstream end of the rib in a flow of the air and disturbs the flow. When the disturbed flow flows into an air flow meter, the air flow rate may not be measured accurately.
An air clearer in which a flow of air is less affected by a rib is provided in this disclosure, and can be achieved in embodiments described below.
According to an aspect of the present disclosure, an air cleaner is provided. The air cleaner has a body, an intake part, an exhaust pipe, a mounting section, a rib, and a straightening element. The intake part takes air into the body. The mounting section mounts an air flow meter to the exhaust pipe to exhaust the air from the body. The rib is disposed on an inner surface of the body and extends toward the exhaust pipe. The straightening element is disposed on an inner surface of the exhaust pipe and extends in a same direction where the rib extends. The straightening element is located closer to the body than the mounting section.
Such air cleaner has the straightening element on the inner surface of the exhaust pipe to face the rib on the inner surface of the body. The straightening element is located closer to the body than the mounting section. The straightening element can reduce the disturbed flow generated at a downstream end of the rib in the flow of the air.
As shown in
The body 11 has a hollow boxed shape. The body 11 has an air cleaner case 12 disposed adjacent to the intake part 17 where air is taken into and an air cleaner cap 13 disposed adjacent to the exhaust pipe 18 where the air is exhausted. The air cleaner case 12 has a rectangular plane surface 12a and four side surfaces 12b, 12c, 12d, and 12e. The side surfaces 12b, 12c, 12d, and 12e are connected to four ends of the plane surface 12a respectively. The air cleaner case 12 also has a rectangular opening 12f defined by the four side surfaces 12b, 12c, 12d, and 12e. The intake part 17 is formed on the side surface 12c of the four side surfaces 12b, 12c, 12d, and 12e and takes air into the body 11. The air cleaner case 12 is connected to the air cleaner cap 13 through the opening 12f.
The air cleaner cap 13 has a rectangular plane surface 13a and four side surfaces 13b, 13c, 13d, and 13e. The four side surfaces 13b, 13c, 13d, and 13e are connected to four ends of the plane surface 13a respectively. The air cleaner cap 13 also has a rectangular opening 13f defined by the four side surfaces 13b, 13c, 13d, and 13e. The exhaust pipe 18 is formed on the side surface 13b of the four side surfaces 13b, 13c, 13d, and 13e and exhausts the taken air outside from the body 11. The air cleaner cap 13 is connected to the air cleaner case 12 through the opening 13f. The plane surface 13a of the air cleaner cap 13 has plural ribs 20 for reinforcement and the ribs 20 extends toward the exhaust pipe 18.
The intake part 17 has a tubular shape whose cross section is a circle and protrudes outward from the body 11. The exhaust pipe 18 has a tubular shape whose cross section is a circle and protrudes outward from the body 11 in a direction opposite to where the intake part 17 protrudes. The exhaust pipe 18 may protrude in other directions. The exhaust pipe 18 has a first section 18a disposed inside the air cleaner cap 13 and a second section 18b disposed outside the air cleaner cap 13. The exhaust pipe 18 has an introduction opening 16a at an upstream end in a flow of the air and an exhaust opening 16b at a downstream end in the flow of the air. The exhaust opening 16b communicates with an engine combustion chamber through a pipe. The exhaust pipe 18 has a mounting section 19 on the same side with the plane surface 13a of the air cleaner cap 13. The air flow meter 40 is to be mounted on the mounting section 19.
The ribs 20 protrude from the plane surface 13a of the air cleaner cap 13 and extend from the side surface 13c toward the exhaust pipe 18. A downstream end of each rib 20 in the flow of the air, or an end located closer to the exhaust pipe 18, extends closer to the first section 18a of the exhaust pipe 18. The number of the ribs 20 is three in this embodiment, but may be one, two or four.
The air flow meter 40 is mounted attachable to and detachable from the mounting section 19 by a plug-in system. The air flow meter 40 measures an air flow rate supplied to the engine combustion chamber. An air introduction part of the air flow meter 40 is positioned at a center of the exhaust pipe 18 in a cross section view.
The straightening element 50 is disposed in the first section 18a of the exhaust pipe 18 to face the mounting section 19. The straightening element 50 extends in the same direction where the rib 20 extends. To say, the straightening element 50 is formed on an inner surface of the first section 18a and obliquely faces the rib 20 on the downstream side from the rib 20. That the straightening element 50 faces the rib 20 means that the straightening element 50 is located at a part of the exhaust pipe 18 where a perpendicular line from the rib 20 crosses. In this disclosure, the rib 20 does not face the straightening element 50 in a protruding direction of the rib 20, but may face the straightening element 50 in the protruding direction of the rib 20. A position to face the rib 20 in this disclosure includes a position distanced from the rib 20 in an extending direction of the rib 20 toward the exhaust opening 16b of the exhaust pipe 18, or includes a position obliquely facing the rib 20 on the downstream side from the rib 20. The straightening element 50 has a stream line shape, and protrudes from the inner surface of the exhaust pipe 18. The width of the straightening element 50 orthogonal to the flow of the air gets smaller toward the exhaust opening 16b of the exhaust pipe 18 in a plan view, or toward the downstream of the flow of the air.
The straightening element 50 is substantially parallel with the extending direction of the rib 20. The plural ribs 20 include a rib 20a, rib 20b, and a rib 20c that are distanced each other in a width direction perpendicular to the extending direction and the protruding direction of the rib 20, and arranged in order from the side surface 13d to the side surface 13e. The rib 20a is an outermost rib closer to the side surface 13e and the rib 20c is an outermost rib closer to the side surface 13d. The straightening element 50 is located between the rib 20a and the rib 20c in the width direction of the ribs 20, or an orthogonal direction to the flow of the air. The straightening element 50 is disposed so that a downstream end 20b1 of the rib 20b is located closer to an upstream end 50b1 of the straightening element 50 in the flow of the air. It is preferred that the downstream end 20b1 of the rib 20b, which is one of the ribs 20, corresponds to the upstream end 50b1 of the straightening element 50 in the extending direction of the rib 20b. In other words, as shown in
A filter element 30 is disposed in the body 11 and separates the body 11 into a dust side 14 and a clean side 15 in a thickness direction UP of the filter element 30. The thickness direction UP may correspond to an upward direction when the air cleaner 10 is mounted on a vehicle. A direction FR in
The flow of the air in the air cleaner 10 is explained in
The air having passed through the filter element 30 is introduced to the air cleaner cap 13. A part of the air introduced to the air cleaner cap 13 hits on the plane surface 13a and is straightened to the exhaust pipe 18 by the ribs 20. An eddy and a disturbance are generated at the downstream end of the ribs 20 in the flow of the air along the ribs 20. The eddy and the disturbance generated at the downstream end of the ribs 20 are reduced or eliminated by the straightening element 50. Thus, the flow of the air reaches a detecting part of the air flow meter 40 in the exhaust pipe 18 after the eddy and the disturbance are reduced or eliminated. The air introduced to the exhaust pipe 18 is exhausted outside the air cleaner 10 from the air exhaust opening 16b.
The air cleaner 10 in this embodiment has the straightening element 50 extending in the same direction where the rib 20 extends, which can reduce or eliminate the eddy and the disturbance generated at the downstream end of the rib 20 in the flow of the air. This further eliminates the deterioration of the measurement accuracy of the air flow rate by the air flow meter 40 and improves the measurement accuracy of the air flow rate. The deterioration is caused by the disturbed flow of the air. The air introduction part of the air flow meter 40 is positioned at the center of the exhaust pipe 18 in the cross section view. When another straightening element 50 is disposed to face the straightening element 50 in this embodiment, on the same surface with the rib 20, the measurement accuracy of the air flow rate may be improved.
As shown in
The straightening elements 50a, 50b, and 50c are formed on the inner surface of the first section 18a on the downstream side from the ribs 20a, 20b, and 20c. The straightening elements 50a, 50b, and 50c obliquely face the ribs 20a, 20b, and 20c respectively. The straightening elements 50a, 50b, and 50c are arranged in the same line with axes of the rib 20a, 20b, and 20c respectively in a plane view.
According to the air cleaner 10 in the second embodiment, the three straightening elements 50a, 50b, and 50c disposed to correspond respectively to the three ribs 20a, 20b, and 20c can reduce or eliminate the eddy and the disturbance of the flow generated at the downstream end of the ribs 20a, 20b, and 20c. Thus, the disturbance of the flow is reduced or eliminated more efficiently in this embodiment than in the first embodiment and improves the measurement accuracy of the air flow rate.
As shown in
The straightening element 50b of the four straightening elements 50b, 50d, 50e, and 50f in the third embodiment is disposed to face the rib 20b on the plane surface 13a of the air cleaner cap 13 similarly in the first embodiment. The straightening element 50d is disposed to face the straightening element 50b, which means the straightening element 50d is on the same surface with the rib 20b that is located on the plane surface 13a of the air cleaner cap 13. The straightening element 50e is distanced from the straightening element 50d by 90 degrees to the side surface 13d relative to a center axis of the exhaust pipe 18 along the curved surface of the exhaust pipe 18. The straightening element 50f is disposed to face the straightening element 50e. The straightening elements 50b, 50f, 50d, and 50e are arranged in order and distanced each other by 90 degrees in clockwise along the curved surface of the exhaust pipe 18 in
The air cleaner 10 in the third embodiment has the straightening element 50d on the curved surface of the first section 18a of the exhaust pipe 18 where the mounting section 19 is located, or on the same surface with the rib 20b. The straightening element 50d that is adjacent closely to the downstream end 20b1 of the rib 20b efficiently reduces or eliminates the eddy and the disturbance of the flow generated at the downstream end 20b1 of the rib 20b. The other straightening elements 50e, 50c, and 50f support to straighten entire flow of the air to improve the measurement accuracy of the air flow rate.
The rib 20 of the air cleaner 10 may be located within a width of the exhaust pipe 18 in a plane view. The width of the exhaust pipe 18 is orthogonal to the flowing direction of the air. The straightening element 50 is located within the width of the exhaust pipe 18. Such positional relationship of the rib 20 and the straightening element 50 can efficiently reduce the disturbance of the flow of the air generated at the rib 20.
The air cleaner 10 may have three straightening elements 50 on the curved surface of the first section 18a on the same side with the ribs 20a, 20b, and 20c of the air cleaner 10 in the first to the third embodiment. The straightening element 50 adjacent closely to the rib 20 can reduce the disturbance of the flow of the air the most efficiently. The three straightening elements 50 make greater straightening effect while the only one straightening element 50 has the straightening effect. This improves the measurement accuracy of the air flow rate.
The disturbance of the flow of the air differs according to the structure of the air cleaner 10. As shown in
The air cleaner 10 may have the exhaust pipe 18 disposed entirely outside the cleaner cap 13. This lengthens a distance from the downstream end 20b1 of the rib 20b to the air flow meter 40 and extends a space for the straightening element 50 to be disposed on the same surface with the rib 20b. This lengthens a distance for a flow of the air from hitting the rib 20 to reaching the air flow meter 40, but this also allows disposing the plural straightening elements 50 in straight line just before the air flow meter 40 in the extended space. The straightening elements 50 are arranged in the direction where air flows. Such air cleaner 10 generates greater straightening effect with the rib 20 and the straightening element 50 and improves the measurement accuracy of the air flow rate.
The present disclosure is not limited to the embodiments described above and may have various modifications without departing from the gist of the present disclosure. For example, technical features in embodiments corresponding to the technical features in each of the embodiments described in the detailed description may be replaced or combined appropriately to solve a part or all of the issues described above or to achieve a part or all of the effects described above. The technical features may be deleted unless the technical features are explained essential in the description.
Number | Date | Country | Kind |
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2018-223229 | Nov 2018 | JP | national |