JP3149277U - Air intake system for vehicle engine - Google Patents

Abstract

An air intake air guide device for a vehicle engine that can uniformly introduce air into an air intake tube (10). An air intake air guide device for a vehicle engine is provided with a ring 21 at an outer edge of at least one main body 20 having a substantially circular plate shape, and the ring 21 is fixed to an inner edge of an air intake pipe 10 and is provided at an inner periphery thereof. Has a plurality of spoiler holes 22, and the plurality of spoiler holes 22 are arranged from the inner periphery of the ring 21 toward the center point and arranged in at least two rows to form a lattice shape. Are provided with at least one spoiler plate 23 having an inclination angle with respect to the axial direction of the vehicle. 23, the air flow is dispersed without being concentrated. [Selection] Figure 3

Description

  The present invention relates to an air intake device for an air intake of a vehicle engine. In particular, the air intake device that can be fixed to the inner edge of the air intake tube. The present invention relates to an air intake and guiding device for a vehicle engine.

  Various spoilers installed on the front end of the air intake pipe are commercially available in order to exhibit a better air intake effect during high-speed rotation of the engine. The purpose is to generate a swirling flow that swirls in the pipe at the front end of the engine air intake when air flows. When a large amount of air enters the air intake tube, this kind of spiral flow allows the air to pass at a high speed.

FIG. 1 is a schematic structural view of a conventional spoiler on the market.
As shown in FIG. 1, the spoiler is installed in a pipe at the front end of an engine air intake port, which has a central hollow pipe 91 having a smaller diameter in a circular pipe 90 having a larger diameter, The central hollow tube 91 is connected by a large number of blades 92 having an arc shape.
As a result, when the airflow flows through the spoiler, the central air passes through the central air pipe 91 to generate a direct current airflow, and the surrounding air is divided into a large number of spirals when passing through the plurality of blades 92. Airflow. The direct current airflow and a large number of spiral airflows in a diverted state are integrated with the spiral airflow again after leaving the spoiler.

FIG. 2 is a structural schematic diagram of another type of conventional spoiler.
As shown in FIG. 2, in the prior art, another type of spoiler that guides a large number of spiral airflows together is seen.
The spoiler is provided with a central guiding column 93 in a circular tube 90, and the circular tube 90 and the central guiding column 93 are connected to each other by a large number of blades 92 having an arc shape.
The end of the central guiding column 93 has a conical shape, and a terminal opening 94 is held between the central guiding column 93 and the end of each wing piece 92.
As a result, when the airflow flows through the spoiler, the airflow is first divided to form a large number of spiral airflows in the space between the blade pieces 92. In addition, when the large number of spiral airflows leave the spoiler, the conical structure at the end of the central guiding column 93 guides the large number of spiral airflows to perform an integrated operation.

In addition to the above two types, there are Patent Document 1, Patent Document 2, Patent Document 3, and the like as similar structures. The emphasis of these designs is to allow the air current to enter as a spiral air current. This type of air intake system has a function of accelerating the intake of air, but also has a disadvantage that the intake of air becomes uneven.
In each of the designs, the gap between two adjacent blades is outward from the spoiler center point, and the distance gradually increases. Further, the gap between the wing pieces becomes smaller as it approaches the position of the center point. Thus, when air is introduced, the wind resistance near the spoiler center point is much greater than the wind resistance away from the center point, which results in non-uniform air intake across the spoiler.
If the user adds an air catalyst such as nitrous oxide (N2O) or other combustion aids to the engine air intake end, each air catalyst or The combustion auxiliary material is not evenly diffused.
Furthermore, each blade of a conventional spoiler is not easy to manufacture because the curvatures extending outward from the center point are not the same.

U.S. Pat.No. 5,113,838 U.S. Patent No. 6,158,412 U.S. Pat.No. 6,796,296

  An object of the present invention is to provide a vehicle engine air intake air guide device that can make air intake into the vehicle engine more uniform.

In order to solve the above problems, the present invention provides the following air intake system for a vehicle engine.
An air intake air guide device for a vehicle engine is provided with a ring at an outer edge of at least one main body having a generally circular plate shape, and the ring is fixed to an inner edge of the air intake pipe, and a plurality of spoiler holes are provided on the inner periphery thereof. The plurality of spoiler holes are arranged from the inner circumference of the ring toward the center point and arranged in at least two rows to form a lattice shape, and each of the spoiler holes has an axial direction of the air intake pipe. And at least one spoiler plate having an inclination angle, and when the air flow taken from the air intake pipe of the vehicle passes through the main body, the air flow is concentrated by the spoiler holes and the spoiler plate of each spoiler hole. In this way, the air uniformly enters the air intake tube.
At the time of implementation, the plurality of spoiler holes are arranged around the inner circumference of the ring and arranged, and the spoiler holes showing the circumference are arranged in at least two rows from the ring center point to the inner circumference of the ring. The plurality of spoiler holes are arranged around the inner circumference of the ring and arranged in a spiral form from the inner circumference of the ring to the center point.
The plurality of spoiler holes are arranged circumferentially or spirally, and at the time of implementation, the number of arrangements of the plurality of spoiler holes near the center point is less than the number of arrangements far from the center point. The hole diameter of the spoiler hole near the center point is almost equal to the hole diameter of the spoiler hole far from the center point, so that there is no problem that the resistance of the wind near the center point becomes large. Are dispersed without being concentrated, and in this way the air enters the air intake tube uniformly. The plurality of spoiler holes can be arranged in a rectangular shape or a polygonal shape on the inner periphery of the ring, so that the diameters of most of the spoiler holes can be made substantially the same.
In the implementation system in which the plurality of spoiler holes are arranged in a circular or spiral manner, the spoiler plate in each spoiler hole is inclined in the same direction at the time of implementation, or the spoiler plates of some spoiler holes are In the former, the spoiler plate in each spoiler hole inclines in the same direction so that the airflow is uniform, but at the same time, the purpose of forming a spiral shape in the induced airflow is also achieved. In the latter case, by tilting the spoiler plate of some spoiler holes in the opposite direction, the air flow is dispersed and further averaged, so that it does not concentrate. The method of inclining to the right can be applied to an embodiment in which a plurality of spoiler holes are arranged in a rectangular shape or a polygonal shape on the inner periphery of the ring.
Between the plurality of spoiler holes arranged in a lattice shape, a plurality of ventilation openings not provided with a spoiler plate are installed, and thereby the air flow is dispersed without being concentrated.
For the convenience of manufacturing, the air intake device for a vehicle engine can be configured such that a plurality of main bodies are stacked, and a connecting portion is installed on a ring on the outer edge of each main body, thereby overlapping another main body. This makes it possible to manufacture each main body thinly, and the main body can be manufactured from ordinary plastics or composite materials. The material used is not limited, and the mold is made compact to improve production efficiency. It can also be made.

  In the present invention, a plurality of spoiler holes are arranged in at least two rows from the inner periphery of the ring to the center point to form a lattice shape, and at least one exhibiting an axial direction and an inclination of the air intake pipe in each spoiler hole. The airflow entering from the air intake pipe of the vehicle engine is distributed without being concentrated by the plurality of spoiler holes and the spoiler plate in each spoiler hole when the main body passes through the main body. In this way, the air enters the air intake pipe on the average, and especially when adding an air catalyst such as dinitrogen monoxide (N2O) or other combustion auxiliary, the air catalyst or other combustion auxiliary is not , Spread evenly.

It is the structure schematic of the air intake spoiler of the conventional engine. It is the structure schematic of another kind of conventional spoiler. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an installation schematic diagram of a first embodiment of a vehicle engine air intake and guidance apparatus according to an embodiment of the present invention; 1 is a structural schematic diagram of a first embodiment of a vehicle engine air intake and guidance apparatus according to an embodiment of the present invention. FIG. 5 is a schematic structural diagram of a second embodiment of a vehicle engine air intake and guidance apparatus according to an embodiment of the present invention. FIG. 4 is a schematic structural diagram of a third embodiment of the air intake device for a vehicle engine according to an embodiment of the present invention. FIG. 6 is a schematic view of the use of a third embodiment of a vehicle engine air intake air guiding device according to an embodiment of the present invention; FIG. 10 is a schematic structural diagram of a fourth embodiment of the vehicle engine air intake and guidance device according to the embodiment of the present invention; FIG. 6 is a schematic view of the use of a fourth embodiment in a vehicle engine air intake and guidance apparatus according to an embodiment of the present invention. FIG. 7 is a schematic structural diagram of a fifth embodiment of the vehicle engine air intake and guidance device according to the embodiment of the present invention; FIG. 10 is a schematic structural diagram of a sixth embodiment of the vehicle engine air intake guiding apparatus according to the embodiment of the present invention;

FIG. 3 is an installation schematic diagram of the first embodiment in a vehicle engine air intake wind guide device according to an embodiment of the present invention. FIG. 4 is a vehicle engine air intake wind guide device according to an embodiment of the present invention. It is the structure schematic of 1st embodiment.
As shown in FIG. 3 and FIG. 4, in the first embodiment of the vehicle engine air intake air guiding device according to one embodiment of the present invention, a ring 21 is installed on the outer edge of at least one main body 20 having a generally circular plate shape. . The ring 21 is fixed to the inner edge of the air intake tube 10 and a plurality of spoiler holes 22 are provided on the inner periphery thereof. In addition, the plurality of spoiler holes 22 are arranged from the inner periphery of the ring 21 toward the center point and arranged in at least two rows to form a lattice shape. Each spoiler hole 22 includes at least one spoiler plate 23 that exhibits an axial direction (air intake direction) and an inclination angle of the air intake pipe 10. When the airflow taken from the vehicle air intake pipe 10 passes through the main body 20, the airflow is dispersed without being concentrated by the plurality of spoiler holes 22 and the spoiler plate 23 of each spoiler hole 22, and the air is thus air. Enter the intake tube 10 uniformly.

  As shown in the drawing, the plurality of spoiler holes 22 are arranged in an annular shape on the inner periphery of the ring 21. Moreover, the plurality of spoiler holes 22 are arranged in at least two rows from the center point of the ring 21 to the inner periphery of the ring 21. At the time of implementation, as in the second embodiment of the present invention shown in FIG. 5, the plurality of spoiler holes 22 surround the inner periphery of the ring 21, and from the inner periphery of the ring 21 toward the center point, they may be arranged in a spiral shape. it can.

  In the first embodiment shown in FIGS. 3 and 4 and the second embodiment shown in FIG. 5, the number of spoiler holes 22 near the center point is made smaller than the number of spoiler holes 22 away from the center point. The hole diameter of the spoiler hole 22 close to the center point is made the same as the hole diameter of the spoiler hole 22 away from the center point. By doing in this way, the problem that the resistance of the wind near the center point becomes larger does not occur, the dispersed air current does not concentrate, and the air can uniformly enter the air intake pipe 10.

Furthermore, in the embodiment in which the plurality of spoiler holes 22 are arranged in a circumferential or spiral manner, the spoiler plate 23 in each spoiler hole 22 is inclined in the same direction at the time of implementation, or shown in FIGS. 6 and 7. As in the third embodiment, a part of the spoiler plate 23 of the spoiler hole 22 can be inclined in the opposite direction.
In the first and second embodiments shown in FIGS. 3, 4, and 5, the purpose of inclining the spoiler plate 23 in each spoiler hole 22 in the same direction is to make air ingress uniform. At the same time, the object of forming a spiral shape in the induced airflow can also be achieved.
In the third embodiment shown in FIGS. 6 and 7, a part of the spoiler plate 23 of the spoiler hole 22 is inclined in the opposite direction, so that the airflow is more evenly distributed and the concentrated state does not occur.
Furthermore, when adding an air catalyst such as dinitrogen monoxide (N2O) or other combustion auxiliary, each air catalyst or other combustion auxiliary is diffused uniformly.

  In the fourth embodiment of the present invention shown in FIG. 8 and FIG. 9, a plurality of ventilation holes 24 are further installed between the plurality of spoiler holes 22 arranged in a grid and provided with the inclined spoiler plate 23. be able to. An isolation plate 25 for isolation is provided around each passage 24, and the axial direction (air intake direction) of the isolation plate 25 and the air intake tube 10 is parallel and has no inclination angle. Thereby, it can disperse | distribute, without concentrating airflow.

Further, as shown in FIG. 3, for the convenience of manufacturing, the air guide device according to the embodiment of the present invention can be configured by stacking a plurality of main bodies 20. Moreover, on each outer ring 20 of the main body 20, a connecting portion 26 can be installed so that it can be overlapped and fixed with another main body 20 ′.
In this manner, each main body 20 can be manufactured thinly, and the main body 20 can be manufactured using a general plastic or composite material, and the material used is not limited. Further, the mold can be made compact and the production efficiency can be improved. In particular, the main body 20 can be manufactured from a composite material including an air catalyst, thereby improving the practicality of the entire wind guide device.

FIG. 10 is a schematic structural view of a fifth embodiment of a vehicle engine air intake air guide apparatus according to an embodiment of the present invention. FIG. 11 is a vehicle engine air intake air guide apparatus according to an embodiment of the present invention. FIG. 10 is a schematic structural diagram of a sixth embodiment.
In the conventional structure, in order to solve the problem that the wind resistance increases as the distance from the center point increases, in the fifth and sixth embodiments of the present invention, a plurality of spoiler holes 22 are formed on the inner periphery of the ring 21 of the main body 20. Are arranged in a grid. In addition, each spoiler hole 22 includes at least one spoiler plate 23 that exhibits an inclination angle with the axial direction of the air intake tube 10.
In the fifth embodiment shown in FIG. 10, the plurality of spoiler holes 22 are rectangular and arranged in the inner periphery of the ring 21, and in the sixth embodiment shown in FIG. 11, the plurality of spoiler holes 22 are arranged in the inner periphery of the ring 21. It exhibits a polygonal shape and is arranged so that most of the spoiler holes 22 have substantially the same diameter.
At the time of implementation, a plurality of ventilation holes 24 are installed between the plurality of spoiler holes 22, and a separation plate 25 is provided around each ventilation hole 24. Moreover, the axial direction (air intake direction) of the isolation plate 25 and the air intake tube 10 is parallel and does not have an inclination angle, whereby the air flow is dispersed without being concentrated.
Furthermore, the spoiler plate 23 can be inclined in the opposite direction in some of the spoiler holes 22 of the fifth and sixth embodiments.

DESCRIPTION OF SYMBOLS 10 Air intake pipes 20 and 20 'Main body 21 Ring 22 Spoiler hole 23 Spoiler plate 24 Ventilation hole 25 Isolation plate 26 Connection part

Claims (10)

Install a ring on the outer edge of at least one body that has a generally circular plate shape,
The ring is fixed to the inner edge of the air intake pipe, and a plurality of spoiler holes are provided on the inner periphery thereof, and the plurality of spoiler holes are arranged in at least two rows from the inner periphery of the ring toward the center point. Form a lattice,
In each spoiler hole, provided with at least one spoiler plate exhibiting an inclination angle with the axial direction of the air intake pipe,
The air of the vehicle engine is characterized in that when the air flow taken from the air intake pipe of the vehicle passes through the main body, the air flow is dispersed without being concentrated by the plurality of spoiler holes and the spoiler plate of each spoiler hole. Intake air guide device.   2. The air intake air guide device for a vehicle engine according to claim 1, wherein the plurality of spoiler holes are arranged around the inner circumference of the ring and arranged in a circle, and from the ring center point to the inner circumference of the ring, An air intake air guide device for a vehicle engine, wherein spoiler holes having a circumference are arranged in at least two rows.   2. The air intake wind guide device for a vehicle engine according to claim 1, wherein the lattice-like spoiler holes are arranged around the inner circumference of the ring and arranged helically from the inner circumference of the ring to a center point. 3. Air intake system for vehicle engine.   2. The air intake air guide device for a vehicle engine according to claim 1, wherein the plurality of spoiler holes are arranged in a rectangular shape on an inner periphery of the ring.   2. The air intake system for a vehicle engine according to claim 1, wherein the plurality of spoiler holes are arranged in a polygonal shape on the inner periphery of the ring.   4. The vehicle engine air intake and guidance apparatus according to claim 2, wherein the number of arranged rows near the center point in the at least two rows of the plurality of spoiler holes is smaller than the number of arranged rows far from the center point. A vehicle engine air intake air guide device.   6. The air intake device for an air intake of a vehicle engine according to any one of claims 2 to 5, wherein the spoiler plate of each spoiler hole is inclined in the same direction. Wind guide device.   6. The air intake system for a vehicle engine according to any one of claims 2 to 5, wherein the spoiler plate of the part of the spoiler holes is inclined in the opposite direction. Air intake air guide device.   In the air intake air guide device for a vehicle engine according to any one of claims 2 to 5, a plurality of ventilation holes are provided between the plurality of spoiler holes arranged in a lattice shape, An air intake air guide device for a vehicle engine, comprising an isolation plate around a ventilation opening, and the axial direction of the isolation plate and the air intake pipe being parallel to each other.   6. The air intake air guide device for a vehicle engine according to any one of claims 1 to 5, wherein the air guide device is configured by stacking a plurality of plate-like main bodies having a substantially circular shape, and each of the main bodies. An air intake air guide device for a vehicle engine, characterized in that a connecting portion is installed on an outer ring, so that it is overlapped with another main body and fixed.

Images