Air intake device for a vehicle

Abstract

An air intake device for a vehicle. The device includes an inlet for air, a first outlet arranged for providing air to an engine of the vehicle and a second outlet arranged for discharging liquid separated from the air provided to the first outlet, and an intermediate portion forming an air channel extending from the inlet to the first outlet and the second outlet. A bottom surface on the inside of the intermediate portion is inclined relative to a horizontal plane for directing liquid in the air channel towards the second outlet.

Claims

1. An air intake device for a vehicle, the device comprising: an inlet through which air is received into the air intake device, a first outlet through which air is discharged toward an engine of the vehicle, a second outlet through which liquid that has been separated from the air is discharged, and an intermediate portion forming an air channel extending in an airflow direction from the inlet to the first outlet and to the second outlet, wherein the air channel comprises a bottom surface formed by a lower wall of the intermediate portion and, wherein the bottom surface of the air channel is inclined relative to a horizontal plane for directing liquid in the air channel towards the second outlet and away from the first outlet, the bottom surface including: a first bottom surface portion extending from the first outlet along the intermediate portion toward the air intake at an upward inclination relative to the horizontal plane in the airflow direction from the inlet to the first outlet; and a second bottom surface portion extending from the second outlet along the intermediate portion toward the air intake at a downward inclination relative to the horizontal plane in the airflow direction from the inlet to the second outlet, and wherein, relative to the airflow direction, the first bottom surface and the second bottom surface portion are laterally adjacent to each other.

2. The device according to claim 1, wherein the first bottom surface portion and the second bottom surface portion are further inclined relative to the horizontal plane in a direction perpendicular to the airflow direction so that the bottom surface is higher in elevation along the first bottom surface portion than along the second bottom surface portion.

3. The device according to claim 2, wherein the bottom surface has a downward slope in a direction from the first outlet to the second outlet.

4. The device according to claim 2, wherein the inclination in the direction perpendicular to the airflow direction is different along the first bottom surface portion than along the second bottom surface portion.

5. The device according to claim 2, wherein the first bottom surface portion and the second bottom surface portion are connected by a threshold step that provides an increase in elevation to the first bottom surface portion relative the second bottom surface portion.

6. The device according to claim 1, wherein the intermediate portion has a bend portion making the air channel curved.

7. The device according to claim 1, wherein the first bottom surface portion and the second bottom surface portion are arranged laterally side by side in the bend portion, the first bottom surface portion arranged along an inner curve of the bend portion and the second bottom surface portion arranged along an outer curve of the bend portion.

8. The device according to claim 1, wherein the first outlet and the first bottom surface portion are connected by a threshold step such that the first outlet is higher in elevation than the first bottom surface portion.

9. A vehicle comprising the air intake device according to claim 1.

10. A device according to claim 1, wherein, relative to the airflow direction, the first outlet and the second outlet are laterally adjacent to each other.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) With reference to the appended drawings, below follows a more detailed description of embodiments of the invention cited as examples.

(2) In the drawings:

(3) FIG. 1 shows a vehicle with an air intake device for providing air to an engine,

(4) FIG. 2A is a schematic view of an air intake device,

(5) FIG. 2B is cross-section view taken along B-B in FIG. 2A,

(6) FIG. 2B′ shows a variant of the air intake device in FIG. 2A,

(7) FIG. 2B″ shows a further variant of the air intake device in FIG. 2A,

(8) FIG. 2C is a cut view taken along C-C in FIG. 2B,

(9) FIG. 2D is a cut view taken along D-D in FIG. 2B′,

(10) FIG. 2E is a cut view taken along E-E in FIG. 2B′,

(11) FIG. 3 is a perspective view of a vehicle showing the engine compartment with an air intake device,

(12) FIG. 4A is a perspective view of the air intake device in FIG. 3,

(13) FIG. 4B is a cut view taken along B-B in FIG. 4A,

(14) FIG. 4C is a cross-section view taken along C-C in FIG. 4B,

(15) FIG. 5 is a perspective view of a vehicle showing the engine compartment with a further variant of an air intake device,

(16) FIG. 6A is a perspective view of the air intake device in FIG. 5,

(17) FIG. 6B is a cut view taken along B-B in FIG. 6A, and

(18) FIG. 6C is a cross-section view taken along C-C in FIG. 6B.

DETAILED DESCRIPTION

(19) FIG. 1 shows a vehicle 1 with an air intake device 2. The air intake device 2 is suitably arranged in the front of the vehicle 1 for providing air to an engine 3 of the vehicle. In FIG. 1, a Cartesian coordinate system having an X-axis, a Y-axis and a Z-axis is also indicated. The X-axis is arranged in parallel with a longitudinal extension direction of the vehicle (i.e. the driving direction), the Z-axis is arranged in the vertical direction and a horizontal plane is defined by the X-axis and the Y-axis.

(20) FIG. 2A is a schematic view of the air intake device 2 as seen from above in a direction in parallel with the Z-axis in FIG. 1. As schematically illustrated in FIG. 2A, the air intake device 2 comprises an inlet 4 for air, a first outlet 5 arranged for providing air to an engine (not shown in FIG. 2A) of the vehicle and a second outlet 6 arranged for discharging liquid separated from the air provided to the first outlet 5. In addition to liquid also air will pass through the second outlet as well as any particles such as snow, ice and dirt.

(21) The air inlet 4 is preferably arranged in the front of the vehicle for receiving air in a direction in parallel with the X-axis illustrated in FIG. 1. Further, the air intake device 2 comprises an intermediate portion 7 forming an air channel 8 extending from the air inlet 4 to the first outlet 5 and the second outlet 6. A longitudinal main extension direction 9 of the air channel 8 and a direction 10 perpendicular to the longitudinal main extension direction 9 of the air channel 8 are indicated in FIG. 2A. These directions 9, 10 define a horizontal plane. The air intake device 2 is suitably made by one or more pipe portions for providing a hollow structure and forming the air channel 8.

(22) FIG. 2B is a cross-section view taken along B-B in FIG. 2A. The first outlet 5 is arranged to the right and the second outlet 6 is arranged to the left. The first outlet 5 and the second outlet 6 can be separated by a wall. In the example embodiment illustrated in FIG. 2B, the air channel 8 is divided into the first outlet 5 and second outlet 6 by a substantially vertical wall 16 at an end of the intermediate portion 7. As previously mentioned hereinabove, connection pipes can be arranged at the first outlet 5 and the second outlet 6 for further transportation of air downstream the first outlet 5 and water downstream the second outlet 6.

(23) A bottom surface 11 on the inside of the intermediate portion 7 is inclined relative to a horizontal plane 12 for directing liquid in the air channel 8 towards the second outlet 6 by gravity. This means that the bottom surface 11 is inclined relative to the plane defined by the X-axis and the Y-axis in FIG. 1, when the air intake device is properly installed in the vehicle standing on even ground. The bottom surface 11 has an inclination angle α relative to the horizontal plane 12 in the direction 10 perpendicular to the longitudinal main extension direction 9 of the air channel 8. In other words; α is a transverse inclination angle. Due to the transverse inclination angle, the bottom surface 11 has a downward slope in a direction from the first outlet 5 to the second outlet 6.

(24) FIG. 2B′ is a cross-section view taken along B-B in FIG. 2A for a further example embodiment of the air intake device 2′. The bottom surface 11′ has a first part 13 extending to the first outlet 5′, which first bottom surface part 13 has a first inclination angle α1 relative to the horizontal plane 12, and a second part 14 extending to the second outlet 6, which second bottom surface part 14 has a second inclination angle α2 relative to the horizontal plane 12.

(25) FIG. 2B″ is a cross-section view taken along B-B in FIG. 2A for a further example embodiment of the air intake device. In the same way as described with reference to FIG. 2B′, the bottom surface 11″ has a first part 13″ extending to the first outlet 5″, which first bottom surface part 13″ has a first inclination angle α1 relative to the horizontal plane 12, and a second part 14″ extending to the second outlet 6″, which second bottom surface part 14″ has a second inclination angle α2 relative to the horizontal plane 12.

(26) In the example embodiment illustrated in FIG. 2B″, the first bottom surface part 13″ extending to the first outlet 5″ and the second bottom surface part 14″ extending to the second outlet 6″ are connected by a threshold step 15 such that the first bottom surface part 13″ is arranged on a higher level than the second bottom surface part 14″. In other words; the threshold step has an extension component in the vertical direction. The threshold step 15, which can be formed by a vertical or inclined wall, is suitably arranged such that the threshold step 15 divides the intermediate portion bottom surface 11″ into the first bottom surface part 13″ extending to the first outlet 5″ and the second bottom surface part 14″ extending to the second outlet 6″. In other words; the threshold step 15 and the wall 16 separating the first inlet and the second inlet from each other, can be arranged at the same position with respect to the direction 10 perpendicular to the longitudinal main extension direction 9 of the air channel 8. Thus, the width of the air channel part having the first bottom surface part 13″ can correspond to the width of the first outlet 5″ and the width of the air channel part having the second bottom surface part 14″ can correspond to the width of the second outlet 6″.

(27) FIG. 2C is a cut view taken along C-C in FIG. 2B. As illustrated in FIG. 2C, the bottom surface 11 can have an inclination angle β relative to the horizontal plane 12 in the longitudinal main extension direction 9 of the air channel 8. In other words; β is a longitudinal inclination angle. In the example embodiment illustrated in FIG. 2C, due to the longitudinal inclination angle the bottom surface 11 has an upward slope as seen in the direction from the inlet 4 to the first outlet 5.

(28) FIG. 2D and FIG. 2E are cut views taken along D-D and E-E, respectively, in FIG. 2B′. As illustrated in FIGS. 2D and 2E, the bottom surface 11′ can have a first part 13 extending to the first outlet 5′, which first bottom surface part 13 has a first inclination angle β1, and a second part 14 extending to the second outlet 6′, which second bottom surface part 14 has a second inclination angle β2, where the first inclination angle β1 and the second inclination angle β2 are different from each other. In the example embodiment illustrated in FIGS. 2D and 2E, the first bottom surface part 13 extending to the first outlet 5′ has an upward slope as seen in the direction from the inlet 4 to the first outlet 5′ and the second bottom surface part 14 extending to the second outlet 6′ has a downward slope as seen in the direction from the inlet 4 to the second outlet 6′.

(29) FIG. 3 shows an example embodiment of the air intake device 20 when assembled in the vehicle 1. The air inlet 4 of the air intake device 20 is facing in a direction in parallel with the X-axis for receiving air from a position in the front of the vehicle 1. In another embodiment the air inlet could however be arranged in another direction, for example the air inlet could be facing in a direction in parallel with the Y-axis. In addition to air, some water, snow, ice and/or dirt may unintentionally pass the air inlet 4 and reach the intermediate portion 7.

(30) The first outlet 5 of the air intake device 20 is connected to a filter box 21. Inside the filter box 21 one or more air filters is arranged for cleaning the air before the air reaches the engine 3. The second outlet 6 is arranged for discharging liquid such as water, separated from the air provided to the first outlet 5. Also air will pass through the second outlet 6 as well as particles such as snow, ice and dirt.

(31) The intermediate portion 7 has a bend portion 22 making the air channel 8 extending from the inlet 4 to the first outlet 5 and the second outlet 6 curved. The intermediate portion 7 is suitably curved in the horizontal plane defined by the X-axis and the Y-axis.

(32) FIG. 4A shows an enlarged view of the air intake device 20 and the filter box 21 illustrated in FIG. 3. In this example embodiment, the bend portion 22 of the intermediate portion 7 is provided with the bottom surface being inclined relative to the horizontal plane. This is further illustrated in FIG. 4B. The bend portion 22 of the intermediate portion 7 can extend approximately 180° and the intermediate portion 7 can be S-shaped.

(33) FIG. 4B is a cut view taken along B-B in FIG. 4A, where the bottom surface 11 of the bend portion 22 is shown. The first bottom surface part 13 extending to the first outlet 5 and the second bottom surface part 14 extending to the second outlet 6 are arranged side by side in the bend portion 22. The first bottom surface part 13 extending to the first outlet 5 is arranged along an inner curve of the bend portion 22 and the second bottom surface part 14 extending to the second outlet 6 is arranged along an outer curve of the bend portion 22.

(34) A part 23 of the intermediate portion bottom surface 13 adjacent to the first outlet 5 and a bottom surface 24 defining the first outlet 5 are connected by a threshold step 25 such that the first outlet bottom surface 24 is arranged at a higher level than the adjacent intermediate portion bottom surface part 23.

(35) As has been previously described hereinabove with reference to previous figures, such as FIGS. 2B′, 2B″, 2D and 2E, also in this example embodiment illustrated in FIGS. 4A and 4B, the first bottom surface part 13 can have a first inclination angle (indicated as β1 in previous Figs.) relative to the horizontal plane 12 forming an upward slope as seen in the direction from the inlet 4 to the first outlet 5. Further, the second bottom surface part 14 can have a second inclination angle (indicated as β2 in previous Figs.) relative to the horizontal plane 12 forming a downward slope as seen in the direction from the inlet 4 to the second outlet 6. Optionally, only the first bottom surface part 13 has an inclination angle β1 relative to the horizontal plane in the longitudinal main extension direction 9 of the air channel 8, i.e. β2=0.

(36) Along the bend portion 22, the longitudinal main extension direction 9 of the air channel 8 is of course not constant, but is rather represented by the tangent to the curve of the intermediate portion 7.

(37) Further, the first bottom surface part 13 can have a first inclination angle α1 relative to the horizontal plane 12 in the direction 10 perpendicular to the longitudinal main extension direction 9 of the air channel 8, and the second bottom surface part 14 can have a second inclination angle α2 relative to the horizontal plane 12 in the direction 10 perpendicular to the longitudinal main extension direction of the air channel, as also described for previous example embodiments hereinabove.

(38) FIG. 4C is a cross-section view taken along C-C in FIG. 4B. As illustrated in FIG. 4C, the bend portion 22 has a downward slope in a direction from the first outlet 5 to the second outlet 6 along both the first bottom surface part 13 and the second bottom surface part 14. Optionally, only the first bottom surface part 13 has an inclination angle α1 relative to the horizontal plane 12 in the direction 10 perpendicular to the longitudinal main extension direction 9 of the air channel 8, i.e. α2=0.

(39) With respect to all example embodiments described herein, it should be stressed that the inclination angles (α, α1, α2, β, β1, β2) do not need to be constants, but can vary along the longitudinal main extension direction of the air channel of the intermediate portion. For example, in the example embodiment described above, optionally the transverse inclination angle α1 can be increasing in the direction from the air inlet to the first outlet. Optionally, the longitudinal inclination angle β1 can also be increasing in the direction from the air inlet to the first outlet.

(40) FIG. 5 shows a further example embodiment of the air intake device when assembled in the vehicle. The air inlet 4 of the air intake device 20′ is facing in a direction in parallel with the X-axis for receiving air from a position in the front of the vehicle 1. In addition to air, some water, snow, ice and/or dirt may unintentionally pass the air inlet 4 and reach the intermediate portion 7.

(41) The first outlet 5 of the air intake device 20′ is connected to a filter box 21. Inside the filter box 21 one or more air filters is arranged for cleaning the air before the air reaches the engine 3. The second outlet 6 is arranged for discharging liquid such as water, separated from the air provided to the first outlet 5. Also air will pass through the second outlet 6 as well as particles such as snow, ice and dirt.

(42) The intermediate portion 7 has a bend portion 22′ making the air channel 8 extending from the inlet 4 to the first outlet 5 and the second outlet 6 curved. The intermediate portion 7 is suitably curved in the horizontal plane defined by the X-axis and the Y-axis.

(43) FIG. 6A shows an enlarged view of the air intake device 20′ and the filter box 21 illustrated in FIG. 5. In this example embodiment, the bend portion 22′ of the intermediate portion 7 is provided with the bottom surface which is inclined relative to the horizontal plane. This is further illustrated in FIG. 6B. The bend portion 22′ of the intermediate portion 7 can extend approximately 90°.

(44) FIG. 6B is a cut view taken along B-B in FIG. 6A, where the bottom surface 11 of the bend portion 22′ is shown. The first bottom surface part 13 extending to the first outlet 5 and the second bottom surface part 14 extending to the second outlet 6 are arranged side by side in the bend portion 22′. The first bottom surface part 13 extending to the first outlet 5 is arranged along an inner curve of the bend portion 22′ and the second bottom surface part 14 extending to the second outlet 6 is arranged along an outer curve of the bend portion 22′.

(45) A part 23 of the intermediate portion bottom surface 13 adjacent to the first outlet 5 and a bottom surface 24 defining the first outlet 5 are connected by a threshold step 25 such that the first outlet bottom surface 24 is arranged at a higher level than the adjacent intermediate portion bottom surface part 23.

(46) As has been previously described hereinabove, also in this example embodiment illustrated in FIGS. 6A and 6B, the first bottom surface part 13 can have a first inclination angle (indicated as β1 in previous Figs.) relative to the horizontal plane 12 forming an upward slope as seen in the direction from the inlet 4 to the first outlet 5. Further, the second bottom surface part 14 can have a second inclination angle (indicated as β2 in previous Figs.) relative to the horizontal plane 12 forming a downward slope as seen in the direction from the inlet 4 to the second outlet 6. Optionally, only the first bottom surface part 13 has an inclination angle β1 relative to the horizontal plane in the longitudinal main extension direction 9 of the air channel 8, i.e. β2=0.

(47) Along the bend portion 22′, the longitudinal main extension direction 9 of the air channel 8 is of course not constant, but is rather represented by the tangent to the curve of the intermediate portion 7.

(48) Further, the first bottom surface part 13 can have a first inclination angle α1 relative to the horizontal plane 12 in the direction 10 perpendicular to the longitudinal main extension direction 9 of the air channel 8 and the second bottom surface part 14 can have a second inclination angle α2 relative to the horizontal plane 12 in the direction 10 perpendicular to the longitudinal main extension direction of the air channel, as also described for previous example embodiments hereinabove.

(49) FIG. 6C is a cross-section view taken along C-C in FIG. 6B. As illustrated in FIG. 6C, the bend portion 22′ has a downward slope in a direction from the first outlet 5 to the second outlet 6 along both the first bottom surface part 13 and the second bottom surface part 14. Optionally, only the first bottom surface part 13 has an inclination angle α1 relative to the horizontal plane 12 in the direction 10 perpendicular to the longitudinal main extension direction 9 of the air channel 8, i.e. α2=0.

(50) It is to be understood that the present invention is not limited to the embodiments described above and illustrated in the drawings; rather, the skilled person will recognize that many changes and modifications may be made within the scope of the appended claims.