Defroster interior structure

Abstract

A defroster interior structure includes a defroster outlet blowing out air toward a side glass provided on a door of a vehicle. The door includes the side glass and a door panel provided below the side glass. The defroster outlet is disposed at a position where a side surface of an instrument panel and the door panel overlap each other in a vehicle width direction. The side surface and the door panel form a gap through which an airflow blown out from the defroster outlet flows toward the side glass.

Claims

1. A defroster interior structure comprising: a defroster outlet blowing out air toward a side glass provided on a door of a vehicle, wherein the door includes the side glass and a door panel provided below the side glass, the defroster outlet is disposed at a position where a side surface of an instrument panel and the door panel overlap each other in a vehicle width direction, and the side surface and the door panel form a gap through which an airflow blown out from the defroster outlet flows toward the side glass.

2. The defroster interior structure according to claim 1, wherein at least one of the instrument panel and the door panel has a concave shape that is curved away from the other, and a gap is formed between the concave shape and the other.

3. The defroster interior structure according to claim 1, wherein the defroster outlet is disposed closer to a front of a vehicle than a vehicle front end of the side glass and blows out an airflow toward the vehicle front end.

4. The defroster interior structure according to claim 1, wherein an upper end of the door panel includes a curved portion that is curved toward the side glass from the gap.

5. The defroster interior structure according to claim 1, wherein the side surface of the instrument panel includes an upper-lower surface extending upward from the defroster outlet, and a bulging portion that bulges outward in the vehicle width direction from an upper end of the upper-lower surface.

6. The defroster interior structure according to claim 5, wherein interior members are provided at both ends of the instrument panel in the vehicle width direction, and the interior members being disposed to protrude above the instrument panel and to be inclined outward in the vehicle width direction and toward a rear of the vehicle, and the bulging portion is the interior member.

7. The defroster interior structure according to claim 6, wherein the interior member includes a digital mirror monitor.

8. The defroster interior structure according to claim 6, wherein at least a portion of the gap extends further forward in the vehicle than the interior member.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a diagram of a front portion in a vehicle interior of a vehicle according to a first embodiment when viewed diagonally from the rear and above.

(2) FIG. 2 is a cross-sectional view taken along line II-II in FIG. 1 and is a diagram illustrating a flow of air blown out from a defroster outlet.

(3) FIG. 3 is a side view of a door viewed from the vehicle interior and is a diagram illustrating a positional relationship between the defroster outlet and a side glass.

(4) FIG. 4 is a diagram illustrating a distribution state of an airflow blown out from the defroster outlet in a defroster interior structure according to the first embodiment, and is a diagram corresponding to FIG. 2.

(5) FIG. 5 is a diagram illustrating a distribution state of an airflow blown out from the defroster outlet in the defroster interior structure according to the first embodiment, and is a diagram corresponding to FIG. 3.

(6) FIG. 6 is a cross-sectional view illustrating a flow of air blown out from a defroster outlet according to a second embodiment, and is a diagram corresponding to FIG. 2.

(7) FIG. 7 is a diagram of a front portion in a vehicle interior of a vehicle according to a third embodiment when viewed from above.

DETAILED DESCRIPTION OF THE INVENTION

(8) Embodiments of the present invention will be described below based on the drawings. In the embodiments described below, common parts are denoted by the same reference numerals.

(9) In the following description, unless otherwise specified, terms such as front and rear, top and bottom, and left and right refer to the front and rear, top and bottom, and left and right of a vehicle facing in a forward direction. An arrow UP pointing upward in the vehicle, an arrow FR pointing forward in the vehicle, and an arrow LH pointing leftward in the vehicle are denoted at appropriate locations in the drawings.

First Embodiment

(10) FIG. 1 is a diagram of a front portion in a vehicle interior of a vehicle 1 according to the present embodiment when viewed diagonally from the rear and above.

(11) FIG. 2 is a cross-sectional view taken along line II-II in FIG. 1 and is a diagram illustrating a flow of air E blown out from a defroster outlet 10. FIG. 3 is a side view of a door 20 viewed from the vehicle interior and is a diagram illustrating a positional relationship between the defroster outlet 10 and a side glass 2.

(12) In FIG. 1, reference numeral 20 denotes a door of the vehicle 1, reference numeral 2 denotes a side glass provided on the door 20 of the vehicle 1, and reference numeral 3 denotes a door panel provided below the side glass 2 of the door 20.

(13) Reference numeral 4 denotes an instrument panel that is disposed facing the front of a front seat.

(14) In the vehicle 1 according to the present embodiment, a driver's seat is disposed on the right side in a forward direction of the vehicle. A defroster interior structure TA of the vehicle 1 includes the defroster outlet 10 from which air E is blown out toward the side glass 2.

(15) As illustrated in FIGS. 1 to 3, the side glass 2 is disposed at substantially the center of the door panel 3 in a vehicle width direction. A side surface 4a of the instrument panel 4 overlaps a vehicle front portion 3b of the door panel 3 when the door 20 is closed.

(16) An upper end 3c of the door panel 3 is located higher than an upper surface 4b of the instrument panel 4. The upper end 3c of the door panel 3 includes a curved portion 31 that is curved toward the side glass 2 from an inner side surface 3a (gap S to be described later) on the inner side in the vehicle width direction when viewed from the rear in the vehicle interior. Here, the curved portion 31 is curved with such a curvature that the air E is not separated therefrom.

(17) The defroster outlet 10 blows out the air E sent out from an air conditioning unit, which is not illustrated in the drawing, from the inside of the vehicle toward the side glass 2, and constitutes a portion of the defroster interior structure TA. The defroster outlet 10 is connected to the above-mentioned air conditioning unit through a connection duct (not illustrated). The air conditioning unit includes, for example, an indoor heat exchanger (an evaporator and a heater) and a blower which are not illustrated in the drawing. That is, the defroster outlet 10 blows conditioned air blown out from the blower of the air conditioning unit to the outside of the instrument panel 4 through the connection duct.

(18) The defroster outlet 10 is provided on each of right and left side surfaces 4a of the instrument panel 4. The defroster outlet 10 can be formed into an appropriate shape, such as a circular shape, an elliptical shape, or a rectangular shape.

(19) The defroster outlet 10 is disposed at a position on the side surface 4a which is close to the rear of the vehicle and at a position where the side surface 4a of the instrument panel 4 and the door panel 3 overlap each other in the vehicle width direction. At least a portion of the defroster outlet 10 is disposed closer to the front side of the vehicle than a vehicle front end 2a of the side glass 2 and blows out airflow (air E) toward the vehicle front end 2a of the side glass 2. Specifically, a center C1 of the defroster outlet 10 in the front-rear direction substantially matches the position of the vehicle front end 2a of the side glass 2 in the front-rear direction in FIG. 3. In other words, a vehicle front half of the defroster outlet 10 is positioned close to the front side than the vehicle front end 2a of the side glass 2, and a vehicle rear half of the defroster outlet 10 faces the door panel 3 in the vehicle width direction. It is preferable that the defroster outlet 10 be disposed on the side surface 4a of the instrument panel 4 at a height close to the upper surface 4b of the instrument panel 4.

(20) The side surface 4a of the instrument panel 4 and the door panel 3 form the gap S in the vehicle width direction through which an airflow (air E) blown out from the defroster outlet 10 flows toward the side glass 2. The gap S is formed to be gradually narrowed downward and is formed uniformly over the entire width in the front-rear direction of the vehicle. The airflow (air E) blown out from the defroster outlet 10 into the gap S flows upward through the gap S, and the airflow blown out from the gap S changes its direction toward the side glass 2 to flow along the curved portion 31 of the door panel 3 and reaches the lower side of the side glass 2.

(21) FIG. 4 is a diagram illustrating a distribution state of an airflow blown out from the defroster outlet 10 in the defroster interior structure 1A according to the embodiment, and is a diagram corresponding to FIG. 2. In FIG. 4, the airflow flows in a region indicated by a symbol K1 (region with a different color).

(22) As illustrated in FIG. 4, the airflow (air E) blown out from the defroster outlet 10 passes through the gap S and reaches the lower side of the side glass 2 along the curved portion 31.

(23) FIG. 5 is a diagram illustrating a distribution state of an airflow blown out from the defroster outlet 10 in the defroster interior structure 1A according to the embodiment, and is a diagram corresponding to FIG. 3. In FIG. 5, the airflow flows in a region indicated by a symbol K2 (region with a different color).

(24) As illustrated in FIG. 5, the airflow (air E) blown out from the defroster outlet 10 is directed rearward from the vehicle front end 2a of the side glass 2.

Effects of First Embodiment

(25) In the defroster interior structure 1A according to the present embodiment, an airflow (air E) blown out from the defroster outlet 10 disposed on the side surface 4a of the instrument panel 4 flows through the gap S formed between the side surface 4a and the door panel 3 and is blown out onto the side glass 2. At this time, the defroster outlet 10 is covered in the vehicle width direction by the door panel 3 and is disposed to be hidden when viewed from an occupant. For this reason, the defroster outlet 10 is provided at a position that is not visible to the occupant, and thus aesthetic appearance is improved and the design quality can be improved.

(26) In the present embodiment, the gap S is formed between the side surface 4a of the instrument panel 4 and the door panel 3, and thus an airflow blown out from the defroster outlet 10 can reach the side glass 2 without obstruction.

(27) In the defroster interior structure 1A according to the present embodiment, the defroster outlet 10 is disposed closer to the front side of the vehicle than the vehicle front end 2a of the side glass 2 and blows out an airflow (air E) toward the vehicle front end 2a. For this reason, the airflow blown out from the defroster outlet 10 can be directed rearward from the vehicle front end 2a of the side glass 2. Thus, when this configuration is adopted, it is possible to make an airflow uniformly hit the entire side glass 2 and to prevent uneven fogging from occurring.

(28) In the defroster interior structure 1A according to the present embodiment, the upper end 3c of the door panel 3 includes the curved portion 31 that is curved toward the side glass 2 from the gap S. For this reason, an airflow (air E) flows along a curved surface of the curved portion 31 at the upper end 3c of the door panel 3 due to the Coanda effect, and thus the airflow can be made to hit the lower end of the side glass 2. Thus, when this configuration is adopted, the airflow can be made to hit the entire side glass 2.

Second Embodiment

(29) FIG. 6 is a cross-sectional view illustrating a flow of air E blown out from a defroster outlet 10 according to the present embodiment, and is a diagram corresponding to FIG. 2.

(30) A defroster interior structure 1B according to the present embodiment has substantially the same basic configuration as that of the defroster interior structure 1A according to the first embodiment (see FIGS. 1 to 3), but the shape of a side surface 4a of an instrument panel 4 is different from that in the first embodiment. That is, the side surface 4a of the instrument panel 4 according to the present embodiment includes an upper-lower surface 41 that extends upward from the defroster outlet 10, and a bulging portion 42 that bulges outward in the vehicle width direction from an upper end of the upper-lower surface 41.

(31) A door panel 3 of a door 20 according to the second embodiment includes a curved portion 31 in which an upper end 3c of the door panel 3 is curved toward a side glass 2 from an inner side surface 3a (gap S to be described later) on the inner side in the vehicle width direction when viewed from the rear in a vehicle interior, similar to the first embodiment. An upper surface 4b of the instrument panel 4 is positioned higher than the upper end 3c of the door panel 3. The bulging portion 42 is disposed at a position higher than the curved portion 31. A bulged tip 42a of the bulging portion 42 which faces the side glass 2 is positioned above the curved portion 31. A connection portion 41a connected to the bulging portion 42 of the upper-lower surface 41 is smoothly curved to have a curved surface that is substantially the same as the curved surface of the curved portion 31. That is, the gap S extends substantially in the vertical direction between the upper-lower surface 41 and the inner side surface 3a of the door panel 3 and is further curved outward in the vehicle width direction between the curved portion 31 and the bulging portion 42.

Effects of Second Embodiment

(32) Since the defroster interior structure 1B according to the present embodiment has the same basic configuration as that in the first embodiment, it is possible to obtain the same effects as those in the first embodiment described above.

(33) However, the defroster interior structure 1B including a defroster outlet 10 according to the present embodiment includes the upper-lower surface 41 and the bulging portion 42 in the instrument panel 4, and thus a flow path through which an airflow (air E) blown out from the defroster outlet 10 is directed toward a lower end of the side glass 2 is formed between the bulging portion 42 of the instrument panel 4 and the upper end 3c of the door panel 3. For this reason, when this configuration is adopted, an airflow can be made to hit the lower side of the side glass 2 by the bulging portion 42, and thus an airflow can be made to hit the entire surface of the side glass 2.

Third Embodiment

(34) FIG. 7 is a diagram of a front portion in a vehicle interior of a vehicle according to the present embodiment when viewed from above.

(35) A defroster interior structure 1C according to the present embodiment has substantially the same basic configuration as that of the defroster interior structure 1B according to the second embodiment (see FIG. 6), but a configuration in which a digital mirror monitor 5 (interior member, bulging portion) is provided instead of the bulging portion 42 (see FIG. 6) provided on a side surface 4a of an instrument panel 4 is adopted. That is, the digital mirror monitors 5 are provided at both ends in the vehicle width direction of the instrument panel 4 according to the present embodiment so as to protrude above the instrument panel 4.

(36) The digital mirror monitors 5 are disposed to be connected on both right and left sides of a front display 50 which is disposed in front of a driver's seat at the center in the vehicle width direction above the instrument panel 4, and are inclined toward both outer sides in the vehicle width direction and toward the rear of the vehicle. An outer end 5a of the digital mirror monitor 5 in the vehicle width direction protrudes while bulging out to a position where it overlaps the upper side of a gap S between the side surface 4a of the instrument panel 4 and a door panel 3 when viewed from above. At least a portion of the gap S extends more toward the front of the vehicle than the digital mirror monitor 5.

Effects of Third Embodiment

(37) Since the defroster interior structure 1C according to the present embodiment has the same basic configuration as that in the second embodiment, it is possible to obtain the same effects as those in the second embodiment described above.

(38) However, the defroster interior structure 1C according to the present embodiment is disposed at both ends of the instrument panel 4 in the vehicle width direction so as to protrude upward from the instrument panel 4, is provided with the digital mirror monitor 5 that is inclined outward in the vehicle width direction and toward the rear of the vehicle, and is configured such that the bulging portion 42 in the second embodiment described above is replaced with the digital mirror monitor 5. Thus, when this configuration is adopted, there is no need to form the bulging portion 42 in the instrument panel 4, and thus aesthetic appearance is improved.

(39) In the defroster interior structure 1C according to the present embodiment, an interior member includes the digital mirror monitor 5, and thus it is possible to prevent an airflow (air E) blown out from a defroster outlet 10 from flowing to an occupant side while hitting the entire surface of a side glass 2 while disposing the digital mirror monitor 5 at an easy-to-see position above the instrument panel 4. For this reason, when this configuration is adopted, it is possible to improve defrost performance while maintaining visibility for the occupant and to reduce the occupant's discomfort.

(40) In the defroster interior structure 1C according to the present embodiment, at least a portion of the gap S extends more toward the front of the vehicle than the digital mirror monitor 5. For this reason, an airflow leaking out of the gap S toward the front of the vehicle from the digital mirror monitor 5 can be directed toward a window on a back surface 5b of the digital mirror monitor 5. Thus, when this configuration is adopted, an airflow is more likely to be directed toward the window, and the airflow can be prevented from being blown toward an occupant, thereby making it possible to reduce the occupant's discomfort.

(41) The present invention is not limited to the above-described embodiments, and various design changes can be made without departing from the gist thereof.

(42) For example, the embodiments described above adopt a configuration in which the side surface 4a of the instrument panel 4 and the inner side surface 3a of the door panel 3 are formed in a substantially planar shape, and the gap S is formed between the side surface 4a and the door panel 3. However, a configuration may be adopted in which at least one of the instrument panel 4 and the door panel 3 may have a concave shape curved away from the other, and a gap is formed between the concave shape and the other.

(43) In this case, since the gap is formed in a concave shape, a gap between the side surface of the instrument panel and the door panel can be made smaller than in a case where the gap is formed uniformly, thereby improving aesthetic appearance. In this case, since the gap is formed in a concave shape, an airflow blown out from the defroster outlet can be given directionality, and the airflow can be reliably blown to a desired position on the side glass. Thus, when this configuration is adopted, anti-fogging performance of the side glass can be further improved.

(44) The above-described embodiments adopt a configuration in which a portion of the defroster outlet 10 is disposed closer to the front of the vehicle than the vehicle front end 2a of the side glass 2, and an airflow is blown out toward the vehicle front end 2a, but are not limited thereto. For example, the entire defroster outlet 10 may be disposed closer to the front of the vehicle than the vehicle front end 2a of the side glass 2, or may be disposed closer to the rear of the vehicle than the vehicle front end 2a of the side glass 2.

(45) The above-described embodiments adopt a configuration in which the upper end 3c of the door panel 3 includes the curved portion 31 that is curved toward the side glass 2 from the gap S, but the upper end 3c of the door panel 3 is not limited to being the curved portion 31.

(46) As a bulging portion of the instrument panel 4, the bulging portion 42 formed at the upper end of the side surface 4a of the instrument panel 4 is adopted in the second embodiment, and the digital mirror monitor 5 provided on the upper surface 4b of the instrument panel 4 is adopted in the third embodiment, but the present invention is not limited thereto. The digital mirror monitor 5 is an example of an interior member, and other interior members may also be used.