JPH10175430A - Air amount distribution adjusting device for defroster - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air amount distribution adjusting device for a defroster facilitating assembly with the small number of part items. SOLUTION: In an upper side connection part 18 of a defroster lower 10, a straightening plate 20 is formed, by the straightening plate 20, a pair of right/ left opening parts 22, 24 leading to right/left both end parts from a drawn shaped part 20A are formed. The opening part 22, 24 is formed in almost triangular shape spreading a width as it goes to right/left both end parts 22B, 24B from central part side end parts 22A, 24A. The defroster lower 10 is constituted by a defroster lower front 30 and a defroster lower rear 32. In the defroster lower front 30, a straightening plate front 34 is integrally molded, in the defroster lower rear 32, a straightening plate rear 36 is integrally molded.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air flow distribution adjusting device for a defroster, and more particularly to an air flow distribution adjusting device for a defroster mounted on a vehicle such as an automobile and having defroster nozzles for a windshield and both side glasses.

[0002]

2. Description of the Related Art A conventional air conditioner for a vehicle such as an automobile has already been proposed with an air flow distribution adjusting device for a defroster having a simple structure and capable of easily distributing air flow for a front defroster and a side defroster. . Hereinafter, this type of defroster air volume distribution adjusting device is disclosed.
The configuration shown in -170011 will be described.

As shown in FIG. 6, in the defroster air volume distribution adjusting device 100, when adjusting the distribution of the air volume flowing to the front defroster opening and the side defroster opening, the device is formed at the tip 102A of the partition plate 102. The projection 104 is removed from the stop hole 108 formed in the defroster nozzle main body 106, and the partition plate 102 is bent from the bendable thin portion 110 to change the inclination angle with respect to the fixed base portion 102B. Protrusion 104
Are engaged again.

[0004]

However, in the defroster air volume distribution adjusting device 100, the partition plate 102 is a separate member from the defroster nozzle body 106, so that the number of parts is large, and assembly is complicated. Become.

In view of the above, an object of the present invention is to provide a defroster air volume distribution adjusting device which has a small number of parts and is easy to assemble.

[0006]

According to the first aspect of the present invention, there is provided a defroster lower communicating with an air outlet of an air conditioner,
A defroster nozzle connected to the defroster lower and also having a side defroster path, wherein the defroster nozzle is provided integrally with at least one of the defroster lower and the defroster nozzle, It is characterized by having a rectifying plate for rectifying the air flowing from the lower to the defroster nozzle.

[0007] Therefore, the conditioned air blown out from the air outlet of the air conditioner is adjusted in its direction by the rectifying plate and is blown out to the defroster nozzle, so that a sufficient amount of air is blown to the side defroster and the defroster. In addition, since the current plate is provided integrally with at least one of the defroster lower and the defroster nozzle, the number of components is small, assembly is easy, and the support rigidity of the current plate is increased.

According to a second aspect of the present invention, in the air flow distribution adjusting device for a defroster according to the first aspect, the rectifying plate is provided at both ends of the defroster lower and the defroster nozzle at a connecting opening from a center to a center. Is characterized by forming an opening which becomes wider as it goes to the center.

Therefore, the flow of the conditioned air is particularly restricted in the central portion of the opening for connection between the defroster lower and the defroster nozzle by the rectifying plate, and the conditioned air is accumulated in the defroster lower, so that the air flows to the side defroster and the defroster. In addition to ensuring a sufficient amount of air to be blown, the lowering of the wind speed further reduces noise.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a defroster air volume distribution adjusting device according to the present invention will be described below with reference to FIGS. The arrow FR in the figure indicates the forward direction of the vehicle,
P indicates the vehicle upward direction.

As shown in FIG. 5, a defroster lower 10 according to the present embodiment includes a blower outlet 12 of an air conditioner formed at a lower front portion of a passenger compartment and a defroster nozzle 14 disposed on the back side of an instrument panel. , And the regulated air blown from the air outlet 12 of the air conditioner is guided to the defroster nozzle 14. An air outlet 14A is formed below the defroster nozzle 14, and a pair of left and right outlets 14B and 14C that open toward the inner surface of the windshield glass are formed above the defroster nozzle 14. Also, on the left and right sides of the defroster nozzle 14, side defroster paths 1 extending in the left-right direction, respectively.
4D and 14E are formed.

The defroster lower 10 is made of a resin material and has a rectangular cross section whose longitudinal direction is the left-right direction. The lower connection part 16 of the defroster lower 10 is connected to the air outlet 12 of the air conditioner, and the upper connection part 18 is connected to the air outlet 14A of the defroster nozzle 14. As shown in FIG. 4, the defroster lower 10 extends from the lower connecting portion 16 to the upper connecting portion 18 in a front view, and has a substantially inverted trapezoidal shape.

As shown in FIG. 1, a defroster lower 10 is provided.
A straightening plate 20 is formed on the upper connecting portion 18 of
A pair of left and right openings 22 and 24 extending from the narrowed-down portion 20 </ b> A formed in the center of the current plate 20 to the left and right ends are formed in the upper connecting portion 18 by the current plate 20. In addition, as shown in FIG.
4 are the left and right end portions 22 from the center side end portions 22A and 24A.
It has a substantially triangular shape that is widened toward B and 24B.

Therefore, the regulated air blown into the defroster lower 10 from the lower connecting portion 16 is distributed by the rectifying plate 20 to the outlets 14B and 14C of the defroster nozzle 14 and the side defroster paths 14D and 14E. It has become. At this time, the regulated wind flowing to the outlets 14B and 14C is generated by the narrowed-down portion 20A of the current plate 20.
It is designed to have a left-right spread. Further, at the center of the connection opening between the defroster lower 10 and the defroster nozzle 14 where the wind speed is the fastest, the adjusted wind hits the narrowed-down portion 20A of the rectifying plate 20 and its vicinity, and the flow is regulated. It is designed to be stored.

As shown in FIG. 2, the defroster lower 10
The defroster lower 10 includes a defroster lower front 30 forming a front part of the defroster lower 10 and a defroster lower rear 32 forming a rear part of the defroster lower 10. A current plate front 34 constituting a front portion of the current plate 20 is integrated with the defroster lower front 30 by, for example, injection integral molding. At the center of the current plate front 34, a concave portion 38 is provided horizontally. On the other hand, the defroster rear area 32 is integrated with a rectifying plate rear 36 constituting a rear portion of the rectifying plate 20 by, for example, injection integral molding. A hinge portion 40 is formed so as to protrude forward from the center of the current plate rear 36. The hinge portion 40 is fitted in the concave portion 38, and a claw portion 40 </ b> A formed at a lower portion of the distal end of the hinge portion 40 is engaged with a front end portion 38 </ b> A of the concave portion 38.

A plurality of claws 42 are formed on the left and right side walls 30A, 30B of the defroster lower front 30 at predetermined intervals in the vertical direction.
2 are left and right side wall portions 32A of the defroster rear area 32,
32B is elastically fitted. Claws 44 are also formed on the lower surface near the left and right ends of the upper connection portion 30C formed on the defroster lower front 30. These claw portions 44 are connected to the upper connection formed on the defroster lower rear 32. The portion 32C is elastically fitted to the lower surface near both left and right ends.

Next, the operation of the present embodiment will be described. In the present embodiment, the conditioned air blown out from the air outlet 12 of the air conditioner is blown into the defroster lower 10 from the lower connecting portion 16, and the flow outlets 14 </ b> B, 14 </ b> C and the side The air is distributed to the defroster paths 14D and 14E. At that time, the outlet 14
The adjusted wind flowing to B and 14C can have a left-right spread due to the narrowed-down portion 20A of the current plate 20.
Further, in the center of the connection opening between the defroster lower 10 and the defroster nozzle 14 where the wind speed is the fastest, the adjusted wind hits the narrowed-down portion 20A of the rectifying plate 20 and its vicinity, and the flow is regulated and accumulated in the defroster lower 10. It is. Therefore, the outlet 14 of the defroster nozzle 14
B and 14C and the amount of air blown to the side defroster paths 14D and 14E are sufficiently ensured, and noise is less likely to be generated due to a decrease in wind speed.

In the present embodiment, the current plate front 34 constituting the current plate 20 is replaced with the defroster lower front 30.
Since the rectifying plate rear 36 is integrally formed with the defroster lower rear 32, the support rigidity of the rectifying plate 20 is improved, the rectifying plate 20 is hardly vibrated by wind pressure, and noise is hardly generated. In addition, by forming the current plate 20 integrally with the defroster lower 10, the cost can be reduced, the number of parts is reduced, and the assembling becomes easy.

In this embodiment, a pair of right and left openings 22 and 24 extending from the narrowed-down portion 20A to both right and left ends are formed by the current plate 20.
Is a planar shape (two-dimensional shape). Therefore, the air distribution can be easily tuned by adjusting the shapes of the openings 22 and 24.

In the above, the present invention has been described in detail with respect to a specific embodiment. However, the present invention is not limited to such an embodiment, and various other embodiments are included in the scope of the present invention. It is clear to a person skilled in the art that is possible. For example, in the airflow distribution adjusting device for a defroster of the present invention, the rectifying plate 20 is formed integrally with the upper connecting portion 18 of the defroster lower 10, but the rectifying plate may be formed integrally with the air outlet 14A of the defroster nozzle 14. . Further, the integral molding is not limited to the injection integral molding, but may be another molding method. The defroster lower 10 and the defroster nozzle 14 may be made of a material other than a resin material. In addition, the defroster lower front 30 and the defroster lower rear 32 are connected by the hinge portion 40 and the claw portions 42 and 44. However, the connection between the defroster lower front 30 and the defroster lower rear 32 is not limited to this. May be combined.

[0021]

According to the first aspect of the present invention, the air volume of a defroster having a defroster lower connected to an air outlet of an air conditioner and a defroster nozzle connected to the defroster lower and also having a side defroster path. A distribution adjusting device, which is provided integrally with at least one of the defroster lower and the defroster nozzle and has a rectifying plate for rectifying air flowing from the defroster lower to the defroster nozzle, so that the number of parts is small and assembly is easy. And has an excellent effect that the wind direction can be adjusted.

According to a second aspect of the present invention, in the first aspect of the present invention, the straightening plate is wider at the connecting opening between the defroster lower and the defroster nozzle as it goes from the center to both ends than at the center. Since the opening is formed, in addition to the effect described in the first aspect, there is an excellent effect that noise is hardly generated while a sufficient amount of air is supplied to the side defroster and the defroster.

[Brief description of the drawings]

FIG. 1 is a perspective view of an airflow distribution adjusting device for a defroster according to an embodiment of the present invention, as viewed obliquely from the rear of a vehicle.

FIG. 2 is an exploded perspective view of the airflow distribution adjusting device for the defroster according to the embodiment of the present invention, as viewed obliquely from the rear of the vehicle.

FIG. 3 is a plan view showing an air volume distribution adjusting device for a defroster according to an embodiment of the present invention.

FIG. 4 is a front view showing the airflow distribution adjusting device of the defroster according to one embodiment of the present invention.

FIG. 5 is an exploded perspective view showing the attachment of the airflow distribution adjusting device for the defroster according to the embodiment of the present invention to the vehicle, as viewed obliquely from the rear of the vehicle.

FIG. 6 is an exploded perspective view of an air volume distribution adjusting device for a defroster according to a conventional embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Defroster lower 12 Air outlet of air conditioner 14 Defroster nozzle 16 Lower connection part of defroster lower 18 Upper connection part of defroster lower 20 Straightening plate 22 Opening 24 Opening 30 Defroster lower front 32 Defroster lower rear 34 Straightening plate front 36 Straightening Plate rear

Claims (2)

[Claims] 1. A defroster air volume distribution adjusting device comprising: a defroster lower connected to an air outlet of an air conditioner; and a defroster nozzle connected to the defroster lower and having a side defroster path. An air flow distribution adjusting device for a defroster, comprising: a rectifying plate provided integrally with at least one of a lower and a defroster nozzle to rectify air flowing from the defroster lower to the defroster nozzle. 2. The rectifying plate according to claim 1, wherein the opening for connection between the defroster lower and the defroster nozzle has an opening that becomes wider from the center to both ends. Air flow distribution adjusting device for defroster.