KR100683217B1 - Defrost duct for vehicles - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle defrost duct, and in particular, the air supplied from the heater unit is moved from the inlet to the discharge port of the defrost duct in a state where constant directionality is maintained, thereby maintaining a uniform air flow amount in the left and right directions at the discharge port of the defrost duct. It relates to a vehicle defrost duct.

Vehicle defrost duct according to the present invention, a plurality of discharge holes formed in the left and right direction on the upper end of the instrument panel to be disposed on the inner lower end of the windshield glass of the vehicle, the duct body is installed so as to communicate the discharge hole and the heater unit, A discharge port formed to open at an upper end of the duct body and disposed to correspond to the discharge hole, an inlet port formed to open at a lower end of the duct body to be disposed to correspond to the heater unit, and an inner wall of the duct main body. It is formed, characterized in that it comprises a plurality of guides formed so that the height is higher toward both sides from the center of the duct body.

Windshield glass, instrument panel, defrost duct, guide, flow path

Description

Automotive defrost ducts {DEFROST DUCT FOR VEHICLES}

1 is a perspective view showing an instrument panel and a defrost duct of a typical vehicle,

Figure 2 is a perspective view of a vehicle defrost duct according to the prior art,

3 is a perspective view of a vehicle defrost duct according to the present invention;

4 is a side cross-sectional view showing a defrost duct for a vehicle according to the present invention;

5 is a front view showing a guide of a vehicle defrost duct according to the present invention;

6 is a cross-sectional view taken along the line A-A shown in Figure 5, a cross-sectional view showing a guide of the vehicle defrost duct according to the present invention.

<Explanation of symbols on main parts of the drawings>

30: instrument panel 32: discharge hole

50: duct body 60: inlet

70: discharge port 80: guide

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle defrost duct, and in particular, the air supplied from the heater unit is moved from the inlet to the discharge port of the defrost duct in a state where constant directionality is maintained, thereby maintaining a uniform air flow amount in the left and right directions at the discharge port of the defrost duct. It relates to a vehicle defrost duct.

In general, the defrost duct is a device that blows heated air to the windshield glass to remove frost and moisture formed in the windshield glass, thereby securing a driver's field of vision to enable safer driving.

The defrost duct has an outlet formed on the upper surface of an instrument panel on which the lower end of the windshield glass is fixed, and the air is supplied from the heater unit at the lower side of the outlet formed through the inlet. A duct nozzle constituting a flow path for guiding to the discharge port is provided.

1 is a schematic diagram showing a defrost duct according to the prior art, Figure 2 is a state diagram showing a duct nozzle of the defrost duct according to the prior art.

In the conventional vehicle defrost duct shown in Figs. 1 and 2, the discharge panel 8 of the defrost duct 6 is formed in the instrument panel 2 to the left and right along the windshield glass 4. The fan-shaped duct nozzle 10 is installed under the discharge port 8 of the duct 6 so that the air transferred by the defrost duct 6 can be distributed to the discharge port 8 formed long.

That is, the duct nozzle 10 is formed in a structure in which the upper end is extended left and right as compared to the lower end, so that the air introduced into the lower end is guided to the discharge port 8 formed long left and right to the windshield glass 4. Sprayed.

However, since the vehicle defrost duct according to the prior art has a fan-shaped structure in which the discharge port is expanded compared to the suction port, air for defrosting acts at the lower end of the duct nozzle 10 and flows upward. The flow rate of both side portions (b) is lower than that of the central portion (a) of the duct nozzle (10) during the transfer process, and thus the amount of air discharged to the discharge port (8) of the defrost duct (6) is also the central portion (a). Compared to the above, there is a problem in that both side portions b are reduced.

Therefore, the air discharged to the defrost duct 6 is injected at a high speed in the center of the windshield glass 4, but is injected at a relatively low speed on both sides of the windshield glass 4 so that undesired defrost is formed on both lower ends of the windshield glass 4. There is a problem that a region exists.

The present invention has been made in order to solve the above problems of the prior art, by maintaining a constant directionality until the air introduced into the inlet of the defrost duct is discharged into the vehicle interior through the discharge port, the air flow concentrated to the center side of the discharge port The purpose of the present invention is to provide a vehicle defrosting duct in which a uniform amount of air is discharged from the discharge opening of the defrost duct long in the left and right direction so that uniform defrosting action is generated in the windshield glass.

Vehicle defrost duct according to the present invention for solving the above problems, a plurality of discharge holes formed in the left and right directions on the upper end of the instrument panel to be disposed on the inner bottom of the windshield glass of the vehicle, the discharge hole and the heater unit A duct main body installed to communicate with the upper end of the duct main body, the outlet being formed to correspond to the discharge hole, the lower end of the duct main body being opened, and the suction port arranged to correspond to the heater unit; It is formed on the inner wall of the duct body, characterized in that it comprises a plurality of guides formed so that the height is higher toward both sides from the center of the duct body.

Hereinafter, an embodiment of a vehicle defrost duct according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a perspective view showing a vehicle defrost duct according to the present invention, Figure 4 is a side cross-sectional view showing a vehicle defrost duct according to the present invention.

Vehicle defrost duct according to the present invention, a plurality of discharge hole 32 formed in the left and right directions on the upper end of the instrument panel 30 to be disposed on the inner lower end of the windshield glass of the vehicle, the discharge hole 32 and the heater A duct main body 50 installed to communicate with a unit (not shown), an upper end of the duct main body 50 is opened, a discharge port 70 arranged to correspond to the discharge hole 32, and the duct main body The lower end of the (50) is opened, a plurality of guides formed in the inlet 60 and the inner wall of the duct body 50 arranged to correspond to the heater unit, and arranged in parallel with the direction of the moving air 80 is included and configured.

Here, the duct main body 50, as shown in Figure 3, the discharge port 70 is formed in a relatively wide fan shape compared to the suction port 60, which is the outlet of the heater unit is small while the vehicle Since the windshield glass installed in front of the is formed in a wide horizontal direction in proportion to the width of the vehicle, it is preferable that the shape of the defrost duct should be evenly supplied to the windshield glass air supplied from the heater unit.

As illustrated in FIG. 4, the guide 80 protrudes from the inner side inner wall of the duct body 50 to the rear side and is a long protrusion in the inlet 60 from the inlet 60. This is a projection from which the guide 80 protrudes from the inner wall of the panel disposed in the front side of the vehicle to the rear side of the vehicle in the duct body 50, from the inlet 60 to the discharge port 70 direction, that is, from the upper side of the vehicle. It indicates that the projection is formed long to the lower side of the vehicle.
In addition, the guide 80 has a curved shape that is bent in both directions so that the fan-shaped duct main body 50 is partitioned at regular intervals, and extends from the suction port 60 to the discharge port 70.

Thus, the air introduced from the heater unit along the suction port 60 of the duct body 50 is guided to the discharge port 70 by the guide 80, the air guided to the discharge port 70 is guide 80 Since it flows along the wall surface of the duct body 50 while moving to the discharge port 70, the air is not concentrated in the center of the duct main body 50, and the air introduced into both end portions of the suction port 60 is bent in both directions. Guided along the guide 80 toward both ends of the discharge port 70 so that the amount of air discharged from the discharge port 70 is maintained uniformly.

In addition, the guide 80 is formed such that the height of the guide 80 becomes higher toward both sides from the center of the duct body 50, the guide 80, the duct body 50 It is formed to increase linearly from the center to both directions.

As a result, the air flowing into the both ends of the inlet 60 forms a flow path that is bent along the guide 80 in the direction of the both ends of the discharge port 70. As illustrated in FIG. 6, the height of the guide 80 is increased. As it goes toward the outer side of the 50, it becomes higher in the order a <b <c <d so that more directivity is given to the air flowing into the outermost side of the inlet port 60 so that it can be easily flowed in both end portions of the outlet port 70 To help.

Looking at the operation of the vehicle defrost duct according to the present invention configured as described above are as follows.

First, if frost or moisture is formed on the windshield glass during operation of the vehicle, and the driver's vision is obstructed, the blower is driven by the user's operation, and the air flowing by the blower is exchanged while passing through the heater unit. It is supplied to the inlet port 60 of the duct body 50.

Air introduced into the duct body 50 through the suction port 60 is guided to the discharge port 70 along the guide 80 and sprayed on the inner wall of the windshield glass along the discharge hole 32.

At this time, the air flowing through the inlet 60 is given a direction, the air introduced to both end portions of the inlet 60 is guided in the direction toward both ends of the discharge port 70 along the highest guide 80 and Since the air introduced into the center side is guided to the center portion of the discharge port 70 along the low guide 80, more directivity is given to the air introduced into the side portion.

Thus, the air flowing in the direction toward both ends of the discharge port 70 can achieve the flow of air while suppressing the increase in resistance of the flow path while flowing along the curved guide 80, the duct without the guide 80 Since a large amount of air can be discharged as compared with the flow path in the main body 50, the discharge port 70 can achieve a uniform discharge of air compared to the central portion.

In the vehicle defrost duct according to the present invention configured as described above, a guide extending from the inlet to the outlet of the duct body is formed, and higher guides are formed in both directions, thereby providing directivity to the air flowing from the inlet to the outlet. In addition, since the air flowing into both end portions is easily flowed to both ends of the discharge port by a higher guide, the amount of air discharged from the discharge port is maintained uniformly, thereby achieving uniform frost and moisture removal in the windshield glass. There is an advantage that can drive safely.

Claims (6)

A plurality of discharge holes 32 formed long in the left and right directions on the upper end of the instrument panel 30 so as to be disposed on an inner lower end of the windshield glass of the vehicle; A duct body 50 installed to communicate the discharge hole 32 and the heater unit; An outlet opening 70 formed at an upper end of the duct main body 50 so as to correspond to the discharge hole 32; An inlet port 60 formed at an open end of the duct body 50 and disposed to correspond to the heater unit; Vehicle defrost duct is formed on the inner wall of the duct body (50), the plurality of guides (80) formed so as to increase in height in both directions from the center of the duct body (50). The method of claim 1; The duct body 50, the vehicle defrost duct is characterized in that the discharge port 70 is formed in a relatively wide fan shape compared to the suction port (60). The method of claim 1; The guide 80 is a defrost duct for a vehicle, characterized in that a long protrusion protruding from the front inner wall of the duct body 50 to the rear side and extending from the suction port (60) to the discharge port (70). The method of claim 3; The guide 80 is a vehicle defrost duct, characterized in that the curved shape bent in both directions so that the fan-shaped duct main body 50 is partitioned at regular intervals. The method of claim 1 or 4; The guide 80 is a vehicle defrost duct, characterized in that extending from the suction port (60) to the discharge port (70). The method of claim 1; The guide 80, the defrost duct for a vehicle, characterized in that formed in a linearly higher direction toward both sides from the center of the duct body (50).

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