KR100836377B1 - A washer liquid injection apparatus for a vehicle - Google Patents

Abstract

The present invention relates to a washer liquid injection system that allows to spray the washer liquid on the windshield of the vehicle,

In the related art, the technique for changing the washer fluid injection direction has been proposed to use inertia or to electrically change the direction of the ribs. However, the technique using the inertia has a problem of inferior reliability in the injection direction. As a result, changing the direction of the ribs has a problem that the cost increases due to the large number of required parts and the cumbersome installation.

A hollow washer liquid diverter 12 connected to the washer liquid supply tube 11 is provided inside the wiper arm 10, and the branch rib 13 can be rotated in the left and right direction inside the washer liquid diverter 12. According to the present invention, which is characterized in that it is installed in such a way that it is possible to control the spraying direction of the washer liquid by changing only the shape of the branch ribs compared to the prior art, it is possible to simply configure it can not only greatly reduce the cost The reliability of controlling the injection direction is higher than that of the existing inertial technology, and the effects can be used semi-permanently.

Washer fluid injector, washer fluid outlet, branch rib

Description

Washer liquid injection apparatus for a vehicle}

1 is a bottom view of a wiper arm equipped with one embodiment of the present invention;

2 is a perspective view of the washer liquid branch port of the embodiment;

3 is a perspective view of a branch rib of the embodiment

Fig. 4A is a state diagram inside the branching point of the washer liquid branch when the wiper is in the position close to the horizontal direction;

Figure 4b is a state inside the branching point of the washer liquid branch when the wiper is slightly rotated in Figure 4a

Fig. 4C is a state diagram inside the branching point of the washer liquid branch when the wiper is rotated to an intermediate position;

Fig. 4D is a state diagram inside the branching point of the washer liquid branch when the wiper is rotated to the end;

<Explanation of Signs of Major Parts of Drawings>

10 Wiper Arm 11 Washer Fluid Supply Tube

12: washer liquid branch port 13: branch rib

13a: center of rotation 13b: triangle hole

The present invention relates to a washer liquid injection system that allows to spray washer liquid on the windshield of a vehicle, and more particularly, to an appropriate change of the washer liquid injection direction according to the change of the wiper movement direction.

In the related art, the technique for changing the washer fluid injection direction has been proposed to use inertia or to electrically change the direction of the ribs. However, the technique using the inertia has a problem of inferior reliability in the injection direction. As a result, changing the direction of the ribs has a problem in that the cost increases due to a large number of required parts and cumbersome mounting.

The present invention has been made in view of the above-mentioned conventional situation, and its object is to improve the washer liquid injection efficiency by allowing the washer liquid to be changed in accordance with the direction of motion of the wiper without additional electrical or mechanical parts. In addition, the present invention is to provide a washer fluid injector for a vehicle that can reduce costs.

In order to achieve the above object, the present invention provides a hollow washer fluid branching port connected to a washer fluid supply tube inside the wiper arm, and rotatably installing a branching rib in the washer liquid branching hole in the left and right directions. The present invention will be described in more detail based on the accompanying drawings.

That is, FIG. 1 shows a bottom view of a wiper arm equipped with one embodiment of the present invention, FIG. 2 shows a perspective view of the washer fluid branch of the embodiment, and FIG. 3 shows a perspective view of the branch rib of the embodiment. 4A to 4D, the operating state diagram of the same embodiment is shown. The present invention provides a hollow washer liquid branch 12 connected to a washer liquid supply tube 11 inside the wiper arm 10. And the branch ribs 13 are rotatably installed in the washer liquid branch port 12 in the left and right directions.

In the illustrated embodiment, the washer liquid branching hole 12 is formed in a T shape, and a lower portion 12d and a left portion 12f and a right portion 12e connected to the washer liquid supply tube 11 are formed in a circular cross section. In other words, the intersection point, which is a branching point, is composed of a cube.
In addition, the branch rib 13 is composed of a triangle, the triangular hole (13b) is formed in the lower center, the center of gravity (G) is provided between the upper vertex of the overall appearance and the upper vertex of the triangular hole (13) at the same time (X) It has a form provided with a rotation center (13a) rotatably connected to the upper end of the inner central axis (d) of the T-type washer liquid branch (12) on one side edge.

In the present invention configured as described above, the left portion 12f or the right portion 12e of the washer liquid branching hole 12 is rotated through the branch rib 13 rotated at the inner branching point of the washer liquid branching hole 12 according to the position of the wiper. The ejecting direction of the washer liquid can be controlled by sealing or opening. Hereinafter, the specific action will be described with reference to FIGS. 4A to 4D.

FIG. 4A shows the internal structure of the branch point of the washer liquid branch port 12 when the wiper is in the A position close to the horizontal direction.

C in FIG. 4a is a line parallel to the cowl cover and is in the same direction as the wiper is at rest.

b represents the branch rib 13 which is the core of the present invention, and in the present invention, the position of the center of gravity G of the branch rib b is designed to be on the central axis d as shown in FIG. 4D.

In the A position, the center of gravity of the branch rib b is gravity acting in the g direction to naturally block the nozzle in the f direction of the left part of the washer liquid branch port 12, so that the washer liquid sprayed during the wiper operation follows the arrow A1. It is injected by the nozzle of the e-direction of the right part of the T-type washer liquid branch port 12. FIG.

FIG. 4B shows the branch internal structure when the wiper is in the B position rotated slightly clockwise in the position of FIG. 4A described above.

As shown in FIG. 4b, when the wiper is in the B position, ignoring the inertia effect, and the gravity is taken into consideration, the line c parallel to the central axis d and the cowl cover forms an angle of Θ ₂ and the weight of the branch rib b. The center G is located on the extension of g perpendicular to c.

If the washer liquid is sprayed correctly when the washer is in the A position and the spraying stops before reaching the B position, there is no problem. There is a possibility of spraying in the opposite direction of the arrow B2.

However, since the position of the center of gravity G of the branch rib b is eccentric, the branch rib b opens the nozzle side in the direction of the left side f of the washer fluid branch port 12 by gravity g only by h, and the right side of the washer liquid branch port 12 The nozzle in the secondary e direction is opened by i.

Therefore, the washer fluid naturally moves through i, which is wider than h, and the force of F1 is generated by the moving washer fluid, which exerts a force on the X plane, which is the base of the branch rib b, to generate the moment M1. b blocks the flow rate of arrow B2 by setting h to 0 so that the washer fluid is not injected in the opposite direction of the wiper progression.

In practice, the branch rib b makes the value of h more zero when the inertia effect is considered.

FIG. 4C shows the branch internal structure when the wiper is rotated slightly further clockwise in the position of FIG. 4B described above and is in the C position which is the intermediate rotation position.

While the washer fluid is not injected during the actual B position to the C position, when the wiper returns from the C position to the B position, the rib b operates in the same manner as in FIG. 4B to determine the washer fluid injection direction. .
The washer fluid moves through the wider k than the narrower j, and the force of F2 is generated by the moving washer liquid.

In the case of ignoring the inertia effect and considering only gravity, the gap j generated in the opposite direction of travel is zero due to the moment M2 generated by the washer fluid's vertical pressure F2 acting on the Y side of the left side of the branch rib b. The same applies to the above.
Therefore, the washer liquid in the C position moves in the C1 direction rather than the arrow C2 direction.

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4D shows the branch internal structure when the wiper is in the D position, which is the final rotational position and the vertical position.

The position of D can be seen as being similar to the position of A of FIG. 3A.

That is, in the case of using a general planar rib, even if Θ ₄ is 90 degrees, the bottom X surface of the branch rib b is positioned to coincide with the central axis d, and the nozzle in the e-direction on the right side of the T-type washer fluid branch 12 is not completely closed. can not do it.

The branch rib b of the present invention can close the nozzle in the e-direction of the right side of the washer liquid branch port 12 as shown in FIG. 4D even when the center of gravity G is eccentric and Θ is 90 degrees.

In the present invention, in order to reduce the noise caused by the movement of the branch rib b during the operation sequence of the wiper ABCDCBA, as shown in FIG. It is preferable that the material of a be rubber or soft plastic.

As described above, in the present invention, the hollow T-type washer liquid branching hole 12 connected to the washer liquid supply tube 11 is provided in the wiper arm 10, and the inside of the T-type washer liquid branching hole 12 is provided. The triangular branch ribs 13 are rotatably installed in the left and right directions, and according to the present invention, since the spraying direction of the washer liquid can be controlled by changing only the shape of the branch ribs compared with the prior art, the cost can be easily configured. Not only can it greatly reduce, but also the effect of controlling the injection direction is more reliable and semi-permanent than the existing technology using inertia.

Claims (4)

A hollow T-type washer liquid diverter 12 connected to the washer liquid supply tube 11 is provided inside the wiper arm 10, and the branch rib 13 is disposed in the washer liquid diverter 12 in the horizontal direction. Washer liquid injector of the vehicle, characterized in that rotatably installed. 2. The washer liquid branch of claim 1, wherein the washer liquid branching hole (12) constitutes a T-shape, and the lower portion (12d), the left portion (12f), and the right portion (12e), which are connected to the washer liquid supply tube (11), have a circular cross section. At the same time, the vehicle washer liquid injector, characterized in that the intersection is formed into a cube to the intersection. The center of gravity (G) according to claim 1, wherein the branch ribs 13 are formed in a triangle, and a triangular hole 13b is formed at the center lower portion thereof, so that the center of gravity G is formed between an upper vertex of the entire outline and an upper vertex of the triangular hole 13. Washer liquid injector of the vehicle, characterized in that provided with a rotation center (13a) rotatably connected to the upper end of the inner central shaft (d) of the T-type washer liquid branch (12) at one side edge of the bottom side (X) . 3. The washer liquid injector according to claim 2, wherein a locking member (a) is provided at both lower ends of the intersecting portions serving as branch points of the washer liquid branching holes (12).

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