JP2006089025A - Washer nozzle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a washer nozzle capable of preventing leakage of cleaning fluid when a nozzle having a spraying flow passage is press-fitted in and fixed to a nozzle body, and regulating the spraying angle by freely oscillating the nozzle. <P>SOLUTION: The washer nozzle 1 comprises a nozzle body 2 and a nozzle 3 mounted on an ejection part of the nozzle body in a freely oscillating manner. The nozzle comprises a nozzle support 3a to be supported by a supporting part of the nozzle body in a freely oscillating manner, and the nozzle body 3b inserted in and fixed to a recessed housing 3c of the nozzle supporting body and having a spraying flow passage 3h. An opening 3d of the recessed housing 3c is arranged on the liquid feed side, and an ejection port 3f to eject ejection liquid from the nozzle body is formed in a bottom part 3e of the recessed housing of the washer nozzle 1. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a washer nozzle that injects a cleaning liquid onto a windshield of an automobile, for example.

Conventionally, as shown in FIG. 8, the washer nozzle A is provided with a nozzle recess having an opening 21 opened on one end side in the head 20 a of the nozzle body 20, and a self-excited oscillation channel is provided in the recess, for example. There is known one that can be assembled by press-fitting the nozzle 22 (see Patent Document 1). And the washing | cleaning liquid which vibrates right and left with respect to the axial center 23 from the nozzle 22a of the said nozzle 22 is injected on a windshield.
JP 2002-67888 A

  However, the nozzle 22 composed of the two divided bodies is fixed to the concave portion by the press-fitting method from the opening portion 21 to the inside, and the head portion 20a and the nozzle 22 are also made of synthetic resin. The cleaning liquid from the liquid supply path 20b shown in FIG. 2 (D) leaks from the mating surface 22b of the nozzle 22 shown in FIG. The cleaning liquid may leak to the outside, and it is difficult to completely seal it. Furthermore, there is a disadvantage that the injection angle of the cleaning liquid is fixed and the injection angle cannot be freely set according to the vehicle type. The washer nozzle according to the present invention has been proposed in order to solve such problems.

  The gist for solving the above-described problems of the washer nozzle according to the present invention is to provide a washer nozzle comprising a nozzle body and a nozzle swingably attached to an injection portion of the nozzle body. A nozzle support that is swingably supported by the support portion of the nozzle body, and a nozzle body that is inserted into and fixed to the concave storage portion of the nozzle support and has an injection flow path. The opening of the concave storage part is arranged on the liquid supply side, and a bottom of the concave storage part is provided with an injection port for injecting the injection liquid from the nozzle body. is there.

The ejection flow path is a self-excited oscillation flow path;
In addition, the nozzle support is formed with a sphere having a central axis extending through the opening of the concave storage portion and the nozzle, and the sphere is fitted to the support of the nozzle body in a swingable manner. A spherical recess to be provided;
The nozzle body is an integrally molded product without an undercut portion of the injection flow path;
Is included.

  According to the washer nozzle of the present invention, when the nozzle body is inserted into the nozzle support, the opening of the concave storage portion is disposed on the liquid supply side, so the nozzle body is moved from the liquid supply side to the nozzle side. It is inserted into the nozzle support by a press-fitting method or the like. Therefore, as shown in FIG. 2C, since the nozzle body is stored in the concave storage portion, all the cleaning liquid is ejected from the nozzle through the nozzle body. The liquid leakage between the nozzle body and the nozzle support is not a problem at all.

  In the conventional example, as shown in FIG. 2D, when the cleaning liquid leaks from the mating surface of the nozzle body, it leaks to the outside as it is from the gap with the nozzle body. Further, the pressure of the cleaning liquid is not preferable because it acts in a direction in which the press-fitted nozzle body is loosened and pushed out to the outside, but the structure of the present invention eliminates it.

The injection flow path of the nozzle body is a self-excited oscillation flow path, and the cleaning liquid is automatically vibrated and spread over a wide range of the windshield. Further, the nozzle support can freely set the injection direction vertically and horizontally within the conical range by the spherical concave portion of the nozzle body.
In addition, since the nozzle body is an integrally molded product without the undercut portion of the injection flow path, the nozzle body that was a two-part body can be made into an integrally molded product, reducing the number of parts and managing parts. As well as the number of assembly steps and the assembly cost.

  As shown in FIG. 1, a washer nozzle 1 according to the present invention includes a synthetic resin nozzle body 2 and a synthetic resin nozzle 3 swingably attached to an injection portion 2 a of the nozzle body 2. .

  As shown in FIGS. 1 to 2A, the nozzle 3 includes a nozzle support 3a that is swingably supported by a support portion 2b of the nozzle body 2, and a concave storage portion 3c of the nozzle support 3a. And a nozzle main body 3b having an injection flow path.

  As shown in FIGS. 2B and 2C, the recessed storage portion 3c has an opening 3d disposed on the liquid supply side. An oscillation nozzle 3f for injecting the injection liquid from the nozzle body 3b is provided at the bottom 3e of the concave storage portion 3c.

  The support portion 2b of the nozzle body 2 is formed as a spherical recess. In addition, the nozzle support 3a is formed with a spherical portion 3g having an axis 23 passing through the opening 3d and the injection port 3f of the concave storage portion 3c as a central axis. The spherical body portion 3g and the spherical concave portion support portion 2b are coupled by a spherical pair, and can swing within a conical range around the central point of the spherical concave portion.

  As shown in FIG. 1, the nozzle body 3b is a nozzle that is divided into two parts, and is formed with a self-excited oscillation channel 3h that is an injection channel. As shown in FIG. 2 (A), two divided nozzles are stacked face to face, assembled into a set to form a nozzle body 3b, which is inserted into the concave storage portion 3c from the opening 3d by press fitting. To fix. There is no wall outside the return path in the oscillation flow path 3h, and the oscillation flow path 3h is completed by being inserted into the concave storage portion 3c of the nosle support 3a. Therefore, a part of the wall surface of the concave storage portion 3c also serves as a part of the outer wall of the return path of the oscillation channel 3h.

  As shown in FIG. 1, the nozzle 3 configured as described above is press-fitted into the injection portion 2a of the nozzle body 2 and is supported by the support portion 2b so as to be swingable. Thus, the washer nozzle 1 is completed.

  According to this washer nozzle 1, as shown in FIGS. 2A to 2C, the cleaning liquid rises through the supply path 2c, enters the oscillation flow path 3h from the introduction port 3i of the nozzle 3, and the injection port 3f. It is jetted with vibration from side to side. When the cleaning liquid passes through the nozzle body 3b of the nozzle 3, all of the cleaning liquid reaches the nozzle hole 3f, so that the cleaning liquid does not leak outside from the area other than the nozzle hole 3f. In the nozzle body 3b that overlaps the two divided bodies, it is not assumed that the cleaning liquid leaks out from the combined mating surfaces, and the liquid leakage is eliminated.

  Further, since the nozzle 3 is supported by a spherical pair by the support portion 2b of the nozzle body 2, as shown in FIG. 3, the angle adjusting portion 3j of the nozzle 3 is gripped with a jig or the like to shake the nozzle 3. By moving it, the spray angle of the cleaning liquid can be adjusted in the vertical and horizontal directions around the axis 23.

  In another embodiment according to the present invention, as shown in FIGS. 4 to 5, in the noble body 4, the flow passage partitions 5a and 5b forming the injection flow passage and the flow passage partitions 6a and 6b are undercut. It is made into the shape without. That is, in the nozzle body 3b, the flow path partition walls 5c and 5d that form the injection flow paths have the flow path partition walls 5c and 5d serving as undercut portions. Similarly, the channel partition walls 6a and 6b have channel partition walls 6c and 6d that are undercut portions. Therefore, in the nozzle body 3b, the upper and lower parts are separately formed as two divided bodies, which are combined and used.

  On the other hand, in this nozzle body 4, as shown in FIG. 5, since the partition wall (channel partition walls 5a, 5b, 6a, 6b) forming the injection channel has no undercut portion, for example, the front-rear direction By simultaneously sliding the mold in the left and right direction while removing the mold, it is possible to perform integral molding. Therefore, it is possible to integrally form at one time without forming the upper and lower divided parts. Thus, the number of parts is reduced, and parts management becomes easy. Furthermore, as shown in FIG. 6, this one nozzle body 4 is press-fitted into the nozzle support 3a to be fitted into the nozzle 3, and as shown in FIG. Man-hours are reduced and assembly costs are reduced.

1 is an exploded perspective view of a washer nozzle 1 according to the present invention. In the washer nozzle 1 of the present invention, an exploded sectional view (A), a sectional view (B) of the nozzle 3, a sectional view (A) along the line AA in FIG. It is explanatory drawing (D) which shows the mode of injection. It is explanatory drawing (A), (B), (C) which shows a mode that the spray angle of the washing | cleaning liquid in the washer nozzle 1 which concerns on this invention was adjusted. It is a front view of the nozzle main body 4 shape | molded without an undercut part. It is sectional drawing along the BB line in FIG. They are the longitudinal cross-sectional view (A) of the state which made the nozzle main body 4 and the nozzle support body 3a fit, and a cross-sectional view (B). It is a disassembled perspective view for explaining that the nozzle body 4 is assembled to the nozzle body 2 after fitting the nozzle body 4 to the nozzle support 3a. It is a disassembled assembly perspective view of the washer nozzle A concerning a prior art example.

Explanation of symbols

1 washer nozzle,
2 nozzle body, 2a injection part,
2b support part,
3 nozzles, 3a nozzle support,
3b Nozzle body,
3c concave storage, 3d opening,
3e bottom, 3f nozzle,
3g sphere, 3h oscillation flow path,
3i inlet, 3j angle adjuster,
4 integrally molded nozzle body,
5a to 5d channel partition walls,
6a-6d Channel partition,
20 nozzle body, 20a head,
20b liquid supply path, 21 opening, 22 nozzle, 22a nozzle,
23 Axle.

Claims (4)

In a washer nozzle comprising a nozzle body and a nozzle that is swingably attached to an injection part of the nozzle body,
Nozzle body having a nozzle support body that is swingably supported by the support section of the nozzle body, and an injection flow path that is fixedly inserted into a concave storage section of the nozzle support body And
The concave storage part has an opening disposed on the liquid supply side, and a bottom part of the concave storage part is provided with an injection port for injecting the spray liquid from the nozzle body.
Washer nozzle characterized by The injection flow path is a self-excited oscillation flow path,
The washer nozzle according to claim 1. The nozzle support is formed with a sphere having a central axis centering on an axis passing through the opening and the nozzle of the concave storage portion, and the sphere is fitted to the support of the nozzle body in a swingable manner. A recess is provided,
The spray angle variable washer nozzle according to claim 1 or 2. The nozzle body is an integrally molded product having no undercut portion in the partition wall forming the injection flow path,
The spray angle variable washer nozzle according to claim 1, 2 or 3.

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