JP2007244988A - Washer nozzle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a washer nozzle which can surely absorb an impact energy when a big impact is added from outside. <P>SOLUTION: The washer nozzle 10 has an external thread part 11f formed in a nozzle housing 11 which holds a nozzle body 12 for injecting a washer liquid S, and the external thread part 11f is screwed in an internal thread part 18e of a nut 18 with interposing a car body panel device 20 inbetween. The depth of a thread of the external thread part 11f of the nozzle housing 11 is set to be, at least partially, lower than the depth of the thread of the internal thread part 18e. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a washer nozzle suitable for use in cleaning dirt such as rainwater, mud, and dust adhering to a windshield glass of an automobile with a cleaning liquid.

  An example of this type of washer nozzle is shown in FIG. 11 (see, for example, Patent Document 1).

  As shown in FIG. 11, the washer nozzle 1 has a nozzle housing 2 that ejects cleaning liquid from a liquid ejection port 2a. A base end 2b of the nozzle housing 2 protrudes from the mounting hole 9 of the vehicle body panel 8 to the back side, and a retainer 3 that abuts the back surface 8b of the vehicle body panel 8 in a locking groove 2c formed in the base end 2b. Is locked.

  Then, the nozzle housing 2 is attached to the surface 8 a of the vehicle body panel 8 via the packing 5 by screwing the nut 4 into the male screw portion 2 d formed on the outer peripheral surface of the base portion of the nozzle housing 2.

Japanese Utility Model Publication No. 63-4866

  However, in the conventional washer nozzle 1, the screw housing of the nozzle housing 2 and the nut 4 has been tightened so that the washer nozzle 1 does not come off during traveling. Therefore, since the nozzle housing 2 protrudes outside the vehicle body panel 8, the nozzle housing 2 is held and fixed to the nut 4 even if it receives a large impact from the outside in the axial direction of the nozzle housing 2. The large impact force applied could not be mitigated.

  Accordingly, the present invention has been made to solve the above-described problems, and when a large impact is applied from the outside in the axial direction of the nozzle housing, the nozzle housing is detached from the nut and reliably absorbs the impact energy. An object of the present invention is to provide a washer nozzle that can be used.

  According to a first aspect of the present invention, there is provided a washer nozzle in which a male screw portion is formed in a nozzle housing holding a nozzle body for injecting a cleaning liquid, and the male screw portion is screwed and attached to a nut having a vehicle body panel interposed therebetween. The tooth height of the thread of the male thread portion is set at least partially lower than the tooth height of the thread of the female thread portion of the nut.

  According to a second aspect of the present invention, in the washer nozzle according to the first aspect, the nozzle housing and the nut are formed of a synthetic resin.

  As described above, according to the first aspect of the present invention, the height of the thread of the male thread portion of the nozzle housing is set at least partially lower than the height of the thread of the female thread portion of the nut. When a large impact is applied from the outside in the axial direction of the screw, an axial force is applied to the threaded part, and when the female threaded part of the nut is deformed outward, the male thread of the nozzle housing and the female threaded part of the nut can be easily engaged. It is possible to disengage and displace the nozzle housing to the lower side of the vehicle body panel, so that the impact energy can be absorbed reliably.

  According to the invention of claim 2, since the nozzle housing and the nut are formed of synthetic resin, when a large impact is applied from the outside in the axial direction of the nozzle housing, an axial force is applied to the threaded portion, and the male threaded portion Since both the female screw part and the female screw part are easily deformed, the meshing can be more easily disengaged and the nozzle housing can be displaced to the lower side of the vehicle body panel, and the impact energy can be absorbed reliably.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a front view illustrating a mounting state of a washer nozzle according to an embodiment of the present invention, FIG. 2 is a cross-sectional view illustrating a mounting state of the washer nozzle, FIG. 3 is a front view of a nozzle housing of the washer nozzle, and FIG. 5 is a side view of the nozzle housing, FIG. 5 is a plan view of the nozzle housing, and FIG. 6 is a partially enlarged explanatory view showing the relationship between the male screw portion of the nozzle housing and the thread of the female screw portion of the nut screwed into the male screw portion. 7 (a) is a bottom view of the nozzle housing, FIG. 7 (b) is a partial plan view showing a mounting hole of a vehicle body panel to which a lower portion of the nozzle housing is locked, and FIG. 8 is a main portion of the nozzle housing. FIG. 9 is a sectional view of the nut, and FIG. 10 is an explanatory view showing a state where the washer nozzle is detached from the nut due to a large impact from the outside.

  As shown in FIGS. 1, 2, and 10, the washer nozzle 10 includes a columnar nozzle housing 11 made of synthetic resin. The nozzle housing 11 has a spherical recess 11b formed in the liquid injection port 11a, and a synthetic resin nozzle body 12 for injecting the cleaning liquid S into the spherical recess 11b is slidably held. Further, as shown in FIGS. 1 and 8, a substantially cylindrical nipple 15 fitted into the liquid jet port 11a of the nozzle housing 11 and the pair of liquid flow paths 12a and 12a of the nozzle body 12 and the liquid supply port 11c; Are communicated with each other through a liquid supply channel 13. The inclination of the liquid channel 12a of the nozzle body 12 with respect to the nozzle housing 11, that is, the injection direction of the cleaning liquid S injected from the liquid channel 12a of the nozzle body 12 can be adjusted.

  As shown in FIGS. 1 to 4 and FIG. 7A, a plurality (four in this embodiment) of L-shaped locking claws (locking portions) 14 are provided on the lower portion 11 d of the nozzle housing 11. A single protrusion is formed for each interval. Each locking claw 14 of the lower portion 11d of the nozzle housing 11 is inserted into a circular mounting hole 20a of an inner panel (vehicle body panel) 20 shown in FIG. 7B, and the free end 14a of the locking claw 14 is The locking projections 20b formed around the mounting hole 20a can be locked and detached. That is, as shown in FIG. 2, the lower portion 11 d of the nozzle housing 11 is inserted through the circular mounting hole 21 a of the outer panel (vehicle body panel) 21, and each locking projection 20 b of the circular mounting hole 20 a of the inner panel 20. It can be locked and released. The mounting hole 21a of the outer panel 21 is formed to have a larger diameter than the mounting hole 20a of the inner panel 20.

  Moreover, as shown in FIGS. 2-5, the external thread part 11f is formed in a part (lower side from the center) of the outer peripheral surface 11e of the nozzle housing 11. As shown in FIG. As shown in FIG. 6, the thread height (edge height) of the threaded portion 11f of the male housing portion 11f of the nozzle housing 11 is equal to the height of the thread (the height of the edge portion) of the female thread portion 18e of the nut 18 described later. Height) is set lower than H (H ′ <H). Further, the male screw portion 11f of the nozzle housing 11 is formed with a plurality of flat surfaces (portions where no screw portions are formed) 11g (four locations in this embodiment). Further, as shown in FIGS. 3 to 5 and 10, a base end 17 a of an annular seal packing (seal member) 17 made of rubber is fitted into the lower portion 11 d of the nozzle housing 11. The tip 17b of the rubber-made annular seal packing 17 is pressed against the inner panel 20 to seal around the mounting hole 20a of the inner panel 20.

  As shown in FIGS. 2 and 9, the synthetic resin nut 18 screwed into the male screw portion 11 f of the nozzle housing 11 fixes the nozzle housing 11 locked to the inner panel 20 with the outer panel 21 interposed therebetween. A substantially annular nut body 18a larger than the inner diameter of the mounting hole 21a of the outer panel 21 and a small-diameter thin cylindrical portion 18c extending from the nut body 18a through the mounting hole 20a from the nut body 18a. An internal thread portion 18e is formed on the inner peripheral surface 18d of the small-diameter thin cylindrical portion 18c. An inner peripheral surface 18d having an inner diameter larger than the outer diameter of the female screw portion 18e is formed on the inner panel 20 side below the female screw portion 18e. An annular recess 18b is formed in the nut main body 18a of the nut 18, and a base end 19a of a rubber-made conical annular seal packing (seal member) 19 is fitted into the recess 18b. The tip 19b of the rubber-made conical annular seal packing 19 is pressed against the outer panel 21 so as to seal around the mounting hole 21a of the outer panel 21.

  As shown in FIG. 2, a flange-like base end portion 15 a of a substantially cylindrical nipple 15 is fitted into the liquid supply port 11 c of the nozzle housing 11. A supply tube 16 is connected to the tip 15b of the nipple 15. This supply tube 16 is connected to the discharge side of a supply pump (not shown), and the cleaning liquid S from the cleaning liquid tank is supplied to the liquid supply flow path 13 of the nozzle housing 11 through the supply tube 16 and the nipple 15 by the operation of the supply pump. It is designed to pump.

  According to the washer nozzle 10 of the above embodiment, as shown in FIG. 2, to the edge of each locking recess 20 b of the circular mounting hole 20 a of the inner panel 20 of each locking claw 14 of the lower portion 11 d of the nozzle housing 11. Is engaged by engaging the female threaded portion 18e of the nut 18 with the male threaded portion 11f of the nozzle housing 11 until the lower end 18f of the thin cylindrical portion 18c of the nut 18 contacts the surface 20c of the inner panel 20. Fastened and fixed. As a result, the nozzle housing 11 and the nut main body 18 a of the nut 18 protrude outside the outer panel 21 at a substantially right angle with respect to the outer panel 21.

  In this state, if a large impact exceeding a predetermined value is applied from the outside in the axial direction of the nozzle housing 11, the lower end 18f of the nut 18 is abutted against the inner panel 20 as shown in FIG. Therefore, a force acts on the screw portion by the impact force F at that time, the male screw portion 11 f of the nozzle housing 11 is detached from the female screw portion 18 e of the nut 18, and the nozzle housing 11 is displaced below the inner panel 20. At this time, the outer peripheral surface 11 e of the nozzle housing 11 is displaced downward by deforming each locking projection 20 b of the inner panel 20. That is, the nozzle housing 11 enters the inner panel 20 and can absorb the impact energy reliably. As a result, damage to the nozzle housing 11 and the nut 18 can be prevented.

  According to the washer nozzle 10, the thread tooth height H ′ of the male thread portion 11 f of the nozzle housing 11 is set lower than the thread tooth height H of the female thread portion 18 e of the nut 18. When a large impact force F is applied from the outside in the axial direction, when the axial force is applied to the threaded portion and the female threaded portion 18e of the nut 18 is deformed outward, the male threaded portion 11f of the nozzle housing 11 and the female threaded portion of the nut 18 The meshing with 18e can be easily disengaged and the nozzle housing 11 can be displaced to the lower side of the inner panel 20, and the impact energy can be absorbed reliably. And the setting value of the load at the time of the nozzle housing 11 displacing below the inner panel 20 can be easily set by the degree of the tooth height of the male screw portion 11f.

  Further, since the nozzle housing 11 and the nut 18 are formed of synthetic resin, when a large impact force F is applied from the outside in the axial direction of the nozzle housing 11, a force is applied in the axial direction to the threaded portion, and the male threaded portion 11f Since both the female screw portions 18e are easily deformed, the meshing can be more easily disengaged and the nozzle housing 11 can be displaced to the lower side of the inner panel 20, and the impact energy can be absorbed reliably.

  In the above embodiment, the tooth height of the male screw portion formed on the nozzle housing is set to be lower than that of the female screw portion. However, depending on the setting of the load when the nozzle housing is displaced below the inner panel, The tooth height of the part may be set lower than the female thread part.

  Further, according to the embodiment, the case where the washer nozzle is attached to the vehicle body panel having the double structure of the outer panel and the inner panel of the automobile has been described. However, the washer nozzle is attached to another attached body such as the single body structure panel of the outer panel only. A nozzle may be attached.

  Further, according to the above embodiment, the nozzle housing is displaced downward so as to deform the respective locking projections of the inner panel. It is also possible to displace the nozzle housing downward without the outer peripheral surface touching the inner panel. In this case, the impact force for displacing the nozzle housing downward is smaller than in the above embodiment.

It is a front view which shows the attachment state of the washer nozzle of one Embodiment of this invention. It is sectional drawing which shows the attachment state of the said washer nozzle. It is a front view of the nozzle housing of the said washer nozzle. It is a side view of the nozzle housing. It is a top view of the said nozzle housing. It is a partial expanded explanatory view which shows the relationship between the external thread part of the said nozzle housing, and the screw thread of the internal thread part of the nut screwed together by this external thread part. (A) is a bottom view of the nozzle housing, and (b) is a partial plan view showing a mounting hole of a vehicle body panel to which a lower portion of the nozzle housing is locked. It is an expanded sectional view of the important section of the above-mentioned nozzle housing. It is sectional drawing of the said nut. It is explanatory drawing which shows the state from which the said washer nozzle removed from the nut by the big impact from the outside. It is sectional drawing which shows the attachment state of the conventional washer nozzle.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Washer nozzle 11 Nozzle housing 11f Male thread part 12 Nozzle body 18 Nut 18e Female thread part 20 Inner panel (vehicle body panel)
H 'Thread height of male thread part H Thread height of female thread part S Cleaning fluid

Claims (2)

A nozzle housing for holding a nozzle body for injecting a cleaning liquid and having a male screw portion formed therein, and a female screw portion to be screwed with the male screw portion of the nozzle housing for fixing the nozzle housing through a vehicle body panel are formed. In the washer nozzle consisting of a nut,
A washer nozzle, wherein a tooth height of a thread of a male thread portion of the nozzle housing is set at least partially lower than a tooth height of a thread of a female thread portion of the nut. The washer nozzle according to claim 1,
A washer nozzle, wherein the nozzle housing and the nut are formed of a synthetic resin.

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