JP2568758B2 - Auto nozzle - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic nozzle having at least a nozzle lever and latch means, and more particularly to an automatic nozzle for refueling.

[0002]

2. Description of the Related Art There have been proposed various automatic nozzles having a nozzle lever and a latch means. A typical prior art automatic nozzle of the present invention is disclosed in U.S. Pat. No. 4,036,259. I have. This nozzle is
It has an automatic closing mechanism and a valve mechanism. In order to operate these mechanisms, the apparatus further includes a nozzle lever and latch means. The nozzle lever has one end pivotally connected to the stem of the self-closing mechanism, and the middle portion thereof abuts the stem of the valve mechanism. The latch means includes a latch lever and a notch, and this lever is provided substantially at the center of the nozzle lever. These levers are housed in a lever protection frame, and a notch is formed at the bottom of the protection frame.

Therefore, when the nozzle lever is operated,
For example, oil is discharged from a discharge pipe through a valve mechanism, so that oil can be supplied as appropriate. The discharge amount at this time can be adjusted by the operation angle of the nozzle lever. When automatic refueling is performed, the nozzle lever is positioned at a desired angle, and the latch lever is operated with the index finger or the middle finger to lock the notch in the protective frame. Then, since the nozzle lever is held at the predetermined position by the latch lever, oil is supplied at a predetermined flow rate. When the tank is full, the automatic closing mechanism operates, the valve mechanism closes, and refueling stops. Release the latch lever from the notch to return to the original position.

The nozzle of the above-mentioned US patent does not have any particular problem because manual lubrication is performed only by operating the nozzle lever, but there are various problems during automatic lubrication. For example, when the nozzle lever is pulled up to a desired flow rate, the latch lever moves away from the notch formed in the protection frame. As a result, there is a problem that the latch lever needs to be lengthened, which obstructs the latch lever, and a portion for inserting a finger for operating the nozzle lever becomes narrow. In order to obtain a large flow rate, when the nozzle lever is pulled up to the maximum, the latch lever cannot be locked in the notch unless the latch lever is turned by a considerable angle from the nozzle lever with the index finger or the middle finger. You may not be able to operate it. Furthermore, since the latching point between the latch lever and the notch is close to the point of action of the nozzle lever, a large force acts on the latch lever and the like, which may be damaged.

[0005] Japanese Utility Model Publication No. 1-28069 discloses a technique in which the tip of a lever is engaged with a plurality of notches provided inside a vertical wall of a protective frame. However, as described above, the known technique does not hold the lever sufficiently because of the relationship between the engagement of the lever and the rotation angle.

[0006]

SUMMARY OF THE INVENTION Therefore, according to the present invention, the latch lever is short so that it does not hinder the operation and even if the nozzle lever is pulled up to the maximum in order to obtain a large flow rate, The object of the present invention is to provide an automatic nozzle which can be easily locked to a notch with a little finger or the like, and can be easily operated by a female service staff.

[0007]

According to the present invention, there is provided an automatic closing mechanism (6), a valve mechanism (7), a nozzle lever (20) for operating these mechanisms, and a latch means (3).
0), wherein the automatic closing mechanism (6) and the valve mechanism (7) cooperate with the nozzle lever (20) near one end of the nozzle lever (20). In the nozzle, a latch lever (31) of a latch means (30) is provided at an end of the nozzle lever (20), and the latch lever (31) is a nozzle lever (20).
A spring (33) and a latch for pivoting the latch lever (31) so that the engagement portion (32) faces downward outside the nozzle lever (20). A stopper pin (34) for regulating the rotation angle of the lever (31) is provided, and inside the vertical wall (41) of the protection frame (40) containing the nozzle lever (20) and the latch lever (31). Are provided with a plurality of notches (42) for locking the engaging portions (32) at predetermined intervals.

[0008]

The present invention is configured as described above.
When only the nozzle lever is operated, the oil is discharged from the discharge pipe through the valve mechanism according to the operation angle of the nozzle lever as in the conventional case. Therefore, it is possible to refuel manually with a predetermined discharge amount.

When automatic refueling is performed, the nozzle lever is operated as described above, and the latch lever of the latch means is locked to the notch with, for example, a little finger. Then, since the nozzle lever is held at that position, oil is supplied at a predetermined flow rate. When the tank is refilled, the automatic closing mechanism is activated,
The valve mechanism closes and the refueling ends. Then, when the nozzle lever is pulled up again, that is, when the nozzle lever is operated to the extent that the latch lever is disengaged from the notch, the latch lever becomes free and returns to the original position.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the accompanying drawings.

The automatic nozzle 1 according to the present embodiment comprises, for example, a main body 4 provided between an oil supply hose 2 connected to an oil supply device and a discharge pipe 3.

The main body includes an automatic closing mechanism 6 which is activated by a signal from a sensor provided at the liquid level opening 5 at the tip of the discharge pipe 3 or a pressure signal generated by closing the opening 5 with oil. A valve mechanism 7 and the like are provided. The stem 8 of the automatic closing mechanism 6 is pivotally attached to the tip of the nozzle lever 20. On the other hand, the valve mechanism 7 includes a valve body 9 and a coil spring 10 pressing the valve body toward a valve seat.
And a valve stem 11.
Is in contact with the nozzle lever 20 near the end of the nozzle lever 20, that is, near the stem 8 of the automatic closing mechanism 6.

At the other end of the nozzle lever 20 having a grip portion 21 which is appropriately bent so as to be easily gripped by a finger,
A latch lever 31 of the latch means 30 is provided.
As shown in FIG. 2, the latch lever is integrally formed with an engaging portion 32, and the engaging portion 32 is pivoted to the nozzle lever 20 so as to face outward and downward from the nozzle lever 20. Wearing 35. The latch 33 is urged by a spring 33 so as to rotate clockwise. The rotation angle of the latch lever 31 is restricted by a stopper pin 34.

The nozzle lever 20 and the latch lever 31 configured as described above are housed in a protective frame 40. At least both sides of the protection frame 40 are opened, and a hand is put through this opening to
Etc. can be operated. On the rear wall of the protective frame 40, that is, inside the vertical wall 41 located on the right side in FIG. 1, a plurality of notches 42 of the latch means 30 for locking the engaging portions 32 of the latch levers 31 are provided at predetermined intervals. It is provided by a member.

Since the present embodiment is configured as described above, its operation will be described by way of an example of refueling an automobile. When the nozzle lever 20 is pulled up by a predetermined amount from the state shown in FIG. 1, the nozzle lever rotates around the pivot point 13 between the lever and the stem 8. As a result, the valve stem 12 is pushed up against the coil spring 10 by a predetermined amount. Therefore, the valve element 9 is separated from the valve seat, and the oil flows from the oil supply hose 2 to the discharge pipe 3 through the main body 4 and is supplied to an automobile (not shown). When you release the nozzle lever 20,
The valve body 9 and the valve rod 12 are pushed downward by the coil spring 10 to stop refueling.

When automatic refueling, the nozzle lever 20 is
For example, when refueling at full capacity, raise to the top end. Then, for example, use the little finger to move the latch lever 31 to the spring 3
Press down against 3. Then, the engaging portion 32 of the latch lever is locked by the notch 42 of the rear wall 41. Therefore, even if the nozzle lever 20 is released, the nozzle lever is held at that position, and a predetermined amount of oil is supplied. This state is shown in FIG.

When the tank is full, the liquid level detecting opening 5 is closed by the oil, so that the automatic closing mechanism 6 is operated, and the stem 8 is lowered. Then, the end of the nozzle lever 20 is lowered as shown by a chain line in FIG. Therefore, the valve rod 11 becomes free, the valve element 9 also moves downward by the coil spring 10, and the refueling stops.

When the nozzle lever 20 is slightly pulled up from the state shown in FIG.
To be free. Then, the latch lever 31 is rotated clockwise by the action of the spring 33 and abuts against the stopper pin 34 to stop. Therefore, when the engaging portion 32 is separated from the notch 42 and the nozzle lever 20 is released, the lever returns to the initial state shown in FIG.

[0019]

As described above, according to the present invention, the following excellent effects can be obtained. (A) Automatic lubrication and manual lubrication can be smoothly performed by operating the latch lever. (B) Since the latch lever is provided at the end of the nozzle lever, it does not become a hindrance at the time of manual refueling, and is separated from the valve stem contact position, so that the load applied to the latch lever is small and simple, and is not damaged. (C) Since the latch lever can be easily pivoted with a little finger, the operation is easy.

[Brief description of the drawings]

FIG. 1 is a side view showing one embodiment of the present invention.

FIG. 2 is an enlarged perspective view showing an embodiment of a latch lever of the latch means.

FIG. 3 is a side view showing an automatic operation state of the embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 6 ... Automatic closing mechanism 7 ... Valve mechanism 20 ... Nozzle lever 30 ... Latch means 31 ... Latch lever 40 ... Protective frame 41 ... Rear wall 42 ... Notch

Claims (1)

(57) [Claims] An automatic closing mechanism (6) and a valve mechanism (7)
And a nozzle lever (2) for operating these mechanisms
0) and latch means (30), and the automatic closing mechanism (6) and the valve mechanism (7) cooperate with the nozzle lever (20) near one end of the nozzle lever (20). In the automatic nozzle, a latch lever (31) of a latch means (30) is provided at an end of the nozzle lever (20), and the latch lever (31) is pivotally connected to the nozzle lever (20). (35) The engagement portion (32) is directed downward outside the nozzle lever (20), and the spring (33) for rotating the latch lever (31) and the latch lever (31) A stopper pin (34) for regulating the rotation angle of the nozzle (20) and the latching lever (31) is provided inside the vertical wall (41) of the protection frame (40) containing the nozzle lever (20) and the latch lever (31). Lock joint (32) Auto nozzle notches (42), characterized in that it is provided a plurality at predetermined intervals that.