KR19980032356A - Lubrication nozzle - Google Patents

Abstract

It is an object of the present invention to provide a lubrication nozzle in which the discharge pipe does not rotate or fall off from the nozzle body.

In order to achieve the above object, the present invention has a flow path 5 for connecting the inlet port 3 and the outlet port 4 is formed in the nozzle body 2, the on-off valve 6 for opening and closing the flow path 5 is In the oil supply nozzle 1 is provided, the discharge pipe 10 is attached to the outlet 4,

A flange 4a is formed at the outlet 4, and a flange 10c is also formed at one end of the discharge pipe 10 to connect both flanges 4a and 10c with the bolt 11.

Description

Lubrication nozzle

The present invention is attached to the front end of the fuel supply hose of the meter, and relates to a fuel supply nozzle for lubricating the fuel tank of the vehicle.

As shown in Japanese Patent Laid-Open No. 7-52999, the discharge pipe attached to the lubrication nozzle inserts a bent tube into the discharge port of the nozzle body and tightens it with a nut from the outside. However, since the discharge pipe is attached only by tightening with the nut as described above, when the nut is loosened, the discharge pipe is turned and the direction of the discharge pipe is deviated from the design direction, or the coupling of the discharge pipe is released from the nozzle body to release the nut. It may fall into the fuel tank.

Thus, the present invention has been proposed in view of the above problems, and its object is to provide a lubricating nozzle in which the discharge pipe does not turn against or detach from the nozzle body.

In order to achieve the above object, the present invention has a flow path for connecting the inlet and the outlet is formed in the nozzle body, the opening and closing valve for opening and closing the flow path is provided, in the oil supply nozzle attached to the discharge pipe in the outlet, the outlet A flange is formed and a flange is formed at one end of the discharge pipe to connect both flanges to the bowl.

And since the discharge pipe and the flange is made integrally by cold forging of aluminum can be produced at low cost without distortion.

1 is an overall view showing a part of the oil supply nozzle of the present invention.

2 is an explanatory diagram for manufacturing a discharge pipe.

3 is an explanatory diagram for manufacturing a discharge pipe.

4 is a perspective view of the discharge pipe.

※ Explanation of codes for main parts of drawing

1: oil supply nozzle 2: nozzle body

3: inlet 4: outlet

4a: flange 5: flow path

6: on-off valve 7: operation lever

8: lever guide 9: oil supply hose

10: discharge pipe 10a: pipe

10b: thick part 10c: flange

10d: screw 10e: bolt hole

11: bolt 12: cylinder

13: part 14: anchor spring

20: male 21: female

22: material

Hereinafter, embodiments of the present invention will be described.

As shown in FIG. 1, a flow path 5 connecting the inlet port 3 and the outlet port 4 is formed in the main body 2 of the oil supply nozzle 1. The flow path 5 is provided with an on-off valve 6, the on-off valve 6 is opened and closed by the operating lever 7 and the lever guard 8 for protecting the operating lever 7 is the nozzle body (2) Is provided. The oil supply hose 9 is connected to the inlet 3, and the discharge pipe 10 is attached to the flange 4a formed in the outlet 4.

The root portion connected to the pipe 10a of the discharge pipe 10 is formed of a thick portion 10b, and a flange 10c is formed at an end thereof. The flange 10c is fixed to the bolt 11 that is joined to the flange 4a formed at the outlet 4 of the nozzle body 2 and then fitted into the bolt hole 10e.

In this way, the discharge pipe 10 is attached to the flange 4a of the discharge port 4 of the nozzle body 2 by the flange 10c, so that the discharge pipe 10 does not turn against the nozzle body 2. Moreover, since it is firmly attached to the bolt 11, it does not fall from the nozzle body 2, either.

A screw 10d is formed in the thick portion 10b of the discharge pipe 10, and the cylinder 12 is screwed into the screw 10d. The convex portion 13 formed by the discharge pipe 10 and the cylinder 12 flows in oil accumulated on the outer circumferential surface of the discharge pipe 10 upward when the oil supply nozzle 1 is hooked to a nozzle hanger (not shown). It prevents the oil from being transferred to the nozzle body 2 by preventing the lowering, thereby preventing contamination of the nozzle body 2 with oil.

Moreover, the anchor spring 14 which prevents the fall of oil from the oil supply port for oil supply is wound spirally from the root of the discharge pipe 10 to the middle part.

Next, the manufacturing method by cold forging of the discharge pipe 10 is demonstrated. As shown in FIG. 2, the female mold 20 has a diameter part 20a having the same diameter as the outer diameter of the pipe 10a of the discharge pipe 10 and a diameter part equal to the outer diameter of the thick part 10b of the discharge pipe 10. 20b and the external part 20c like the flange 10c of the discharge pipe 10 is comprised.

The male 21 is configured as a portion 21a having the same diameter as the inner diameter of the pipe 10a of the discharge pipe 10 and portions 21b having the same shape as the flange 10c of the discharge pipe 10. .

The material 22 is made of aluminum and has a diameter 22a having the same diameter as the inner diameter of the pipe 10a of the discharge pipe 10 and a diameter having the same diameter as the outer diameter of the thick portion 10b of the discharge pipe 10 ( 22b and portions 22c having the same shape as the flange 10c of the discharge pipe 10.

As shown in FIG. 3, when the raw material 22 is placed in the female mold 20 and the male mold 21 is pressed against the female mold 22 at high pressure, the aluminum raw material 22 is subjected to cold forging deformation.

The peeled portion of the discharge pipe 10 thus formed is removed, a screw 10d is formed in the thick portion 10b, a bolt hole 10e is formed in the flange 10c, and the pipe 10a is slightly bent as shown in FIG. The same discharge pipe 10 is completed.

As described above, in the present invention, a flow path for connecting the inlet and the outlet is formed in the nozzle body, and an opening / closing valve for opening and closing the flow path is provided, and in the oil supply nozzle having the discharge pipe attached to the outlet, the outlet has a flange. And a flange is formed at one end of the discharge pipe, and both sides of the flange are connected to each other by a bolt, so that the discharge pipe does not turn against the nozzle body or detach from the nozzle body.

Claims (2)

In the nozzle body, a flow path for connecting the inlet and the outlet is formed, an opening valve for opening and closing the flow path is provided, and in the oil supply nozzle having the discharge pipe attached to the outlet, the outlet is formed with a flange, A lubricating nozzle, characterized by a flange formed at one end and connected to both sides by a bolt. The method of claim 1, Oil discharge nozzle, characterized in that the discharge pipe and the flange is made integrally by cold forging of aluminum.