JP2508029B2 - Fuel injection nozzle - Google Patents

Description

The present invention relates to a fuel injection nozzle for an internal combustion engine.

[Conventional technology]

The fuel injection nozzle for an internal combustion engine lifts the needle valve by the pressure of the fuel sent from the fuel injection pump,
It is known that the needle valve opens a fuel injection hole to inject fuel into a combustion chamber of an engine.

In this type of fuel injection nozzle, the valve opening pressure and lift amount of the needle valve affect the fuel injection characteristics, so that the valve opening pressure and lift amount of the needle valve can be adjusted.

For example, in JP-B-44-21282, a hollow cylinder valve opening pressure adjusting screw is screwed onto a nozzle body, and a needle valve is opened between the end of the valve opening pressure adjusting screw and the needle valve. A fuel injection nozzle having a structure in which a spring for setting a valve pressure is provided and a lift amount adjusting screw is screwed inside the valve opening pressure adjusting screw is disclosed.

According to this, it is possible to adjust the valve opening pressure because the set load of the spring changes if the valve opening pressure adjusting screw is screwed forward or backward, and if the lift amount adjusting screw is screwed forward or backward, the needle valve The working stroke is adjusted.

[Problems to be Solved by the Invention]

By the way, in a fuel injection nozzle in an internal combustion engine, once the opening pressure and lift amount of the Neil valve have been adjusted at the time of shipment, the adjustment is required after that.
In most cases, the valve opening pressure is readjusted when the valve opening pressure drops due to the fatigue of the spring due to long-term use. That is, readjustment of the lift amount is often unnecessary.

However, according to the conventional structure described in the above publication, the hollow cylinder-shaped valve opening pressure adjusting screw is screwed to the nozzle body, and the lift amount adjusting screw is screwed into the valve opening pressure adjusting screw. Therefore, if the valve-opening pressure adjusting screw is displaced for readjustment of the spring, the lift amount adjusting screw is also moved together, which makes it necessary to readjust the lift amount adjusting screw. was there.

For this reason, there has been a strong demand for a structure in which only the valve opening pressure can be adjusted independently and the readjustment of the lift amount is unnecessary.

The present invention has been made based on the above request, and an object of the present invention is to provide a fuel injection nozzle that can easily adjust the valve opening pressure and in this case does not require readjustment of the lift amount. To do.

[Means for solving the problem]

In order to achieve the above object, the present invention provides: a nozzle body; a needle valve slidably inserted in the nozzle body and lifted by fuel pressure to open an injection hole; A valve opening pressure adjusting screw screwed into the nozzle body; housed in the nozzle body, inserted between the valve opening pressure adjusting screw and the needle valve, and screwing the valve opening pressure adjusting screw forward and backward A spring that sets the valve opening pressure of the needle valve; a pin that is screwed into the valve opening pressure adjusting screw and that restricts the maximum lift amount of the needle valve is formed at one end, and the valve opening pressure at the other end. A lift amount adjusting screw having a head having an outer diameter larger than that of the adjusting screw and adjusting the maximum lift amount of the needle valve by being screwed back and forth; Characterized by comprising a; between the parts and the nozzle body, or shims and inserted between the screwed a lock nut on the lift amount adjusting screw.

[Action]

According to the present invention, when it is desired to readjust the valve opening pressure lowered due to the settling of the spring, the valve opening pressure adjusting screw may be adjusted, and even if the lift amount adjusting screw moves, the lift amount adjusting screw moves. It suffices to screw in the amount adjusting screw until it hits the shim, so that the valve opening pressure can be adjusted easily and no special readjustment of the lift amount is required.

Example of Invention

Hereinafter, the details of the present invention will be described based on an embodiment shown in the drawings.

In the figure, reference numeral 1 denotes a nozzle body. Inside the nozzle body 1, a needle valve 2, a spring 3 for setting a valve opening pressure of the needle valve 2, and a valve opening pressure adjusting screw for adjusting a pressing force of the spring 3 are shown. 4 and a lift amount adjusting screw 5 for adjusting the lift amount of the needle valve 2 are provided.

The needle valve 2 is accommodated in the nozzle body 1 so as to be slidable in the axial direction, and when the needle valve 2 moves downward in the figure, a conical seat (not shown) formed at the lower end of the needle valve 2 is used. The fuel injection hole (not shown) formed at the lower end of the is closed. The upper end of the needle valve 2 faces a spring accommodating chamber 6 formed in the nozzle body 1, and a flange-shaped spring seat 7 is formed at the upper end of the needle valve 2.

The upper end of the spring accommodating chamber 6 formed in the nozzle body 1 is open, and a female screw portion 8 is formed at the upper part of the inner surface of the spring accommodating chamber 6.

The valve opening pressure adjusting screw 4 is screwed into the spring accommodating chamber 6. The valve opening pressure adjusting screw 4 has a hollow cylindrical shape, has an external thread portion 9 on the outer surface, and
A female screw portion 10 is formed on the inner surface. In this valve opening pressure adjusting screw 4, the external thread portion 99 on the outer surface is attached to the spring accommodating chamber 6
It is attached to the nozzle body 1 by being screwed onto the female screw portion 8.

The spring 3 is stretched between the lower end of the valve opening pressure adjusting screw 4 and the spring seat 7 at the upper end of the needle valve 2. Therefore, the set load of the spring 3 can be adjusted by screwing the valve opening pressure adjusting screw 4 forward and backward with respect to the nozzle body 1, whereby the valve opening pressure of the needle valve 2 can be changed.

The lift amount adjusting screw 5 has a male screw portion 11 on the outer surface,
The male screw portion 11 is attached to the valve opening pressure adjusting screw 4 by being screwed onto the female screw portion 10 formed on the inner surface of the valve opening pressure adjusting screw 4.

The lift amount adjusting screw 5 has a pin portion 12 at one end, and the lower end of the pin portion 12 is spaced apart and faces the spring seat 7 at the upper end of the needle valve 2. The maximum lift amount (operating stroke) of the needle valve 2 is set by the distance l between the pin portion 12 and the spring seat 7.

A hexagonal head 13, for example, is provided at the other end of the lift amount adjusting screw 5, and the outer diameter of the head 13 is set to be larger than the outer diameter of the valve opening pressure adjusting screw 4.
By operating the head portion 13 to screw the lift amount adjusting screw 5 forward and backward with respect to the valve opening pressure adjusting screw 4, the distance l between the pin portion 12 and the spring seat 7 is changed, whereby the needle valve The maximum lift amount 1 of 2 can be adjusted.

In this embodiment, the valve opening pressure adjusting screw 4 is fixed to the nose body 1 by the lock nut 14.

And, between the lock nut 14 and the head 13,
The shim 15 is interposed and held. By selecting the thickness (height) of the shim 15, the maximum lift amount 1 of the needle valve 2 can be changed.

Reference numeral 16 denotes a fuel introduction port provided in the nords body 1, which is connected to a fuel injection pump (not shown) through a pipe and introduces the fuel sent from the fuel injection pump into the conical seat portion.

The operation of the fuel injection nozzle having such a configuration will be described.

When the pressure of the fuel sent from the fuel injection pump reaches or exceeds the valve opening pressure, this fuel pressure causes the needle valve 2 to rise against the pressing force of the spring 3, and thus the cone formed at the lower end of the needle valve 2. Since the seat opens the fuel injection hole of the nozzle body 1, the introduced fuel is injected from the fuel injection hole into the combustion chamber of the engine.

Then, when the pressure of the fuel sent from the fuel injection pump is lowered, the needle valve 2 is pushed down by the spring 3 and the fuel injection hole is closed, so that the fuel injection is completed.

Then, for example, when the valve opening pressure is lowered due to the cause of the spring 3 becoming settled due to long-term use and it is desired to adjust this, first loosen or remove the lift amount adjusting screw 5, and then lock nut 14 Is loosened or removed, and the valve opening pressure adjusting screw 4 is screwed back and forth with respect to the nozzle body 1. Then, since the valve opening pressure adjusting screw 4 is displaced in the axial direction with respect to the nozzle body 1, the set load of the spring 3, that is, the initial load is changed, so that the valve opening pressure of the needle valve 2 can be adjusted.

After such adjustment is completed, the lock nut 14 is given up to fix the valve opening pressure adjusting screw 4, and then the lift amount adjusting screw 5 is given up until it hits the shim 15.

When giving up the lift amount adjusting screw 5 to the valve opening pressure adjusting screw 4 after the adjustment of the valve opening pressure, the screwing of the lift amount adjusting screw 5 is stopped by the head 13 hitting the shim 15. To be done. This head 13 and nozzle body 1
The distance between the upper end surface of the lock nut 14 and the shim 15
This is the sum of the thicknesses of the above, and this distance does not change even if the valve opening adjusting screw 4 is displaced. Therefore, if the lift amount adjusting screw 5 is abandoned until it hits the shim 15, the lift amount of the needle valve 2 does not change.

Therefore, in the case of the above embodiment, only the valve opening pressure adjusting screw 4 for adjusting the valve opening pressure needs to be operated, and the lift amount adjusting screw 5 need not be readjusted by merely reassembling.

If it is necessary to adjust the maximum lift amount l,
Since the lift amount adjusting screw 5 can be screwed back and forth with respect to the valve opening pressure adjusting screw 4, the desired maximum lift amount 1 can be selected by replacing the shim 15 with another one having a different thickness. .

Although the lock nut 14 is used to fix the valve opening pressure adjusting screw 4 in the above embodiment, the lock nut 14 is necessary if the valve opening pressure adjusting screw 4 is firmly fixed to the nozzle body 1. Not. In this case, the shim 15 is inserted between the head 13 and the upper end surface of the nozzle body 1.

〔The invention's effect〕

As described above, according to the present invention, when it is desired to readjust the valve opening pressure that has dropped due to the fatigue of the spring, etc., the valve opening pressure adjusting screw screwed inside the nozzle body can be adjusted. Well, at this time, even if the lift amount adjusting screw is displaced, this lift amount adjusting screw can be reassembled until it comes into contact with the shim, so only the valve opening pressure can be adjusted, and no special readjustment of the lift amount is required. Becomes Therefore, the adjustment work of the valve opening pressure, which is most frequently adjusted, can be easily performed.

[Brief description of drawings]

The drawing is a side view with a partial cross section showing an embodiment of the present invention. 1 ... Nozzle body, 2 ... Needle valve, 3 ... Spring, 4 ... Valve opening pressure adjusting screw, 5 ... Lift amount adjusting screw, 12 ... Pin part, 13 ... Head part, 14 ... Lock Nut, 15 ... Shim.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-59-46364 (JP, A) JP-A-59-176462 (JP, A) Practical application Sho-57-63965 (JP, U)

Claims (1)

(57) [Claims] 1. A nozzle body; a needle valve slidably inserted into the nozzle body and lifted by a fuel pressure to open an injection hole; an opening formed in a hollow cylindrical shape and screwed to the nozzle body. A valve pressure adjusting screw, which is housed in the nozzle body, is inserted between the valve opening pressure adjusting screw and the needle valve, and the valve opening pressure adjusting screw is screwed back and forth to open the needle valve. A spring for setting the pressure; a pin portion that is screwed into the valve opening pressure adjusting screw and restricts the maximum lift amount of the needle valve is formed at one end, and the outside is larger than the valve opening pressure adjusting screw at the other end. A lift amount adjusting screw which has a head having a diameter and adjusts the maximum lift amount of the needle valve by being screwed back and forth; a head of the lift amount adjusting screw and a nozzle body A fuel injection nozzle, characterized by comprising a; or between the shims interposed between the screwed a lock nut on the lift amount adjusting screw.