KR930007666Y1 - Electronic pump - Google Patents

Abstract

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Description

Electronic pump

1 is a cross-sectional view of an electronic pump according to an embodiment of the present invention.

2 is a cross-sectional view of the vicinity of a suction port of the electromagnetic pump shown in FIG.

3 is a cross-sectional view of the discharge connection.

4 is a plan view of the discharge connection.

5 is a cross-sectional view of the discharge connector according to another embodiment.

6 is a plan view of the discharge connection shown in FIG.

* Explanation of symbols for main parts of the drawings

16: cylinder 18: piston

22: outlet connection 23: outlet

26: solenoid valve 29: air bleed valve

The present invention relates to an electronic pump used for oil pressure of a small boiler using, for example, a gun type oil burner.

In this type of electronic pump, a feed pipe containing one end of the fuel tank is connected to the suction port of the electronic pump, and the fuel is sucked from the fuel tank and discharged from the discharge port of the electronic pump to the nozzle of the injector.

By the way, air may infiltrate into the cylinder of an electromagnetic pump for some reason, such as at the time of attaching a start of an electromagnetic pump, or when a fuel tank is empty once.

In this case, since it takes time for the fuel to reach the discharge port, a constitution has been proposed in which a valve for bleeding air is attached to the cylinder of the electromagnetic pump.

However, in the case of bleeding the cylinder, it may be forgotten to lock the bleed valve with the air bleed valve open. If you forget to lock the air bleed valve, you can easily notice that the fuel is discharged from the air bleed hole when the solenoid pump is running, but it is difficult to notice that you forgot to shut off the bleed valve when the solenoid pump is stopped. . If the air bleed is left open as it is, the fuel flows unintentionally from the air bleed valve according to the outlet pressure applied to the fuel in the cylinder.

Therefore, an object of the present invention is to provide an electronic pump which can prevent the fuel from flowing down when not driving even when forgetting to shut off the air, for example.

The electromagnetic pump according to the present invention is an electromagnetic pump for reciprocating a piston in a cylinder and simultaneously discharging fuel from a discharge port according to the opening and closing of the electromagnetic actuating valve, wherein the discharge port has an air bleed valve.

Therefore, even if you forget to close the air bleed valve when the solenoid pump is not driven, the fuel flow from the air bleed valve installed in the outlet does not occur because the flow of fuel to the outlet is blocked by the movable valve in the cylinder. .

Next, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the guide case 1 made of a non-magnetic material is inserted through the O-rings 4a and 4b into the vertical hole 3 formed at the lower end of the pump body 2, and the upper end is The magnetic rod 6 having the through hole 5 in the longitudinal direction is externally interposed through an O-ring 7, and a plunger operating chamber 8 is formed in the plunger operating chamber 8. The plunger 9 was excreted. The electromagnetic coil 11 is wound around the bobbin 10 on the outside of the guide case 1, and the upper plate 12 and the lower plate 13 of the magnetic material are fitted from the outside up and down.

The lower plate 13 is fixed to the pump body 2 with a plate screw 13a.

The plunger 9 is arranged to slide freely in the plunger operating chamber 8 and is supported by the upper spring 14 and the lower spring 15.

The upper spring 14 abuts against the lower end of the magnetic rod 6, and the lower spring 15 abuts against the piston 18. The plunger 9 is made of a magnetic material, and a through hole 17 is formed in the central longitudinal direction. The plunger 9 is made of a magnetic material, and the through hole 17 is formed in the central longitudinal direction. A piston 18 is connected to the plunger 9, and the piston 18 is reciprocated in cooperation with the plunger 9 in the cylinder 16 as described below.

The cylinder 16 is fitted in the vertical hole 2a formed in the pump body 2, and slides the piston 18 inside thereof.

The front end of the piston 18 faces the pump chamber 19, and the volume of the pump chamber 19 is changed by the reciprocating motion of the piston 18. As shown in FIG. According to the volume change, the pump acts to suck the fluid from the inlet 20. In this case, as shown in FIG. 2, the fuel sucked from the inlet 20 is discharged to the pump chamber 19 via the intake valve 45 and the discharge valve 46, but the discharge pressure is supplied to the pressure regulator 47. ) Is controlled. The fuel of the pump chamber 19 is discharged in the plunger operating chamber 8, and the discharge fluid is discharged from the plunger operating chamber 8 through the through hole 5 of the magnetic rod 6 in the discharge connection portion 22. Discharged at 23.

A discharge port 23 is formed at the distal end of the discharge connection part 22, and an electromagnetic actuating valve storage chamber 24 communicating with the discharge port 23 and having an opening is formed at the base part. The lower end of the discharge connector 22 is externally mounted on the upper end of the magnetic rod 6 via the O-ring 25.

The solenoid valve 26 is disposed in the solenoid valve storage chamber 24, and the solenoid valve 26 is pressurized toward the plunger 9 by the spring 27, and when the solenoid pump is stopped. The valve hole is closed, and when the electromagnetic coil 11 is energized, the electromagnetic actuating valve 26 is displaced in response to the spring 27 by the magnetic force so that fuel is discharged through the valve hole.

An air bleed valve 29 is screwed into the main body 22a of the outlet connector 22. The air bleed valve 29 is rotated in one direction to be opened and connected to an outlet 23 formed in the outlet connector 22. It is supposed to draw air through.

The air bleed valve 29 is a so-called needle valve, and the valve body 30 is disposed so as to cross from the side of the main body 22a of the discharge connection portion 22. A small diameter portion 31 is formed in the valve body 30 in correspondence with the discharge port 23, and the through hole 17 and the discharge port 23 communicate with each other. In the center of the valve body 30, the air vent hole 33 which opens in the axial direction successively to the atmosphere is formed. The tip end of the valve body 30 is formed in a conical shape, and is fitted close to the main body 22a of the discharge connection part 22 when closed by the O-ring 25 so that the air bleeding is normally closed. The valve body 30 is screwed into the main body 22a of the discharge connection portion 22 by the screw portion 34. When the handle 35 is rotated in one direction, the valve body 30 is indicated by arrow A (the 3, the air vent hole 33 communicates with the storage chamber 24. Moreover, reference numerals 36 and 37 are O-rings.

When the pulse current is supplied to the electromagnetic coil 11 according to the above configuration, the electromagnetic actuation valve 26 is opened, the electromagnetic plunger 9 and the piston 18 move up and down, and the volume of the pump chamber 9 changes. In this way, the pressurized fuel is discharged from the outlet 23.

By the way, when the fuel tank is hollowed out or when air enters the cylinder at the start of the electronic pump, it is necessary to bleed the cylinder.

In this case, the air vent valve 29 is loosened by turning in one direction, and the outlet 23 and the air vent hole 33 are communicated by moving the valve body 30 in the direction of arrow A.

In this case, since the air in the guide case 1 is drawn out together with the fuel to the air bleed hole 33 where most of the air is not added, air in the cylinder can be quickly taken out.

When the supply of electricity to the excitation coil is stopped, the solenoid actuating valve 26 is provided in the closed position, and thus the supply of fuel to the outlet 23 is stopped. Therefore, when forgetting to lock the air bleed valve 29, even if the outlet pressure (head pressure) acts on the fuel, for example, since the flow is prevented according to the solenoid valve 26, there is no leakage as in the prior art.

Next, the air vent valve 40 according to another embodiment of the present invention will be described with reference to FIGS. 5 and 6.

The air bleed valve 40 according to the present embodiment has a configuration in which the valve body 41 and the handle 42 of the bleed valve 40 are attached on the axis of the discharge connection portion 23.

In this case, as indicated by arrow B (see FIG. 5), the valve body 41 of the needle valve is moved in parallel with the discharge port 23 formed in the discharge connection portion 22, and the air vent hole 33 and The outlet 23 is made to communicate.

Further, the air venting valve is not limited to the use of the needle valve, and similar effects can be obtained by using other valves such as a cock valve.

According to the present invention, since the air bleed valve is installed at the discharge connection part, the air bleed valve is prevented from flowing the fuel according to the solenoid valve in the cylinder even when the electron bleed valve is forgotten when the solenoid pump is not driven. The effect which can prevent the discharge of fuel was achieved.

Claims (1)

In the electromagnetic pump which reciprocates the piston 18 in the cylinder 16 and discharges fuel from the discharge port 23 in accordance with the opening and closing of the solenoid valve 26, the discharge port 23 is an air bleed valve 29. An electronic pump comprising: