KR950007233Y1 - Priming pump - Google Patents

Abstract

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Description

Priming pump structure of fuel supply pump for internal combustion engine

1 is a schematic exploded perspective view of a portion of the present embodiment cut away.

2 is a partial cross-sectional view of the same state.

3 is an enlarged cross-sectional view taken from the dotted line of FIG.

4 and 5 show the projections of the cylinder and the piston, and FIG. 4a shows a state where two projections are hung, FIG. 4b shows a cross-sectional view of the state of FIG. 4a, and FIG. 5a shows two projections. FIG. 5B is a cross-sectional view of the state of FIG. 5A.

6 is a cross-sectional view showing a conventional example.

* Explanation of symbols for main parts of the drawings

1: priming pump 10: cylinder

20: piston 21: upper body

110: protrusion 120: bottom

121: recess groove 122, 222: protrusion

130: check valve 210: movable projection

220: upper side 221: protrusion

222: protrusion 260: rubber ring

270: Packing

A priming pump structure installed in a fuel supply pump for an internal combustion engine, which allows the piston in the cylinder to be fixed or lifted in the cylinder by simple operation at the start or end of the pump of the present invention.

The pump is used to pressurize the fuel in the fuel tank to a constant pressure to supply to the injection pump, is installed on one side of the injection pump is driven by a cam operated in the injection pump.

At this time, the priming pump is pumped manually before it operates, thereby delivering fuel and discharging the air remaining in the fuel device. An example of a conventional priming pump that does this is shown in FIG.

The conventional priming pump 1 has a structure in which a cylinder 2 and a piston 3 accommodated in the cylinder and pumping are fixed by screwing. Therefore, when the priming pump is operated, the piston 3 screwed to the cylinder 2 is released to loosen, and then the piston upwardly is artificially pressurized by the spring force of the spring 4 so that To perform the pumping function.

In addition, after the pumping is completed, the piston is screwed into the screw thread formed in the cylinder in the state opposite to the above while the piston is pressed to fix the piston and at the same time prevent the leakage of fuel.

However, these conventional methods have a configuration in which the cylinder and the piston are loosened or tightened with screws, which causes many problems.

In other words, when the wear occurs in the spiral coupling portion, the fuel leaks through the worn gap and loses airtightness, and there is a problem in that the pumping function is significantly reduced.

In addition, since the two screws composed of the cylinder and the piston must be correctly combined and turned, not only the screwing is easy but also the piston has to be turned in the pressed state several times for tightening, which requires not only a lot of operation time but also an operation method. There was also a problem such as cumbersome.

It is designed to solve these conventional problems of the present invention, and an object thereof is achieved by providing a priming pump which improves the detachment and detachment structure of a cylinder and a piston. And correspondingly, the upper part of the piston is provided with a movable projection having a fastening means.

In addition, a rubber ring is provided at the upper end of the piston to seal the opening of the cylinder, and a packing is provided at the lower end of the piston to seal the check valve.

Therefore, during the pumping operation of the piston, the movable projections provided on the outer circumferential surface thereof are positioned between the projections on the inner circumferential surface of the cylinder so that the pump can be smoothly pumped.

When the cylinder and the piston are fastened after the pumping is completed, turn the clockwise while pressing the piston slightly, and the upper surface of the movable projection formed on the piston is in close contact with the bottom surface of the projection provided in the cylinder to complete the tightening.

On the other hand, when the piston is fastened to the cylinder, the rubber ring and the packing attached to the upper and lower surfaces have a double sealing effect (sealing) can be improved.

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

1 is a schematic exploded perspective view of an embodiment of the present invention.

The priming pump 1 has a cylinder 10 provided on one surface of a supply pump (not shown) and a piston 20 fitted through an opening of the cylinder.

The cylinder 10 is provided with a plurality of protrusions 11 at equal intervals such that proper intervals are maintained above the inner circumferential surface thereof, and recesses 121 and protrusions 122 are provided on the bottom surface 120 of the protrusions. Each of these is laid out. At the bottom of the cylinder 10 is provided a check valve 130 for extruding fuel into the feed pump.

The piston 20 has a plurality of movable projections 210 protruded at equal intervals on the outer circumferential surface of the upper body portion 21 so as to correspond to the equal intervals of the protrusions 110 provided in the cylinder 10. The upper surface 220 of the protrusion is provided with a protrusion 221 and a protruding piece 222 which are symmetrical with the bottom surface 120 of the protrusion 110.

The oil ring 230 is fitted to the bottom of the upper body 21, and the washer 240 and the spring 250 are loosened between the outer circumferential surface of the lower body 21 ′ having a diameter smaller than that of the upper body. Fits nicely.

In addition, the rubber ring 260 is fitted to the upper end of the upper body 21 of the piston 20 to seal the opening of the cylinder 10 as shown in FIG. 2 and to the bottom surface of the lower body 21 '. 270 is attached to seal the check valve 130.

4 to 5 show the unfolded projections 110 protruding from the cylinder wall and the movable projections 210 protruding from the upper body portion 21 of the piston. In other words, the piston is fixed in the cylinder in a pressed state, and FIG. 5 shows a state in which two protrusions are displaced, that is, a state in which the piston freely moves up and down.

The projections 110 are protruded at regular intervals on the cylinder wall surface, and the movable projections 210 having the same width as the equal intervals of the projections protrude at regular intervals on the upper body portion 21 of the piston 20. Therefore, when the two projections deviate from each other, the piston in the cylinder is lowered and pumped, and when the piston is pushed slightly while turning slightly (clockwise in the drawing), the movable projection is caught by the projection 110 protruding from the wall of the cylinder. The piston is fixed in the cylinder because it can not rise anymore, in this state is tightly squeezed by the rubber ring 260, the packing 270 to prevent fuel leakage from the bottom.

As shown in FIG. 5, the operation distance at which the piston moves up and down is raised and lowered in a state in which the upper jaw, ie, the upper surface 220, is higher than the protrusion 110 within the range of the length of the movable protrusion 210 of the piston, and the protrusion 110. Since the movable projections 210 are sandwiched between the back gaps without gaps, the lifting and lowering operation of the piston is smooth, and the two projections do not collide with each other.

As described above, when the piston stops the compression work, pressing the piston slightly and then turning it clockwise, the two projections are hung by the spring force of the lower spring.

Hereinafter will be described the effect of the present invention.

Between the equal intervals of the plurality of protrusions 110 provided in the cylinder 10, when the movable protrusion 210 provided in the upper body portion 21 of the piston 20 is located (figure 5), the pisuton ( 20 is a state in which a pumping operation capable of sliding in the cylinder 10 is possible, and the piston 20 is lowered to the lowermost portion so that the upper surface 220 of the movable protrusion 21 is formed of the cylinder 10 side protrusion 110. When pressed to the bottom surface 120 and slightly rotated, as shown in FIG. 4, the two surfaces 1200 and 222 of the two projections are engaged with each other, so that the piston is fixed in the cylinder and is impossible to pump, that is, to complete pumping or It stops before starting pumping.

When operating the priming pump 1 in this way, the angle of turning the piston 20 from the cylinder 10 will be proportional to the number and spacing of the protrusions 110 and the movable protrusions 210.

The indentation groove 121 and the protrusion 221 provided on the bottom surface 120 and the upper surface of the movable protrusion 210 of the protrusion 110 are prevented from being separated due to the vibration and impact applied to the cylinder 10, and the bottom surface Each of the protruding pieces 122 and 222 attached to one side of the 120 and the upper surface 220 prevents the protrusions 110 and 210 from being rotated any more at the moment of fastening, thereby improving the fastening force and preventing malfunction. will be.

On the other hand, when the piston 20 is press-fitted in the cylinder 10, the opening of the cylinder is sealed by the rubber ring 260 and the lower check valve 130 is sealed by the packing 270. Since the sealing function is performed, the effect of preventing the outflow of fuel is great.

As such, the present invention can improve the airtightness and the effect of simplifying the preliminary operation and operation according to the use of the priming pump, and can reduce the wear and damage of parts attached to the piston. .

Claims (1)

Above the inner circumferential surface of the cylinder 10, a plurality of protrusions 110 having recessed grooves 121 and protrusions 122 are installed on the bottom surface 120 so as to maintain an appropriate interval, and the upper body of the piston 20. On the outer circumferential surface of the part 21, a plurality of movable protrusions 210 having protrusions 211 and protrusions 22 are provided on the upper surface 220 to correspond to the protrusions 110, and the upper body part 21 is provided. A rubber ring 260 is provided at the upper end of the cylinder 10 to seal the opening of the cylinder 10. The lower body 21 'of the cylinder is fitted to the washer 240 and the spring 250 at the side wall, and the lower body 21 ') At the bottom of the pump structure of the fuel supply pump for the internal combustion engine by attaching a packing (270) for sealing the check valve 130.