KR19990042138U - Co-operated reciprocating pump - Google Patents

Abstract

The present invention relates to the improvement of the common pressure drive reciprocating pump, in particular to simplify the configuration to reduce the production cost and to improve the productivity.

That is, the upper and lower cylinder chambers 4 and 4 'are formed in the cylinder 13, and the piston 1 is mounted on the lower cylinder chamber 4' so that the piston 1 can be lifted, and the suction passage A and the suction hole 8 are installed. ) And the inlet / outlet valve 2 on the piston rod 14 having the outlet port 9 formed therein to selectively open and close the inlet hole 8 and the outlet port 9, and one side bar of the inlet / outlet valve 2. The locking piece 16 is projected on the lower part 17, and the lowering side of the upper cylinder chamber 4 is formed on the lower side of the upper end of the upper cylinder chamber 4 so as to project the locking piece 7 by the locking piece 16 and the locking piece 7. (2) is made to work.

Description

Shared pressure reciprocating pump

The present invention relates to an improvement of a piston pump reciprocating by pneumatic or hydraulic, and in particular, to simplify the operation by simplifying the configuration, and to facilitate the manufacturing and assembly, and to reduce the manufacturing cost.

The reciprocating pump operated by the common pressure has been filed by the applicant as a patent application reciprocating pump reciprocating pump No. 98-10943.

That is, the upper and lower cylinder chambers are formed by installing the pistons with sliding pins mounted thereon in the cylinder chambers formed in the cylinders, and forming a space portion on the piston rod located in the upper cylinder chamber, but forming a suction hole in the upper portion. The suction hole is formed under the suction hole and communicates with the upper and lower cylinder chambers, and the suction pipe formed with the suction passage is fitted in the space formed in the piston rod. By selectively opening and closing, the piston is lifted to operate the reciprocating pump.

Therefore, the reciprocating pump of the above-described configuration had the effect that the pump can be operated without difficulty while operating by reducing the load on the piston lifting, but the operation of lifting the piston by the common pressure in the cylinder is elastically installed with the spring by the piston. Since it is made by copper pins, not only the configuration is complicated but also the manufacturing time for elastic installation of the sliding pins on the piston takes time, and the production efficiency decreases and the manufacturing cost increases.

The present invention is to simplify the configuration in the construction of a reciprocating pump operating at a common pressure in order to rectify the disadvantages of the prior art to make the manufacturing and assembly quick and at the same time to reduce the manufacturing cost and improve the production efficiency.

In order to achieve the above object, the present invention provides a resilient installation of the piston on the cylinder chamber configured in the cylinder, but protrudes a rock bar on the upper end of the intake and discharge valve fitted to the upper piston, and constitutes a locking piece on the rock bar. As the piston descends and the suction discharge valve descends while the upper cylinder chamber and the lower cylinder chamber configured in the cylinder protrude, the suction piece protruding from the suction valve is caught by the locking jaw protruding from the inner wall of the cylinder. As a result, the piston is operated by changing the passage through which the hydraulic pressure flows.

1 is a cross-sectional view of the subject innovation

2 is a state diagram of the reciprocating pump of the present invention, and a state diagram just before the piston descends.

3 is a state diagram of the operation of the reciprocating pump of the present invention, the piston is in the state of falling

Figure 4 is a state diagram of the operation of the reciprocating pump of the present invention, the piston is lowered, the state in which the engaging piece is in contact with the locking jaw

5 is a state diagram in which the intake and discharge valve is raised by the pressure in the state of FIG.

6: A state diagram in which a piston rises by the holding force of a spring in the state of FIG.

Explanation of symbols on the main parts of the drawing

(A)-Return pump (1)-Piston

(2)-Suction discharge valve (3)-Operating chamber

(4) (4 ')-cylinder chamber (5)-upper wall

(6)-Spring (7)-Jagged Jaw

(8)-suction hole (9)-outlet

(12)-Inner Wall (13)-Cylinder

(14)-Piston Rod (15)-Space

(16)-Jang-hap (17)-Dolbong

(18)-Suction tube

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

The upper cylinder chamber 4 and the lower cylinder chamber 4 'are formed in the cylinder 13, and the piston 1 is elastically installed on the lower cylinder chamber 4' by the spring 6, and the piston 1 On the piston rod 14 constituted in the ()) constitutes a space 15, the upper portion of the space portion 15 constitutes the suction hole 8, the lower portion of the suction hole constitutes the discharge port (9) and the upper and lower cylinder chamber ( 4) The locking jaw 7 protrudes from the inner wall 12 of the boundary portion 4 '.

On the piston rod 14 on which the suction hole 8 and the discharge port 9 are formed, the suction and discharge valve 2 having the locking pieces 16 protruding in the lateral direction on the stone rod 17 is lifted and operated therebetween. The gas 3 and the fluid sucked into the suction passage A are formed by fitting the seal 3 and fitting the suction tube 18 having the suction passage A into the space 15 formed in the piston rod 14. Is to be introduced into the space portion 15 of the piston rod 14, the lower cylinder chamber (4 ') is to configure the lower outlet port (B) on one side.

Reference numeral 5 is a cylinder upper wall, 19 is a control piece.

The reciprocating pump (a) of the present invention configured as described above operates as follows.

2 to 6 are state diagrams sequentially showing a state in which the piston 1 moves up and down by the operation of the intake and exhaust valve 2 fitted on the piston rod 14.

2 is a state in which the piston 1 is raised to the top dead center by the holding force of the spring 6 so that the engaging piece 16 of the intake and exhaust valve 2 is in contact with the upper wall surface of the upper cylinder chamber 4, In this state, when gas or fluid is sucked through the suction passage A, the pressure of the upper cylinder chamber 4 increases because the suction is carried into the upper cylinder chamber 4 through the suction hole 8 formed in the piston rod 14. The piston 1 is lowered as in FIG. 3 while pressing the spring 6.

In the above state, when the piston 1 is further lowered by the pressure of the fluid or gas introduced into the upper cylinder chamber 4, the locking piece 16 formed in the intake and exhaust valve 2 protrudes from the cylinder chamber wall. (7) is in contact with the discharge valve (2) is no longer lowered, but the piston (1) is slightly lowered so that the suction hole (8) and the discharge port (9) configured in the piston rod 14 as shown in FIG. It is completely blocked by the intake discharge valve 2.

In the above state, when the fluid or gas continues to flow into the space 15 of the piston rod 14 through the suction passage A, the suction discharge valve 2 is raised by the pressure and caught by the control piece 19. It is as in FIG.

In the state as shown in FIG. 5, the suction hole 8 formed in the piston rod 14 is blocked by the suction discharge valve 2, and the upper and lower cylinder chambers 4, 4 ′ are in communication with each other by the discharge port. 1) is raised by the holding force of the spring (6), the gas or fluid filled in the upper cylinder chamber (4) as the piston (1) is raised through the outlet (9) the lower cylinder chamber (4 ') Since it is conveyed by, as shown in FIG. 6, there is no obstacle to the operation of the piston 1 rising by the holding force of the spring 6.

As shown in FIG. 6, when the piston 1 is raised by the holding force of the spring 6, as shown in FIG. 2, the locking punch 16 formed on the protrusion 17 of the intake and discharge valve 8 is the upper wall surface ( 5) is moved downward from the uppermost position of the piston rod 14, so that the suction hole (8) is in communication with the upper cylinder chamber (4), the gas or fluid sucked through the suction passage (A) is again It flows into the upper cylinder chamber 4, and the piston 1 descends by the pressure, and repeats the operation | movement as shown in FIGS.

Therefore, the present invention makes the lifting of the piston inserted into the cylinder chamber of the cylinder by the lifting operation of the intake and discharge valve, but the lifting operation of the intake and discharge valve is made by the locking piece, the locking jaw and the upper wall, so as to simplify the configuration. It is effective in making the assembly and assembly easy and also improving the productivity while reducing the manufacturing cost.

Claims (1)

The upper and lower cylinders 4 and 4 'are formed in the cylinder 13, and the piston 1 is mounted to the lower cylinder chamber 4' so that the piston 1 can be lifted, and the suction hole 8 and the outlet 9 are formed. A reciprocating pressure driven reciprocating pump in which a piston 1 is raised and lowered by fitting an intake and exhaust valve 2 onto a piston rod 14, and the intake and discharge valve fitted to the piston rod 14. (2) protruding the locking piece 16 on one side of the bar (17), and protruding the locking jaw (7) in the lower end of the upper cylinder chamber (4), the locking piece (16) and the locking jaw ( 7) The shared pressure drive reciprocating pump, characterized in that the piston is raised and lowered by operating the suction and discharge valve (2) in contact.