JPH01208579A - Plunger pump - Google Patents

Abstract

PURPOSE:To prevent solid materials from flowing into a plunger and being bitten in toward a cylinder by providing a filter for preventing the flow-in of the solid materials contained in a fluid into a flow-in passage at least from a suction port to the cylinder. CONSTITUTION:Each pair of balls 17, 19 and valve seats 18, 20 are provided on both sides of a fluid passage 16 connecting a suction port 14 and a discharge port 15. A flow-in passage 21 connected to a cylinder 12 is branched off of the center portion of the fluid passage 16. In this structure, filters 22a-22c are provided on a site opposite to a plunger 13 in the cylinder 12 in the flow-in passage 21, and on each site in the vicinities of the suction port 14 and the discharge port 15, respectively. Solid materials contained in a fluid are interrupted by the filters 22a-22c and prevented from flowing in up to the plunger 13. Thereby, the solid materials can be prevented from being bitten in between the cylinder 12 and the plunger 13.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to improvements in plunger pumps for pumping fluids such as cement milk, medicinal solutions, and fluid foods.

(Prior Art) A plunger pump alternately controls a suction valve body and a discharge valve body to open and close the valve body by reciprocating a plunger in a cylinder. However, if the fluid contains solid matter, there is a problem that the solid matter is caught between the plunger and the cylinder, causing premature wear of the plunger. Therefore, a plunger coated with ceramic has been proposed.

(Problems to be Solved by the Invention) However, such a structure has problems in that it is expensive and it is not possible to prevent wear on the inner circumference of the cylinder.

The present invention has been made in view of the above points, and its purpose is to prevent solid matter from getting caught between the plunger and the cylinder, thereby reducing wear not only of the plunger but also of the cylinder. The purpose of the present invention is to provide a plunger pump that can prevent the problem from occurring and is also inexpensive.

(Means for Solving the Problem) The present invention has a suction port 14 and a discharge port 15, and the cylinder 1 has a suction port 14 and a discharge port 15.
In a plunger pump in which a plunger 13 is reciprocatably housed in a cylinder 1, at least a suction port 14 is connected to the cylinder 1.
The present invention relates to a plunger pump in which a filter 22 is disposed in an inflow passage 21 leading to the inlet 2 to prevent the inflow of solid matter.

(Function) The present invention has a suction port and a discharge port, and the plunger is housed in the cylinder so as to be able to reciprocate, so that the reciprocating motion of the plunger causes the fluid to be pumped from the suction port, through the inflow passage, and from the discharge port. .

In addition, since a filter is provided at least in the inflow passage from the suction port to the cylinder to prevent solid matter from flowing in, the solid matter contained in the fluid is blocked by the filter and does not flow into the plunger. It is possible to prevent solid objects from getting caught between the plunger and the cylinder during fluid pressure feeding.

(Example) Hereinafter, the plunger pump of the present invention will be described in detail based on the illustrated example.

FIG. 2 shows a partially cutaway side view of the plunger pump 1, which consists of a pump casing 2 and a pump head 3 attached to the left end of the pump casing 2.

A crankcase 4 is formed in the right half of the pump casing 2. A crankshaft 5 is rotatably supported on the side wall of the crankcase 4, and a piston 6 is attached to the right end of the crankcase 4. A sleeve 7 is attached which slidably accommodates.

The piston 6 and the crankshaft 5 are connected by a connecting rod 8, and driven by a drive device consisting of a motor, a speed reducer (both not shown), etc., which meshes with a driven gear 9 attached to the crankshaft 5. When the gear 10 is rotationally driven, the crank motion of the crankshaft 5 causes the piston 6 to slide from side to side in the figure via the connecting rod 8.

In this way, when the piston 6 slides left and right, the movement of the piston 6 is transmitted to the plunger 13 in the cylinder 12 via the coupling 11, and the plunger 13 is driven to slide.

As shown in FIGS. 1 and 2, the pump head 3 has a suction port 14 formed on the lower surface of the pump head 3 and a discharge port 15 formed on the upper side of the pump head 3 communicating with each other. A fluid passage 16 is formed, and a suction port 14
A ball 17 and a valve seat 18 are provided in the fluid passage 16 closer to the discharge port 15, and a ball 19 and a valve seat 20 are provided in the fluid passage 16 closer to the discharge port 15.

A part of the fluid passage 16- branches off from the fluid passage 16 between the suction port 14 and the discharge port 15 so as to communicate with the cylinder 12, and the passage from the suction port 14 to the cylinder 12 is referred to as an inflow passage 21. There is.

22 (22a, 22b, 22c) is a filter, which is formed by making a large number of small holes 23 in a hard body,
This prevents solid matter from flowing in and out.

The filter 22a is disposed opposite the plunger 13, and is formed with small holes 23 in the lower half close together as shown in FIG. Therefore, it is possible to effectively eliminate the solid lumps that flow in while being submerged in the lower layer of the fluid.

The filter 22b is a filter disposed near the suction port 14, and prevents solid matter from flowing into the vicinity of the suction port 14. The filter 22c is disposed near the discharge port 15 to prevent solid matter from flowing out. and filter 2
The small holes 23 of 2b and 22c are formed with uniform density.

The filter 22 is detachably attached to the wall of the fluid passage 16 via a gasket.

A partition wall 24 is located between the branched fluid passage 16 and the cylinder 12.

As shown in FIG. 2, this partition wall 24 is formed of a thin elastic synthetic resin film in a spherical shape, and its peripheral portion is attached to a partition wall forming block attached to the left end of the cylinder 13 and pump head 3. 25 and is configured to be sandwiched and fixed between the fluid passage 16 and the inside of the cylinder 12. The cylinder 12, which is separated from the fluid passage 16 by the partition wall 24, is filled with lubricating oil. The lubricating oil in the cylinder 12 is compressed by the forward movement of the plunger 13, and this pressure acts on the fluid through the partition wall 24, so that the fluid is discharged from the discharge port 15. Next, the return movement of the plunger 13 creates a negative pressure in the cylinder 12, and this negative pressure acts on the fluid through the partition wall 24 and is suctioned from the suction port 14. In this way, the plunger 13 is isolated from the fluid to be supplied by the partition wall 24, and it is possible to prevent solid objects from getting wedged between the plunger 13 and the cylinder 12. By using this partition wall 24 together with the filter 22, it is possible to reliably prevent solid matter from penetrating. Note that the lubricating oil filled in the plunger 13 partitioned by the partition wall 24 maintains smooth sliding of the plunger 13.

(Effects) In the present invention, since a filter is disposed at least in the inflow passage from the suction port to the cylinder to prevent solids from flowing in, the solids contained in the fluid are blocked by the filter and reach the plunger. There is no inflow, and it is possible to prevent solid matter from getting caught between the plunger and the cylinder during fluid pressure feeding, thereby producing an effect that it is possible to provide a soldering iron that prevents not only the plunger but also the cylinder from wearing out.

Moreover, since it is only necessary to attach a filter to the inflow passage, it is cheaper than coating the plunger with ceramic.

[Brief explanation of the drawing]

FIG. 1 is a partially cutaway front view showing the entire plunger pump of the present invention, FIG. 2 is an enlarged sectional view of the head portion of the same, and FIG. 3 is a front view of the filter portion of the same. 12-cylinder, 13-plunger, 14-suction port, 15-discharge port, 22 (22a, 22b. 22C)--filter

Claims (1)

[Claims] (1) In a plunger pump that has a suction port and a discharge port and has a plunger housed in a cylinder so as to be able to reciprocate, a filter is provided at least in the inflow passage from the suction port to the cylinder to prevent the inflow of solid lumps. A plunger pump made of