JPH01195978A - Multiple cam type rotary pump - Google Patents

Abstract

PURPOSE:To reduce both noise and vibration generated due to the radial arrangement of pistons by mounting a turning ring having valves which turn through the same axis at the same cycle as a rotary body. CONSTITUTION:A rotor cam 6 to which a turning shaft 7 is stuck has both pistons 1 and cylinders 2 radiated from the center of said rotor cam 6 and operates the pistons 1. The rotor valves 11 have the same turning shaft 7 as the rotor cam 6 and turn at the same cycle as said cam 6. The operation of the rotor valves 11 is executed in such a way that when the piston 1 makes the discharge stroke, rotor valve discharge ports 14 are placed between the cylinders 2 and discharge ports 8 and on the contrary, when the piston 1 makes the inflow stroke, rotor valve inflow ports 13 are placed between the cylinders 2 and inflow ports 9.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a multi-cam rotary pump that can be applied to pump manufacturing industry, air compressors, etc.

In particular, this invention performs the discharge action of the pumping action by pushing out the piston (1) connected to the bushing rods (3) arranged radially by the convex part of the rotor cam (6). The force of the spring (4) is applied to the four parts (1) or the rotor cam shaft (7).
By operating in the direction of.

This invention relates to a multi-cam rotary pump that performs the inflow action of the pump.

(Prior art) Conventional pumps include vertical, horizontal, or V-position piston type, rotary vane type, eccentric rotation type, and 7th [A,
As shown in Fig. 8, there is a rotary pump etc. in which a cylinder (21) and a piston (20) are installed in two rotors. However, these structures have a high level of noise and vibration, so they are suppressed by incorporating balancers and the like. Another problem was that the amount of transport was small considering the size of the device.

(Problem that the invention attempts to solve) Eliminate the drawbacks mentioned above in conventional pumps.

By making it easier to balance the moving parts, noise and vibration can be suppressed to obtain a pump with good conveyance efficiency.

(Means for Solving the Problems) In order to solve the above-mentioned problems, the means adopted by the present invention is to provide a rotor cam (6) to which the rotating shaft (7) is fixedly attached. The piston (1) and cylinder (2) are arranged radially from the center of the rotor cam (6). This is done by providing rotor valves (t[) that operate at the same cycle.

(Operation of the invention) In the multi-cam type rotary pump having such a structure, by rotating around the rotor cam (6) or the rotating shaft (7), the air is pumped through the shoe (5) and the butschrot (co). The piston (1) inside the cylinder (2) is pushed down and fluid is discharged, and the piston (1) is pulled back by the spring (4) attached to the butschrodt (3), and the fluid accordingly flows into the cylinder. That's what I do. Incidentally, during this series of operations, the rotor valve (11) controls the functions of the inlet and outlet valves. This rotor valve (11) has the same rotating shaft (7) as the rotor cam (6) and rotates at the same period, and its action is similar to that of the cylinder in which the piston (1) in the cylinder (2) is in the discharge stroke. When discharging fluid from the discharge port (8) of (2), the rotor valve discharge port (14) is located between the cylinder (2) and the discharge CI (8), and vice versa. When fluid is introduced from the inlet port (9) of the cylinder (2) during the inflow stroke,
The rotor valve inlet (13) is located between the cylinder (2) and the inlet (9).

(Example) Practical Example 1 The 1st UA, the pump body of the present invention having the 4# structure shown in Fig. 2 is piped as shown in the 9th UA, and the pulleys (24) (25), drive belt (26), and drive motor are (27) was placed.

By operating the drive motor (27), the pulley (
The pump can be activated via the drive belt (24) (25) and the drive belt (26).

Example 2 The pump main body of the present invention having the structure shown in FIGS.
As shown in Figure 0, the rotating shafts (7) were coaxial and two were arranged one on top of the other, and the other piping and drive system were arranged in the same manner as in Example 1. In addition, due to piping reasons, the two pumps are arranged in a rotor cam (
6) with a phase difference of 15° in the rotation direction. As in the first embodiment, the pump can be operated by operating the drive motor.

(Effects of the Invention) By using the pump of the present invention, the pump has a large transport capacity compared to the size of the device, and it is possible to reduce noise and vibration caused by the pistons being arranged radially. Furthermore, the reliability and quietness of inflow and discharge using a rotor valve can be achieved.

[Brief explanation of the drawing]

FIG. 1 is a partially transparent plan view of the structure of the multi-cam rotary pump of the present invention, 21; 4 is a side view partially seen from A in FIG. 1, and FIG. 3 is a plan view of the rotor valve.
FIG. 4 is a side view of the rotor valve. In addition, Fig. 5 and Fig. 6 each explain the basic pump operation of the unreleased I-1, Fig. 5 is the inflow process diagram, and Fig. 6 is the inflow process diagram.
The figure is a discharge process diagram. In addition, each of FIG. 7 and FIG. 8 shows a simplified structure of a conventional rotary pump in a partially transparent manner.
FIG. 7 is a side view, and FIG. 8 is a front view. Furthermore, each of FIGS. 9 and 10 corresponds to Embodiments 1 and 2 of Akira, and simply shows the appearance of the pump of the present invention when arranged so as to be able to actually operate. FIG. Explanation of symbols 1... Piston, 2... Cylinder, 3... Bush rod, 4... Spring, 5... Shoe, 6...
...Rotor cam, 7...Rotating shaft, 8...Discharge port, 9
...Inlet. lO...Housing, 11...Rotor valve, 12
...Sublink receiver, 13...Rotor valve inlet, 14...Rotor valve outlet, 15...Shaft, 16
-... Swash plate, 17... Shoe, 18... Bush rod, 19... Spring, 20-... Piston, 2
1...Cylinder, 22...Housing, 23...
Rotor, 24...Pulley (small), 25...Pulley (
Large), 26... Dry belt, 27... Drive motor or more

Claims (1)

[Claims] A rotating body with a fixed rotating shaft, which has pistons and cylinders arranged radially around the axis of the rotating body, and the rotating body has a cam-like shape and operates the piston, A multi-cam type rotary pump that is characterized by having a rotating ring that is coaxial with the rotating body and has a valve that operates at the same cycle.