KR100882466B1 - Rotary piston pump - Google Patents

Abstract

A driving device for a rotary pump is provided to extend the lifespan of the pump and parts of the pump by operating the pump stably in the high pressure or high speed states. A hollow rotation element(20) has a plurality of cylinders(22) arranged radially at a uniform interval and receiving pistons(30) reciprocating therein respectively. A piston shaft(31) has rods(32) connected to the pistons for reciprocating the pistons in sequence by eccentric distances from the center of the rotation element when the rotation element rotates. A housing(10) rotatively supports both sides of the rotation shafts and the piston shafts and has an inlet and an outlet. First and second gears are mounted to the rotation element and the piston shaft in the proximity with each other.

Description

Rotary piston pump drive system {Rotary piston pump}

1 is a longitudinal sectional view showing a structure of a rotary piston pump according to the present invention.

Figure 2 is a side cross-sectional view showing the structure of a rotary piston pump according to the present invention.

Figure 3 is a schematic view of the gear connection state of the rotary piston pump according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10-Housing 12-First Cover

14-2nd cover 16a, 16b-suction and discharge chamber

18a, 18b-inlet and outlet 20-rotating body

21-rotor shaft 22-cylinder

24-1st Gear 30-Piston

31-piston shaft 32-rod

34-2nd Gear 44-Drive Gear

M-Drive Motor S1-Drive Shaft

B1, B2-Bearing X-Intersection

L-eccentric distance

The present invention relates to a fluid pump in which the eccentrically installed piston shaft and the rotating body rotate at the same rotational speed so that the piston reciprocates the inside of the cylinder sequentially by the eccentric difference to allow the suction and supply of the fluid. It is related with the power transmission device of the rotary piston pump to support the two eccentric shafts on both sides of the housing, respectively, to stably support the pressure and high-speed rotation acting only in one direction during the suction and discharge process.

According to the pre-registered Patent Publication No. 10-0196279, a plurality of cylinders are arranged in all directions in a circular rotating body whose center is open to both sides, the piston is built in the cylinder, the central portion of the rotating body A piston shaft is formed to connect each piston to be eccentric with the axis of the rotating body. The two shafts are rotated at the same rotational speed so that the pistons reciprocate sequentially in the cylinder by the eccentricity of the two shafts, so that the intake and discharge of the fluid is continuously It is to be made. Such a pump has a feature that exhibits a high pumping force because the structure is simpler than the volumetric efficiency and the pumping of the continuous fluid is possible in accordance with one rotation of the rotating body.

However, the pump should be rotated in an eccentric state of the shaft for rotating a plurality of pistons and the shaft for rotating a plurality of cylinders, the power transmission technology for enabling this has been dead.

Patent Application No. 10-2006-0043266 has been filed using a simple principle to complete the power transmission structure for rotating the rotating shaft (S and the plurality of piston shaft at the same speed by arranging a plurality of cylinders in a rectangular shape bar) have.

The structure is such that the eccentricity can be overcome by connecting the shaft of the rotor and the piston shaft with a universal joint. Therefore, it solves the power transmission structure that the rotary piston pump did not solve.

By the way, since the support shaft of the rotor shaft and the piston shaft is divided into both sides because the rotor shaft and the piston shaft are eccentric, the pump has a cantilever support structure, which may cause problems during high pressure and high speed rotation. .

In other words, when the piston reciprocates in the cylinder by the eccentric difference between the cylinder and the piston shaft to perform the pumping operation of sucking and compressing the fluid, the reaction force acting on the piston shaft acts in only one direction. In particular, the reaction force is higher in the case of a pumped viscous fluid, for example, sludge, slurry, and the like, and in this state, when a high-speed rotation is achieved, the piston shaft made of a one-arm support type is unacceptable. Reaction is expected. In addition, the sides and the housing of the rotor must maintain precision, such as maintaining a very small play to maintain watertightness, but when the reaction force is large, the shaft will bend and the rotor and the housing will be closed. .

These problems are factors that shorten the life of the pump itself, as well as components such as piston shaft, rotor shaft, rod and the like.

The present invention was devised to solve the problems of the conventional pump as described above, the object of which is that both the rotating shaft and the piston shaft is supported by both ends while being capable of rotating at the same rotational speed by a simple structure and high pressure and It is to provide a rotary piston pump that can maintain the precision clearance of the housing and the rotating body even at high speed, as well as extend the life of the pump parts and the pump itself, and improve the pumping ability. .

The configuration of the present invention, the circumference has a plurality of cylinders formed in a predetermined interval arranged in a radial direction, the central body is open through both sides;

Pistons installed in each cylinder of the rotating body to reciprocate;

A piston shaft installed eccentrically with the center of the rotating body in the rotating body, and connecting the respective pistons to the rods so as to sequentially reciprocate the piston by an eccentric distance from the center of the rotating body during rotation; ;

A housing rotatably supporting both sides of the rotor and both sides of the piston shaft, the housing having a suction and discharge chamber for fluid at a boundary between the top dead center and the bottom dead center of the piston;

A first gear coupled to one side of the rotating body;

A second gear installed at the first gear on the piston shaft;

And a power transmission device for transmitting power from the drive source such that a drive source and the first gear and the second gear operate at the same rotational speed.

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

1 is a longitudinal sectional view showing a structure of a pressure feeding system according to the present invention, Figure 2 is a side cross-sectional view showing a structure of the pressure feeding system according to the present invention, Figure 3 is a schematic view of the gear connection state of a rotary piston pump according to the present invention. .

As shown in the figure, the rotary piston pump of the present invention constitutes a rotor 20. The rotating body has a plurality of cylinders 22 are arranged radially in the housing 10. The arrangement of the cylinders is evenly spaced. A central portion of the rotating body 20 has a structure that is open through to both sides, the piston 30 is installed in each cylinder 22 of the rotating body 20. The piston shaft 31 is installed inside the rotor 20 so as to be eccentric with the center of the rotor 20, and the piston shaft 31 is connected to each of the pistons 30 and the rod 32. The pistons 30 are sequentially reciprocated by the eccentric distance from the center of the rotating body 20 during rotation.

In addition, the housing 10 has a suction and discharge chamber 16a and 16b and a suction and discharge port 18a which allow the suction and discharge of the fluid to the respective chambers at the top dead center and the bottom dead center of the piston 30. ) 18b, and both sides rotatably support both sides of the rotor 20 and both sides of the piston shaft 31. In particular, in the structure in which the housing 10 supports the rotating body 20, the housing 10 is supported by the bearing B1 inside the rotating body 20 or protrudes the shaft 21 in a short tubular shape. It can be supported through the bearing (B2). The two structures can be selected according to need, and in particular, the latter structure should be selected in order to receive power from the driving motor (M). In the drawings of the present invention, the two groups are mixed.

In addition, as described above, one side of the rotating body 20 protrudes the shaft 21 into a short tubular shape in order to transmit power to the rotating body 20 and the piston shaft 31. ) And a second gear 34 on the piston shaft 31 so as to be close to the first gear 24. At this time, the diameter of the first gear 24 and the second gear 34 is the same and has the same gear dimensions.

The first gear 24 and the second gear 34 have the same eccentric distance as the rotator 20 and the piston shaft 31 by the eccentric distance, the intersection X occurs between them as shown in FIG. do. The drive gear 44 is connected to the intersection X, and the drive gear 44 is supported by the housing 10 and connected to the drive source, that is, the drive motor.

Meanwhile, one side of the housing 10 in which the first and second gears 24 and 34 are installed is opened for easy assembly and disassembly, thereby coupling the first cover 12 to the first cover 12, and the first cover 12. The central part of the) is provided with opening holes for the installation of the first and second gears 24 and 34, and the first, second and drive gears 44 on one side of the first cover 12. While supporting, it may have a structure in which the second cover 14 for blocking the circumference thereof with the outside is coupled.

In the rotary piston pump of the present invention having the above structure, when the driving motor is operated, the drive gear 44 rotates to rotate the first and second gears 24 and 34 at the same rotational ratio in the same direction. Rotation of the first and second gears 24 and 34 causes the rotor 20 and the piston shaft 31 to rotate at the same rotation ratio, so that the piston 30 in the cylinder 22 may be a piston shaft ( The reciprocating motion is sequentially performed as much as the eccentric distance difference of 31).

By this operation, a pressure change is generated inside the cylinder 22, and suction force is generated in the section going to the top dead center and the bottom dead center, and high pressure is generated in the possible section from the bottom dead center to the top dead center. In addition, the fluid flows into the suction chamber 16a through the suction port 18a, is contained in the cylinder 22 which is rotated by the rotation of the rotating body 20, and is transferred to the discharge chamber 16b. In the discharge chamber 16b, the fluid in the cylinder 22 is discharged by the piston 30, and discharged and conveyed through the discharge port 18b.

The suction and discharge of such fluid are continuously performed by the rotation of the rotor 20.

The drive device of the present invention can be applied to all pumps to rotate the eccentric shaft at the same rotation ratio in addition to the piston pump.

As described above, in the present invention, since both ends of the rotor shaft and the piston shaft are supported by the housing and rotated at the same rotation ratio by the first and second gears installed in the two shafts and the drive gears connected to the intersections of the two gears. It can operate stably even under high pressure and high speed rotation. In addition, there is an advantage in that the pumping capacity is also improved at the same time as the life of the pump parts and the pump itself is extended, and there is no failure and easy to manufacture because the mechanism of power transmission is very simple.

Claims (3)

A rotating body 20 having a plurality of cylinders 22 formed at regular intervals in a circumferential shape and having a central portion penetrating open to both sides; A piston (30) installed in each cylinder (22) of the rotating body (20) for reciprocating motion; It is installed eccentrically with the center of the rotating body 20 in the inside of the rotating body 20, by connecting the respective piston 30 to the rod 32, the eccentricity with the center of the rotating body 20 during rotation A piston shaft (31) for sequentially reciprocating the piston (30) by distance; Both sides of the rotating body 20 and both sides of the piston shaft 31 are rotatably supported, and the suction and discharge chambers 16a and 16b of the fluid are bounded by the top dead center and the bottom dead center of the piston 30. And a housing (10) having suction and discharge ports (18a) and (18b) to allow suction and discharge of fluid into the respective chambers; A first gear 24 coupled to one side of the rotating body 20; A second gear (34) installed on the piston shaft (31) at a position close to the first gear (24) with the same diameter and gear dimensions as the first gear (24); Rotary piston, characterized in that composed of a power transmission device for transmitting power from the drive motor (M) and the drive motor (M) so that the first gear 24 and the second gear 34 to operate at the same rotational speed. Drive of the pump. 2. The power transmission device according to claim 1, wherein the power transmission device has the same diameter and the gear teeth of the first gear 24 and the second gear 34, and the first gear 24 and the second gear 34. The driving device of the rotary piston pump, characterized in that the drive gear 44 for transmitting the power of the drive motor (M) is engaged to one of the two points of intersection (X). According to claim 2, wherein the housing 10 is open at one side thereof, the first cover 12 is coupled thereto, the central portion of the first cover 12, the first and second gears 24, 34 Opening for the installation of the, while being installed on one side of the first cover 12, the piston shaft 31, while the second shaft 14, which rotatably compresses the drive shaft (S1) is coupled to the outside is coupled to A drive device for a rotary piston pump.

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