KR100514519B1 - press type rotary engine - Google Patents

Abstract

The present invention relates to a pressure rotary engine improved from the rotary engine, PCT / KR02 / 00921 ISA / KR 11.06.2002 filed by the applicant of the present application, the elliptical guide (D) of the housing (A) leading to the explosive exhaust portion (D The guide roller 62 of the guide rod 8 of the induction bar 8 of the suction induction device moves to one half of the long diameter of the inner circle) to smoothly move in accordance with the movement of the tail 58 of the sliding piston B. The contacting garden guide surface 9 is also half of the garden and is spaced apart from the ignition flag 14 or the ignition portion point of the inner surface 3 of the housing A and a certain gap with the rotor C to the exhaust end point. At the time of explosion, the space 30 is sealed by the blocking plate 32 and forms the propulsion plate 34 in the exhaust port 12. The blocking plate 32 to help seal the space 30 filled with the explosive gas is configured to be folded and unfolded at a position preceding the intake and exhaust hole 46 of the rotating body C to the space 30 at the time of explosion administration. The rotating body C is propelled and rotated by the pressure of the gas rod formed by accumulating the discharged gas, and the exhaust gas is discharged through the propulsion plate 34 of the exhaust port 12.

Description

Pressure rotary engine {press type rotary engine}

The present invention relates to a pressure rotary engine, specifically to increase the rotational force.

The Applicant has already provided the patent application PCT / KR02 / 00921 ISA / KR to a Rotary institution, which is an elliptical guide with two top dead centers (D-2) and a bottom dead center (D-1). The tail 58 of the piston B makes sliding contact along D), while the tail 58 of the piston B moves from the top dead center D-2 to the bottom dead center D-1. In 1), the suction compression is performed while moving to the top dead center (D-2), and when the explosion occurs, the piston (B) moves forward toward the bottom dead center (D-1), which is the bottom of the guide (D), gains power, and then exhausts the exhaust port (12). Piston B reciprocates twice in one rotation of rotor C within the operating chamber 44 of rotor C to be powered by propulsion plate 34 through It was made up.

Therefore, the required operation as an engine can be made smoothly, but there are disadvantages such as low thermal efficiency.

Accordingly, the present invention is compressed while the piston (B) is directed toward the other top dead center (D-2) passing through the suction port 10 between the guide top (D) top dead center (D-2) and the bottom dead center (D-1). After the maximum compression, the exploded gas is accumulated in the space part to form a gas rod, and the gas is exhausted through the propulsion plate 34 of the exhaust port 12 so that the piston reciprocates once for one rotation of the rotor to increase thermal efficiency. Its purpose is to provide a pressure rotary organization.

In order to achieve the above object, the present invention is a half-circle half of the garden having a long diameter (D-1) having a bottom dead center (D-1) between the top dead center (D-2) of the explosion exhaust side of the elliptical guide (D) And the garden guide surface 9 in which the guide roller 62 of the induction rod 8, which is a suction guide device, is inscribed in half of the garden so as to move smoothly in accordance with the piston B movement. The blocking plate 32 is placed in front of the intake and exhaust holes 46, and the space A is provided in the housing A so that the explosion gas from the intake and exhaust holes 46 of the rotating body C is filled and the intake and exhaust holes ( 46) It is characterized in that the blocking plate 32 of the preceding rotating body (C) is sealed so that a gas rod is formed to obtain propulsion force and the exhaust plate 12 is provided with a propulsion plate 34.

Figure 3 is an exploded perspective view of the present invention, the present invention is installed so that the inlet and exhaust ports and the spark plug 14 or the housing (A) having an ignition point, and the rotating shaft (2) in the housing (A) to the axis The rotating body (C) and the elliptical guide (B) protruding from the housing (A) and positioned at the center of the rotating body (C) have both ends of both guide rollers 60 with diameters on one side and half on the other side of the garden. It is formed in an elliptical shape having a bottom dead center (D-1) therebetween, and is installed in the operating chamber 44 formed in the rotating body (C) so as to be rotatable by a shaft pressure type, and its tail (pressure type) and the front surface 59 are The piston (B) circumscribed with the guide (D) and the end of the shaft rod (4) of the piston (B) are formed and the guide roller (62) at the end is formed in the guide surfaces (6, 9) of the housing (A) Consists of the induction bar (8) in contact, the piston (B) tail 58 rotates along the guide when rotating the rotor (C) to reduce and expand the operating chamber 44 Four strokes are sequentially made by the copper, and the rotating body C forms a lubricating oil supply path 64, a supply hole 64a, a lubricating oil discharge path 66, and a discharge hole 66a. Lubricant supply is to be made smoothly, and the oil seal 68 is formed to have an independent lubrication function so that lubricating oil does not flow into the operating chamber 44.

In the above, the housing A configured to increase the rotational force is connected to the space part 30 formed by making the space in which the explosion gas is filled when the explosion starts as a bevel in the position of the ignition plague 14 is propelled. ), And the guides are formed at both ends of the two guide rollers 60 of the guides D corresponding to the ends of the ignition plaque 14 of the housing A and the ends of the exhaust ports 12. A line connecting the pharyngeal top dead center (D-2) is formed as a curved surface that forms half of the garden, and the other side is formed as an elliptic curved surface having a bottom dead center (D-1) among the two top dead centers (D-2). do.

The blocking plate 32 mounted on the rotating body C is installed at a position preceding the intake and exhaust hole 46, and is formed in a rotatable folding type, and is folded on the rotating body C during suction and compression during the stroke. When the explosive gas is exploded after the maximum compression, the explosive gas is filled in the form of a rod between the preceding blocking plate 32 and the space 30 by sealing the space by protruding along the contact surface while reaching the space 30. .

In addition, the blocking plate 32 is configured such that one end of the rotating body (C) is inserted into the shaft so that the other end can be folded and unfolded, the concave contact surface 5 and the concave space portion 30 and the inner surface ( 3) The other end in contact with the concave and convex is formed in contact with the concave and convex, and during the intake and compression during the stroke is folded to the rotating body (C) to match the circular arc of the rotating body (C), but when explosive exhaust works according to the irregularities.

Guide surface 62, which is a suction guide device, has a similar shape to guide table (D), and one side connecting two top dead centers is formed as a curved surface that forms a half of the garden, and the other side is an elliptic curved surface having a bottom dead center. In this case, the guide roller 62 of the guide rod 8 smoothly rotates the inner surfaces of the guide surfaces 6 and 9 in line with the piston movement.

As described above, in the present invention, the suction and compression strokes form a blocking plate on the rotating body, and the guide table D has two top dead centers D- corresponding to the space portion 30 of the housing A and the exhaust port 12. 2) is formed into a half-garden, and the guide roller 62 of the guide rod 8, which is a suction guide device, moves in half of the garden so that the guide-type guide surface 9 is smoothly moved with the piston B movement. The inner source surface 3 of (A) is provided with a space portion 30 filled with explosive gas, and the exhaust port 12 is provided with a propulsion plate 34 to form a compressed gas rod in the former, and suitable discharge and By forming the driving force is to enhance the rotational force during rotation of the rotating body (C) and to be able to operate smoothly in accordance with the suction guide device.

1 is a cross-sectional configuration of the present invention

2 is a cross-sectional perspective view of the present invention

3 is an exploded perspective view of the present invention

＊ Explanation of symbols for main part of drawing ＊

(A)-housing (B)-piston

(C)-Rotator (D)-Guide

(D-1)-Lower dead center D-2--Top dead center

(2)-spindle (3)-inner plane

(5)-Concave contact (6)-Oval guide surface

(8)-Induction Rod (9)-Garden Guide

(10)-Intake (12)-Exhaust

(14)-Ignition Flag (30)-Space

(32)-Blocking Plate (34)-Propulsion Plate

(44)-Operating Room (46)-Intake Vent

(58)-Tails (60)-Guide Roller

(62)-Guide Roller (Induction Rod)

Claims (1)

A suction port and an exhaust port are formed, a housing A having a spark plug 14 installed therein and having a guide B and guide surfaces 6 and 9 therein, and a rotating shaft 2 in the housing A as an axis. Rotating body (C) is rotatably installed, and the rotating body (C) is provided with an operating chamber (44), which is rotatably installed in the operating chamber (44) with a shaft (4) and its tail (58) and The front surface 59 is formed to be connected to the piston (B) external to the guide (D), and the end of the shaft rod 4 of the piston (B), the guide roller 62 of the end is the guide surface of the housing (A) (6, 9) and the induction bar (8) in the inner rotation of the rotating body (C) when the tail (58) of the piston (B) rotates along the guide (D) to operate the operating chamber (44) In the pressure rotary organization to perform the four strokes sequentially by the movement to shrink and expand, The guide table (D) and the guide surface (6,9) is formed as a curved surface forming one half of the garden connecting the two top dead center (D-2), the other side between the two top dead center (D-2). It is formed by an elliptic curved surface having a bottom dead center (D-1), and the rotation body (C) is characterized in that by installing the blocking plate 32 in a position preceding the intake and exhaust hole 46 Rotary organization.