KR100564151B1 - rotary engine - Google Patents

Abstract

According to the present invention, the rotary body 12 is embedded in the elliptical housing 2 as a rotary engine, and an intake compression operation chamber 8-1 having an intake port 24 and an explosion exhaust operation chamber having an exhaust port 26 are provided. -2) and the compression plate 16 of the rotating body 12 is partitioned along the inner wall of the intake compression operation chamber 8-1 by the rotation of the rotating body 12, compressing the intake gas and compressing the compressed plate. If the storage chamber 14 formed on the circumferential surface of the rotating body 12 between the 16 and the blocking plate 20 reaches a position where the outer circumferential surface of the rotating body 12 and the inner wall of the housing 2 come into contact with each other, the preceding blocking plate (20) partitions the explosion exhaust operation chamber (8-2) along the inner wall of the explosion exhaust operation chamber (8-2) so that the explosive gas pushes the blocking plate (20) so that the rotating body (12) rotates and blocks. As the plate 20 passes through the section of the exhaust port 26, the gas is discharged. The compression plate 16 and the blocking plate 20 move in a radial working space in the rotating body 12, and the connecting rods toward the rotating shaft 10 are connected to the upper plate 12-1 and the lower plate 12-3 of the rotating body 12. Each guide rod and each guide roller bent at right angles and compressed along the respective guide paths on the inner surface of the upper plate (2-1) and the lower plate (2-3) of the housing (2). The plate 16 and the blocking plate 20 reciprocate out of the outer circumferential surface of the rotating body 12 while contacting the inner surfaces of the intake compression operation chamber 8-1 and the explosion exhaust operation chamber 8-2, and intake compression operation chamber (8-1) and the explosion exhaust operation room (8-2).

Description

Rotary Institution

1: Longitudinal sectional view of the present inventors' rotary organization

2 is a cross-sectional view showing the intake compressed exhaust of the present invention rotary engine.

3 is a plan cross-sectional view showing the explosion of the inventors of the rotary engine

4 is a block diagram of the guideway of the present inventors rotary organization

5 is a perspective view of a rotating body of the present inventors rotary engine

<Description of the code | symbol about the principal part of drawing>

(2)-Housing (2-1)-Top

(2-2)-Body tube (2-3)-Bottom

(4-1)-Supply Euro (4-2)-Supply Euro

(4-3) -Exhaust Tax Euro (4-4) -Exhaust Euro

(6-1)-Compression plate guide (6-2)-Blocking plate guide

(8-1)-Intake and compression operation room (8-2)-Explosion and exhaust operation room

(10)-rotating shaft (12)-rotating body

(12-1)-Top Plate (12-2)-Rotating Body

(12-3)-Bottom (14)-Store

(16)-Compression Plate (18-1)-Compression Plate Connecting Rod

(18-2)-Compression Plate Induction Rod (18-3)-Compression Plate Guide Roller

(20)-Blocking Plate (22-1)-Blocking Bar Connecting Rod

(22-2)-Blocker Bar Guide Bar (22-3)-Blocker Guide Roller

(24)-Intake vent (26)-Exhaust vent

(28)-Ignition Device (30-1)-Sealing

(30-2)-Seal (32)-Reinforcing Wall

In the rotary engine of the present invention, the intake and compression operation chamber 8-1 and the explosive exhaust operation chamber 8-2 formed by the garden-type rotating body 12 mounted in the elliptical operation chamber of the elliptical housing 2 are rotated. The compression plate 16 mounted on the whole 12 compresses the gas in the intake compression operation chamber 8-1 intaken through the intake port 24, and the blocking plate 20 is the explosion exhaust operation chamber 8-2. Ignition device between the circumferential surface of the rotating body 12 and the inner surface of the housing 2 to block the front of the storage chamber 14 formed at the edge of the rotating body 12 between the compression plate 16 and the blocking plate 20 therein (28) explodes the gas so that the rotor 12 generates power and exhausts it through the exhaust port 26 of the housing 2, which is intended to obtain a rotary engine with simple and smooth lubrication, low smoke and high thermal efficiency. There is this.

In a rotary engine, five radial blocking plates formed on the rotating body in two operating chambers formed by inserting a garden rotating body in the operating space of the elliptical housing protrude from the operating chamber of the rotating body to rotate in contact with the inner surface of the elliptical housing. In the blocking plate, the space between the two blocking plates is reduced and enlarged to explode the gas in the working chamber, which is the space when the maximum compression is achieved, thereby allowing the rotor to gain power. However, the compression of the operating chamber formed by the two blocking plates, the rotor and the inner surface of the housing is limited, and the thermal efficiency is low due to the vector problem in obtaining the rotational force.

In the rotary engine of the present invention, the intake compression operation chamber 8-1 and the explosive exhaust operation chamber 8-2 formed by the insertion of the garden-type rotary body 12 in the space in the elliptical housing 2 are formed and the rotary body ( The compression plate 16 and the blocking plate 20 are formed in the 12 so that the ends of the compression plate 16 and the blocking plate 20 come into contact with the inner surface of the housing 2 and rotate therebetween. The compression plate 16 which makes the storage chamber 14 for gas storage on the circumferential surface of the cylinder and follows the gas of the intake compression operation chamber 8-1 with the inlet 24 is rotated counterclockwise as shown in FIG. The ignition device explodes the gas in the storage chamber 14 and the storage chamber 14 moves to the explosion-exhaust operation chamber 8-2 while it is compressed and collected and the rotor 12 moves close to the inner surface of the housing. When the preceding blocking plate 20 partitions the explosion exhaust operation chamber 8-2, the blocking plate 20 is pushed to the explosion pressure so that the rotor 12 receives power and is smooth. Low bow and cooling and exhaust to obtain a high output.

In the present invention, the electric ignition device is installed in the housing 2 and the injection ignition ignition device 28 is installed in the rotating body 12, the electric ignition device or the injection ignition device collectively referred to as the ignition device 28 and air (B) Mixed gas is referred to collectively as gas.

The compression plate 16 of FIG. 2 compresses the gas of the intake compression operation chamber 8-1 intaken through the inlet port 24, thereby rotating the body between the compression plate 16 and the blocking plate 20 of FIG. 12) When a portion of the outer circumferential surface is removed and collected in the storage chamber 14 formed in a puddle shape, the storage chamber 14 of FIG. 3 is moved to the inner surface of the housing 2 and the rotor 12 before moving to the explosion exhaust operation chamber 8-2. At the position where the outer circumferential surface is in contact, the ignition device 28 explodes the gas in the storage chamber 14 so that the blocking plate 20 preceding the storage chamber 14 comes out of the outer circumferential surface of the rotating body 12 and the explosion exhaust operation chamber 8-2. Explosion gas in the space of the explosive exhaust operation chamber (8-2) in contact with the inner surface of the storage chamber (14) pushes the blocking plate (20) to power the rotor (12) and the gas is the exhaust port of the housing (2). Exhaust to 26. The process is repeated.

1 and 2, the housing 2 is an elliptical cylinder, formed of an upper plate 2-1, a trunk tube 2-3, and a lower plate 2-3 and integrally tightened with a bolt. On the inner surface of the upper plate (2-1) and the lower plate (2-3) having a shaft hole in which the rotary shaft 10 is fitted in the center, the compression plate guide path (6-1) which is the track of the compression plate guide roller (18-3) and There is a blocking plate guide path 6-2, which is the track of the blocking plate guide roller 22-3, and there is an operating space of the compression plate induction bar 18-2 and the blocking plate induction bar 22-2. (2-2) has two surfaces, a garden, which rotates in contact with the sealing 30-1, which is a garden mounted on the upper and lower sides of the outer circumferential surface of the rotor 12, and an elliptical space therebetween, so that the rotor 12 ) Is divided into an intake compression operation chamber (8-1) with an inlet (24) and an explosion exhaust operation chamber (8-2) with an exhaust port (26), and there is an ignition device (28) for ignition therebetween. .

Rotating body 12 is a pot lid-shaped upper plate 12-1 and a rotating body 12-2 and the rotating body 10-2 and the bottom of the inverted pot lid-shaped plate 12- is formed integrally at the top of the rotating shaft 10 It is composed of 3) and is united by tightening with bolts.

The rotating body 12 constitutes one or more sets of the compression plate 16 and the blocking plate 20 in a set, and the compression plate 16 and the blocking plate 20 in the rotating body 12 are formed of the rotating body 12-2. Each operating space is formed to reciprocate out of the outer circumferential surface, and the connecting plate connecting rod 18-1 of the compression plate 16 and the blocking plate connecting rod 22-1 of the blocking plate 20 are the upper plate 12-1 and the lower plate. (12-3) penetrates (12-3) and moves radially on the side of the rotating shaft (10). At the end of the compression plate connecting rod (18-1), the compression plate guide rod (18-2) is formed at right angles, and again the compression plate guide roller at right angles. 18-3 is formed, and at the end of the blocking plate connecting rod 22-1, the blocking plate guide rod 22-2 is formed at a right angle, and the blocking plate guide roller 22-3 is formed at a right angle. As shown in the upper plate (2-1) and the lower plate (2-3), the compression plate guide roller (6-1) is followed by the compression plate guide roller (18-3) and the blocking plate guide path (6-2) The blocking plate guide roller 22-3 follows. The compression plate guide roller 18-3 and the blocking plate guide roller 22 on the upper plate 2-1 so that the compression plate guide roller 18-3 and the blocking plate guide roller 22-3 do not depart from their tracks. -3) different lengths and the lower plate (2-3) is configured by changing the length of the compression plate guide roller (18-3) and the blocking plate guide roller (22-3) in the upper plate (2-1) do.

5, the lengths of the compression plate induction rod 18-2 and the blocking plate induction rod 22-2 are lengthened toward the outer circumferential surface, and the reinforcement wall 32 prevents bending and the compression plate guide roller 18-3. Is along the wall of the compression plate guide (6-1) and the blocking plate guide roller 22-3 is moved along the wall in the blocking plate guide (6-2) to the compression plate 16 and the blocking plate (20) The end of) allows the inner surface of the housing 2 to contact and move precisely.

Referring to the ignition device 28, when the gas is moved from the intake port 24 of the housing 2 to the storage chamber 14 of the rotating body 12 and compressed to the maximum, the ignition of the ignition apparatus in the storage chamber 14 is caused by the compressor. The electric ignition may also be supplied to the ignition device 28 in the storage chamber 14 by a switchboard using the rotary shaft 10. 2, the ignition device 28 may be mounted on the inner surface of the housing 2.

As shown in FIG. 1, the lubricating oil is a shaft hole and a rotating body of the housing 2 for the rotating shaft 10 from the supply passage 4-1 of the rotating shaft 10 through the supply fine passage 4-2 of the rotating shaft 10. (12) of the upper plate (12-1), the compression plate guide rod (18-2) and the blocking plate guide rod (22-2) and the compression plate guide roller (18-3) formed at right angles and the blocking plate guide It is supplied to the roller 22-3, goes to the sealing 30-1 of the rotating body 12, passes through the discharge washing passage 4-3 of the rotating body 12 or the housing 2, and then the discharge passage 4- 4) go to the compression plate 16 and the blocking plate 20 through the supply passage 4-2 passing through the lower plate 12-3 from the upper plate 12-1, and discharge discharge passage 4- Pass 3) to the discharge passage (4-4). It is sent from the discharge channel (4-4) to the lubricating oil storage room, cooled and refined, and sent back to the supply channel (4-1).

A switchboard for attaching a turbine-type blade to the supply passage 4-1 of the rotary shaft 10 and a turbine-type blade for discharge to the discharge passage 4-4; Connecting connectors may be attached.

In the lubrication of the rotating shaft 10, the compression plate 16 and the blocking plate 20, a sealing groove is made in the rotating shaft 10 or the shaft hole so as to prevent the lubricating oil between the shaft holes from flowing to the unnecessary portion, and at least one sealing is performed after the spring is inserted. Insert the 30-1 and the seal 30-2. Unnecessary portions of the rotary shaft 10 are external to the housing 2, and unnecessary portions of the compression plate 16 and the blocking plate 20 are composed of the intake compression operation chamber 8-1 and the explosion exhaust operation chamber 8-2. Say backflow.

Cooling type is not the air cooling type that can be cooled by attaching a blade to the rotary shaft 10 or the water cooling type that can be cooled by injecting water into the rotating body 12, such as the cooling jacket of the housing 2, the rotating body 12 An eclectic form using lubricating oil in the operating part between the housing and the housing 2 is also useful.

The compression plate 16 and the blocking plate 20 of the rotating body 12 are minimized, and the compression plate 16 and the blocking plate 20 are configured to reciprocate inside and outside the rotating body 12. ) Compresses the gas in the intake compression operation chamber 8-1 with the intake port 24, the ignition device 28 ignites, and the blocking plate 20 has an explosion exhaust operation chamber 8-2 with the exhaust port 26. ), The rotary body 12 is powered by a smooth lubrication structure with low soot and high thermal efficiency, so that gas, gasoline, and diesel engines can be obtained.

Claims (4)

The housing (2) is an elliptical cylinder with a compression plate guide (6-1) and a blocking plate guide (6-2) on the inner surface of the upper plate (2-1) having a shaft hole for the rotating shaft (10) in the center. There is a space in which the plate induction rod 18-2 and the blocking plate induction rod 22-2 operate, and the body tube 2-2 is in contact with the sealing 30-1 of the upper and lower portions of the rotor 12. The inner surface of the garden is up and down, and there is an elliptical cylindrical portion between the seals 30-1. When the rotor 12 enters, the explosion with the intake compression operation chamber 8-1 and the exhaust port 26 with the intake port 24 is performed. It is divided into the exhaust operation chamber (8-2), and the lower plate (2-3) has a shaft hole for the rotating shaft (10) at the center, and the compression plate guide path (6-1) and the blocking plate guide path (6-2) at the inner side In addition, there is a space in which the compression plate induction rod 18-2 and the blocking plate induction rod 22-2 operate, and the rotating body 12 includes the upper plate 12-1 and the rotating body 10 on which the rotating shaft 10 is located. 12-2) and the rotating shaft 10 is composed of a lower plate 12-3, which is provided below, and is supplied to the rotating shaft 10 There are a flow path 4-1, a supply tax flow path 4-2, a discharge tax flow path 4-3 and a discharge flow path 4-4, and the rotary body 12-2 is blocked from the compression plate 16. There is a working space in the rotary body 12-2 so that the plate 20 is formed in a pair or more and the compression plate 16 and the blocking plate 20 reciprocate out of the outer circumferential surface of the rotary body 12-2. Compression plate connecting rod (18-1) of the compression plate 16 is located on the rotating shaft 10 side through the upper plate (12-1) and the lower plate (12-3) to move radially and the reinforcing wall 32 to prevent bending The compression plate 16 is intaked as the compression plate guide roller 18-3 connected to the compression plate induction rod 18-2 at a right angle and integrally connected at right angles to the compression plate guide path 6-1. Compressed gas of the intake compression operation chamber 8-1 is collected and collected into the storage chamber 14 formed between the compression plate 16 and the blocking plate 20, and the blocking plate connecting rod 22-1 of the blocking plate 20 is On the axis of rotation 10, penetrates radially through upper plate 12-1 and lower plate 12-3 And the reinforcing wall 32 is integrally connected at right angles to the blocking plate guide rod 22-2 which prevents bending, and the blocking plate guide roller 22-3 connected at right angles is the blocking plate guide path 6-2. Ignition gas in the storage chamber 14 at a position where the inner surface of the housing 2 and the outer peripheral surface of the rotor 12 are in contact with each other, and precede the storage chamber 14 and protrude the outer peripheral surface of the rotor 12 to explode the exhaust operation chamber. A rotary engine configured to allow the explosive gas to push the rear of the blocking plate (20-2) partitioning section (8-2) so that the rotor 12 receives power and exhausts it to the exhaust port 26. According to claim 1, the outer circumferential surface of the rotating body 12 between the compression plate 16 and the blocking plate 20 of the rotating body 12 is cut off to form an open puddle-shaped space to store the gas to compress the housing (2) Rotary organization configured to the storage compartment (14) to explode in a portion where the inner surface of the inner surface and the outer peripheral surface of the rotating body (12). The compression plate connecting rod 18-1 and the blocking plate connecting rod 22-1 of the compression plate 16 and the blocking plate 20 are reciprocated in the radial direction from the rotating shaft 10. The upper plate 12-1 and the lower plate 12-3 so as to be possible, and the compression plate connecting rod 18-1 forms a compression plate induction bar 18-2 at right angles and the compression plate guide roller 18 at right angles. -3) to follow the compression plate guide path (6-1) and the blocking plate connecting rod (22-1) is bent at a right angle to form a blocking plate guide bar (22-2) and at a right angle to the blocking plate guide roller (22) -3) to vary the length of the compression plate guide roller (18-3) and the block plate guide roller (22-3) so as to follow the blocking plate guide path (6- 2) and the compression plate guide roller (18) -3) and the length of the blocking plate guide roller 22-3 are interchanged so that the compression plate guide roller 18-3 follows the compression plate guide path 6-1 and the blocking plate guide roller 22-3 Compression plate 16 is to follow the blocking plate guide (6-2) A rotary engine configured to partition the intake and compression operation chamber (8-1) and the blocking plate (20) to partition the explosion exhaust operation chamber (8-2). The lubricating oil of claim 1 has a supply passage 4-1 and a discharge passage 4-4 of the rotary shaft 10, and the lubricant oil is provided to the shaft hole of the housing 2 for the rotary shaft 10 through the supply fine passage 4-2. Supplied with compressed plate guide rod (18-2), compressed plate guide roller (18-3), blocking plate guide rod (22-2), blocking plate guide roller (22-3), compressed plate (16) and blocking plate And supplied to the sealing 30-1 and then to the discharge passage 4-4 through the discharge tax passage 4-3, and part of the upper plate 12-1 of the rotating body 12 Rotary organization configured to pass through the lower plate (12-3) from the top to the discharge passage (4-4).

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