KR20090123673A - Rotating electric power apparatus used springs repulsive force and oil pressures expansive force - Google Patents

Abstract

PURPOSE: A rotation power generator using repulsion of a spring and fluid pressure tension is provided to compact liquid including hydraulic oil using the repulsion of a compacted spring and generate rotation power using generated expansion pressure. CONSTITUTION: A rotation power generator using repulsion of a spring and fluid pressure tension comprises followings. A partition(10) is formed at the middle part of a drive body(2) installed inside a housing body. A starting cylinder and a starting piston(7) are inserted into the housing of the partition. The starting piston compacts springs(17,17a) installed inside a main cylinder(3). The main piston(5) compacted with the repulsion of the compacted spring compacts the fluid within a hydraulic chamber. The expansion pressure generated in the compacted fluid presses sub pistons(14,14a) within a plurality of sub cylinders and a long receiving portion(18-1,18a-1) of a rotor(18,18a) and a short receiving portion(18-2,18a-2) are compressed in one direction.

Description

Rotating electric power apparatus used springs repulsive force and oil pressures expansive force}

  The present invention relates to a rotating power generating device using the repulsive force of the spring and the expansion force of the hydraulic oil. More specifically, the hydraulic pressure compressed by the starting piston 7 presses the main piston 5 in the main cylinder 3 to compress the springs 17 and 17a with high strength and to compress the springs 17 and 17a with high strength. The expansion pressure of the fluid compressed in the hydraulic chamber 6a by the repulsive force pressurizes the left and right volume stones 14 and 14a installed in the subcylinder 13 through the left and right through holes 11 and the hydraulic flow passage 12. And the output portions 14-1 and 14a-1 of the left and right volume stones 14 and 14a are pressurized portions 18-1 of the rotors 18 and 18a coupled to the stator 19. When the 18a-1 and the short receiver 18-2 and 18a-2 are eccentrically pressed, the left and right rotors 18 and 18a can obtain continuous rotational power from the rotor shaft 21 as a starting point. If the repulsive force of the spring is reduced or the hydraulic oil is reduced during the driving process is to be quickly replenished by using the starting piston (7) and the rod (7a).

  Power, such as internal combustion engines, uses the expansion pressure that occurs when petroleum (fossil) energy is burned in a closed combustion chamber, so that the loss of heat is very large and there is a big disadvantage of accelerating global warming. Solving such a problem and registered by the applicant of the original application "hydraulic rotary power generating device using the repulsive force of the spring (Utility Model Registration No. 304628)" is known, but this is a long circuit installed in the flange of the drive body connected to the generator It is designed to transmit power to the generator by contacting the pressurized long shaft bolt of the short rotor that pressurizes the pressurized long shaft bolt of the former, thus preventing attenuation of the pressing force caused by the tolerance between the long rotor and the short rotor during power transmission. However, since four curve hydraulic paths are formed in the four places, it is insufficient to obtain a strong power, and the structure is complicated, and thus there is an inconvenience in manufacturing and use.

  The present invention has been made to solve the above problems, the problem is that the spring (17) (17a) installed in the main cylinder (3) by the starting piston (7) in the starting cylinder (6) is compressed with high strength and high strength The expansion pressure of the fluid compressed in the hydraulic chamber 6a by the main piston 5 reversely compressed by the return repulsive force of the springs 17 and 17a is connected to the left and right through holes 11 and the hydraulic flow passage 12. Pressing the volume stones 14 and 14a in the plurality of subcylinders 13 installed in the housing 6b of the driving body 2, and the output portion 14-1 of the volume stones 14 and 14a thus pressed. ) 14a-1 is the support part 18-1 (18a-1) and the short part 18-2 (18a-2) of the rotor 18 and 18a abutted by the stator 19. By pressing eccentrically, the rotor (18) (18a) is to enable a continuous rotation of the drive unit (2) clockwise from the rotor shaft (21).

  A diaphragm 10 is formed at an intermediate portion of the drive body 2 installed in the housing body 1, and a starting cylinder 6 and a starting piston 7 are formed in the housing 6b formed at one side of the diaphragm 10. To compress the starting piston 7 so that the springs 17 and 17a installed in the main cylinder 3 connected to the main through hole 8 formed in the center of the diaphragm 10 can be compressed with high strength. The main piston 5, which is reversely compressed by the repulsive force of the high-strength compressed springs 17 and 17a, compresses the fluid in the hydraulic chamber 6a with high strength, and the expansion pressure generated from the compressed fluid is The volume stones 14 and 14a are pressurized by pressing the volume stones 14 and 14a in the plurality of subcylinder chambers 13 connected to the through holes 11 and the hydraulic flow passages 12 formed on the left and right sides of the 10. Supporters 18-1 and 18a-1 and shorters 18-2 and 18a- of the rotors 18 and 18a abutted at the outputs 14-1 and 14a-1 of the Eccentric pressurization According the rotor (18) (18a) coupled to the stator 19 is the driving body (2) starting from the rotor shaft (21) is a can be a constant rotation in a clockwise direction. And when the repulsive force of the driving process spring is weakened or the hydraulic oil is reduced, it is possible to quickly replenish through the starting piston (7).

  As described above, in the present invention, unlike the pressurized main piston with hydraulic oil, a spring 17, 17a installed in the main cylinder 3 is formed by forming a starting cylinder and tightening the starting piston 7 fitted thereto. The expansion hydraulic pressure in the hydraulic seal 6a, which is compressed by the main piston 5 which allows high strength compression and reverse compression by the repulsive force of the compressed springs 17 and 17a, is the left and right through holes 11 and the hydraulic flow path. The front and rear volume stones 14 and 14a in the plurality of subcylinders 13 connected to the 12 are pressed and pressed by the outputs 14-1 and 14a-1 of the volume stones 14 and 14a. The support parts 18-1 and 18a-1 and the short support parts 18-2 and 18a-2 of the left and right rotors 18 and 18a coupled to the stator 19 rotate in an eccentric state. Starting from the magnetic shaft 21, the driving body 2 generates a continuous rotational force clockwise. At this time, the main cylinder (3) and the sub-cylinder (13) is sealed, and as the pressure expansion efficiency of the hydraulic oil increases, the driving body (2) has a relatively strong force and can produce a continuous rotational power. When the repulsive force of the driving process springs 17 and 17a is reduced or the hydraulic oil is reduced, the starting piston 7 and the rod 7a are collected using a jig, and the starting cylinder 6 is filled with hydraulic oil and then the starting piston ( 7) and the rod 7a are tightened, the springs 17 and 17a in the main cylinder 3 are compressed with high strength. As described above, the present invention has a simple structure and is easy to manufacture, and in particular, the energy used therein is not limited to fossil energy such as petroleum, so that it is possible to use spring repulsion which can be obtained indefinitely. You can contribute.

(Example)

  The drive body 2 is installed inside the housing 1, and the drive shaft pipes 2a and 2a-1 provided on the left and right sides thereof have through holes formed on the left and right sides of the housing body 1 via the bearings 4. A start cylinder 6 is installed in the center of the housing 6b provided on one side of the diaphragm 10 formed in the middle of the drive body 2, and is fitted to the start cylinder 6 in the installation provided in (1a). The diaphragm 10 located at the distal end of the starting piston 7 is formed with a main through hole 8 communicating with the main cylinder 3, and a jig groove is formed at the rear end of the rod 7a of the starting piston 7 above. 7c) and a jig fitting groove 7c-1 through the double fastening nut 7e are formed, and the screw portion 7b screwed to the screw portion 2b of the drive shaft tube 2a-1 on the main surface of the rod 7a. Since the starting piston rod 7a is unscrewed and the pressure of the starting piston 7 and the hydraulic chamber 6a is released, the driving body 2 is stopped. In order to drive this, the jig is inserted into the jig fitting groove 7c formed at the rear end of the rod 7a of the starting piston 7 to screw the starting piston 7 to the starting piston 7. The generated high-strength hydraulic pressure compresses the main piston 5 installed in the main cylinder 3 communicated with the main through hole 8 to compress the large and small springs 17 and 17a contacted with the high strength.

The repulsive force of the springs 17 and 17a compressed in such a high strength pressurizes the main piston 5 in the reverse direction. When the main piston 5 is back-pressured, the hydraulic oil in the hydraulic chamber 6a is compressed with high strength. The expansion pressure generated at this time presses the front and rear volume stones 14 and 14a in the plurality of subcylinders 13 connected to the through holes 11 and the hydraulic flow passages 12 formed on the left and right sides of the diaphragm 10. . At this time, the output portion (14-1) (14a-1) of the pressurized volume stone (14) (14a) is the support portion (18-1) of the left and right rotors (18) (18a) coupled to the stator (19) (18a-1) and the short receiving portion (18-2) and (18a-2) are eccentrically pressurized and the eccentricity of the rotor (18) (18a) that is eccentrically pressurized is driven by the rotor shaft (21) as a starting point. (2) will generate a continuous rotational force clockwise.

  If the repulsive force of the driving process springs (17) (17a) is weakened, the piston rod (7a) of the starting piston (7) may be screwed into the jig, and if the hydraulic oil is reduced, the starting piston (7) is released at this time. What is necessary is just to add hydraulic oil to the seal 6a. In the above description, the hydraulic oil is described, but the present invention is not limited thereto, and a non-oil liquid may be used.

 When air bubbles are generated in the hydraulic chamber 6a during the driving process, when the screw bolt 16 is released and the check ball 15 is pressed, the air in the hydraulic chamber 6a is discharged through the deep hole 5b.

  And when the output pulley is connected to the key groove (2c) formed in the drive shaft tube (2a) is to transmit the driving force to the generator or industrial equipment rotational power of the drive (2).

  When the drive is to be stopped, the starting piston 7 may be unscrewed to lower the pressure in the hydraulic chamber 6a.

  The present invention configured as described above is a rotational power using the expansion pressure generated by high-pressure compression of liquid such as hydraulic oil by using the repulsive force of the compressed spring that can be obtained indefinitely rather than fossil energy such as its power energy company petroleum Because it can be obtained, it can greatly contribute to the development of alternative energy, and the prevention of global warming, which humans are concerned about, and its commercialization is very easy.

Figure 1 is an exploded perspective view excluding the housing of the present invention

Figure 2 is a combined longitudinal cross-sectional view of Figure 1

Figure 3 is a cross-sectional view of the drive body coupled to the left and right rotors of the present invention

※ Explanation of code for main part of drawing

1-Housing body 1a-Through hole 2-Drive 2a, 2a-1-Drive tube

2b thread 2c keyway 3-main cylinder 4-bearing

5- Jupistone 5a-rod 5b-seal 5c-vent

5e, 5e-1-spring support jaw 6-start cylinder 6a-hydraulic chamber 6b-housing

7-start piston 7a-rod 7b-thread 7c, 7c-1-

7d-seal 7e-Double tightening nut 7e-1-Female thread 7e-2-Male thread

8-Main through hole 9-Main cylinder chamber 10-Diaphragm 11-Through hole 12-Hydraulic flow path 13-Bus cylinder 14,14a-Volume piston 14-1, 14a-1- Output part

14b-Seal (Becking) 15-Check Ball 16-Screw Bolt 17,17a-Spring 18,18a-Rotor 18-1,18a-1 -Receiving Part 18-2,18a-2-Short Receiving Part

19-stator 20-eccentric 21-rotor shaft

Claims (3)

  The through-holes 1a formed on the left and right sides of the housing body 1 through the bearing 4 are disposed in the shaft tubes 2a and 2a-1 formed on the left and right sides of the drive body 2 provided inside the housing body 1. The starting cylinder 6 at the center of the starting cylinder housing 6b on one side of the diaphragm 10 formed at the middle of the driving body 2, and the end of the rod 7a fitted thereto. In the diaphragm 10 which is in contact with the starting piston 7 abutted, a main through hole 8 is formed in communication with the main cylinder chamber 9, and a jig groove is formed at the rear end of the rod 7a of the starting piston 7 above. 7c is formed and a screw portion 7b is formed around the rod 7a to be screwed onto the screw portion 2b formed on the drive shaft tube 2a-1, and the main portion formed on the other side of the diaphragm 10 is formed. The cylinder 3 is fitted with a main piston 5 in which the springs 17 and 17a are in contact with each other, and a deep hole 5b is formed in the rod 5a of the main piston 5. Its front end is fitted to the drive shaft tube 2a via the check ball 15 and the screw bolt 16, and the starting cylinder housing 6b is provided in the through hole 11 formed on the left and right sides of the diaphragm 10. A plurality of subcylinders 13 are connected to the hydraulic flow passage 12 formed in the cross-section, but the stator 19 is connected to the output portions 14-1 and 14a-1 of the volume stones 14 and 14a. The support parts 18-1 and 18a-1 and the short support parts 18-2 and 18a-2 of the left and right rotors 18 and 18a coupled to each other are brought into contact with each other to start the rotor shaft 21. The driving device (2) is a rotational power generating device using the repulsive force of the spring and the expansion force of the hydraulic pressure, characterized in that the continuous rotation in the clockwise direction.   In the starting cylinder 6 of claim 1, a screw portion 7b is formed on the main surface of the rod 7a of the starting piston 7 provided in the starting cylinder 6 to the threaded portion 2b formed on the drive shaft tube 2a-1. The hydraulic oil compressed by the starting piston 7 which is screwed and abutted at the distal end of the rod 7a is installed in the main cylinder 3 chamber via the main through hole 8 of the diaphragm 10. Rotating power device using the repulsive force and the hydraulic expansion force of the spring, characterized in that the high-strength compression.   In the springs 17 and 17a of claim 1, the hydraulic expansion pressure in the hydraulic chamber 6 compressed at high strength by the main piston 5 reversely compressed by the chucking force of the springs 17 and 17a compressed with high strength is Through the through holes 11 and the hydraulic flow passages 12 formed on the left and right of the diaphragm 10, it is introduced into the subcylinder 13 to pressurize the volume stones 14 and 14a, and the pressurized volume stones 14 The output portions 14-1 and 14a-1 of the 14a are the support portions 18-1 and 18a-1 of the rotors 18 and 18a coupled to the stator 19 and the short support portions. Eccentrically pressurizes (18-2) and (18a-2) so that the rotor (18) (18a) allows the drive body (2) to generate continuous rotational power in a clockwise direction from the rotor shaft (21). Rotational power unit using repulsion and hydraulic expansion force of a spring.

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