CN101153583A

CN101153583A - Power installation

Info

Publication number: CN101153583A
Application number: CNA2006101522555A
Authority: CN
Inventors: 邱金和
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-09-27
Filing date: 2006-09-27
Publication date: 2008-04-02

Abstract

The invention relates to a power device, which comprises a frame body, a rotating plate, a plurality of swing rods and a swing controlling device, wherein, the rotating plate is arranged on the frame body. A plurality of rod bodies are pivoted along the circumference direction of the rotating plate at interval. The rod body can swing above the rotating plate. A weight lump is arranged on one end of the rod body and the other end of the rod body is connected with a lump body which is fixed on the turning plate by a spring. The swing rods are separately pivoted on the rotating plate on one side of every rod body. A support seat is arranged on one end of the swing rod. When the turning plate rotates to the position of rod body above the rotating plate, one support seat can support the weight lump at the end of the rod body. The swing controlling device controls the swing rod above the rotating plate to swing; therefore, the other end of the swing rod is bounced by the weight lump supported by the other support seat, the rod body rotates and further the rotating plated rotates by change of gravity.

Description

Power plant

Technical field

The present invention relates to a kind of simple in structure, easy to operate and power plant that cost is low.

Background technique

In recent years, because earth energy is about to face the crisis of energy depletion,, extenuate the speed that traditional energy is consumed with this so all continuous active development in countries in the world utilizes wind-force, solar energy, waterpower or underground heat to wait the method that produces the electric power energy.

But the above-mentioned modes such as wind-force, solar energy, waterpower or underground heat of no matter utilizing are come produce power, all are subject to zonal restriction; For example, the long-term wind-force in certain some areas is not strong, promptly can't use wind-force to come produce power; In the same manner, the certain areas weather is for rainy throughout the year, and then solar energy also can't use naturally; There is existence advantageous area side and waterpower and underground heat are wanted partly especially.Be also can't be useful in each area, the whole world effectively.

Designer of the present invention is subject to the shortcoming that the area can be implemented because the existing natural force that utilizes generates energy, is the research and development improvement that constantly progresses greatly, and develops a mechanical power device eventually.

Summary of the invention

Main purpose of the present invention is providing a kind of simple in structure, easy to operate and power plant that cost is low.

For achieving the above object, the technical solution used in the present invention is:

A kind of power plant comprise:

One support body;

One rotating disk, be installed on the support body, on the rotating disk along circumferencial direction uniformly-spaced activity be pivoted with a plurality of bodies of rod, the described body of rod is swung on rotating disk, the described body of rod one end is provided with pouring weight, and the other end then relies on a spring and is connected with a block that is fixed on the rotating disk;

A plurality of swing arms, it is to be hubbed on respectively on the rotating disk of above-mentioned each body of rod one side, and described swing arm one end is provided with a supporting base, and when dial rotation to the body of rod was positioned at the top of rotating disk, described supporting base supported the pouring weight of body of rod end on one side; And

One oscillating control device, control move to the swing arm swing of rotating disk top.

Described rotating disk is to link by unilateral bearing a motor is arranged, during described motor running, and the described dial rotation of interlock, and after dial rotation, described motor promptly shuts down immediately.

Described rotating disk is that interlock has a generator, during described dial rotation, and the interlocking generator start.

Described oscillating control device is the trip rod that is installed in support body top for, the linearly direction to-and-fro motion of described trip rod, and bump turns to swing arm one end of rotating disk top downwards.

Described trip rod is a pneumatic-typed trip rod, relies on the air pressure mode to form the reciprocal motion of trip rod.

Described oscillating control device is the electromagnet that is located on the rotating disk for a plurality of, described electromagnet is provided in a side of a side of each swing arm, and below the supporting base of swing arm one end for the support rod body pouring weight, be provided with equally with aforementioned energising after the magnet of electromagnet same magnetic, when swing arm is driven to the rotating disk peak by rotating disk, the electromagnet conduction, the effect that described two magnet repel each other because of magnetic, and make swing arm one end upwards promote the pouring weight of its support.

Power plant according to claim 1, it is characterized in that: described oscillating control device is to be located at turning on the rotating disk for a plurality of, described turning is subjected to extraneous drive and rotate, described turning comprises a magnetic and a nonmagnetic material, wherein said nonmagnetic material is a side that is combined in described magnetic, and below the supporting base of swing arm one end for the pouring weight that supports the described body of rod, be provided with magnet equally with aforementioned magnetic same magnetic, when described magnetic of turning turns to the supporting base below, magnetic and magnet form the effect that magnetic is repelled each other, and make swing arm one end upwards promote the pouring weight of its support.

Described turning is that driving by a motor is rotated.

Be provided with a plurality of springs on the described rotating disk in addition, described spring is provided in a side of a side of each body of rod, when making the body of rod be rocked to an angle, the proper pressing spring of the described body of rod and make described spring present compressed state, and when the body of rod can be swung by the swing arm pushing tow, described compressed spring is no longer oppressed because of the body of rod, and pops up, and then quickens the swing of the body of rod.

The body of rod on the described rotating disk is to have 8, and it is to be arranged on described rotating disk two sides upper and lower, left and right four direction on every side respectively in twos, and described swing arm is 8, is located at a side of the body of rod equally respectively.

Compared with prior art, the advantage that adopts the present invention of technique scheme to have is: a kind of simple in structure, easy to operate and power plant that cost is low are provided.

Description of drawings

Fig. 1 is the schematic appearance for the embodiment of the invention;

Fig. 2 starts preceding view for the embodiment of the invention;

Fig. 3 is the view when clashing into swing arm downwards for embodiment of the invention trip rod;

Fig. 4 clashes into view behind the swing arm downwards for embodiment of the invention trip rod;

Fig. 5 be for embodiment of the invention swing arm by the view that rotating disk is turned right;

Fig. 6 is the view when rotating the rotating disk top for another swing arm of the embodiment of the invention;

Fig. 7 be for another embodiment of the present invention with the local state schematic representation of group of magnets as oscillating control device;

Fig. 8 is the user mode schematic representation for Fig. 7;

Fig. 9 be for Fig. 7 with the overall appearance schematic representation of group of magnets as oscillating control device.

Description of reference numerals: 1-power plant; The 2-support body; The 3-rotating disk; The 31-body of rod; The 311-pouring weight; The 312-spring; The 32-block; The 33-motor; The 34-spring; The 4-swing arm; The 41-supporting base; 42-magnet; The 5-oscillating control device; The 51-trip rod; 52-turns; The 521-magnetic; The 522-nonmagnetic material; The 53-motor.

Embodiment

See also Fig. 1, Fig. 2, graphic content is an embodiment of power plant 1 of the present invention, and it is made up of a support body 2, a rotating disk 3, a plurality of swing arm 4 and an oscillating control device 5.

Described rotating disk 3 is to be installed on the support body 2, on the rotating disk 3 along circumferencial direction uniformly-spaced activity be pivoted with a plurality of bodies of rod 31, the body of rod 31 on the described rotating disk 3 is to have 8, it is to be arranged on described rotating disk 3 two sides upper and lower, left and right four direction on every side respectively in twos, the described body of rod 31 can be swung on rotating disk 3, the described body of rod 31 1 ends are provided with pouring weight 311, and the other end then relies on a spring 312 and is connected with a block 32 that is fixed on the rotating disk 3.Described rotating disk 3 is to link by unilateral bearing a motor 33 is arranged, when described motor 33 is turned round, but the described rotating disk 3 of interlock rotates, and after rotating disk 3 rotates, described motor 33 promptly shuts down immediately, but in addition described rotating disk 3 again interlock one generator (figure does not show) is arranged, when described rotating disk 3 is rotated, but the interlocking generator start.

Be provided with a plurality of springs 34 on the described rotating disk 3 in addition, described spring 34 is provided in a side of a side of each body of rod 31, when making the body of rod 31 be rocked to an angle, but the described body of rod 31 proper pressing springs 34 and make described spring 34 present compressed state, and when the body of rod 31 can be swung by swing arm 4 pushing tows, described compressed spring 34 is no longer oppressed because of the body of rod 31, and pops up, and then quickens the swing of the body of rod 31.

Described swing arm 4 is 8, be hubbed on respectively on the rotating disk 3 of above-mentioned each body of rod 31 1 sides, described swing arm 4 one ends are provided with a supporting base 41, make rotating disk 3 turn to the body of rod 31 when being positioned at the top of rotating disk 3, and wherein a supporting base 41 can support the pouring weight 311 of the body of rod 31 ends on one side in good time.

Described oscillating control device 5 is swing arm 4 swings that move to rotating disk 3 tops for being used for controlling, and swing arm 4 the other ends can be popped up by the pouring weight 311 that another supporting base 41 is propped up, and the body of rod 31 is rotated, and then rotating disk 3 is rotated because of gravity changes.

See also Fig. 2～Fig. 6, during enforcement, at first described oscillating control device 5 can be designed to a trip rod 51 that is installed in support body 2 tops, described trip rod 51 is pneumatic-typed trip rods, make and rely on the air pressure mode to make linearly direction to-and-fro motion of trip rod 51, when turning to the supporting base 41 of swing arm 4 one ends of rotating disk 3 tops with downward bump, described swing arm 4 the other ends can be popped up by the pouring weight 311 that another supporting base 41 is propped up, the body of rod 31 is rotated, and then rotating disk 3 is rotated because of gravity changes.

Therefore, when the motor 33 that is connected with rotating disk 3 starts, rotating disk 3 can be driven by motor 33 and rotate (counterclockwise to rotate), when the body of rod on the rotating disk 3 31 and swing arm 4 turn to the top of rotating disk 3, motor 33 stops at once, the body of rod 31 and the spring 312 that is fixed between the block 32 on the rotating disk 3 are the states that are stretching, and the pouring weight 311 of the body of rod 31 1 ends is also propped up by swing arm 4 one end supporting bases 41, make the body of rod 31 and swing arm 4 be the top position of horizontal state at rotating disk 3, the while body of rod 31 also just will be located at the spring 34 of rotating disk 3 tops and push down, and make described spring 34 present compressed state.

As Fig. 3～shown in Figure 6, when the body of rod on the rotating disk 3 31 and swing arm 4 one are driven top to rotating disk 3 by rotating disk 3, described 51 the other ends that clash into swing arm 4 immediately by the action of pneumatic-typed downwards of trip rod that are installed in support body 2 tops, bump back and withdrawal recover position and the state before the bump, and after described swing arm 4 one ends are clashed into downwards by trip rod 51, promptly produce leverage, make swing arm 4 the other ends upwards swing, because described end is the pouring weight 311 that is propping up the body of rod 31, therefore the described body of rod 31 pouring weights 311 these ends are promptly to top offset, and make 32 former springs that are stretched 312 of the body of rod 31 and block withdrawal original states rapidly, and because the swing of the body of rod 31 relation, originally the spring of being suppressed by the body of rod 31 34 also upwards recoiled to original state, the energy that also quickens the body of rod 31 displacements.

Therefore, because rotating disk 3 tops are because of the body of rod 31 displacements, and rotating disk 3 is rotated because of gravity changes, in like manner, because the rotation of rotating disk 3, therefore another body of rod 31 is moved to rotating disk 3 tops again with swing arm 4, and trip rod 51 same generation actions, clash into an end of swing arm 4, make the body of rod 31 swing and the rotation that causes rotating disk 3 to continue.

In addition, as Fig. 7～shown in Figure 9, the oscillating control device 5 that the present invention is set, also can be designed to a plurality of being located at and turn 52 on the rotating disk 3, described turning 52 is to rotate by the driving of a motor 53, described turning 52 comprises a magnetic 521 and a nonmagnetic material 522, wherein said nonmagnetic material 522 is sides that are combined in described magnetic 521, and below the supporting base 41 of swing arm 4 one ends for the described body of rod 31 pouring weights 311 of support, be provided with magnet 42 equally with aforementioned magnetic 521 same magnetic, when making described 52 the magnetic 521 of turning turn to supporting base 41 belows, just can make magnetic 521 and magnet 42 form the effect that magnetic is repelled each other, and make swing arm 4 one ends upwards promote the pouring weight 311 of its support.

Certainly, above-mentioned 52 designs of turning also can directly be made as electromagnet, the principle of utilizing magnet to have the same sex to repel each other equally, when making swing arm 4 be driven to rotating disk 3 peaks by rotating disk 3, after the electromagnet conduction, the effect that described two magnet repel each other because of magnetic, and make swing arm 4 one ends upwards promote the pouring weight 311 of its support.

Certainly, there is friction homenergic loss equally in these power plant, but through well-designed with make, wearing and tearing can be dropped to minimumly, and under the lasting energy input of oscillating control device 5, can be kept in continuous operation.

More than explanation is just illustrative for the purpose of the present invention, and it is nonrestrictive, those of ordinary skills understand, under the situation of the spirit and scope that do not break away from claim and limited, can make many modifications, variation or equivalence, but but all will fall within the claim restricted portion of the present invention.

Claims

1. power plant is characterized in that: comprising:

One support body;

2. power plant according to claim 1 is characterized in that: described rotating disk is to link by unilateral bearing a motor is arranged, during described motor running, and the described dial rotation of interlock, and after dial rotation, described motor promptly shuts down immediately.

3. power plant according to claim 1 is characterized in that: described rotating disk is that interlock has a generator, during described dial rotation, and the interlocking generator start.

4. power plant according to claim 1 is characterized in that: described oscillating control device is the trip rod that is installed in support body top for, the linearly direction to-and-fro motion of described trip rod, and bump turns to swing arm one end of rotating disk top downwards.

5. power plant according to claim 4 is characterized in that: described trip rod is a pneumatic-typed trip rod, relies on the air pressure mode to form the reciprocal motion of trip rod.

6. power plant according to claim 1, it is characterized in that: described oscillating control device is the electromagnet that is located on the rotating disk for a plurality of, described electromagnet is provided in a side of a side of each swing arm, and below the supporting base of swing arm one end for the support rod body pouring weight, be provided with equally with aforementioned energising after the magnet of electromagnet same magnetic, when swing arm is driven to the rotating disk peak by rotating disk, the electromagnet conduction, the effect that described two magnet repel each other because of magnetic, and make swing arm one end upwards promote the pouring weight of its support.

7. power plant according to claim 1, it is characterized in that: described oscillating control device is to be located at turning on the rotating disk for a plurality of, described turning is subjected to extraneous drive and rotate, described turning comprises a magnetic and a nonmagnetic material, wherein said nonmagnetic material is a side that is combined in described magnetic, and below the supporting base of swing arm one end for the pouring weight that supports the described body of rod, be provided with magnet equally with aforementioned magnetic same magnetic, when described magnetic of turning turns to the supporting base below, magnetic and magnet form the effect that magnetic is repelled each other, and make swing arm one end upwards promote the pouring weight of its support.

8. power plant according to claim 7 is characterized in that: described turning is that driving by a motor is rotated.

9. power plant according to claim 1, it is characterized in that: be provided with a plurality of springs on the described rotating disk in addition, described spring is provided in a side of a side of each body of rod, when making the body of rod be rocked to an angle, but the described body of rod is pressing spring and make described spring present compressed state just, and when the body of rod can be swung by the swing arm pushing tow, described compressed spring was no longer oppressed because of the body of rod, and pop up, and then quicken the swing of the body of rod.

10. power plant according to claim 1, it is characterized in that: the body of rod on the described rotating disk is to have 8, it is to be arranged on described rotating disk two sides upper and lower, left and right four direction on every side respectively in twos, and described swing arm is 8, is located at a side of the body of rod equally respectively.