WO2022105538A1

WO2022105538A1 - Elastic power generation apparatus and application of said apparatus

Info

Publication number: WO2022105538A1
Application number: PCT/CN2021/125762
Authority: WO
Inventors: 曹进江
Original assignee: 曹进江
Priority date: 2020-11-18
Filing date: 2021-10-22
Publication date: 2022-05-27
Also published as: CN112234764A

Abstract

The present application relates to an elastic power generation apparatus and an application of said apparatus. The elastic power generation apparatus comprises a suspension unit that applies pressure to a rotor; the rotor is suspended below the suspension unit, a drive apparatus drives the rotor to rotate, and the rotor drives the power generation apparatus to generate electricity. The rotor comprises a plurality of rotating discs arranged coaxially at intervals, and a power conversion unit is provided on the circumferential surface of each rotating disc; the plurality of rotating discs are sleeved over the same rotating shaft, the rotating discs are in linkage with the drive apparatus, and the rotating shaft is in linkage with the power generation apparatus. The power conversion unit comprises a rod body provided on the rotating disc and being capable of displacing, and the outer end of the rod body is integrally connected to a base; the side of the rod body is provided with an inclined connecting rod, the inclined connecting rod is in linkage with a driven wheel, and the driven wheel is sleeved over the rotating shaft by means of an one-way bearing. In the present application, a plurality of power conversion units sequentially drive the rotating shaft and drive the power generation apparatus to generate electricity, and the generated electric energy can be stored in a power storage unit for use, thereby achieving the purpose of converting potential energy into electric energy during rotation of the rotor.

Description

An elastic power generating device and application of the device

technical field

The present application relates to a power generating device, in particular to an elastic power generating device, and also to an application utilizing the device.

Background technique

With the development of society, the demand for energy is increasing. Although traditional energy is still the main component of energy, with the continuous exploitation of traditional energy, the reduction of reserves, and related environmental problems, it is necessary to enhance the pollution-free new energy such as electric power and wind energy. Development and utilization of energy to replace traditional energy with new energy in some fields.

The new energy that people often come into contact with is the field of automobile power. With the gradual development and upgrading of new energy vehicles, especially the rational use of electric energy in electric vehicles, the conversion of mechanical energy to electric energy has achieved certain technical accumulation in this field.

Most of the energy conversion devices in the prior art use the main power shaft to separate a part of the power, and the separated power is then converted into electrical energy through the power generation device. There is power loss, but it actually increases the overall energy waste.

SUMMARY OF THE INVENTION

The purpose of this application is to propose an elastic power generation device that can reasonably convert potential energy into electrical energy; on the basis of this purpose, another purpose of this application is to propose an application of the elastic power generation device.

The purpose of this application is to achieve the following: an elastic power generation device, including a suspension unit that presses the rotor, a rotor is suspended under the suspension unit, the driving device drives the rotor to rotate, and the rotor drives the power generation device to generate electricity; the rotor includes a plurality of Coaxially spaced turntables, a power conversion unit is arranged on the circumferential surface of each turntable; the several turntables are sleeved on the same rotating shaft, the turntables are linked with the driving device, and the rotating shaft is linked with the power generation device;

The power conversion unit includes a displaceable rod body disposed on the turntable, and the outer end of the rod body is integrally connected with a base; the rod body side is provided with an oblique connecting rod, and the oblique connecting rod is linked with a driven wheel, and the driven wheel passes through the single rod. The bearing is sleeved on the aforementioned rotating shaft.

Both ends of the rotating shaft are rotatably connected to the inner frame and extend out of the inner frame. The inner frame is suspended in the outer frame by the suspension unit, and a pressure bearing roller is arranged at the bottom of the outer frame, and the pressure bearing roller rolls with the base of the aforementioned power conversion unit. contact; the outer frame is a frame structure, including a top beam and two side walls, limit holes are set on the two side walls, and both ends of the aforementioned rotating shaft are extended from the limit holes; a power output wheel is provided on the extended end of the rotating shaft; Several screw holes are opened on the top beam.

The suspension unit includes a number of springs arranged at the top beam of the outer frame, and the lower ends of the springs are connected to the top of the inner frame; the suspension unit also includes a pressure plate arranged under the beam at the top of the outer frame, and the lower end surface of the pressure plate is connected to the upper end of the spring Fixed connection, the lower end of the spring is connected to the top of the inner frame; the upper surface of the pressure plate is fixedly connected with a screw rod, the upper part of the screw rod is screwed and extended with the screw hole at the top beam of the outer frame, and a hand wheel is installed on the extended part.

The rotor also includes a power input wheel sleeved on the power input end of the rotating shaft, and a power output wheel at the power output end, the power input wheel is driven by the driving device, and the power output wheel is linked with the power input end of the power generating device; inside the outer frame Or a plurality of power storage units are arranged outside, and the power storage units are connected to the current output terminal circuit of the power generating device.

Several power input rods are arranged on the circumferential surface of the power input wheel, and the power input rods are connected to the adjacent turntables and drive the turntables to rotate; 2; A bearing is arranged between the turntable, the power input wheel and the rotating shaft.

The power conversion unit includes a gear that is sleeved on the outside of the rotating shaft through a one-way bearing, a guide ring fixed on the circular surface of the turntable, and a socket is arranged on the circular surface of the turntable inside the guide ring; the rod body is inserted into the guide ring; A base is integrally connected, and a plug is arranged on the upper end of the rod body, and the plug is inserted into the aforementioned socket; a return spring is arranged between the plug and the socket; The rack is meshed and linked with the aforementioned gear; a limit pile is arranged on the side of the rack; the lower end surface of the base is an arc surface, and a non-slip rubber layer is arranged on it.

The power conversion unit includes a cam sleeved on the outside of the rotating shaft through a one-way bearing, a guide ring fixed on the circular surface of the turntable, and a socket is arranged on the circular surface of the turntable inside the guide ring; the rod body is inserted into the guide ring; at the lower end of the rod body The base is integrally connected, and the upper end of the rod body is provided with a plug, which is inserted into the aforementioned socket; a return spring is provided between the plug and the socket; an oblique connecting rod is connected to the side of the rod body, and the inner end of the oblique connecting rod is hingedly linked with the aforementioned cam; The lower end surface of the base is a circular arc surface, and a non-slip rubber layer is arranged on it.

A support ring is connected between each turntable, a through hole is opened on the support ring, the aforesaid rod body protrudes from the through hole, and the extension end is integrally connected with a base; a cavity is formed between the support ring and the turntable, and a cavity is formed between the support ring and the turntable. The turntable is provided with oil filling holes, the rightmost turntable is not provided with oil filling holes, and the other turntables are provided with circulation holes.

An application of an elastic power generation device, comprising the following steps:

Step 1. Installation of the rotor: According to

claims

1 and 2, the inner frame is suspended in the outer frame through the suspension unit, and the rotor is installed in the inner frame, the power input end of the rotor is linked with the driving device, and the power output end is connected with the generator. device linkage;

Step 2: Adjustment of pressure: According to claim 3, the height of the pressure plate is adjusted by the handwheel, thereby adjusting the pressure of the spring on the inner frame, that is, adjusting the height of the rotor, so that the rotating shaft in the rotor is at the lowermost end of the limit hole ;

Step 3. Power generation: drive the turntable of the rotor to rotate through the driving device, so that the power conversion unit on the turntable is pressed by the pressure bearing roller in turn, and the base of the power conversion unit is pressed to move inward, thereby driving the rod body and the oblique connecting rod to move upwards. Then, the driven wheel is driven to rotate, and the rotating shaft is driven to rotate; the subsequent power conversion units are pressurized in turn, drive the rotating shaft in turn, convert the pressure into a continuous driving force for the rotating shaft, and finally drive the power generation device to generate electricity continuously;

Step 4. Storage and use of electrical energy: The power generation device transmits the electrical energy to the storage unit for storage, and the electrical energy in the storage unit can be used by the driving device or by an external load.

Further, the outermost turntable is provided with a main power output wheel that rotates with the turntable; the main power output wheel provides the power of the driving device to the outside.

Due to the implementation of the above technical solutions, the present application drives the rotating shaft in turn through several power conversion units, and drives the power generation device to generate electricity, and the generated electric energy can be stored in the power storage unit for use, thereby realizing the conversion of potential energy into electric energy during the rotation of the rotor. the goal of.

The overall structure of the application is reasonable, and the failure rate is very low. During the rotation process, the power of the power source is not used to generate electricity, but the rotor is used to press the power conversion unit during the rotation process and drive the power generation device to generate electricity. It is bound to lose a part of the power output, but on the whole, the power lost is far less than the electric energy converted by the power conversion unit, so that the conversion of electric energy can be carried out under the premise that the power input and output are little affected, and the energy conversion efficiency is high. .

Description of drawings

The specific structure of the present utility model is given by the following drawings and examples:

Fig. 1 is the structural representation of this application;

Fig. 2 is the side view structure schematic diagram of the present application;

Fig. 3 is the structural representation of rotor;

4 is a schematic structural diagram of a power conversion device with a rack drive;

Figure 5 is a schematic structural diagram of a power conversion device driven by an eccentric wheel;

Figure 6 is a schematic structural diagram of a power conversion unit with a rack drive;

Figure 7 is a schematic structural diagram of a power conversion unit with an eccentric drive;

Figure 8 is an enlarged view of part A;

Figure 9 is a schematic diagram of the rotor structure with a support ring.

Legend: 1. Outer frame, 2. Suspension unit, 3. Rotor, 3-1, Power input rod, 3-2, Turntable, 3-3, Connecting rod, 3-4, Power conversion unit, 3-411, Limit Bit post, 3-412, rack, 3-413, inclined connecting rod, 3-414, rod body, 3-415, base, 3-416, guide ring, 3-417, return spring, 3-418, plug, 3-419, socket, 3-420, one-way bearing, 3-421, gear, 3-422, cam, 3-5, spacer ring, 3-6, oil hole, 3-7, support ring, 4, shaft , 5, pressure roller, 6, inner frame, 7, power storage unit, 8, power generation device, 9, drive device, 10, power output wheel, 11, limit hole, 12, power input wheel.

Detailed ways

The present invention is not limited by the following examples, and specific implementations can be determined according to the technical solutions and actual conditions of the present invention.

Embodiment 1: As shown in Figures 1 to 8, an elastic power generation device includes a suspension unit 2 that presses the rotor 3, the rotor 3 is suspended under the suspension unit 2, the driving device 9 drives the rotor 3 to rotate, and the rotor 3 drives The power generating device 8 generates electricity; the rotor 3 includes a plurality of turntables 3-2 arranged at intervals coaxially, and a power conversion unit 3-4 is arranged on the circumferential surface of each turntable 3-2; the plurality of turntables 3-2 are set in On the same rotating shaft 4, the rotating disc 3-2 is linked with the driving device 1, and the rotating shaft 4 is linked with the power generating device 6;

The power conversion unit 3-4 includes a displaceable rod body 3-414 arranged on the turntable 3-2, the outer end of the rod body 3-414 is integrally connected with a base 3-415; the side of the rod body 3-414 is provided with an oblique connecting rod 3-413, the oblique connecting rod 3-413 is linked with a driven wheel, and the driven wheel is sleeved on the aforementioned rotating shaft 4 through a one-way bearing 3-420.

Further, as shown in FIGS. 1 and 2 , both ends of the rotating shaft 4 are rotatably connected to the inner frame 6 and extend out of the inner frame 6 . There is a pressure bearing roller 5, and the pressure bearing roller 5 is in rolling contact with the base 3-415 of the aforementioned power conversion unit 3-4.

Further, the outer frame 1 is a frame structure, including a top beam and two side walls. Limit holes 11 are set on the two side walls. Both ends of the aforementioned rotating shaft 4 are extended from the limit holes; PTO wheel 10 . Several screw holes are opened on the top beam. The limit hole 11 limits the up and down movement distance of the rotating shaft 4, that is, the up and down movement distance of the rotor 3, that is, the force of the suspension unit 2 to exert pressure on the rotor, so as to prevent the rotor 3 from contacting the bearing due to excessive pressure. The friction force of the pressure roller 5 is too large and the kinetic energy is lost too much.

Further, a pressure bearing roller 5 is arranged at the bottom of the outer frame 1 , and the lower circumference of the base 3 - 415 is in rolling contact with the upper circumference of the pressure bearing roller 5 .

Preferably, two pressure bearing rollers 5 are arranged side by side, forming a triangular arrangement with the rotor 3 . Both sides of the lower circumference of the base 3-415 are in rolling contact with the upper circumferences of the two bearing rollers 5 respectively.

Further, the suspension unit 2 includes a plurality of springs arranged at the top beam of the outer frame 1 , and the lower ends of the springs are connected to the top of the inner frame 6 . The spring provides downward pressure.

Further, the suspension unit 2 also includes a pressure plate arranged under the top beam of the outer frame 1, the lower end of the pressure plate is fixedly connected to the upper end of the spring, and the lower end of the spring is connected to the top of the inner frame 6; The upper part is screwed with the screw hole at the top beam of the outer frame 1 and protrudes, and a hand wheel is installed on the protruding part. By turning the hand wheel, the expansion and contraction of the screw can be adjusted, thereby adjusting the height of the pressure plate, and then controlling the pressure exerted by the spring on the inner frame 6, that is, the pressure exerted on the rotor 3 is controlled.

As shown in Figures 1, 2 and 3, the rotor 3 further includes a power input wheel 12 sleeved on the power input end of the rotating shaft 4, and a power output wheel 10 at the power output end. The power input wheel 12 is driven by the driving device 9, so The power output wheel 10 is linked with the power input end of the power generating device 8 . The driving device 9 is an electric motor or an internal combustion engine, and the power generating device 8 is a generator.

Further, a plurality of power storage units 7 are arranged inside or outside the outer frame 1 , and the power storage units 7 are circuitly connected to the current output terminal of the power generating device 8 .

A main power output wheel is set on the turntable 3-2 on the power output end side of the rotating shaft 4. As a whole main power output end, it can be externally connected to a load and used as a power source of the load to provide external rotation force. The specific connection structure between the external load and the main power output wheel is not the invention of the present application, and reference may be made to the connection method in the prior art, which is not described in detail in this application.

Further, a plurality of power input rods 3-1 are arranged on the circumferential surface of the power input wheel 12, and the power input rods 3-1 are connected with the adjacent turntable 3-2 and drive the turntable 3-2 to rotate; Each turntable 3-2 is connected and linked by a connecting rod 3-3, and the connecting rod 3-3 runs through each turntable 3-2.

Further, bearings are provided between the turntable 3-2, the power input wheel 12 and the shaft 4, so that the turntable 3-2 and the power input wheel 12 do not directly drive the shaft 4.

As shown in FIGS. 4 and 5 , the projections of the power conversion units 3-4 on the circular surface of each turntable 3-2 on any turntable 3-2 do not overlap. The projections of the plurality of power conversion units 3-4 are evenly distributed on the same circular plane with the center of the projected turntable 3-2 as the center point.

As shown in FIG. 6 , the power conversion unit 3-4 includes a driven wheel that is sleeved on the outside of the rotating shaft 4 through a one-way bearing 3-420. The driven wheel is a gear 3-421. A socket 3-419 is arranged on the circular surface of the turntable 3-2; a base 3-415 is integrally connected to the lower end of the rod body 3-414, and a return spring 3-417 is arranged between the upper end of the rod body 3-414 and the socket 3-419; A rack 3-412 is connected to the side surface of the rod body 3-414, and the rack 3-412 is meshed with the aforementioned gear 3-421.

As a further optimization of the present application, the power conversion unit 3-4 includes a gear 3-421 sleeved on the outside of the rotating shaft 4 through a one-way bearing 3-420, and a guide ring 3- 416, a socket 3-419 is arranged on the circular surface of the turntable 3-2 inside the guide ring 3-416; the rod body 3-414 is inserted into the guide ring 3-416; A plug 3-418 is arranged on the upper end of the rod body 3-414, and the plug 3-418 is inserted into the aforementioned socket 3-419; a return spring 3-417 is provided between the plug 3-418 and the socket 3-419; The side surface of 414 is connected with an oblique connecting rod 3-413, the inner end of the oblique connecting rod 3-413 is connected with a rack 3-412, and the rack 3-412 is meshed and linked with the aforementioned gear 3-421.

Further, a limit pile 3-411 is arranged on the side of the rack 3-412; the limit pile 3-411 is arranged so that the rack 3-412 is closely meshed with the gear 3-421 when it is moved under force to prevent the two from disengaging. and affect the transmission.

Further, the lower end surface of the base 3-415 is a circular arc surface, on which a non-slip rubber layer is provided; the surface of the aforementioned pressure bearing roller 5 is also provided with a non-slip rubber layer.

As shown in FIG. 9 , a support ring 3-7 is connected between each turntable 3-2, a through hole is formed on the support ring 3-7, and the aforementioned rod body 3-414 protrudes from the through hole, and the extension ends are integrated Base 3-415 is attached.

A cavity is formed between the support ring 3-7 and the turntable 3-2. The left turntable 3-2 is provided with an oil filling hole, the rightmost turntable 3-2 is not provided with an oil filling hole, and the other turntables 3-2 are provided with oil filling holes. There are flow holes.

Before working, lubricating oil can be injected into the cavity between the support ring 3-7 and the turntable 3-2 through the oil injection hole, and the lubricating oil can flow into each said space through the circulation hole, thereby reducing the wear of various components in the rotor 3 .

Embodiment 2: As shown in FIG. 6, the power conversion unit 3-4 includes a cam 3-422 sleeved on the outside of the rotating shaft 4 through a one-way bearing 3-420, and a guide ring fixed on the circular surface of the turntable 3-2. 3-416, a socket 3-419 is provided on the circular surface of the turntable 3-2 inside the guide ring 3-416; the rod body 3-414 is inserted into the guide ring 3-416; 415, a plug 3-418 is provided on the upper end of the rod body 3-414, and the plug 3-418 is inserted into the aforementioned socket 3-419; a return spring 3-417 is provided between the plug 3-418 and the socket 3-419; An oblique connecting rod 3-413 is connected to the side surface of 3-414, and the inner end of the oblique connecting rod 3-413 is hingedly linked with the aforementioned cam 3-422.

Before the work of this application, the pressure on the rotor 3 is adjusted by the handwheel. After the adjustment is completed, the driving device 9 is started, and the driving device 9 drives the power input wheel 12 to rotate, and the power input wheel 12 drives the adjacent turntable 3-2. Rotation, because the turntables 3-2 are connected through the connecting rod 3-3, thus driving the turntables 3-2 to rotate at the same speed.

During the rotation of the turntable 3-2, only one power conversion unit 3-4 on the turntable 3-2 is in contact with the pressure bearing roller 5, and the base 3-4 of the power conversion unit 3-4 in contact with the pressure bearing roller 5 415 is pressed to move inward, thereby driving the rod body 3-414 and the rack 3-412 to move upward, and then driving the gear 3-421 to rotate, and the gear 3-421 forms the drive to the rotating shaft 4 . By analogy, the subsequent power conversion units 3-4 are pressurized in sequence, and drive the rotating shaft 4 in sequence, so as to convert the pressure into a continuous driving force for the rotating shaft 4, and finally drive the power generating device 8 to generate electricity continuously.

When the pressured power conversion unit 3-4 is separated from the pressure bearing roller 5, the base 3-415 and the rod body 3-414 protrude to the outside under the action of the return spring 3-417, waiting for the next pressure to drive the rotating shaft . During the extension process of the base 3-415 and the rod body 3-414, the rack 3-412 will be driven to move downward, and the gear 3-421 will rotate in the opposite direction, but under the blocking of the one-way bearing 3-420, the gear 3- The reverse rotation of 421 will not drive the rotation shaft 4 to reverse rotation.

The specific structure and principle of the one-way bearing 3-420 are in the prior art, and it is a kind of bearing that can rotate freely in one direction and is locked in the other direction. One-way bearings are also called overrunning clutches, but they are named according to different industries and different functions. The metal shell of the one-way bearing contains many rollers, needles or balls, and the shape of the rolling seat makes it only roll in one direction, and will produce a lot of resistance in the other direction and cannot roll. Therefore, the specific structure of the one-way bearing 3-420 is not described in detail here.

In the same way, when the driven wheel is the cam 3-422, the working process is similar to the working process of the aforementioned gear, and is driven by the oblique link 3-413. Rotate back and forth, thereby driving the rotating shaft 4 to rotate.

When the application is used, the pressure bearing roller 5 may not be provided. At this time, it is necessary to adjust the distance between the rotor 3 and the ground to ensure that when the rotor 3 rotates, the base 3-415 of the power conversion unit 3-4 can be in contact with the ground and be supported by the ground. Press to move inward. However, it is easy to damage the surface of the base 3-415 when it is in contact with the ground. , external displacement, so that the driven wheel rotates back and forth, which reduces the driving effect of the rotating shaft 4, so this solution is not the optimal solution.

Step 1. Installation of the rotor 3: As mentioned above, the inner frame 6 is suspended in the outer frame 1 through the suspension unit 2, and the rotor 3 is installed in the inner frame 6. The power input end of the rotor 3 is linked with the driving device 9, and the power The output end is linked with the power generating device 8;

Step 2, pressure adjustment: adjust the height of the pressure plate through the hand wheel, thereby adjusting the pressure of the spring on the inner frame 6, that is, adjusting the height of the rotor 3, so that the rotating shaft 4 in the rotor 3 is at the lowermost end of the limit hole 11;

Step 3. Power generation: drive the turntable 3-2 of the rotor 3 to rotate through the driving device 9, so that the power conversion unit 3-4 on the turntable 3-2 is pressed by the pressure roller 5 in turn, and the base 3 of the power conversion unit 3-4 is pressed. -415 is pressed to move inward, thereby driving the rod body 3-414 and the oblique link 3-413 to move upward, and then driving the driven wheel to rotate, driving the rotating shaft 4 to rotate; the subsequent power conversion units 3-4 are pressed in turn and drive the rotating shaft in turn 4. Convert the pressure into a continuous driving force for the rotating shaft 4, and finally drive the power generation device 8 to generate electricity continuously;

Step 4. Storage and use of electrical energy: The power generation device 8 transmits the electrical energy to the storage unit 7 for storage, and the electrical energy in the storage unit 7 can be used by the driving device 9 or by an external load.

Further, the outermost turntable 3-2 is provided with a main power output wheel that rotates with the turntable 3-2.

In the present application, the power of the driving device 9 can be provided outward through the main power output wheel on the rotor 3, and the power conversion unit 3-4 in the rotor 3 converts the pressure provided by the suspension unit 2 into the driving force for the rotating shaft 4, and then drives the The power generating device 8 generates electricity, and the generated electric energy can be used by the driving device 9 , which can reduce the energy consumption of the driving device 9 to the greatest extent.

The above description is only an example for clearly explaining the present application, and is not intended to limit the embodiments of the present application. Any obvious changes or changes derived from the technical solutions of the present application are still within the scope of protection of the present application.

Claims

An elastic power generating device is characterized in that: it includes a suspension unit that applies pressure to the rotor, the rotor is hung under the suspension unit, the driving device drives the rotor to rotate, and the rotor drives the power generating device to generate electricity; the rotor includes a plurality of coaxially spaced The turntable, a power conversion unit is arranged on the circumferential surface of each turntable; the several turntables are sleeved on the same rotating shaft, the turntable is linked with the driving device, and the rotating shaft is linked with the power generating device;

The power conversion unit includes a displaceable rod body disposed on the turntable, and the outer end of the rod body is integrally connected with a base; the rod body side is provided with an oblique connecting rod, and the oblique connecting rod is linked with a driven wheel, and the driven wheel passes through the single rod. The bearing is sleeved on the aforementioned rotating shaft.
The elastic power generation device according to claim 1, wherein the two ends of the rotating shaft are rotatably connected to the inner frame and extend out of the inner frame, the inner frame is suspended in the outer frame by a suspension unit, and a bottom of the outer frame is provided with a The pressure bearing roller, which is in rolling contact with the base of the aforementioned power conversion unit; the outer frame is a frame structure, including a top beam and two side walls, with limit holes on the two side walls, and the two ends of the aforementioned rotating shaft are limited by the limit The hole protrudes; the protruding end of the rotating shaft is provided with a power output wheel; and a number of screw holes are opened on the top beam.
The elastic power generation device according to claim 2, wherein: the suspension unit includes a plurality of springs arranged at the top beam of the outer frame, and the lower ends of the springs are connected to the top of the inner frame; the suspension unit further includes a set of springs. The pressure plate under the top beam of the outer frame, the lower end of the pressure plate is fixedly connected with the upper end of the spring, and the lower end of the spring is connected with the top of the inner frame; the upper surface of the pressure plate is fixedly connected with a screw, and the upper part of the screw is screwed with the screw hole at the top beam of the outer frame and Extend, and a handwheel is installed on the extended part.
The elastic power generation device according to claim 3, wherein the rotor further comprises a power input wheel sleeved on the power input end of the rotating shaft, a power output wheel at the power output end, and the power input wheel is driven by the driving device, The power output wheel is linked with the power input end of the power generating device; a plurality of power storage units are arranged inside or outside the outer frame, and the power storage units are circuitly connected to the current output end of the power generating device.
An elastic power generating device as claimed in claim 4, characterized in that: a main power output wheel is arranged on the turntable on the power output end side of the rotating shaft as a whole main power output end.
The elastic power generating device as claimed in claim 4, wherein a plurality of power input rods are arranged on the circumferential surface of the power input wheel, and the power input rods are connected with the adjacent turntable and drive the turntable to rotate ; Each turntable is connected and linked by a connecting rod, and the connecting rod runs through each turntable 3-2; a bearing is arranged between the turntable, the power input wheel and the rotating shaft.
An elastic power generating device according to claim 1 or 2 or 4 or 5 or 6, characterized in that: the power conversion unit comprises a gear sleeved on the outside of the rotating shaft through a one-way bearing, and a gear fixed on the circular surface of the turntable Guide ring, a socket is arranged on the circular surface of the turntable inside the guide ring; the rod body is inserted into the guide ring; a base is integrally connected to the lower end of the rod body, and a plug is arranged on the upper end of the rod body, and the plug is inserted into the aforementioned socket; between the plug and the socket A reset spring is provided; an oblique connecting rod is connected to the side of the rod body, and a rack is connected to the inner end of the oblique connecting rod, and the rack is meshed and linked with the aforementioned gear; a limit pile is arranged on the side of the rack.
An elastic power generating device according to claim 1 or 2 or 4 or 5 or 6, wherein the power conversion unit comprises a cam sleeved on the outside of the rotating shaft through a one-way bearing, and a cam fixed on the circular surface of the rotating disc. Guide ring, a socket is arranged on the circular surface of the turntable inside the guide ring; the rod body is inserted into the guide ring; a base is integrally connected to the lower end of the rod body, and a plug is arranged on the upper end of the rod body, and the plug is inserted into the aforementioned socket; between the plug and the socket A return spring is provided; an oblique connecting rod is connected to the side of the rod body, and the inner end of the oblique connecting rod is hingedly linked with the aforementioned cam.
The elastic power generating device according to claim 7, wherein the lower end surface of the base is a circular arc surface, and a non-slip rubber layer is arranged on it.
The elastic power generating device according to claim 8, wherein the lower end surface of the base is a circular arc surface, and a non-slip rubber layer is arranged thereon.
An elastic power generating device as claimed in claim 7, characterized in that a support ring is connected between each turntable, a through hole is opened on the support ring, the rod body protrudes from the through hole, and the protruding ends are integrally connected There is a base; a cavity is formed between the support ring and the turntable, the leftmost turntable is provided with an oil filling hole, the rightmost turntable is not provided with an oil filling hole, and the other turntables are provided with circulation holes.
The elastic power generating device according to claim 8, wherein a support ring is connected between the turntables, a through hole is formed on the support ring, the rod body protrudes from the through hole, and the extension ends are integrally connected There is a base; a cavity is formed between the support ring and the turntable, the leftmost turntable is provided with an oil filling hole, the rightmost turntable is not provided with an oil filling hole, and the other turntables are provided with circulation holes.
An application of an elastic power generation device, characterized in that it comprises the following steps:

Step 1. Installation of the rotor: According to claims 1 and 2, the inner frame is suspended in the outer frame through the suspension unit, and the rotor is installed in the inner frame, the power input end of the rotor is linked with the driving device, and the power output end is connected with the power generator. device linkage;

Step 2: Adjustment of pressure: According to claim 3, the height of the pressure plate is adjusted by the handwheel, thereby adjusting the pressure of the spring on the inner frame, that is, adjusting the height of the rotor, so that the rotating shaft in the rotor is at the lowermost end of the limit hole ;

Step 3. Power generation: drive the turntable of the rotor to rotate through the driving device, so that the power conversion unit on the turntable is pressed by the pressure bearing roller in turn, and the base of the power conversion unit is pressed to move inward, thereby driving the rod body and the oblique connecting rod to move upwards. Then, the driven wheel is driven to rotate, and the rotating shaft is driven to rotate; the subsequent power conversion units are pressurized in turn, drive the rotating shaft in turn, convert the pressure into a continuous driving force for the rotating shaft, and finally drive the power generation device to generate electricity continuously;

Step 4. Storage and use of electrical energy: The power generation device transmits the electrical energy to the storage unit for storage, and the electrical energy in the storage unit can be used by the driving device or by an external load.
The application of an elastic power generating device according to claim 13, characterized in that: the outermost turntable is provided with a main power output wheel that rotates with the turntable; the main power output wheel provides the power of the driving device to the outside.