阅读说明：本技术 浮力发电的一种装置 (Buoyancy power generation device ) 是由 周万法 于 2019-03-26 设计创作，主要内容包括：浮力发电的一种装置,它是将浮力发电的装置安装在载体上,以杠杆两端的升降压迫浮力器来运用浮力发电。它包括主动力(10)、辅动力(汽油机或小型柴油机)、主动轮(4)和从动轮(6)、杠杆及杠杆支架、支点(5)、连接杆(2)和(9),凹形轴(7)。它是由辅助动力拉动主动轮(4)转动,主动轮(4)转动而使杠杆升降；由阻力臂的连接杆拉动从动轮(6)转动,由从动轮的马达(皮带或链子)带动发电机转盘的转动而发出电来的。这种装置,它充分运用浮力,要求条件不高,程序简便,工程投资不大、建设周期短、发电成本低、机组启动快,调节容易；这种浮力发电装置,实用范围广,能够解决根本性的用电问题,是一种最好的节能环保的发电。(The buoyancy power generation device is arranged on a carrier, and the buoyancy power generation is carried out by using the lifting and pressing buoyancy devices at the two ends of a lever. The device comprises a main power (10), an auxiliary power (a gasoline engine or a small diesel engine), a driving wheel (4), a driven wheel (6), a lever bracket, a fulcrum (5), connecting rods (2) and (9) and a concave shaft (7). The auxiliary power pulls the driving wheel (4) to rotate, and the driving wheel (4) rotates to enable the lever to lift; the driven wheel (6) is pulled to rotate by the connecting rod of the resistance arm, and the motor (belt or chain) of the driven wheel drives the rotating disc of the generator to rotate so as to generate electricity. The device fully utilizes buoyancy, has low requirement conditions, simple and convenient procedure, small engineering investment, short construction period, low power generation cost, quick unit starting and easy adjustment; the buoyancy power generation device has wide practical range, can solve the fundamental power utilization problem, and is the best energy-saving and environment-friendly power generation.)

1. A buoyancy power generation device is characterized in that: the buoyancy power generation device is arranged on a carrier (11), the buoyancy and the power required by the power generation of a generator are skillfully used and simultaneously act on the tail end of a resistance arm of a lever, the two forces are balanced, the buoyancy device (10) continuously sinks and floats under the lifting and pressing of the resistance arm of the lever, strong lifting force generated by continuous sinking and floating of the buoyancy device is directly acted on the resistance arm of the lever, a connecting rod (9) of the resistance arm of the lever pulls a driven wheel (6) to rotate under the lifting and lowering action of the resistance arm of the lever, the driven wheel (6) rotates, and a motor (a belt or a chain) of the driven wheel (6) pulls a generator turntable to rotate to generate electricity; namely, the power arm of the lever rises to cause the resistance arm to descend, and the resistance arm descends to cause the buoyant device (10) to sink; therefore, the power arm continuously rises and falls, the resistance arm also continuously rises and falls, the buoyancy device (10) continuously sinks and floats to generate strong lifting force to directly act on the resistance arm, the connecting rod (9) continuously pulls the driven wheel (6) to rotate along with the continuous rising and falling of the resistance arm, and the motor (belt or chain) of the driven wheel (6) pulls the generator turntable to rotate to generate electricity.

2. An apparatus for buoyant power generation according to claim 1, further characterized by: the auxiliary power (diesel engine or gasoline engine) pulls the driving wheel (4) to rotate, and the connecting rod (2) pulls the power arm to lift through the rotation of the driving wheel (4); the power arm continuously and rapidly ascends and descends, the resistance arm also pulls the buoyant device (10) to ascend and descend, the connecting rod (9) of the resistance arm also pulls the driven wheel (6) to rapidly rotate, and the motor (belt or chain) of the driven wheel (6) drives the generator turntable to rotate to generate electricity.

3. An apparatus for buoyant power generation according to claim 1, further characterized by: the device is characterized in that a connecting rod (9) at the tail end of a resistance arm of a lever is connected to a concave part of a concave shaft (7) of a driven wheel (6), the lower part of the tail end of the resistance arm of the lever is connected to a buoyant device (10) in a bearing mode, the tail end of a power arm of the lever is connected to the concave part of a concave shaft (3) of a driving wheel (4) in a connecting rod (2), the driving wheel (4) is pulled to rotate by the rotation of auxiliary power, the power arm is pulled to lift by the connecting rod (2), the rotation of the driven wheel (6) is pulled by the connecting rod (9) of the resistance arm of the lever through the lifting of the two ends of the lever, and then the rotation of a.

4. An apparatus for buoyant power generation according to claim 1, further characterized by: the top end of a steel column of the buoyancy device is connected to the tail end of a resistance arm of a lever in a bearing mode, the tail end of the resistance arm is connected to a driven wheel (6) through a connecting rod (9) in a bearing mode, power generated by a generator is enabled to act with the floating force of the buoyancy device through the connecting rod (9) of the driven wheel (6), the driven wheel (6) is pulled to rotate through ascending and descending of the resistance arm, and a rotary disc of the generator is pulled to rotate through a belt of the driven wheel (6).

5. An apparatus for buoyant power generation according to claim 1, further characterized by: the auxiliary power is used for starting a driving wheel (4) connected with the power arm to rotate, a connecting rod (2) is arranged at the concave part of a concave shaft (3) of the driving wheel (4), one end of the connecting rod is connected to the concave part in a bearing mode, the other end of the connecting rod (2) is connected to the tail end of the power arm in a connecting mode according to a connecting rod of a sewing machine, and the power arm is pulled to lift through the rotation of the driving wheel (4).

6. An apparatus for buoyant power generation according to claim 1, further characterized by: one end of the connecting rod is connected to the concave shaft (7) of the driven wheel (6) and the concave shaft (3) of the driving wheel (4) in a bearing mode, the other end of the connecting rod is connected to the two ends of the lever respectively in a mode of a sewing machine pedal and the connecting rod, the connecting rod can lightly pull the driven wheel (6) to rotate through the lifting of the two ends of the lever, and a motor (a belt or a chain) of the driven wheel (6) pulls a rotary disc of the generator to rotate.

7. An apparatus for buoyant power generation according to claim 1, further characterized by: the concave shape of the concave shaft (7) of the driven wheel (6) is rotated to the upper side, namely the buoyancy device is lifted; at the same time, the concave shaft (3) of the driving wheel (4) turns downwards, i.e. the end of the power arm of the lever is lowered to the equilibrium position.

Technical Field

The invention relates to the field of power generation.

Background

The power generation modes in China are various, and generally, the power generation modes are divided into four categories, namely hydroelectric power generation, thermal power generation, wind power generation and nuclear power generation. The hydroelectric generation is the best power generation mode at present in the overall view, although the cost performance is highest, the engineering investment is large, and the construction period is long, in the long run, the hydroelectric generation efficiency is high, the power generation cost is low, the unit is started quickly, the adjustment is easy, and the hydroelectric generation is the best energy-saving and environment-friendly power generation. Due to the high requirements of the conditions for hydroelectric power generation, development of best efforts has been almost reached. In terms of the electric power demand of China, although many power stations of water power, wind power, firepower and nuclear energy and three gorges large hydropower stations exist, the electric power demand of the people is still not met.

In order to meet the demand of the society for developing electricity, buoyancy power generation is researched and developed internationally and domestically, which is an important scientific research project.

at present, as far as our knowledge is known, the buoyancy generator published in foreign countries has the following successively published in China: the buoyancy power generation kinetic energy device hull, the buoyancy power generation kinetic energy device, the circulating airflow buoyancy kinetic energy power generation device, the buoyancy kinetic energy device, the still water buoyancy kinetic energy device, the buoyancy kinetic energy device and the kinetic energy generation method thereof and the like are researched in the aspect of buoyancy power generation. However, such many buoyancy power generation projects have not been developed and operated widely, but have not been presented in society. Whether the buoyancy power generation can be realized by effective development is still under further research.

In order to further research and develop buoyancy power generation, the pedal of an old sewing machine is lifted, the pedal is lifted by the force of downward stepping of a foot of the sewing machine, so that a connecting rod pulls a rotary table to rotate, and the rotary table rotates to drive the sewing machine to operate; therefore, if the pedal is lifted by force, the connecting rod can pull the rotary table to rotate, and the sewing machine can be driven to operate. The invention is a theoretical basis for generating electricity by using buoyancy, namely, the invention researches and develops the buoyancy electricity generation by using the theory that the connecting rod of the pedal of the sewing machine pulls the turntable and the belt of the turntable pulls the sewing machine to rotate.

the wide application of buoyancy power generation is realized, and multiple experiments are carried out to connect the pedal of the sewing machine with the lever. The purpose of the experiment is to enable two ends of a lever to continuously lift, as long as a rotary table on a power arm of the lever, namely a driving wheel (4), can rotate, the two ends of the lever immediately lift, a resistance arm continuously presses a buoyant device, the rotary table pulled by a connecting rod (9) of the resistance arm, namely a driven wheel (6), rotates through the lifting of the buoyant device, and if the rotary table can rotate, success is achieved. Because the rotating disc, namely the driven wheel (6), rotates, the rotating disc of the generator can be driven to rotate to generate electricity. Since the angles at the two ends are explored, the calculation is difficult, and the calculation is successful after 6 times. The experiment shows that the buoyancy power generation can be completely and widely applied and developed, and the difficult problem of social power utilization can be greatly solved. It can be known from theory and experiment that the buoyancy is used, the assistance is carried out by using extremely small force, and the principle of the lever is applied, so that the larger buoyancy can be successfully used for generating electricity. The buoyancy power generation is simple and convenient in procedure, is beneficial to operation, and can completely replace the minimum investment for obtaining larger profit.

Disclosure of Invention

The invention aims to provide a power device for generating electricity by a generator, which utilizes the interaction of buoyancy and the force required by a turntable for generating electricity by the generator to generate the buoyancy and the power required by the electricity generation of the generator and simultaneously act on a resistance arm so as to offset the two forces, namely the buoyancy is used skillfully, and the buoyancy is changed into the power for generating electricity by the generator; the rotation of the gasoline engine or the small diesel engine pulls the turntable to rotate, the rotation of the turntable pulls the power arm of the lever to lift, the lifting of the two ends of the lever pulls the driven wheel to rotate, the driven wheel rotates to pull the turntable of the generator to rotate to generate electricity, and the buoyancy power generation is skillfully used. A kinetic energy device for buoyancy power generation utilizes extremely small investment to obtain great profit, and solves and makes up a plurality of difficulties in power utilization. The invention is suitable for remote mountainous areas, ships and general villages. A buoyancy power generation device can be used for building one or more power stations which use buoyancy as main power in rivers, lakes, reservoirs or ponds with larger depth, and can also be directly built on ships, thereby saving energy.

the technical scheme for solving the problems is as follows:

A device for generating electricity by buoyancy comprises a connector (1) of a connecting rod and a power arm, a connecting rod (2) of a driving wheel and a concave shaft, a concave shaft (3) of the driving wheel, a driving wheel (4), a fulcrum (5) of a lever, a driven wheel (6), a concave shaft (7) of the driven wheel and a bearing (8) of the connecting rod and the concave shaft; a connecting rod (9) for the driven wheel and the concave shaft; a buoyant device (10); a carrier (11). The buoyancy power generation is characterized in that a kinetic energy device for buoyancy power generation is arranged on a carrier (11), the buoyancy and power required by power generation of a generator are used for acting on the tail end of a lever resistance arm at the same time, the two forces are balanced, the buoyancy device (10) is enabled to sink and float continuously under the lifting and pressing force of the lever resistance arm to generate strong lifting force to directly act on the resistance arm of the lever, a connecting rod (9) of the resistance arm of the lever pulls a driven wheel (6) to rotate under the lifting action of the resistance arm of the lever, the driven wheel (6) rotates, and a motor (a belt or a chain) of the driven wheel (6) pulls a generator turntable to rotate to generate electricity; such an apparatus: the rotation of the driven wheel (6) is pulled by a connecting rod (9) of the resistance arm, and the rotation of the rotating disc of the generator is pulled by a motor (a belt or a chain) of the driven wheel (6) to generate electricity, so that the buoyancy is converted into mechanical energy, and the mechanical energy is converted into electric energy; the device is characterized in that a connecting rod (9) arranged on the tail end of a resistance arm of a lever is connected to a concave part of a concave shaft (7) of a driven wheel (6), the lower part of the tail end of the resistance arm of the lever is connected to a buoyant device (10) in a bearing mode, the tail end of a power arm of the lever is connected to the concave part of a concave shaft (3) of a driving wheel (4) through a connecting rod (2), the driving wheel (4) is pulled to rotate by the rotation of auxiliary power (gasoline engine or diesel engine), the power arm is pulled to lift by the connecting rod (2), the driven wheel (6) is pulled to rotate by the connecting rod (9) of the resistance arm of the lever through the lifting (arc-drawing) of the two ends of the lever, and the rotation of a rotating disc of a.

The carrier can be a ship, a cube or a platform. The carrier can be completely floating on the water surface or can be leaned on the shore at one end. The carrier is used for installing a buoyancy device, a lever bracket, auxiliary power (namely a gasoline engine or a small diesel engine), installing a generator and constructing a factory building;

The buoyancy (buoyancy device) is characterized in that the upper end of the buoyancy (buoyancy device) is a platform body, the top end of the buoyancy (buoyancy device) is a section of steel column, the top end of the steel column is connected to the tail end of a resistance arm of a lever through a bearing, the tail end of the resistance arm is connected to a concave shaft of a driven wheel (6) through a connecting rod (9) through a bearing, power generated by a generator is enabled to act (offset) through the connecting rod (9) of the driven wheel (6) and the floating force of the buoyancy device, the resistance arm rises and falls to pull the driven wheel (6) to rotate, and a belt or a chain of the driven wheel (6) pulls a rotary disc of the generator to rotate to; the lower end of the buoyancy device is a large barrel, about one half of the buoyancy device is hidden in the carrier, about the other half of the buoyancy device is immersed in water, and the buoyancy device can continuously float to generate strong buoyancy after the resistance arm goes up and down.

The auxiliary power is a gasoline engine or a small diesel engine and is used for starting the driving wheel (4) to rotate, the driving wheel (4) is provided with a connecting rod (2) and is connected to the concave part of the concave shaft in a bearing mode, the other end of the connecting rod (2) is connected to the tail end of the power arm in a connecting mode of a stepping plate and the connecting rod of the sewing machine, and the power arm is pulled to lift by the rotation of the driving wheel (4);

The lever bracket has a longer force arm, is arranged on the surface of the carrier or is hidden in the carrier, has longer distance between the two force arms and can be provided with a generator;

The connecting rod is similar to a sewing machine connecting rod, one end of the connecting rod is in a bearing type and is respectively connected to the concave shaft (7) of the driven wheel (6) and the concave shaft (3) of the driving wheel (4), the other end (1) of the connecting rod is respectively connected to two ends of the lever in a mode of a sewing machine pedal and the connecting rod, the connecting rod can lightly pull the driven wheel (6) to rotate through lifting of the two ends of the lever, and a motor (a belt or a chain) of the driven wheel (6) pulls a rotary disc of the generator to rotate so as to generate electricity.

The buoyancy power generation device is characterized in that: the concave shaft (7) of the driven wheel (6) rotates to the top surface, namely the buoyancy device rises, and the resistance arm of the lever inclines upwards; meanwhile, the concave shaft (3) of the driving wheel (4) rotates to the lower side, namely the concave directions of the concave shafts of the driving wheel (4) and the driven wheel (6) are opposite, and the tail end of the power arm of the lever is lowered to the balance position.

The buoyancy power generation device is characterized in that the main power (10), namely the buoyancy, is equal to the power generated by the generator, and the auxiliary power is larger than the calculation result of the lever mechanics, so that the auxiliary power can lightly pull the power arm of the lever to lift, the resistance arm lifts to pull the driven wheel (6) to rotate, and the motor (belt or chain) of the driven wheel (6) pulls the turntable of the generator to rotate.

The buoyancy power generation device is characterized in that the main power and the power required by the power generator are simultaneously acted on the resistance arm, so that the two forces are mutually counteracted, and the lever is in a balanced state.

The buoyancy generating device is characterized in that the lower end of the main power (buoyancy device) is hidden in the carrier, the two force arms can be hidden in the carrier, the position of the auxiliary power (gasoline engine or small diesel engine) is determined according to the driving wheel, the auxiliary power needs to be arranged at a position where the auxiliary power rises to a turntable and can be matched with the power arms, and a generator can be arranged in a gap between the two force arms.

According to the buoyancy power generation device, the sizes of the driven wheel and the driving wheel are accurately calculated according to the mutual relation of the revolution numbers of the driven wheel and the driving wheel; the magnitude of the auxiliary power is also accurately calculated according to the magnitude of the power required by the generator.

The invention is realized by the technical scheme;

1. a buoyancy power generation device is arranged on a carrier (11), power required by buoyancy and power generation of a generator is skillfully applied to the tail end of a resistance arm of a lever at the same time, the two forces are balanced, the buoyancy device (10) continuously sinks and floats under the lifting and pressing of the resistance arm of the lever to generate strong lifting force which is directly applied to the resistance arm of the lever, a connecting rod (9) of the resistance arm of the lever pulls a driven wheel (6) to rotate under the lifting and lowering action of the resistance arm of the lever, the driven wheel (6) rotates, and a motor (a belt or a chain) of the driven wheel (6) pulls a rotating disc of the generator to rotate to generate electricity; namely, the power arm of the lever rises to cause the resistance arm to descend, and the resistance arm descends to cause the buoyant device (10) to sink; therefore, the power arm continuously rises and falls, the resistance arm also continuously rises and falls, the buoyancy device (10) continuously sinks and floats to generate strong lifting force to directly act on the resistance arm, the connecting rod (9) continuously pulls the driven wheel (6) to rotate along with the continuous rising and falling of the resistance arm, and the motor (belt or chain) of the driven wheel (6) pulls the generator turntable to rotate to generate electricity.

2. A device for generating electricity by buoyancy is characterized in that an auxiliary power (a diesel engine or a gasoline engine) pulls a driving wheel (4) to rotate, and a connecting rod (2) pulls a power arm to lift through the rotation of the driving wheel (4); the power arm continuously and rapidly ascends and descends, the resistance arm pulls the buoyancy device to ascend and descend, the connecting rod (9) of the resistance arm also pulls the driven wheel (6) to rapidly rotate, and the motor (belt or chain) of the driven wheel drives the generator turntable to rotate to generate electricity.

Due to the adoption of the technical scheme, the invention has the following advantages:

1. The power generation system has the advantages of low engineering investment, short construction period, low power generation cost, quick set starting and easy adjustment, and is the best energy-saving and environment-friendly power generation.

2. The buoyancy force is used, the procedure is simple and convenient, the operation is facilitated, and the extremely small investment can be completely used for obtaining larger profit.

3. The water resource is fully utilized, the practical range is wide, the requirement condition is not high, and the fundamental problem can be solved.

Drawings

Detailed Description

The following detailed description of the embodiments of the invention refers to the accompanying drawings.

1. as shown in the figure, the buoyancy power generation device comprises a connecting head (1) of a connecting rod and a power arm, a connecting rod (2) of a driving wheel and a concave shaft, a concave shaft (3) of the driving wheel, a driving wheel (4), a fulcrum (5) of a lever, a driven wheel (6), a concave shaft (7) of the driven wheel and a bearing (8) connected with the connecting rod and the concave shaft; a connecting rod (9) for the driven wheel and the concave shaft; a buoyant device (10); a carrier (11).

2. The buoyancy power generation device pulls the two turnplates to rotate by lifting of the two ends of the lever, the connecting rods of the two ends of the lever pull the turnplates to rotate like the connecting rods of a pedal of a sewing machine, the diameter of the driven wheel (6) is accurately calculated and determined by the revolution number of the turnplates of the power generator, and the diameter of the driving wheel (4) is determined by the turnplates of the gasoline engine or the small diesel engine.

3. As shown in the figure, the shape of the carrier (11) is determined according to the requirement, and the carrier can be designed into a square body or a platform body, and can also be directly designed on a ship.

4. As shown in the figure, the size of the buoyancy device (10) is determined according to the power generated by the generator, the lower end of the buoyancy device is a large round barrel, one half of the buoyancy device is hidden in a carrier, the other half of the buoyancy device is immersed in deep water, the upper end of the buoyancy device is a table body, the top end of the buoyancy device is a section of steel column, the top end of the steel column is connected to the tail end of a resistance arm of a lever in a bearing mode, the tail end of the resistance arm is connected through a connecting rod (9), one end of the connecting rod is connected to a concave shaft (7) of a driven wheel (6) through a bearing (8), the other end of the connecting rod is connected to the tail end of the resistance arm in a connecting mode of a stepping plate of a sewing machine and the connecting rod, the driven wheel (6) is pulled; the buoyancy device (10) is connected through the connecting rod from driving wheel (6) the back, and the lever resistance arm has certain pressure to the buoyancy device, and when the lever both ends were constantly gone up and down, the resistance arm oppressed the buoyancy device of lever, will make the continuous heavy buoyancy of buoyancy device and production powerful buoyancy.

5. As shown in the figure, one end of the connecting rods (2) and (9) at the two ends of the lever is respectively connected with the concave shaft (7) of the driven wheel (6) and the concave shaft (3) of the driving wheel (4) in a bearing mode, the other end of the connecting rods is respectively connected with the two ends of the lever in a mode of a pedal and the connecting rods of the sewing machine, and after the connecting rods are connected with the concave shafts (7), the connecting rods pull the driven wheel (6) to rotate in a mode similar to the rotating mode of the connecting rods and the rotary disc of the sewing machine.

6. As shown in the figure, the shafts required by the driving wheel (4) and the driven wheel (6) are concave shafts (3) and (7), namely, the shafts in the turntable of the sewing machine can only be used, and the connecting rods (2) and (9) can pull the turntable to rotate like the connecting rods of a pedal of the sewing machine and simultaneously lift the two ends of the lever; the concave distance is accurately calculated by the lifting height of the two ends of the lever.

7. As shown in the figure, the position of a fulcrum (5) in the lever needs to be determined by accurately calculating the relation between the power required by the generator to generate electricity and the two arms, and the height of the fulcrum is 1/2 of the rising height of the buoyancy device, so that the buoyancy device and the power generated by the generator are balanced when interacting (counteracting).

8. as shown in the figure, the concave shaft (8) of the driven wheel rotates to the top surface, namely the buoyant device rises, and the resistance arm of the lever inclines upwards; at the same time, the concave shaft (3) of the driving wheel rotates downwards, and the tail end of the power arm of the lever is lowered to the balance position.

9. As shown in the figure, the rotation of the concave shafts of the driven wheel (6) and the driving wheel (4) is equivalent to a small circle, the radius of the concave shafts is the turning distance of the concave shafts, the turning distance is calculated according to the lifting height of two ends of the lever, and accurate calculation is required to be carried out according to the requirement so as to ensure the rotation synchronization of the driving wheel and the driven wheel; the radius of the driven wheel (6) is determined according to the revolution of the generator, and the radius of the driving wheel (4) is also determined according to the revolution of the auxiliary power, namely a gasoline engine or a small diesel engine.

10. because the distance between two arms of the lever is longer, the lever can be hidden in the carrier, and the distance is the best for installing the generator and is designed according to the actual situation.

11. The length ratio of the power arm to the resistance arm is preferably 3: 1. The power arm is too long, which is unfavorable for the lifting of the lever; the power arm is too short, and the needed auxiliary power is large.

12. The power generation mode comprises the following steps: the auxiliary power (a small diesel engine or a gasoline engine) is started firstly, a motor (a belt or a chain) of the auxiliary power (the small diesel engine or the gasoline engine) pulls a driving wheel (4) to rotate slowly, a connecting rod (2) of the driving wheel (4) pulls a power arm of a lever to lift slowly, the lifting of the power arm is realized, a resistance arm also lifts slowly to press a buoyant device to sink and float, a connecting rod (9) on the resistance arm pulls a driven wheel (6) to rotate by the sinking and floating of the buoyant device, and the motor (the belt or the chain) pulls a turntable of a generator to rotate by the rotation of the driven wheel (6); when the lever is lifted normally, the rotation speed of the auxiliary power (a small diesel engine or a gasoline engine) is adjusted to generate electricity normally.