CN113153677A - Power machine - Google Patents

Abstract

The invention relates to a power machine, which fills the leak of Newton's law of conservation of energy and can realize power, and comprises a lever mechanism movably connected to a fulcrum, wherein a power arm of the lever mechanism is movably connected with a power shaft through a movably connected power connecting rod; the power shaft is connected with a starting system; the power shaft and the resistance shaft are respectively provided with a balancing weight and a flywheel; the flywheel is provided with a brake system, and the length of the power arm is several times of that of the resistance arm. The power machine has the function of expanding power, can make three power machines of water conservancy power, electric power and inertia power become possible, is the most scientific and ideal power machine at present, solves the energy problem, replaces a diesel engine and a motor, distinguishes energy sources, and rewrites conservation.

Description

Power machine

Technical Field

The invention relates to the technical field of power equipment, in particular to a power machine.

Background

The existing power machine generally directly drives a load to move, the output power and the resistance of the load are equal, and no mechanism capable of driving larger resistance under the condition that the output power of the power machine is not changed exists at present.

Therefore, it is an urgent need to solve the problem of the industry to develop a mechanism that can expand the output power of the power machine to drive a large resistance load.

Disclosure of Invention

The invention provides a power machine, which overcomes the defects in the prior art.

The purpose of the invention is realized by the following technical scheme:

a power machine comprises a lever mechanism movably connected to a fulcrum, wherein a power arm of the lever mechanism is movably connected with a power shaft through a movably connected power connecting rod, a resistance arm of the lever mechanism is movably connected with a resistance shaft through a movably connected resistance connecting rod, and the power shaft and the resistance shaft are both movably connected to corresponding supports; the power shaft is connected with a starting system; the resistance shaft is connected with a resistance wheel or a transmission shaft; the power shaft and the resistance shaft are respectively provided with a balancing weight and a flywheel; and a brake system is arranged on the flywheel, and the length of the power arm is several times that of the resistance arm.

Furthermore, driving wheels are respectively arranged on the power shaft and the resistance shaft, and the two driving wheels are mutually connected through a transmission mechanism.

Further, the transmission mechanism is transmission shaft transmission or lever transmission.

Furthermore, the power shaft and the resistance shaft are both crankshafts, two ends of each crankshaft are movably connected with one of the supports, and the balancing weight and the flywheel are both located between the two corresponding supports. Or, the power shaft with the resistance axle is the bent axle, each swing joint of middle part of bent axle is two the support, the one end of power shaft and the one end of resistance axle all sets up the flywheel, the other end of power shaft is connected start-up system, the balancing weight is located corresponding two between the support. Or the power shaft and the resistance shaft are both eccentric shafts, and the balancing weight and the flywheel are sequentially arranged on the power shaft and the resistance shaft. Or the power shaft and the resistance shaft are both two-stroke crankshafts, a first stroke on the power shaft is connected with a first stroke on the resistance shaft through a lever mechanism connected with the power connecting rod, a second stroke on the power shaft is connected with a second stroke on the resistance shaft through a first transmission connecting rod, a transmission lever and a second transmission connecting rod, the first transmission connecting rod, the transmission lever and the second transmission connecting rod are movably connected in sequence, the first transmission connecting rod is movably connected with the first transmission connecting rod, the second transmission connecting rod is movably connected with the second transmission connecting rod, and the first stroke and the second stroke are opposite in direction. Or the pivot is arranged on the rotating shaft, the middle part of the rotating shaft is fixedly connected with the resistance connecting rod movably connected with the resistance arm, the rotating shaft is fixedly connected with one end of the swinging crankshaft, two ends of the swinging crankshaft are respectively and movably connected with the support movably connected with the resistance shaft, and the swinging crankshaft is movably connected with the resistance shaft through the movably connected telescopic connecting rod. Or the pivot is arranged on the rotating shaft, one end of the rotating shaft is fixedly connected with the resistance connecting rod movably connected with the resistance arm, the other end of the rotating shaft is fixedly connected with one end of the swinging crankshaft, two ends of the swinging crankshaft are respectively and movably connected with the support movably connected with the resistance shaft, and the swinging crankshaft is movably connected with the resistance shaft through a movably connected telescopic connecting rod.

The invention has the beneficial effects that: the structure is simple and reasonable, the power machine can be matched with various power machines, the driving force of the power machine is expanded through the lever principle so as to drive the load with larger resistance, and the energy utilization rate is high; the output power can be recycled for the second time, so that the energy is saved and the environment is protected; the power machine has the function of expanding power, and can make three power machines of water conservancy power, electric power and inertia power possible; the power machine is the most scientific and ideal power machine at present, solves the energy problem, replaces a diesel engine and a motor, distinguishes energy sources, and rewrites conservation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic diagram of an overall structure of a power machine according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of the overall structure of a power machine according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a power machine according to an embodiment of the present disclosure;

FIG. 4 is a fourth schematic view of an overall configuration of a power machine according to an embodiment of the present disclosure;

FIG. 5 is a schematic diagram of an overall configuration of a power machine according to an embodiment of the present disclosure;

fig. 6 is a sixth schematic view of the overall structure of a power machine according to an embodiment of the present invention.

In the figure:

1. a fulcrum; 2. a power arm; 3. a power link; 4. a power shaft; 5. a resistance arm; 6. a resistance linkage; 7. a resistance shaft; 8. a support; 9. starting the system; 10. a driving wheel; 11. a balancing weight; 12. a flywheel; 13. a telescopic connecting rod; 14. a first transmission connecting rod; 15. a transmission lever; 16. a second transmission connecting rod; 17. a transmission fulcrum; 18. the crankshaft is oscillated.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

The first embodiment is as follows: as shown in fig. 1, the power machine according to the embodiment of the present invention includes a lever mechanism movably connected to a fulcrum 1, a power arm 2 of the lever mechanism is movably connected to a power shaft 4 through a movably connected power link 3, a resistance arm 5 of the lever mechanism is movably connected to a resistance shaft 7 through a movably connected resistance link 6, and both the power shaft 4 and the resistance shaft 7 are movably connected to a corresponding support 8; the power shaft 4 is connected with a starting system 9; the resistance shaft 7 is connected with a resistance wheel or a transmission shaft; the power shaft 4 and the resistance shaft 7 are respectively provided with a balancing weight 11 and a flywheel 12; the flywheel 12 is provided with a brake system, and the length of the power arm 2 is several times of that of the resistance arm 5. Wherein, the power shaft 4 and the resistance shaft 7 are respectively provided with a driving wheel 10, and the two driving wheels 10 are mutually connected through a transmission mechanism. Wherein, the transmission mechanism is transmission shaft transmission or lever transmission. The power shaft 4 and the resistance shaft 7 are both crankshafts, two ends of each crankshaft are movably connected with one support 8, and the balancing weight 11, the flywheel 12 and the driving wheel 10 are located between the two corresponding supports 8.

In order to facilitate understanding of the above-described technical aspects of the present invention, the above-described technical aspects of the present invention will be described in detail below in terms of specific usage.

The power machine (or a high energy-saving power lever system) can professionally expand the power of the power machine through the power machine and the mechanical lever.

The invention can be matched with various internal combustion engines and motors according to actual requirements, and effectively expands the power of the internal combustion engines and the motors through the mechanical lever.

The invention can be applied to the field of inertia lever power machines.

The power connecting rod 3 adopts a telescopic structure, the length of the power connecting rod can be adjusted according to actual needs, and the power connecting rod can be replaced by a structure with a fixed length.

The invention mainly utilizes the principle of the balance condition of the lever and combines the operation of the power device, so that the power device can rotate and can expand the power of the power device by utilizing the lever. Because the calculation formula of the lever is that the power multiplied by the power arm is equal to the resistance multiplied by the resistance arm, when the length of the power arm 2 is more than the length of the resistance arm 5 by several times, the power provided by the power device can drive the resistance which is several times of the self resistance, thereby realizing the purpose of expanding the driving force of the power machine to drive the load with larger resistance, and the starting system 9 comprises the power machine, a transmission mechanism and a power wheel which is fixedly connected on the power shaft 4. When the power machine drives the power wheel to rotate through transmission shaft transmission, the power wheel drives the power shaft 4 to rotate, the power connecting rod 3 converts the rotating motion of the power shaft 4 into the up-and-down motion of the power arm 2, the power arm 2 drives the resistance arm 5 to move up and down through the fulcrum 1, the resistance connecting rod 6 converts the up-and-down motion of the resistance arm 5 into the rotating motion of the resistance shaft 7, one part of the output force of the resistance shaft 7 drives the load to operate through the resistance wheel or the transmission shaft, the other part drives the power shaft 4 to move through the transmission wheel 10 and the transmission shaft transmission, thereby realizing the function of secondary cyclic utilization of the output power, being more energy-saving and environment-friendly, the load can be used for providing power or generating electricity, the counterweight block 11 and the flywheel 12 can provide the inertia force for the power shaft 4 and the resistance shaft 7, the heavier the counterweight block 11 and the flywheel 12 are, the larger the inertia force the larger the moment the load can be provided by the counterweight 11 and the flywheel 12, thereby greatly reducing the power input, the purpose of increasing power output.

From what the power originates.

I believe that the motion comes from three elements of force, high speed and inertia. The power is greatly related to the physical volume shape, and the power is related to the weight and the speed of an object.

I believe that power is not entirely dependent on energy.

I think that our power source has three kinds (one) hydroelectric power (two) heat energy internal combustion engine at present. And the third lever is also a power source. I think the lever is the heaven and earth of the power machine. I propose a power mode of replacing energy sources by the power of a lever. All conditions of e.g. a diesel engine are known conditions: the power of the lever is used for replacing the power of the piston of the diesel engine, and the power of the lever is used for replacing the power of the energy source, so that the power machine is proved by reasoning. The power machine is an avatar of a diesel engine.

The diesel engine has a crankshaft and a flywheel to generate force, the power machine has two crankshafts and two flywheels to generate force, in order to achieve the up-and-down swing of the lever, the two crankshafts are reasonably used, so that the up-and-down swing of the lever is solved, the power source is increased, and the power of the two crankshafts is reflected back and forth by using a connecting line. Such a rational design makes it impossible to stop.

The power loop is scientifically utilized by using the connecting wire, and the power loop can be forced to move forever. This is a general reasoning proof for power machines. The power machine is a model diesel engine. The power machine is an avatar of a diesel engine.

Example two: as shown in fig. 2, the power machine according to the embodiment of the present invention includes a lever mechanism movably connected to a fulcrum 1, a power arm 2 of the lever mechanism is movably connected to a power shaft 4 through a movably connected power link 3, a resistance arm 5 of the lever mechanism is movably connected to a resistance shaft 7 through a movably connected resistance link 6, and both the power shaft 4 and the resistance shaft 7 are movably connected to a corresponding support 8; the power shaft 4 is connected with a starting system 9; the resistance shaft 7 is connected with a resistance wheel or a transmission shaft; the power shaft 4 and the resistance shaft 7 are respectively provided with a balancing weight 11 and a flywheel 12; the flywheel 12 is provided with a brake system, and the length of the power arm 2 is several times of that of the resistance arm 5. Wherein, the power shaft 4 and the resistance shaft 7 are respectively provided with a driving wheel 10, and the two driving wheels 10 are mutually connected through a transmission mechanism. Wherein, the transmission mechanism is transmission shaft transmission or lever transmission. The power shaft 4 and the resistance shaft 7 are both crankshafts, the middle of each crankshaft is movably connected with two of the supports 8, one end of the power shaft 4 and one end of the resistance shaft 7 are both provided with the driving wheel 10 and the flywheel 12, the other end of the power shaft 4 is connected with the starting system 9, and the balancing weight 11 is located between the two corresponding supports 8.

Example three: as shown in fig. 3, the power machine according to the embodiment of the present invention includes a lever mechanism movably connected to a fulcrum 1, a power arm 2 of the lever mechanism is movably connected to a power shaft 4 through a movably connected power link 3, a resistance arm 5 of the lever mechanism is movably connected to a resistance shaft 7 through a movably connected resistance link 6, and both the power shaft 4 and the resistance shaft 7 are movably connected to a corresponding support 8; the power shaft 4 is connected with a starting system 9; the resistance shaft 7 is connected with a resistance wheel or a transmission shaft; the power shaft 4 and the resistance shaft 7 are respectively provided with a balancing weight 11 and a flywheel 12; the flywheel 12 is provided with a brake system, and the length of the power arm 2 is several times of that of the resistance arm 5. Wherein, the power shaft 4 and the resistance shaft 7 are respectively provided with a driving wheel 10, and the two driving wheels 10 are mutually connected through a transmission mechanism. Wherein, the transmission mechanism is transmission shaft transmission or lever transmission. The power shaft 4 and the resistance shaft 7 are eccentric shafts, and the counterweight block 11, the flywheel 12 and the transmission wheel 10 are sequentially arranged on the power shaft 4 and the resistance shaft 7.

Example four: as shown in fig. 4, the power machine according to the embodiment of the present invention includes a lever mechanism movably connected to a fulcrum 1, a power arm 2 of the lever mechanism is movably connected to a power shaft 4 through a movably connected power link 3, a resistance arm 5 of the lever mechanism is movably connected to a resistance shaft 7 through a movably connected resistance link 6, and both the power shaft 4 and the resistance shaft 7 are movably connected to a corresponding support 8; the power shaft 4 is connected with a starting system 9; the resistance shaft 7 is connected with a resistance wheel or a transmission shaft; the power shaft 4 and the resistance shaft 7 are respectively provided with a balancing weight 11 and a flywheel 12; the flywheel 12 is provided with a brake system, and the length of the power arm 2 is several times of that of the resistance arm 5. Wherein, the power shaft 4 and the resistance shaft 7 are respectively provided with a driving wheel 10, and the two driving wheels 10 are mutually connected through a transmission mechanism. Wherein, the transmission mechanism is transmission shaft transmission or lever transmission. The power shaft 4 and the resistance shaft 7 are both two-stroke crankshafts, a first stroke on the power shaft 4 is connected with a first stroke on the resistance shaft 7 through a lever mechanism connected with the power connecting rod 3, a second stroke on the power shaft 4 is connected with a second stroke on the resistance shaft 7 through a first transmission connecting rod 14 in movable connection, a transmission lever 15 in movable connection with the first transmission connecting rod 14 and a second transmission connecting rod 16 in movable connection with the transmission lever 15 in sequence, and the transmission lever 15 is movably connected on a transmission fulcrum 17. Wherein the first stroke and the second stroke are opposite in direction.

Resistance axle 7 is through two 16 swing joint transmission levers 15 of transmission connecting rod, one side that transmission lever 15 is close to resistance axle 7 is transmission power arm, and the opposite side of this transmission lever 15 is transmission resistance arm, the length of transmission power arm is a plurality of times of transmission resistance arm length, transmission power arm enlarges the partly output power of resistance axle 7 and gives power shaft 4 through transmission connecting rod 14 with power transmission, small, it is big to have an effect, the required input power of power shaft 4 has been reduced by a wide margin, the function of the power secondary cyclic utilization of exporting has been realized, in addition, through adopting lever transmission, the belt has effectively been avoided skidding, chain derail and the emergence of axis of rotation tooth scheduling problem.

Example five: as shown in fig. 5, the power machine according to the embodiment of the present invention includes a lever mechanism movably connected to a fulcrum 1, a power arm 2 of the lever mechanism is movably connected to a power shaft 4 through a movably connected power link 3, a resistance arm 5 of the lever mechanism is movably connected to a resistance shaft 7 through a movably connected resistance link 6, and both the power shaft 4 and the resistance shaft 7 are movably connected to a corresponding support 8; the power shaft 4 is connected with a starting system 9; the resistance shaft 7 is connected with a resistance wheel or a transmission shaft; the power shaft 4 and the resistance shaft 7 are respectively provided with a balancing weight 11 and a flywheel 12; the flywheel 12 is provided with a brake system, and the length of the power arm 2 is several times of that of the resistance arm 5. Wherein, the power shaft 4 and the resistance shaft 7 are respectively provided with a driving wheel 10, and the two driving wheels 10 are mutually connected through a transmission mechanism. Wherein, the transmission mechanism is transmission shaft transmission or lever transmission. The pivot 1 is arranged on a rotating shaft, the middle part of the rotating shaft is fixedly connected with the resistance connecting rod 6 movably connected with the resistance arm 5, the rotating shaft is fixedly connected with one end of a swinging crankshaft 18, two ends of the swinging crankshaft 18 are respectively and movably connected with the support 8 movably connected with the resistance shaft 7, and the swinging crankshaft 18 is movably connected with the resistance shaft 7 through a movably connected telescopic connecting rod 13.

The rotating shaft of the swinging crankshaft 18 can be used as a fulcrum of a lever mechanism, the swinging crankshaft 18 can rotate on the support 8, the telescopic connecting rod 13 adopts a telescopic structure, the length of the telescopic connecting rod can be adjusted according to actual needs, when the output end of the power device drives the power wheel to rotate through transmission shaft transmission, the power wheel drives the power shaft 4 to rotate, the power connecting rod 3 converts the rotating motion of the power shaft 4 into the up-and-down motion of the power arm 2, the power arm 2 drives the resistance arm 5 to move up and down through the fulcrum 1, the resistance connecting rod 6 converts the up-and-down motion of the resistance arm 5 into the rotating swing of the swinging crankshaft 18, the swinging crankshaft 18 drives the resistance shaft 7 to rotate through the telescopic connecting rod 13, one part of the output force of the resistance shaft 7 drives the load to operate through the resistance wheel or the transmission shaft, the other part drives the power shaft 4 to move through the transmission wheel 10 and the transmission shaft transmission, thereby achieving the purpose of secondary recycling of the output power, the energy is saved and the environment is protected.

Example six: as shown in fig. 6, the power machine according to the embodiment of the present invention includes a lever mechanism movably connected to a fulcrum 1, a power arm 2 of the lever mechanism is movably connected to a power shaft 4 through a movably connected power link 3, a resistance arm 5 of the lever mechanism is movably connected to a resistance shaft 7 through a movably connected resistance link 6, and both the power shaft 4 and the resistance shaft 7 are movably connected to a corresponding support 8; the power shaft 4 is connected with a starting system 9; the resistance shaft 7 is connected with a resistance wheel or a transmission shaft; the power shaft 4 and the resistance shaft 7 are respectively provided with a balancing weight 11 and a flywheel 12; the flywheel 12 is provided with a brake system, and the length of the power arm 2 is several times of that of the resistance arm 5. Wherein, the power shaft 4 and the resistance shaft 7 are respectively provided with a driving wheel 10, and the two driving wheels 10 are mutually connected through a transmission mechanism. Wherein, the transmission mechanism is transmission shaft transmission or lever transmission. The pivot 1 is arranged on a rotating shaft, one end of the rotating shaft is fixedly connected with the resistance connecting rod 6 movably connected with the resistance arm 5, the other end of the rotating shaft is fixedly connected with one end of a swinging crankshaft 18, two ends of the swinging crankshaft 18 are respectively and movably connected with the support 8 movably connected with the resistance shaft 7, and the swinging crankshaft 18 is movably connected with the resistance shaft 7 through a movably connected telescopic connecting rod 13.

To sum up, with the help of the above technical scheme of the utility model, the structure is simple and reasonable, it can be matched with various power machines, and the driving force of the power machine is expanded through the lever principle to drive the load with larger resistance, and the energy utilization rate is high; the output power can be recycled for the second time, so that the energy is saved and the environment is protected; the power machine has the function of expanding power, and can make three power machines of water conservancy power, electric power and inertia power possible; the power machine is the most scientific and ideal power machine at present, solves the energy problem, replaces a diesel engine and a motor, distinguishes energy sources, and rewrites conservation.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by anyone in the light of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as those of the present application, fall within the protection scope of the present invention.

Claims (10)

1. A power machine comprises a lever mechanism movably connected to a fulcrum (1), and is characterized in that a power arm (2) of the lever mechanism is movably connected with a power shaft (4) through a movably connected power connecting rod (3), a resistance arm (5) of the lever mechanism is movably connected with a resistance shaft (7) through a movably connected resistance connecting rod (6), and the power shaft (4) and the resistance shaft (7) are both movably connected to corresponding supports (8); the power shaft (4) is connected with a starting system (9); the resistance shaft (7) is connected with a resistance wheel or a transmission shaft; the power shaft (4) and the resistance shaft (7) are respectively provided with a balancing weight (11) and a flywheel (12); the flywheel (12) is provided with a brake system, and the length of the power arm (2) is several times of that of the resistance arm (5).

2. A power machine according to claim 1, characterized in that the power shaft (4) and the resistance shaft (7) are provided with driving wheels (10), and the two driving wheels (10) are connected with each other through a transmission mechanism.

3. The power machine of claim 2, wherein the transmission is a transmission shaft or lever drive.

4. The power machine of claim 1, wherein the power shaft (4) and the resistance shaft (7) are both crankshafts, two ends of each crankshaft are movably connected with one support (8), and the counterweight block (11) and the flywheel (12) are both located between the two corresponding supports (8).

5. The power machine according to claim 1, wherein the power shaft (4) and the resistance shaft (7) are both crankshafts, the middle parts of the crankshafts are respectively movably connected with two of the supports (8), one end of the power shaft (4) and one end of the resistance shaft (7) are both provided with the flywheel (12), the other end of the power shaft (4) is connected with the starting system (9), and the counterweight (11) is positioned between the two corresponding supports (8).

6. The power machine of claim 1, wherein the power shaft (4) and the resistance shaft (7) are eccentric shafts, and the counterweight (11) and the flywheel (12) are sequentially arranged on the power shaft (4) and the resistance shaft (7).

7. The power machine according to claim 1, characterized in that the power shaft (4) and the resistance shaft (7) are both two-stroke crankshafts, a first stroke on the power shaft (4) is connected with a first stroke on the resistance shaft (7) through a lever mechanism connected with the power connecting rod (3), a second stroke on the power shaft (4) is connected with a second stroke on the resistance shaft (7) sequentially through a first transmission connecting rod (14) movably connected, a transmission lever (15) movably connected with the first transmission connecting rod (14) and a second transmission connecting rod (16) movably connected with the transmission lever (15), and the transmission lever (15) is movably connected with a transmission fulcrum (17).

8. The power machine of claim 7, wherein the first stroke and the second stroke are in opposite directions.

9. The power machine of claim 1, wherein the fulcrum (1) is disposed on a rotating shaft, the middle of the rotating shaft is fixedly connected with the resistance connecting rod (6) movably connected with the resistance arm (5), the rotating shaft is fixedly connected with one end of a swinging crankshaft (18), two ends of the swinging crankshaft (18) are respectively movably connected with the support (8) movably connected with the resistance shaft (7), and the swinging crankshaft (18) is movably connected with the resistance shaft (7) through a movably connected telescopic connecting rod (13).

10. A power machine according to claim 1, characterized in that the fulcrum (1) is arranged on a rotating shaft, one end of the rotating shaft is fixedly connected with the resistance connecting rod (6) movably connected with the resistance arm (5), the other end of the rotating shaft is fixedly connected with one end of a swinging crankshaft (18), two ends of the swinging crankshaft (18) are respectively movably connected with the support (8) movably connected with the resistance shaft (7), and the swinging crankshaft (18) is movably connected with the resistance shaft (7) through a movably connected telescopic connecting rod (13).

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