CN203515668U - Air energy rack flywheel driving mechanism - Google Patents

Abstract

The utility model discloses an air energy rack flywheel driving mechanism which is characterized by comprising multiple piston air cylinder sets different in size. Each piston air cylinder set comprises a first piston air cylinder, a second piston air cylinder, a third piston air cylinder, a fourth piston air cylinder and a fifth piston air cylinder. Each piston air cylinder is connected with two flywheels through respective rack connecting rods in a driving mode. The flywheels are arranged on the left sides and the right sides of the rack connecting rods respectively. Due to the facts that the piston air cylinders different in size are arranged, multiple air recovery bottles communicated with the air cylinders are arranged, and the air pressure drop is used for doing work to drive the flywheels to rotate respectively, air energy is fully utilized, and using cost is reduced. The air energy rack flywheel driving mechanism is compact in structure, good in stability and high in driving efficiency.

Description

A kind of air energy rack flywheel driving mechanism

Technical field

The utility model relates to air energy power equipment technical field, is specifically related to a kind of air energy rack flywheel driving mechanism.

Background technique

At present, the problem of global energy shortage of resources is more existing serious, badly influences human kind sustainable development.Along with social development, new energy technology obtains advances by leaps and bounds, its commercial application is also increasingly extensive, the renewable energy sourcess such as current wind energy, luminous energy, solar energy, substitute non-renewable energy resources, its technology is extensively generalized to district in all parts of the country, and air energy, as a kind of clean reproducible energy, belong to one of important component part of national new energy development strategy.

For current pneumatic piston cylinder, all adopt single cylinder or twin-tub work, one suction port and a relief opening are set on cylinder, gas is finished after merit, directly by relief opening, discharges, and can not make full use of pressure drop acting, gas effciency is low, transmission system poor stability, transmission efficiency is low, therefore necessary improvement.

Model utility content

For the problems referred to above, the purpose of this utility model is, a kind of compact structure is provided, good stability, and transmission efficiency is high, makes full use of the air energy rack flywheel driving mechanism of gas pressure drop acting.

For achieving the above object, the technological scheme that the utility model adopts is:

An air energy rack flywheel driving mechanism, is characterized in that, it comprises a plurality of piston-cylinder groups, and described piston-cylinder group comprises first piston cylinder, the second piston-cylinder, the 3rd piston-cylinder, the 4th piston-cylinder, the 5th piston-cylinder; Each piston-cylinder is respectively by two flywheels of tooth bar connecting rod connection driving separately, and described flywheel is separately positioned on the left and right side of tooth bar connecting rod.

Described a plurality of piston-cylinder group, wherein the diameter of each piston-cylinder is different.

Described piston-cylinder comprises a tooth bar connecting rod, and the epimere of described tooth bar connecting rod is connected to piston-cylinder inside, and its hypomere is connected with flywheel.

It also comprises the gas returnable bottle group of a plurality of different pressures, described gas returnable bottle group comprises the first gas returnable bottle, the second gas returnable bottle, the 3rd gas returnable bottle, the 4th gas returnable bottle, the 5th gas returnable bottle, and each gas returnable bottle difference piston-cylinder corresponding thereto connects.

Each gas returnable bottle is connected with piston-cylinder by pipeline.

It also comprises suction valve and the outlet valve being arranged on described pipeline.

The beneficial effects of the utility model are: by the piston-cylinder of a plurality of different sizes is set, and a plurality of gas returnable bottles that are connected with cylinder are set, utilize gas pressure drop acting to drive each autorotation of flywheel, gas energy is fully used, reduced user cost.The utility model compact structure, good stability, transmission efficiency is high.

Below in conjunction with accompanying drawing and embodiment, the utility model is further illustrated.

Accompanying drawing explanation

Fig. 1 is the structural representation of air energy rack flywheel driving mechanism of the present utility model.

In figure: 1. first piston cylinder 2. second piston-cylinder 3. the 3rd piston-cylinders

4. the 4th piston-cylinder 5. the 5th piston-cylinder 6. first gas returnable bottles

7. the second gas returnable bottle 8. the 3rd gas returnable bottle 9. the 4th gas returnable bottle

10. the 5th gas returnable bottle 11. tooth bar connecting rod 12. gas source air inlet

13. outlet valve 14. suction valve 15. flywheels

16. pipelines

Embodiment

Embodiment: referring to Fig. 1, the air energy rack flywheel driving mechanism that the present embodiment provides, it comprises the piston-cylinder group of a plurality of different sizes, and described piston-cylinder group comprises first piston cylinder 1, the second piston-cylinder 2, the 3rd piston-cylinder 3, the 4th piston-cylinder 4, the 5th piston-cylinder 5; Each piston-cylinder is respectively by two flywheels 15 of tooth bar connecting rod 11 connection drivings separately, and described flywheel 15 is separately positioned on the left and right side of tooth bar connecting rod 11.

Described a plurality of piston-cylinder group, wherein the diameter of each piston-cylinder is different.

Described piston-cylinder (1,2,3,4,5) comprises a tooth bar connecting rod 11, and the epimere of described tooth bar connecting rod 11 is connected to piston-cylinder inside, and its hypomere is connected with flywheel 15.

It also comprises the gas returnable bottle group of a plurality of different pressures, described gas returnable bottle group comprises the first gas returnable bottle 6, the second gas returnable bottle 7, the 3rd gas returnable bottle 8, the 4th gas returnable bottle 9, the 5th gas returnable bottle 10, and each gas returnable bottle difference piston-cylinder corresponding thereto connects.

Each gas returnable bottle is connected with piston-cylinder by pipeline 16.

It also comprises suction valve 14 and the outlet valve 13 being arranged on described pipeline 16.

The air energy rack flywheel driving mechanism that the present embodiment provides, its specific works principle is: open source of the gas, gas is accessed by suction port 12, gas enters first piston cylinder 1 by pipeline 16, first piston cylinder 1 starts acting, and tooth bar connecting rod 11 is done pressing action, and tooth bar connecting rod 11 holds left side flywheel 15, and to its transmission, now right side flywheel 15 idle running; Tooth bar connecting rod 11 is done vertical motion, and tooth bar connecting rod 11 holds right side flywheel 15, and to its transmission, now left side flywheel 15 idle running.After first piston cylinder 1 has been done work, the gas of finishing merit enters the first gas returnable bottle 6 by pipeline 16, then enter the second piston-cylinder 2, the second piston type cylinders 2 and start acting, the acting step of the second piston type cylinder 2 is identical with first piston cylinder 1.After finishing merit, enter the second gas returnable bottle 7, then enter the 3rd piston-cylinder 3, the three piston type cylinders 3 and start acting, the acting step of the 3rd piston type cylinder 3 and first piston cylinder 1, the second piston type cylinder 2 are identical.After having done work, enter the 3rd gas returnable bottle 8, then enter the 4th piston-cylinder 4, the four piston-cylinders 4 and start acting, the acting step of the 4th piston-cylinder 4 and first piston cylinder 1, the second piston type cylinder 2, the 3rd piston type cylinder 3 are identical.After having done work, enter the 4th gas returnable bottle 9, then, to the 5th piston-cylinder 5 actings, after having done work, enter the 5th gas returnable bottle 10, complete one and take turns the acting driving of gas to piston type multi-cylinder; When source of the gas constantly provides gas, the continuous periodic duty of piston-cylinder, and drive flywheel 15 runnings separately.

The beneficial effects of the utility model are: by the piston-cylinder of a plurality of different sizes is set, and a plurality of gas returnable bottles that are connected with cylinder are set, utilize gas pressure drop acting to drive each autorotation of flywheel, gas energy is fully used, reduced user cost.The utility model compact structure, good stability, transmission efficiency is high.

The utility model is not limited to above-mentioned mode of execution, and the same or similar structure of all employings and the utility model realizes all modes of the utility model object, all within protection domain of the present utility model.

Claims (6)

1. an air energy rack flywheel driving mechanism, is characterized in that, it comprises a plurality of piston-cylinder groups, and wherein each piston-cylinder group comprises first piston cylinder, the second piston-cylinder, the 3rd piston-cylinder, the 4th piston-cylinder, the 5th piston-cylinder; Each piston-cylinder is respectively by two flywheels of tooth bar connecting rod connection driving separately, and described flywheel is separately positioned on the left and right side of tooth bar connecting rod.

2. air energy rack flywheel driving mechanism according to claim 1, is characterized in that, described a plurality of piston-cylinder groups, and wherein the diameter of each piston-cylinder is different.

3. air energy rack flywheel driving mechanism according to claim 1, is characterized in that, described piston-cylinder comprises a tooth bar connecting rod, and the epimere of described tooth bar connecting rod is connected to piston-cylinder inside, and its hypomere is connected with flywheel.

4. air energy rack flywheel driving mechanism according to claim 2, it is characterized in that, it also comprises the gas returnable bottle group of a plurality of different pressures, described gas returnable bottle group comprises the first gas returnable bottle, the second gas returnable bottle, the 3rd gas returnable bottle, the 4th gas returnable bottle, the 5th gas returnable bottle, and each gas returnable bottle difference piston-cylinder corresponding thereto connects.

5. air energy rack flywheel driving mechanism according to claim 4, is characterized in that, each gas returnable bottle is connected with piston-cylinder by pipeline.

6. air energy rack flywheel driving mechanism according to claim 5, is characterized in that, it also comprises suction valve and the outlet valve being arranged on described pipeline.

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