CN202325690U - Pneumatic machine with low energy consumption - Google Patents

Abstract

The utility model discloses a pneumatic machine with low energy consumption, and the pneumatic machine comprises a high-pressure air source, a pneumatic pipeline, a generator and a pneumatic converter, wherein the high-pressure air source is connected with the pneumatic pipeline; the pneumatic converter is connected with the pneumatic pipeline; the pneumatic converter simultaneously drives a generator driving shaft and is connected with the driving shaft of target equipment; the pneumatic pipeline is provided with a heating device; and the generator supplies power to the heating device. On the premise of adding no self compressed gas storage amount, the kinetic energy conversion output can be increased by the pneumatic machine.

Description

The low energy consumption pneumatic motor

Technical field

The utility model relates to a kind of low energy consumption pneumatic motor that adopts high compressed air driving device equipment.

Background technique

Common employing internal-combustion engine of the present traffic tool both domestic and external or storage battery drive.But internal-combustion engine need consume limited petroleum resources to petroleum resources, and the internal-combustion engine waste gas pollution in wide area of discharging atmosphere, the mankind's living environment caused greatly pollutes.And electric motor car with the electric energy of storage battery savings as the energy, but storage battery is short working life, costs an arm and a leg, and environment is had very big pollution.

In view of there are many defectives in above-mentioned power equipment commonly used; Once the someone developed and adopted the vehicle of pressurized gas as power source; But because the reserves of pressurized air that vehicle can carry or liquid gas are less; And pressurized gas energy consumption when converting kinetic energy to is bigger, and it is shorter to cause the vehicle transport stroke to receive, and can't promote the use of.

Summary of the invention

The utility model technical problem to be solved provides and a kind ofly can not increase the low energy consumption pneumatic motor that increases kinetic energy conversion output under the prerequisite of self pressurized gas reserves.

For this reason; The low energy consumption pneumatic motor that the utility model provides comprises high-pressure air source, pneumatic pipeline, generator and pneumatic converter, and said high-pressure air source connects pneumatic pipeline; Said pneumatic converter is connected with pneumatic pipeline; Said pneumatic converter drives the live axle of generator drive shaft and linking objective equipment simultaneously, and said pneumatic pipeline is provided with electro-heat equipment, and generator is supplied power to electro-heat equipment.

In the low energy consumption pneumatic motor that the utility model provides; Pneumatic converter drives the live axle of generator drive shaft and linking objective equipment simultaneously, so it can impel generator for electricity generation again, the electric energy supply electro-heat equipment that generator produces when driving live axle; Electro-heat equipment produces heat energy; Electro-heat equipment generally exists with the form of resistance or electromagnetic induction electro-heat equipment, and heat energy expands gas through the metal-cored gas that is transmitted in the pneumatic pipeline; Gas volume after the expansion increases; Make the pressurized gas of equivalent amount can produce bigger pressure, and then can be converted to more kinetic energy, thereby make the pressurized gas of equivalent amount kinetic energy more is provided to target device.

Description of drawings

First kind of embodiment's of the low energy consumption pneumatic motor that Fig. 1 provides for the utility model structural representation.

Fig. 2 is the side view of Fig. 1.

Second kind of embodiment's of the low energy consumption pneumatic motor that Fig. 3 provides for the utility model structural representation.

Fig. 4 is the side view of Fig. 3.

Embodiment

Like Fig. 1, shown in Figure 2, the low energy consumption pneumatic motor that first kind of embodiment of the utility model provides comprises high-pressure air source, pneumatic pipeline 10, generator 6 and pneumatic converter; High-pressure air source connects pneumatic pipeline 10; Pneumatic converter is connected with pneumatic pipeline 10, and pneumatic converter drives the live axle of generator drive shaft and linking objective equipment simultaneously, refers to the equipment that is driven by pneumatic motor at this target device; It generally is the vehicle of exercising; Pneumatic pipeline is provided with electro-heat equipment, and 6 pairs of electro-heat equipment power supplies of generator generally are electromagnetic induction electro-heat equipments 5 at this electro-heat equipment; Winding 4 in the electromagnetic induction electro-heat equipment 5 constitutes perceptual closed-loop path with generator 6 windings; At this generator 6 are alternators, and when the running speed of generator 6 reached certain limit, these generator 6 speed range can satisfy the electric current that makes in the perceptual closed-loop path that electromagnetic induction electro-heat equipment winding 4 and generator 6 windings connect and compose and lag behind voltage.In the present embodiment; Pneumatic pipeline 10 passes metal-cored 8 of electromagnetic induction electro-heat equipment 5; And pneumatic pipeline 10 also passes the generator that is in the seal casinghousing 9; Thereby the metal-cored heat energy that 6 runnings produce with generator all is transmitted in the pneumatic pipeline 10 heat energy that heat energy that overcome friction produced when generator 6 runnings generally comprised rotor rotation and generator 6 windings produce etc.Current in loop lags behind voltage when the running speed of the pneumatic motor in the utility model reaches certain limit; It generally is quadrature lagging; Make electromagnetic field that generator 6 windings produce less, thereby reactive power operation is done in the loop that generator 6 is constituted to the resistance that the magnetic field of rotor magnetic pole does not produce resistance or generation.Said structure through present embodiment has reduced energy loss, makes pneumatic motor that more energy output can be provided, and makes the running of target device more lasting.

Like Fig. 1, shown in Figure 2; On the basis of the foregoing description; Pneumatic converter comprises cylinder 15, two-way three-way control valve 13, linkage mechanism 14 and the cam mechanism 17 that is connected with pneumatic pipeline 10; Be provided with piston in the cylinder 15, said piston connects generator drive shaft and target device live axle, and said two-way three-way control valve 13 is arranged on the pneumatic pipeline 10; Two-way three-way control valve 13 comprises suction port 13A, air outlet 13B and relief opening 13C; Said cam mechanism 17 comprises passive rotating shaft and is arranged at the cam in the passive rotating shaft, said cam connection linkage mechanism 14, and said linkage mechanism 14 connects also controls two-way three-way control valve 13; Said suction port connects pneumatic pipeline 10 upper reaches; Said air outlet connects cylinder 15, said relief opening and ambient atmosphere conducting, the cam when piston is in top dead center in (position when this top dead center refers to that piston is not pushed) passive rotating shaft swing through linkage mechanism 14 impel the gas-entered passageway of two-way three-way control valve 13 to open, the exhaust passage (pointing out the passage of gas port to conducting between the relief opening in this exhaust passage) of three-way control valve 13 closes; Cam is closed through the gas-entered passageway of the two-way three-way control valve 13 of linkage mechanism 14 controls when piston is pulled to lower dead center (position when this lower dead center refers to that piston is pushed to greatest extent), and open the exhaust passage of two-way three-way control valve 13.

Like Fig. 3, shown in Figure 4; Second kind of embodiment of the utility model and first kind of embodiment are basic identical; Its difference only is: pneumatic converter comprises blade type blade, pneumatic pipeline outlet and exhaust outlet 18; The blade type blade is aimed in said pneumatic pipeline 10 outlets, and the blade type blade is coaxial with generator amature and target device live axle, and said exhaust outlet 18 is arranged on the housing 7 that surrounds the blade type blade.In the present embodiment, the pressurized gas that pneumatic pipeline 10 is discharged blows the blade type blade, drives target device live axle and alternator shaft by the blade type blade, and the pressurized gas that general pneumatic pipeline is discharged is known from experience outside the exhaust outlet 18 of directly discharging housing.

With reference to shown in Figure 1; The third embodiment of the utility model and first kind of embodiment are basic identical, and its difference only is: electro-heat equipment is a resistance, generally is heating resistance wire; Heating resistance wire can be wrapped on the pneumatic pipeline 10, and electric energy directly produces heat energy through resistance.

Claims (10)

1. low energy consumption pneumatic motor; Comprise high-pressure air source, pneumatic pipeline, generator and pneumatic converter; Said high-pressure air source connects pneumatic pipeline, and said pneumatic converter is connected with pneumatic pipeline, it is characterized in that: said pneumatic converter drives the live axle of generator drive shaft and linking objective equipment simultaneously; Said pneumatic pipeline is provided with electro-heat equipment, and generator is supplied power to electro-heat equipment.

2. low energy consumption pneumatic motor according to claim 1 is characterized in that: electro-heat equipment is the electromagnetic induction electro-heat equipment, comprises metal-cored and winding in the electromagnetic induction electro-heat equipment, and electromagnetic induction electro-heat equipment winding and generator windings connect and compose the closed-loop path.

3. low energy consumption pneumatic motor according to claim 1; It is characterized in that: said pneumatic pipeline passes the metal-cored of electromagnetic induction electro-heat equipment; When the running speed of said generator reached certain limit, this generator speed scope can satisfy the electric current that makes in the closed-loop path that electromagnetic induction electro-heat equipment winding and generator windings connect and compose and lag behind voltage.

4. according to claim 2 or 3 described low energy consumption pneumatic motors; It is characterized in that: said pneumatic converter comprises the cylinder that is connected with pneumatic pipeline, two-way three-way control valve, linkage mechanism and cam mechanism; Be provided with piston in the cylinder, said piston connects generator drive shaft and target device live axle, and said two-way three-way control valve is arranged on the pneumatic pipeline; Two-way three-way control valve comprises suction port, air outlet and relief opening; Said cam mechanism comprises passive rotating shaft and is arranged at the cam in the passive rotating shaft, said cam connection linkage mechanism, and said linkage mechanism connects also controls two-way three-way control valve; Said suction port connects the pneumatic pipeline upper reaches; Said air outlet connects cylinder, said relief opening and ambient atmosphere conducting, the cam when piston is in top dead center in the rotating shaft swing through linkage mechanism impel the gas-entered passageway of two-way three-way control valve to open, the exhaust passage of three-way control valve closes; The gas-entered passageway that cam is controlled two-way three-way control valve through linkage mechanism when piston is pulled to lower dead center is closed, and open the exhaust passage of two-way three-way control valve.

5. according to claim 2 or 3 described low energy consumption pneumatic motors; It is characterized in that: said pneumatic converter comprises blade type blade, pneumatic pipeline outlet and exhaust outlet; The blade type blade is aimed in said pneumatic pipeline outlet; The blade type blade is coaxial with generator amature and target device live axle, and said exhaust outlet is arranged on the housing that surrounds the blade type blade.

6. according to claim 2 or 3 described low energy consumption pneumatic motors, it is characterized in that: said pneumatic pipeline passes the generator that is in the seal casinghousing.

7. low energy consumption pneumatic motor according to claim 4 is characterized in that: said pneumatic pipeline passes the generator that is in the seal casinghousing.

8. low energy consumption pneumatic motor according to claim 5 is characterized in that: said pneumatic pipeline passes the generator that is in the seal casinghousing.

9. according to claim 2 or 3 described low energy consumption pneumatic motors, it is characterized in that: pneumatic pipeline is provided with gas control valve.

10. low energy consumption pneumatic motor according to claim 8, it is characterized in that: pneumatic pipeline is provided with gas control valve.

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