CN201851163U - Aerodynamic device - Google Patents
Aerodynamic device Download PDFInfo
- Publication number
- CN201851163U CN201851163U CN2010205601100U CN201020560110U CN201851163U CN 201851163 U CN201851163 U CN 201851163U CN 2010205601100 U CN2010205601100 U CN 2010205601100U CN 201020560110 U CN201020560110 U CN 201020560110U CN 201851163 U CN201851163 U CN 201851163U
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- air
- bottle
- cylinder
- piston
- aspirator
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Abstract
The utility model discloses an aerodynamic device, which comprises an electromotor, an air compressor, a compressed air bottle, four air cylinders, air cylinder pistons, air pipes, driving shafts, at least one vacuum bottle, two groups of aspirator bottles and aspirator bottle pistons, wherein the air cylinder pistons, the air pipes, the driving shafts are matched with the air cylinders, and the aspirator bottle pistons are matched with the aspirator bottles. The vacuum bottle is provided with two vacuum bottle pistons which are communicated with the air cylinders through the air pipes, the air cylinder pistons are communicated with the vacuum bottle pistons through the air pipes, and the aspirator bottles are communicated with the compressed air bottle through the air pipes. The aerodynamic device can also comprise two groups of air supplying bottles, and the air supplying bottles are provided with matched air supplying bottle pistons and are communicated with the compressed air bottle through the air pipes. In the utility model, a clean energy-saving aerodynamic device with large power is provided and can be widely used as the power devices of various engines, and is particularly suitable for automobile engines.
Description
Technical field
The utility model belongs to the power technology field, more specifically relates to a kind of air generation plants.
Background technique
The available dynamic device as motor car engine, generally adopts fuel (normally fuel oil) to burn, and the energy that discharges to burn drives the motion of main shaft and countershaft as power, is driven by main shaft and countershaft again.Yet fuel is limited, non-renewable resource, in energy today in short supply day by day, this with fuel be power power plant but need to expend a large amount of valuable energy; And also produce a large amount of materials after most of fuel (especially fuel oil) burning with contaminativity; Some fuel is for decomposing the hydrogen that seawater produces, though cleanliness without any pollution, production technology still has certain difficulty, from the practical stage one segment distance is arranged still.People adopted the electric power device of electric energy as power afterwards, yet the charge capacity of the storage battery of this electric power device is big inadequately, power is little, and the duration of charge is long, and once limited, storage battery working life charging back operating time is short etc.Because these devices have significant disadvantages, therefore, the Pneumatic actuator that pressurized air is power appears again, this device has cleaning, energy-saving advantages, but, the power that this Pneumatic actuator relies on pressurized air to produce fully is less, relies on this Pneumatic actuator to seem merely and is short of power, so usually need to be used with fuels and energy.
The model utility content
In order to address the above problem, the purpose of this utility model is to provide a kind of high-power and cleaning, energy-conservation air generation plants.
For achieving the above object, the technological scheme that the utility model adopted is:
A kind of air generation plants comprises that motor, air compressor, compressed air bottle, four cylinders reach and supporting cylinder piston, breathing pipe and the live axle of cylinder; It is characterized in that, comprise that also at least one vacuum flask and two groups of aspirator bottles reach and the supporting aspirator bottle piston of aspirator bottle, described vacuum flask is provided with two vacuum flask pistons, described vacuum flask piston is connected with cylinder by breathing pipe, described cylinder piston is connected with the vacuum flask piston by breathing pipe, and described aspirator bottle is connected with compressed air bottle by breathing pipe.
More excellent, described aspirator bottle piston is made of iron plate and sheet rubber, and the iron plate center is provided with circular hole, and the sheet rubber area is greater than iron plate center hole area, and described sheet rubber covers the center hole place at the iron plate back side.
More excellent, described air generation plants also comprises two groups of air feed bottle, and described air feed bottle is provided with supporting air feed bottle piston, and described air feed bottle is connected with compressed air bottle by breathing pipe.
More excellent, described air feed bottle piston is made of iron plate and sheet rubber, and the iron plate center is provided with circular hole, and the sheet rubber area is greater than iron plate center hole area, and described sheet rubber covers the center hole place at the iron plate back side.
After adopting technique scheme, its beneficial effect is: by the suction of negative pressure in air pressure thrust in the compressed air bottle and the vacuum flask, make the working cylinder acting jointly, this power plant power is big, and do not need a large amount of fuel that burns during work, can not produce pollution yet.
Air feed bottle can constantly be replenished air makes the air of compressed air bottle keep abundance.
Description of drawings
Fig. 1 is a structure principle chart of the present utility model;
Fig. 2 is an aspirator bottle piston structure schematic representation of the present utility model.
Among the figure:
1. motor 2. air compressors 3. compressed air bottles 41. cylinder A
42. cylinder B 43. cylinder C 44. cylinder D 45. cylinder pistons
5. vacuum flask 51. vacuum flask piston A 52. vacuum flask piston B 61. are air-breathing
Bottle A 62. aspirator bottle B 63. aspirator bottle pistons 631. iron plates 632.
73. air feed bottle piston
Embodiment
Below in conjunction with accompanying drawing the utility model is described in further detail.
Extremely shown in Figure 2 as Fig. 1, a kind of air generation plants, be provided with a motor 1, air compressor 2, compressed air bottle 3, cylinder A41 and a cylinder C43 and cylinder B42 and four cylinders of cylinder D44, with supporting cylinder piston 45, breathing pipe and the live axle of cylinder; Being provided with one has vacuum flask 5, and vacuum flask 5 is provided with vacuum flask piston A51 and vacuum flask piston B52; Be provided with two groups of aspirator bottles, be respectively aspirator bottle A61 and aspirator bottle B62, aspirator bottle is provided with supporting aspirator bottle piston 63, aspirator bottle piston 63 is made of hard material iron plate 631 and soft material sheet rubber 632, iron plate is positive in this side of aspirator bottle air inlet, and iron plate is the back side in aspirator bottle this side of giving vent to anger, and iron plate 63 centers are provided with circular hole 633, and sheet rubber 632 areas are greater than center hole 633 areas, and sheet rubber 632 covers center hole 633 places at iron plate 631 back sides; The vacuum flask piston is connected with cylinder by breathing pipe, and cylinder piston is connected with the vacuum flask piston by breathing pipe, and aspirator bottle is connected with compressed air bottle by breathing pipe.
In addition, can also establish two groups of air feed bottle, be respectively air feed bottle A71 and air feed bottle B72, air feed bottle is provided with supporting air feed bottle piston 73, and air feed bottle is connected with compressed air bottle by breathing pipe.The air feed bottle piston is made of iron plate 631 and sheet rubber 632, iron plate is positive in this side of aspirator bottle air inlet, iron plate is the back side in aspirator bottle this side of giving vent to anger, iron plate 631 centers are provided with circular hole, and sheet rubber 632 areas are greater than iron plate 631 center hole areas, and sheet rubber 632 covers the center hole place at iron plate 631 back sides.
Its working principle is:
Before air generation plants was opened, the motor drives air compressor was inflated to compressed air bottle; Then, open the switch that leads to cylinder of the compressed air bottle that is filled with high-pressure air and carry out following working procedure:
Working procedure one: the air inlet switch of opening cylinder A and cylinder C open simultaneously compressed air bottle to switch, cylinder B and the cylinder D of cylinder A go out that air cock opens simultaneously that vacuum flask is air-breathing to cylinder B to the air inlet switch of the switch of cylinder B, vacuum flask piston B, the air inlet switch that goes out air cock, aspirator bottle A of vacuum flask piston A and go out air cock, the air inlet switch of the air inlet switch that goes out air cock, vacuum flask piston A of the air inlet switch that goes out air cock, cylinder B and cylinder D of shifter cylinder A and cylinder C, vacuum flask piston B, aspirator bottle B and go out air cock simultaneously.In this course, the piston of cylinder A is moved downward and do work thereby high-pressure air charges into cylinder A, simultaneously, the negative pressure that vacuum flask produces makes the piston of cylinder B move upward and do work; The cylinder piston acting produces power, and the driving force that the cylinder piston acting produces drives the motion of main shaft of the live axle of air generation plants, is driven other devices or equipment movings such as countershaft by main shaft, realizes the driving function of air generation plants; Open the air inlet switch of aspirator bottle A and go out air cock and close the air inlet switch of aspirator bottle B simultaneously and go out air cock, air can enter aspirator bottle piston lower space by center hole from aspirator bottle piston upper space, and air backflows and the underpiston sheet rubber of aspirator bottle can be sealed center hole and turn back in the vacuum flask to prevent air, gas can be recovered to compressed air bottle like this.Synchronous with said process, can also open the air inlet switch of air feed bottle A and go out air cock, the replenish air in the external world can be arrived compressed air bottle.Main shaft drives the countershaft motion, under countershaft drives the gas of aspirator bottle and air feed bottle is filled in the compressed air bottle.
Working procedure two: after working procedure one is finished, open the air inlet switch of cylinder B and cylinder D and open the switch of compressed air bottle simultaneously to cylinder D, the air cock that goes out of cylinder A and cylinder C is opened the switch of vacuum flask to cylinder C simultaneously, the air inlet switch of vacuum flask piston A is air-breathing to cylinder C, vacuum flask piston B goes out air cock, the air inlet switch of aspirator bottle B and go out air cock, shifter cylinder B and cylinder D's goes out air cock simultaneously, the air inlet switch of cylinder A and cylinder C, vacuum flask piston A goes out air cock, the air inlet switch of vacuum flask piston B, the air inlet switch of aspirator bottle A and go out air cock.In this course, the piston of cylinder D is moved downward and do work thereby high-pressure air charges into cylinder D, simultaneously, the negative pressure that vacuum flask produces makes the piston of cylinder C move upward and do work; The cylinder piston acting produces power, and the driving force that the cylinder piston acting produces drives the motion of main shaft of the live axle of air generation plants, is driven other devices or equipment movings such as countershaft by main shaft, realizes the driving function of air generation plants; Open the air inlet switch of aspirator bottle B and go out air cock and close the air inlet switch of aspirator bottle A simultaneously and go out air cock, air can enter aspirator bottle piston lower space by center hole from aspirator bottle piston upper space, and air backflows and the underpiston sheet rubber of aspirator bottle can be sealed center hole and turn back in the vacuum flask to prevent air, gas can be recovered to compressed air bottle like this.Synchronous with said process, can also open the air inlet switch of air feed bottle B and go out air cock, the replenish air in the external world can be arrived compressed air bottle; Main shaft drives the countershaft motion, under countershaft drives the gas of aspirator bottle and air feed bottle is filled in the compressed air bottle.
Working procedure three: after working procedure two is finished, open the air inlet switch of cylinder A and cylinder C and open the switch of compressed air bottle simultaneously to cylinder C, the air cock that goes out of cylinder B and cylinder D is opened the switch of vacuum flask to cylinder D simultaneously, the air inlet switch of vacuum flask piston B is air-breathing to cylinder D, vacuum flask piston A goes out air cock, the air inlet switch of aspirator bottle A and go out air cock, shifter cylinder A and cylinder C's goes out air cock simultaneously, the air inlet switch of cylinder B and cylinder D, vacuum flask piston B goes out air cock, the air inlet switch of vacuum flask piston A, the air inlet switch of aspirator bottle B and go out air cock.In this course, the piston of cylinder C is moved downward and do work thereby high-pressure air charges into cylinder C, simultaneously, the negative pressure that vacuum flask produces makes the piston of cylinder D move upward and do work; The cylinder piston acting produces power, and the driving force that the cylinder piston acting produces drives the motion of main shaft of the live axle of air generation plants, is driven other devices or equipment movings such as countershaft by main shaft, realizes the driving function of air generation plants; Open the air inlet switch of aspirator bottle A and go out air cock and close the air inlet switch of aspirator bottle B simultaneously and go out air cock, air can enter aspirator bottle piston lower space by center hole from aspirator bottle piston upper space, and air backflows and the underpiston sheet rubber of aspirator bottle can be sealed center hole and turn back in the vacuum flask to prevent air, gas can be recovered to compressed air bottle like this.Synchronous with said process, can also open the air inlet switch of air feed bottle A and go out air cock, the replenish air in the external world can be arrived compressed air bottle.Main shaft drives the countershaft motion, under countershaft drives the gas of aspirator bottle and air feed bottle is filled in the compressed air bottle.
Working procedure four: after working procedure three is finished, open the air inlet switch of cylinder B and cylinder D and open the switch of compressed air bottle simultaneously to cylinder B, to open vacuum flask simultaneously air-breathing to cylinder A to the switch of cylinder A for the air cock that goes out of cylinder A and cylinder C, the air inlet switch of vacuum flask piston A, vacuum flask piston B goes out air cock, the air inlet switch of aspirator bottle B and go out air cock, shifter cylinder B and cylinder D's goes out air cock simultaneously, the air inlet switch of cylinder A and cylinder C, vacuum flask piston A goes out air cock, the air inlet switch of vacuum flask piston B, the air inlet switch of aspirator bottle A and go out air cock.In this course, the piston of cylinder B is moved downward and do work thereby high-pressure air charges into cylinder B, simultaneously, the negative pressure that vacuum flask produces makes the piston of cylinder A move upward and do work; The cylinder piston acting produces power, and the driving force that the cylinder piston acting produces drives the motion of main shaft of the live axle of air generation plants, is driven other devices or equipment movings such as countershaft by main shaft, realizes the driving function of air generation plants; Open the air inlet switch of aspirator bottle B and go out air cock and close the air inlet switch of aspirator bottle A simultaneously and go out air cock, air can enter aspirator bottle piston lower space by center hole from aspirator bottle piston upper space, and air backflows and the underpiston sheet rubber of aspirator bottle can be sealed center hole and turn back in the vacuum flask to prevent air, gas can be recovered to compressed air bottle like this.Synchronous with said process, can also open the air inlet switch of air feed bottle B and go out air cock, the replenish air in the external world can be arrived compressed air bottle; Main shaft drives the countershaft motion, under countershaft drives the gas of aspirator bottle and air feed bottle is filled in the compressed air bottle.
Working procedure one, working procedure two, working procedure three, working procedure four are carried out and constantly circulation successively, produce the power that continues.
In the said process, each switch is controlled by circuit.The air feed bottle piston is identical with the working principle of aspirator bottle piston.
Above-described only is the preferred implementation of a kind of air generation plants of the utility model; should be understood that; for the person of ordinary skill of the art; under the prerequisite that does not break away from the utility model creation design; can also make some distortion and improvement, these all belong to protection domain of the present utility model.
Claims (4)
1. an air generation plants comprises that motor, air compressor, compressed air bottle, four cylinders reach and supporting cylinder piston, breathing pipe and the live axle of cylinder; It is characterized in that, comprise that also at least one vacuum flask and two groups of aspirator bottles reach and the supporting aspirator bottle piston of aspirator bottle, described vacuum flask is provided with two vacuum flask pistons, described vacuum flask piston is connected with cylinder by breathing pipe, described cylinder piston is connected with the vacuum flask piston by breathing pipe, and described aspirator bottle is connected with compressed air bottle by breathing pipe.
2. a kind of air generation plants as claimed in claim 1, it is characterized in that described aspirator bottle piston is made of iron plate and sheet rubber, the iron plate center is provided with circular hole, and the sheet rubber area is greater than iron plate center hole area, and described sheet rubber covers the center hole place at the iron plate back side.
3. a kind of air generation plants as claimed in claim 1 or 2 is characterized in that, described air generation plants also comprises two groups of air feed bottle, and described air feed bottle is provided with supporting air feed bottle piston, and described air feed bottle is connected with compressed air bottle by breathing pipe.
4. a kind of air generation plants as claimed in claim 3, it is characterized in that described air feed bottle piston is made of iron plate and sheet rubber, the iron plate center is provided with circular hole, and the sheet rubber area is greater than iron plate center hole area, and described sheet rubber covers the center hole place at the iron plate back side.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010205601100U CN201851163U (en) | 2010-10-12 | 2010-10-12 | Aerodynamic device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010205601100U CN201851163U (en) | 2010-10-12 | 2010-10-12 | Aerodynamic device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201851163U true CN201851163U (en) | 2011-06-01 |
Family
ID=44093562
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2010205601100U Expired - Fee Related CN201851163U (en) | 2010-10-12 | 2010-10-12 | Aerodynamic device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN201851163U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103206248A (en) * | 2012-09-06 | 2013-07-17 | 祥天控股(集团)有限公司 | Cylinders for variable multi-cylinder aerodynamic engine |
| CN103256074A (en) * | 2011-12-30 | 2013-08-21 | 佟政国 | High-pressure air magnetic power machine |
-
2010
- 2010-10-12 CN CN2010205601100U patent/CN201851163U/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103256074A (en) * | 2011-12-30 | 2013-08-21 | 佟政国 | High-pressure air magnetic power machine |
| CN103206248A (en) * | 2012-09-06 | 2013-07-17 | 祥天控股(集团)有限公司 | Cylinders for variable multi-cylinder aerodynamic engine |
| CN103206248B (en) * | 2012-09-06 | 2014-12-10 | 祥天控股(集团)有限公司 | Cylinders for variable multi-cylinder aerodynamic engine |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110601 Termination date: 20111012 |