CN1443939A - Pneumatic hydraulic power equipment - Google Patents
Pneumatic hydraulic power equipment Download PDFInfo
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- CN1443939A CN1443939A CN 03112195 CN03112195A CN1443939A CN 1443939 A CN1443939 A CN 1443939A CN 03112195 CN03112195 CN 03112195 CN 03112195 A CN03112195 A CN 03112195A CN 1443939 A CN1443939 A CN 1443939A
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- impeller
- bearing
- bearing support
- blade
- main shaft
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Abstract
The present invention relates to a pneuamtic hydraulic power equipment. It at least includes machine frame, bearing seat mounted on the machine frame, bearing and shaft compling mounted in the bearing seat, main shaft mounted on the bearing, blade wheel formed from even-number hollow cavity blades which is mounted on the main shaft, gas bag mounted in hollow cavity of every blade, pneumatic electromagnetic valve mounted on the machine frame and communication with gas bag by means of gas circuit, gas pipe and conductor communicated with electromagnetic valve, compressed air supply and pumping system communicated with gas pipe and computer electric control system connected with conductor.
Description
Technical field
The invention belongs to the field of power equipment technology of carrying out transformation of energy, more specifically to the design of pneumatic hydraulic power pack.
Background technique
The existing power plant that carry out transformation of energy are of a great variety, such as steamer, water turbine, steam turbine, motor, boiler, generator or the like.These power plant can carry out different transformation of energy, satisfy the work done needs of different occasions.But the not outer straight line motion of its output, rotatablely move and steam, electric power etc.Up to now, still there is not a kind of both exportable reciprocal swing, exportable again along the swing of circumference circuit, can also export the power plant of conventional rotation.This power plant are very necessary under some applicable cases.For satisfying the actual demand under these situations, the present practice designs special mechanical device often and carries out movement conversion.The general structure of this type of mechanical device that is used to change is very complicated, involves great expense, and is difficult to penetration and promotion, and therefore its application area also just is restricted greatly.
Purpose of the present invention, just be to overcome above-mentioned shortcoming and defect, provide a kind of with the both exportable reciprocal swing of its different concrete structure, exportablely again swing along the circumference circuit, can also export conventional rotation, can satisfy the actual demand under some applicable cases, and simple in structure, be suitable for the pneumatic hydraulic power pack that popularizes.
Summary of the invention
In order to achieve the above object, the present invention comprise frame, rack-mounted bearing support at least, be installed in bearing or shaft joint in the bearing support, be installed in main shaft on the bearing, be installed in the impeller formed by even number cavity blade on the main shaft, the air bag in the cavity that is installed in each blade, be installed on the frame and tracheae that the gas that is communicated with gas circuit with air bag is communicated with solenoid valve with solenoid valve, with gas and lead, with the pressurized air supply of tracheae connection and extraction system and the computer electric control system that is connected with lead.Two relative blades interconnect into closed chamber, water-filling between the wall of blade and the air bag.
The present invention is work like this: starting air is supplied with and the extraction system, and supplies with and the extraction system with solenoid valve and pressurized air with computer electric control system control gas.Make one in two air bags in two relative blades supply with pressurized air by solenoid valve, another is drawn out of air simultaneously.So the water in two relative blade closed chamber just flows to the blade that deflates from supplying with compressed-air actuated blade, makes its center of gravity generation inversion.Operational computations electromechanical device control system, make it follow procedure and control the center of gravity inversion of two relative blades successively, just can realize the reciprocal swing (when two blade levels are installed) of whole impeller, perhaps along the axial runout of circumference circuit (when 4 above even leaves levels are installed), perhaps Chang Gui rotation (when 2 above even leaves are vertically installed).
About bearing support and bearing can respectively have two.About two bearings be installed in respectively about in the bearing support installed of two levels, about main shaft is installed in two bearings.Impeller is made of two blades, and the center of impeller is articulated on the main shaft, and impeller is in a horizontal position during balance.Starting air is supplied with and the extraction system, and supplies with and the extraction system with solenoid valve and pressurized air with computer electric control system control gas.Make one in two air bags in two relative blades supply with pressurized air by solenoid valve, another is drawn out of air simultaneously.So the impeller of this structure is just swung as seesaw one on the other.
The present invention also can adopt shaft joint.Shaft joint is a kind of Rzeppa type synchronous universal shaft joint, and the driving shaft of Rzeppa type synchronous universal shaft joint is installed in the bearing support, and its driven shaft and main shaft are connected.Impeller is made of the even number blade more than 4, and impeller is in a horizontal position during balance.Starting air is supplied with and the extraction system, and supplies with and the extraction system with solenoid valve and pressurized air with computer electric control system control gas.Make one in two air bags in two relative blades supply with pressurized air by solenoid valve, another is drawn out of air simultaneously.Make the computer follow procedure control the center of gravity inversion of two relative blades successively simultaneously, so, impeller just around Rzeppa type synchronous universal shaft joint along circumference axial runout circularly.
Bearing support also can be flange shape, and Bearing Installation is the heart therein, and main shaft is installed in bearing centre.Arranging the number concentric annular groove identical on the bearing support with the number of blade, the left open of all concentric annular grooves, the right side respectively has an air inlet/outlet.Tracheae is installed in the air inlet/outlet, and the other end of tracheae is communicated with solenoid valve with gas.The right side of impeller central part fits tightly on the left side of bearing support.Each is communicated with each air bag in each blade with a specific concentric annular groove left side.Between the right side of impeller central part and the left side of bearing support seal ring is installed, seal ring is distributed between each concentric annular groove and the outside of a concentric annular groove of outermost and the inboard of the interior logical thimble groove.A nut that itself and bearing support are adjacent to is installed on the main shaft, and nut is positioned at the right side of bearing, and impeller becomes the vertical position.
Starting air is supplied with and the extraction system, and supplies with and the extraction system with solenoid valve and pressurized air with computer electric control system control gas.Make one in two air bags in two relative blades supply with pressurized air by solenoid valve, another is drawn out of air simultaneously.Make the computer follow procedure control the center of gravity inversion of two relative blades successively simultaneously, so impeller is just around its axle center rotation.This moment, pressurized air passed in and out air bag by the air inlet/outlet and the concentric annular groove of tracheae, solenoid valve, tracheae, bearing support successively.Though the relative rotation with bearing support of impeller, because of mouthful being communicated with concentric annular groove all the time of air bag, the gas circuit of air bag also remains unimpeded.The present invention can also be by wind-force with more energy-conservation.
Task of the present invention comes to this and finishes.
The invention provides a kind of with the both exportable reciprocal swing of its different concrete structure, exportablely again swing along the circumference circuit, can also export conventional rotation, can satisfy the special requirement under common and some situation, and simple in structure, be suitable for the pneumatic hydraulic power pack that popularizes.Applicable to power provide, occasion such as generating, large-scale game machine, aviation and navigation boiler-plate, purposes is very extensive.
Description of drawings
Fig. 1 is the structural representation of the embodiment of the invention 1.
Fig. 2 is the fundamental diagram of its solenoid valve.
Fig. 3 is embodiment 2 a structural representation.
Fig. 4 is embodiment 3 a structural representation.
Embodiment
1. 1 kinds of pneumatic hydraulic power packs of embodiment, as shown in Figure 1.Which comprises at least frame 1, rack-mounted bearing support 2, be installed in the bearing 3 on the bearing support 2, be installed in the main shaft 4 on the bearing 3, be installed in the impeller of forming by 2 cavity blades 5 of even number on the main shaft 4, be installed in the air bag 6 in the cavity of each blade 5, the gas that is installed on the frame 1 and is communicated with gas circuit 7 with air bag 6 is with solenoid valve 8, the tracheae 9 and the lead 10 that are communicated with solenoid valve 8 with gas, with the pressurized air that tracheae 9 is communicated with supply with 11 with extraction system 12 and the computer electric control system 13 that is connected with lead 10.Two relative blades 5 interconnect into closed chamber, water-filling 14 between the wall of blade 5 and the air bag 6.
About bearing support 2 and bearing 3 respectively have two.About two bearings 3 be installed in respectively about in two bearing supports 2, about main shaft 4 is installed in two bearings 3.Impeller is made of two blades 5, and the center of impeller is articulated on the main shaft 4, and impeller is in a horizontal position during balance.
Consult Fig. 2, gas is a kind of 3-position-3-way solenoid valves with solenoid valve 8, and position, a left side is used to supply with pressurized air, and right position is used to deflate.
Embodiment's 1 output swing one on the other can be used for children and uses occasions such as game machine, Sport boat, vibration experiment machine.
2. 1 kinds of pneumatic hydraulic power packs of embodiment, as shown in Figure 3.Present embodiment adopts the shaft joint structure.Shaft joint is a kind of Rzeppa type synchronous universal shaft joint 15, and the driving shaft of Rzeppa type synchronous universal shaft joint 15 is installed in the bearing support 2, and its driven shaft and main shaft 4 are connected.Impeller is made of 4 blades 5, and impeller is in a horizontal position during balance.
Embodiment's 2 outputs are along circumference axial runout circularly.Can be used for occasions such as large-scale game machine-sea rover, aviation and navigation simulated training cockpit.
3. 1 kinds of pneumatic hydraulic power packs of embodiment, as shown in Figure 4.Bearing support 2 is a flange shape, and bearing 3 is installed in its center, and main shaft 4 is installed in bearing 3 centers.Arranging the number concentric annular groove 16 identical on the bearing support 2 with the number of blade, the left open of all concentric annular grooves 6, the right side respectively has an air inlet/outlet 17.Tracheae 18 is installed in the air inlet/outlet 17, and the other end of tracheae 18 is communicated with solenoid valve 8 with gas.The right side of impeller central part fits tightly on the left side of bearing support 2.Each air bag 6 in each blade 5 respectively is communicated with specific concentric annular groove 16 left sides.Seal ring 19 is installed between the left side of the right side of impeller central part and bearing support 2, and seal ring 19 is distributed between each concentric ring 16 and the outside of a concentric annular groove 16 of outermost and the inboard of the interior logical thimble groove 16.A nut 20 that impeller and bearing support 2 are adjacent to is installed on the main shaft 4, and nut 20 is positioned at the right side of bearing 3, and impeller becomes vertical position.
Embodiment's 3 outputs are rotated.The connection relative assembly promptly can be used for generating electricity on its main shaft, power provides etc.
Claims (4)
1. pneumatic hydraulic power pack, it is characterized in which comprises at least frame, rack-mounted bearing support, be installed in bearing or shaft joint in the bearing support, be installed in the main shaft on the bearing, be installed in the impeller of forming by even number cavity blade on the main shaft, be installed in the air bag in the cavity of each blade, the gas solenoid valve that is installed on the frame and is communicated with gas circuit with air bag, the tracheae and the lead that are communicated with solenoid valve with gas, supply with and extraction system and the computer electric control system that is connected with lead with the pressurized air that tracheae is communicated with, two relative blades interconnect into closed chamber, water-filling between the wall of blade and the air bag.
2. according to the described pneumatic hydraulic power pack of claim 1, it is characterized in that said bearing support and bearing respectively have about two, about two bearings be installed in respectively about in two bearing supports, about main shaft is installed in two bearings, impeller is made of two blades, the center of impeller is articulated on the main shaft, and impeller is in a horizontal position during balance.
3. according to the described pneumatic hydraulic power pack of claim 1, it is characterized in that said shaft joint is a kind of Rzeppa type synchronous universal shaft joint, the driving shaft of Rzeppa type synchronous universal shaft joint is installed in the bearing support, its driven shaft and main shaft are connected, impeller is made of the even number blade more than 4, and impeller is in a horizontal position during balance.
4. according to the described pneumatic hydraulic power pack of claim 1, it is characterized in that said bearing support is a flange shape, Bearing Installation is the heart therein, arranging the number concentric annular groove identical on the bearing support with the number of blade, the left open of all concentric annular grooves, the right side respectively has an air inlet/outlet, tracheae is installed in the air inlet/outlet, the other end of tracheae is communicated with solenoid valve with gas, the right side of impeller central part fits tightly on the left side of bearing support, each is communicated with each air bag in each blade with a specific concentric annular groove, between the right side of impeller central part and the left side of bearing support seal ring is installed, seal ring is distributed between each concentric annular groove and the outside of a concentric annular groove of outermost and the inboard of the interior logical thimble groove, a nut that itself and bearing support are adjacent to is installed on the main shaft, nut is positioned at the right side of bearing, and impeller becomes vertical position.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 03112195 CN1443939A (en) | 2003-04-28 | 2003-04-28 | Pneumatic hydraulic power equipment |
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Application Number | Priority Date | Filing Date | Title |
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CN 03112195 CN1443939A (en) | 2003-04-28 | 2003-04-28 | Pneumatic hydraulic power equipment |
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CN 03112195 Pending CN1443939A (en) | 2003-04-28 | 2003-04-28 | Pneumatic hydraulic power equipment |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100429396C (en) * | 2006-08-14 | 2008-10-29 | 郭志坤 | Systematic device using gravitation power generation |
CN102418499A (en) * | 2011-12-19 | 2012-04-18 | 刘典军 | Pneumatic oilfield pumping unit |
CN102518559A (en) * | 2011-12-19 | 2012-06-27 | 刘典军 | Wind power and low-pressure steam turbine hybrid energy-storage cycle power generation system |
CN103062020A (en) * | 2012-12-14 | 2013-04-24 | 刘典军 | Air bag type air compressor and air compression system |
WO2014106421A1 (en) * | 2013-01-05 | 2014-07-10 | 青岛格兰德新能源有限公司 | Pneumatic hydraulic potential circulating power generation system |
-
2003
- 2003-04-28 CN CN 03112195 patent/CN1443939A/en active Pending
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100429396C (en) * | 2006-08-14 | 2008-10-29 | 郭志坤 | Systematic device using gravitation power generation |
CN102418499A (en) * | 2011-12-19 | 2012-04-18 | 刘典军 | Pneumatic oilfield pumping unit |
CN102518559A (en) * | 2011-12-19 | 2012-06-27 | 刘典军 | Wind power and low-pressure steam turbine hybrid energy-storage cycle power generation system |
CN102518559B (en) * | 2011-12-19 | 2014-07-16 | 刘典军 | Wind power and low-pressure steam turbine hybrid energy-storage cycle power generation system |
CN103062020A (en) * | 2012-12-14 | 2013-04-24 | 刘典军 | Air bag type air compressor and air compression system |
WO2014090117A1 (en) * | 2012-12-14 | 2014-06-19 | 青岛格兰德新能源有限公司 | Airbag-type air compressor and air compression system |
WO2014106421A1 (en) * | 2013-01-05 | 2014-07-10 | 青岛格兰德新能源有限公司 | Pneumatic hydraulic potential circulating power generation system |
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