CN205117416U - Scale up formula air energy driving system - Google Patents
Scale up formula air energy driving system Download PDFInfo
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- CN205117416U CN205117416U CN201520805536.0U CN201520805536U CN205117416U CN 205117416 U CN205117416 U CN 205117416U CN 201520805536 U CN201520805536 U CN 201520805536U CN 205117416 U CN205117416 U CN 205117416U
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Abstract
The utility model relates to a scale up formula air energy driving system, this scale up formula air energy driving system are established ties by a N totally enclosed circulation air energy driving system and form, set up the gearbox between per two sealed circulation air energy driving system, the gearbox is driven by previous totally enclosed circulation air energy driving system's power output shaft, gives power transmission next totally enclosed circulation air energy driving system's high pressure positive blower after the variable speed, connect alternator with one of them totally enclosed circulation air energy driving system's power output shaft, the booster fan that alternator is one and half sealed circulation air energy driving system provides power, the utility model discloses can use multipurposely air current physics characteristic, can realize the big power output effect of little power input, can break away from the totally enclosed circulation air energy driving system who relies on traditional energy again.
Description
Technical field
The utility model relates to air-powered motor technical field, particularly one incrementally power system with air as energy source.
Background technique
Current power system mainly contains the systems such as petrol engine, diesel engine, natural gas engine, electric motor.These motors are generally wanted oil firing, are burnt gas or provide the energy with storage battery.The motor of oil firing, burning gas has following defect: one is that petroleum and gas resources is few, price, increases operating cost; Two is all will discharge harmful tail gas, pollutant atmosphere, infringement health; Three is complex structure, heaviness, Operation and Maintenance difficulty.In order to overcome oil firing, burn the above-mentioned defect of gas motor, people are at the energy that research and development are new, with displace oil, gas, the solar engine succeeded in developing at present, the electric motor of storage battery, but all also do not reach universal degree, subject matter is that energy capacity is little, cost is expensive, and stroke is short.Users urgently wish that kind of an abundant raw material is easy to get, cheap, and structure is simple, does not produce harm, physical environment is not produced to the air motor system of pollution to human body.
In the process finding new energy, the thrust produced when it is found that and pressurized air can be utilized to discharge is as a kind of power source, then its thrust is converted into mechanical energy or electric energy, having disclosed some at present utilizes pressurized air to obtain the device of power, if the patent No. is open a kind of " gas-electricity power combined engine " in 00122383.1, the thrust that the literature utilizes electric energy and pressurized air to produce comprehensively obtains the energy, the generator that this motor utilizes still needs outside resources to drive, indirectly employ the external energy, therefore energy-conservation object can not be reached, in addition directly discharge after compressed air to do work in this motor, pressurized air after discharge does not make full use of, cause the waste of the energy.
In sum, invent a kind of fully utilize air-flow physical features, can realize low power-input high-power output effect, again can break away to traditional energy rely on power system with air as energy source, this power system with air as energy source by full closed endless form, half airtight endless form or incrementally mode implemented, will there is huge economic value and realistic meaning.
Summary of the invention
For the deficiency of prior art and product, the utility model reoffers one incrementally power system with air as energy source: this incrementally power system with air as energy source formed by N number of hermetically sealed circulating air energy source and power Cascade System; Between every two sealing circulating air energy source and power systems, gearbox is set; Described gearbox is driven by the pto=power take-off of previous hermetically sealed circulating air energy source and power system, power transmission is given the high pressure positive blower of next hermetically sealed circulating air energy source and power system after speed change; The pto=power take-off of one of them hermetically sealed circulating air energy source and power system is connected alternator, and described alternator provides power for the booster fan of a semitight circulating air energy source and power system.
Further, described hermetically sealed circulating air energy source and power system comprises high pressure positive blower, 1-N air engine working group, booster fan, alternator, storage battery, pto=power take-off, it is characterized in that: high pressure positive blower air outlet is connected with the 1st air engine working group suction port, N number of air engine working group air outlet is connected with high pressure positive blower suction port, thus makes this hermetically sealed circulating air energy source and power system be connected to form closed-circuit by pipeline; Multiple coaxial blade and rotor is comprised in described air engine working group; Between described coaxial bladed air motor and be all by connecting successively by the draw between 1-N air engine working group; Described booster fan is arranged between two adjacent air engine working groups, and booster fan suction port is connected with previous air engine working group air outlet, and booster fan air outlet is connected with a rear air engine working group suction port; Described 1-N air engine working group is provided with pto=power take-off, for output mechanical energy, wherein, the mechanical energy that described alternator is exported by an air engine working group pto=power take-off drives generating, and described alternator provides electric energy for described booster fan simultaneously; The energy of described high pressure positive blower is provided by storage battery.
Further, described semitight circulating air energy source and power system, comprise high pressure air storage storehouse, 1-N air engine working group, booster fan, alternator, pto=power take-off, air pressure control throttle valve, air nozzle, it is characterized in that: described high pressure air storage storehouse is connected with the suction port of the 1st air engine working group, the wherein suction port of booster fan and the suitable space length in relief opening interval of N air engine working group, and in same substantially horizontal, the corresponding installation of horizontal space; All by connecting successively by the draw between 1-N air engine working group; The all exportable mechanical energy of pto=power take-off of 1-N air engine working group, the mechanical energy that wherein said alternator is exported by an air engine working group pto=power take-off drives generating.
The beneficial effect of the utility model patent is:
(1) make full use of air self-energy and realize efficiency utilization.As everyone knows, in the space of our life, countless air molecules is had to do random unrestricted motion, but the kinetic energy that air molecule has is difficult to utilize, and native system utilizes outer power to make the two ends of sealed circulation system produce draught head, thus form air-flow directional flow, in the process of flowing, repeatedly utilize the function of gas motion, thus realize small-power input, the object of high-power output.
(2) make full use of air self-characteristic and carry out design effectively.Utilize the inertia feature of air-flow, what namely air-flow was often walked is the shortest nearest approach, what in confined space system, the work air cavity of air motor can design is larger, under the condition that air cavity is large, blade type power engine can obtain larger moment of torsion, take full advantage of the principle of lever, its method is, by the air-flow of the dispersion of a upper operation mechanism being carried out gathering next operation mechanism by the draw, because what air-flow was walked is the shortest nearest road, although air cavity is large, air-flow can not turn round, so it can move to next by the draw along the top shortcut of air cavity.
(3) fully uninterruptedly utilize by air motion characteristic: air-flow runs into obstacle, not only obstacle is produced to the effect of power, it also can carry out along obstacle the gap climbed or find between obstacle and flow through, next obstacle is produced to the effect of power, this is that solid matter or liquid substance motion not accomplished, the air motor utilizing this feature of air-flow to be designed to blade type can realize the recycling of the energy.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the utility model embodiment 1;
Fig. 2 is the flow chart of the utility model embodiment 1;
Fig. 3 is the structural drawing of high pressure positive blower;
Fig. 4 is the cut-away view of air engine working group;
Fig. 5 is the air flow circuits figure of the utility model embodiment;
Fig. 6 is high pressure positive blower fan structure figure;
Fig. 7 is a rotor, the blade structure figure of air engine working group;
Fig. 8 is the schematic diagram of the utility model embodiment 2;
Fig. 9 is the air nozzle of the utility model embodiment 2 and the schematic diagram of booster fan interface;
Figure 10 is the compressed gas flow circuti diagram of the utility model embodiment 2;
Figure 11 is the circuit diagram of the movable air energy power system of the utility model embodiment 2;
Figure 12 is air nozzle and the booster fan installation form schematic diagram of the utility model embodiment 2;
Figure 13 is the schematic diagram of the utility model embodiment 3.
1 high pressure positive blower, 1-1 high pressure positive blower suction port, 1-2 high pressure positive blower fan, 1-3 high pressure positive blower motor, 1-4 high pressure positive blower air outlet, 1-5, 1-6 high pressure positive blower cooling liquid, 1-7 high pressure positive blower refrigeration case shell, 2 air engine working groups, 2-1 the 1st air engine working group, 2-1-1 main shaft, 2-1-2 bottom surface, 2-1-3 upper bottom surface, 2-1-4 rotor, 2-1-5 blade, 2-2 the 2nd air engine working group, 2-3 the 3rd air engine working group, 2-4 the 4th air engine working group, 3-1 the 1st air engine working group pto=power take-off, 3-2 the 2nd air engine working group pto=power take-off, 3-3 the 3rd air engine working group pto=power take-off, 4 booster fans, 5 alternators, 6 chargers, 7 storage batteries, 8 other electric consumers, 9 charging air inlets, 10 by the draw, 11 high pressure tanks, 12 air pressure control throttle valve, 13 air nozzles, 14 ambient airs, 15 electric-control boards, 16 gearboxes.
Embodiment
Below in conjunction with embodiment, the utility model is described further, but is not limited to the content on specification.
Embodiment 1:
As shown in Figure 1-2, working principle and the flow process of hermetically sealed circulating air energy source and power system are described with the present embodiment.
Working principle is as follows: adopt and be filled with suitable pressurized gas to the common compressor of tyre inflating to space in the sealing circulation of hermetically sealed circulating air energy source and power system, when high pressure positive blower 1 works, the air outlet 1-4 of high pressure positive blower 1 produces pressurized gas, the suction port 1-1 of high pressure positive blower 1 produces low pressure, pressure difference has been there is in the Inner eycle space of sealing, under the environment of pressure difference, highpressure air-flow moves to lowpressure direction, when high pressure positive blower 1 works, pressure gas stream is had constantly to circulate, in the process, the Inner eycle design of sealing makes full use of the physical property of air-flow, constantly energy is obtained from the kinetic energy of air movement, thus realize small-power input, the object of high-power output.
Its workflow is as follows: the air outlet 1-4 of high pressure positive blower 1 is arranged on the upper bottom surface 2-1-3 of the cylindrical cross section of the 1st air engine working group, the tip in the blade 2-1-5 in pressure gas stream promotion the 1st air engine working group chamber that has of motion is made to produce motion, blade 2-1-5 rotor driven 2-1-4, rotor 2-1-4 drives main shaft 2-1-1, by by the draw 10, the diffusing air current after utilization is assembled again, speedup, supercharging, as accompanying drawing 2(by the air outlet of the draw 10 still at the top of active chamber), the pressure gas stream that has of motion promotes the blade of the 2nd air engine working group 2-2, blade drives coaxial rotor, rotor drives main shaft, repeat successively, until the air outlet of the 3rd air engine working group 2-3 is connected with the suction port 1-1 of high pressure positive blower, form sealing and circulating.As shown in Figure 1, 2, the position of booster fan 4 is flexibly.Obtain in the process of air energy in circulation, air engine working group pto=power take-off 3-1,3-2,3-3 output mechanical energy, some mechanical can be converted into electric energy by generator 5, adopt storage battery to electric energy to timely storage, there is provided the energy to booster fan 4, making it can be self-sufficient in movement process simultaneously.
As shown in Figure 3, hermetically sealed circulating air energy source and power system described in the utility model high pressure positive blower 1 used is most important, and the selection of high pressure positive blower 1 has two principles: the compression gas flow that (1) produces is large; (2) compression pressure is large.The high pressure positive blower 1 of native system designs see Fig. 3, high pressure positive blower 1 comprises: high pressure positive blower suction port 1-1, high pressure positive blower fan 1-2, for the blade fan with certain sphere, high pressure positive blower motor 1-3, high pressure positive blower air outlet 1-4, high pressure positive blower cooling liquid 1-5,1-6, high pressure positive blower refrigeration case shell 1-7, refrigeration case shell has effect of heat radiation.High pressure positive blower fan 1-2 is see Fig. 6, Fig. 6 is the tectonic maps of sphere multi blade fan, cumulated volume figure analyzes, the rotation speed requirements of motor 1-3 is more high better, the multiple-blade be arranged on sphere is to increase acting area, under motor 1-3 runs up, the mutliblade air pressure rotating generation high flow capacity, with the change of volume, make it to produce highpressure, but this fan noise is large, therefore installs a high pressure positive blower refrigeration case shell 1-7 additional in the external space of high pressure positive blower, so both by noise, can play again the effect of cooling.
See Fig. 4, for the 1st air engine working group 2-1, space partition in the cylindrical body of airtight air engine working group 2-1 is become multiple equivalent small cylinder confined space by the application, cylindrical body upper bottom surface 2-1-3 and bottom surface 2-1-2 adopts larger diameter to arrange, the height h of active chamber as shown in Figure 4, according to the rotor 2-1-4 length be fixed on main shaft 2-1-1 with determine by the length of stretching out before and after the draw 10, avoid the height wasting active chamber, in order to avoid cause unnecessary air pressure to fall.The main shaft 2-1-1 of the 1st air engine working group 2-1 as shown in Figure 4, home position on the cross section of cylindrical upper bottom surface 2-1-3 and bottom surface 2-1-2 and each air cavity installs a stuffing box bearing respectively, whole main shaft 2-1-1 crosses each bearing, bearing is installed on the inwall of bottom surface 2-1-2, main shaft 2-1-1 does not stretch out outside bottom surface 2-1-2, outside the main shaft 2-1-1 stretching wall of upper bottom surface 2-1-3, as Power output, connect with the external world bearing that melts and main shaft 2-1-1 should carry out seal approach, ensure that absolute air-flow does not leak.
See Fig. 7, the rotor 2-1-4 of the 1st air engine working group 2-1 and the mounting point of blade 2-1-5, turning 2-1-4 is cylindrical body on a fixed main shaft 2-1-1, cylindrical rotor 2-1-4 becomes 75 degree with main shaft 2-1-1 on Impact direction, and multiple blade 2-1-5 is that bias is arranged on cylindrical side, and concrete installation method is see Fig. 7, blade 2-1-5 stress surface becomes 165 degree of torsional angle designs, the quantity visual space size of blade 2-1-5 determines, minimum 10, multiple tens.In order to obtain the outputting power direction that same direction rotates, only blade installation position on rotor need be adjusted.Structure and the high pressure positive blower 1 of booster fan 4 design identical.
Pipeline and be arranged on the top of air engine working group cross section by the draw 10, see Fig. 2.
Hermetically sealed circulating air energy source and power system is embodied in four large advantages:
High pressure positive blower Action advantage: the air outlet 1-4 of high pressure positive blower 1 not only produces pressurized gas, and the suction port 1-1 of high pressure positive blower can take intrasystem gas away, effectively can reduce the air pressure decline that air-flow moves in internal system.That is, after being filled with suitable pressurized gas in advance in system, high pressure positive blower 1 has pressure gas stream except generation, and can high pressure positive blower 1 have except the thrust had after load, undertaken passing to air engine working group 2-1,2-2,2-3 by pressurized gas.
High pulling torque advantage: the inertia utilizing air motion, makes air-flow at the top movements of active chamber by pipeline or by the draw 10, thus makes air engine working group 2-1,2-2,2-3 obtain high pulling torque.
Discrete type blade arranges advantage: utilize air-flow to run into obstacle, its can carry out climbing or along the rule of the intermittent motion between obstacle along obstacle, discrete type blade 2-1-5 not only obtains energy, and air pressure herein falls and not quite, the most important thing is energy repeated obtain energy.
Save outer defeated energy advantages: on the basis of former three, achieve small-power input, under the prerequisite of high-power output, be electric energy by the changes mechanical energy of the part of acquisition, part electric energy drives booster fan 4 to work by alternator 5, its objective is the load reducing high pressure positive blower 1, (pass through circuit control system, make the starting of high pressure positive blower 1 height, after booster fan 4 works, high pressure positive blower 1 is made to move again in the reasonable scope), another part electric energy adopts as shown in Figure 2, one machine one fills, an i.e. corresponding storage battery 7 of charger 6, storage battery 7 is charged in time, the object of both is all reduce the dependence to civil power.
Embodiment 2:
As shown in Figure 8, the working principle of semitight circulating air energy source and power system is described with the present embodiment.Semitight circulating air energy source and power system comprises high pressure air storage storehouse 11,1-4 air engine working group 2-1,2-2,2-3,2-4, booster fan 4, alternator 5, pto=power take-off 3-2, and air pressure controls throttle valve 12, air nozzle 13.Wherein said high pressure air storage storehouse 11 is connected with the suction port of the 1st air engine working group 2-1, the wherein suction port of booster fan 4 and the suitable space length in relief opening interval of the 4th air engine working group 2-4, and in same substantially horizontal, the corresponding installation of horizontal space, the pto=power take-off 3-2 output mechanical energy of the 2nd air engine working group 2-2, wherein, the mechanical energy that described alternator 5 is exported by the 3rd air engine working group pto=power take-off drives generating.It is the air compressor of power that described booster fan 4 adopts with motor, and its power can be provided by described alternator 5, also can be provided by storage battery 7 or civil power.Original pressurized gas and the supplementary pressurized gas in described high pressure air storage storehouse 11 provide by booster fan 4.
Described air nozzle 13 adopts the cylindrical conduit of important actor shape, ensures that the gas of ejection is concentrated and linearly moves, as shown in Figure 9.Described booster fan adopts that a pipeline enters, multi-pipeline shunting.As Fig. 9, multiple stage booster fan 4 can be adopted to carry out supercharging, avoid body of calming the anger herein can not be pressurized to high pressure air storage storehouse 11 in time, and occur excessive, cause the waste of body of calming the anger.The cost of production of pressurized gas is high, therefore utilizes secondary body of calming the anger to carry out repressurize, effectively can reduce the load of booster fan 4.
When described air pressure control throttle valve 12 cuts out, the air pressure of whole system inside shows as the static pressure to wall, when air pressure control throttle valve is opened, there is draught head in air pressure and the external world of internal system, body of calming the anger sprays from air nozzle 13 with ultrasonic speed, air pressure in the active chamber of air nozzle 13 reduces, gas below comes right away supplementary, and a large amount of pressurized gass is in high pressure air storage storehouse 11, so whole system inside has pressure gas stream can start orientation movement along pipeline with by the draw, as Figure 10, utilize the technology of embodiment 1 that the kinetic transformation of air motion is become mechanical or electrical energy on this basis, as Fig. 8, and the most important is, the pressurized gas sprayed from air nozzle 13 has this 2 advantages, one is defer to the law of inertia, namely original motion state and moving line is kept.Two are air nozzles 13 with the suction port several centimetres of booster fan 4 every, the density of the pressurized gas of ejection and pressure change little, utilize booster fan 4 to pressurize a little and can import high pressure air storage storehouse 11, formation recycles.
Control throttle valve 12 from air pressure to open, generate electricity to alternator 5, then to work this process to booster fan 4, there is an of short duration time, will certainly cause the waste of the pressurized gas of ejection in this time difference, in order to make up this defect, the measure taked is automatically controlled conversion.
The air engine of movement, first provides electric energy with storage battery 7, and booster fan 4 is first worked, then opens air pressure control throttle valve 12, after alternator 5 normally starts, cuts off storage battery 7 and powers, power, as Figure 11 with alternator 5.
The air engine that position is fixing, directly starts booster fan 4 with civil power, then opens air pressure control throttle valve 12, after alternator 5 normally starts, can cut off civil power alternator 5 and power.
The variation that booster fan 4 and air nozzle 13 are installed, can adopt the installation form as Figure 12.Between air nozzle 13 and the suction port of booster fan 4, close into a large space, its objective is reduction noise.
Semitight circulating air energy source and power system only need once be inflated, and oneself can provide pressurized gas, thus can break away from the dependence to traditional energy during working machine work.In addition, the body of calming the anger after utilization can also reclaim by semitight circulating air energy source and power system.
Embodiment 3:
Embodiment 1 and embodiment 2 basis arrange in pairs or groups, form incrementally power system with air as energy source, as Figure 13, first, to be produced mechanical energy output by the high pressure positive blower of the 1st combined full-sealing circulating air energy source and power system, the high pressure positive blower running of the 2nd combined full-sealing circulating air energy source and power system is driven after gearbox process, exported by the mechanical energy produced under the high pressure positive blower effect of second group again, the 3rd combined full-sealing circulating air energy source and power system is driven through gearbox, can increase successively, can be used for generating electricity by the some mechanical of the 2nd combined full-sealing circulating air energy source and power system, produce electric energy and provide power for the air booster of half-sealed system, whole process, inputted by original less outer power, several times are increased to by little to increasing progressively rear energy, tens times, even several ten thousand times, be not used under space-constrained condition generating electricity.
Finally it should be noted that, above embodiment is only in order to illustrate the technical solution of the utility model and unrestricted, although be described in detail the utility model with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify to the technical solution of the utility model or equivalent replacement, and not departing from the spirit and scope of technical solutions of the utility model, it all should be encompassed in the middle of right of the present utility model.
Claims (3)
1. an incrementally power system with air as energy source, is characterized in that: this incrementally power system with air as energy source formed by N number of hermetically sealed circulating air energy source and power Cascade System; Between every two sealing circulating air energy source and power systems, gearbox is set; Described gearbox is driven by the pto=power take-off of previous hermetically sealed circulating air energy source and power system, power transmission is given the high pressure positive blower of next hermetically sealed circulating air energy source and power system after speed change; The pto=power take-off of one of them hermetically sealed circulating air energy source and power system is connected alternator, and described alternator provides power for the booster fan of a semitight circulating air energy source and power system.
2. incrementally power system with air as energy source according to claim 1, it is characterized in that: described hermetically sealed circulating air energy source and power system comprises high pressure positive blower, 1-N air engine working group, booster fan, alternator, storage battery, pto=power take-off, high pressure positive blower air outlet is connected with the 1st air engine working group suction port, N number of air engine working group air outlet is connected with high pressure positive blower suction port, thus makes this hermetically sealed circulating air energy source and power system be connected to form closed-circuit by pipeline; Multiple coaxial blade and rotor is comprised in described air engine working group; Between described coaxial bladed air motor and be all by connecting successively by the draw between 1-N air engine working group; Described booster fan is arranged between two adjacent air engine working groups, and booster fan suction port is connected with previous air engine working group air outlet, and booster fan air outlet is connected with a rear air engine working group suction port; Described 1-N air engine working group is provided with pto=power take-off, for output mechanical energy, wherein, the mechanical energy that described alternator is exported by an air engine working group pto=power take-off drives generating, and described alternator provides electric energy for described booster fan simultaneously; The energy of described high pressure positive blower is provided by storage battery.
3. incrementally power system with air as energy source according to claim 1, it is characterized in that: described semitight circulating air energy source and power system, comprise high pressure air storage storehouse, 1-N air engine working group, booster fan, alternator, pto=power take-off, air pressure control throttle valve, air nozzle, described high pressure air storage storehouse is connected with the suction port of the 1st air engine working group, the wherein suction port of booster fan and the suitable space length in relief opening interval of N air engine working group, and in same substantially horizontal, the corresponding installation of horizontal space; All by connecting successively by the draw between 1-N air engine working group; The all exportable mechanical energy of pto=power take-off of 1-N air engine working group, the mechanical energy that wherein said alternator is exported by an air engine working group pto=power take-off drives generating.
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CN201520335376.8U CN204877557U (en) | 2015-05-22 | 2015-05-22 | Totally enclosed circulating air energy driving system |
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CN201520805536.0U Expired - Fee Related CN205117416U (en) | 2015-05-22 | 2015-05-22 | Scale up formula air energy driving system |
CN201520806234.5U Expired - Fee Related CN205117417U (en) | 2015-05-22 | 2015-05-22 | Half sealed circulation air energy driving system |
CN201520335376.8U Expired - Fee Related CN204877557U (en) | 2015-05-22 | 2015-05-22 | Totally enclosed circulating air energy driving system |
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CN201520806234.5U Expired - Fee Related CN205117417U (en) | 2015-05-22 | 2015-05-22 | Half sealed circulation air energy driving system |
CN201520335376.8U Expired - Fee Related CN204877557U (en) | 2015-05-22 | 2015-05-22 | Totally enclosed circulating air energy driving system |
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CN108457687A (en) * | 2018-03-16 | 2018-08-28 | 河北工程大学 | A kind of novel energy-conserving coal mine pressure fan |
CN112443363A (en) * | 2019-09-05 | 2021-03-05 | 柳保来 | Self-help supercharging and value-added generator set |
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