CN102003755A - Closed-loop circulating cold energy water producing air conditioner power generating device on building delivery vehicle - Google Patents

Abstract

The invention discloses a closed-loop circulating cold energy water producing air conditioner power generating device on a building delivery vehicle. The power generating device consists of a high-pressure liquid injection device, a temperature difference condensation water producing device, a helicoid magnetic suspension gas turbine generator set, a booster fan, a vortex tube nitrogen producing heat exchange device and a self-controlling device. The device realizes an air conditioning system which generates electricity and produces water, cold and heat in the gasification and liquefaction circulating process with micro energy consumption of low-cost recyclable liquid nitrogen, so that a low-cost permanent water source, a cold and heat air conditioner and all needed electric power are provided for regions which are droughty, lack water and electric power, become cold or heat unsteadily and are unsuitable for human beings to live in the world, such as all deserts, barren mountains and plateaus.

Description

Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle

Technical field:

The present invention relates to the closed cycle cold energy system water air conditioning electric generating device on a kind of building delivery vehicle, particularly relate to a kind of device that utilizes cheap liquid nitrogen that inexhaustible cleaning water source, hot and cold air-conditioning and required all electric power are provided for building, all delivery vehicles in the closed cycle process of little energy consumption nitrogen and liquid nitrogen.

Background technology:

All the time, regional drought and water shortages such as desert and plateau, hot and cold impermanence more lacks electric power, water all is by collecting rainwater and snow-broth or the outer water of transporting, more than two kinds of method major defects be to store rainwater and snow-broth for a long time, will make water quality rotten; The external water of transporting, through long-time transportation at a distance, water quality is bad and cost is high; The hot and cold impermanence that causes of arid throughout the year and lack electric power causes very big difficulty to human survival; At present, be still boiler for steam turbine generator provides the device of power, it " is heated working medium " is water, and water is heated vaporization and produces the generating of high steam driving steam turbine.It not only will consume a large amount of water, more will consume oil, coal, natural gas equal energy source that a large amount of being used to adds hot water.For exploitation, transport and store these energy and not only will expend a large amount of manpower and financial resources, and waste gas and waste residue that they are discharged after burning pollute environment again.I am the weak point in " a kind of energy source device " of application on February 24th, 2000: because of establishing a plurality of gas liquid exchangers, make device volume increase that cost increases and because the step-down cylinder is located at the gas liquid exchanger lower end, liquid cryogenic fluid is difficult under the same pressure state to be back in the gas liquid exchanger smoothly, cause device running difficulty, during " a kind of energy source device " long-term operation, cold energy consumption can't replenish in addition.And I am in the deficiency in " the temperature difference condensation water making heat supplying air conditioning electricity generation system " of on March 4th, 2002 application: make device volume increase, make device to start complicated and cause the cost raising because of establish one group of fluid injection jar and gas liquid exchanger more.During putting into practice, " the hot air-conditioning system of cold energy generation system water-cooled " of authorizing on June 20th, 2007 can't do work because of cold air effective recovery of failing; Rotatable parts because of water generator in PCT/CN2007/001345 in 2007 " cold energy generation, the system water-cooled hot air-conditioning system " practice are many, can't be made water and pause by freezing in the running; Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle in November, 2008 application and that obtain utility model patent, application number: 2008201787419, xQ007082269211, sequence number: 082H874192250109730.Because of the icing phenomenon that adopts the system nitrogen heating plant that the water-cooled heat exchange produces causes device to run well.

Summary of the invention:

In view of the above fact, the purpose of this invention is to provide a kind of more scientific and reasonable scheme and utilize the generating in the cyclic process of the gasification of little energy consumption and liquefaction of liquid nitrogen that cheapness can be recycled, system water, hot and cold air-conditioning system, make all deserts, deserted mountain, plateau drought and water shortage in the world, hot and cold impermanence, the area that lacks electric power incompatibility human living is all obtained cheap permanent water, hot and cold air-conditioning and required all electric power.

Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle provided by the present invention is to be made of: high pressure priming device, temperature difference condensation water making device, snail type magnetic suspension turbo-generator group, snail type magnetic suspension booster fan, eddy current tubular type system nitrogen heat-exchanger rig and self-con-tained unit;

Wherein said high pressure priming device is that the outer low temperature resistant metal steel of interior usefulness of making insulation by heat-insulating material are made and established three through holes, two fluid injection jars of the A that divides into a through hole, B on the hollow cylindrical housing of upper and lower dribbling top;

First through holes of its A, two fluid injection tank tops of B each by high pressure nitrogen inlet tube of electrically-controlled valve control and connect back and snail type magnetic suspension turbo-generator group gas outlet, first vortex tube middle part of eddy current tubular type system nitrogen heat-exchanger rig the high pressure gas inlet and connect, wherein between the high pressure nitrogen inlet tube that tank body through hole and electrically-controlled valve are controlled, also be provided with the fluid injection mouth of pipe by solenoid control;

Second through hole of its A, two fluid injection tank tops of B each by normal pressure liquid nitrogen inlet tube of electrically-controlled valve control and connect the back and link to each other with the normal pressure liquid nitrogen outlet of the 4th vortex tube end of eddy current tubular type system nitrogen heat-exchanger rig,

The 3rd through hole in its A, two fluid injection tank tops of B is each exhaust outlet by automatic exhaust steam valve control;

The through hole of its A, two fluid injection pot bottoms of B each by high-pressure liquid nitrogen outlet of electrically-controlled valve control and connect water generator in back and the temperature difference condensation water making device A, two groups of tubular type temperature difference condensation water makings of B device top each link to each other by solenoid control and the high-pressure liquid nitrogen inlet tube that connects;

Described temperature difference condensation water making device be by: water generator and multitube are changed cold storage tank and are constituted;

Described water generator is to be made of: A, B two groups of tubular type temperature difference condensation water makings device and heat insulation shell;

Wherein said A, two groups of tubular type temperature difference condensation water makings of the B device that is installed in the heat insulation shell be each by: cast outer a plurality of steel pipes of setting triangle steel sheet string type by low temperature resistant metal material and combine;

The high-pressure liquid nitrogen inlet of its upper end tubular type temperature difference condensation water making device and connecting passes two groups of the A by solenoid control, B behind the through hole of heat insulation shell top and the high-pressure liquid nitrogen inlet tube that connects and two groups of high pressure priming devices bottoms of A, B and is linked to each other by the solenoid control and the high pressure fluid mouth of pipe that connects;

The high pressure nitrogen outlet of its lower end tubular type temperature difference condensation water making device and connecting passes being linked to each other with the high normal pressure and temperature nitrogen inlet tube of snail type magnetic suspension turbo-generator group by two groups of A, the B of electrically-controlled valve control and the high pressure nitrogen outlet that connects behind the heat insulation shell bottom through-hole;

Described heat insulation shell is by two pipe shapes that heat-barrier material is made tank body that shape binds of dribbling up and down;

Wherein two each and every one through holes are respectively established in heat insulation shell upper end, and four through holes are respectively established in the housing lower end;

Wherein first through hole of respectively establishing on the heat insulation shell is: the ventilation pore of housing;

Wherein second through hole respectively establishing of heat insulation shell upper end is: each with housing in the through hole of three angle steel sheet string types a plurality of steel pipes upper end and the high-pressure liquid nitrogen inlet tube that connects.

Wherein each hot-blast outlet by solenoid control and the hot-wind inlet pipe that the connects heat exchange wind cabinet top in the outlet of snail type magnetic suspension booster fan, inlet tube and eddy current tubular type system nitrogen heat-exchanger rig of first through hole of heat insulation shell lower end side links to each other;

Wherein second through hole of heat insulation shell lower end side each by solenoid control and the cold wind outlet that connects by the road with eddy current tubular type system nitrogen heat-exchanger rig in heat exchange wind cabinet bottom cold air inlet link to each other;

Wherein the 3rd through hole of heat insulation shell lower end side is the high pressure nitrogen outlet sealing through hole of tubular type temperature difference condensation water making device in the housing;

Wherein the 4th through hole of heat insulation shell lower end side each change by two delivery ports of solenoid control and the multitube of bottom that two entry mouths of pipe at cold storage tank top link to each other.

Described multitube is changed cold storage tank, is to be made of the casing that the airduct by many break-through two sides that corrosion-resistant metal materials are made welds; Its top respectively establish one with two water inlets that link to each other by the delivery port of solenoid control in heat insulation shell lower end, it is air inlet that multitube is changed cold storage tank bottom one end, another mouthful end is the air outlet pipe that links to each other with magnetic suspension air-introduced machine inlet; The outlet pipe inlet is located at the casing internal upper part, descends the outlet of the condensed water that links to each other with tank through bottom half.

Described snail type magnetic suspension turbo-generator group, being linked to each other by axis with magnetic suspension generator by the snail type steam turbine constitutes;

The air intake pipe of described snail type steam turbine is that the A, two groups of tubular type temperature difference condensation water makings of B device in the water generator with the temperature difference condensation water making device linked to each other by solenoid control and the high pressure nitrogen outlet that connects;

The gas outlet pipe of described snail type steam turbine is that first vortex tube middle-end high pressure gas inlet tube in the vortex tube group with eddy current tubular type system nitrogen heat-exchanger rig links to each other.

Described eddy current tubular type system nitrogen heat-exchanger rig is by: heat exchange wind cabinet and be located at the vortex tube group that spiral heat exchange coil group in the wind cabinet, four above vortex tubes form, the snail type magnetic suspension booster fan and the compressor formation at heat exchange wind cabinet top;

Described heat exchange wind cabinet be by: heat-barrier material make the through hole in top, four or more through hole of side, the cabinet of two through holes in the bottom;

The outlet of the warm-air pipe that wherein links to each other with heat exchange wind cabinet top through hole links to each other through the thermally insulating housing side bottom of snail type magnetic suspension booster fan inlet, outlet and the tubular type temperature difference condensation water making device group hot-wind inlet by the solenoid control parallel connection;

The through hole that from top to bottom links to each other with the air inlet of heat exchange wind cabinet side more than four wherein with a plurality of vortex tube front end heat outlets;

Wherein pass first vortex tube rear end cold air outlet pipe, the compressor inlet of the total gas outlet of the spiral heat exchange coil of heat exchange wind cabinet bottom through-hole pipe and cabinet upper lateral part and connect.

Wherein the thermally insulating housing side bottom of the cold air inlet tube and tube formula temperature difference condensation water making device group bottom heat exchange wind cabinet is linked to each other by the road by the cold wind outlet of solenoid control parallel connection;

Described spiral heat exchange coil group is from top to bottom to be constituted by a plurality of flange-cooled spiral coils;

Wherein first spiral coil air inlet links to each other with the heat outlet of first vortex tube front end;

Wherein second spiral coil air inlet links to each other with the heat outlet of second vortex tube front end;

Wherein the 3rd spiral coil air inlet links to each other with the heat outlet of the 3rd vortex tube front end;

Wherein the 4th spiral coil air inlet links to each other with the heat outlet of the 4th vortex tube front end;

More than four gas outlets of four spiral coils in cabinet, from top to bottom connect from the through hole of bottom of cabinet bulk and pass cold air outlet with first vortex tube end with the suction port of compressor and connect the back and link to each other with the high pressure admission mouth of second vortex tube middle-end.

Described vortex tube be by: the eddy current tubular shell that low temperature resistant, high pressure resistant material is made, middle-end be the high pressure admission mouth, terminal for cold air outlet, front end be heat outlet;

Described vortex tube group from top to bottom is to connect like this:

A, the B two group tubular type temperature difference condensation water making device of the high pressure admission mouth of first vortex tube middle-end of upper end in the water generator of the outlet of snail type magnetic suspension turbo-generator group, inlet and temperature difference condensation water making device linked to each other by high pressure nitrogen outlet magnetic valve, control and that connect; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet of front end and the heat exchange wind cabinet is second links to each other; Terminal cold air outlet and the nitrogen spiral of heat exchange wind cabinet cooling general export pipe are with compressor and connect the back and link to each other with the high pressure admission mouth of second vortex tube middle-end of vortex tube group;

The high pressure admission mouth of second vortex tube middle-end is that outlet, the inlet of compressed machine links to each other with the cold air outlet of first vortex tube end; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet of front end and the heat exchange wind cabinet is second links to each other; The compressed machine outlet of terminal cold air outlet, inlet link to each other with the high pressure admission mouth of the 3rd vortex tube middle-end;

The high pressure admission mouth of the 3rd vortex tube middle-end is that outlet, the inlet of compressed machine links to each other with the cold air outlet of second vortex tube end; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet of front end and the heat exchange wind cabinet is the 3rd links to each other; The compressed machine outlet of terminal cold air outlet, inlet link to each other with the high pressure admission mouth of the 4th vortex tube middle-end;

The high pressure admission mouth of the 4th vortex tube middle-end is that outlet, the inlet of compressed machine links to each other with the cold air outlet of the 3rd vortex tube end; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet of front end and the heat exchange wind cabinet is the 4th links to each other; Terminal liquid nitrogen outlet by the road with two fluid injection tank tops of high pressure priming device in two link to each other by solenoid control and the liquid-in pipe mouth that connects;

Described self-con-tained unit is to be linked to each other by lead and the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle all snail type magnetic suspension turbo-generator group, magnetic valve, snail type magnetic suspension booster fan, magnetic suspension air-introduced machine and compressor;

Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle of the present invention is assembling like this:

Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle provided by the present invention is to be made of: high pressure priming device, temperature difference condensation water making device, snail type magnetic suspension turbo-generator group, snail type magnetic suspension booster fan, eddy current tubular type system nitrogen heat-exchanger rig and self-con-tained unit;

Described high pressure priming device assembles like this:

Described high pressure priming device is that the outer low temperature resistant metal steel of interior usefulness of making insulation by heat-insulating material are made and established three through holes, two fluid injection jars of the A that divides into a through hole, B on the hollow cylindrical housing of upper and lower dribbling top;

At first with the A in the high pressure priming device, two fluid injection tank tops of B first each enter the mouth and even by the high pressure gas at gas outlet of electrically-controlled valve control and the high pressure nitrogen inlet tube that connects and snail type magnetic suspension turbo-generator group, first vortex tube middle part of eddy current tubular type system nitrogen heat-exchanger rig, and the fluid injection mouth of pipe between the high pressure nitrogen inlet tube of A tank body and solenoid control is connected by the fluid injection magnetic valve;

With A, two fluid injection tank tops of B second each by the normal pressure liquid nitrogen inlet tube of electrically-controlled valve control and connect the back and link to each other with the normal pressure liquid nitrogen outlet of the 4th vortex tube end of eddy current tubular type system nitrogen heat-exchanger rig,

The 3rd exhaust outlet of A, two fluid injection tank tops of B linked to each other by automatic exhaust steam valve;

With A, two fluid injection pot bottoms of B each by high-pressure liquid nitrogen outlet of electrically-controlled valve control and connect water generator in back and the temperature difference condensation water making device A, B group tubular type temperature difference condensation water making device top each link to each other by solenoid control and the high-pressure liquid nitrogen inlet tube that connects;

Described temperature difference condensation water making device assembles like this:

With the high-pressure liquid nitrogen of the A in the water generator of described temperature difference condensation water making device, two groups of tubular type temperature difference condensation water makings of B device inlet and connect two groups of the A by solenoid control, B that passes behind the through hole of heat insulation shell top and the high-pressure liquid nitrogen inlet tube that connects and two groups of high pressure priming devices bottoms of A, B and link to each other by the solenoid control and the high pressure fluid mouth of pipe that connects;

With the high pressure nitrogen outlet of tubular type temperature difference condensation water making device bottom and connect and pass linking to each other with the high normal pressure and temperature nitrogen inlet tube of snail type magnetic suspension turbo-generator group behind the through hole of heat insulation shell top by two groups of A, the B of electrically-controlled valve control and the high pressure nitrogen outlet that connects;

Wherein the heat insulation shell upper end is first ventilation pore of respectively establishing;

What wherein pass in second through hole of heat insulation shell upper end is: each with jar in tubular type temperature difference condensation water making device upper end and connect the back outside housing the top by the high-pressure liquid nitrogen inlet tube of solenoid control.

Wherein heat insulation shell lower end side first each is linked to each other by the hot-blast outlet at solenoid control and the hot-wind inlet pipe that the connects heat exchange wind cabinet top in the outlet of snail type magnetic suspension booster fan, inlet tube and eddy current tubular type system nitrogen heat-exchanger rig;

Wherein second of heat insulation shell lower end side each by solenoid control and the cold wind outlet that connects by the road with eddy current tubular type system nitrogen heat-exchanger rig in heat exchange wind cabinet bottom cold air inlet link to each other;

Wherein the 3rd of heat insulation shell lower end side is the high pressure nitrogen outlet sealing through hole of tubular type temperature difference condensation water making device in the housing;

Wherein the 4th each two entry mouth of pipe that change cold storage tank top by two delivery ports of solenoid control and the multitube of bottom of heat insulation shell lower end side link to each other.

Described multitube is changed cold storage tank top and is respectively established two water inlets that linked to each other by the delivery port of solenoid control of a water inlet and heat insulation shell lower end, it is air inlet that multitube is changed cold storage tank bottom one end, and another mouthful end is the air outlet pipe that links to each other with magnetic suspension air-introduced machine inlet; The outlet pipe inlet is located at the casing internal upper part, descends the outlet of the condensed water that links to each other with tank through bottom half.

Described snail type magnetic suspension turbo-generator group assembles like this:

A in the air intake pipe of the snail type steam turbine of described snail type magnetic suspension turbo-generator group and the water generator of temperature difference condensation water making device, two groups of tubular type temperature difference condensation water makings of B device are linked to each other by the road by solenoid control and the high pressure nitrogen outlet that connects;

First vortex tube middle-end high pressure gas inlet tube in the vortex tube group of the gas outlet pipe of snail type steam turbine and eddy current tubular type system nitrogen heat-exchanger rig links to each other.

Described eddy current tubular type system nitrogen heat-exchanger rig assembles like this:

Described eddy current tubular type system nitrogen heat-exchanger rig is by: heat exchange wind cabinet and be located at the vortex tube group that spiral heat exchange coil group in the wind cabinet, four above vortex tubes form, the snail type magnetic suspension booster fan and the compressor formation at heat exchange wind cabinet top;

Described heat exchange wind cabinet assembles like this:

Described heat exchange wind cabinet be by: heat-barrier material make the through hole in top, four or more through hole of side, the cabinet of two through holes in the bottom;

Wherein link to each other through the thermally insulating housing side bottom of snail type magnetic suspension booster fan inlet, outlet and tubular type temperature difference condensation water making device group hot-wind inlet by the solenoid control parallel connection with the outlet of the warm-air pipe at heat exchange wind cabinet top;

Wherein from top to bottom link to each other with a plurality of vortex tube front end heat outlets with the air inlet of heat exchange wind cabinet side more than four;

The total gas outlet of the spiral heat exchange coil pipe that wherein passes heat exchange wind cabinet bottom is with first vortex tube rear end cold air outlet pipe, the compressor inlet of casing upper lateral part and connect.

Wherein the thermally insulating housing side bottom of the cold air inlet tube and tube formula temperature difference condensation water making device group bottom heat exchange wind cabinet is linked to each other by the road by the cold wind outlet of solenoid control parallel connection;

Described spiral heat exchange coil group assembles like this:

Wherein first spiral coil air inlet links to each other with the heat outlet of first vortex tube front end;

Wherein second spiral coil air inlet links to each other with the heat outlet of second vortex tube front end;

Wherein the 3rd spiral coil air inlet links to each other with the heat outlet of the 3rd vortex tube front end;

Wherein the 4th spiral coil air inlet links to each other with the heat outlet of the 4th vortex tube front end;

More than four gas outlets of four spiral coils in cabinet, from top to bottom connect from the through hole of bottom of cabinet bulk and pass cold air outlet with first vortex tube end with the suction port of compressor and connect the back and link to each other with the high pressure admission mouth of second vortex tube middle-end.

Described eddy current tube nucleus vortex tube group assembles like this:

Described vortex tube be by: the eddy current tubular shell that low temperature resistant, high pressure resistant material is made, middle-end be the high pressure admission mouth, terminal for cold air outlet, front end be heat outlet;

The pipe of the high pressure admission mouth of first vortex tube middle-end of upper end A, a plurality of steel pipes of B three angle steel sheet string types in the outlet of snail type magnetic suspension turbo-generator group, inlet and tubular type temperature difference condensation water making device is linked to each other by solenoid control and the high pressure nitrogen outlet that connects.First spiral coil air inlet of spiral heat exchange coil group in the heat outlet of front end and the heat exchange wind cabinet links to each other; Terminal cold air outlet and the nitrogen spiral of heat exchange wind cabinet cooling general export pipe are with compressor and connect the back and link to each other with the high pressure admission mouth of second vortex tube middle-end of vortex tube group;

The high pressure admission mouth of second vortex tube middle-end is that outlet, the inlet of compressed machine links to each other with the cold air outlet of first vortex tube end; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet of front end and the heat exchange wind cabinet is second links to each other; The compressed machine outlet of terminal cold air outlet, inlet link to each other with the high pressure admission mouth of the 3rd vortex tube middle-end;

The high pressure admission mouth of the 3rd vortex tube middle-end is that outlet, the inlet of compressed machine links to each other with the cold air outlet of second vortex tube end; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet of front end and the heat exchange wind cabinet is the 3rd links to each other; The compressed machine outlet of terminal cold air outlet, inlet link to each other with the high pressure admission mouth of the 4th vortex tube middle-end;

The high pressure admission mouth of the 4th vortex tube middle-end is that outlet, the inlet of compressed machine links to each other with the cold air outlet of the 3rd vortex tube end; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet of front end and the heat exchange wind cabinet is the 4th links to each other; Terminal liquid nitrogen outlet links to each other with two liquid-in pipe mouths by solenoid control in two fluid injection tank tops of high pressure priming device by the road;

Described self-con-tained unit is to be linked to each other by lead and the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle all snail type magnetic suspension turbo-generator group, magnetic valve, snail type magnetic suspension booster fan, magnetic suspension air-introduced machine and compressor;

Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle of the present invention compared with prior art has following advantage:

Disposable startup, resource can Recycling and cut down the consumption of energy during running, simultaneously condensation water making and hot water, hot blast, cold wind, steam and electric power are provided.

In conjunction with the accompanying drawings embodiments of the invention are elaborated now, so that the present invention is had more clear more detailed understanding.

Description of drawings:

Fig. 1 is the enforcement schematic diagram of the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle of the present invention.

The specific embodiment:

Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle provided by the present invention,

Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle provided by the present invention is to be made of: high pressure priming device, temperature difference condensation water making device, snail type magnetic suspension turbo-generator group 4, snail type magnetic suspension booster fan 40, eddy current tubular type system nitrogen heat-exchanger rig and self-con-tained unit 5;

Wherein said high pressure priming device is that the outer low temperature resistant metal steel of interior usefulness of making insulation by heat-insulating material are made and established three through holes, two fluid injection jars of the A3 that divides into a through hole, B65 on the hollow cylindrical housing of upper and lower dribbling top;

First through holes of its A3, two fluid injection tank tops of B65 each by high pressure nitrogen inlet tubes of electrically-controlled valve 58,61 controls and connect back and snail type magnetic suspension turbo-generator group 4 gas outlet 7, first vortex tube middle part of eddy current tubular type system nitrogen heat-exchanger rig high pressure gas inlet 49 and connect, wherein between the high pressure nitrogen inlet tube that tank body A through hole and electrically-controlled valve 58 are controlled, also be provided with the fluid injection mouth of pipe of controlling by magnetic valve 64;

Respectively being controlled 59,62 normal pressure liquid nitrogen inlet tube and connect by electrically-controlled valve after, second through hole of its A3, two fluid injection tank tops of B65 link to each other with the normal pressure liquid nitrogen outlet 57 of the 4th vortex tube end of eddy current tubular type system nitrogen heat-exchanger rig,

The 3rd through hole in its A3, two fluid injection tank tops of B65 is each exhaust outlet by automatic exhaust steam valve 60,63 controls;

The through hole of its A3, two fluid injection pot bottoms of B65 each by high-pressure liquid nitrogen outlet of electrically-controlled valve 2,1 control and connect water generator in back and the temperature difference condensation water making device A23, two groups of tubular type temperature difference condensation water makings of B28 device top each link to each other by magnetic valve 26,30 controls and the high-pressure liquid nitrogen inlet tube that connects;

Described temperature difference condensation water making device be by: water generator and multitube are changed cold storage tank 13 and are constituted;

Described water generator is to be made of: A23, B28 two groups of tubular type temperature difference condensation water makings device and heat insulation shell 24,27;

Wherein said A23, two groups of tubular type temperature difference condensation water makings of the B28 device that is installed in the heat insulation shell 24,27 be each by: cast outer a plurality of steel pipes of setting triangle steel sheet string type by low temperature resistant metal material and combine;

The high-pressure liquid nitrogen inlet of its upper end tubular type temperature difference condensation water making device and connecting passes being linked to each other by magnetic valve 2,1 control and the high pressure fluid mouth of pipe that connects by two groups of A23, the B28 of magnetic valve 26,30 controls and the high-pressure liquid nitrogen inlet tube that connects and two groups of high pressure priming devices bottoms of A3, B65 behind heat insulation shell 24, the 27 top through holes;

The high pressure nitrogen outlet of its lower end tubular type temperature difference condensation water making device and connecting passes being linked to each other with the high normal pressure and temperature nitrogen inlet tube 6 of snail type magnetic suspension turbo-generator group 4 by two groups of A23, the B28 of electrically-controlled valve 20,10 controls and the high pressure nitrogen outlet that connects behind heat insulation shell 24,27 bottom through-holes;

Described heat insulation shell the 24, the 27th, two pipe shapes making by the heat-barrier material tank body that shape is bound of dribbling up and down;

Wherein two each and every one through holes are respectively established in heat insulation shell 24,27 upper ends, and four through holes are respectively established in the housing lower end;

Wherein first through hole of respectively establishing of heat insulation shell 24,27 upper ends is: the ventilation pore 25,29 of housing;

Wherein second through hole respectively establishing of heat insulation shell 24,27 upper ends is: each with housing 24,27 in the through hole of A23, B28 tubular type temperature difference condensation water making device upper end and the high-pressure liquid nitrogen inlet tube that connects.

Wherein each hot-blast outlet 41 by magnetic valve 22,33 control and the hot-wind inlet pipe that connects heat exchange wind cabinet 38 tops in the outlet 39 of snail type magnetic suspension booster fan 40, inlet tube 41 and eddy current tubular type system nitrogen heat-exchanger rig of heat insulation shell 24,27 first through holes of lower end side links to each other;

Wherein second through hole of heat insulation shell 24,27 lower end side each link to each other with the cold air inlet 8 of heat exchange wind cabinet 38 bottoms in the eddy current tubular type system nitrogen heat-exchanger rig by the road by magnetic valve 19,31 control and the cold wind outlet that connects;

Wherein the 3rd through hole of heat insulation shell 24,27 lower end side is the high pressure nitrogen outlet through hole of A23 in the housing, B28 tubular type temperature difference condensation water making device;

Wherein the 4th through hole of heat insulation shell 24,27 lower end side each change by two delivery ports of magnetic valve 21,14 control and the multitube of bottom that two entry mouths of pipe 15,11 at cold storage tank 13 tops link to each other.

Described multitube is changed cold storage tank 13, is to be made of the casing that the airduct by many break-through two sides that corrosion-resistant metal materials are made welds; Water inlets 15,11 that link to each other with heat insulation shell A23, two delivery ports of being controlled by magnetic valve 21,14 in B28 lower end are respectively established at its top, it is air inlet 09 that multitube is changed cold storage tank 13 bottoms one end, and another mouthful end is and the magnetic suspension air-introduced machine 18 inlets 17 air outlet pipes 16 that link to each other; Outlet pipe 12 inlets are located at the casing internal upper part, descend the outlet of the condensed water that links to each other with tank through bottom half.

Described snail type magnetic suspension turbo-generator group 4, being linked to each other by axis with magnetic suspension generator 04 by snail type steam turbine 4 constitutes;

The air intake pipe 6 of described snail type steam turbine 4 is that the A23, two groups of tubular type temperature difference condensation water makings of B28 device in the water generator with the temperature difference condensation water making device linked to each other by the road by magnetic valve 20,10 controls and the high pressure nitrogen outlet that connects;

The gas outlet of described snail type steam turbine 4 pipe 7 is that first vortex tube middle-end high pressure gas inlet tube 49 in the vortex tube group with eddy current tubular type system nitrogen heat-exchanger rig links to each other.

Described eddy current tubular type system nitrogen heat-exchanger rig is by: heat exchange wind cabinet 38 and be located at the snail type magnetic suspension booster fan 40 and compressor 51,45,47 formations at spiral heat exchange coil group 42 in the wind cabinet, four vortex tube groups that above vortex tube is formed, heat exchange wind cabinet 38 tops;

Described heat exchange wind cabinet 38 be by: heat-barrier material make the through hole in top, four or more through hole of side, the cabinet of two through holes in the bottom;

The warm-air pipe outlet that wherein links to each other with heat exchange wind cabinet 38 top through holes is linked to each other by magnetic valve 22,33 controls hot-wind inlet in parallel with the thermally insulating housing side bottom of tubular type temperature difference condensation water making device group through snail type magnetic suspension booster fan 40 inlets 41, outlet 39;

The through hole that from top to bottom links to each other with heat exchange wind cabinet 38 air inlets of side more than four wherein with a plurality of vortex tube front end heat outlets 43,44,46,48;

Wherein pass first vortex tube rear end cold air outlet pipe 49, compressor 51 inlet tubes of the total gas outlet of the spiral heat exchange coil of heat exchange wind cabinet 38 bottom through-holes pipe 9 and casing upper lateral part and connect.

Wherein link to each other by the road by magnetic valve 19,31 controls cold wind outlet in parallel with thermally insulating housing 24,27 side bottoms of the cold air inlet tube and tube formula temperature difference condensation water making device group of heat exchange wind cabinet 38 bottoms;

Described spiral heat exchange coil group 42 is from top to bottom to be constituted by a plurality of flange-cooled spiral coils;

Wherein first spiral coil air inlet 43 links to each other with the heat outlet 43 of first vortex tube front end;

Wherein second spiral coil air inlet 44 links to each other with the heat outlet 44 of second vortex tube front end;

Wherein the 3rd spiral coil air inlet 46 links to each other with the heat outlet 46 of the 3rd vortex tube front end;

Wherein the 4th spiral coil air inlet 48 links to each other with the heat outlet 48 of the 4th vortex tube front end;

More than four gas outlets 36,35,34,32 of four spiral coils in cabinet, connect the spiral coil general export pipe 9 that passes from the bottom of cabinet bulk through hole and first vortex tube end from top to bottom cold air outlet 50 with compressor 51 inlets and connect the back and link to each other with the high pressure admission mouth 52 of second vortex tube middle-end.

Described vortex tube be by: the eddy current tubular shell that low temperature resistant, high pressure resistant material is made, middle-end be high pressure admission mouth 49,52,54,56 terminal for cold air outlet 50,53,55,57, front end be heat outlet 43,44,46,48;

Described vortex tube group from top to bottom is to connect like this:

A23, the B28 two group tubular type temperature difference condensation water making device of the high pressure admission mouth 49 of first vortex tube middle-end of upper end in the water generator of snail type magnetic suspension turbo-generator group 4 outlet 7, inlet 6 and temperature difference condensation water making device linked to each other by magnetic valve 20,10 high pressure nitrogens outlets control and that connect; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet 43 of front end and the heat exchange wind cabinet 38 is 42 second links to each other; Terminal cold air outlet 50 and the nitrogen spiral of heat exchange wind cabinet 38 cooling general export pipe 9 are with compressor 51 and connect the back and link to each other with the high pressure admission mouth 52 of second vortex tube middle-end of vortex tube group;

The high pressure admission mouth 52 of second vortex tube middle-end is that outlet, the inlet of compressed machine 51 links to each other with the cold air outlet 50 of first vortex tube end; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet 44 of front end and the heat exchange wind cabinet 38 is 42 second links to each other; Terminal cold air outlet 53 compressed machine 45 outlets, inlet link to each other with the high pressure admission mouth 54 of the 3rd vortex tube middle-end;

The high pressure admission mouth 54 of the 3rd vortex tube middle-end is that outlet, the inlet of compressed machine 45 links to each other with the cold air outlet 53 of second vortex tube end; The spiral coil air inlet that spiral heat exchange coil group 42 in the heat outlet 46 of front end and the heat exchange wind cabinet 38 is the 3rd links to each other; Terminal cold air outlet 55 compressed machine 47 outlets, inlet link to each other with the high pressure admission mouth 56 of the 4th vortex tube middle-end;

The high pressure admission mouth 56 of the 4th vortex tube middle-end is that outlet, the inlet of compressed machine 47 links to each other with the cold air outlet 55 of the 3rd vortex tube end; The spiral coil air inlet that spiral heat exchange coil group 42 in the heat outlet 48 of front end and the heat exchange wind cabinet 38 is the 4th links to each other; Terminal liquid nitrogen outlet 57 by the road with two fluid injection tank tops of A3, B65 of high pressure priming device in two link to each other by magnetic valve 59,62 controls and the liquid-in pipe mouths that connect;

Described self-con-tained unit 5 is to be linked to each other by all snail type magnetic suspension turbo-generator groups 4 of lead and the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle, magnetic valve 26,30,21,14,20,10,22,33,19,31,58,61,59,62,2,1 automatic exhaust steam valve 60,63 liquid-filling valves 64 snail type magnetic suspension booster fans 40, magnetic suspension air-introduced machine 18 and compressor 51,45,47;

Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle of the present invention is assembling like this:

Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle provided by the present invention is to be made of: high pressure priming device, temperature difference condensation water making device, snail type magnetic suspension turbo-generator group 4, snail type magnetic suspension booster fan 40, eddy current tubular type system nitrogen heat-exchanger rig and self-con-tained unit 5;

Described high pressure priming device assembles like this:

Described high pressure priming device is that the outer low temperature resistant metal steel of interior usefulness of making insulation by heat-insulating material are made and established three through holes, two fluid injection jars of the A3 that divides into a through hole, B65 on the hollow cylindrical housing of upper and lower dribbling top;

At first with the A3 in the high pressure priming device, two fluid injection tank tops of B65 first each enter the mouth 49 and connect by the high pressure gas at gas outlet 7 of electrically-controlled valve 58,61 controls and the high pressure nitrogen inlet tube that connects and snail type magnetic suspension turbo-generator group 4, first vortex tube middle part of eddy current tubular type system nitrogen heat-exchanger rig, and the A3 tank body is connected by fluid injection magnetic valve 64 with the fluid injection mouth of pipe between the high pressure nitrogen inlet tube that magnetic valve 58 is controlled;

With A3, two fluid injection tank tops of B65 second each by the normal pressure liquid nitrogen inlet tube of electrically-controlled valve 59,62 controls and connect the back and manage with the normal pressure liquid nitrogen outlet 57 of the 4th vortex tube end of eddy current tubular type system nitrogen heat-exchanger rig and link to each other,

The 3rd with A3, two fluid injection tank tops of B65 is that exhaust outlet is linked to each other by automatic exhaust steam valve 60,63;

With A3, two fluid injection pot bottoms of B65 each by high-pressure liquid nitrogen outlet of electrically-controlled valve 2,1 control and connect water generator in back and the temperature difference condensation water making device A23, B28 group tubular type temperature difference condensation water making device top each link to each other by magnetic valve 26,30 controls and the high-pressure liquid nitrogen inlet tube that connects;

Described temperature difference condensation water making device assembles like this:

Described temperature difference condensation water making device be by: water generator and multitube are changed cold storage tank 13 and are constituted;

Described water generator is to be made of: A23, B28 two groups of tubular type temperature difference condensation water makings device and heat insulation shell 24,27;

Wherein said A23, two groups of tubular type temperature difference condensation water makings of the B28 device that is installed in the heat insulation shell 24,27 be each by: cast outer a plurality of steel pipes of setting triangle steel sheet string type by low temperature resistant metal material and combine;

With the high-pressure liquid nitrogen of two groups of tubular type temperature difference condensation water making device A23, B28 in the water generator of described temperature difference condensation water making device inlet and connect and pass linking to each other by magnetic valve 2,1 control and the high pressure fluid mouth of pipe that connects behind the through hole of heat insulation shell top by the high-pressure liquid nitrogen inlet tube of magnetic valve 26,30 controls and two groups of high pressure priming devices bottoms of A3, B65;

With the high pressure nitrogen outlet of A23, B28 tubular type temperature difference condensation water making device bottom and connect the high pressure nitrogen outlet that passes behind the through hole of heat insulation shell top and link to each other with high normal pressure and temperature nitrogen inlet 6 pipes of snail type magnetic suspension turbo-generator group 4 by electrically-controlled valve 20,10 controls;

Described heat insulation shell the 24, the 27th, two pipe shapes making by the heat-barrier material tank body that shape is bound of dribbling up and down;

Wherein two each and every one through holes are respectively established in heat insulation shell 24,27 upper ends, and four through holes are respectively established in housing 24,27 lower ends;

Wherein heat insulation shell 24,27 upper ends are first ventilation pores 25,29 of respectively establishing;

What wherein pass in second through hole of heat insulation shell 24,27 upper ends is: each with jar in A23, B28 tubular type temperature difference condensation water making device upper end and connect the back outside housing 24,27 top by the high-pressure liquid nitrogen inlet tube of solenoid control 26,30.

Wherein heat insulation shell 24,27 lower end side first each are linked to each other by the hot-blast outlet 41 at magnetic valve 22,33 controls and the hot-wind inlet pipe that connects heat exchange wind cabinet 38 tops in the outlet 39 of snail type magnetic suspension booster fan 40, inlet tube 41 and eddy current tubular type system nitrogen heat-exchanger rig;

Wherein each cold air inlet 8 by heat exchange wind cabinet 38 bottoms in magnetic valve 19,31 controls and the cold wind outlet that connects and the eddy current tubular type system nitrogen heat-exchanger rig of second of heat insulation shell 24,27 lower end side links to each other;

Wherein the 3rd of heat insulation shell 24,27 lower end side are the high pressure nitrogen outlet through holes of A23, B28 tubular type temperature difference condensation water making device in the housing 24,27;

Wherein the 4th of heat insulation shell 24,27 lower end side are respectively linked to each other with two entry mouths of pipe 15,11 that the multitube of bottom is changed cold storage tank 13 tops by two delivery ports of magnetic valve 21,14 controls.

Described multitube is changed cold storage tank 13 tops and is respectively established two water inlets 15,11 that linked to each other by the delivery port of magnetic valve 21,14 controls of a water inlet and heat insulation shell 24,27 lower ends, it is air inlet 09 that multitube is changed cold storage tank 13 bottoms one end, and another mouthful end is and the magnetic suspension air-introduced machine 18 inlets 17 air outlet pipes 16 that link to each other; Outlet pipe 12 inlets are located at the casing internal upper part, descend the outlet of the condensed water that links to each other with tank through bottom half.

Described snail type magnetic suspension turbo-generator group assembles like this:

A23 in air intake 6 pipes of the snail type steam turbine 4 of described snail type magnetic suspension turbo-generator group 4 and the water generator of temperature difference condensation water making device, two groups of tubular type temperature difference condensation water makings of B28 device are linked to each other by magnetic valve 20,10 controls and the high pressure nitrogen outlet that connects;

First vortex tube middle-end high pressure gas inlet tube 49 in the vortex tube group of the gas outlet of snail type steam turbine 4 pipe 7 and eddy current tubular type system nitrogen heat-exchanger rig links to each other.

Described eddy current tubular type system nitrogen heat-exchanger rig assembles like this:

Described eddy current tubular type system nitrogen heat-exchanger rig is by: heat exchange wind cabinet 38 and be located at the snail type magnetic suspension booster fan 40 and compressor 51,45,47 formations at spiral heat exchange coil group 42 in the wind cabinet, four vortex tube groups that above vortex tube is formed, heat exchange wind cabinet 38 tops;

Described heat exchange wind cabinet 38 assembles like this:

Described heat exchange wind cabinet 38 be by: heat-barrier material make the through hole in top, four or more through hole of side, the cabinet of two through holes in the bottom;

Wherein link to each other by magnetic valve 22,33 controls hot-wind inlet in parallel with thermally insulating housing 24,27 side bottoms of tubular type temperature difference condensation water making device group through snail type magnetic suspension booster fan 40 inlets 41, outlet 39 with the warm-air pipe outlet 41 at heat exchange wind cabinet 38 tops;

Wherein from top to bottom link to each other with a plurality of vortex tube front end heat outlets 43,44,46,48 with heat exchange wind cabinet 38 air inlets of side more than four;

Wherein pass first vortex tube rear end cold air outlet pipe 50, compressor 51 inlet tubes of the total gas outlet of the spiral heat exchange coil of heat exchange wind cabinet 38 bottoms pipe 9 and casing upper lateral part and connect.

Wherein link to each other by the road by magnetic valve 19,31 controls cold wind outlet in parallel with thermally insulating housing 24,27 side bottoms of tubular type temperature difference condensation water making device group with the cold air inlet pipe 8 of heat exchange wind cabinet 38 bottoms;

Described spiral heat exchange coil group assembles like this:

Wherein first spiral coil air inlet 43 links to each other with the heat outlet 43 of first vortex tube front end;

Wherein second spiral coil air inlet 44 links to each other with the heat outlet 44 of second vortex tube front end;

Wherein the 3rd spiral coil air inlet 46 links to each other with the heat outlet 46 of the 3rd vortex tube front end;

Wherein the 4th spiral coil air inlet 48 links to each other with the heat outlet 48 of the 4th vortex tube front end;

More than four gas outlets 36,35,34,32 of four spiral coils in cabinet, connect the spiral coil general export pipe 9 that passes from the bottom of cabinet bulk through hole and first vortex tube end from top to bottom cold air outlet 50 with compressor 51 inlets and connect the back and link to each other with the high pressure admission mouth 52 of second vortex tube middle-end.

Described eddy current tube nucleus vortex tube group assembles like this:

Described vortex tube be by: the eddy current tubular shell that low temperature resistant, high pressure resistant material is made, middle-end be high pressure admission mouth 49,52,54,56, terminal for cold air outlet 50,53,55,57, front end be heat outlet 43,44,46,48;

The pipe of the high pressure admission mouth 49 of first vortex tube middle-end of upper end A23, a plurality of steel pipes of B28 three angle steel sheet string types in snail type magnetic suspension turbo-generator group 4 outlet 7, inlet 6 and tubular type temperature difference condensation water making device is linked to each other by magnetic valve 26,30 controls and the high pressure nitrogen outlet that connects.The spiral coil air inlet 43 that spiral heat exchange coil group in the heat outlet 43 of front end and the heat exchange wind cabinet 38 is 42 second links to each other; Terminal cold air outlet 50 and the nitrogen spiral of heat exchange wind cabinet 38 cooling general export pipe 9 are with compressor 51 and connect the back and link to each other with the high pressure admission mouth 52 of second vortex tube middle-end of vortex tube group;

The high pressure admission mouth 52 of second vortex tube middle-end is that outlet, the inlet of compressed machine 51 links to each other with the cold air outlet 50 of first vortex tube end; The spiral coil air inlet 44 that spiral heat exchange coil group in the heat outlet 44 of front end and the heat exchange wind cabinet 38 is 42 second links to each other; Terminal cold air outlet 53 compressed machine 45 outlets, inlet link to each other with the high pressure admission mouth 54 of the 3rd vortex tube middle-end;

The high pressure admission mouth 54 of the 3rd vortex tube middle-end is that outlet, the inlet of compressed machine 45 links to each other with the cold air outlet 53 of second vortex tube end; The spiral coil air inlet 46 of the 3rd of 38 spiral heat exchange coil group 42 links to each other in the heat outlet 46 of front end and the heat exchange wind cabinet; Terminal cold air outlet 55 compressed machine 47 outlets, inlet link to each other with the high pressure admission mouth 56 of the 4th vortex tube middle-end;

The high pressure admission mouth 56 of the 4th vortex tube middle-end is that outlet, the inlet of compressed machine 47 links to each other with the cold air outlet 55 of the 3rd vortex tube end; The spiral coil air inlet 48 that spiral heat exchange coil group 42 in the heat outlet 48 of front end and the heat exchange wind cabinet 38 is the 4th links to each other; Terminal liquid nitrogen outlet 57 links to each other with two liquid-in pipe mouths by magnetic valve 59,62 controls in two fluid injection tank tops of A3, B65 high pressure priming device;

Described self-con-tained unit 5 is to be linked to each other by all snail type magnetic suspension turbo-generator groups 4 of lead and the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle, magnetic valve 26,30,21,14,20,10,22,33,19,31,58,61,59,62,2,1 automatic exhaust steam valve 60,63 liquid-filling valves 64 snail type magnetic suspension booster fans 40, magnetic suspension air-introduced machine 18 and compressor 51,45,47;

Closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle of the present invention is work like this:

Start is prepared

Fluid injection nitrogen: at first the automatically controlled liquid-filling valve 64 on fluid injection jar A3 top and the automatically controlled air bleeding valve 60 on top are opened, closed the Electrocontrolled high-pressure liquid outlet 2 of fluid injection jar A3 bottom; The automatically controlled fluid injection valve port 64 of liquid nitrogen from fluid injection jar A3 top injected in the fluid injection jar A3, close the automatically controlled fluid injection valve port 64 preceding preparation of so far start shooting after filling with and finish.

System starts general introduction:

The high pressure priming device is work like this:

Start self-con-tained unit 5, make magnetic valve 58, the fluid injection jar B65 top of the high pressure nitrogen inlet at the automatically controlled liquid valve 2 in fluid injection jar A3 bottom, fluid injection jar A3 top automatically controlled air bleeding valve 63, fluid injection jar B65 top normal pressure liquid nitrogen inlet electrically-controlled valve 62, open automatically; By the time after the liquid nitrogen in the fluid injection jar A3 extrudes the gasification workmanship fully, start self-con-tained unit 5 and make the automatically controlled liquid valve 2 in fluid injection jar A3 bottom once more again, the magnetic valve 58 of the high pressure nitrogen inlet at fluid injection jar A3 top, the automatically controlled air bleeding valve 63 at fluid injection jar B65 top, the electrically-controlled valve 62 of the normal pressure liquid nitrogen inlet at fluid injection jar B65 top, automatically close, the automatically controlled air bleeding valve 60 at fluid injection jar A3 top, the electrically-controlled valve 58 of the normal pressure liquid nitrogen inlet at fluid injection jar A3 top is opened automatically, liquid nitrogen in the fluid injection jar B65 begins to be forced out gasification and does manual work, fluid injection jar A3 begins re-injection normal pressure liquid nitrogen, and closed cycle makes liquid nitrogen and nitrogen carry out the temperature difference successively, obtain not to the utmost water source and electric power in the exchange of pressure reduction.

The temperature difference condensation water making device is work like this:

Meanwhile, the condensation-water drain electrically-controlled valve 14 of the hot-wind inlet electrically-controlled valve 33 of the outlet of the cold air electrically-controlled valve 19 of the high pressure nitrogen of the electrically-controlled valve 26 at temperature difference condensation water making device A23 tubular type temperature difference condensation water making device top, bottom outlet magnetic valve 20, heat insulation shell 24 bottoms, heat insulation shell 27 side bottoms, heat insulation shell 27 bottoms is opened;

And simultaneously, the cold air outlet electrically-controlled valve 31 of the electrically-controlled valve 30 at the condensation-water drain electrically-controlled valve 21 of the hot-wind inlet electrically-controlled valve 22 of heat insulation shell 24 side bottoms, heat insulation shell 24 bottoms, temperature difference condensation water making device B28 tubular type temperature difference condensation water making device top, the high pressure nitrogen of bottom outlet magnetic valve 10, heat insulation shell 27 bottoms is closed.(every each 30 seconds of the B28 tubular type temperature difference condensation water making device in A23 tubular type temperature difference condensation water making device in the temperature difference condensation water making device heat insulation shell 24 and the temperature difference condensation water making device heat insulation shell 27 regularly alternately opens, cuts out) makes the temperature difference condensation water making device can keep the long stream of condensed water more than in the open and close that replaces.When the cold water of heat insulation shell 24,27 bottoms changes cold storage tank 13 through multitube, because the gravitation of the magnetic suspension air-introduced machine 18 at water tank air outlet 16 places makes the cold of cryogenic condensation water be recovered utilization, the water inlet that cold water changes the outlet pipe of cold storage tank 13 through multitube is located at the box top, delivery port is located at case bottom, makes the water at low temperature that flows in the case heat exchange of being lowered the temperature fully.

Snail type magnetic suspension turbo-generator group and eddy current tubular type system nitrogen heat-exchanger rig and self-con-tained unit are work like this:

When two heat insulation shells 24 from the temperature difference condensation water making device, A23 in 27, the high pressure nitrogen outlet electrically-controlled valve of B28 tubular type temperature difference condensation water making device bottom is alternately opened, close, the gas turbine impeller that the constant gases at high pressure that extrude at first begin to promote snail type magnetic suspension turbo-generator group 4 rapidly rotates the high normal pressure and temperature nitrogen after the workmanship, be pressed into the middle-end high pressure gas inlet 49 of first vortex tube of vortex tube group, high pressure gas extrudes from the two ends of vortex tube, and the high temperature nitrogen of 150 degree of front end enters in first screwed pipe heat exchange coil inlet interior 43 of screwed pipe heat exchange coil group; The low temperature nitrogen general export pipe 9 that extrudes the nitrogen of-60 degree and heat exchange wind cabinet 38 bottoms in the terminal low temperature nitrogen outlet 50 converges the pressurized gas inlet 53 that enters second vortex tube middle-end after compressed machine 51 superchargings, high pressure gas extrudes from the two ends of vortex tube, and the high temperature nitrogen of 150 degree of front end enters in second screwed pipe heat exchange coil inlet 44 of screwed pipe heat exchange coil group; And enter the pressurized gas inlet 54 of the 3rd vortex tube middle-end after terminal 53 compressed once more machine 45 superchargings of-120 degree low temperature nitrogens that extrude, high pressure gas extrudes from the two ends of vortex tube, and the high temperature nitrogen of 150 degree of front end enters in the 3rd screwed pipe heat exchange coil inlet 46 of screwed pipe heat exchange coil group; Terminal 55 compressed once more machine 47 pressurizations of nitrogen that extrude-180 degree enter the middle-end pressurized gas inlet 56 of the 4th vortex tube, high pressure gas extrudes from the two ends of vortex tube, and the high temperature nitrogen of 150 degree of front end enters in the 4th screwed pipe heat exchange coil inlet 48 of screwed pipe heat exchange coil group; The atmospheric low-temperature liquid nitrogen that terminal outlet 57 is flowed out alternately flows in fluid injection jar A3, the B65 from the fluid injection jar A3 of high pressure priming device, electrically-controlled valve 59, the 62 normal pressure liquid nitrogen inlet at B65 top by the road.In this simultaneously, the heat of high temperature from top to bottom sent into of the screwed pipe heat exchange coil group in the heat exchange wind cabinet is become low temperature nitrogen to be sucked circulation by the compressor of second vortex tube porch by the cryogenic gas heat exchange that suck in the heat insulation shell 24,27 of heat exchange wind cabinet bottom by the water device of temp-difference condensing four screwed pipe heat exchange coils outlets 36,35,34,32 from top to bottom by rapid cooling to lower the temperature until being condensed into liquid nitrogen in cycle gasification, liquefaction again.And the high-temperature gas of heat exchange wind cabinet inner top alternately sent into by the road by the snail type magnetic suspension booster fan sucking-off at the outer top of wind cabinet in the heat insulation shell 24,27 of water device of temp-difference condensing alternately with A23, B28 tubular type temperature difference condensation water making device on the frozen water heat-shift of condensation frost moment is dissolved from heat insulation shell 24,27 bottoms flow out.And the cold wind after the heat exchange cooling is sucked in the wind cabinet circulation by the suction of heat exchange wind cabinet and carries out temperature difference exchange from heat exchange wind cabinet bottom.Closed cycle gasification successively, system nitrogen, because of system nitrogen only needs hyperbar, and the high pressure nitrogen after the acting is the most cheap high voltage power source, therefore can obtain the electric power, kinetic energy of permanent reusable edible and water source not to the utmost.

Operation principle of the present invention is as follows: the present invention utilizes " heat is difficult to the phenomenon of conduction downwards " to be " high temperature heat source " artificial " low-temperature heat source " liquid nitrogen of manufacturing with environment temperature, utilize the temperature difference and pressure reduction between nitrogen and the liquid nitrogen to carry out automatic control closed cycle acting, except that control device needs electric energy, noenergy loss in the acting process.

Industrial applicability:

Temperature difference cold energy generation provided by the invention, water processed, hot and cold air-conditioning system; need only disposable startup cold energy; resources circulation is used and lossless during operation; utilize airborne natural thermal source; can in condensation air water processed, provide hot blast, cold wind, steam and electric power; make drought and water shortage or the hot and cold impermanence such as desert and plateau or lack the area of electric power, obtain clean cheap hot water or cold water and hot and cold wind and sufficient electric power. The present invention has wide prospects for commercial application.

Claims (7)

1. the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle is to be made of: high pressure priming device, temperature difference condensation water making device, snail type magnetic suspension turbo-generator group (4), snail type magnetic suspension booster fan (40), eddy current tubular type system nitrogen heat-exchanger rig and self-con-tained unit (5); It is characterized in that:

Wherein said high pressure priming device is that the outer low temperature resistant metal steel of interior usefulness of making insulation by heat-insulating material are made on the hollow cylindrical housing of upper and lower dribbling top (65) two fluid injection jars of A (3), B of establishing three through holes, dividing into a through hole;

First through holes of its A (3), (65) two fluid injection tank tops of B each by high pressure nitrogen inlet tube of electrically-controlled valve (58), (61) control and connect back and snail type magnetic suspension turbo-generator group (4) gas outlet (7), first vortex tube middle part of eddy current tubular type system nitrogen heat-exchanger rig high pressure gas inlet (49) and connect, wherein between the high pressure nitrogen inlet tube that tank body A (3) through hole and electrically-controlled valve (58) are controlled, also be provided with the fluid injection mouth of pipe of controlling by magnetic valve (64);

Respectively being controlled the normal pressure liquid nitrogen inlet tube of (59), (62) and connect by electrically-controlled valve after, second through hole of its A (3), (65) two fluid injection tank tops of B link to each other with the normal pressure liquid nitrogen outlet (57) of the 4th vortex tube end of eddy current tubular type system nitrogen heat-exchanger rig,

The 3rd through hole in its A (3), (65) two fluid injection tank tops of B is each exhaust outlet by automatic exhaust steam valve (60), (63) control;

The through hole of its A (3), (65) two fluid injection pot bottoms of B each by high-pressure liquid nitrogen outlet of electrically-controlled valve (2), (1) control and connect water generator in back and the temperature difference condensation water making device A (23), (28) two groups of tubular type temperature difference condensation water making devices of B top each link to each other by magnetic valve (26), (30) control and high-pressure liquid nitrogen inlet tube even;

Described temperature difference condensation water making device be by: water generator and multitube are changed cold storage tank 13 and are constituted;

Described water generator be by: (28) two groups of tubular type temperature difference condensation water making devices of A (23), B and heat insulation shell (24), (27) constitute;

Wherein said (28) two groups of tubular type temperature difference condensation water making devices of A (23), B that are installed in heat insulation shell (24), (27) are each by: cast outer a plurality of steel pipes of setting triangle steel sheet string type by low temperature resistant metal material and combine;

The high-pressure liquid nitrogen inlet of its upper end tubular type temperature difference condensation water making device and connecting passes being linked to each other by magnetic valve (2), (1) control and the high pressure fluid mouth of pipe even by (28) two groups of A (23), the B of magnetic valve (26), (30) control and (65) the two groups of high pressure priming devices bottoms of high-pressure liquid nitrogen inlet tube and A (3), B that connect behind heat insulation shell (24), (27) top through hole;

The high pressure nitrogen outlet of its lower end tubular type temperature difference condensation water making device and connecting passes being linked to each other with the high normal pressure and temperature nitrogen inlet tube (6) of snail type magnetic suspension turbo-generator group (4) by electrically-controlled valve (20), (28) two groups of A (23), the B of (10) control and the high pressure nitrogen outlet that connects behind heat insulation shell (24), (27) bottom through-hole;

Outlet links to each other with the high normal pressure and temperature nitrogen inlet tube (6) of snail type magnetic suspension turbo-generator group (4);

Described heat insulation shell (24), (27) are by two pipe shapes that heat-barrier material is made tank body that shape binds of dribbling up and down;

Wherein two each and every one through holes are respectively established in heat insulation shell (24), (27) upper end, and four through holes are respectively established in the housing lower end;

Wherein first through hole of respectively establishing on heat insulation shell (24), (27) is: the ventilation pore (25) of housing, (29);

Wherein second through hole respectively establishing of heat insulation shell (24), (27) upper end is: each with housing (24), (27) interior A (23), B (28) tubular type temperature difference condensation water making device on and the through hole of the high-pressure liquid nitrogen inlet tube that connects.

Wherein each hot-blast outlet (41) by magnetic valve (22), (33) control and the hot-wind inlet pipe that connects heat exchange wind cabinet (38) top in the outlet (39) of snail type magnetic suspension booster fan (40), inlet tube (41) and eddy current tubular type system nitrogen heat-exchanger rig of heat insulation shell (24), first through hole of (27) lower end side links to each other;

Wherein heat insulation shell (24), second through hole of (27) lower end side each by magnetic valve (19), (31) control and the cold wind outlet that connects by the road with eddy current tubular type system nitrogen heat-exchanger rig in heat exchange wind cabinet (38) bottom cold air inlet (8) link to each other;

Wherein heat insulation shell (24), the 3rd through hole of (27) lower end side are the high pressure nitrogen outlet through holes of A (23) in the housing, a plurality of steel pipes of B (28) three angle steel sheet string types;

Wherein heat insulation shell (24), the 4th through hole of (27) lower end side are respectively linked to each other with two entry mouths of pipe (15), (11) that the multitube of bottom is changed cold storage tank (13) top by magnetic valve (21), two delivery ports of (14) control.

Described multitube is changed cold storage tank (13), is to be made of the casing that the airduct by many break-through two sides that corrosion-resistant metal materials are made welds; The water inlet (15), (11) that link to each other with heat insulation shell A (23), two delivery ports of being controlled by magnetic valve (21), (14) in B (28) lower end are respectively established in its top, it is air inlet (09) that multitube is changed cold storage tank (13) bottom one end, and another mouthful end is the air outlet pipe (16) that links to each other with magnetic suspension air-introduced machine (18) inlet (17); Outlet pipe (12) inlet is located at the casing internal upper part, descends the outlet of the condensed water that links to each other with tank through bottom half.

Described snail type magnetic suspension turbo-generator group (4), being linked to each other by axis with magnetic suspension generator (04) by snail type steam turbine (4) constitutes;

The air intake pipe (6) of described snail type steam turbine (4) is that (28) the two groups of tubular type temperature difference condensation water making devices of A (23), B in the water generator with the temperature difference condensation water making device are linked to each other by the road by magnetic valve (20), (10) control and the high pressure nitrogen outlet that connects;

The gas outlet of described snail type steam turbine (4) pipe (7) is that first vortex tube middle-end high pressure gas inlet tube (49) in the vortex tube group with eddy current tubular type system nitrogen heat-exchanger rig links to each other.

Described eddy current tubular type system nitrogen heat-exchanger rig is by: heat exchange wind cabinet (38) and be located at the snail type magnetic suspension booster fan (40) at spiral heat exchange coil group (42) in the wind cabinet, vortex tube group that four above vortex tubes are formed, heat exchange wind cabinet (38) top and compressor (51), (45), (47) formation;

Described heat exchange wind cabinet (38) be by: heat-barrier material make the through hole in top, four or more through hole of side, the cabinet of two through holes in the bottom;

The warm-air pipe outlet that wherein links to each other with heat exchange wind cabinet (38) top through hole is controlled in parallel hot-wind inlet with the thermally insulating housing side bottom of tubular type temperature difference condensation water making device group by magnetic valve (22), (33) through snail type magnetic suspension booster fan (40) inlet (41), outlet (39) and is linked to each other;

The through hole that from top to bottom links to each other with the air inlet of heat exchange wind cabinet (38) side more than four wherein with a plurality of vortex tube front end heat outlets (43), (44), (46), (48);

Wherein pass first vortex tube rear end cold air outlet pipe (49), compressor (51) inlet tube of the total gas outlet pipe of the spiral heat exchange coil of heat exchange wind cabinet (38) bottom through-hole (9) and casing upper lateral part and connect.

Wherein the thermally insulating housing (24) of the cold air inlet tube and tube formula temperature difference condensation water making device group bottom heat exchange wind cabinet (38), (27) side bottom are linked to each other by the road by magnetic valve (19), (31) control cold wind outlet in parallel;

Described spiral heat exchange coil group (42) is from top to bottom to be constituted by a plurality of flange-cooled spiral coils;

Wherein first spiral coil air inlet (43) links to each other with the heat outlet (43) of first vortex tube front end;

Wherein second spiral coil air inlet (44) links to each other with the heat outlet (44) of second vortex tube front end;

Wherein the 3rd spiral coil air inlet (46) links to each other with the heat outlet (46) of the 3rd vortex tube front end;

Wherein the 4th spiral coil air inlet (48) links to each other with the heat outlet (48) of the 4th vortex tube front end;

More than four gas outlets (36), (35), (34), (32) of four spiral coils in cabinet, connect the spiral coil general export pipe (9) that passes from the bottom of cabinet bulk through hole and first vortex tube end from top to bottom cold air outlet (50) with compressor (51) inlet and connect the back and link to each other with the high pressure admission mouth (52) of second vortex tube middle-end.

Described vortex tube be by: to be that high pressure admission mouth (49), (52), (54), (56) are terminal be cold air outlet (50), (53), 55 for the eddy current tubular shell that low temperature resistant, high pressure resistant material is made, middle-end), (57), front end be heat outlet (43), (44), (46), (48);

Described vortex tube group from top to bottom is to connect like this:

The high pressure admission mouth (49) of first vortex tube middle-end of upper end (28) two groups of tubular type temperature difference condensation water making devices of A (23), B in the water generator of snail type magnetic suspension turbo-generator group (4) outlet (7), inlet (6) and temperature difference condensation water making device are exported by magnetic valve (20), (10) high pressure nitrogen control and that connect and link to each other; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet 43 of front end and the heat exchange wind cabinet (38) is (42) second links to each other; Terminal cold air outlet (50) and the nitrogen spiral of heat exchange wind cabinet (38) cooling general export pipe (9) and compressor (51) and connecting afterwards with the high pressure admission mouth (52) of second vortex tube middle-end of vortex tube group links to each other;

The high pressure admission mouth (52) of second vortex tube middle-end is that outlet, the inlet of compressed machine (51) links to each other with the cold air outlet (50) of first vortex tube end; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet of front end (44) and the heat exchange wind cabinet (38) is (42) second links to each other; The terminal compressed machine of cold air outlet (53) (45) outlet, inlet link to each other with the high pressure admission mouth (54) of the 3rd vortex tube middle-end;

The high pressure admission mouth (54) of the 3rd vortex tube middle-end is that outlet, the inlet of compressed machine (45) links to each other with the cold air outlet (53) of second vortex tube end; The spiral coil air inlet that spiral heat exchange coil group (42) in the heat outlet of front end (46) and the heat exchange wind cabinet (38) is the 3rd links to each other; The terminal compressed machine of cold air outlet (55) (47) outlet, inlet link to each other with the high pressure admission mouth (56) of the 4th vortex tube middle-end;

The high pressure admission mouth (56) of the 4th vortex tube middle-end is outlet, the inlet and the cold air outlet 55 of the 3rd vortex tube end of compressed machine (47)) link to each other; The spiral coil air inlet that spiral heat exchange coil group (42) in the heat outlet of front end (48) and the heat exchange wind cabinet (38) is the 4th links to each other; Terminal liquid nitrogen outlet (57) by the road with (65) two fluid injection tank tops of A (3), B of high pressure priming device in two link to each other by magnetic valve (59), (62) control and the liquid-in pipe mouths that connect;

Described self-con-tained unit (5) is by all snail type magnetic suspension turbo-generator groups (4) of closed cycle cold energy system water air conditioning electric generating device on lead and the building delivery vehicle, magnetic valve (26), (30), (21), (14), (20), (10), (22), (33), (19), (31), (58), (61), (59), (62), (2), (1) automatic exhaust steam valve (60), (63) liquid-filling valve (64) snail type magnetic suspension booster fan (40), magnetic suspension air-introduced machine (18) and compressor (51), 45), (47) link to each other;

2. according to claim 1: the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle is characterized in that: the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle is to be made of: high pressure priming device, temperature difference condensation water making device, snail type magnetic suspension turbo-generator group (4), snail type magnetic suspension booster fan (40), eddy current tubular type system nitrogen heat-exchanger rig and self-con-tained unit (5).

3. according to claim 1: the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle is characterized in that: wherein said high pressure priming device is that the outer low temperature resistant metal steel of interior usefulness of making insulation by heat-insulating material are made on the hollow cylindrical housing of upper and lower dribbling top (65) two fluid injection jars of A (3), B of establishing three through holes, dividing into a through hole;

First through holes of its A (3), (65) two fluid injection tank tops of B each by high pressure nitrogen inlet tube of electrically-controlled valve (58), (61) control and connect back and snail type magnetic suspension turbo-generator group (4) gas outlet (7), first vortex tube middle part of eddy current tubular type system nitrogen heat-exchanger rig high pressure gas inlet (49) and connect, wherein between the high pressure nitrogen inlet tube that tank body A (3) through hole and electrically-controlled valve (58) are controlled, also be provided with the fluid injection mouth of pipe of controlling by magnetic valve (64);

Respectively being controlled the normal pressure liquid nitrogen inlet tube of (59), (62) and connect by electrically-controlled valve after, second through hole of its A (3), (65) two fluid injection tank tops of B link to each other with the normal pressure liquid nitrogen outlet (57) of the 4th vortex tube end of eddy current tubular type system nitrogen heat-exchanger rig,

The 3rd through hole in its A (3), (65) two fluid injection tank tops of B is each exhaust outlet by automatic exhaust steam valve (60), (63) control;

The through hole of its A (3), (65) two fluid injection pot bottoms of B each by high-pressure liquid nitrogen outlet of electrically-controlled valve (2), (1) control and connect water generator in back and the temperature difference condensation water making device A (23), (28) two groups of tubular type temperature difference condensation water making devices of B top each link to each other by magnetic valve (26), (30) control and high-pressure liquid nitrogen inlet tube even;

4. according to claim 1: the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle is characterized in that: described temperature difference condensation water making device be by: water generator and multitube are changed cold storage tank 13 and are constituted;

Described water generator be by: (28) two groups of tubular type temperature difference condensation water making devices of A (23), B and heat insulation shell (24), (27) constitute;

Wherein said (28) two groups of tubular type temperature difference condensation water making devices of A (23), B that are installed in heat insulation shell (24), (27) are each by: cast outer a plurality of steel pipes of setting triangle steel sheet string type by low temperature resistant metal material and combine;

The high-pressure liquid nitrogen inlet of its upper end tubular type temperature difference condensation water making device and connecting passes being linked to each other by magnetic valve (2), (1) control and the high pressure fluid mouth of pipe even by (28) two groups of A (23), the B of magnetic valve (26), (30) control and (65) the two groups of high pressure priming devices bottoms of high-pressure liquid nitrogen inlet tube and A (3), B that connect behind heat insulation shell (24), (27) top through hole;

The high pressure nitrogen outlet of its lower end tubular type temperature difference condensation water making device and connecting passes being linked to each other with the high normal pressure and temperature nitrogen inlet tube (6) of snail type magnetic suspension turbo-generator group (4) by electrically-controlled valve (20), (28) two groups of A (23), the B of (10) control and the high pressure nitrogen outlet that connects behind heat insulation shell (24), (27) bottom through-hole;

Described heat insulation shell (24), (27) are by two pipe shapes that heat-barrier material is made tank body that shape binds of dribbling up and down;

Wherein two each and every one through holes are respectively established in heat insulation shell (24), (27) upper end, and four through holes are respectively established in the housing lower end;

Wherein first through hole of respectively establishing on heat insulation shell (24), (27) is: the ventilation pore (25) of housing, (29);

Wherein second through hole respectively establishing of heat insulation shell (24), (27) upper end is: each with housing (24), (27) interior A (23), B (28) tubular type temperature difference condensation water making device on and the through hole of the high-pressure liquid nitrogen inlet tube that connects.

Wherein each hot-blast outlet (41) by magnetic valve (22), (33) control and the hot-wind inlet pipe that connects heat exchange wind cabinet (38) top in the outlet (39) of snail type magnetic suspension booster fan (40), inlet tube (41) and eddy current tubular type system nitrogen heat-exchanger rig of heat insulation shell (24), first through hole of (27) lower end side links to each other;

Wherein heat insulation shell (24), second through hole of (27) lower end side each by magnetic valve (19), (31) control and the cold wind outlet that connects by the road with eddy current tubular type system nitrogen heat-exchanger rig in heat exchange wind cabinet (38) bottom cold air inlet (8) link to each other;

Wherein heat insulation shell (24), the 3rd through hole of (27) lower end side are the high pressure nitrogen outlet through holes of A (23) in the housing, a plurality of steel pipes of B (28) three angle steel sheet string types;

Wherein heat insulation shell (24), the 4th through hole of (27) lower end side are respectively linked to each other with two entry mouths of pipe (15), (11) that the multitube of bottom is changed cold storage tank (13) top by magnetic valve (21), two delivery ports of (14) control.

Described multitube is changed cold storage tank (13), is to be made of the casing that the airduct by many break-through two sides that corrosion-resistant metal materials are made welds; The water inlet (15), (11) that link to each other with heat insulation shell A (23), two delivery ports of being controlled by magnetic valve (21), (14) in B (28) lower end are respectively established in its top, it is air inlet (09) that multitube is changed cold storage tank (13) bottom one end, and another mouthful end is the air outlet pipe (16) that links to each other with magnetic suspension air-introduced machine (18) inlet (17); Outlet pipe (12) inlet is located at the casing internal upper part, descends the outlet of the condensed water that links to each other with tank through bottom half.

5. according to claim 1: the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle is characterized in that: described snail type magnetic suspension turbo-generator group (4), and being linked to each other by axis with magnetic suspension generator (04) by snail type steam turbine (4) constitutes;

The air intake pipe (6) of described snail type steam turbine (4) is that (28) the two groups of tubular type temperature difference condensation water making devices of A (23), B in the water generator with the temperature difference condensation water making device are linked to each other by the road by magnetic valve (20), (10) control and the high pressure nitrogen outlet that connects;

The gas outlet of described snail type steam turbine (4) pipe (7) is that first vortex tube middle-end high pressure gas inlet tube (49) in the vortex tube group with eddy current tubular type system nitrogen heat-exchanger rig links to each other.

6. according to claim 1: the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle is characterized in that: described eddy current tubular type system nitrogen heat-exchanger rig is by: heat exchange wind cabinet (38) and be located at the snail type magnetic suspension booster fan (40) at spiral heat exchange coil group (42) in the wind cabinet, vortex tube group that four above vortex tubes are formed, heat exchange wind cabinet (38) top and compressor (51), (45), (47) formation;

Described heat exchange wind cabinet (38) be by: heat-barrier material make the through hole in top, four or more through hole of side, the cabinet of two through holes in the bottom;

The warm-air pipe outlet that wherein links to each other with heat exchange wind cabinet (38) top through hole is controlled in parallel hot-wind inlet with the thermally insulating housing side bottom of tubular type temperature difference condensation water making device group by magnetic valve (22), (33) through snail type magnetic suspension booster fan (40) inlet (41), outlet (39) and is linked to each other;

The through hole that from top to bottom links to each other with the air inlet of heat exchange wind cabinet (38) side more than four wherein with a plurality of vortex tube front end heat outlets (43), (44), (46), (48);

Wherein pass first vortex tube rear end cold air outlet pipe (49), compressor (51) inlet tube of the total gas outlet pipe of the spiral heat exchange coil of heat exchange wind cabinet (38) bottom through-hole (9) and casing upper lateral part and connect.

Wherein the thermally insulating housing (24) of the cold air inlet tube and tube formula temperature difference condensation water making device group bottom heat exchange wind cabinet (38), (27) side bottom are linked to each other by the road by magnetic valve (19), (31) control cold wind outlet in parallel;

Described spiral heat exchange coil group (42) is from top to bottom to be constituted by a plurality of flange-cooled spiral coils;

Wherein first spiral coil air inlet (43) links to each other with the heat outlet (43) of first vortex tube front end;

Wherein second spiral coil air inlet (44) links to each other with the heat outlet (44) of second vortex tube front end;

Wherein the 3rd spiral coil air inlet (46) links to each other with the heat outlet (46) of the 3rd vortex tube front end;

Wherein the 4th spiral coil air inlet (48) links to each other with the heat outlet (48) of the 4th vortex tube front end;

More than four gas outlets (36), (35), (34), (32) of four spiral coils in cabinet, connect the spiral coil general export pipe (9) that passes from the bottom of cabinet bulk through hole and first vortex tube end from top to bottom cold air outlet (50) with compressor (51) inlet and connect the back and link to each other with the high pressure admission mouth (52) of second vortex tube middle-end.

Described vortex tube be by: to be that high pressure admission mouth (49), (52), (54), (56) are terminal be cold air outlet (50), (53), 55 for the eddy current tubular shell that low temperature resistant, high pressure resistant material is made, middle-end), (57), front end be heat outlet (43), (44), (46), (48);

Described vortex tube group from top to bottom is to connect like this:

The high pressure admission mouth (49) of first vortex tube middle-end of upper end (28) two groups of tubular type temperature difference condensation water making devices of A (23), B in the water generator of snail type magnetic suspension turbo-generator group (4) outlet (7), inlet (6) and temperature difference condensation water making device are exported by magnetic valve (20), (10) high pressure nitrogen control and that connect and link to each other; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet 43 of front end and the heat exchange wind cabinet (38) is (42) second links to each other; Terminal cold air outlet (50) and the nitrogen spiral of heat exchange wind cabinet (38) cooling general export pipe (9) and compressor (51) and connecting afterwards with the high pressure admission mouth (52) of second vortex tube middle-end of vortex tube group links to each other;

The high pressure admission mouth (52) of second vortex tube middle-end is that outlet, the inlet of compressed machine (51) links to each other with the cold air outlet (50) of first vortex tube end; The spiral coil air inlet that spiral heat exchange coil group in the heat outlet of front end (44) and the heat exchange wind cabinet (38) is (42) second links to each other; The terminal compressed machine of cold air outlet (53) (45) outlet, inlet link to each other with the high pressure admission mouth (54) of the 3rd vortex tube middle-end;

The high pressure admission mouth (54) of the 3rd vortex tube middle-end is that outlet, the inlet of compressed machine (45) links to each other with the cold air outlet (53) of second vortex tube end; The spiral coil air inlet that spiral heat exchange coil group (42) in the heat outlet of front end (46) and the heat exchange wind cabinet (38) is the 3rd links to each other; The terminal compressed machine of cold air outlet (55) (47) outlet, inlet link to each other with the high pressure admission mouth (56) of the 4th vortex tube middle-end;

The high pressure admission mouth (56) of the 4th vortex tube middle-end is outlet, the inlet and the cold air outlet 55 of the 3rd vortex tube end of compressed machine (47)) link to each other; The spiral coil air inlet that spiral heat exchange coil group (42) in the heat outlet of front end (48) and the heat exchange wind cabinet (38) is the 4th links to each other; Terminal liquid nitrogen outlet (57) by the road with (65) two fluid injection tank tops of A (3), B of high pressure priming device in two link to each other by magnetic valve (59), (62) control and the liquid-in pipe mouths that connect;

7. according to claim 1: the closed cycle cold energy system water air conditioning electric generating device on the building delivery vehicle is characterized in that: described self-con-tained unit (5) is by all snail type magnetic suspension turbo-generator groups (4) of closed cycle cold energy system water air conditioning electric generating device on lead and the building delivery vehicle, magnetic valve (26), (30), (21), (14), (20), (10), (22), (33), (19), (31), (58), (61), (59), (62), (2), (1) automatic exhaust steam valve (60), (63) liquid-filling valve (64) snail type magnetic suspension booster fan (40), magnetic suspension air-introduced machine (18) and compressor (51), 45), (47) link to each other.

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