CN208364293U - A kind of device to be generated electricity using chemical energy - Google Patents

Abstract

The utility model relates to energy technology fields, and in particular to a kind of device to be generated electricity using chemical energy, including high-pressure bottle, power generation auxiliary device, the first generator, first switch, multiple first check valves, second one-way valve and apparatus to cause bursting；The high-pressure bottle is provided with water inlet, exhaust outlet and multiple discharge outlet；First switch is connected with exhaust outlet, and water inlet is connected with the water outlet of second one-way valve, and each discharge outlet is connected with the water inlet of the first check valve；First generator is connected by the auxiliary device that generates electricity with high-pressure bottle；The apparatus to cause bursting generates gas for igniting substance.The utility model beneficial effect is, it is not influenced by natural conditions such as weather, geographical locations, it is exploded with explosive and generates gas and obtain energy, obtained energy drawing generator power generation, and obtaining energy working medium in drawing generator power generation process need not mutually convert between liquid and gaseous state, generating efficiency is substantially increased, nitrogen, carbon dioxide and oxygen can be made by generating tail gas.The utility model unit input cost is few, high efficiency.

Description

A kind of device to be generated electricity using chemical energy

Technical field

The present invention relates to energy technology fields, and in particular to a kind of device to be generated electricity using chemical energy.

Background technique

Thermoelectricity needs to burn non-renewable resource, while needing for liquid water to be heated into high pressure gaseous steam, A large amount of heat is absorbed during water vapor, causes generating efficiency relatively low, while cooled exhaust gas need to use a large amount of cold water;And And combustion tail gas contains the sour gas such as sulfur dioxide, causes serious environmental pollution.

Water generating is the kinetic energy power generation that the hydraulic turbine is converted into using the potential energy of water, and project amount is big, at high cost, is built Place influenced by river flow and drop.

In existing new energy based on wind energy and solar energy, although this is the very clean energy, seriously by day The influence of the natural conditions such as gas, there are uncontrollable factors, and input cost is high, and the output period is long.

Summary of the invention

The technical problem to be solved in the present invention is that relatively low for thermal power generation efficiency and electric power resource is more and more tighter This shortcoming is lacked, a kind of device to be generated electricity using chemical energy is provided.

In order to achieve the above objectives, the technical solution adopted by the present invention is that a kind of device to be generated electricity using chemical energy, the dress It sets including high-pressure bottle, power generation auxiliary device, the first generator, first switch, multiple first check valves, second one-way valve and draws Quick-fried device；The high-pressure bottle is provided with water inlet, exhaust outlet and multiple discharge outlet；First switch is connected with exhaust outlet, water inlet Mouth is connected with the water outlet of second one-way valve, and each discharge outlet is connected with the water inlet of the first check valve；First generator is logical Power generation auxiliary device is crossed to be connected with high-pressure bottle；The apparatus to cause bursting generates gas for igniting substance.

Preferably, a kind of device to be generated electricity using chemical energy, the power generation auxiliary device include that multiple first waterpower push Device, multiple actuators, first gas compression set, the first high pressure tank, low pressure gasholder, the first steam turbine, second Switch, third switch, third check valve, the 4th check valve, the 5th check valve, the first pressure reducing valve and multiple elongated capsules of elasticity； Third switch is connected with the water inlet of second one-way valve；Each first waterpower pushing meanss include the first cylinder, the second cylinder and First pushes plug, and first cylinder one end is connected with the shell for the high-pressure bottle for being provided with multiple discharge outlet, the other end and second Body is connected using flange, and first pushes plug to be located in the second cylinder, and the first cylinder is equipped with the first cylinder water inlet, and top is equipped with small Hole, the first cylinder water inlet are connected with second switch；Each actuator includes pulley and the first wirerope；First gas compression Device includes baffle, cylinder, catch bar and the second wirerope, and catch bar one end is mounted in cylinder, and the other end passes through a plurality of second Wirerope is connected with baffle, and cylinder is equipped with venthole and blowhole, and venthole is connected with the air intake of third check valve, blowhole and The gas outlet of 4th check valve is connected；The first of each first waterpower pushing meanss pushes plug to wear by pulley and the first wirerope Small holes, the elongated capsule of elasticity are connected with the baffle of first gas compression set, and the gas outlet of third check valve passes through high-voltage tube It is connected with the air intake of the 5th check valve, the gas outlet of the 5th check valve is connected with the first air intake of the first high pressure tank, The gas outlet of first high pressure tank is connected by the first pressure reducing valve and high-voltage tube with the air intake of the first steam turbine, the first steamer The gas outlet of machine is connected by high-voltage tube with low pressure gasholder air intake, and low pressure gasholder gas outlet is single by high-voltage tube and the 4th It is connected to the air intake of valve；The elongated capsule bottom of elasticity is connected with the aperture of the first waterpower pushing meanss, top and the first wirerope It is connected；First steam turbine is connected with the first generator.

Preferably, a kind of device to be generated electricity using chemical energy, the power generation auxiliary device further include that the second waterpower pushes dress It sets, second gas compression set, third wirerope, the first T-type threeway, second one-way valve and the 6th check valve, the 7th check valve, Eight check valves；First high pressure tank further includes the second air intake；Second waterpower pushing meanss push plug and cylinder body including second, Second pushes plug to be mounted in cylinder body, and cylinder body is open at one end, and the other end is equipped with cylinder body paddle hole；Second gas compression set knot Structure is identical as first gas compression set, and the venthole of second gas compression set is connected with the air intake of the 7th check valve, the The gas outlet of seven check valves is connected by high-voltage tube with the air intake of the 6th check valve, the gas outlet of the 6th check valve and first high The second air intake of air accumulator is pressed to be connected；The blowhole of second gas compression set is connected with the gas outlet of the 8th check valve, the The air intake of eight check valves is also connected with low pressure gasholder gas outlet by high-voltage tube；The water inlet of second one-way valve passes through first T-type threeway is connected with third switch, also through the cylinder body Inlet and outlet water of the first T-type threeway and high-voltage tube and the second waterpower pushing meanss Hole is connected；Second pushes plug to be connected by third wirerope with the baffle of second gas compression set.

Preferably, a kind of device to be generated electricity using chemical energy, described device further includes the second generator；The power generation auxiliary Device further includes the second high pressure tank, third high pressure tank, the second steam turbine, the 4th switch, the 5th switch, the 9th unidirectional Valve, the second pressure reducing valve and third pressure reducing valve；The third high pressure tank is provided with the first air intake of third high pressure tank, Three the second air intakes of high pressure tank；The gas outlet of first steam turbine is connected by high-voltage tube with the air intake of the 9th check valve, The gas outlet of 9th check valve is connected with the second high pressure tank air intake, and the second high pressure tank gas outlet passes through the second decompression Valve and high-voltage tube are connected with the air intake of the second steam turbine；The gas outlet of third check valve passes through high-voltage tube and the 4th switch one end It is connected, the 4th switch other end is connected with the first air intake of third high pressure tank；The gas outlet of 7th check valve passes through high pressure Guan Yu five switchs one end and is connected, and the 5th switch other end is connected with the second air intake of third high pressure tank；The storage of third high pressure Gas tank gas outlet is also connected with the air intake of the second steam turbine by third pressure reducing valve and high-voltage tube, the gas outlet of the second steam turbine It is connected by high-voltage tube with low pressure gasholder air intake；Second steam turbine is connected with the second generator.

Preferably, a kind of device to be generated electricity using chemical energy, the power generation auxiliary device further include that first band roller slows down Device, the second band roller deceleration device, the 4th wirerope and the 5th wirerope；The first of each first waterpower pushing meanss pushes plug equal It is connected by pulley and the first wirerope with the speed end of first band roller deceleration device, the low speed end of first band roller deceleration device It is connected by the 4th wirerope with the baffle of first gas compression set；Second pushes plug to subtract by third wirerope and the second band roller The speed end of speed variator is connected, and the second low speed end with roller deceleration device passes through the 5th wirerope and second gas compression set Baffle is connected.

Preferably, a kind of device to be generated electricity using chemical energy, described device further includes gas treatment equipment, the second T-type three Logical, the 6th switch；First switch one end is connected by the second T-type threeway with exhaust outlet, and the first switch other end passes through high-voltage tube It is connected with gas treatment equipment, second last one end of T-type threeway is communicated by the 6th switch with atmosphere.

Preferably, a kind of device to be generated electricity using chemical energy, the high-pressure bottle top and bottom are set as hollow hemisphere Type, middle part are set as hollow cylinder, and water inlet setting is arranged at the top of high-pressure bottle in high-pressure bottle bottom, exhaust outlet；Institute It states and also sets up manhole and manhole cover at the top of high-pressure bottle, manhole is connected with manhole cover by bolt or button hook；High-pressure bottle is also set It is equipped with erecting by overhang, the erecting by overhang includes hanging ring and drawstring, and hanging ring is connected to inner wall of high-pressure container, and drawstring both ends are pricked and hung On circle, the fixed explosive in middle part；It is set as hollow semi-circular at the top and bottom of first cylinder of each first waterpower pushing meanss Cylinder, middle part are set as hollow rectangle cylinder, and the second cylinder is set as hollow round cylinder, and first pushes plug to be set as round Cylinder；The second of second waterpower pushing meanss pushes plug to be set as round cylinder, and cylinder body is set as hollow round column open at one end Body；The cylinder of first and second gas compressing apparatus is set as hollow round cylinder open at one end, and catch bar both ends are disposed as Round cylinder, both ends are connected by tubing string, and the cylinder and catch bar of the first and second gas compressing apparatus can also use elasticity storage Can air bag and pressing plate replace, elastic energy storage air bag includes pedestal and elastic balloon, and pedestal is set as round cylinder, in elastic balloon Top is set as hollow hemisphere type, and middle part is set as hollow cylinder, and pressing plate is connected by a plurality of second wirerope with baffle；Elasticity Elongated capsule bottom passes through the aperture phase of flange and bolt and the first waterpower pushing meanss in the hollow round cylinder being open Even, top is hollow semicircle ball-type and hollow round cylinder combination, the hollow parts and the first steel of the hollow round cylinder in top Cable is connected, and in the hollow round cylinder in top that the first wirerope is solid steady with clips.

The beneficial effects of the present invention are the present invention is not influenced by natural conditions such as weather, geographical locations, uses explosive Explosion generates gas and obtains energy, obtained energy drawing generator power generation, and obtains energy and generate electricity in drawing generator Working medium need not mutually be converted between liquid and gaseous state in the process, substantially increase generating efficiency, and generating tail gas has nitrogen, titanium dioxide Carbon and oxygen can be made into a variety of single high pressure gas or liquid by gas treatment equipment, obtains better economic benefit.This hair Bright unit input cost is few, high efficiency.

Detailed description of the invention:

Fig. 1 is the structural schematic diagram of high-pressure bottle；

Fig. 2 is the structural schematic diagram of high-pressure bottle and multiple first waterpower pushing meanss；

Fig. 3 be in Fig. 2 A-A to structural schematic diagram；

Fig. 4 is the structural schematic diagram of B-B direction in Fig. 2;

Fig. 5 is the structural schematic diagram of first gas compression set;

Fig. 6 is the structural schematic diagram of elastic energy storage airbag gas compression set;

Fig. 7 is the positional structure schematic diagram of elasticity elongated capsule and the first waterpower pushing meanss；

Fig. 8 is the structural schematic diagram of embodiment 1;

Fig. 9 is the structural schematic diagram that high-pressure bottle is equipped with pure explosive;

Figure 10 is the structural schematic diagram that high-pressure bottle is equipped with explosive and fuel;

Figure 11 is the structural schematic diagram of the second waterpower pushing meanss;

Figure 12 is the structural schematic diagram of embodiment 2;

Figure 13 is the structural schematic diagram of embodiment 3;

Figure 14 is the structural schematic diagram of embodiment 4.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that described herein, specific examples are only used to explain the present invention, not For limiting the present invention.

Embodiment 1

General principles: apparatus to cause bursting ignites the explosive in the high-pressure bottle in water, generates a large amount of high temperature and pressure Gas, forms initial shock wave in water, and pressure is reduced simultaneously for " balloon " expansion that explosion product is formed, and by high-pressure bottle Interior water is drained from multiple first check valves, drives electrical power generators；" balloon " retraction after expansion, gas float and are pressed Contracting in the water inspiration high-pressure bottle outside high-pressure bottle, will continue to drive electrical power generators.

If Fig. 1 is the structural schematic diagram of high-pressure bottle.

The high-pressure bottle 1 is provided with water inlet 11, exhaust outlet 12 and multiple discharge outlet 13；1 top of high-pressure bottle It is set as hollow hemisphere type with bottom, middle part is set as hollow cylinder, and the setting of water inlet 11 is in 1 bottom of high-pressure bottle, exhaust For 12 setting of mouth at 1 top of high-pressure bottle, multiple discharge outlet 13 are distributed in 1 middle part of high-pressure bottle and bottom surrounding；The high pressure-volume Manhole 15 and manhole cover 14 are also set up at the top of device 1, manhole 15 is connected with manhole cover 14 by bolt or button hook；High-pressure bottle 1 is also It is provided with erecting by overhang 16, the erecting by overhang 16 includes hanging ring and drawstring, and hanging ring is connected to 1 inner wall of high-pressure bottle, drawstring two End is pricked on hanging ring, the fixed explosive in middle part；

The setting of high-pressure bottle 1 top and bottom are that hollow hemisphere type purpose enhances 1 compressive strength of high-pressure bottle, and middle part is sky The heart cylindrical body purpose enhancing 1 compressive strength of high-pressure bottle simultaneously and allow explosion product formed " balloon " expansion and compression repeatedly into Row process has enough floating spaces, and manhole 15 and manhole cover 14 is arranged in order to be more convenient an explosive 20 and puts high-pressure bottle 1 into It is interior.Multiple discharge outlet 11 are set, and the gas that purpose allows explosion to generate rapidly drains the water in high-pressure bottle 1, reduces water to sky The impact of 1 inner wall of heart container, while reducing gas and being exchanged with water the time, to reduce energy loss to the greatest extent；Multiple discharge outlet 13, which are distributed in 1 middle part of high-pressure bottle and bottom surrounding purpose, prevents from causing because the hydraulic pressure outside high-pressure bottle lower part is higher than top Drain in portion gas drainage procedure from high-pressure bottle top.Setting 16 purpose of erecting by overhang allows explosive to be suspended on high-pressure bottle The gas of 1 middle and lower part immediate vicinity, generation of exploding uniformly is spread in high-pressure bottle 1.

High-pressure bottle 1 can divide three layers, and using thermal coefficient, low and high-temperature and high-presure resistent material, middle layer are used and led ectonexine The low metal of hot coefficient, alloy or carbon fiber manufacture, can also be manufactured, middle layer is used with the high other materials of other rigids High-pressure bottle compressive resistance can be enhanced in metal, alloy or carbon fiber manufacture.Or ectonexine using the low metal of thermal coefficient, Alloy or carbon fiber manufacture, middle layer are in vacuum state.It is in vacuum state using the low material manufacture of thermal coefficient and middle layer All in order to reduce thermal loss to the greatest extent.

Fig. 2-4 is the structural schematic diagram of high-pressure bottle and multiple first waterpower pushing meanss；

Each first waterpower pushing meanss 21 include that the first cylinder 211, the second cylinder 212 and the first promotion fill in 213, first 211 one end of cylinder is connected with the shell for the high-pressure bottle 1 for being provided with multiple discharge outlet 13, and the other end and the second cylinder 212 use Flange is connected, and first pushes plug 213 to be located in the second cylinder 212, and the first cylinder 211 is equipped with the first cylinder water inlet 2111, top Portion is equipped with aperture 2112.It is set as hollow semi-circular at the top and bottom of first cylinder 211 of each first waterpower pushing meanss 21 Cylinder, middle part are set as hollow rectangle cylinder, and the second cylinder 212 is set as hollow round cylinder, and first pushes 213 setting of plug For round cylinder.

Such as Fig. 3, pulley 221 includes multiple pulleys, one of them is located at first and pushes on 213 center lines of plug, and by branch Fagging 2211 is fixed, and support plate 2211 is fixed on 1 outer wall of high-pressure bottle.

2112 purpose of aperture is equipped at the top of first waterpower pushing meanss 21, and to allow the first wirerope 222 to move up and down without hindrance.

First waterpower pushing meanss 21, also can be with other rigid using the high metal of rigid, alloy or carbon fiber manufacture Property intensity it is high other materials manufacture.

Fig. 5 is the structural schematic diagram of first gas compression set;

First gas compression set 23 includes baffle 231, cylinder 232, catch bar 233 and the second wirerope 234, catch bar 233 one end are mounted in cylinder 232, and the other end is connected by a plurality of second wirerope 234 with baffle 231, and cylinder 232 is equipped with outlet Hole 2321 and blowhole 2322.

Cylinder 232 is set as hollow round cylinder open at one end, and 233 both ends of catch bar are disposed as round cylinder, both ends It is connected by tubing string.

Cylinder 232 can divide three layers, and ectonexine is using the metal that thermal coefficient is low and high temperature high voltage resistant rigid is high, alloy Or carbon fiber manufacture, middle layer are in vacuum state, the low nonmetallic materials manufacture of thermal coefficient also can be used in outer layer.Using thermally conductive The manufacture of coefficient low material and middle layer are in vacuum state all in order to reduce thermal loss to the greatest extent.

Baffle 231 and catch bar 233 are all made of high metal, alloy or the carbon fiber manufacture of the low rigid of thermal coefficient, It is mounted among the catch bar 233 in 232 direction of cylinder and is preferably manufactured to vacuum state, purpose reduces thermal loss to the greatest extent.

Fig. 6 is the structural schematic diagram of elastic energy storage airbag gas compression set;

When selected working medium (such as carbon dioxide, oxygen, refrigerant) reaches steam turbine air intake pressure, Temperature of Working exists Elastic energy storage air bag 201 can be in tolerance range, and the cylinder and catch bar of the first and second gas compressing apparatus can also use elasticity Energy storage air bag 201 and pressing plate 202 replace, and elastic energy storage air bag 201 includes pedestal 2012 and elastic balloon 2011, and pedestal 2012 is set It is equipped with air intake and gas outlet.Pedestal 2012 is set as round cylinder, and top is set as hollow hemisphere type in elastic balloon 2011, Middle part is set as hollow cylinder, and pressing plate 202 is connected by a plurality of second wirerope 234 with baffle 231.

Pedestal 2012 and elastic balloon 2011 using flange and are bolted.

Pedestal 2012 is intermediate preferably fabricated using the high metal of the low rigid of thermal coefficient, alloy or carbon fiber manufacture At vacuum state；The elastomeric material manufacture low using thermal coefficient of elastic balloon 2011.

Using the two o'clock of 201 mesh of elastic energy storage air bag: first, reduce thermal loss；Second, without catch bar 233 in gas Movement in cylinder 232 and cause working medium to leak phenomenon.

Fig. 7 is the positional structure schematic diagram of elasticity elongated capsule and the first waterpower pushing meanss；

Elongated 501 bottom of capsule of elasticity is connected with the aperture 2112 of the first waterpower pushing meanss 21, top and the first wirerope 222 are connected；Elongated 501 bottom of capsule of elasticity is pushed away by flange and bolt with the first waterpower in the hollow round cylinder being open The aperture 2112 of dynamic device 21 is connected, and top is that hollow semicircle ball-type and hollow round cylinder combination, the first wirerope 222 pass through Inside the elongated capsule 501 of elasticity, and it is in the hollow round cylinder in top that the first wirerope 222 is solid steady with clips.

It is connected using elongated 501 bottom of capsule of elasticity with the aperture 2112 of the first waterpower pushing meanss 21, top and first Wirerope 222 is connected, and the first wirerope 222 up moves, and the elongated capsule 501 of elasticity extends, and the first wirerope 222 moves down, elasticity Elongated capsule 501 shortens, it is therefore intended that prevents the explosion of 1 explosive of high-pressure bottle by water toward 21 outlet of the first waterpower pushing meanss When, 21 part water of the first waterpower pushing meanss is drained from aperture 2112, causes energy loss.

Fig. 8 is the structural schematic diagram of the present embodiment;

Such as Fig. 1-8, a kind of device to be generated electricity using chemical energy, including high-pressure bottle 1, multiple first waterpower pushing meanss 21, multiple actuators, first gas compression set 23, the first high pressure tank 24, low pressure gasholder 25, the first steam turbine 26, the first generator 51, gas treatment equipment 10, first switch 31, second switch 32, third switch 33, the 6th switch 36, Two T-type threeways 101, multiple first check valves 41, second one-way valve 42, third check valve 43, the 4th check valve the 44, the 5th are unidirectional Valve 45, the first pressure reducing valve 61 and apparatus to cause bursting.

The high-pressure bottle 1 is provided with water inlet 11, exhaust outlet 12 and multiple discharge outlet 13；Water inlet 11 and second is unidirectionally The water outlet of valve 42 is connected, and each discharge outlet 13 is connected with the water inlet of the first check valve 41；31 one end of first switch passes through Second T-type threeway 101 is connected with exhaust outlet 12, and 31 other end of first switch is connected by high-voltage tube with gas treatment equipment 10, The last one end of second T-type threeway 101 is communicated by the 6th switch 36 with atmosphere.The water outlet of water inlet 11 and second one-way valve 42 It is connected, the water inlet of second one-way valve 42 is connected with third switch 33.

Each first waterpower pushing meanss 21 include that the first cylinder 211, the second cylinder 212 and the first promotion fill in 213, first 211 one end of cylinder is connected with the shell for the high-pressure bottle 1 for being provided with multiple discharge outlet 13, and the other end and the second cylinder 212 use Flange is connected, and first pushes plug 213 to be located in the second cylinder 212, and the first cylinder 211 is equipped with the first cylinder water inlet 2111, top Portion is equipped with aperture 2112, and the first cylinder water inlet 2111 is connected with second switch 32.

Each actuator includes pulley 221 and the first wirerope 222.

First gas compression set 23 includes baffle 231, cylinder 232, catch bar 233 and the second wirerope 234, catch bar 233 one end are mounted in cylinder 232, and the other end is connected by a plurality of second wirerope 234 with baffle 231, and cylinder 232 is equipped with outlet Hole 2321 and blowhole 2322, venthole 2321 are connected with the air intake of third check valve 43, and blowhole 2322 and the 4th is unidirectionally The gas outlet of valve 44 is connected.

It is small that the first of each first waterpower pushing meanss 21 pushes plug 213 to pass through by pulley 221 and the first wirerope 222 Hole 2112, the elongated capsule 501 of elasticity are connected with the baffle 231 of first gas compression set 23, the gas outlet of third check valve 43 It is connected by high-voltage tube with the air intake of the 5th check valve 45, the gas outlet of the 5th check valve 45 and the first high pressure tank 24 First air intake is connected, and the gas outlet of the first high pressure tank 24 passes through the first pressure reducing valve 61 and high-voltage tube and the first steam turbine 26 Air intake be connected, the gas outlet of the first steam turbine 26 is connected by high-voltage tube with 25 air intake of low pressure gasholder, low pressure gas storage 25 gas outlet of tank is connected by high-voltage tube with the air intake of the 4th check valve 44；First steam turbine 26 and 51 phase of the first generator Even.

31 one end of first switch is connected by the second T-type threeway 101 with exhaust outlet 12, and 31 other end of first switch passes through height Pressure pipe is connected with gas treatment equipment 10, and the last one end of the second T-type threeway 101 is communicated by the 6th switch 36 with atmosphere.

The apparatus to cause bursting generates gas for igniting substance.

The stabilization working medium that 61 mesh of the first pressure reducing valve is arranged enters the air intake pressure of the first steam turbine 26, guarantees the first steamer 26 even running of machine；Setting check valve purpose is in order to allow water and working medium unidirectional operation.

High-pressure bottle 1 and multiple first waterpower pushing meanss 21 are fixedly mounted in water, first gas compression set 23, the One high pressure tank 24, low pressure gasholder 25, the first steam turbine 26, the first generator 51 and gas treatment equipment 10 are mounted on water On face.

Basic procedure of the invention described below operates, in figure → direction expression gaseous working medium flow direction.

Original state, all switches are in close state.

High-pressure bottle 1 is full of air；Multiple first waterpower pushing meanss, 21 inner cavities are full of water；First gas compression set 23 Filled with low-temp low-pressure gaseous working medium, the low-temp low-pressure gaseous working medium can be water steaming for cylinder 232 and the first high pressure tank 24 It is gaseous elementary gas, refrigerant etc. under vapour, normal temperature and pressure.

When beginning, manhole cover 14 is opened, explosive 20 is put into high-pressure bottle 1, and be suspended on high-pressure bottle 1 with drawstring Middle and lower part immediate vicinity is then solid steady by manhole cover 14 and manhole 15 with bolt.

Two kinds of forms can be used in the explosive: the first, as shown in figure 9, the explosive 20 be pure explosive (such as TNT), pure explosive is fixed on 1 middle and lower part immediate vicinity of high-pressure bottle with drawstring when filling pure explosive.Second, such as Figure 10 Shown, the explosive 20 is that the pure explosive substance high with quick-fried temperature collectively constitutes that (such as TNT and aluminium powder, carbon dust collectively constitute Mixture), explosive 20 is mounted in 30 center of elastomeric balloons, with drawstring by elastomeric balloons 30 after high-pressure bottle 1 is solid steady, to elasticity Balloon 30 blasts pure oxygen or air.

Third switch 33 and the 6th switch 36 are opened, under the action of water pressure, water is through third switch 33 and second one-way valve 42 Drain into high-pressure bottle 1, and by air from the 6th switch 36.

Drain to 1 air of high-pressure bottle and finish, closes the 6th switch 36.

The explosive in high-pressure bottle 1 is ignited with apparatus to cause bursting, explosive moment becomes gas, and pressure moment becomes huge, Temperature increases, and gas quickly spreads around, forms initial shock wave in water, after shock wave leaves, while having a branch of Rarefaction wave is passed in the detonation product of high pressure, and product will continue violent expansion, and by the water in high-pressure bottle from multiple first Check valve 41 is drained.The water drained pushes the first of each first waterpower pushing meanss 21 plug 213 is pushed to move out, simultaneously First pushes plug 213 to pull the baffle 231 of first gas compression set 23 to move by pulley 221 and the first wirerope 222, gear Plate 231 pulls catch bar 233 to move to 232 direction of cylinder, the low-temp low-pressure gaseous working medium adiabatic compression in cylinder 232, pressure Increase, temperature increases, and becomes high pressure gaseous working medium.High pressure gaseous working medium is through third check valve 43, high-voltage tube, the 5th Check valve 45 enters in the first high pressure tank 24, when the high pressure gaseous working medium in the first high pressure tank 24 reaches first When the air intake design pressure of steam turbine 26, high pressure gaseous working medium carries out the first steamer through the first pressure reducing valve 61 and high-voltage tube In machine 26, high pressure gaseous working medium adiabatic expansion in the first steam turbine 26 pushes the rotor rotation of the first steam turbine 26 simultaneously Drive 51 rotary electrification of the first generator.Gaseous working medium becomes low-temp low-pressure gaseous working medium after doing work to the first steam turbine 26, low Warm low-pressure gaseous working medium enters low pressure gasholder 25 by high-voltage tube from the gas outlet of the first steam turbine 26 and stores.

Height of the low-temp low-pressure gaseous working medium of low pressure gasholder 25 lower than the cylinder 232 of first gas compression set 23 at this time Warm high-pressure gaseous sender matter pressure, not can enter temporarily in the cylinder 232 of first gas compression set 23.

" balloon " after high-pressure bottle 1 expands is centrally formed close to vacuum, the pressure with the increase of degrees of expansion, in product Power declines therewith, equal with extraneous pressure to a certain moment.At this moment since the inertia and chamber wall of the convergent current of water are to water Under reaction force, gas starts to be compressed, by water out of third switch 33 and second one-way valve 42 inspiration high-pressure bottle 1.

" balloon " pressure after retraction increases, and is vibrated and is constantly floated, and issues secondary pressure arteries and veins around simultaneously Punching, and again drain the water in high-pressure bottle 1 from multiple first check valves 41.Repeat above-mentioned motion process, and by high temperature and pressure Gaseous working medium is stored in the first high pressure tank 24, is continually provided energy for the first steam turbine 26, is enabled the first generator 51 continuous rotary electrifications.

When " balloon " no longer issues pressure pulse, second switch 32 is opened, in each first waterpower pushing meanss 21 Water drop of pressure, and it is identical as extraneous hydraulic pressure.The low-temp low-pressure gaseous working medium of low pressure gasholder 25 is unidirectional through high-voltage tube and the 4th Valve 44 enters in the cylinder 232 of first gas compression set 23, and catch bar 233 moves out, and catch bar 233 pulls baffle 231 Equidirectional movement, baffle 231 push the inwardly movement of plug 213 by pulley 221 and the first wirerope 222 dragging first, and by first Water in waterpower pushing meanss 21 is drained.When the first promotion plug 213 moves inwardly to the first cylinder 211 and the second cylinder 212 company Place is met, since the flange of the second cylinder 212 stops, movement stops.Close second switch 32.

" balloon " floats up to 1 top of high-pressure bottle, opens first switch 31, starts the exhaust fan of gas treatment equipment 10, The gas that explosive 20 generates is evacuated to gas treatment equipment 10 to handle, nitrogen, carbon dioxide and fraction oxygen is made.It closes First switch 31 and third switch 33.

The 6th switch 36 and manhole cover 14 are opened, is taken away the water of high-pressure bottle 1 with immersible pump.Explosive is put into high pressure It in container 1, repeats the above process, starts the circulation of a new round.

The gas that explosive generates is extremely short because expanding and shrinking the time externally done work, therefore water and gas exchanges heat Time is extremely short, and thermal loss is few.

Embodiment 2

Figure 11 is the structural schematic diagram of the second waterpower pushing meanss；Second waterpower pushing meanss 71 include the second promotion plug 711 and cylinder body 712, second pushes plug 711 to be mounted in cylinder body 712, and cylinder body 712 is open at one end, and the other end is equipped with cylinder body disengaging Water hole 7121；Second pushes plug 711 to be set as round cylinder, and cylinder body 712 is set as hollow round cylinder open at one end.

Second waterpower pushing meanss 71 are using the high metal of rigid, alloy or carbon fiber manufacture.

As shown in Fig. 1-12, wherein Figure 12 is the structural schematic diagram of the present embodiment, is also the preferred of embodiment 1.

A kind of device to be generated electricity using chemical energy, the power generation auxiliary device further include the second waterpower pushing meanss 71, the Two gas compressing apparatus 72, third wirerope 73, the first T-type threeway 74, the 6th check valve 46, the 7th check valve the 47, the 8th are unidirectional Valve 48；First high pressure tank 24 further includes the second air intake；Second waterpower pushing meanss 71 include the second promotion plug 711 and cylinder Body 712, second pushes plug 711 to be mounted in cylinder body 712, and cylinder body 712 is open at one end, and the other end is equipped with cylinder body paddle hole 7121；72 structure of second gas compression set is identical as first gas compression set 23, the outlet of second gas compression set 72 The air intake of seven check valve 47 of Kong Yu is connected, and the gas outlet of the 7th check valve 47 is entered by high-voltage tube and the 6th check valve 46 Port is connected, and the gas outlet of the 6th check valve 46 is connected with the second air intake of the first high pressure tank 24；Second gas compression The blowhole of device 72 is connected with the gas outlet of the 8th check valve 48, the air intake of the 8th check valve 48 by high-voltage tube also with it is low 25 gas outlet of air accumulator is pressed to be connected；The water inlet of second one-way valve 42 is connected by the first T-type threeway 74 with third switch 33, also It is connected by the first T-type threeway 74 and high-voltage tube with the cylinder body paddle hole 7121 of the second waterpower pushing meanss 71；Second pushes Plug 711 is connected by third wirerope 73 with the baffle of second gas compression set 72.

Explosive explosion becomes high temperature and high pressure gas and drains the water of high-pressure bottle 1, enables the first constantly rotation of generator 51 Forwarding electricity has described in embodiment 1, and narration is not repeated herein.Only narration " balloon " is shunk in the present embodiment, and volume becomes Small drive 51 rotary electrification process of the first generator.

In figure → direction expression gaseous working medium flow direction.

Original state, 71 cylinder body 712 of the second waterpower pushing meanss are interior full of water；72 cylinder of second gas compression set filled with Low-temp low-pressure gaseous working medium.Third switch 33 is in close state.

" balloon " after high-pressure bottle 1 expands is centrally formed close to vacuum, the pressure with the increase of degrees of expansion, in product Power declines therewith, equal with extraneous pressure to a certain moment.At this moment since the inertia and chamber wall of the convergent current of water are to water Under reaction force, gas starts to be compressed, and the water in 71 cylinder body 712 of the second waterpower pushing meanss is passed through high-voltage tube, the first T-type In threeway 74,42 inspiration high-pressure bottle 1 of second one-way valve.Second pushes the inwardly movement of plug 711, and is driven by third wirerope 73 The equidirectional movement of the baffle of second gas compression set 72, the baffle of second gas compression set 72 pull second gas compression dress It sets 72 catch bar inwardly to move, the low-temp low-pressure gaseous working medium adiabatic compression in the cylinder of second gas compression set 72, pressure Power increases, and temperature increases, and becomes high pressure gaseous working medium.High pressure gaseous working medium is through the 7th check valve 47, high-voltage tube, Six check valves 46 enter in the first high pressure tank 24.High pressure gaseous working medium is that the first generator 51 provides energy.

High pressure gaseous working medium moves to the gas outlet of the first steam turbine 26 in the first steam turbine 26 after adiabatic expansion Become low-temp low-pressure gaseous working medium, and low pressure gasholder 25 is entered by high-voltage tube and is stored.The low temperature of low pressure gasholder 25 at this time Low-pressure gaseous working medium also not can enter the temporarily lower than the high pressure gaseous sender matter pressure of the cylinder of second gas compression set 72 In the cylinder of two gas compressing apparatus 72.

When " balloon " issues pressure pulse every time, generation energy is supplied to the first steam turbine 26.

When " balloon " no longer issues pressure pulse, third switch 33, the low-temp low-pressure gaseous state of low pressure gasholder 25 are opened Working medium enters in the cylinder of second gas compression set 72 through high-voltage tube and the 8th check valve 48, and catch bar moves out, and pushes Bar pulls the equidirectional movement of baffle, and the baffle of second gas compression set 72 pushes plug 711 by the dragging of third wirerope 73 second It moves out, in the case where second pushes 711 pulling force of plug and hydraulic pressure effect, water is through third switch 33, the first T-type threeway 74, high-voltage tube Into cylinder body 712.

When the baffle of second gas compression set 72 moves to the cylinder of second gas compression set 72, due to by The blocking of the cylinder of two gas compressing apparatus 72, movement stop.Close third switch 33.

It so completes " balloon " to shrink, volume, which becomes smaller, drives 51 rotary electrification process of the first generator.

Embodiment 3

As shown in Fig. 1-13, wherein Figure 13 is the structural schematic diagram of the present embodiment, is also the preferred of embodiment 2.

In figure → direction expression gaseous working medium flow direction.

The explosive in high-pressure bottle 1 is ignited with apparatus to cause bursting, explosive moment becomes gas, and pressure moment becomes huge, Temperature increases, and the hydraulic pressure strong moment in high-pressure bottle 1 becomes huge, and water is sprayed outside high-pressure bottle 1 and pushed away to each first waterpower The first of dynamic device 21 pushes plug 213 to generate huge motive force；Moment falls after rise after gas pressure intensity moment becomes larger, and pushes to first The motive force that plug 213 generates is reduced therewith.When the motive force that first pushes plug 213 to generate is not enough to pull first gas compression dress The movement of catch bar 233 for setting 23, enables the high pressure gaseous working medium in the cylinder 232 of first gas compression set 23 cannot be introduced into When in the first high pressure tank 24, first pushes 213 stop motions of plug, the gas energy obtained that explosive explosion at this time becomes Amount fails to be discharged completely, and energy transformation ratio is relatively low.It is shunk at " balloon ", drives 51 rotary electrification process of the first generator In as a same reason, also enable the gas energy conversion ratio that becomes of explosive explosion relatively low.

Due to the above reasons, in order to improve energy transformation ratio, described device is also provided with the second generator 52, the second power generation 52 air intake pressure of machine is lower than the gas outlet pressure of the first steam turbine 26；The power generation auxiliary device is also provided with the storage of the second high pressure Gas tank 81, third high pressure tank 82, the second steam turbine 83, the 4th switch 34, the 5th switch 35, the 9th check valve 49, second Pressure reducing valve 62 and third pressure reducing valve 63；The third high pressure tank 82 be provided with 82 first air intake of third high pressure tank, 82 second air intake of third high pressure tank；The gas outlet of first steam turbine 26 enters gas by high-voltage tube and the 9th check valve 49 Mouth is connected, and the gas outlet of the 9th check valve 49 is connected with 81 air intake of the second high pressure tank, 81 outlet of the second high pressure tank Mouth is connected by the second pressure reducing valve 62 and high-voltage tube with the air intake of the second steam turbine 83；The gas outlet of third check valve 43 passes through High-voltage tube is connected with 34 one end of the 4th switch, and 34 other end of the 4th switch is connected with 82 first air intake of third high pressure tank； The gas outlet of 7th check valve 47 is connected by high-voltage tube with 35 one end of the 5th switch, 35 other end of the 5th switch and third high pressure 82 second air intake of air accumulator is connected；82 gas outlet of third high pressure tank is by third pressure reducing valve 63 and high-voltage tube also with second The air intake of steam turbine 83 is connected, and the gas outlet of the second steam turbine 83 is connected by high-voltage tube with 25 air intake of low pressure gasholder； Second steam turbine 83 is connected with the second generator 52.

The gas outlet pressure of first steam turbine 26 is higher than 52 air intake pressure of the second generator, the outlet of the first steam turbine 26 The low-pressure gaseous working medium of mouth enters the second high pressure tank 81 by high-voltage tube, the 9th check valve 49, then passes through the second pressure reducing valve 62 and high-voltage tube enter the second steam turbine 83, gaseous working medium adiabatic expansion in the second generator 52, push the second generator 52 Rotor rotate and drive 52 rotary electrification of the second generator.

When the motive force that first pushes plug 213 to generate is not enough to pull the catch bar 233 of first gas compression set 23 to transport It is dynamic, enable the high pressure gaseous working medium in the cylinder 232 of first gas compression set 23 cannot be introduced into the first high pressure tank 24 When interior, the 4th switch 34 is opened, the catch bar 233 of first gas compression set 23 continues to move, the high temperature in pusher cylinder 232 High-pressure gaseous working medium enters third high pressure tank 82 by third check valve 43, high-voltage tube, the 4th switch 34.

When the second motive force for pushing plug 711 to generate of the second waterpower pushing meanss 71 is not enough to that second gas is pulled to compress The catch bar of device 72 moves, and the high pressure gaseous working medium in the cylinder of second gas compression set 72 is enabled to enter the first high pressure When in air accumulator 24, the 5th switch 35 is opened, the catch bar of second gas compression set 72 continues to move, the height in pusher cylinder Warm high-pressure gaseous working medium enters third high pressure tank 82 by the 7th check valve 47, high-voltage tube, the 5th switch 35.

High pressure gaseous working medium in 82 cylinder of third high pressure tank is entered by third pressure reducing valve 63 and high-voltage tube Second steam turbine 83, gaseous working medium adiabatic expansion in the second generator 52 push the rotor rotation of the second generator 52 and band Dynamic second generator, 52 rotary electrification.

Gaseous working medium becomes low-temp low-pressure gaseous working medium after doing work to the second steam turbine 83, and low-temp low-pressure gaseous working medium is from the The gas outlet of two steam turbines 83 enters low pressure gasholder 25 by high-voltage tube and stores.

When " balloon " no longer issues pressure pulse, 25 gaseous working medium of low pressure gasholder passes through high-voltage tube and the 4th check valve 44 enter in the cylinder 232 of first gas compression set 23；Second gas is entered by high-voltage tube and the 8th check valve 48 simultaneously In the cylinder of compression set 72.

The present embodiment drives the power generation of the first generator 51 using the first steam turbine 26, and the second steam turbine 83 drives the second power generation Machine 52 generates electricity, and the first steam turbine 26 is high-pressure turbine, and the second steam turbine 83 is low-pressure turbine, can significantly explode in this way The energy that object generates is converted into the efficiency of mechanical energy, to improve the efficiency for being converted into electric energy.

Embodiment 4

As shown in Fig. 1-14, wherein Figure 14 is the structural schematic diagram of the present embodiment, is also the preferred of embodiment 3.

The explosive in high-pressure bottle 1 is ignited with apparatus to cause bursting, explosive moment becomes gas, and gas quickly expands around It dissipates, and quickly the water in high-pressure bottle 1 is discharged, the water of discharge also quickly pulls pushing away for first gas compression set 23 in moment Lever 233 is moved to 232 direction of cylinder, and frictional force is excessive when causing that catch bar 233 and cylinder 232 is pulled mutually to move, and is easy It damages catch bar 233 and cylinder 232, while loss of energy and 232 working medium of cylinder being caused to leak；It is shunk at " balloon ", drives hair During motor rotary electrification, the catch bar movement of second gas compression set 72 is too fast, is equally easily damaged second gas pressure The catch bar and cylinder of compression apparatus 72, while loss of energy and cylinder working medium being caused to leak.

The power generation auxiliary device is also provided with first band roller deceleration device the 91, second band roller due to the above reasons, Deceleration device 92, the 4th wirerope 93 and the 5th wirerope 94；The first of each first waterpower pushing meanss 21 pushes plug 213 to pass through Pulley 221 and the first wirerope 222 are connected with the speed end of first band roller deceleration device 91, first band roller deceleration device 91 Low speed end is connected by the 4th wirerope 93 with the baffle 231 of first gas compression set 23；Second pushes plug 711 to pass through third steel Cable 73 is connected with the second speed end with roller deceleration device 92, and the second low speed end with roller deceleration device 92 passes through the 5th steel Cable 94 is connected with the baffle of second gas compression set 72.

The first of first gas compression set 23 push plug 213 pull catch bar 233 to 232 direction motion process of cylinder In, due to the effect of first band roller deceleration device 91,233 movement velocity of catch bar slows down, and protects catch bar 233 and cylinder 232, with season, the energy of loss reduces and ensures that 232 working medium of cylinder does not leak；Second gas compression set 72 is similarly.

The embodiment of the present invention has been described in detail above, and specific embodiment used herein carries out the present invention It illustrates, the above description of the embodiments is only used to help understand the method and apparatus of the present invention；Meanwhile for the one of this field As technical staff, according to the thought of the present invention, there will be changes in the specific implementation manner and application range, to sum up institute It states, this specification appearance should not be construed as limiting the invention.Anyone can show that other are various under the inspiration of the present invention The product of form, it is all that there is with the present patent application identical or phase no matter making any variation or improvement on its method and apparatus Approximate technical solution, should all be included in the protection scope of the present invention.

Claims (7)

1. it is a kind of using chemical energy generate electricity device, it is characterised in that: described device include high-pressure bottle, power generation auxiliary device, First generator, first switch, multiple first check valves, second one-way valve and apparatus to cause bursting；The high-pressure bottle be provided with into The mouth of a river, exhaust outlet and multiple discharge outlet；First switch is connected with exhaust outlet, and water inlet is connected with the water outlet of second one-way valve, Each discharge outlet is connected with the water inlet of the first check valve；First generator passes through power generation auxiliary device and high-pressure bottle phase Even；The apparatus to cause bursting generates gas for igniting substance.

2. a kind of device to be generated electricity using chemical energy according to claim 1, it is characterised in that: the power generation auxiliary device Including multiple first waterpower pushing meanss, multiple actuators, first gas compression set, the first high pressure tank, low pressure storage Gas tank, the first steam turbine, second switch, third switch, third check valve, the 4th check valve, the 5th check valve, the first pressure reducing valve With multiple elongated capsules of elasticity；Third switch is connected with the water inlet of second one-way valve；Each first waterpower pushing meanss include First cylinder, the second cylinder and first push plug, the shell of first cylinder one end and the high-pressure bottle for being provided with multiple discharge outlet It is connected, the other end and the second cylinder are connected using flange, and first pushes plug to be located in the second cylinder, and the first cylinder is equipped with first Body water inlet, top are equipped with aperture, and the first cylinder water inlet is connected with second switch；Each actuator includes pulley and One wirerope；First gas compression set includes baffle, cylinder, catch bar and the second wirerope, and catch bar one end is mounted in cylinder, The other end is connected by a plurality of second wirerope with baffle, and cylinder is equipped with venthole and blowhole, venthole and third check valve Air intake is connected, and blowhole is connected with the gas outlet of the 4th check valve；The first of each first waterpower pushing meanss pushes plug equal It passes through aperture, the elongated capsule gas of elasticity by pulley and the first wirerope to be connected with the baffle of first gas compression set, third list It is connected to the gas outlet of valve by high-voltage tube with the air intake of the 5th check valve, the gas outlet of the 5th check valve and the first high pressure are stored up First air intake of gas tank is connected, and the gas outlet of the first high pressure tank passes through the first pressure reducing valve and high-voltage tube and the first steam turbine Air intake be connected, the gas outlet of the first steam turbine is connected by high-voltage tube with low pressure gasholder air intake, and low pressure gasholder goes out Port is connected by high-voltage tube with the air intake of the 4th check valve；The elongated capsule bottom of elasticity is small with the first waterpower pushing meanss Hole is connected, and top is connected with the first wirerope；First steam turbine is connected with the first generator.

3. a kind of device to be generated electricity using chemical energy according to claim 2, it is characterised in that: the power generation auxiliary device It further include the second waterpower pushing meanss, second gas compression set, third wirerope, the first T-type threeway, second one-way valve and the 6th Check valve, the 7th check valve, the 8th check valve；First high pressure tank further includes the second air intake；Second waterpower pushing meanss Plug and cylinder body are pushed including second, second pushes plug to be mounted in cylinder body, and cylinder body is open at one end, and the other end is equipped with cylinder body Inlet and outlet water Hole；Second gas compression set structure is identical as first gas compression set, the venthole of second gas compression set and the 7th The air intake of check valve is connected, and the gas outlet of the 7th check valve is connected by high-voltage tube with the air intake of the 6th check valve, and the 6th The gas outlet of check valve is connected with the second air intake of the first high pressure tank；The blowhole of second gas compression set and the 8th The gas outlet of check valve is connected, and the air intake of the 8th check valve is also connected with low pressure gasholder gas outlet by high-voltage tube；Second The water inlet of check valve is connected by the first T-type threeway with third switch, also through the first T-type threeway and high-voltage tube and the second water The cylinder body paddle hole of power pushing meanss is connected；Second pushes baffle phase of the plug by third wirerope and second gas compression set Even.

4. a kind of device to be generated electricity using chemical energy according to claim 3, it is characterised in that: described device further includes the Two generators；The power generation auxiliary device further includes the second high pressure tank, third high pressure tank, the second steam turbine, the 4th Switch, the 5th switch, the 9th check valve, the second pressure reducing valve and third pressure reducing valve；The third high pressure tank is provided with third The first air intake of high pressure tank, the second air intake of third high pressure tank；The gas outlet of first steam turbine by high-voltage tube with The air intake of 9th check valve is connected, and the gas outlet of the 9th check valve is connected with the second high pressure tank air intake, the second high pressure Air accumulator gas outlet is connected by the second pressure reducing valve and high-voltage tube with the air intake of the second steam turbine；The gas outlet of third check valve It is connected by high-voltage tube with the 4th switch one end, the 4th switch other end is connected with the first air intake of third high pressure tank；The The gas outlet of seven check valves is connected by high-voltage tube with the 5th switch one end, and the 5th switchs the other end and third high pressure tank the Two air intakes are connected；Third high pressure tank gas outlet passes through third pressure reducing valve and the high-voltage tube also air intake with the second steam turbine It is connected, the gas outlet of the second steam turbine is connected by high-voltage tube with low pressure gasholder air intake；Second steam turbine and the second power generation Machine is connected.

5. a kind of device to be generated electricity using chemical energy according to claim 4, it is characterised in that: the power generation auxiliary device It further include first band roller deceleration device, the second band roller deceleration device, the 4th wirerope and the 5th wirerope；Each first waterpower pushes away The first of dynamic device pushes plug to be connected by pulley and the first wirerope with the speed end of first band roller deceleration device, first band The low speed end of roller deceleration device is connected by the 4th wirerope with the baffle of first gas compression set；Second pushes plug by the Three wireropes are connected with the second speed end with roller deceleration device, and the second low speed end with roller deceleration device passes through the 5th wirerope It is connected with the baffle of second gas compression set.

6. a kind of device to be generated electricity using chemical energy according to claim 5, it is characterised in that: described device further includes gas Body processing unit, the second T-type threeway, the 6th switch；First switch one end is connected by the second T-type threeway with exhaust outlet, and first The switch other end is connected by high-voltage tube with gas treatment equipment, and second last one end of T-type threeway passes through the 6th switch and atmosphere It communicates.

7. a kind of device to be generated electricity using chemical energy according to claim 6, it is characterised in that: at the top of the high-pressure bottle It is set as hollow hemisphere type with bottom, middle part is set as hollow cylinder, and water inlet is arranged in high-pressure bottle bottom, and exhaust outlet is set It sets at the top of high-pressure bottle；Manhole and manhole cover are also set up at the top of the high-pressure bottle, manhole and manhole cover by bolt or are buckled It hooks and is connected；High-pressure bottle is additionally provided with erecting by overhang, and the erecting by overhang includes hanging ring and drawstring, and hanging ring is connected to high-pressure bottle Inner wall, drawstring both ends are pricked on hanging ring, the fixed explosive in middle part；At the top of first cylinder of each first waterpower pushing meanss and bottom Portion is set as hollow semi-circular cylinder, and middle part is set as hollow rectangle cylinder, and the second cylinder is set as hollow round cylinder, the One pushes plug to be set as round cylinder；The second of second waterpower pushing meanss pushes plug to be set as round cylinder, and cylinder body is set as Hollow round cylinder open at one end；The cylinder of first and second gas compressing apparatus is set as hollow round cylinder open at one end, Catch bar both ends are disposed as round cylinder, and both ends are connected by tubing string, the cylinder of the first and second gas compressing apparatus and push away Lever can also be replaced with elastic energy storage air bag and pressing plate, and elastic energy storage air bag includes pedestal and elastic balloon, and pedestal is set as Round cylinder, top is set as hollow hemisphere type in elastic balloon, and middle part is set as hollow cylinder, and pressing plate passes through a plurality of second Wirerope is connected with baffle；The elongated capsule bottom of elasticity passes through flange and bolt and the first water in the hollow round cylinder being open The aperture of power pushing meanss is connected, and top is hollow semicircle ball-type and hollow round cylinder combination, the hollow round cylinder in top Hollow parts be connected with the first wirerope, and it is in the hollow round cylinder in top that the first wirerope is solid steady with clips.