CN110294222A - A kind of controllability pressure-air energy-storage type liquor storage device - Google Patents

Abstract

The invention discloses a kind of controllability pressure-air energy-storage type liquor storage devices, including main hollow shell and top sealing cover.The present invention works in coordination with air compressor in the prior art, enable to liquid on its interior can be under the action of air pressure, realize the outlet with press capacity, and, its maximum water pressure energy accesses control, it is required to adapt to particular user for the difference of water pressure impact force, and, the device has spherical structure formula air one-way movement control mechanism, the size and construction profile of component can be utilized, effectively control inner air one-way flow, furthermore, the device has helical spring flexible type maximum air pressure difference control mechanism, the elastic force of helical spring can be utilized, effectively control maximum air pressure value, to the generation of parts damages phenomenon caused by preventing atmospheric pressure value excessive.

Description

A kind of controllability pressure-air energy-storage type liquor storage device

Technical field

The present invention relates to store liquid technical field, specially a kind of controllability pressure-air energy-storage type liquor storage device.

Background technique

Currently, domestic water is the essential component part of each family, and a portion water source is as bathing With existing small and medium-sized cities can have many consumers because the hydraulic pressure deficiency in water-storing device leads to user when in use, hydraulic pressure mistake It is low, cause water velocity low and without impact force.

Summary of the invention

The purpose of the present invention is to provide a kind of controllability pressure-air energy-storage type liquor storage devices, to solve above-mentioned background skill The problem of being proposed in art.

To achieve the above object, the invention provides the following technical scheme: a kind of controllability pressure-air energy-storage type stores liquid dress It sets, including main hollow shell and top sealing cover, the bottom of the main hollow shell is connected with main support rod by main connecting plate, The bottom of the main support rod is equipped with multiple main mounting plates, and the inside of each main mounting plate is provided with kingbolt hole, The main hollow shell interior is provided centrally with main hollow structure, the main hollow shell bottom be provided with main Drainage pipe and Main input duct, the main hollow shell is internally provided with the extraneous through-hole with main hollow structure of connection, and the through-hole is interior An air inlet core is installed in portion, and the bottom of the main hollow structure is provided with the third for being connected to main hollow structure bottom and main Drainage pipe Through-hole structure, the bottom of the main hollow structure are provided with first through hole structure, and the bottom of the first through hole structure is provided with Spherical structure formula air one-way movement control mechanism installation space, the spherical structure formula air one-way movement control mechanism installation The inside in space is installed by one spherical structure formula air one-way movement control mechanism, the spherical structure formula air one-way movement control The bottom of mechanism installation space is provided with the second through-hole structure for being connected to main input duct, and top sealing cover bottom is provided with A primary air sealing ring is installed in the side of the sealing rod structure being inserted into inside main hollow structure, the sealing rod structure, described Top sealing cover is internally provided with helical spring flexible type maximum air pressure difference control mechanism mounting hole and air pressure control Standard current turns ON mechanism mounting hole, the sealing rod structure are internally provided with connection helical spring flexible type maximum air gas Pressure difference control mechanism mounting hole and the main through-hole structure of air-pressure controlling formula current turns ON mechanism mounting hole bottom and secondary through-hole Structure, the helical spring flexible type maximum air pressure difference control mechanism mounting hole and air-pressure controlling formula current turns ON machine The inside of structure mounting hole is separately installed with helical spring flexible type maximum air pressure difference control mechanism and air-pressure controlling formula Current turns ON mechanism.

Further, the spherical structure formula air one-way movement control mechanism includes globe valve shape and Size Formula air One-way flow control mechanism shell, globe valve shape and Size Formula air flow in one direction control mechanism diameter of Spherical Volume, spherical shape Valve shape and Size Formula air flow in one direction control mechanism ball valve, globe valve shape and Size Formula air flow in one direction control machine Structure air inlet and globe valve shape and Size Formula air flow in one direction control mechanism gas vent；The globe valve shape and ruler Very little formula air flow in one direction control mechanism enclosure interior is provided centrally with globe valve shape and Size Formula air flow in one direction The inside of control mechanism diameter of Spherical Volume, the globe valve shape and Size Formula air flow in one direction control mechanism shell is arranged There are connection globe valve shape and Size Formula air flow in one direction control mechanism housing bottom center and globe valve shape and size Formula air flow in one direction control mechanism is controlled with the globe valve shape and Size Formula air flow in one direction of diameter of Spherical Volume bottom centre Place one in the inside of mechanism air inlet, the globe valve shape and Size Formula air flow in one direction control mechanism diameter of Spherical Volume Globe valve shape and Size Formula air flow in one direction control mechanism ball valve, the globe valve shape and Size Formula air one-way flow Dynamic control mechanism shell is internally provided with connection globe valve shape and Size Formula air flow in one direction control mechanism shell Outside top center and globe valve shape and globe valve of the Size Formula air flow in one direction control mechanism with diameter of Spherical Volume top center Shape and Size Formula air flow in one direction control mechanism gas vent.

Further, the globe valve shape and the structure of Size Formula air flow in one direction control mechanism diameter of Spherical Volume half Diameter is greater than the structure radius of the globe valve shape and Size Formula air flow in one direction control mechanism ball valve, outside the globe valve The structure radius globe valve shape and Size Formula air flow in one direction of shape and Size Formula air flow in one direction control mechanism ball valve The structure radius of control mechanism air inlet and globe valve shape and Size Formula air flow in one direction control mechanism gas vent.

Further, the bottom end and ball of the globe valve shape and Size Formula air flow in one direction control mechanism air inlet The top of shape valve shape and Size Formula air flow in one direction control mechanism gas vent is logical with the second through-hole structure and first respectively Pore structure connection.

Further, the helical spring flexible type maximum air pressure difference control mechanism include helical spring flexible type most Big air pressure difference control mechanism hollow casing, helical spring flexible type maximum air pressure difference control mechanism are sealed with air Circle, helical spring flexible type maximum air pressure difference control mechanism hollow structure, helical spring flexible type maximum air pressure Poor control mechanism gas vent, helical spring flexible type maximum air pressure difference control mechanism valve plate insertion space, spiral bullet Spring flexible type maximum air pressure difference control mechanism air inlet, helical spring flexible type maximum air pressure difference control mechanism are used Movable plate, helical spring flexible type maximum air pressure difference control mechanism valve plate, helical spring flexible type maximum air pressure Poor control mechanism venthole and helical spring flexible type maximum air pressure difference control mechanism helical spring；The spiral bullet The side of spring flexible type maximum air pressure difference control mechanism hollow casing is socketed a helical spring flexible type maximum air gas Pressure difference control mechanism air sealing ring, in the helical spring flexible type maximum air pressure difference control mechanism hollow casing Portion is provided centrally with helical spring flexible type maximum air pressure difference control mechanism hollow structure, the helical spring elasticity Formula maximum air pressure difference control mechanism hollow casing is being located at helical spring flexible type maximum air pressure difference control The side of mechanism hollow structure is provided with helical spring flexible type maximum air pressure difference control mechanism gas vent, the spiral shell The one end for revolving spring formula maximum air pressure difference control mechanism gas vent is connected to helical spring flexible type maximum air gas One end of pressure difference control mechanism hollow casing, the helical spring flexible type maximum air pressure difference control mechanism is with hollow outer Shell is provided with spiral in the other side for being located at the helical spring flexible type maximum air pressure difference control mechanism hollow structure Spring formula maximum air pressure difference control mechanism valve plate insertion space, the helical spring flexible type maximum air pressure Poor control mechanism is being inserted into positioned at the helical spring flexible type maximum air pressure difference control mechanism with valve plate with hollow casing The side in space is provided with helical spring flexible type maximum air pressure difference control mechanism air inlet, the helical spring elasticity Formula maximum air pressure difference control mechanism is connected to the helical spring flexible type maximum air pressure difference control mechanism with air inlet With the other side of hollow casing, the helical spring flexible type maximum air pressure difference control mechanism hollow casing is being located at institute One helical spring flexible type is installed most in the inside for stating helical spring flexible type maximum air pressure difference control mechanism hollow structure Big air pressure difference control mechanism movable plate, the helical spring flexible type maximum air pressure difference control mechanism movable plate It is set being located at the helical spring flexible type maximum air pressure difference control mechanism with the end face center of valve plate insertion space side It is equipped with the helical spring flexible type maximum air pressure difference control mechanism valve plate with its integral structure, the helical spring bullet Property formula maximum air pressure difference control mechanism movable plate side be provided be connected to its both ends of the surface helical spring flexible type most Big air pressure difference control mechanism venthole, the helical spring flexible type maximum air pressure difference control mechanism movable plate Other end install a helical spring flexible type maximum air pressure difference control mechanism helical spring.

Further, the helical spring flexible type maximum air pressure difference control mechanism is connected to spiral shell with air sealing ring Revolve the inside of spring formula maximum air pressure difference control mechanism mounting hole, the helical spring flexible type maximum air pressure One end of poor control mechanism gas vent is connected to main through-hole structure.

Further, the initial length of the helical spring flexible type maximum air pressure difference control mechanism helical spring Greater than the lateral length of the poor control mechanism hollow structure of helical spring flexible type maximum air pressure.

Further, the air-pressure controlling formula current turns ON mechanism includes air-pressure controlling formula current turns ON mechanism It is connect with main hollow shell, the first air-pressure controlling formula current turns ON mechanism air sealing ring, air-pressure controlling formula electric current Logical the first hollow structure of mechanism, air-pressure controlling formula current turns ON mechanism first through hole structure, air-pressure controlling formula The second through-hole structure of current turns ON mechanism, air-pressure controlling formula current turns ON mechanism piston plate, air-pressure controlling formula The second air sealing ring of current turns ON mechanism, air-pressure controlling formula current turns ON mechanism telescopic rod, air-pressure controlling Formula current turns ON mechanism helical spring, air-pressure controlling formula current turns ON mechanism axle sleeve, air-pressure controlling formula electric current Engaging means secondary hollow shell, the second hollow structure of air-pressure controlling formula current turns ON mechanism, air-pressure controlling formula Current turns ON mechanism copper rod, the first copper billet of air-pressure controlling formula current turns ON mechanism, air-pressure controlling formula electric current connect Logical the second copper billet of mechanism, the first wire guide of air-pressure controlling formula current turns ON mechanism, air-pressure controlling formula electric current connect Logical the second binding post of mechanism, the first binding post of air-pressure controlling formula current turns ON mechanism and air-pressure controlling formula electric current The second wire guide of engaging means；The outer middle side part of the main hollow shell of the air-pressure controlling formula current turns ON mechanism is installed One first air-pressure controlling formula current turns ON mechanism air sealing ring, the air-pressure controlling formula current turns ON mechanism use Main hollow shell interior is provided centrally with the first hollow structure of air-pressure controlling formula current turns ON mechanism, the air pressure Power controls the air-pressure controlling that formula current turns ON mechanism is provided centrally with connection upper space with the top of the first hollow structure Formula current turns ON mechanism first through hole structure, the bottom of first hollow structure of air-pressure controlling formula current turns ON mechanism End is provided centrally with the second through-hole structure of air-pressure controlling formula current turns ON mechanism of connection lower space, the air pressure One air-pressure controlling formula current turns ON mechanism is installed and is lived in the inside that power controls the first hollow structure of formula current turns ON mechanism The side of seben, the air-pressure controlling formula current turns ON mechanism piston plate is socketed with air-pressure controlling formula current turns ON An air is installed with piston plate top center by the second air sealing ring of mechanism, the air-pressure controlling formula current turns ON mechanism Pressure control type current turns ON mechanism telescopic rod, on the body of rod of air-pressure controlling formula current turns ON mechanism telescopic rod The air-pressure controlling formula current turns ON mechanism helical spring of one compression of installation, the air-pressure controlling formula current turns ON machine The body of rod of structure telescopic rod runs through air-pressure controlling formula current turns ON mechanism first through hole structure, and the air pressure control The top of standard current turns ON mechanism telescopic rod is installed by one air-pressure controlling formula current turns ON mechanism axle sleeve, the air An air-pressure controlling formula current turns ON mechanism copper rod is installed in the inside of pressure control type current turns ON mechanism axle sleeve, described The top of the main hollow shell of air-pressure controlling formula current turns ON mechanism one air-pressure controlling formula electric current is installed by bolt The secondary hollow shell of engaging means, the secondary hollow shell of the air-pressure controlling formula current turns ON mechanism are internally provided with sky Atmospheric pressure controls the second hollow structure of formula current turns ON mechanism, and the air-pressure controlling formula current turns ON mechanism master is hollow Cover top portion two sides are being separately installed with sky with the inside of the second hollow structure positioned at air-pressure controlling formula current turns ON mechanism Atmospheric pressure controls the first copper billet of formula current turns ON mechanism and the second copper billet of air-pressure controlling formula current turns ON mechanism, described The first copper billet of air-pressure controlling formula current turns ON mechanism and air-pressure controlling formula current turns ON mechanism the second copper billet point Not Wei Yu air-pressure controlling formula current turns ON mechanism copper rod both ends underface, the air-pressure controlling formula electric current The first copper billet of engaging means and air-pressure controlling formula current turns ON mechanism are separately installed with air with the two sides of the second copper billet The second binding post of the first binding post of pressure control type current turns ON mechanism and air-pressure controlling formula current turns ON mechanism, institute That states the secondary hollow shell of air-pressure controlling formula current turns ON mechanism is internally provided with the connection external world and air-pressure controlling formula Air-pressure controlling formula current turns ON mechanism the first wire guide and the air pressure of the second hollow structure of current turns ON mechanism The second wire guide of control formula current turns ON mechanism.

Further, the first wire guide of the air-pressure controlling formula current turns ON mechanism and air-pressure controlling formula electricity It flows engaging means and one conducting wire is installed respectively with the inside of the second wire guide, and one end of two conducting wires is respectively welded at air pressure control The end of the first binding post of the second binding post of standard current turns ON mechanism and air-pressure controlling formula current turns ON mechanism, and Wherein the other end of a conducting wire is connect with the anode of an air compressor, and the other end of another conducting wire is connected to power supply.

Further, the air-pressure controlling formula current turns ON mechanism is mounted on air-pressure controlling with main hollow shell The inside of formula current turns ON mechanism mounting hole, and the bottom end of the second through-hole structure of air-pressure controlling formula current turns ON mechanism with Secondary through-hole structure connection.

Compared with prior art, the beneficial effects of the present invention are: the present invention and air compressor in the prior art are mutual Cooperation enables to liquid on its interior that can realize there is the outlet of press capacity under the action of air pressure, and And maximum water pressure energy accesses control, the difference of water pressure impact force is required to adapt to particular user, moreover, should Device has spherical structure formula air one-way movement control mechanism, can utilize the size and construction profile of component, effectively control Inner air one-way flow can utilize in addition, the device has helical spring flexible type maximum air pressure difference control mechanism The elastic force of helical spring effectively controls maximum air pressure value, so that parts damages are existing caused by preventing atmospheric pressure value excessive The generation of elephant can utilize internal air pressure and spiral bullet in addition, the device has air-pressure controlling formula current turns ON mechanism Difference between spring realizes the control action for internal air pressure, to form the hydraulic pressure value of needs.

Detailed description of the invention

Fig. 1 is a kind of complete section structural schematic diagram of controllability pressure-air energy-storage type liquor storage device of the present invention；

Fig. 2 is that spherical structure formula air one-way movement controls machine in a kind of controllability pressure-air energy-storage type liquor storage device of the present invention The structural schematic diagram of structure；

Fig. 3 is that helical spring flexible type maximum air pressure is poor in a kind of controllability pressure-air energy-storage type liquor storage device of the present invention The structural schematic diagram of control mechanism；

Fig. 4 is air-pressure controlling formula current turns ON mechanism in a kind of controllability pressure-air energy-storage type liquor storage device of the present invention Structural schematic diagram；

In figure: 1, main hollow shell, 2, main connecting plate, 3, main support rod, 4, main mounting plate, 5, kingbolt hole, 6, main hollow knot Structure, 7, spherical structure formula air one-way movement control mechanism, 71, globe valve shape and Size Formula air flow in one direction control mechanism With shell, 72, globe valve shape and Size Formula air flow in one direction control mechanism diameter of Spherical Volume, 73, globe valve shape and ruler Very little formula air flow in one direction control mechanism ball valve, 74, globe valve shape and Size Formula air flow in one direction control mechanism with into Stomata, 75, globe valve shape and Size Formula air flow in one direction control mechanism gas vent, 8, first through hole structure, 9 are spherical Structural formula air one-way movement control mechanism installation space, 10, the second through-hole structure, 11, helical spring flexible type maximum air Draught head control mechanism, 111, helical spring flexible type maximum air pressure difference control mechanism hollow casing, 112, spiral bullet Spring flexible type maximum air pressure difference control mechanism air sealing ring, 113, helical spring flexible type maximum air pressure difference control Mechanism hollow structure processed, 114, helical spring flexible type maximum air pressure difference control mechanism gas vent, 115, spiral bullet Spring flexible type maximum air pressure difference control mechanism valve plate insertion space, 116, helical spring flexible type maximum air pressure is poor Control mechanism air inlet, 117, helical spring flexible type maximum air pressure difference control mechanism movable plate, 118, spiral bullet Spring flexible type maximum air pressure difference control mechanism valve plate, 119, helical spring flexible type maximum air pressure difference control mechanism With venthole, 1110, helical spring flexible type maximum air pressure difference control mechanism helical spring, 12, third through-hole structure, 13, main input duct, 14, main Drainage pipe, 15 seal rod structure, 16, and primary air sealing ring, 17, top sealing cover, 18 are main Through-hole structure, 19, secondary through-hole structure, 20, helical spring flexible type maximum air pressure difference control mechanism mounting hole, 21, air Pressure control type current turns ON mechanism mounting hole, 22, air-pressure controlling formula current turns ON mechanism, 221, air-pressure controlling formula The main hollow shell of current turns ON mechanism, the 222, first air-pressure controlling formula current turns ON mechanism air sealing ring, 223, The first hollow structure of air-pressure controlling formula current turns ON mechanism, 224, air-pressure controlling formula current turns ON mechanism is with first Through-hole structure, 225, the second through-hole structure of air-pressure controlling formula current turns ON mechanism, 226, air-pressure controlling formula electric current Engaging means piston plate, 227, the second air sealing ring of air-pressure controlling formula current turns ON mechanism, 228, air pressure Control formula current turns ON mechanism telescopic rod, 229, air-pressure controlling formula current turns ON mechanism helical spring, 2210, air Pressure control type current turns ON mechanism axle sleeve, 2211, the secondary hollow shell of air-pressure controlling formula current turns ON mechanism, 2212, the second hollow structure of air-pressure controlling formula current turns ON mechanism, 2213, air-pressure controlling formula current turns ON mechanism With copper rod, 2214, the first copper billet of air-pressure controlling formula current turns ON mechanism, 2215, air-pressure controlling formula current turns ON The second copper billet of mechanism, 2216, the first wire guide of air-pressure controlling formula current turns ON mechanism, 2217, air-pressure controlling The second binding post of formula current turns ON mechanism, 2218, the first binding post of air-pressure controlling formula current turns ON mechanism, 2219, The second wire guide of air-pressure controlling formula current turns ON mechanism.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Referring to Fig. 1, a kind of embodiment provided by the invention: including main hollow shell 1 and top sealing cover 17, the master The bottom of hollow shell 1 is connected with main support rod 3 by main connecting plate 2, and the bottom of the main support rod 3 is equipped with multiple main peaces Loading board 4, the inside of each main mounting plate 4 are provided with kingbolt hole 5, the center setting inside the main hollow shell 1 There is main hollow structure 6, main 1 bottom of hollow shell is provided with main Drainage pipe 14 and main input duct 13, and the master is hollow Shell 1 is internally provided with the extraneous through-hole with main hollow structure 6 of connection, and an air inlet core is installed in the inside of the through-hole, described The bottom of main hollow structure 6 is provided with the third through-hole structure 12 for being connected to main 6 bottom of hollow structure and main Drainage pipe 14, described The bottom of main hollow structure 6 is provided with first through hole structure 8, and the bottom of the first through hole structure 8 is provided with spherical structure formula Air one-way movement control mechanism installation space 9, the spherical structure formula air one-way movement control mechanism installation space 9 it is interior Portion is installed by one spherical structure formula air one-way movement control mechanism 7, the spherical structure formula air one-way movement control mechanism peace The bottom in dress space 9 is provided with the second through-hole structure 10 for being connected to main input duct 13,17 bottom of the top sealing cover setting There is the sealing rod structure 15 being inserted into inside main hollow structure 6, primary air sealing is installed in the side of the sealing rod structure 15 Circle 16, the top sealing cover 17 is internally provided with helical spring flexible type maximum air pressure difference control mechanism mounting hole 20 With air-pressure controlling formula current turns ON mechanism mounting hole 21, the sealing rod structure 15 is internally provided with connection helical spring 21 bottom of flexible type maximum air pressure difference control mechanism mounting hole 20 and air-pressure controlling formula current turns ON mechanism mounting hole Main through-hole structure 18 and secondary through-hole structure 19, the helical spring flexible type maximum air pressure difference control mechanism mounting hole 20 Helical spring flexible type maximum air gas is separately installed with the inside of air-pressure controlling formula current turns ON mechanism mounting hole 21 Pressure difference control mechanism 11 and air-pressure controlling formula current turns ON mechanism 22.

Referring to Fig. 2, the spherical structure formula air one-way movement control mechanism 7 includes that globe valve shape and Size Formula are empty Gas one-way flow control mechanism shell 71, globe valve shape and Size Formula air flow in one direction control mechanism diameter of Spherical Volume 72, globe valve shape and Size Formula air flow in one direction control mechanism ball valve 73, globe valve shape and Size Formula air are unidirectional Flow control mechanism air inlet 74 and globe valve shape and Size Formula air flow in one direction control mechanism gas vent 75；It is described Globe valve shape and ruler are provided centrally with inside globe valve shape and Size Formula air flow in one direction control mechanism shell 71 Very little formula air flow in one direction control mechanism diameter of Spherical Volume 72, the globe valve shape and Size Formula air flow in one direction control machine Structure shell 71 is internally provided with connection globe valve shape and 71 bottom of Size Formula air flow in one direction control mechanism shell The globe valve shape at center and globe valve shape and Size Formula air flow in one direction control mechanism 72 bottom centre of diameter of Spherical Volume With Size Formula air flow in one direction control mechanism air inlet 74, the globe valve shape and Size Formula air flow in one direction are controlled Place a globe valve shape and Size Formula air flow in one direction control mechanism ball valve 73, institute in the inside of mechanism diameter of Spherical Volume 72 State globe valve shape and Size Formula air flow in one direction control mechanism shell 71 be internally provided be connected to globe valve shape with Size Formula air flow in one direction control mechanism 71 top center of shell and globe valve shape and the control of Size Formula air flow in one direction The globe valve shape and Size Formula air flow in one direction control mechanism gas vent 75 of mechanism processed 72 top center of diameter of Spherical Volume； The structure radius of the globe valve shape and Size Formula air flow in one direction control mechanism diameter of Spherical Volume 72 is greater than the spherical shape The structure radius of valve shape and Size Formula air flow in one direction control mechanism ball valve 73, the globe valve shape and Size Formula are empty The structure radius globe valve shape and Size Formula air flow in one direction control mechanism of gas one-way flow control mechanism ball valve 73 are used The structure radius of air inlet 74 and globe valve shape and Size Formula air flow in one direction control mechanism gas vent 75；The spherical shape The bottom end and globe valve shape of valve shape and Size Formula air flow in one direction control mechanism air inlet 74 and Size Formula air list It is connected to respectively with the second through-hole structure 10 and first through hole structure 8 to the top of flowing control mechanism gas vent 75, it is main Effect is: under the action of size and contour structures, air can only be realized by the second through-hole structure 10 and first through hole structure 8 Discharge from bottom to top.

Referring to Fig. 3, the helical spring flexible type maximum air pressure difference control mechanism 11 includes helical spring elasticity Formula maximum air pressure difference control mechanism hollow casing 111, helical spring flexible type maximum air pressure difference control mechanism are used Air sealing ring 112, helical spring flexible type maximum air pressure difference control mechanism hollow structure 113, helical spring elasticity Formula maximum air pressure difference control mechanism gas vent 114, helical spring flexible type maximum air pressure difference control mechanism valve Plate insertion space 115, helical spring flexible type maximum air pressure difference control mechanism air inlet 116, helical spring flexible type Maximum air pressure difference control mechanism movable plate 117, helical spring flexible type maximum air pressure difference control mechanism valve plate 118, helical spring flexible type maximum air pressure difference control mechanism venthole 119 and helical spring flexible type maximum air gas Pressure difference control mechanism helical spring 1110；The helical spring flexible type maximum air pressure difference control mechanism hollow casing 111 side is socketed a helical spring flexible type maximum air pressure difference control mechanism air sealing ring 112, the spiral bullet Helical spring flexible type maximum is provided centrally with inside spring flexible type maximum air pressure difference control mechanism hollow casing 111 Air pressure difference control mechanism hollow structure 113, the helical spring flexible type maximum air pressure difference control mechanism are empty Heart shell 111 is being set positioned at the helical spring flexible type maximum air pressure difference control mechanism with the side of hollow structure 113 It is equipped with helical spring flexible type maximum air pressure difference control mechanism gas vent 114, the helical spring flexible type is maximum empty One end connection helical spring flexible type maximum air pressure difference control mechanism of gas draught head control mechanism gas vent 114 is empty One end of heart shell 111, the helical spring flexible type maximum air pressure difference control mechanism are being located at institute with hollow casing 111 It states helical spring flexible type maximum air pressure difference control mechanism and the other side of hollow structure 113 is provided with helical spring elasticity Formula maximum air pressure difference control mechanism valve plate insertion space 115, the helical spring flexible type maximum air pressure difference control Mechanism processed is being located at helical spring flexible type maximum air pressure difference control mechanism valve plate insertion sky with hollow casing 111 Between 115 side be provided with helical spring flexible type maximum air pressure difference control mechanism air inlet 116, the helical spring Flexible type maximum air pressure difference control mechanism air inlet 116 is connected to the helical spring flexible type maximum air pressure difference control The other side of mechanism processed hollow casing 111, the helical spring flexible type maximum air pressure difference control mechanism is with hollow outer Shell 111 is in the inside installation one for being located at the helical spring flexible type maximum air pressure difference control mechanism hollow structure 113 Helical spring flexible type maximum air pressure difference control mechanism movable plate 117, the helical spring flexible type maximum air gas Pressure difference control mechanism is inserted with movable plate 117 positioned at the helical spring flexible type maximum air pressure difference control mechanism valve plate The end face center for entering 115 side of space is provided with to be controlled with the helical spring flexible type maximum air pressure difference of its integral structure Mechanism valve plate 118, the helical spring flexible type maximum air pressure difference control mechanism are provided with the side of movable plate 117 It is connected to the helical spring flexible type maximum air pressure difference control mechanism venthole 119 of its both ends of the surface, the helical spring bullet Property formula maximum air pressure difference control mechanism movable plate 117 other end install a helical spring flexible type maximum air gas Pressure difference control mechanism helical spring 1110；The helical spring flexible type maximum air pressure difference control mechanism is sealed with air Circle 112 is connected to the inside of helical spring flexible type maximum air pressure difference control mechanism mounting hole 20, the helical spring bullet Property formula maximum air pressure difference control mechanism gas vent 114 one end be connected to main through-hole structure 18；The helical spring elasticity It is maximum empty that the initial length of formula maximum air pressure difference control mechanism helical spring 1110 is greater than the helical spring flexible type The lateral length of gas draught head control mechanism hollow structure 113, main function is: helical spring flexible type maximum air gas The elastic stool and urine of pressure difference control mechanism helical spring 1110 is the size of maximum gas pressure difference, and draught head is greater than helical spring When the elastic force of flexible type maximum air pressure difference control mechanism helical spring 1110, internal air will be discharged in time, from And it is depressured.

Referring to Fig. 4, the air-pressure controlling formula current turns ON mechanism 22 includes air-pressure controlling formula current turns ON The main hollow shell 221 of mechanism, the first air-pressure controlling formula current turns ON mechanism air sealing ring 222, air pressure control The first hollow structure 223 of standard current turns ON mechanism, air-pressure controlling formula current turns ON mechanism first through hole structure 224, the second through-hole structure 225 of air-pressure controlling formula current turns ON mechanism, air-pressure controlling formula current turns ON mechanism use Piston plate 226, the second air sealing ring 227 of air-pressure controlling formula current turns ON mechanism, air-pressure controlling formula electric current connect Logical mechanism telescopic rod 228, air-pressure controlling formula current turns ON mechanism helical spring 229, air-pressure controlling formula electric current Engaging means axle sleeve 2210, air-pressure controlling formula current turns ON mechanism secondary hollow shell 2211, air-pressure controlling formula The second hollow structure 2212 of current turns ON mechanism, air-pressure controlling formula current turns ON mechanism copper rod 2213, air pressure The first copper billet 2214 of control formula current turns ON mechanism, the second copper billet 2215 of air-pressure controlling formula current turns ON mechanism, sky Atmospheric pressure controls the first wire guide 2216 of formula current turns ON mechanism, the second wiring of air-pressure controlling formula current turns ON mechanism Column 2217, the first binding post 2218 of air-pressure controlling formula current turns ON mechanism and air-pressure controlling formula current turns ON mechanism With the second wire guide 2219；The outer middle side part of the main hollow shell 221 of the air-pressure controlling formula current turns ON mechanism is installed One first air-pressure controlling formula current turns ON mechanism air sealing ring 222, the air-pressure controlling formula current turns ON machine It is provided centrally with the first hollow structure 223 of air-pressure controlling formula current turns ON mechanism inside the main hollow shell 221 of structure, The air-pressure controlling formula current turns ON mechanism is provided centrally with connection upper space with the top of the first hollow structure 223 Air-pressure controlling formula current turns ON mechanism first through hole structure 224, the air-pressure controlling formula current turns ON mechanism use The bottom center of first hollow structure 223 is provided with the air-pressure controlling formula current turns ON mechanism of connection lower space with second The inside of through-hole structure 225, the first hollow structure 223 of the air-pressure controlling formula current turns ON mechanism is installed by one air pressure Power controls formula current turns ON mechanism piston plate 226, the side of the air-pressure controlling formula current turns ON mechanism piston plate 226 Surface cover is connected to the second air sealing ring 227 of air-pressure controlling formula current turns ON mechanism, the air-pressure controlling formula electric current Engaging means installs an air-pressure controlling formula current turns ON mechanism telescopic rod 228, the sky with 226 top center of piston plate Atmospheric pressure controls the air-pressure controlling formula current turns ON of one compression of installation on the body of rod of formula current turns ON mechanism telescopic rod 228 The body of rod of mechanism helical spring 229, air-pressure controlling formula current turns ON mechanism telescopic rod 228 runs through air pressure Control formula current turns ON mechanism first through hole structure 224, and air-pressure controlling formula current turns ON mechanism telescopic rod An air-pressure controlling formula current turns ON mechanism axle sleeve 2210 is installed at 228 top, and the air-pressure controlling formula electric current connects The inside of logical mechanism axle sleeve 2210 is installed by one air-pressure controlling formula current turns ON mechanism copper rod 2213, the air pressure The top of the main hollow shell 221 of control formula current turns ON mechanism one air-pressure controlling formula current turns ON machine is installed by bolt Structure is internally provided with secondary hollow shell 2211, the secondary hollow shell 2211 of the air-pressure controlling formula current turns ON mechanism The second hollow structure 2212 of air-pressure controlling formula current turns ON mechanism, the air-pressure controlling formula current turns ON mechanism use Main 221 top two sides of hollow shell are in the inside for being located at the second hollow structure 2212 of air-pressure controlling formula current turns ON mechanism It is separately installed with the first copper billet 2214 of air-pressure controlling formula current turns ON mechanism and air-pressure controlling formula current turns ON machine The second copper billet 2215 of structure, the air-pressure controlling formula current turns ON mechanism the first copper billet 2214 and air-pressure controlling formula The second copper billet 2215 of current turns ON mechanism is located at 2213 liang of copper rod of the air-pressure controlling formula current turns ON mechanism The underface at end, the air-pressure controlling formula current turns ON mechanism are connect with the first copper billet 2214 and air-pressure controlling formula electric current Logical mechanism is separately installed with the first binding post of air-pressure controlling formula current turns ON mechanism with the two sides of the second copper billet 2215 2218 and the second binding post 2217 of air-pressure controlling formula current turns ON mechanism, the air-pressure controlling formula current turns ON machine Structure pair hollow shell 2211 is internally provided with that connection is extraneous and air-pressure controlling formula current turns ON mechanism is hollow with second The air-pressure controlling formula current turns ON mechanism of structure 2,212 first wire guide 2216 and air-pressure controlling formula current turns ON The second wire guide 2219 of mechanism；The air-pressure controlling formula current turns ON mechanism the first wire guide 2216 and air pressure A conducting wire is installed with the inside of the second wire guide 2219 respectively by control formula current turns ON mechanism, and one end of two conducting wires is respectively welded In the second binding post 2217 of air-pressure controlling formula current turns ON mechanism and air-pressure controlling formula current turns ON mechanism with The end of one binding post 2218, the and wherein anode of the other end of a conducting wire and an air compressor is connect, another conducting wire it is another One end is connected to power supply；The air-pressure controlling formula current turns ON mechanism is mounted on air pressure control with main hollow shell 221 The inside of standard current turns ON mechanism mounting hole 21, and the second through-hole structure 225 of air-pressure controlling formula current turns ON mechanism Bottom end be connected to secondary through-hole structure 19, main function is: since air-pressure controlling formula current turns ON mechanism is led to second The bottom end of pore structure 225 is connected to secondary through-hole structure 19, so when inner air is greater than air-pressure controlling formula current turns ON machine When the elastic force of structure helical spring 229, telescopic rod is moved up, and air-pressure controlling formula current turns ON mechanism copper rod 2213 is detached from sky Atmospheric pressure controls the first copper billet 2214 of formula current turns ON mechanism and the second copper billet of air-pressure controlling formula current turns ON mechanism 2215, electric current disconnects, and air compressor stops working, on the contrary, when inner air is less than air-pressure controlling formula current turns ON machine When the elastic force of structure helical spring 229, similarly, air injection is realized in current turns ON, air compressor work.

Specifically used mode: in present invention work, main Drainage pipe 14 is passed through into hose with the water inlet pipe road junction in family Connection, then main input duct 13 is connect with the discharge outlet of water pump by hose, then by air inlet spool and an air compressor Exhaust pipe docking, finally connects the positive electrified wire of the air compressor and air-pressure controlling formula current turns ON mechanism 22 It connecing, when work, opening water pump can not be full of so that water enters the inside in fluid storage space 6, after, it switches off the pump, At this point, internal air pressure is insufficient, so air compressor work due to the relationship of air-pressure controlling formula current turns ON mechanism 22 Make, so that air enters, air constantly enters, and forms pressure-air, connects when air pressure meets air-pressure controlling formula electric current When logical mechanism 22, air compressor is closed, so its internal liquid can generate pressure.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

Claims (10)

1. a kind of controllability pressure-air energy-storage type liquor storage device, including main hollow shell (1) and top sealing cover (17), special Sign is: the bottom of the main hollow shell (1) is connected with main support rod (3), the main support rod by main connecting plate (2) (3) bottom is equipped with multiple main mounting plates (4), and the inside of each main mounting plate (4) is provided with kingbolt hole (5), The main hollow shell (1) is internal to be provided centrally with main hollow structure (6), and main hollow shell (1) bottom is provided with master Drainage pipe (14) and main input duct (13), the main hollow shell (1) are internally provided with the extraneous and main hollow knot of connection The through-hole of structure (6), and an air inlet core is installed in the inside of the through-hole, the bottom of the main hollow structure (6) is provided in connection master The bottom of the third through-hole structure (12) of hollow structure (6) bottom and main Drainage pipe (14), the main hollow structure (6) is provided with First through hole structure (8), the bottom of the first through hole structure (8) are provided with spherical structure formula air one-way movement control mechanism The inside of installation space (9), the spherical structure formula air one-way movement control mechanism installation space (9) is installed by one spherical structure Formula air one-way movement control mechanism (7), the bottom of the spherical structure formula air one-way movement control mechanism installation space (9) It is provided with the second through-hole structure (10) for being connected to main input duct (13), top sealing cover (17) bottom, which is provided with, to be inserted into The side of the internal sealing rod structure (15) of main hollow structure (6), sealing rod structure (15) is installed by one primary air sealing ring (16), the top sealing cover (17) is internally provided with helical spring flexible type maximum air pressure difference control mechanism mounting hole (20) and air-pressure controlling formula current turns ON mechanism mounting hole (21), sealing rod structure (15) are internally provided with connection Helical spring flexible type maximum air pressure difference control mechanism mounting hole (20) and air-pressure controlling formula current turns ON mechanism peace Main through-hole structure (18) and secondary through-hole structure (19), the helical spring flexible type maximum air pressure for filling hole (21) bottom are poor The inside of control mechanism mounting hole (20) and air-pressure controlling formula current turns ON mechanism mounting hole (21) is separately installed with spiral Spring formula maximum air pressure difference control mechanism (11) and air-pressure controlling formula current turns ON mechanism (22).

2. a kind of controllability pressure-air energy-storage type liquor storage device according to claim 1, it is characterised in that: the spherical shape Structural formula air one-way movement control mechanism (7) includes globe valve shape and Size Formula air flow in one direction control mechanism shell (71), globe valve shape and Size Formula air flow in one direction control mechanism diameter of Spherical Volume (72), globe valve shape and Size Formula Air flow in one direction control mechanism ball valve (73), globe valve shape and Size Formula air flow in one direction control mechanism air inlet (74) and globe valve shape and Size Formula air flow in one direction control mechanism are with gas vent (75)；The globe valve shape and size Formula air flow in one direction control mechanism shell (71) inside is provided centrally with globe valve shape and Size Formula air one-way flow Dynamic control mechanism is with diameter of Spherical Volume (72), the globe valve shape and Size Formula air flow in one direction control mechanism with shell (71) Be internally provided with connection globe valve shape and Size Formula air flow in one direction control mechanism shell (71) bottom centre and ball The globe valve shape and size of shape valve shape and Size Formula air flow in one direction control mechanism diameter of Spherical Volume (72) bottom centre Formula air flow in one direction control mechanism air inlet (74), the globe valve shape and Size Formula air flow in one direction control mechanism A globe valve shape and Size Formula air flow in one direction control mechanism ball valve (73), institute are placed with the inside of diameter of Spherical Volume (72) It states globe valve shape and is connected to globe valve shape with being internally provided with for Size Formula air flow in one direction control mechanism shell (71) With Size Formula air flow in one direction control mechanism shell (71) top center and globe valve shape and Size Formula air one-way flow The globe valve shape and Size Formula air flow in one direction control mechanism of dynamic control mechanism diameter of Spherical Volume (72) top center are arranged Stomata (75).

3. a kind of controllability pressure-air energy-storage type liquor storage device according to claim 2, it is characterised in that: the spherical shape The structure radius of valve shape and Size Formula air flow in one direction control mechanism diameter of Spherical Volume (72) is greater than the globe valve shape With the Size Formula air flow in one direction control mechanism structure radius of ball valve (73), the globe valve shape and Size Formula air list To flowing control mechanism ball valve (73) structure radius globe valve shape and Size Formula air flow in one direction control mechanism with into The structure radius of stomata (74) and globe valve shape and Size Formula air flow in one direction control mechanism gas vent (75).

4. a kind of controllability pressure-air energy-storage type liquor storage device according to claim 2, it is characterised in that: the spherical shape Valve shape and the Size Formula air flow in one direction control mechanism bottom end of air inlet (74) and globe valve shape and Size Formula air The top of one-way flow control mechanism gas vent (75) connects with the second through-hole structure (10) and first through hole structure (8) respectively It is logical.

5. a kind of controllability pressure-air energy-storage type liquor storage device according to claim 1, it is characterised in that: the spiral Spring formula maximum air pressure difference control mechanism (11) includes helical spring flexible type maximum air pressure difference control mechanism With hollow casing (111), helical spring flexible type maximum air pressure difference control mechanism air sealing ring (112), spiral bullet Spring flexible type maximum air pressure difference control mechanism hollow structure (113), helical spring flexible type maximum air pressure difference control Mechanism processed gas vent (114), helical spring flexible type maximum air pressure difference control mechanism valve plate insertion space (115), Helical spring flexible type maximum air pressure difference control mechanism air inlet (116), helical spring flexible type maximum air pressure Poor control mechanism movable plate (117), helical spring flexible type maximum air pressure difference control mechanism valve plate (118), spiral Spring formula maximum air pressure difference control mechanism venthole (119) and helical spring flexible type maximum air pressure difference control Mechanism processed is with helical spring (1110)；The helical spring flexible type maximum air pressure difference control mechanism hollow casing (111) side is socketed helical spring flexible type maximum air pressure difference control mechanism air sealing ring (112), the spiral shell Rotation spring formula maximum air pressure difference control mechanism hollow casing (111) inside is provided centrally with helical spring elasticity Formula maximum air pressure difference control mechanism hollow structure (113), the helical spring flexible type maximum air pressure difference control Mechanism is being located at the helical spring flexible type maximum air pressure difference control mechanism hollow structure with hollow casing (111) (113) side is provided with helical spring flexible type maximum air pressure difference control mechanism gas vent (114), the spiral bullet One end of spring flexible type maximum air pressure difference control mechanism gas vent (114) is connected to helical spring flexible type maximum air gas One end of pressure difference control mechanism hollow casing (111), the helical spring flexible type maximum air pressure difference control mechanism are used Hollow casing (111) is being located at the helical spring flexible type maximum air pressure difference control mechanism hollow structure (113) The other side is provided with helical spring flexible type maximum air pressure difference control mechanism valve plate insertion space (115), the spiral Spring formula maximum air pressure difference control mechanism is being located at the maximum sky of the helical spring flexible type with hollow casing (111) Gas draught head control mechanism is provided with helical spring flexible type maximum air pressure difference control with the side of valve plate insertion space (115) Mechanism processed is connected to air inlet (116), the helical spring flexible type maximum air pressure difference control mechanism with air inlet (116) The other side of helical spring flexible type maximum air pressure difference control mechanism hollow casing (111), the helical spring Flexible type maximum air pressure difference control mechanism is being located at the helical spring flexible type maximum air gas with hollow casing (111) One helical spring flexible type maximum air pressure difference control mechanism is installed and is used in the inside of pressure difference control mechanism hollow structure (113) Movable plate (117), the helical spring flexible type maximum air pressure difference control mechanism are being located at the spiral shell with movable plate (117) Rotation spring formula maximum air pressure difference control mechanism is provided with the end face center of valve plate insertion space (115) side and it The helical spring flexible type maximum air pressure difference control mechanism of integral structure valve plate (118), the helical spring elasticity Formula maximum air pressure difference control mechanism is provided with the helical spring flexible type for being connected to its both ends of the surface with the side of movable plate (117) Maximum air pressure difference control mechanism venthole (119), the helical spring flexible type maximum air pressure difference control mechanism One helical spring flexible type maximum air pressure difference control mechanism helical spring is installed with the other end of movable plate (117) (1110).

6. a kind of controllability pressure-air energy-storage type liquor storage device according to claim 5, it is characterised in that: the spiral Spring formula maximum air pressure difference control mechanism is connected to helical spring flexible type maximum air with air sealing ring (112) The inside of draught head control mechanism mounting hole (20), the helical spring flexible type maximum air pressure difference control mechanism exhaust The one end in hole (114) is connected to main through-hole structure (18).

7. a kind of controllability pressure-air energy-storage type liquor storage device according to claim 5, it is characterised in that: the spiral The initial length of spring formula maximum air pressure difference control mechanism helical spring (1110) is greater than the helical spring bullet The lateral length of property formula maximum air pressure difference control mechanism hollow structure (113).

8. a kind of controllability pressure-air energy-storage type liquor storage device according to claim 1, it is characterised in that: the air Pressure control type current turns ON mechanism (22) includes air-pressure controlling formula current turns ON mechanism main hollow shell (221), One air-pressure controlling formula current turns ON mechanism air sealing ring (222), air-pressure controlling formula current turns ON mechanism are with One hollow structure (223), air-pressure controlling formula current turns ON mechanism first through hole structure (224), air-pressure controlling formula Current turns ON mechanism the second through-hole structure (225), air-pressure controlling formula current turns ON mechanism piston plate (226), air The second air sealing ring (227) of pressure control type current turns ON mechanism, air-pressure controlling formula current turns ON mechanism use flexible Bar (228), air-pressure controlling formula current turns ON mechanism helical spring (229), air-pressure controlling formula current turns ON mechanism With axle sleeve (2210), air-pressure controlling formula current turns ON mechanism pair hollow shell (2211), air-pressure controlling formula electric current Engaging means the second hollow structure (2212), air-pressure controlling formula current turns ON mechanism copper rod (2213), air pressure Control formula current turns ON mechanism the first copper billet (2214), the second copper billet of air-pressure controlling formula current turns ON mechanism (2215), air-pressure controlling formula current turns ON mechanism the first wire guide (2216), air-pressure controlling formula current turns ON machine Structure the second binding post (2217), air-pressure controlling formula current turns ON mechanism the first binding post (2218) and air pressure control Standard current turns ON mechanism is with the second wire guide (2219)；The main hollow shell of the air-pressure controlling formula current turns ON mechanism (221) outer middle side part installs one first air-pressure controlling formula current turns ON mechanism air sealing ring (222), the air Pressure control type current turns ON mechanism main hollow shell (221) inside is provided centrally with air-pressure controlling formula current turns ON Mechanism the first hollow structure (223), the top of air-pressure controlling formula current turns ON mechanism the first hollow structure (223) End is provided centrally with the air-pressure controlling formula current turns ON mechanism first through hole structure (224) of connection upper space, described Air-pressure controlling formula current turns ON mechanism is provided with the sky of connection lower space with the bottom center of the first hollow structure (223) Atmospheric pressure controls formula current turns ON mechanism with the second through-hole structure (225), and the air-pressure controlling formula current turns ON mechanism uses The inside of first hollow structure (223) is installed by one air-pressure controlling formula current turns ON mechanism piston plate (226), the air Pressure control type current turns ON mechanism is socketed with air-pressure controlling formula current turns ON mechanism with the side of piston plate (226) Two air sealing rings (227), the air-pressure controlling formula current turns ON mechanism are installed with piston plate (226) top center Atmospheric pressure controls formula current turns ON mechanism telescopic rod (228), air-pressure controlling formula current turns ON mechanism telescopic rod (228) air-pressure controlling formula current turns ON mechanism helical spring (229), the air pressure of one compression of installation on the body of rod The body of rod that power controls formula current turns ON mechanism telescopic rod (228) is logical with first through air-pressure controlling formula current turns ON mechanism Pore structure (224), and an air pressure is installed at the top of air-pressure controlling formula current turns ON mechanism telescopic rod (228) With axle sleeve (2210), the air-pressure controlling formula current turns ON mechanism is interior with axle sleeve (2210) for control formula current turns ON mechanism Portion is installed by one air-pressure controlling formula current turns ON mechanism copper rod (2213), the air-pressure controlling formula current turns ON mechanism One air-pressure controlling formula current turns ON mechanism is installed with secondary hollow shell by bolt with the top of main hollow shell (221) (2211), the air-pressure controlling formula current turns ON mechanism secondary hollow shell (2211) is internally provided with air pressure control Standard current turns ON mechanism leads hollow outer with the second hollow structure (2212), the air-pressure controlling formula current turns ON mechanism Two sides are distinguished in the inside for being located at air-pressure controlling formula current turns ON mechanism the second hollow structure (2212) at the top of shell (221) Air-pressure controlling formula current turns ON mechanism the first copper billet (2214) and air-pressure controlling formula current turns ON mechanism are installed With the second copper billet (2215), the air-pressure controlling formula current turns ON mechanism the first copper billet (2214) and air-pressure controlling Formula current turns ON mechanism is located at air-pressure controlling formula current turns ON mechanism copper rod with the second copper billet (2215) (2213) underface at both ends, the air-pressure controlling formula current turns ON mechanism the first copper billet (2214) and air pressure control Standard current turns ON mechanism is separately installed with air-pressure controlling formula current turns ON mechanism with the two sides of the second copper billet (2215) and uses First binding post (2218) and air-pressure controlling formula current turns ON mechanism the second binding post (2217), the air pressure control The connection external world that is internally provided with of standard current turns ON mechanism pair hollow shell (2211) connects with air-pressure controlling formula electric current Air-pressure controlling formula current turns ON mechanism the first wire guide (2216) and sky of logical mechanism the second hollow structure (2212) Atmospheric pressure controls formula current turns ON mechanism with the second wire guide (2219).

9. a kind of controllability pressure-air energy-storage type liquor storage device according to claim 8, it is characterised in that: the air Pressure control type current turns ON mechanism the first wire guide (2216) and air-pressure controlling formula current turns ON mechanism are led with second A conducting wire is installed in the inside of string holes (2219) respectively, and one end of two conducting wires is respectively welded at air-pressure controlling formula current turns ON The end of mechanism the second binding post (2217) and air-pressure controlling formula current turns ON mechanism the first binding post (2218), and Wherein the other end of a conducting wire is connect with the anode of an air compressor, and the other end of another conducting wire is connected to power supply.

10. a kind of controllability pressure-air energy-storage type liquor storage device according to claim 8, it is characterised in that: the sky Atmospheric pressure controls formula current turns ON mechanism and is mounted on the installation of air-pressure controlling formula current turns ON mechanism with main hollow shell (221) The inside in hole (21), and the bottom end of air-pressure controlling formula current turns ON mechanism the second through-hole structure (225) and secondary through-hole knot Structure (19) connection.