CN204809362U - Electrical power generating system who can dormancy stores and trigger in real time - Google Patents

Electrical power generating system who can dormancy stores and trigger in real time Download PDF

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Publication number
CN204809362U
CN204809362U CN201520507019.5U CN201520507019U CN204809362U CN 204809362 U CN204809362 U CN 204809362U CN 201520507019 U CN201520507019 U CN 201520507019U CN 204809362 U CN204809362 U CN 204809362U
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China
Prior art keywords
water tank
power
trigger
stores
real time
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Withdrawn - After Issue
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CN201520507019.5U
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Chinese (zh)
Inventor
袁廷华
徐献芝
王乾
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HEFEI XIANZHI NEW ENERGY Co Ltd
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HEFEI XIANZHI NEW ENERGY Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/30Hydrogen technology
    • Y02E60/50Fuel cells

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Abstract

The utility model relates to an electrical power generating system who can dormancy stores and trigger in real time compares the defect of having solved electrical power generating system and can't long -term storage and trigger in real time with prior art. The utility model discloses a draw forth the positive pole in the metal electrode follow monomer shell, draw forth the negative pole in the air electrode follow monomer shell, a battery skirt termination is on water pipeling, and another termination of battery skirt has leaky pipe and leaky pipe to pass the monomer shell to insert in potassium hydroxide solidifies dry powder, and the water inlet department that lies in a water pipeling on the water pipeling installs the solenoid valve, and the control end of solenoid valve links to each other with the control unit's control signal output. The utility model discloses safe storage for a long time to it is almost lossless between the storage life, when needs use, can utilize water tank real -time activating power under the control unit's control, the power output.

Description

A kind of can the dormancy power-supply system that stores and trigger in real time
Technical field
The utility model relates to power technique fields, a kind of specifically can the dormancy power-supply system that stores and trigger in real time.
Background technology
Existing power supply institute can the storage time and service time all shorter, can not lay in enormous quantities, stable electric energy can not be provided for a long time.And in many special dimensions and place, as down-hole, mountain forest etc., often there is non-transformer supply when running into emergency case, bring series of problems thus.Power-supply system cannot long term storage and application technological difficulties be the loss cannot avoiding electric quantity of power supply, keep stablizing electricity, deposit even if power-supply system is zero load, also there will be electric discharge phenomena to a certain degree, after a period of time, electricity exhausts, cannot come into operation when needs, so just can not meet and much need emergency service and the extensive field of power supplies used.Particularly at irresistible natural disaster, such as earthquake, typhoon etc., at this moment the electric power system in disaster area is often subject to serious destruction, and re-establishing of electric power system needs to expend a lot of time.
How to develop a kind ofly the power-supply system of long-time storage can become the technical problem being badly in need of solving.
Utility model content
The purpose of this utility model is cannot long term storage and the defect that triggers in real time in order to solve power-supply system in prior art, provides a kind of and the dormancy power-supply system that stores and trigger in real time can solve the problems referred to above.
To achieve these goals, the technical solution of the utility model is as follows:
A kind of can the dormancy power-supply system that stores and trigger in real time, comprise outlet conduit system, water tank and control unit, outlet conduit system comprises the main water pipeline be connected on water tank, main water pipeline is connected to branching pipe road, the signal output part of transducer is connected with the triggering signal input of control unit
Also comprise pile assembly, battery cell and branching pipe road are fixedly mounted in pile assembly, battery cell comprises monomer shell, battery skirt, air electrode, metal electrode and potassium hydroxide and solidifies dry powder, from top to bottom metal electrode is installed successively in monomer shell, potassium hydroxide solidifies dry powder and air electrode and the lower surface that upper surface contacts, air electrode solidifies dry powder with potassium hydroxide that metal electrode and potassium hydroxide solidify dry powder contact, metal electrode draws positive pole in monomer shell, and air electrode draws negative pole in monomer shell;
Battery skirt one end is connected on branching pipe road, the battery skirt other end is connected to leaky pipe and leaky pipe is inserted in potassium hydroxide solidifies in dry powder through monomer shell, water inlet branching pipe road being positioned at branching pipe road is provided with electromagnetically operated valve, and the control end of electromagnetically operated valve is connected with the control signal output of control unit.
Also comprise secondary cell, secondary cell is connected with the power end of control unit, and the positive pole of battery cell is connected with the positive pole of secondary cell, and the negative pole of battery cell is connected with the negative pole of secondary cell.
The quantity of described battery cell is several, is connected in series between adjacent battery cell.
The water outlet of described water tank is provided with filter, stores water in water tank.
Described water tank upper has the antifouling mouth of exhaust.
Described water tank is positioned at underground, and the top of water tank communicates with soil layer.
Described water tank is positioned at underground, and the top of water tank communicates with native permeatable filter layer.
beneficial effect
Of the present utility model a kind of can the dormancy power-supply system that stores and trigger in real time, compared with prior art can long-term safety store, and almost lossless between the storage life, when needs use, water tank real-time activating power under the control of the control unit can be utilized, export electric energy.Battery pile can stored for years before not being activated, and just normally can use as power supply after pile is activated; Can according to the demand of load to power supply, timesharing independent startup battery pile; The battery unit of different capabilities can be combined as required, thus meet the different needs, to realize the object of long-time power supply.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the structural representation of pile assembly in the utility model;
Fig. 3 is the structural representation of battery cell in the utility model;
Fig. 4 is the structural representation of the first execution mode of water tank in the utility model;
Fig. 5 is the structural representation of water tank the second execution mode in the utility model;
Fig. 6 is the structural representation of the third execution mode of water tank in the utility model;
Wherein, 1-control cabinet, 2-water tank, 3-water piping system, 4-pile assembly, 5-load unit, 11-secondary cell, 12-control unit, 13-transducer, 21-soil layer, 22-filter, 23-water, 24-seepage filter course, 25-delivery port, 26-are vented antifouling mouth, 31-main water pipeline, 32-electromagnetically operated valve, 33-control end, 34-branching pipe road, 35-battery skirt, 41-battery cell, 410-monomer shell, 411-metal electrode, 412-leaky pipe, 413-air electrode, 414-potassium hydroxide solidifies dry powder.
Embodiment
For making to have a better understanding and awareness architectural feature of the present utility model and effect of reaching, coordinating detailed description in order to preferred embodiment and accompanying drawing, being described as follows:
As shown in Figure 1, described in the utility model a kind of can the dormancy power-supply system that stores and trigger in real time, comprise outlet conduit system 3, water tank 2 and control unit 12, when water tank 2 is for needing in power-supply system to use, the electric energy of activation system, allow power-supply system start working, control unit 12 is for regulating the external discharge condition of overall power system.Outlet conduit system 3 comprises the main water pipeline 31 be connected on water tank 2, main water pipeline 31 is connected to branching pipe road 34, and the water in water tank 2 enters branching pipe road 34 by main water pipeline 31.Transducer 13 is for trigger control unit 12, and the signal output part of transducer 13 is connected with the triggering signal input of control unit 12.Transducer 13 in actual applications, can be polytype transducer, as seismic sensor, downhole safety sensor.Transducer 13 utilizes the mode of prior art to send the control command of activating power system to control unit 12, and the mode that control unit 12 recycles prior art controls electromagnetically operated valve 32, thus determines to activate which group power-supply system.Control unit 12 is arranged in control cabinet 1, and transducer 13 also can be arranged in control cabinet 1 as required.
Pile assembly 4 is power supply module, it is connected to load unit 5.As shown in Figure 2, battery cell 41 and branching pipe road 34 are fixedly mounted in pile assembly 4, and namely main water pipeline 31 is the water route transmission outside pile assembly 4, and branching pipe road 34 is the water route transmission in pile assembly 4.The quantity of pile assembly 4 can design according to actual needs, can be multiple, generally, and the battery unit composition that can be designed as 10 groups of 12 volts of 50 ampere-hours, 3 groups of 12 volts of 100 ampere-hours and 1 group of 12 volts of 500 ampere-hour generally of pile assembly 4.In actual applications, first can activate the battery unit of one group of 12 volts of 100 ampere-hour, when battery pack power consumption excessive velocities, start the battery unit starting 12 volt of 500 ampere-hour; When battery pack power consumption is crossed slow, start the battery unit starting 12 volt of 50 ampere-hour, save power supply to play, do not waste, the object of effective use.
As shown in Figure 3, battery cell 41 comprises monomer shell 410, battery skirt 35, air electrode 413, metal electrode 411 and potassium hydroxide and solidifies dry powder 414, in like manner, battery cell 41 also can be multiple at pile assembly 4, it needs design quantity according to ampere-hour, and will connect successively between adjacent battery cell 41, then form the power supply of a large ampere-hour.Battery cell 41 this can be designed as zinc air fuel cell, also can for aluminium air fuel cell, it all can solidify in dry powder and add water and make it activate by solidifying dry powder 414 or sodium hydroxid at potassium hydroxide.In like manner, also can design and not solidify dry powder 414 containing potassium hydroxide in battery cell 41, just dry powder composition, at this moment also only needs water to replace to potassium hydroxide solution, can play respective action equally.And before un-activation, potassium hydroxide solidifies dry powder 414 or sodium hydroxid and solidifies dry powder and be then all in stable state, can lay in the several years and not affect its performance.
From top to bottom metal electrode 411 is installed successively in monomer shell 410, potassium hydroxide solidifies dry powder 414 and air electrode 413 and the lower surface that upper surface contacts, air electrode 413 solidifies dry powder 414 with potassium hydroxide that metal electrode 411 and potassium hydroxide solidify dry powder 414 contact.Solidifying dry powder 414 until potassium hydroxide adds after water activates, and the upper surface that metal electrode 411 and potassium hydroxide solidify dry powder 414 contacts and is equivalent to positive pole, and the lower surface that air electrode 413 and potassium hydroxide solidify dry powder 414 contacts and is equivalent to negative pole.Metal electrode 411, potassium hydroxide solidify dry powder 414 and air electrode 413 is arranged in monomer shell 410 by the mode of prior art, as the patent No. be 201410668381, name is called that a kind of depended on pressure connects the patent application document of battery pack structure of monocell; For another example the patent No. is 201410410077, name is called a kind of patent application document of dismountable zinc-air cell, the partial design that partial design becomes plastic construction, bottom contacts with air electrode 413 contacted with metal electrode 411 by monomer shell 410 top becomes metal structure, metal electrode 411 is installed metal claw through monomer shell 410 top (plastic construction).When multiple battery cell 41 is connected mutually, multiple battery cell 41 can be stacked gradually, the top (plastic construction) at second monomer shell 410 is directly piled up neatly in the bottom (metal structure) of first monomer shell 410, and contact with the metal claw that metal electrode 411 is installed, the negative pole forming first monomer shell 410 is connected with the positive pole of second monomer shell 410; In like manner, the same directly buttress in bottom (metal structure) of second monomer shell 410 is on the top (plastic construction) of the 3rd monomer shell 410, the negative pole forming second monomer shell 410 is connected with the positive pole of the 3rd monomer shell 410, thus forms cascaded structure.Metal electrode 411 is positive pole, and in monomer shell 410, draw positive pole, air electrode 413 is negative pole, and air electrode 413 draws negative pole in monomer shell 410, forms positive pole and the negative pole of battery cell 41.
Battery skirt 35 1 end is connected on branching pipe road 34, and the other end of battery skirt 35 is connected to leaky pipe 412, and the water in branching pipe road 34 is caused leaky pipe 412 by battery skirt 35, and leaky pipe 412 is with very microporous pipeline, has osmosis.Leaky pipe 412 is inserted in potassium hydroxide through monomer shell 410 and solidifies in dry powder 414, when water arrives leaky pipe 412, solidifies dry powder 414 mix from leaky pipe 412 toward potassium hydroxide, thus activating power.Wherein, potassium hydroxide to solidify in the concrete weight of dry powder 414 and leaky pipe 412 water yield according to concrete specification proportion design, can be 60 grams as potassium hydroxide solidifies dry powder 414, reservoir quantity can be 120-140 milliliter, liquid flows into cell by leaky pipe 412, and dissolved hydrogen potassium oxide solidifies dry powder 414, forms the electrolyte of 30%-33% concentration, thus completing activation, power-supply system can export electric energy.
Water inlet branching pipe road 34 being positioned at branching pipe road 34 is provided with electromagnetically operated valve 32, and electromagnetically operated valve 32 can control main water pipeline 31 toward the water inlet on branching pipe road 34.The control end 33 of electromagnetically operated valve 32 is connected with the control signal output of control unit 12, namely can the break-make of Controlling solenoid valve 32 by control unit 12, thus controls the water inlet of leaky pipe 412, controls the activation of power-supply system.Control unit 12 can carry out control design case by prior art mode, the access time of electromagnetically operated valve 32 is calculated according to flowmeter, namely according to the flowmeter in branching pipe road 34 calculate open electromagnetically operated valve 32 how long after, the electrolyte of 30%-33% concentration can be formed in battery cell 41, complete the control design case of control unit 12 as the case may be.
In order to ensure the work of control unit 12, can also comprise the secondary cell 11 be arranged in control cabinet 1, secondary cell 11 is recharge-able battery.Secondary cell 11 is connected with the power end of control unit 12, for control unit 12 carries out Power supply.The positive pole of battery cell 41 is connected with the positive pole of secondary cell 11, and the negative pole of battery cell 41 is connected with the negative pole of secondary cell 1, after activated batteries monomer 41, can charge to secondary cell 11 by battery cell 41, ensure the power supply supply of control unit 12.Power-supply system is under power supply state, the energy storage state of secondary cell 11 is the state being full of electricity, under power-supply system is not powered to load unit 5 and is in resting state for a long time, the energy storage of secondary cell 11 slowly reduces due to its store electrical energy of self discharge of himself, when energy reduces to minimum threshold values, control unit 12 starting fluid battery pile is its charging, and charging complete system enters resting state again.
As shown in Figure 4, owing to having adopted potassium hydroxide to solidify the design of dry powder 414 at this, therefore storage of water 23 in water tank 2.Delivery port 25 place of water tank 2 can mounting filter 22, carries out purification filtering to water 23.Have the antifouling mouth 26 of exhaust on water tank 2 top, ensure the cleaning inside of water tank 2.As shown in Figure 5, water tank 2 can also design in underground, and a filter 22 is installed on its top equally, and this filter 22 can be asbestos gauge, and the top of water tank 2 communicates with soil layer 21, utilizes the underground water of soil layer 21 to supplement in inlet water tank 2.As shown in Figure 6, water tank 2 can also utilize infiltration water to supplement, and namely the top of water tank 2 communicates with native permeatable filter layer 24, same water tank 2 top mounting filter 22, utilizes subsurface wastewater infiltration system water to carry out supplementing of water tank 2.
In actual applications, when being in dormancy storing state, the potassium hydroxide in cell 41 solidifies dry powder 414 and is in stable state, is not activated, and can lay in the several years and not affect its performance.When transducer 13 collects signal (flame temperature sensor etc. of the seismic wave sensors of such as earthquake monitoring system, the SO 2 sensor of Atmosphere Environment Monitoring System Bases, Forest Fire Prevention System), when Sensor monitoring value exceedes setting threshold values, when needing activating power system, control unit 12 1 control commands given by transducer 13, control unit 12, according to presetting, opens the electromagnetically operated valve 32 in some pile assemblies 4.Water 23 in water tank 2, through main water pipeline 31, enters branching pipe road 34, then enters leaky pipe 412, and water enters potassium hydroxide and solidifies dry powder 414, and potassium hydroxide solidifies dry powder 414 and forms electrolyte, is successfully activated.Power to load unit 5 by air electrode 413 and metal electrode 411, export electric energy.
In the application, a pile assembly 4 in the course of the work, because the consumption of electric energy and its output voltage of self discharge of self and power output decline gradually.When the pile output voltage worked at present or power output drop to certain value, control unit 12 exports a start signal again to the electromagnetically operated valve 32 of next pile assembly 4, starts next pile and starts working.
As shown in Figure 1, power-supply system of the present utility model is made up of N number of pile assembly 4, design makes the rated power of each pile assembly 4 meet the demand of load cell, and therefore, namely the input of a pile assembly 4 meets the need for electricity of load.Fuel cell energy storage is large, and a battery pile can meet the need for electricity of load long period.After a pile powers its power consumption to certain value continuously, power starts to decline, and control unit 12 starts next pile assembly 4 relay work automatically.Because a upper pile assembly 4 still has certain energy, this pile assembly 4 in parallelly externally can export electric energy by its output diode with the pile assembly 4 newly dropped into, and improves the capacity usage ratio of pile.If the use of battery is for several specific function, when after these specific function event disappearance certain hours, power-supply system of the present utility model can also design and automatically enter resting state.Control unit 12 can also arrange self-timing and wake up, checks secondary cell 11 state, and when secondary cell 11 feed, control unit 12 starts pile assembly 4 and charges to secondary cell 11, and after charging complete, system enters resting state again automatically; By dormancy, timesharing input and the management to trigger event, battery system is extended working time.
The power-supply system capacity needed for different situations is different, the illuminalive power-supply of bulb and the power supply of community when such as encamp in field.Power-supply system of the present utility model also can according to different demand independent assortment power supply capacitys.Each power-supply system is made up of several pile assembly 4, and we can size according to demand, regulates the size and number of pile assembly 4.When such as institute's subfam. Spiraeoideae is less, we can form power-supply system with the pile assembly 4 of 20 groups of 12 volts of 50 ampere-hours; When institute's subfam. Spiraeoideae is larger, we can by 10 groups of 12 volts of 50 ampere-hours, and the pile assembly 4 of 3 groups of 12 volts of 100 ampere-hours and 1 group of 12 volts of 500 ampere-hour forms power-supply system.Like this, we just meet various need for electricity.In the different phase that power-supply system is powered, electricity consumption situation also may change, and the power consumption of such as community has very big-difference at the Different periods of a day.
Power-supply system of the present utility model can also can only regulate discharge condition own according to the change exporting electricity.Such as 10 groups of 12 volts of 50 ampere-hours, the power-supply system of the battery unit composition of 3 groups of 12 volts of 100 ampere-hours and 1 group of 12 volts of 500 ampere-hour, can start the battery unit of 500 ampere-hours, remaining element dormancy when power consumption is large; The battery unit of 100 ampere-hours or 50 ampere-hours can be started, remaining element dormancy when power consumption is little.So both meet the need for electricity under different situations, have and reach energy-conservation object, make the system power supply time longer.
More than show and describe general principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; the just principle of the present utility model described in above-described embodiment and specification; under the prerequisite not departing from the utility model spirit and scope, the utility model also has various changes and modifications, and these changes and improvements all fall in claimed scope of the present utility model.The protection range that the utility model requires is defined by appending claims and equivalent thereof.

Claims (7)

1. one kind can store and the real-time power-supply system triggered in dormancy, comprise outlet conduit system (3), water tank (2) and control unit (12), outlet conduit system (3) comprises the main water pipeline (31) be connected on water tank (2), main water pipeline (31) is connected to branching pipe road (34), the signal output part of transducer (13) is connected with the triggering signal input of control unit (12), it is characterized in that:
Also comprise pile assembly (4), battery cell (41) and branching pipe road (34) are fixedly mounted in pile assembly (4), battery cell (41) comprises monomer shell (410), battery skirt (35), air electrode (413), metal electrode (411) and potassium hydroxide solidify dry powder (414), in monomer shell (410), metal electrode (411) is installed from top to bottom successively, potassium hydroxide solidifies dry powder (414) and air electrode (413) and the upper surface that metal electrode (411) and potassium hydroxide solidify dry powder (414) contacts, the lower surface that air electrode (413) and potassium hydroxide solidify dry powder (414) contacts, metal electrode (411) draws positive pole in monomer shell (410), air electrode (413) draws negative pole in monomer shell (410),
Battery skirt (35) one end is connected on branching pipe road (34), battery skirt (35) other end is connected to leaky pipe (412) and leaky pipe (412) is inserted in potassium hydroxide through monomer shell (410) solidifies in dry powder (414), water inlet branching pipe road (34) being positioned at branching pipe road (34) is provided with electromagnetically operated valve (32), and the control end (33) of electromagnetically operated valve (32) is connected with the control signal output of control unit (12).
2. according to claim 1 a kind of can the dormancy power-supply system that stores and trigger in real time, it is characterized in that: also comprise secondary cell (11), secondary cell (11) is connected with the power end of control unit (12), the positive pole of battery cell (41) is connected with the positive pole of secondary cell (11), and the negative pole of battery cell (41) is connected with the negative pole of secondary cell (11).
3. according to claim 1 a kind of can the dormancy power-supply system that stores and trigger in real time, it is characterized in that: the quantity of described battery cell (41) is several, is connected in series between adjacent battery cell (41).
4. according to claim 1 a kind of can the dormancy power-supply system that stores and trigger in real time, it is characterized in that: delivery port (25) place of described water tank (2) is provided with filter (22), stores water (23) in water tank (2).
5. according to claim 4 a kind of can the dormancy power-supply system that stores and trigger in real time, it is characterized in that: described water tank (2) top has the antifouling mouth of exhaust (26).
6. according to claim 4 a kind of can the dormancy power-supply system that stores and trigger in real time, it is characterized in that: described water tank (2) is positioned at underground, the top of water tank (2) communicates with soil layer (21).
7. according to claim 4 a kind of can the dormancy power-supply system that stores and trigger in real time, it is characterized in that: described water tank (2) is positioned at underground, the top of water tank (2) communicates with native permeatable filter layer (24).
CN201520507019.5U 2015-07-14 2015-07-14 Electrical power generating system who can dormancy stores and trigger in real time Withdrawn - After Issue CN204809362U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104966859A (en) * 2015-07-14 2015-10-07 合肥献芝新能源有限公司 Power supply system capable of realizing dormant storage and real-time trigger

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104966859A (en) * 2015-07-14 2015-10-07 合肥献芝新能源有限公司 Power supply system capable of realizing dormant storage and real-time trigger

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