CN204497315U - The electrolyte conveying device of liquid state batteries - Google Patents

The electrolyte conveying device of liquid state batteries Download PDF

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Publication number
CN204497315U
CN204497315U CN201520008739.7U CN201520008739U CN204497315U CN 204497315 U CN204497315 U CN 204497315U CN 201520008739 U CN201520008739 U CN 201520008739U CN 204497315 U CN204497315 U CN 204497315U
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CN
China
Prior art keywords
electrolyte
screw rod
conveying device
liquid state
state batteries
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Withdrawn - After Issue
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CN201520008739.7U
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Chinese (zh)
Inventor
徐夫子
凃杰生
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Individual
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Individual
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Priority to CN201520008739.7U priority Critical patent/CN204497315U/en
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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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  • Filling, Topping-Up Batteries (AREA)
  • Hybrid Cells (AREA)

Abstract

The utility model relates to a kind of electrolyte conveying device of liquid state batteries, comprises: one first permanent magnet DC motor, one second permanent magnet DC motor, a power output shaft, one first screw rod conveying device, one second screw rod conveying device.This power output shaft is the power output shaft of the first permanent magnet DC motor and the second permanent magnet DC motor simultaneously.This power output shaft can simultaneously transmission first screw rod conveying device and the second screw rod conveyor running.The running of the first screw rod conveying device and the second screw rod conveying device, can be transported to anode electrolyte and electrolyte liquid in this battery case respectively.These two permanent magnet DC motor chargings respectively as liquid state batteries, the filter of discharge circuit, and operate by means of the electric energy of institute's filtering surging, as the transmission power source of electrolyte, electric energy need not be provided by liquid state batteries.

Description

The electrolyte conveying device of liquid state batteries
Technical field
The utility model has the electrolyte conveying device about a kind of liquid state batteries, it utilizes permanent magnet DC motor as the transmission power of electrolyte, this permanent magnet DC motor is also the charging of liquid state batteries, the filter of discharge circuit, and operate by means of the electric energy of institute's filtering surging, reach the effect of economize on electricity.
Background technology
Long service life, the scale of liquid state batteries are large, fail safe is high, have become the primary direction that the formulation of global advanced country is energy storage technology development plan.Current liquid state batteries take vanadium cell as representative.Just because of vanadium energy storage system has many advantages, possess the shallow power of beyond measure development in following energy storage industry, even may change following energy general layout.
Figure 1 shows that the structural representation of vanadium cell.Vanadium cell comprises output pipe 111, anode electrolyte return line 112, electrolyte liquid output pipe 121, the electrolyte liquid return line 122 being provided with battery case 10, anode electrolyte storage tank 11, electrolyte liquid storage tank 12, anode electrolyte.The proton exchange membrane 103 being provided with positive plate 101, negative plate 102 and being arranged between this positive plate 101 and this negative plate 102 is comprised in this battery case 10.This anode electrolyte output pipe 111 is provided with a liquid pump 113, the anode electrolyte 114 in anode electrolyte storage tank 11 can be sent in this battery case 10.This electrolyte liquid output pipe 121 is provided with another liquid pump 123, the electrolyte liquid 124 in electrolyte liquid storage tank 12 can be sent in this battery case 10.
Anode electrolyte 114 and electrolyte liquid 124, when charged state or discharge condition, all must be sent in battery case 10 by vanadium cell constantly.Therefore, set on this anode electrolyte output pipe 111 liquid pump 113 must operate constantly with this liquid pump 123 set by electrolyte liquid output pipe 121.The running of these two liquid pumps 113,123 can consume this energy stored by battery case 10, relatively can reduce vanadium cell energy storage benefit.In Fig. 1, component numbering 13 is electric energy generation device; Component numbering 14 is load end; Component numbering 15,16 is filter.
Summary of the invention
Main purpose of the present utility model is providing a kind of electrolyte conveying device of liquid state batteries, and it is using two chargings of permanent magnet DC motor as liquid state batteries, the filter of discharge circuit.These two permanent magnet DC motors utilize the electric energy of institute's filtering surging to operate, and as the transmission power source of electrolyte, need not provide electric energy by liquid state batteries.
Liquid state batteries in the electrolyte conveying device of liquid state batteries provided by the utility model comprises and is provided with: battery case, anode electrolyte storage tank, electrolyte liquid storage tank, anode electrolyte output pipe, electrolyte liquid output pipe.This electrolyte conveying device comprises and is provided with: one first permanent magnet DC motor, one second permanent magnet DC motor, a power output shaft, one first screw rod conveying device, one second screw rod conveying device.
Described first screw rod conveying device is arranged on anode electrolyte output pipe, mainly being transported in battery case by anode electrolyte.Described second screw rod conveying device is arranged on electrolyte liquid output pipe, mainly being transported in battery case by electrolyte liquid.
Described power output shaft is the power output shaft of the first permanent magnet DC motor and the second permanent magnet DC motor simultaneously.This power output shaft can simultaneously transmission first screw rod conveying device and the second screw rod conveyor running, anode electrolyte and electrolyte liquid is transported in this battery case.
Described first screw rod conveying device comprises and is provided with: a L shape pipe and has the first screw rod of helical blade.This L shape pipe is communicated with this anode electrolyte storage tank simultaneously, this battery case is communicated with.Anode electrolyte can be transported in the battery case of described liquid state batteries by the rotation by means of this first screw rod.
Described second screw rod conveying device comprises and is provided with: a L shape pipe and has the second screw rod of helical blade.This L shape pipe is communicated with this electrolyte liquid storage tank simultaneously, this battery case is communicated with.Electrolyte liquid can be transported in the battery case of described liquid state batteries by the rotation by means of this second screw rod.
Accompanying drawing explanation
Fig. 1 is the structural representation of liquid state batteries;
Fig. 2 is that liquid state batteries is arranged in pairs or groups the structural representation of the utility model embodiment;
Fig. 3 is that liquid state batteries is arranged in pairs or groups the circuit diagram of the utility model embodiment;
Fig. 4 is the electrolyte transport conveyor constructions figure of the utility model embodiment;
Fig. 5 is that the utility model collocation is existing with the schematic diagram of liquid pump conveying electrolyte.
Description of reference numerals: 10 ... battery case; 101 ... positive plate; 102 ... negative plate; 103 ... proton exchange membrane; 11 ... anode electrolyte storage tank; 111 ... anode electrolyte transfer pipeline; 112 ... anode electrolyte return line; 113 ... liquid pump; 114 ... anode electrolyte; 12 ... electrolyte liquid storage tank; 121 ... electrolyte liquid transfer pipeline; 122 ... electrolyte liquid return line; 123 ... liquid pump; 124 ... electrolyte liquid; 13 ... electric energy generation device; 14 ... load end; 15,16 ... filter; 20 ... first permanent magnet DC motor; 21 ... second permanent magnet DC motor; 22 ... power output shaft; 221 ... second gear; 222 ... 4th gear; 30 ... first screw rod conveying device; 31 ... L shape is managed; 32 ... first screw rod; 33 ... first gear; 34 ... reduction gearing; 40 ... second screw rod conveying device; 41 ... L shape is managed; 42 ... second screw rod; 43 ... 3rd gear; 44 ... reduction gearing.
Embodiment
Below in conjunction with drawings and Examples, to above-mentioned being described in more detail with other technical characteristic and advantage of the utility model.
Refer to Fig. 2, Fig. 3.The liquid state batteries described in electrolyte conveying device of the liquid state batteries that the utility model discloses comprises setting: battery case 10, anode electrolyte storage tank 11, electrolyte liquid storage tank 12, anode electrolyte output pipe 111, anode electrolyte return line 112, electrolyte liquid output pipe 121, electrolyte liquid return line 122.This battery case 10 is connected with charging circuit and discharge circuit.Electric energy generation device 13 in described charging circuit can be Regenerated energy generation device, such as: device of solar generating, wind-driven generator.Electric energy stored in battery case 10 supplies load end 14 electricity consumption via discharge circuit.The proton exchange membrane 103 being provided with positive plate 101, negative plate 102 and being arranged between this positive plate 101 and this negative plate 102 is comprised in described battery case 10.
Described liquid cell can be full vanadium solution battery, is called for short vanadium cell.Anode electrolyte 114 and electrolyte liquid 124, when charged state or discharge condition, all must be sent in battery case 10 by liquid cell constantly.
Coordinate Fig. 3, Fig. 4.The utility model electrolyte conveying device comprises: one first permanent magnet DC motor 20,1 second permanent magnet DC motor 21, power output shaft 22,1 first screw rod conveying device 30,1 second screw rod conveying device 40.This power output shaft 22 is the power output shaft of the first permanent magnet DC motor 20 and the second permanent magnet DC motor 21 simultaneously.This power output shaft 22 can transmission first screw rod conveying device 30 and the second screw rod conveying device 40 operate simultaneously.The running of the first screw rod conveying device 30 and the second screw rod conveying device 40, can be transported to anode electrolyte 114 and electrolyte liquid 124 in this battery case 10 respectively.
This first permanent magnet DC motor 20 is arranged on the charging circuit of described liquid state batteries, uses with filtering surging, safeguard the fail safe of charging circuit as filter.This first permanent magnet DC motor 20 relies on the electric energy of institute's filtering surging and operates.This second permanent magnet DC motor 21 is arranged on the discharge circuit of described liquid state batteries, uses with filtering surging, safeguard the fail safe of discharge circuit as filter.This second permanent magnet DC motor 21 relies on the electric energy of institute's filtering surging and operates.Therefore, this first permanent magnet DC motor 20 and the running of this second permanent magnet DC motor 21, need not power by this battery case 10, and the reserve of electricity of this battery case 10 harmless, improves the accumulate benefit of this battery case 10 relatively.
This first screw rod conveying device 30 is arranged on the anode electrolyte transfer pipeline 111 of this liquid state batteries, and can by this power output shaft 22 transmission.This first screw rod conveying device 30 comprises and is provided with: a L shape pipe 31 and has the first screw rod 32 of helical blade.The top of this L shape pipe 31 is communicated with this anode electrolyte storage tank 11, and horizontal ends is communicated with this battery case 10.This first screw rod 32 is arranged in this L shape pipe 31 with horizontal configuration, and the wall of this L shape pipe 31 is run through in its outer end system.The outer end of this first screw rod 32 is installed with the first gear 33.Anode electrolyte 114 can be transported in the battery case 10 of described liquid state batteries by the rotation by means of this first screw rod 32.
This second screw rod conveying device 40 is arranged on the electrolyte liquid transfer pipeline 121 of this liquid state batteries, and can by this power output shaft 22 transmission.This second screw rod conveying device 40 comprises and is provided with: a L shape pipe 41 and has the second screw rod 42 of helical blade.The top of this L shape pipe 41 is communicated with this electrolyte liquid storage tank 11, and horizontal ends is communicated with this battery case 10.This second screw rod 42 is arranged in this L shape pipe 41 with horizontal configuration, and the wall of this L shape pipe 41 is run through in its outer end system.The outer end of this second screw rod 42 is installed with the 3rd gear 43.Electrolyte liquid 124 can be transported in the battery case 10 of this liquid state batteries by the rotation by means of this second screw rod 42.
This power output shaft is installed with one second gear 221 and one the 4th gear 222.Reduction gearing 34 is provided with between this second gear 221 and the first gear 33 of this first screw rod 32 outer end.Therefore this second gear 221 can the first gear 33 of this first screw rod 32 outer end of transmission rotate.Reduction gearing 44 is provided with between 4th gear 222 and the 3rd gear 43 of this second screw rod 42 outer end.Therefore the 4th gear 222 can the 3rd gear 43 of this second screw rod 42 outer end of transmission rotate.When this first permanent magnet DC motor 20 and/or this second permanent magnet DC motor 21 operate, namely this power output shaft 22 rotates.This power output shaft 22 can this first screw rod 32 of transmission and the second screw rod 42 rotate simultaneously, anode electrolyte 114, electrolyte liquid defeated 124 is delivered in this battery case 10.
Be provided with liquid cell device of the present utility model, be enough to make anode electrolyte 114, electrolyte liquid defeated 124 does normal conveying.In order to make the running impression of dealer to liquid cell more secure, also the existing design of carrying anode electrolyte 114, electrolyte liquid defeated 124 shown in Fig. 1 with liquid pump 113,123 can be possessed by the mode of being in charge of, as shown in Figure 5.During actual use, anode electrolyte 114 carried by this existing liquid pump 113,123, the design of electrolyte liquid defeated 124 is ready just in case.
To sum up institute is old, the electrolyte conveying device of liquid state batteries provided by the utility model, it utilizes the surging of necessary filtering in circuit as electric energy, operate for electric drive first permanent magnet DC motor 20 and/or this second permanent magnet DC motor 21, need not the reserve of electricity of consuming cells groove 10, natural energy promotes liquid state batteries accumulate benefit.
The above utilizes preferred embodiment to describe the utility model in detail, and unrestricted scope of the present utility model.Generally people familiar with these techniques all can understand, the suitably change done slightly and adjustment, will not lose main idea place of the present utility model, also not depart from spirit and scope of the present utility model.

Claims (8)

1. an electrolyte conveying device for liquid state batteries, wherein this liquid state batteries comprises and is provided with: battery case, anode electrolyte storage tank, electrolyte liquid storage tank, anode electrolyte output pipe, electrolyte liquid output pipe; It is characterized in that: this electrolyte conveying device comprises:
One first permanent magnet DC motor, it is the filter of this liquid state batteries charging circuit, and can rely on the electric energy of institute's filtering surging and operate;
One second permanent magnet DC motor, it is the filter of this liquid state batteries discharge circuit, and can rely on the electric energy of institute's filtering surging and operate;
One power output shaft, it is the power output shaft of this first permanent magnet DC motor, this second permanent magnet DC motor simultaneously;
One first screw rod conveying device, it is arranged on the anode electrolyte transfer pipeline of this liquid state batteries, and can by this pto; This first screw rod conveying device comprises and is provided with the first screw rod that has helical blade, and anode electrolyte can be transported in the battery case of this liquid state batteries by the rotation by means of this first screw rod;
And,
One second screw rod conveying device, it is arranged on the electrolyte liquid transfer pipeline of this liquid state batteries, and can by this power output shaft institute transmission; This second screw rod conveying device comprises and is provided with the second screw rod that has helical blade, and electrolyte liquid can be transported in the battery case of this liquid state batteries by the rotation by means of this second screw rod.
2. the electrolyte conveying device of liquid state batteries as claimed in claim 1, wherein, this first screw rod conveying device more comprises and is provided with a L shape pipe; The top of this L shape pipe is communicated with this anode electrolyte storage tank, and horizontal ends is communicated with this battery case; This first screw rod is arranged in this L shape pipe with horizontal configuration, and the wall of this L shape pipe is run through in its outer end; The outer end of this first screw rod is installed with the first gear.
3. the electrolyte conveying device of liquid state batteries as claimed in claim 2, wherein, this power output shaft is installed with one second gear; This second gear can the first pinion rotation of this first screw rod outer end of transmission.
4. the electrolyte conveying device of liquid state batteries as claimed in claim 3, wherein, is provided with reduction gearing between this second gear and this first gear.
5. the electrolyte conveying device of liquid state batteries as claimed in claim 1, wherein, this second screw rod conveying device more comprises and is provided with a L shape pipe; The top of this L shape pipe is communicated with this electrolyte liquid storage tank, and horizontal ends is communicated with this battery case; This second screw rod is arranged in this L shape pipe with horizontal configuration, and the wall of this L shape pipe is run through in its outer end; The outer end of this second screw rod is installed with the 3rd gear.
6. the electrolyte conveying device of liquid state batteries as claimed in claim 5, wherein, this power output shaft is installed with one the 4th gear, and the 4th gear can the 3rd pinion rotation of this second screw rod outer end of transmission.
7. the electrolyte conveying device of liquid state batteries as claimed in claim 6, wherein, is provided with reduction gearing between the 4th gear and the 3rd gear.
8. the electrolyte conveying device of liquid state batteries as claimed in claim 1, wherein, this liquid cell is full vanadium solution battery.
CN201520008739.7U 2015-01-07 2015-01-07 The electrolyte conveying device of liquid state batteries Withdrawn - After Issue CN204497315U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520008739.7U CN204497315U (en) 2015-01-07 2015-01-07 The electrolyte conveying device of liquid state batteries

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520008739.7U CN204497315U (en) 2015-01-07 2015-01-07 The electrolyte conveying device of liquid state batteries

Publications (1)

Publication Number Publication Date
CN204497315U true CN204497315U (en) 2015-07-22

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Application Number Title Priority Date Filing Date
CN201520008739.7U Withdrawn - After Issue CN204497315U (en) 2015-01-07 2015-01-07 The electrolyte conveying device of liquid state batteries

Country Status (1)

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CN (1) CN204497315U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105826581A (en) * 2015-01-07 2016-08-03 徐夫子 Electrolyte delivery mechanism for liquid battery

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105826581A (en) * 2015-01-07 2016-08-03 徐夫子 Electrolyte delivery mechanism for liquid battery
CN105826581B (en) * 2015-01-07 2018-06-05 徐夫子 The electrolyte conveying device of liquid state batteries

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AV01 Patent right actively abandoned

Granted publication date: 20150722

Effective date of abandoning: 20180605

AV01 Patent right actively abandoned