CN209658309U - A kind of synthesis metal fuel power generator - Google Patents
A kind of synthesis metal fuel power generator Download PDFInfo
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- CN209658309U CN209658309U CN201920561509.1U CN201920561509U CN209658309U CN 209658309 U CN209658309 U CN 209658309U CN 201920561509 U CN201920561509 U CN 201920561509U CN 209658309 U CN209658309 U CN 209658309U
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- connecting tube
- negative electrode
- electrode tab
- electrolyte
- power generator
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/30—Hydrogen technology
- Y02E60/50—Fuel cells
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Abstract
The utility model discloses a kind of synthesis metal fuel power generator, and in particular to battery field, including battery case are fixed with partition inside the battery case, and the partition side is equipped with extracorporal circulatory system mechanism;The extracorporal circulatory system mechanism includes electrolyte cooler, the electrolyte cooler side is equipped with the first connecting tube and the other side is equipped with the second connecting tube, the second connection tube end is equipped with electrolyte storage tank, electrolyte storage tank bottom is equipped with third connecting tube, third connecting tube bottom end is equipped with centrifugation device, is equipped with porous centrifugation liner inside the centrifugation device.The utility model carries out centrifugation to the electrolyte after use in power generation process using extracorporal circulatory system mechanism, and then negative product and exhaust gas in separating in electrolyte, and it discharges it, to avoid negative product and exhaust gas from being deposited in inside battery case, compared to the prior art, generating efficiency is higher, and using effect is more preferable.
Description
Technical field
The utility model relates to battery technology fields, and more specifically, the utility model relates to a kind of combustions of synthesis metal
Expect power generator.
Background technique
Battery is the device that chemical energy is converted to electric energy, utilizes the battery as energy source, available to have stabilization
Voltage, stabling current, long-time stable power supply are influenced the electric current of very little by the external world, and battery structure is simple, easy to carry,
Charge and discharge are easy to operation, do not influenced by outside climatic and temperature, stable and reliable for performance, each in modern society's life
A aspect performance has great role.
The utility model patent of 108963390 A of patent application publication CN discloses a kind of metal fuel battery device,
It include: battery case, mounting plate, metal electrode, air electrode and circuit board.Mounting plate is located in battery case, mounting plate with
Limit reaction warehouse and installation cavity spaced apart from each other between battery case, be suitable for filling electrolyte in reaction warehouse, metal electrode with
Battery case is connected and is located in reaction warehouse, and air electrode sets on a mounting board and is located in reaction warehouse, air electrode and metal
Electrode gap is opened, and circuit board sets on a mounting board and is located in installation cavity, and metal electrode passes through the first conduct piece and circuit board phase
Even, air electrode is connected by the second conduct piece with circuit board.According to the metal fuel battery device of the utility model, structure letter
It is single, it is at low cost.
But it is in actual use, still there are some disadvantages, such as lacks necessary power generator extracorporal circulatory system mechanism,
Therefore its negative product generated in power generation process can be deposited in inside battery, and then lead to its decrease of power generation, influence it
Using effect.
Utility model content
In order to overcome the drawbacks described above of the prior art, the embodiments of the present invention provide a kind of synthesis metal fuel power generation
Device, by be equipped with extracorporal circulatory system mechanism, in order to using extracorporal circulatory system mechanism to the electrolyte after use in power generation process into
Row centrifugation, and then negative product and exhaust gas in separation in electrolyte, and discharge it, to avoid negative product and exhaust gas
It is deposited in inside battery case, compared to the prior art, generating efficiency is higher, and using effect is more preferable, to solve above-mentioned background skill
The problem of being proposed in art.
To achieve the above object, the utility model provides the following technical solutions: a kind of synthesis metal fuel power generator, packet
Battery case is included, partition is fixed with inside the battery case, the partition side is equipped with extracorporal circulatory system mechanism;
The extracorporal circulatory system mechanism includes electrolyte cooler, the electrolyte cooler side be equipped with the first connecting tube with
And the other side is equipped with the second connecting tube, the second connection tube end is equipped with electrolyte storage tank, and electrolyte storage tank bottom is set
There is third connecting tube, third connecting tube bottom end is equipped with centrifugation device, is equipped with porous centrifugation inside the centrifugation device
Liner, the porous centrifugation inner container side surface are equipped with the 4th connecting tube, and the 4th connection tube end is equipped with circulating pump, the circulation
Pump side face is equipped with the 5th connecting tube, and the 5th connecting tube, which runs through, to be set on partition.
In a preferred embodiment, air inlet duct, the electrolyte storage are equipped at the top of first connecting tube
Box top is equipped with the first waste gas outlet.
In a preferred embodiment, it is arranged on the cell casing side wall through equipped with the second waste gas outlet and waste material
Outlet, the waste gate are set to the second waste gas outlet bottom.
In a preferred embodiment, be fixed with side plate on the cell casing side wall, the side plate be set to every
The plate other side is equipped with electrode slice group between the side plate, and the electrode slice group includes multiple positive plate mechanisms and multiple negative electrode tabs
Mechanism, multiple positive plate mechanisms and multiple negative electrode tab mechanisms are staggered.
In a preferred embodiment, the negative electrode tab mechanism includes negative electrode tab ontology, in the negative electrode tab ontology
Portion's nesting is equipped with aluminium alloy particle, and the negative electrode tab ontology is made of kirsite.
In a preferred embodiment, the negative electrode tab mechanism further includes the first current collection layer, first current collection layer
It is fixed with negative electrode tab bodies top, is fixed with the first polar column at the top of first current collection layer.
In a preferred embodiment, the positive plate mechanism includes positive plate ontology, the positive plate ontology by
Nonmetallic composite is made, and the positive plate bodies top is fixed with the second current collection layer, and the second current collection layer top is solid
Surely it is equipped with the second polar column.
In a preferred embodiment, electrolyte is filled with inside the battery case.
In a preferred embodiment, the battery housing base is fixed with bottom plate and top is fixed with electricity
Chi Gai, the battery cover top are fixed with positive terminal and anode connector, and the anode connector is set to positive terminal side, institute
It states and is fixed with multiple radiating fins on the outside of battery case.
The technical effect and advantage of the utility model:
1, the utility model is by being equipped with extracorporal circulatory system mechanism, in order to using extracorporal circulatory system mechanism to making in power generation process
Electrolyte after carries out centrifugation, and then negative product and exhaust gas in separation in electrolyte, and discharges it, to keep away
Exempt from negative product and exhaust gas is deposited in inside battery case, compared to the prior art, generating efficiency is higher, and using effect is more preferable;
2, since aluminium alloy particle nesting is set to negative electrode tab body interior, in reaction, negative electrode tab ontology can be first
It is reacted, after negative electrode tab body surface is by total overall reaction, negative electrode tab body interior aluminium alloy particle exposes, at this time negative electrode tab
Ontology is participated in electrochemical reaction with aluminium alloy particle simultaneously and is produced electricl energy, and when the power is stopped, the cathode to dissociate in electrolyte
The molecule of piece ontology is adsorbed on the surface of negative electrode tab ontology again, so that negative electrode tab ontology reverts to original state, cathode at this time
Piece ontology once again wraps up aluminium alloy particle, since negative electrode tab ontology is wrapped on the outside of aluminium alloy particle, so in not work
When making, aluminium alloy particle can not be generated with electrolyte and be contacted, therefore aluminium alloy particle will not be there is a situation where from power consumption, and then makes
The weight-to-volume ratio that can also increase power generator while electricity generation can be accomplished by obtaining the utility model;
3, by being equipped with multiple radiating fins, in order to the heat on battery cover be inhaled using radiating fin
It receives, then carries out quick release, and then reduce the bulk temperature of the utility model, avoid influencing the utility model because of temperature reason
The service life of internal element.
Detailed description of the invention
Fig. 1 is the whole interior structural schematic diagram of the utility model.
Fig. 2 is the extracorporal circulatory system mechanism structural schematic diagram of the utility model.
Fig. 3 is the negative electrode tab mechanism structure schematic diagram of the utility model.
Fig. 4 is the positive plate mechanism structure schematic diagram of the utility model
Fig. 5 is the integral outer structural schematic diagram of the utility model.
Fig. 6 is the radiating fin schematic perspective view of the utility model.
Appended drawing reference are as follows: 1 battery case, 2 electrode slice groups, 3 negative electrode tab mechanisms, 4 positive plate mechanisms, 5 negative electrode tab ontologies, 6
Aluminium alloy particle, 7 first current collection layers, 8 first polar columns, 9 positive plate ontologies, 10 second current collection layers, 11 second polar columns, 12
Side plate, 13 electrolyte, 14 partitions, 15 extracorporal circulatory system mechanisms, 16 electrolyte coolers, 17 first connecting tubes, 18 air inlet ducts,
19 second connecting tubes, 20 electrolyte storage tanks, 21 third connecting tubes, 22 centrifugation devices, 23 porous centrifugation liners, 24 the 4th connect
Adapter tube, 25 circulating pumps, 26 the 5th connecting tubes, 27 first waste gas outlets, 28 second waste gas outlets, 29 waste gates, 30 bottoms
Plate, 31 battery covers, 32 positive terminals, 33 anode connectors, 34 radiating fins.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Such as attached drawing 1 and a kind of attached synthesis metal fuel power generator shown in Fig. 2, including battery case 1, the battery case
Partition 14 is fixed with inside body 1,14 side of partition is equipped with extracorporal circulatory system mechanism 15;
The extracorporal circulatory system mechanism 15 includes electrolyte cooler 16, and 16 side of electrolyte cooler is equipped with first and connects
Adapter tube 17 and the other side are equipped with the second connecting tube 19, and 19 end of the second connecting tube is equipped with electrolyte storage tank 20, the electricity
It solves 20 bottom of liquid storage tank and is equipped with third connecting tube 21,21 bottom end of third connecting tube is equipped with centrifugation device 22, the centrifugation
Porous centrifugation liner 23 is equipped with inside settling vessel 22, porous 23 side of centrifugation liner is equipped with the 4th connecting tube 24, and described the
Four connecting tubes, 24 end is equipped with circulating pump 25, and 25 side of circulating pump is equipped with the 5th connecting tube 26, the 5th connecting tube 26
Through on partition 14;
It is equipped with air inlet duct 18 at the top of first connecting tube 17, is equipped with the first exhaust gas at the top of the electrolyte storage tank 20
Outlet 27;
Through the second waste gas outlet 28 and waste gate 29 is equipped on 1 side wall of battery case, the waste material is discharged
Mouth 29 is set to 28 bottom of the second waste gas outlet;
Electrolyte 13 is filled with inside the battery case 1.
Specific embodiment are as follows: circulating pump 25 is sucked electrolyte 13 by the 5th connecting tube 26, while being connected by the 4th
Adapter tube 24 is entered into the porous centrifugation liner 23 inside centrifugation device 22, and centrifugation device 22 is in electrolyte 13
Negative product carries out precipitation and separation, and the exhaust gas of generation is then entered in electrolyte storage tank 20 by third connecting tube 21, then by electrolyte
After the first waste gas outlet 27 discharge on storage tank 20, enter atmosphere by the second waste gas outlet 28, the electrolyte 13 after separation is same
Step enters electrolyte storage tank 20 by third connecting tube 21, then enters body by the second current collection layer 10 of 20 side of electrolyte storage tank
It is cooled in outer circulation mechanism 15, original position, while extraneous fresh air is then fed back to by the first connecting tube 17 again
It is entered in the first connecting tube 17, is entered jointly with the electrolyte 13 after separation, the by-product isolated by air inlet duct 18
It is then discharged by centrifugation device 22, is finally flowed out by the waste gate 29 of 1 side of battery case, the utility model is by setting
There is extracorporal circulatory system mechanism 15, in order to be centrifuged using extracorporal circulatory system mechanism 15 to the electrolyte 13 after use in power generation process
Precipitating, and then negative product and exhaust gas in separation in electrolyte 13, and discharge it, so that negative product and exhaust gas be avoided to accumulate
Inside battery case 1, compared to the prior art, generating efficiency is higher, and using effect is more preferable.
It further include side plate 12 such as attached drawing 1, attached drawing 3 and a kind of attached synthesis metal fuel power generator shown in Fig. 4, it is described
Side plate 12 is fixed on 1 side wall of battery case, and the side plate 12 is set to 14 other side of partition, is equipped with electricity between the side plate 12
Pole piece group 2, the electrode slice group 2 include multiple positive plate mechanisms 4 and multiple negative electrode tab mechanisms 3, multiple positive plate mechanisms 4
It is staggered with multiple negative electrode tab mechanisms 3;
The negative electrode tab mechanism 3 includes negative electrode tab ontology 5, and 5 nested inside of negative electrode tab ontology is equipped with aluminium alloy particle
6, the negative electrode tab ontology 5 is made of kirsite;
The negative electrode tab mechanism 3 further includes the first current collection layer 7, and first current collection layer 7 is fixed with the top of negative electrode tab ontology 5
Portion is fixed with the first polar column 8 at the top of first current collection layer 7;
The positive plate mechanism 4 includes positive plate ontology 9, and the positive plate ontology 9 is made of nonmetallic composite, institute
It states and is fixed with the second current collection layer 10 at the top of positive plate ontology 9, be fixed with the second polar column at the top of second current collection layer 10
11。
Specific embodiment are as follows: extraneous oxygen enters the first connecting tube 17 by air inlet duct 18, then by the first connecting tube
17 enter inside battery case 1, and negative electrode tab mechanism 3 absorbs the oxygen in air, warp under the catalytic action of positive plate mechanism 4
It crosses physical and chemical reaction to produce electricl energy, after the negative electrode tab ontology 5 in negative electrode tab mechanism 3 runs out of with aluminium alloy particle 6, as long as in time
It is replaced, lasting power generation can be realized;
The specific course of work is as follows: the negative electrode tab ontology 5 in negative electrode tab mechanism 3 being indicated with M, in the effect of oxygen
Under, oxyhydroxide is generated with the conducting medium in electrolyte 13Ejected electron simultaneously, the electronics of releasing is by collection
Electric layer collects, and is drawn and is generated electricity by conducting wire, and supply uses.
In conclusion whole work process is:
In the above-mentioned course of work, it is set to inside negative electrode tab ontology 5, is reacting since aluminium alloy particle 6 is nested
When, negative electrode tab ontology 5 can be reacted first, after 5 surface of negative electrode tab ontology is by total overall reaction, 5 inside aluminium of negative electrode tab ontology
Alloy particle 6 exposes, and negative electrode tab ontology 5 is participated in electrochemical reaction with aluminium alloy particle 6 simultaneously and produced electricl energy at this time, and when stopping
When power supply, the molecule of the negative electrode tab ontology 5 to dissociate in electrolyte 13 is adsorbed on the surface of negative electrode tab ontology 5 again, so that
Negative electrode tab ontology 5 reverts to original state, and negative electrode tab ontology 5 once again wraps up aluminium alloy particle 6 at this time, due to negative electrode tab sheet
Body 5 is wrapped in 6 outside of aluminium alloy particle, so aluminium alloy particle 6 can not be generated with electrolyte 13 and be contacted when not working, because
This aluminium alloy particle 6 will not be there is a situation where from power consumption, so that while the utility model can accomplish electricity generation
The weight-to-volume ratio of power generator can also be increased.
It further include radiating fin 34 such as attached drawing 4 and a kind of attached synthesis metal fuel power generator shown in fig. 5, it is described to dissipate
Hot fin 34 is fixed at 1 outside of battery case, and the radiating fin 34 is equipped with multiple.
Specific embodiment are as follows: by being equipped with multiple radiating fins 34, in order to when utility model works, radiating fin
Piece 34 can absorb the heat on battery cover 31, then carry out quick release, and then reduce the entirety of the utility model
Temperature avoids influencing the service life of the utility model internal element because of temperature reason.
Utility model works principle:
Referring to Figure of description 1 and attached drawing 2, the utility model is by being equipped with extracorporal circulatory system mechanism 15, in order to utilize body
Outer circulation mechanism 15 carries out centrifugation to the electrolyte 13 after use in power generation process, and then negative in electrolyte 13 in separation
Product and exhaust gas, and discharge it, to avoid negative product and exhaust gas from being deposited in inside battery case 1, compared to existing skill
Art, generating efficiency is higher, and using effect is more preferable;
Referring to Figure of description 1, attached drawing 3 and attached drawing 4, it is set to inside negative electrode tab ontology 5 since aluminium alloy particle 6 is nested,
Therefore in reaction, negative electrode tab ontology 5 can be reacted first, after 5 surface of negative electrode tab ontology is by total overall reaction, negative electrode tab
5 inside aluminium alloy particle 6 of ontology exposes, and negative electrode tab ontology 5 and aluminium alloy particle 6 participate in electrochemical reaction generation simultaneously at this time
Electric energy, and when the power is stopped, the molecule of the negative electrode tab ontology 5 to dissociate in electrolyte 13 is adsorbed on negative electrode tab ontology 5 again
Surface, so that negative electrode tab ontology 5 reverts to original state, negative electrode tab ontology 5 once again wraps up aluminium alloy particle 6 at this time,
Since negative electrode tab ontology 5 is wrapped in 6 outside of aluminium alloy particle, so aluminium alloy particle 6 can not be with electrolyte when not working
13 generate contact, therefore aluminium alloy particle 6 will not be there is a situation where from power consumption, so that the utility model can accomplish big function
Rate can also increase the weight-to-volume ratio of power generator while power generation;
Referring to Figure of description 4 and attached drawing 5, by being equipped with multiple radiating fins 34, in order to utilize radiating fin 34 can
To absorb the heat on battery cover 31, quick release is then carried out, and then reduce the bulk temperature of the utility model, kept away
Exempt to influence the service life of the utility model internal element because of temperature reason.
The several points that should finally illustrate are: firstly, in the description of the present application, it should be noted that unless otherwise prescribed and
It limits, term " installation ", " connected ", " connection " shall be understood in a broad sense, can be mechanical connection or electrical connection, be also possible to two
Connection inside element, can be directly connected, and "upper", "lower", "left", "right" etc. are only used for indicating relative positional relationship, when
The absolute position for being described object changes, then relative positional relationship may change;
Secondly: the utility model discloses in embodiment attached drawing, relates only to the structure being related to the embodiment of the present disclosure,
His structure, which can refer to, to be commonly designed, and under not conflict situations, the utility model the same embodiment and different embodiments can be mutual
Combination;
Last: the above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, all
Within the spirit and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in practical
Within novel protection scope.
Claims (9)
1. a kind of synthesis metal fuel power generator, including battery case (1), it is characterised in that: the battery case (1) is internal
It is fixed with partition (14), partition (14) side is equipped with extracorporal circulatory system mechanism (15);
The extracorporal circulatory system mechanism (15) includes electrolyte cooler (16), and electrolyte cooler (16) side is equipped with first
Connecting tube (17) and the other side are equipped with the second connecting tube (19), and the second connecting tube (19) end is equipped with electrolyte storage tank
(20), electrolyte storage tank (20) bottom is equipped with third connecting tube (21), and third connecting tube (21) bottom end is equipped with centrifugation
Settling vessel (22), the centrifugation device (22) is internal to be equipped with porous centrifugation liner (23), porous centrifugation liner (23) side
Face is equipped with the 4th connecting tube (24), and the 4th connecting tube (24) end is equipped with circulating pump (25), circulating pump (25) side
Equipped with the 5th connecting tube (26), the 5th connecting tube (26), which is run through, to be set on partition (14).
2. a kind of synthesis metal fuel power generator according to claim 1, it is characterised in that: first connecting tube
(17) top is equipped with air inlet duct (18), is equipped with the first waste gas outlet (27) at the top of the electrolyte storage tank (20).
3. a kind of synthesis metal fuel power generator according to claim 1, it is characterised in that: the battery case (1)
Through being equipped with the second waste gas outlet (28) and waste gate (29) on side wall, the waste gate (29) is set to the second exhaust gas
Export (28) bottom.
4. a kind of synthesis metal fuel power generator according to claim 1, it is characterised in that: the battery case (1)
It is fixed on side wall side plate (12), the side plate (12) is set to partition (14) other side, is equipped with electricity between the side plate (12)
Pole piece group (2), the electrode slice group (2) include multiple positive plate mechanisms (4) and multiple negative electrode tab mechanisms (3), it is multiple it is described just
Pole piece mechanism (4) is staggered with multiple negative electrode tab mechanisms (3).
5. a kind of synthesis metal fuel power generator according to claim 4, it is characterised in that: the negative electrode tab mechanism
It (3) include negative electrode tab ontology (5), negative electrode tab ontology (5) nested inside is equipped with aluminium alloy particle (6), the negative electrode tab sheet
Body (5) is made of kirsite.
6. a kind of synthesis metal fuel power generator according to claim 4, it is characterised in that: the negative electrode tab mechanism
It (3) further include the first current collection layer (7), first current collection layer (7) is fixed at the top of negative electrode tab ontology (5), first collection
The first polar column (8) are fixed at the top of electric layer (7).
7. a kind of synthesis metal fuel power generator according to claim 4, it is characterised in that: the positive plate mechanism
It (4) include positive plate ontology (9), the positive plate ontology (9) is made of nonmetallic composite, the positive plate ontology (9)
Top is fixed with the second current collection layer (10), is fixed with the second polar column (11) at the top of second current collection layer (10).
8. a kind of synthesis metal fuel power generator according to claim 1, it is characterised in that: the battery case (1)
Inside is filled with electrolyte (13).
9. a kind of synthesis metal fuel power generator according to claim 1, it is characterised in that: the battery case (1)
Bottom is fixed with bottom plate (30) and top is fixed with battery cover (31), is fixed with anode at the top of the battery cover (31)
Connector (32) and anode connector (33), the anode connector (33) are set to positive terminal (32) side, and the battery case (1) is outside
Side is fixed with multiple radiating fins (34).
Priority Applications (1)
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CN201920561509.1U CN209658309U (en) | 2019-04-23 | 2019-04-23 | A kind of synthesis metal fuel power generator |
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CN201920561509.1U CN209658309U (en) | 2019-04-23 | 2019-04-23 | A kind of synthesis metal fuel power generator |
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CN209658309U true CN209658309U (en) | 2019-11-19 |
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ID=68529570
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CN201920561509.1U Expired - Fee Related CN209658309U (en) | 2019-04-23 | 2019-04-23 | A kind of synthesis metal fuel power generator |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110061262A (en) * | 2019-04-23 | 2019-07-26 | 周建中 | A kind of synthesis metal fuel power generator |
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2019
- 2019-04-23 CN CN201920561509.1U patent/CN209658309U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110061262A (en) * | 2019-04-23 | 2019-07-26 | 周建中 | A kind of synthesis metal fuel power generator |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20191119 Termination date: 20200423 |