CN213483787U - Portable hydrogen energy power supply for individual combat - Google Patents

Portable hydrogen energy power supply for individual combat Download PDF

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Publication number
CN213483787U
CN213483787U CN202021868951.8U CN202021868951U CN213483787U CN 213483787 U CN213483787 U CN 213483787U CN 202021868951 U CN202021868951 U CN 202021868951U CN 213483787 U CN213483787 U CN 213483787U
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reaction
power supply
cavity
water tank
action
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刘洪新
谢卫涛
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Guangdong Zhonghydrogen Technology Co.,Ltd.
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Shenzhen Zhonghydrogen Technology Co ltd
Henan China Hydrogen Power Research Institute 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 provides a portable hydrogen energy power supply is used in individual soldier's combat belongs to power technical field. The portable hydrogen energy power supply for individual combat comprises: inside hollow casing and the water tank of setting in the casing, reaction mechanism and power supply mechanism, reaction mechanism includes reaction cavity and the solid hydrogen manufacturing material of hydrolysising that sets up in reaction cavity, bottom and top at reaction cavity are provided with inlet and gas outlet respectively, the delivery port of water tank is through first liquid check valve and inlet intercommunication, reaction liquid and the solid hydrogen manufacturing material of hydrolysising reaction through the water tank in getting into reaction cavity react and produce hydrogen, the gas outlet is connected with power supply mechanism for the hydrogen that makes gets into power supply mechanism. The portable intelligent control system is simple in structure, easy to operate and good in portability.

Description

Portable hydrogen energy power supply for individual combat
Technical Field
The utility model relates to a power technical field particularly, relates to a portable hydrogen energy power is used in individual soldier's operation.
Background
At present, the electric energy meeting the individual combat is mainly provided by portable lithium ion batteries, the individual combat at each time needs to carry a large number of spare lithium ion batteries, the burden of the individual combat is greatly increased, and the lithium ion batteries have the problems of large volume, large weight, low energy density, limited endurance, weakened performance in a low-temperature environment and the like. The hydrogen is directly converted into electric energy by using the hydrogen-oxygen fuel cell, the hydrogen-oxygen fuel cell is quick to start, operates quietly and is free from pollution emission, the hydrogen with high energy density can be efficiently converted into electric energy, the energy utilization efficiency can reach 60-70%, the energy density is far higher than that of a lithium battery, and the long-time power supply requirement of a single-soldier combat task can be met.
In the prior art, power supply equipment based on a solid material hydrolysis hydrogen production technology mainly has the defects of complex structure, complex operation, poor portability and the like.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a portable hydrogen can power is used in individual soldier's operation to there is the technical problem that the structure is complicated, complex operation, portability are poor in solving hydrogen can power supply unit among the prior art.
The embodiment of the utility model is realized like this:
the embodiment of the utility model provides a portable hydrogen energy power is used in individual soldier's combat, include: inside hollow casing and the water tank of setting in the casing, reaction mechanism and power supply mechanism, reaction mechanism includes reaction cavity and the solid hydrogen manufacturing material of hydrolysising that sets up in reaction cavity, bottom and top at reaction cavity are provided with inlet and gas outlet respectively, the delivery port of water tank is through first liquid check valve and inlet intercommunication, reaction liquid and the solid hydrogen manufacturing material of hydrolysising reaction through the water tank in getting into reaction cavity react and produce hydrogen, the gas outlet is connected with power supply mechanism for the hydrogen that makes gets into power supply mechanism.
Optionally, the portable hydrogen energy power supply for individual combat further comprises an action mechanism arranged in the shell, the action mechanism comprises an action cavity, a piston arranged in the action cavity and a push rod connected with the piston, the push rod drives the piston to reciprocate in the action cavity, the bottom of the action cavity is communicated with the bottom of the water tank, a gas one-way valve is arranged at the top of the water tank, and the reaction liquid enters the reaction cavity through the first liquid one-way valve through the reciprocating motion of the piston in the action cavity.
Optionally, a water outlet of the water tank is communicated with the action cavity through a second liquid one-way valve, and an outlet of the action cavity is communicated with the liquid inlet through a first liquid one-way valve.
Optionally, a plurality of partition plates are arranged in the reaction cavity in parallel and at intervals to divide the interior of the reaction cavity into at least three reaction chambers, and a solid hydrolysis hydrogen production material is placed in each reaction chamber.
Optionally, the portable hydrogen energy power supply for individual combat further comprises a flow control valve arranged between the air outlet and the power supply mechanism.
Optionally, the power supply mechanism includes a fuel cell assembly, a current output interface connected to the fuel cell assembly, and a heat dissipation fan for dissipating heat from the fuel cell assembly, the fuel cell assembly is connected to the flow control valve, and the current output interface is configured to be connected to the electrical device.
Optionally, the water tank further comprises a sealing cover covering the top water inlet of the water tank.
Optionally, the reaction mechanism further comprises a cavity cover, and the cavity cover is detachably arranged at the top of the reaction cavity.
Optionally, the actuating mechanism further comprises a piston nut, the piston nut is arranged at the top of the actuating cavity and is in threaded connection with the actuating cavity, and the push rod is sleeved on the piston nut.
Optionally, a limiting part is further arranged inside the action cavity, and the limiting part is used for limiting the distance of the push rod extending into the action cavity.
The utility model discloses beneficial effect includes:
the embodiment of the utility model provides a pair of portable hydrogen can power is used in individual soldier's operation, this portable hydrogen can power include inside hollow casing and set up water tank, reaction mechanism and the power supply mechanism in the casing, are provided with reaction liquid in the water tank, are provided with solid hydrogen manufacturing material of hydrolysising among the reaction mechanism, and power supply mechanism is used for utilizing the hydrogen conversion electric energy that reaction mechanism produced. Specifically, the reaction mechanism comprises a reaction cavity and a solid hydrolysis hydrogen production material arranged in the reaction cavity, a liquid inlet and a gas outlet are respectively arranged at the bottom and the top of the reaction cavity, a water outlet of the water tank is communicated with the liquid inlet through a first liquid one-way valve, so that reaction liquid in the water tank enters the reaction cavity through the first liquid one-way valve, the reaction liquid entering the reaction cavity through the water tank reacts with the solid hydrolysis hydrogen production material to generate hydrogen, and the gas outlet is connected with the power supply mechanism and is used for enabling the prepared hydrogen to enter the power supply mechanism, so that the power supply equipment generates electric energy by utilizing the hydrogen. Because reaction liquid and solid hydrogen production material of hydrolysising are placed respectively, can make the reaction liquid in the water tank get into in the reaction cavity through first liquid check valve through the liquid level difference of reaction liquid in the reaction cavity and the size of the opening of control first liquid check valve through adjusting the reaction liquid level in the water tank, and produce hydrogen in the reaction cavity solid hydrogen production material of hydrolysising reaction, so this portable hydrogen energy power simple structure, easy operation, when the individual soldier acts as a war, only need carry sufficient solid hydrogen production material of hydrolysising, can use at any time, do not receive the restriction of external energy, and the solid hydrogen production material of hydrolysising can do sealed and small and exquisite, convenient taking, therefore, the portability of this portable hydrogen energy power has effectively been improved.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.
Fig. 1 is a schematic structural diagram of a portable hydrogen energy power supply for individual combat provided by an embodiment of the present invention;
FIG. 2 is an exploded view of the portable hydrogen energy power supply for individual combat provided by the embodiment of the present invention;
fig. 3 is the embodiment of the utility model provides a reaction liquid flow direction's in portable hydrogen can power supply for individual soldier's operation structural sketch map.
Icon: 10-portable hydrogen energy power supply for individual combat; 100-a housing; 110-a water tank; 101-a first liquid one-way valve; 102-a second liquid one-way valve; 111-a water outlet; 112-a sealing cover; 113-top water inlet; 114-gas check valve; 120-a reaction mechanism; 121-a reaction chamber; 122-a separator; 123-air outlet; 124-liquid inlet; 125-cavity cover; 130-a power supply mechanism; 131-a fuel cell assembly; 132-a heat dissipation fan; 133-current output interface; 140-an action mechanism; 141-an action cavity; 142-a limiting part; 143-a piston; 144-a push rod; 145-piston nut; 203-flow control valve.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.
Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
It should be noted that: the terms "central," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used in the description and are used in a generic and descriptive sense only and not for purposes of limitation, the term "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance. The terms "disposed," "mounted," "connected," and "connected" are to be construed broadly. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
At present, the electric energy meeting the individual combat is mainly provided by portable lithium ion batteries, the individual combat at each time needs to carry a large number of spare lithium ion batteries, the burden of the individual combat is greatly increased, and the lithium ion batteries have the problems of large volume, large weight, low energy density, limited endurance, weakened performance in a low-temperature environment and the like. The hydrogen is directly converted into electric energy by using the hydrogen-oxygen fuel cell, the hydrogen-oxygen fuel cell is quick to start, operates quietly and is free from pollution emission, the hydrogen with high energy density can be efficiently converted into electric energy, the energy utilization efficiency can reach 60-70%, the energy density is far higher than that of a lithium battery, and the long-time power supply requirement of a single-soldier combat task can be met. However, in the prior art, the power supply device based on the solid material hydrolysis hydrogen production technology mainly has the technical problems of complex structure, complicated operation, poor portability and the like, and the present application is proposed in order to solve the technical problems in the prior art, and the following embodiments of the present application are provided.
Fig. 1 is the utility model provides a portable hydrogen can power supply 10's structural schematic diagram is used in individual soldier's operation, fig. 2 is the utility model provides an individual soldier is portable hydrogen can power supply 10's for operation explosion chart, please combine to refer to fig. 1 and fig. 2, the embodiment of the utility model provides a portable hydrogen can power supply 10 is used in individual soldier's operation, include: the reactor comprises a shell 100, a water tank 110, a reaction mechanism 120 and a power supply mechanism 130, wherein the shell 100 is hollow inside, the water tank 110 is arranged in the shell 100, the reaction mechanism 120 comprises a reaction cavity and a solid hydrolysis hydrogen production material arranged in the reaction cavity, a liquid inlet 124 and a gas outlet 123 are respectively arranged at the bottom and the top of the reaction cavity, a water outlet 111 of the water tank 110 is communicated with the liquid inlet 124 through a first liquid one-way valve 101, reaction liquid entering the reaction cavity through the water tank 110 reacts with the solid hydrolysis hydrogen production material to produce hydrogen, and the gas outlet 123 is connected with the power supply mechanism 130 and used for enabling the produced hydrogen to enter the power.
The hollow case 100 protects the water tank 110, the reaction mechanism 120, and the power supply mechanism 130, and can integrate the water tank 110, the reaction mechanism 120, and the power supply mechanism 130 together, thereby facilitating carrying.
The first liquid check valve 101 is a check valve that allows the reaction liquid flowing out of the water tank 110 to flow into the reaction chamber, but does not allow the reaction liquid in the reaction chamber to flow back into the water tank 110.
The solid hydrolysis hydrogen production material is wrapped by materials such as non-woven fabrics and metals, so that the powder diffusion of the solid hydrolysis hydrogen production material is avoided.
Wherein the solid hydrolysis hydrogen production material can react with water to generate a catalyst of hydrogen and active metals or metal compounds, the active metals comprise Mg, Li, Al, Ca, Na, K and the like, and the metal compounds comprise LiH, NaH, KH and MgH2、AlH3、CaH2And the like. The content of metals such as Al, Mg, Na and the like on the earth is rich, the sources are wide, the price is low, the density is low, no harmful substances containing carbon and nitrogen are generated in the reaction process, the product is environment-friendly, the active metal reacts with the reaction liquid under the catalytic action of the catalyst to generate hydrogen, and the generated hydrogen has high yield and high purity.
The reaction solution and the solid hydrogen hydrolysis material are stored separately before the portable hydrogen energy power source 10 for individual combat is operated.
The reaction liquid in the water tank 110 may be purified water, river water, or seawater, etc., and the sidewall of the water tank 110 may be provided with a transparent observation window for facilitating observation of the liquid level of the reaction liquid in the water tank 110. Similarly, the side wall of the reaction cavity can also be made transparent, so that a user can observe the reaction condition of the reaction liquid and the solid hydrolysis hydrogen production material in the reaction cavity conveniently.
The embodiment of the utility model provides a pair of portable hydrogen can power 10 is used in individual soldier's operation, this portable hydrogen can power include inside hollow casing 100 and set up water tank 110, reaction mechanism 120 and the power supply mechanism 130 in casing 100, are provided with the reaction liquid in the water tank 110, are provided with solid hydrogen manufacturing material of hydrolysising in the reaction mechanism 120, and power supply mechanism 130 is used for utilizing the hydrogen conversion electric energy that reaction mechanism 120 produced. Specifically, the reaction mechanism 120 includes a reaction cavity and a solid hydrolysis hydrogen production material disposed in the reaction cavity, a liquid inlet 124 and a gas outlet 123 are respectively disposed at the bottom and the top of the reaction cavity, the water outlet 111 of the water tank 110 is communicated with the liquid inlet 124 through the first liquid check valve 101, so that the reaction liquid in the water tank 110 enters the reaction cavity through the first liquid check valve 101, the reaction liquid entering the reaction cavity through the water tank 110 reacts with the solid hydrolysis hydrogen production material to generate hydrogen, and the gas outlet 123 is connected with the power supply mechanism 130, so that the prepared hydrogen enters the power supply mechanism 130, so that the power supply device generates electric energy by using the hydrogen. Because the reaction liquid and the solid hydrolysis hydrogen production material are respectively placed, the reaction liquid in the water tank 110 can enter the reaction cavity through the first liquid check valve 101 by adjusting the liquid level difference of the reaction liquid in the reaction cavity of the reaction liquid in the water tank 110 and controlling the size of the opening of the first liquid check valve 101, and the solid hydrolysis hydrogen production material in the reaction cavity reacts to generate hydrogen, so the portable hydrogen energy power supply has a simple structure and is easy to operate, and when an individual soldier acts in a battle, the portable hydrogen energy power supply only needs to carry enough solid hydrolysis hydrogen production material and can be used at any time without the limitation of external energy, thereby avoiding the problem of short endurance of a lithium ion power supply in the prior art, and the solid hydrolysis hydrogen production material can be sealed and small, and is convenient to take, therefore, the portability of the portable hydrogen energy power supply is effectively improved.
Fig. 3 is a schematic structural diagram of the flow direction of the reaction liquid in the portable hydrogen energy power source 10 for individual soldier operation provided in the embodiment of the present invention, please refer to fig. 1 and fig. 3 in combination, in order to make the amount of the hydrogen gas generated by the reaction mechanism 120 in the portable hydrogen energy power source 10 for individual soldier operation controllable, optionally, the portable hydrogen energy power source 10 for individual soldier operation in the embodiment further includes an action mechanism 140 disposed in the housing 100, the action mechanism 140 includes an action cavity 141, a piston 143 disposed in the action cavity 141, and a push rod 144 connected with the piston 143 and capable of reciprocating in the action cavity 141, the bottom of the action cavity 141 is communicated with the bottom of the water tank 110, a gas check valve 114 is disposed at the top of the water tank 110, and the reaction liquid enters the reaction cavity through the first liquid check valve 101 by the reciprocating movement of the piston 143 in the action cavity 141.
The bottom of the action cavity 141 is communicated with the bottom of the water tank 110, it should be understood that the side wall of the action cavity 141 is provided with a first opening, the side wall of the water tank 110 is provided with a second opening, and the first opening is directly communicated with the second opening, when the push rod 144 pulls the piston 143 to move, because the top of the water tank 110 is provided with the gas one-way valve 114, the push rod 144 easily pulls the piston 143 to move away from the bottom of the action cavity 141, then the push rod 144 pushes the piston 143 to move towards the bottom of the action cavity 141, at this time, the pressure in the water tank 110 can be increased, and thus the reaction liquid in the water tank 110 is extruded into the reaction cavity. Alternatively, referring to fig. 3, the side wall of the operation cavity 141 has a first opening, the side wall of the water tank 110 has a second opening, the first opening and the second opening are connected by a water pipe, and the water pipe between the first opening and the second opening is provided with the second liquid check valve 102.
Optionally, the water outlet 111 of the water tank 110 is communicated with the actuating cavity 141 through the second liquid check valve 102, and the outlet of the actuating cavity 141 is communicated with the liquid inlet 124 through the first liquid check valve 101.
Illustratively, the action cavity 141 has a first opening on a sidewall thereof, the water tank 110 has a second opening on a sidewall thereof, the first opening and the second opening are connected by a water pipe, and a second liquid check valve 102 is provided on the water pipe between the first opening and the second opening, when the push rod 144 pulls the piston 143, since the top of the water tank 110 is provided with the gas check valve 114, so that the push rod 144 easily pulls the piston 143 away from the bottom of the actuating chamber 141, meanwhile, the reaction liquid in the water tank 110 can be pumped into the action cavity 141 through the second liquid one-way valve 102, the push rod 144 then pushes the piston 143 to move closer to the bottom of the actuating chamber 141, which increases the pressure in the actuating chamber 141, therefore, the reaction liquid in the action cavity 141 is extruded into the reaction cavity through the first liquid one-way valve 101, and thus the control of the amount of hydrogen gas produced in the reaction cavity can be realized.
In order to improve the controllability of the amount of hydrogen generated in the reaction cavity, optionally, in this embodiment, a plurality of partition plates 122 are disposed in parallel and at intervals in the reaction cavity to divide the interior of the reaction cavity into at least three reaction chambers 121, and a solid hydrolysis hydrogen production material is disposed in each reaction chamber 121. The plurality of separators 122 means two or more separators 122.
Referring to fig. 1, the reaction cavity is divided into a plurality of reaction chambers 121 by a plurality of partition plates 122 along the height direction thereof, and each reaction chamber 121 is filled with a solid hydrogen production material by hydrolysis, for example, the push rod 144 in the actuating mechanism 140 pushes the piston 143 once so that the volume of the reaction liquid entering the reaction cavity is exactly the volume of one reaction chamber 121, that is, the reaction liquid can enter one reaction chamber 121 by pushing the piston 143 once, and the reaction condition between the reaction liquid and the solid hydrogen production material by hydrolysis in different reaction chambers 121 is controlled by controlling the pushing times of the piston 143 in the actuating mechanism 140.
Optionally, the portable hydrogen energy power supply 10 for individual combat further comprises a flow control valve 203 disposed between the air outlet 123 and the power supply mechanism 130.
The flow control valve 203 can control the rate at which hydrogen gas enters the power supply mechanism 130, thereby enabling the hydrogen gas to be utilized sufficiently while the life of the power supply mechanism 130 can be improved.
Alternatively, the power supply mechanism 130 includes a fuel cell assembly 131, a current output interface 133 connected to the fuel cell assembly 131, and a heat dissipation fan 132 dissipating heat from the fuel cell assembly 131, wherein the fuel cell assembly 131 is connected to the flow control valve 203, and the current output interface 133 is used for connecting to the electric equipment.
The fuel cell assembly 131 can generate electrical energy using hydrogen, and as long as hydrogen can be continuously provided to the fuel cell assembly 131, the fuel cell assembly 131 can generate continuous electrical energy to meet the electrical energy demand of an individual soldier during the combat process. In order to increase the life of the fuel cell assembly 131, a plurality of heat dissipation fans 132 are installed in the power supply mechanism 130, and the fuel cell assembly 131 generates a part of heat during the process of generating electric energy, thereby affecting the life of the fuel cell assembly 131. The electric power generated by the fuel cell assembly 131 is output to the electric devices through the current output interface 133.
In order to further improve the portability of the portable hydrogen energy power source 10 for individual combat, in this embodiment, the water tank 110 further comprises a sealing cover 112, and the sealing cover 112 covers the top water inlet 113 of the water tank 110. The sealing cap 112 and the top water inlet 113 may be connected in various ways, such as a threaded connection.
The water tank 110 is provided with the sealing cover 112, so that the water tank 110 containing the reaction liquid can be sealed to prevent the reaction liquid from being scattered during carrying, and the sensitivity of the operating mechanism 140 can be improved by sealing the water tank 110.
Optionally, the reaction mechanism 120 further comprises a chamber cover 125, and the chamber cover 125 is detachably disposed on the top of the reaction chamber.
In order to ensure the sealing performance of the reaction chamber and the portability of the portable hydrogen energy power supply 10 for individual combat, a chamber cover 125 is detachably provided on the top of the reaction chamber.
In order to further improve the sensitivity of the actuating mechanism 140, optionally, in this embodiment, the actuating mechanism 140 further includes a piston nut 145, the piston nut 145 is disposed at the top of the actuating cavity 141 and is in threaded connection with the actuating cavity 141, and the push rod 144 is sleeved on the piston nut 145.
The push rod 144 is sleeved on the piston nut 145, and the piston nut 145 is in threaded connection with the action cavity 141, so that the tightness of the piston nut 145 to the action cavity 141 is improved, the airtightness of the process that the push rod 144 drives the piston 143 to reciprocate is effectively improved, and the sensitivity of the action mechanism 140 is further improved.
Optionally, a limiting portion 142 is further disposed inside the action cavity 141, and the limiting portion 142 is used for limiting the distance that the push rod 144 extends into the action cavity 141.
The limiting portion 142 is disposed inside the operation cavity 141, when the push rod 144 pushes the piston 143 to extrude the reaction liquid, the limiting portion 142 can limit the movement distance of the piston 143, that is, the limiting portion 142 can limit the distance that the push rod 144 extends into the operation cavity 141, and by disposing the limiting portion 142, the volume of the reaction liquid extruded from the operation mechanism 140 to the reaction mechanism 120 can be further controlled, thereby further improving the controllability of the hydrogen yield in the reaction mechanism 120.
The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an individual soldier is portable hydrogen energy power for battle, its characterized in that includes: inside hollow casing and setting are in water tank, reaction mechanism and power supply mechanism in the casing, reaction mechanism including the reaction cavity and the solid hydrogen manufacturing material of hydrolysising that sets up in the reaction cavity the bottom and the top of reaction cavity are provided with inlet and gas outlet respectively, the delivery port of water tank through first liquid check valve with the inlet intercommunication, through the water tank gets into reaction liquid in the reaction cavity with the solid hydrogen manufacturing material of hydrolysising reacts and produces hydrogen, the gas outlet with power supply mechanism connects for the messenger makes hydrogen gets into power supply mechanism.
2. The portable hydrogen energy power supply for individual combat of claim 1, further comprising an action mechanism arranged in the housing, wherein the action mechanism comprises an action cavity, a piston arranged in the action cavity and a push rod connected with the piston, the push rod drives the piston to reciprocate in the action cavity, the bottom of the action cavity is communicated with the bottom of the water tank, a gas one-way valve is arranged at the top of the water tank, and the reaction liquid enters the reaction cavity through the first liquid one-way valve by the reciprocating motion of the piston in the action cavity.
3. The portable hydrogen energy power supply for individual combat as claimed in claim 2, wherein the water outlet of the water tank is communicated with the action cavity through a second liquid one-way valve, and the outlet of the action cavity is communicated with the liquid inlet through the first liquid one-way valve.
4. The portable hydrogen energy power supply for individual combat as claimed in claim 3, wherein a plurality of baffles are arranged in parallel and at intervals in the reaction cavity to divide the interior of the reaction cavity into at least three reaction chambers, and the solid hydrolysis hydrogen production material is placed in each reaction chamber.
5. The portable hydrogen energy power supply for individual combat of claim 1 further comprising a flow control valve disposed between said gas outlet and said power supply mechanism.
6. The portable hydrogen energy power supply for individual combat as claimed in claim 5, wherein said power supply mechanism comprises a fuel cell assembly, a current output interface connected to said fuel cell assembly, and a heat dissipation fan for dissipating heat from said fuel cell assembly, said fuel cell assembly being connected to said flow control valve, said current output interface being adapted to connect to a power consuming device.
7. The portable hydrogen energy power supply for individual combat as claimed in claim 2, wherein said water tank further comprises a sealing cover covering a top water inlet of said water tank.
8. The portable hydrogen energy power supply for individual combat of claim 1, wherein the reaction mechanism further comprises a cavity cover, and the cavity cover is detachably arranged on the top of the reaction cavity.
9. The portable hydrogen energy power supply for individual combat of claim 2, wherein the action mechanism further comprises a piston nut, the piston nut is arranged at the top of the action cavity and is in threaded connection with the action cavity, and the push rod is sleeved on the piston nut.
10. The portable hydrogen energy power supply for individual combat of claim 9, wherein a limiting portion is further arranged inside the action cavity, and the limiting portion is used for limiting the distance of the push rod extending into the action cavity.
CN202021868951.8U 2020-08-31 2020-08-31 Portable hydrogen energy power supply for individual combat Active CN213483787U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115650158A (en) * 2022-12-22 2023-01-31 浙江高成绿能科技有限公司 Portable chemical hydrogen production equipment

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115650158A (en) * 2022-12-22 2023-01-31 浙江高成绿能科技有限公司 Portable chemical hydrogen production equipment

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Effective date of registration: 20230727

Address after: Room 403, Floor 4, Block E, Foshan National Torch Innovation and Entrepreneurship Park, No. 13, Huabao South Road, Zhangcha Street, Chancheng District, Foshan, Guangdong 528000 (residence declaration)

Patentee after: Guangdong Zhonghydrogen Technology Co.,Ltd.

Address before: Building 8, Xinxiang science and Technology Park, 1018 Xinfei Avenue, Xinxiang City, Henan Province

Patentee before: Henan China Hydrogen Power Research Institute Co.,Ltd.

Patentee before: Shenzhen Zhonghydrogen Technology Co.,Ltd.