CN208489294U - Fuel-cell device - Google Patents
Fuel-cell device Download PDFInfo
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- CN208489294U CN208489294U CN201820613762.2U CN201820613762U CN208489294U CN 208489294 U CN208489294 U CN 208489294U CN 201820613762 U CN201820613762 U CN 201820613762U CN 208489294 U CN208489294 U CN 208489294U
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- assembling parts
- fuel
- power management
- management module
- cell device
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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 provides a kind of fuel-cell device comprising a fuel cell pack;One power management module;With an assembling mechanism;Wherein the package assembly is arranged at the fuel cell pack and the power management module, fixes the fuel cell and the power management mould electrically, conveniently and efficiently to assemble the fuel cell pack and power management module.
Description
Technical field
The utility model relates to fuel cell fields, further, are related to a fuel-cell device and power management module
Assembling mechanism.
Background technique
Fuel cell is a kind of device that will be present in fuel and be converted to electric energy with the chemical energy in oxidant, is in recent years
The new energy method of supplying to grow up is gradually applied to numerous fields, such as unmanned plane, automobile, mobile power source etc.,
Since it has many advantages, such as generating efficiency height, a kind of small energy supply mode for being considered alternative traditional energy of environmental pollution.
Usual fuel cell includes battery pile and power management module, and the electric energy that power management module generates battery pile passes
It send to load, that is to say, that power management module is the important portion that the electric energy that fuel-cell device is generated is applied
Part, therefore cooperation, the assembling between battery pile and power management are also extremely important content, but existing fuel cell pack
There are problems between assembling, cooperation between power management module.
Referring to Fig.1, in existing fuel cell, power management module 1P is directly usually stacked in the outer of battery pile 2P
It is fixed on shell by screw 3P, then power management module 1P is electrically connected to by battery pile 2P by interminable conducting wire 4P.Specifically,
For example power management module 1P is fixed on battery pile air outlet 21P adjacent wall, and is stretched out using the position air outlet 21P
One conducting end, it is further around the air outlet of battery pile 2P that power management module 1P and battery pile 2P is electric by long conducting wire 4P
Connection.This fixation procedure and the termination process that is electrically connected are usually to be completed by the element of some fixations such as screw, stud, either
Installation or disassembly process, it is all relatively cumbersome, it needs to complete by special tool.Not only overall structure compares this mode
In a jumble, so that overall volume is larger, and interminable conductive strips carry out biggish line loss.
Further, during power management module works, power management module itself carries out power conversion, can generate
Heat, especially when converting some big voltages, high current, this heating problem is more serious.Fuel cell can steady operation,
It is to be realized by power management module, but the heat that power management module generates at work is not dissipated in time
When, the heat of accumulation can have an impact power management module itself device performance, service life and job stability, and existing
Installation fixed form is directly stacked, good radiating mode can not be provided, heat is easy in battery pile and power management module
Between gather.
By taking fuel cell is in the application in unmanned plane field as an example, in recent years, with the fast development of unmanned plane and its business
The range of application constantly extends, and the requirement to unmanned plane is also higher and higher, for example requires load increasing, and endurance is increasingly
Long, hydrogen fuel cell then becomes the preferable power source that can meet its demand, for example hydrogen fuel cell can fly for unmanned plane
Row four and a half hours, but hydrogen fuel cell exports very high voltage and current, such as instantaneous output current in the process of work
Up to 50A or more, voltage are up to 50V or more, it follows that power management module will be generated when carrying out power conversion
Great heat.
Further, in some solutions, separately installed radiator, this mode for solving heat dissipation, one side are proposed
On the other hand the higher cost needed will increase the overall weight and volume of fuel cell, and provide the dress of power as one
It sets, the increase of weight, also implies that the energy of its consumption is also more, it is clear that the solution of this heat dissipation is not one good
Good feasible program.
Utility model content
One of the utility model is designed to provide a fuel-cell device and power management module assembling mechanism, can
Quickly to mount and dismount the power management module and a fuel cell pack of fuel-cell device.
One of the utility model is designed to provide a fuel-cell device and power management module assembling mechanism, mentions
For good radiating mode, heat accumulation when power management module work is reduced.
One of the utility model is designed to provide a fuel-cell device and power management module assembling mechanism, mentions
Power supply source management module assembling mechanism provides good heat dissipation while realizing quick assembling, makes full use of assembling mechanism special
Property radiates, and does not need to provide additional radiator.
One of the utility model is designed to provide a fuel-cell device and power management module assembling mechanism and group
Dress method and heat dissipating method, wherein by the power management module assembling mechanism, in the fixation fuel cell pack and power supply
The fuel cell pack and the power management module are electrically connected while management module.
One of the utility model is designed to provide a fuel-cell device and power management module assembling mechanism, wherein
Additional conducting wire connection is not needed between fuel cell pack and power management module, reduces the line loss of long range wire transmission.
One of the utility model is designed to provide a fuel-cell device and power management module assembling mechanism, wherein
The power management module and stack structure for fuel battery compactly assemble, and are the electricity using the radiator of the battery pile
Source control module radiates.
One of the utility model is designed to provide a fuel-cell device and power management module assembling mechanism, wherein
The power management module can be arranged in the air duct of the fuel cell pack, to improve the power management module
Heat dissipation performance, and the power management module is made not to be directly exposed to outside, the power management module is further protected,
And appearance is clean and tidy.
One of the utility model is designed to provide a fuel-cell device and power management module assembling mechanism, wherein
There is fool-proof design in the assembling mechanism, prevent positive and negative anodes it is reversed and the phenomenon that damage fuel-cell device.
One of the utility model is designed to provide a fuel-cell device and power management module assembling mechanism and group
Method is put in dress method and heat dissipation, and wherein power management module is assembled in a manner of fast insert-pull, is facilitated and is replaced and repaired.
One of the utility model is designed to provide a fuel-cell device and power management module assembling mechanism, wherein
The fuel-cell device tailored appearance, rule, packed and transported are more convenient.
In order to realize that the above at least purpose of the utility model, the one side of the utility model provide fuel cell dress
It sets comprising:
One fuel cell pack;
One power management module;With
One assembling mechanism;Wherein the package assembly is arranged at the fuel cell pack and the power management module,
The fuel cell and the power management mould are fixed electrically.
According to some embodiments, fuel cell described in the fuel-cell device include an at least fuel cell unit,
At least two collector plates and at least two end plates are fixed wherein each collector plate is electrically connected to the fuel cell by the end plate
In the fuel cell unit.
According to some embodiments, assembling mechanism described in the fuel-cell device includes at least one first assembling parts
At least one first cooperation assembling parts, first assembling parts and the first cooperation assembling parts are arranged at least one
The collector plate and the power management module, the assembling parts and the first cooperation assembling parts plug electrical connection are solid
It is fixed, so that the power management module is fixed on the collector plate electrically.
According to some embodiments, the first assembling parts described in the fuel-cell device and the first cooperation assembling
Component laterally grafting, to limit the power management module in longitudinally opposite position.
According to some embodiments, assembling mechanism described in the fuel-cell device includes a third assembling parts and one
Third cooperates assembling parts, and the third assembling parts and the third quota and assembling parts are arranged at another afflux
Plate and the power management module, so that the collector plate and the power management module form electrical connection circuit.
According to some embodiments, collector plate described in the fuel cell device includes at least one positive collector plate and at least one
Negative collector plate, first assembling parts and the first cooperation assembling parts are arranged at the negative collector plate and the power supply
Management module.
According to some embodiments, positive collector plate and the negative collector plate described in the fuel-cell device are asymmetricly
Setting.
According to some embodiments, collector plate described in the fuel-cell device is including at least one positive collector plate and at least
One negative collector plate, the third assembling parts and third cooperation assembling parts are arranged at the positive collector plate and the electricity
Source control module.
According to some embodiments, fuel-cell device described in the fuel-cell device includes a shell, the combustion
Material battery pile is fixedly connected with the shell, and the assembling mechanism includes one first assembling parts and one second cooperation assembled portion
Part, second assembling parts and the second cooperation assembling parts are arranged at the shell and the power management module,
So that the power management module is fixed on the shell.
According to some embodiments, the second assembling parts described in the fuel-cell device and second assembling parts
It is plugged and fixed longitudinally, to limit the lateral position of the power management module.
According to some embodiments, the first assembling parts described in the fuel-cell device and the first cooperation assembling
Component is selected from combination: in straight cutting plug and straight cutting pedestal, horizontal plug and straight cutting pedestal, golden finger and PCI connector wherein
It is a kind of.
According to some embodiments, power management module described in the fuel-cell device is including a circuit board and at least
One electronic component, the electronic component are arranged at the circuit board, and the first cooperation assembling parts are installed in the electricity
Road plate.
According to some embodiments, the first assembling parts described in the fuel-cell device and the first cooperation assembling
The quantity of component is two and three or more.
According to some embodiments, the second assembling parts described in the fuel-cell device and the second cooperation assembling
Component is plugged and fixed.
According to some embodiments, power management module described in the fuel-cell device is including a circuit board and at least
One electronic component, the electronic component, which is set, defaults in the circuit board, and the circuit board includes that a longitudinal direction portion and one are lateral
Portion, first assembling parts and the first cooperation assembling parts are plugged and fixed in the longitudinal direction portion, second assembled portion
The longitudinal direction portion is plugged and fixed with supporting in part and the second cooperation assembling parts.
According to some embodiments, third assembling parts described in the fuel-cell device and third cooperation assembling
Component is the plug connector with conducting wire and straight cutting pedestal.
According to some embodiments, third assembling parts described in the fuel-cell device and third cooperation assembling
The quantity of component is two and three or more.
According to some embodiments, assembling mechanism described in the fuel-cell device includes at least one first assembling parts
At least one first cooperation assembling parts, each first assembling parts and the first cooperation assembling parts are arranged at least
Two collector plates and the power management module, so that two affluxs are fixed in power management module electrical connection
Plate.
According to some embodiments, the first assembling parts described in the fuel-cell device and the first cooperation assembling
Component limits the lateral position of the power management module in longitudinal grafting.
According to some embodiments, collector plate described in the fuel-cell device is including at least one positive collector plate and at least
One negative collector plate, at least one set of first assembling parts and the first cooperation assembling parts are arranged at the negative collector plate
With the power management module, at least one set of first assembling parts and the first cooperation assembling parts are arranged at described
Positive collector plate and the power management module.
According to some embodiments, the first assembling parts described in the fuel-cell device and the first cooperation assembling
Component is selected from: the one of which in straight cutting plug and straight cutting pedestal, horizontal plug and straight cutting pedestal, golden finger and PCI connector.
According to some embodiments, fuel-cell device described in the fuel-cell device includes a shell and a wind
Machine, the blower, the fuel cell pack and the power management module are arranged in the shell.
According to some embodiments, fuel-cell device described in the fuel-cell device includes a blower, wherein institute
It states blower and the power management module is located at the same side of the fuel cell pack.
According to some embodiments, fuel-cell device described in the fuel-cell device includes a blower, the wind
Machine and the power management module are located at the two sides of the fuel cell pack.
The another aspect of the utility model provides a fuel-cell device assemble method comprising step:
A collector plate and a power management module are fixed in plug electrical connection;
The integrated shell of the plug fixed power management module and the fuel-cell device;With
It is electrically connected another collector plate and the power management module
The another aspect of the utility model provides a fuel-cell device assemble method comprising step: plug is electrically connected
It connects and fixes two collector plates and a power management module
The another aspect of the utility model provides a fuel-cell device heat dissipating method, which is characterized in that by fuel cell
Group and power management module are set to consistent airflow path while being the fuel cell unit and the power management mould
Block radiates.
According to some embodiments, comprising steps of fuel cell pack is arranged in the fuel-cell device heat dissipating method
In a blower and a power management module two sides, and make the power module apart from the fuel cell pack preset distance
According to some embodiments, in the fuel-cell device heat dissipating method comprising steps of by the power management mould
Block is arranged adjacent to a blower, so that the blower and the power management module are located at the ipsilateral of the fuel cell pack.
Detailed description of the invention
Fig. 1 is fuel cell and power management module schematic diagram in the prior art.
Fig. 2 is the fuel-cell device stereoscopic schematic diagram of one embodiment according to the present utility model.
Gas flow schematic diagram when Fig. 3 is the fuel cell heat dissipation of one embodiment according to the present utility model.
Fig. 4 A is the partial schematic diagram of the fuel-cell device of above-mentioned one embodiment according to the present utility model, is used for
Illustrate the connection type between power management module and wherein a collector plate.
Fig. 4 B is the partial schematic diagram of the fuel-cell device of above-mentioned one embodiment according to the present utility model, is used for
Illustrate the connection type between power management module and wherein a collector plate.
Fig. 5 is the partially exploded diagram of the fuel-cell device of above-mentioned one embodiment according to the present utility model,
For illustrating the connection type between power management module and wherein a collector plate.
Fig. 6 is the partial schematic diagram of the fuel-cell device of above-mentioned one embodiment according to the present utility model, is used for
Illustrate the connection type between power management module and shell.
Fig. 7 is the partially exploded diagram of the fuel-cell device of above-mentioned one embodiment according to the present utility model,
For illustrating the connection type between fuel cell and shell.
Fig. 8 is the partial schematic diagram of the fuel-cell device of above-mentioned one embodiment according to the present utility model, is used for
Illustrate the electric connection mode of power management module and another collector plate.
Fig. 9 is the stereoscopic schematic diagram of the fuel-cell device of second embodiment according to the present utility model.
Figure 10 is the radiating airflow schematic diagram of the fuel-cell device of above-mentioned second embodiment according to the present utility model.
Figure 11 is the partial schematic diagram of the fuel-cell device of above-mentioned second embodiment according to the present utility model, is used for
Illustrate the connection type between the end plate of fuel cell and collector plate and battery pile.
Figure 12 is the partially exploded diagram of the fuel-cell device of above-mentioned second embodiment according to the present utility model,
For illustrating the connection type between collector plate and control module.
Figure 13 is that another angle part of the fuel-cell device of above-mentioned second embodiment according to the present utility model shows
It is intended to, for illustrating the error-proof structure of the fuel-cell device.
Figure 14 is the fuel cell assembling method block diagram representation of above-described embodiment according to the present utility model.
Specific embodiment
It is described below for disclosing the utility model so that those skilled in the art can be realized the utility model.It retouches below
Preferred embodiment in stating is only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It is retouched following
The basic principle of the utility model defined in stating can be applied to other embodiments, deformation scheme, improvement project, etc. Tongfangs
The other technologies scheme of case and the spirit and scope without departing from the utility model.
It will be understood by those skilled in the art that in the exposure of the utility model, term " longitudinal direction ", " transverse direction ", "upper",
The orientation or position of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside"
Relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, and
It is not that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore
Above-mentioned term should not be understood as limiting the present invention.
It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment,
The quantity of one element can be one, and in a further embodiment, the quantity of the element can be it is multiple, term " one " is no
It can be interpreted as the limitation to quantity.
Fuel cell is the new energy to grow up in recent years, is gradually applied to multiple fields.Power management module
It is essential component in fuel cell, the fuel cells component such as monitoring, control fuel cell pack, to be provided for load
Suitable electric energy.But existing fuel cell articles are also in the developing stage at initial stage, not overripened at numerous aspects, need
It is further perfect, for example, the assembling mode of fuel cell pack and power management module, it is usually all mode as shown in figure 1, it will be electric
The mode that two components of Chi Dui and power management module directly stack is screwed, then separately through conducting wire by two components
It is electrically connected, it may be said that this assembling mode is quite coarse, and as previously mentioned, there are many unfavorable factors, are not one
Suitable for the product being widely used.And according to the utility model, a fuel-cell device and power management module kludge are provided
Structure provides suitable assembling mechanism using each self-structure of fuel cell pack and power management module, by fuel cell pack and
Power management module assembling makes described in assembling while realizing that fuel cell pack and power management module are electrically connected
Power management module and the fuel cell pack position are determining, and by way of fast insert-pull, so that power management module
Assembly and disassembly can be completed quickly and easily, and the tool operation of profession is not needed;Wherein assembled in fuel-cell device
When, the relative position of the fuel cell pack and the power management module is designed, so that the fuel cell pack and the electricity
Source control module can access preferable heat dissipation, the fuel cell pack and the power supply pipe assembled in this way
It manages module and forms a relatively regular overall structure, rather than the mode stacked assembles, and is more suitable for widely promoting and applying, and
And convenient transportation, power management module and fuel cell pack are assembled in enclosure interior, prevent unnecessary touch described in damage
Power management module.
It is the fuel-cell device 100 of one embodiment according to the present utility model as shown in Fig. 2 to Fig. 8.The combustion
Material cell apparatus 100 is used to monitor, control the work of fuel cell component, provides suitable electric energy for load.
The monitoring of fuel-cell device 100, the fuel supply of the mode such as control fuel cell pack 11 of control, heat pipe
Reason, controlling electric energy, operation control and fault diagnosis and crash handling etc..Wherein fuel supply include hydrogen confession give control,
The confession of air gives control;Heat management includes the water temperature of the accessories such as the coolant water temperature control, temperature difference control, air compressor machine of pile
Control;Controlling electric energy includes the management of control, fuel cell and the entire car controller of fuel cell output power about energy;Fortune
Row control includes that fuel cell start-up, stopping, power generation timing control and monitoring, fault diagnosis and crash handling include according to fuel
The system running state of battery analyzes the diagnosis of each failure and carries out corresponding troubleshooting.
It fuel cell component citing ground but is not limited to, hydrogen supply component, the oxygen supply component, cooling water portion of fuel cell
Part, air compressor machine, power control unit, accident analysis component etc..Workload citing ground but be not limited to automobile component, nobody
Machine component.Those skilled in the art it should be understood that the concrete type of the fuel cell component and workload not
It is the limitation of the utility model.
As shown in Fig. 2, being the stereoscopic schematic diagram of the fuel-cell device of first implementation according to the present utility model.It is described
Fuel-cell device includes a fuel cell pack 11, a power management module 12 and an assembling mechanism 13.
The power management module 12 is detachably secured to the fuel cell pack 11 by the assembling mechanism 13,
The power management module 12 is electrically connected to the fuel cell pack 11 by the assembling mechanism 13.That is, described group
Mounting mechanism 13 realizes two kinds of effects simultaneously, that is, a kind of act on is the fixed power management module 12 and fuel cell pack 11
Relative position, another kind effect are the electrical connection power management module 12 and the fuel cell pack 11, this assembling mode
It is totally different from traditional assembling mode for being screwed, and being electrically connected separately through conducting wire.
Further, referring to Fig. 2, fuel-cell device includes a shell 14, and the power management module 12 is arranged at institute
It states in shell 14.That is, the power management module 12 is not directly exposed to outside, to prevent electric shock danger
Danger and the protection power management module 12, have the function of dust-proof, rain-proof.
Further, the fuel-cell device includes a blower 15, and the relatively described fuel cell pack 11 of the blower 15 is set
It sets, in order to radiate for the fuel cell pack 11.The blower 15 is arranged in the shell 14, and the shell
14 have a ventilation opening 141, provide gas flowing path for the blower 15.Specifically, the blower 15 and the ventilation opening
141 are oppositely arranged.
It is noted that the power management module 12 is adjacent to the wind in this embodiment of the utility model
Machine 15 is arranged, in order to be that the power management module 12 radiates by the blower 15.The blower 15 at work,
Accelerate the gas flowing in the shell 14, closer to the blower 15, gas flowing is faster, and heat dissipation effect is better.
The fuel cell pack 11, the power management module 12 and the assembling mechanism 13 are all arranged at the shell
In 14, thus the structure that shape is integral, outer shape is relatively regular and succinct, is readily transported and carries, and is suitable for batch metaplasia
It produces and promotes and applies.
The power management module 12 includes an at least interface end 16, and the interface end 16 is for communicating to connect other fuel
Battery component.
Referring to Fig. 3, when being the heat dissipation of the fuel cell control device of above-mentioned one embodiment according to the present utility model
Gas circulate schematic diagram.Referring to Fig. 3, at work, gas is entered in shell 14 blower 15 by the ventilation opening 141,
In flow process, the power management module 12 and the fuel cell pack 11 are flowed through, and then pass through the work of the blower 15
With air-flow flowing is accelerated, gas flows out from the ventilation opening 141, is in this way the fuel cell pack 11 and described
Power management module 12 radiates, so that the fuel cell and the power management module 12 steadily work.?
In traditional assembling mode, the mode that power management module 1P is directly stacked is fixed on the outside of battery pile 2P, one side battery
Without heat dissipation gap between heap 2P and power management module 1P, it is easy to produce heat accumulation, on the other hand, power management module 1P
It is arranged at outside battery pile 2P, inner fan not can be carried out good heat dissipation to power management module 1P's, therefore cause heat
Amount accumulation, particularly with the powerful fuel-cell device, heat dissipation problem becomes the influence power management module and stablizes
One key factor of work.
It as shown in Figure 4 A and 4 B shown in FIG., is the fuel cell control device of above-mentioned one embodiment according to the present utility model
Partial schematic diagram.Fig. 5 is that the decomposed of the fuel-cell device of above-mentioned one embodiment according to the present utility model shows
It is intended to.
The fuel cell pack 11 includes a fuel cell unit 111 and at least two collector plates 112, wherein two collector plates
112 are arranged at the both ends of the fuel cell unit 111 respectively.Further, each collector plate 112 is electrically connected to the combustion
Battery pack 111 is expected, and wherein at least one collector plate 112 is electrically connected the anode of the fuel cell unit 111, at least described in one
Collector plate 112 is electrically connected the cathode of the fuel cell.In other words, the fuel cell unit 111 has an anode and one
A cathode, in each collector plate 112, wherein at least one is positive collector plate 1121, is electrically connected the fuel cell unit 111
Anode, at least one is negative collector plate 1122, is electrically connected the cathode of the fuel cell unit 111.
The fuel cell pack 11 includes that at least two end plates 113, each end plate 113 is arranged at the collector plate 112
Outside, in order to the fixation collector plate 112 and the fuel cell unit 111.In other words, the collector plate 112 is sandwiched in
Between the fuel cell unit 111 and the end plate 113.
The assembling mechanism 13 includes one first assembling parts 131 and one first cooperation assembling parts 132, and described first group
It fills component 131 and the first cooperation assembling parts 132 cooperates to assemble electrically and fix.
Citing ground, first assembling parts 131 and the first cooperation assembling parts 132 can be horizontal plug and straight
The electrical connection fixed form for inserting pedestal composition can be the electrical connection fixed form of golden finger and PCI connector composition.
That is, first assembling parts 131 can be a horizontal plug, golden finger can be, described second matches
Closing assembling parts 134 can be straight cutting pedestal, be also possible to PCI connector or PCI Express connector.The technology of this field
Personnel are not it should be understood that the concrete type of first assembling parts 131 and the first cooperation assembling parts 132 is
The limitation of the utility model, it is other can be realized the connector that is fixed to each other while electrical connection belong to the utility model can
With the range being carried out.
Further, in the present invention, first assembling parts 131 and the first cooperation 132 quilt of assembling parts
Selectively it is disposed therein a collector plate 112 and the power management module 12.That is, when selecting described first
When assembling parts 131 are set to the collector plate 112, the first cooperation assembling parts 132 are arranged at the power management
Module 12, first assembling parts 131 are electrically connected to the collector plate 112, and the first cooperation assembling parts 132 are electrically connected
In the energy supply control module;It is described when first assembling parts 131 are set to the power management module 12 by selection
First cooperation assembling parts 132 are arranged at the collector plate 112, and first assembling parts 131 are electrically connected to the power supply
Management module 12, the first cooperation assembling parts 132 are electrically connected to the collector plate 112.In this way, described
One is formed between collector plate 112 and the power management module 12 is electrically connected fixed position.
The collector plate of the selectivity setting of first assembling parts 131 and the first cooperation assembling parts 132
112 can be the positive collector plate 1121, be also possible to the negative collector plate 1122.
The quantity of first assembling parts 131 and the first cooperation assembling parts 132 can be one or more,
That is, it is possible to form an electrical connection fixed bit between wherein one collector plate 112 and the power management module 12
It sets, the fixed position of multiple electrical connections can also be formed, it is to be understood that when the collector plate 112 and the power management mould
It is fixed stronger, stable when forming multiple electrical connections fixation positions between block 12.Such as when only one described electrical connection is solid
When positioning is set, the fixation of point type is formed, when there are multiple electrical connections to fix position, forms line style or face type fixation side
Formula, therefore fixation is more stable.
Referring to Fig. 4 A, Fig. 4 B and Fig. 5, in this embodiment of the utility model, at least 1 first assembling parts
131 are arranged at the collector plate 112, and at least 1 first cooperation assembling parts 132 are arranged at the power management mould
Block 12.
More specifically, first assembling parts 131 are arranged at the negative collector plate 1122.That is, the electricity
The fixed position of an electrical connection is formed between source control module 12 and the negative collector plate 1122.
In other words, first assembling parts 131 are fixed on the negative collector plate 1122 electrically, and described first matches
It closes assembling parts 132 and is fixed on the power management module 12 electrically.
In this embodiment attached middle school of the utility model, first assembling parts 131 are the horizontal plugs, described
One cooperation assembling parts 132 are a straight cutting pedestals, so that when first assembling parts 131 and described first are matched
When conjunction assembling parts 132 mutually assemble, first power management module 12 is fixed on the negative collector plate with being electrically connected
1122。
Further, in this embodiment of the utility model, two first assembling parts 131 are arranged at institute respectively
Negative collector plate 1122 is stated, two the first cooperation package assemblies are arranged at the power management module 12, thus described
The fixed position of at least two electrical connections is formed between negative collector plate 1122 and the power management module 12.Certainly, in the negative collection
More described first assembling parts 131 and described first can also be set between flowing plate 1122 and the power management module 12
Cooperate assembling parts 132, such as three and four or more, first assembling parts 131 and the first cooperation assembling parts
132 quantity is not the limitation of the utility model.Certainly, in another embodiment of the utility model, first assembling
Component 131 can be arranged at the collector plate 112 for connecting the fuel cell anode, that is to say, that the assembling parts
It is arranged at the positive collector plate 1121.Those skilled in the art is it should be understood that first assembling parts 131 are arranged
It is not the limitation of the utility model in positive or negative pole.
First assembling parts 131 are arranged at the lower end of the collector plate 112, in order to first assembled portion
Part 131 is fixed on the first cooperation assembling parts 132 with extending downwardly electrically.
The power management module 12 includes an at least electronic component 122 and a circuit board 121, the electronic component 122
It is arranged at the circuit board 121, the electronic component 122 is electrically connected to the circuit board 121.The first cooperation assembled portion
Part 132 is fixed on the circuit board 121 electrically.
In this embodiment of the utility model, first assembling parts 131 are arranged at the circuit board 121
Outside, first component are arranged at 121 inside of circuit board.The electronic component 122 is arranged at the electricity
121 inside of road plate.
In some embodiments, the circuit board 121 has at least one set of first jack, in order to first assembled portion
Part 131 passes through first jack and is electrically connected to the first cooperation assembling parts 132.That is, in first assembling
When component 131 and the first cooperation assembling parts 132 mutually assemble, positioned at described first group of 121 outside of circuit board
Dress component 131 passes through the first jack on the circuit board 121 and extends to the first cooperation assembling parts 132, with described the
One cooperation assembling parts 132 are fixed electrically.
In this embodiment of the utility model, the first cooperation assembling parts 132 are arranged at the circuit board
121 outsides, the convenient assembling with first assembling parts 131, that is, facilitate the circuit board 121 and the fuel cell pack 11
Assembling.The electronic component 122 is arranged at the inside of the circuit board 121.That is, the cooperation assembling parts and
The electronic component 122 is located at the two sides of the circuit board 121.The electronic component 122 be arranged at the inside of circuit board 121 with
And the first cooperation assembling parts 132 and the set-up mode for cooperating assembling parts ipsilateral bring multiple advantages.Firstly, institute
It states
Electronic component 122 described in first assembling parts 131 first cooperation 132 circuit board 121 of assembling parts is arranged at institute
The inside for stating circuit board 121 reduces the space hold in outside, reduces the volume of the fuel-cell device;On the other hand, described
Electronic component 122 is blocked by the circuit board 121 in inside, and outer damage is prevented;On the other hand, 121 inside of circuit board
The neighbouring blower 15, facilitate air-flow caused by the blower 15 be the electronic component 122 first cooperate assembling parts 132 into
Row heat dissipation.First assembling parts, 131 circuit board 121 first cooperates 132 first assembling parts of assembling parts, 131 circuit board 121 the
One cooperation 132 power management module 12 of assembling parts.
Certainly, in the other embodiments of the utility model, the first cooperation assembling parts 132 can be arranged at institute
State the inside of circuit board 121, that is to say, that first assembling parts 131 and the first cooperation assembling parts 132 are located at institute
State the two sides of circuit board 121.First assembling parts 131 and the first cooperation assembling parts 132 can be arranged at the electricity
The same side of road plate 121 is not ipsilateral, and those skilled in the art is it should be understood that first assembling parts 131 and institute
The relative positional relationship for stating the first cooperation assembling parts 132 and the circuit board 121 is not the limitation of the utility model.
It is noted that assembling the collector plate 112 and when the power management module 12, it is only necessary to by described the
One assembling parts 131 are directly plugged in the corresponding first cooperation assembling parts 132, do not need to carry out other operations, also not
It needs to be installed by special tool, therefore installs succinctly, quickly, conveniently, be totally different from traditional solid by screw
Fixed mode.
The assembling mechanism 13 includes one second assembling parts 133 and one second cooperation assembling parts 134, and described second group
It fills component 133 and the second cooperation assembling parts 134 cooperates to assemble electrically and fix.
Citing ground, second group of arrangement is laterally plugged in the second cooperation assembling parts 134, to be described
Power management module 12 provides longitudinal support force so that the power module longitudinally cannot move up and down, and laterally can
Plug movement.
Citing ground, second assembling parts 133 and the second cooperation assembling parts 134 can be horizontal plug and straight
The fixed form for inserting pedestal composition can be the fixed form of golden finger and PCI connector composition.
That is, second assembling parts 133 can be a horizontal plug, it can be golden finger, can be straight cutting
Head, the second cooperation assembling parts 134 can be straight cutting pedestal, be also possible to PCI connector.Those skilled in the art answers
When understanding, the concrete type of second assembling parts 133 and the second cooperation assembling parts 134 is not that this is practical
Novel limitation, other connectors being fixed to each other that can be realized belong to the range that the utility model can be carried out.
Further, in the present invention, second assembling parts 133 and the second cooperation 134 quilt of assembling parts
Selectively it is set to the shell 14 and the power management module 12.That is, when selecting second assembling parts
133 when being set to the shell 14, and the second cooperation assembling parts 134 are arranged at the power management module 12;It is elected
It selects when second assembling parts 133 are arranged at the power management module 12, the second cooperation 134 quilt of assembling parts
It is set to the shell 14.In this way, it is solid that one is formed between the shell 14 and the power management module 12
Positioning is set.
The quantity of second assembling parts 133 and the second cooperation assembling parts 134 can be one or more,
That is, it is possible to form a fixed position between the shell 14 and the power management module 12, can also be formed more
A fixed position, it is to be understood that when forming multiple fixed positions between the shell 14 and the power management module 12
When, it is fixed stronger, stable.Such as when only one described fixed position, the fixation of point type is formed, it is multiple described when having
When fixed position, line style or face type fixed form is formed, therefore fixation is more stable.
Fig. 6 is the partial schematic diagram of the fuel-cell device of above-mentioned one embodiment according to the present utility model, is used for
Illustrate the connection type between power management module 12 and shell 14.Fig. 7 is above-mentioned first implementation according to the present utility model
The partially exploded diagram of the fuel-cell device of example, for illustrating the connection type between fuel cell and shell 14.At this
In this embodiment of utility model, at least 1 second assembling parts 133 are arranged at the shell 14, at least one institute
It states the second cooperation assembling parts 134 and is arranged at the power management module 12.
In other words, second assembling parts 133 are fixed on the shell 14, the second cooperation assembling parts 134
It is fixed on the power management module 12.
In some embodiments of the utility model attached middle school, second assembling parts 133 are the straight inserting heads, described second
Cooperating assembling parts 134 is a straight cutting pedestal, so that when second assembling parts 133 and second cooperation
When assembling parts 134 mutually assemble, the second source management module 12 is detachably secured the shell 14.
Further, in this embodiment of the utility model, two second assembling parts 133 are arranged at institute respectively
Shell 14 is stated, two the second cooperation assembling parts 134 are arranged at the power management module 12, thus in the shell
At least two fixed positions are formed between body 14 and the power management module 12.Certainly, in the shell 14 and the power supply pipe
More described second assembling parts 133 and the second cooperation assembling parts 134 can also be set between reason module 12, than
Such as three and four or more, second assembling parts 133 and described second cooperate the quantity of assembling parts 134 to be not this
The limitation of utility model.
In this embodiment of the utility model, the second cooperation assembling parts 134 are implemented as a card slot, described
First assembling parts 133 are implemented as the turning of the circuit board 121.That is, the two sides turning of the circuit board is suitable for
The card slot being plugged in the shell 14, thus by the card slot by the circuit board 121 support it is fixed.In other words
It says, in this fashion, does not need that first assembling parts 133 are especially arranged, by the 121 self structure shape of circuit board
At first assembling parts 133.
The circuit board 121 includes a longitudinal direction portion 1212 and a transverse part 1211, the longitudinal direction portion 1212 and the blower
15 directions are consistent, and the transverse part 1211 is vertical with 15 direction of blower.
The first cooperation assembling parts 132 are arranged at the longitudinal direction portion 1212 of the circuit board 121.Described first
When assembling parts 131 and the first cooperation assembling parts 132 mutually assemble, first assembling parts 131 are being laterally extended
Ground is plugged in the first cooperation assembling parts 132, that is to say, that provides one for the power management module 12 and laterally fixes
Power.Second assembling parts 133 are arranged at the bottom in the longitudinal direction portion 1212 of the circuit board 121, and described second matches
The inside that assembling parts 134 are arranged at the shell 14 is closed, provides a longitudinal supporting force for the power management module 12,
And the transverse shifting of the power management module 12 is limited by way of clamping, and makes full use of 121 He of circuit board
Structure between the shell 14 does not need that additional fixation member is arranged, installs easy to operate.
In this embodiment of the utility model, the shell 14 has an at least spliced eye 142, the spliced eye
142 is corresponding with the power management module 12, in order to cooperate the power management module 12 to form the fuel cell dress
The interface end 16 set facilitates external equipment to be electrically connected to the power management module 12 by the interface end 16.Certainly,
In the other embodiments of the utility model, the second cooperation assembling parts 134 can be arranged at the circuit board 121
The inside of the transverse part 1211, that is to say, that second assembling parts 133 and second cooperation assembling parts 134
In the two sides of the transverse part 1211 of the circuit board 121.Second assembling parts 133 and the second cooperation assembling parts
134 can be arranged at the same side of the transverse part 1211 of the circuit board 121 or not ipsilateral, those skilled in the art
It should be understood that second assembling parts 133 and the second cooperation assembling parts 134 and the circuit board 121
The relative positional relationship of the transverse part 1211 is not the limitation of the utility model.
In other embodiments, second assembling parts 133 are a direct insertion plugs, the second cooperation assembling
Component 134 is a straight cutting pedestal.When assembling the power supply tube module and the shell 14, second assembling parts
133 are inserted directly into assembling parts 134 with described second from the transverse part 1211 in longitudinal circuit plate 121.That is, institute
Stating the second assembling parts 133 and the second cooperation assembling parts 134 is that the power management module 12 provides a longitudinal direction
Fixed force.
It is noted that when assembling the shell 14 and the power management module 12, it is only necessary to by described second
Assembling parts 133 are directly plugged in the corresponding second cooperation assembling parts 134, do not need to carry out other operations, also be not required to
It to be installed, therefore be installed succinctly, quickly, conveniently by special tool, be totally different from traditional be screwed
Mode.
It is noted that first assembling parts 131 and the first cooperation assembling parts 132 are used for the fuel
The collector plate 112 of battery pile 11 and the electrical connection and fixation of the power management module 12 are electrically connected while fixed;
Second assembling parts 133 and second assembling parts 133 are for the shell 14 and the power management module 12
It is fixed, it is only necessary to be fixed, without being electrically connected.Certainly, when second assembling parts 133 and described second are with being combined
Component 134 is filled for the electrical connection of other electric components and the power management module 12 and when fixing, second assembled portion
The combination of part 133 and the second cooperation assembling parts 134 is fixed while can be electrical connection.
It is noted that first assembling parts 131 and the first cooperation assembling parts 132 and described second group
Dress component 133 and the second cooperation assembling parts 134 provide respectively horizontal and vertical for the power management module 12 solid
Power is determined, so that the position of the power management module 12 is by stable determination, and in assembling, it is only necessary to directly plug side
Formula is assembled, and assembling is more succinct, efficient.
Fig. 8 is the partial schematic diagram of the fuel-cell device of above-mentioned one embodiment according to the present utility model, is used for
Illustrate the electric connection mode of power management module 12 and another collector plate 112.The assembling mechanism 13 includes a third assembled portion
Part 135 and a third cooperate assembling parts 136, and the third assembling parts 135 and third cooperation assembling parts 136 are mutual
Cooperation assembles electrically.
Citing ground, the third assembling parts 135 and third cooperation assembling parts 136 can be horizontal plug and straight
The electrical connection fixed form for inserting pedestal composition can be golden finger and PCI connector composition, can be straight cutting plug connector and straight cutting
The electrical connection fixed form of socket.
That is, the third assembling parts 135 can be a horizontal plug, can be golden finger, can be straight cutting
Plug, the second cooperation assembling parts 134 can be straight cutting pedestal, are also possible to PCI connector.Those skilled in the art
It should be understood that the concrete type of the third assembling parts 135 and third cooperation assembling parts 136 is not this reality
With novel limitation, other connectors that can be realized electrical connection belong to the range that the utility model can be carried out.
Further, in the present invention, the third assembling parts 135 and the third cooperate 136 quilt of assembling parts
Selectively it is disposed therein a collector plate 112 and the power management module 12.That is, when selecting the third
When assembling parts 135 are set to the collector plate 112, the third cooperation assembling parts 136 are arranged at the power management
Module 12, the third assembling parts 135 are electrically connected to the collector plate 112, and the third cooperation assembling parts 136 are electrically connected
In the energy supply control module;It is described when the third assembling parts 135 are set to the power management module 12 by selection
Third cooperation assembling parts 136 are arranged at the collector plate 112, and the third assembling parts 135 are electrically connected to the power supply
Management module 12, the third cooperation assembling parts 136 are electrically connected to the collector plate 112.In this way, described
An electric connection mode is formed between collector plate 112 and the power management module 12.
The collector plate of the selectivity setting of the third assembling parts 135 and third cooperation assembling parts 136
112 can be the positive collector plate 1121, be also possible to the negative collector plate 1122.
Referring to Fig. 8, in this embodiment of the utility model, at least one third assembling parts 135 are arranged at
The collector plate 112, at least one third cooperation assembling parts 136 are arranged at the power management module 12.
More specifically, the third assembling parts 135 are arranged at the positive collector plate 1121.That is, the electricity
An electrically connecting position is formed between source control module 12 and the positive collector plate 1121.In other words, the third assembling
Component 135 is electrically connected to the positive collector plate 1121, and the third cooperation assembling parts 136 are electrically connected to the power management mould
Block 12.
In this embodiment attached middle school of the utility model, the third assembling parts 135 are direct insertion slotting with conducting wire
Fitting, the third cooperation assembling parts 136 are a straight cutting pedestals, so that working as 135 He of third assembling parts
When the third cooperation assembling parts 136 mutually assemble, the third power management module 12 is electrically connected to the positive collector plate
1121。
It is noted that first assembling parts 131 are arranged at institute in this embodiment of the utility model
Negative collector plate 1122 is stated, the first cooperation assembling parts 132 for being arranged at the power management module 12 are electrically connected to institute
The first assembling parts 131 are stated, the third assembling parts 135 are arranged at the positive collector plate 1121, are arranged at the electricity
The third cooperation assembling parts 136 of source control module 12 are electrically connected to the third assembling parts 135, and it is complete to be consequently formed one
Closed current loop, in order to which the energy supply control module manages the work of the fuel cell pack 11.
It is the fuel-cell device of second embodiment according to the present utility model referring to Fig. 9 to Figure 13.
Fig. 9 is the stereoscopic schematic diagram of the fuel-cell device of second embodiment according to the present utility model.Figure 10 is root
According to the radiating airflow schematic diagram of the fuel-cell device of above-mentioned the second embodiment of the utility model.
The fuel-cell device includes a fuel cell pack 11, a power management module 12 and an assembling mechanism 13.
The power management module 12 is detachably secured to the fuel cell pack 11 by the assembling mechanism 13,
The power management module 12 is electrically connected to the fuel cell pack 11 by the assembling mechanism 13.That is, described group
Mounting mechanism 13 realizes two kinds of effects simultaneously, that is, a kind of act on is the fixed power management module 12 and fuel cell pack 11
Relative position, another kind effect are the electrical connection power management module 12 and the fuel cell pack 11, this assembling mode
It is totally different from traditional assembling mode for being screwed, and being electrically connected separately through conducting wire.
Further, referring to Fig. 9 and Figure 10, the fuel-cell device includes a shell 14, the power management module 12
It is hidden in the shell 14.That is, the power management module 12 is not directly exposed to outside, to prevent
Danger Electric shock risk and the protection power management module 12 occurs, has the function of dust-proof, rain-proof.
Further, the fuel-cell device includes a blower 15, and the relatively described fuel cell pack 11 of the blower 15 is set
It sets, in order to radiate for the fuel cell.The blower 15 is arranged in the shell 14, and the shell 14
With at least two ventilation openings 141, it is respectively used to flowing into and out for gas, provides gas flowing path for the blower 15.
It is noted that in this embodiment of the utility model, the power management module 12 and the blower
15 are respectively arranged at the two sides of the fuel cell pack 11 so that by the blower 15 be the power management module 12 into
Row heat dissipation.
The fuel cell pack 11, the power management module 12 and the assembling mechanism 13 are all arranged at the shell
In 14, thus the structure that shape is integral, outer shape is relatively regular and succinct, is readily transported and carries, and is suitable for batch metaplasia
It produces and promotes and applies.
Figure 10 is the radiating airflow schematic diagram of the fuel-cell device of above-mentioned second embodiment according to the present utility model.
Referring to Fig.1 0, at work, gas is entered in shell 14 blower 15 by the air inlet, in flow process
In, the fuel cell pack 11 is flowed through, from the fuel cell, is then flowed out from the air outlet of 15 side of blower,
To radiate for the power management module 12, so that institute while being radiated for the fuel cell pack 11
Power management module 12 is stated steadily to work.
Figure 11 is the partial schematic diagram of the fuel-cell device of above-mentioned second embodiment according to the present utility model, is used for
Illustrate the connection type between the end plate 113 of fuel cell and collector plate 112 and battery pile.The fuel cell pack 11 includes
One fuel cell unit 111 and two collector plates 112, two collector plates 112 are arranged at the both ends of the fuel cell unit 111.
Further, each collector plate 112 is electrically connected to the fuel cell unit 111, and wherein at least one collector plate 112 is electrically connected
The anode of the fuel cell unit 111 is connect, at least one collector plate 112 is electrically connected the cathode of the fuel cell.In other words
It says, the fuel cell unit 111 has an anode and a cathode, and in each collector plate 112, wherein at least one is
Positive collector plate 1121, is electrically connected the anode of the fuel cell, at least one is negative collector plate 1122, is electrically connected the fuel electricity
The cathode of pond group 111.
The fuel cell pack 11 includes that at least two end plates 113, each end plate 113 is arranged at the collector plate 112
Outside, in order to the fixation collector plate 112 and the fuel cell unit 111.In other words, the collector plate 112 is sandwiched in
Between the fuel cell unit 111 and the end plate 113.
The energy supply control module is by being set between two collector plates 112 laterally, that is to say, that the power supply
Control module is arranged between the positive collector plate 1121 and the negative collector plate 1122 by the package assembly.
It is noted that the collector plate 112 extends outwardly, 112 outer end of collector plate and the fuel cell
Heap 11 has preset distance.The energy supply control module is arranged at the outer end of the collector plate 112, with the fuel cell
Heap 11 has preset distance, provides gas passage for the fuel cell pack 11.
In the blower 15 work, where the power management module 12 of the air-flow from the fuel cell pack 11
Side enters inside the fuel cell control device, and when entering, gas can flow through 12 surface of power management module,
It radiates for the power management module 12, and then flows through the fuel cell pack 11, and from the fuel cell pack 11
The other side, i.e., the air outlet discharge of the described 15 place side of blower, thus in the feelings for not influencing fuel cell heat dissipation
Under condition, radiate for the power management module 12.
The package assembly includes at least two first assembling parts 131 and at least two first cooperation assembling parts 132.Each institute
It states the first assembling parts 131 and each first cooperation assembling parts 132 cooperates to assemble electrically and fix.
Wherein at least the first assembling parts 131 described in one group and the first cooperation assembling parts 132 are arranged at described
Power management module 12 and the negative collector plate 1122, at least 1 first assembling parts 131 and the first cooperation assembling
Component 132 is arranged at the power management module 12 and the positive collector plate 1121, thus in the power management module 12
The fixed position of different electrical connections is respectively formed between the positive collector plate 1121 and the negative collector plate 1122.
Citing ground, first assembling parts 131 and the first cooperation assembling parts 132 can be horizontal plug and straight
Insert pedestal composition electrical connection fixed form, can be golden finger and PCI connector or PCI Express connector composition
It is electrically connected fixed form.That is, first assembling parts 131 can be a horizontal plug, golden finger, straight cutting can be
Plug.The second cooperation assembling parts 134 can be straight cutting pedestal, be also possible to PCI connector.Those skilled in the art
It should be understood that the concrete type of first assembling parts 131 and the first cooperation assembling parts 132 is not this
The limitation of utility model, it is other can be realized the connector that is fixed to each other while electrical connection belong to the utility model can be with
The range being carried out.
More specifically, at least two first assembling parts 131 are arranged in this embodiment of the utility model
The power management module 12, at least two first cooperation assembling parts 132 are arranged at the negative collector plate 1122 respectively
With the positive collector plate 1121.
In this embodiment of the utility model, first assembling parts 131 are direct plugging-in plugs, and described first matches
Closing assembling parts 132 is straight cutting pedestal, so that first assembling parts 131 are directly plugged in the first cooperation assembling
When component 132, the power management module 12 and the collector plate 112 be electrically connected it is fixed.
The quantity of the third assembling parts 135 and third cooperation assembling parts 136 can be one or more,
That is, it is possible to form an electrical connection fixed bit between wherein one collector plate 112 and the power management module 12
It sets, the fixed position of multiple electrical connections can also be formed, it is to be understood that when the collector plate 112 and the power management mould
It is fixed stronger, stable when forming multiple electrical connections fixation positions between block 12.Such as when only one described electrical connection is solid
When positioning is set, the fixation of point type is formed, when there are multiple electrical connections to fix position, forms line style or face type fixation side
Formula, therefore fixation is more stable.
Further, 2 and Figure 13 referring to Fig.1 is in embodiment, in the power management module in this of the utility model
12 and the negative collector plate 1122 and the positive collector plate 1121 be respectively equipped with two groups described in the first assembling parts 131 and described
First cooperation assembling parts 132.That is, at least two first assembling parts 131 and at least two described first are with being combined
Dress component 132 fixes the power management module 12 and the positive collector plate 1121, at least two first assemblings electrically
Component 131 and at least two first cooperation assembling parts 132 fix the power management module 12 and described negative electrically
Collector plate 1122.
Further, cooperate assembling parts 132 positioned at the first assembling component of anode and described first and be located at
The first assembling component and the first cooperation assembling parts 132 of cathode are asymmetricly arranged, so that it is anti-to form one
Slow-witted structure, avoids user that the positive and negative anodes of power management module 12 and positive and negative anodes and the fuel cell pack 11 are reversed.Change sentence
It talks about, described in first assembling parts 131 of the anode of the power management module 12 and the positive collector plate 1121
First cooperation assembling parts 132 assemble, and first assembling parts 131 of the cathode of the power management module 12 and institute
When stating the first cooperation assembling of assembling parts 132 of negative collector plate 1122, the package assembly assembles with being integrally matched, and
When reversely connecting, assembling not can be carried out.
It can thus be seen that by direct inserting mode, it can be simply and rapidly by 12 groups of the power management module
Dress is fixed on the collector plate 112, without being screwed, and does not need additional conducting wire electrical connection, reduces length
Line loss caused by Distance Transmission is totally different from traditional assembling mode.
Above-described embodiment according to the present utility model, referring to Fig.1 4, the utility model is provided in the group of fuel-cell device
Dress method 1000, wherein the assemble method comprising steps of
1001: a collector plate 112 and a power management module 12 are fixed in plug electrical connection;
1002: the integrated shell 14 of the plug fixed power management module 12 and the fuel-cell device;With
1003: another collector plate 112 of electrical connection and the power management module 12.
Above-described embodiment according to the present utility model, another fuel cell unit 111 of the offer of the utility model fill method
2000, wherein the assemble method 2000 is comprising steps of two collector plates 112 and a power management module are fixed in plug electrical connection
12。
Above-described embodiment according to the present utility model, the above embodiments of the present invention, the utility model provide a combustion
The heat dissipating method 3000 for expecting cell apparatus, the method includes the steps: fuel cell unit 111 and power management module 12 are arranged
It in consistent airflow path while being that the fuel cell unit 111 and the power management module 12 radiate.
More specifically, the heat dissipating method 3000 can be, fuel cell pack 11 is set to a blower 15 and a power supply
12 two sides of management module, and make the power module apart from 11 preset distance of fuel cell pack.
The heat dissipating method 3000 can be, and the power management module 12 is arranged adjacent to a blower 15, so that described
Blower 15 and the power management module 12 are located at the ipsilateral of the fuel cell pack 11.
It should be understood by those skilled in the art that foregoing description and the embodiments of the present invention shown in the drawings are only used as
It illustrates and is not intended to limit the utility model.
The purpose of this utility model completely and effectively realizes.The function and structural principle of the utility model are in reality
It applies and shows and illustrate in example, under without departing from the principle, the embodiments of the present invention can have any deformation or repair
Change.
Claims (24)
1. a kind of fuel-cell device characterized by comprising
One fuel cell pack;
One power management module;With
One assembling mechanism;Wherein the assembling mechanism is arranged at the fuel cell pack and the power management module, is electrically connected
It is grounded the fixed fuel cell and the power management mould.
2. fuel-cell device according to claim 1, wherein the fuel cell includes an at least fuel cell unit, extremely
Lack two collector plates and at least two end plates are fixed on wherein each collector plate is electrically connected to the fuel cell by the end plate
The fuel cell unit.
3. fuel-cell device according to claim 2, wherein the assembling mechanism includes at least one first assembling parts
At least one first cooperation assembling parts, first assembling parts and the first cooperation assembling parts are arranged at least one
The collector plate and the power management module, the assembling parts and the first cooperation assembling parts plug electrical connection are solid
It is fixed, so that the power management module is fixed on the collector plate electrically.
4. fuel-cell device according to claim 3, wherein first assembling parts and the first cooperation assembling
Component laterally grafting, to limit the power management module in longitudinally opposite position.
5. fuel-cell device according to claim 3, wherein the assembling mechanism includes a third assembling parts and one
Third cooperates assembling parts, and the third assembling parts and the third quota and assembling parts are arranged at another afflux
Plate and the power management module, so that the collector plate and the power management module form electrical connection circuit.
6. fuel-cell device according to claim 5, wherein the collector plate is including at least one positive collector plate and at least
One negative collector plate, first assembling parts and the first cooperation assembling parts are arranged at the negative collector plate and the electricity
Source control module.
7. fuel-cell device according to claim 6, wherein the positive collector plate and the negative collector plate are asymmetricly
Setting.
8. fuel-cell device according to claim 5, wherein the collector plate is including at least one positive collector plate and at least
One negative collector plate, the third assembling parts and third cooperation assembling parts are arranged at the positive collector plate and the electricity
Source control module.
9. fuel-cell device according to claim 3, wherein the fuel-cell device includes a shell, the fuel
Battery pile is fixedly connected with the shell, and the assembling mechanism includes that one first assembling parts and one second cooperate assembling parts,
Second assembling parts and the second cooperation assembling parts are arranged at the shell and the power management module, thus
So that the power management module is fixed on the shell.
10. fuel-cell device according to claim 9, wherein second assembling parts and second assembling parts
It is plugged and fixed longitudinally, to limit the lateral position of the power management module.
11. according to any fuel-cell device of claim 3 to 10, wherein first assembling parts and described first
Assembling parts are cooperated to be selected from combination: straight cutting plug and straight cutting pedestal, horizontal plug and straight cutting pedestal, golden finger and PCI connector
In one of which.
12. according to any fuel-cell device of claim 3 to 10, wherein the power management module includes a circuit
Plate and at least an electronic component, the electronic component are arranged at the circuit board, and the first cooperation assembling parts are mounted
In the circuit board.
13. according to any fuel-cell device of claim 3 to 10, wherein first assembling parts and described first
The quantity for cooperating assembling parts is two and three or more.
14. fuel-cell device according to claim 9 or 10, wherein second assembling parts and second cooperation
Assembling parts are plugged and fixed.
15. fuel-cell device according to claim 9 or 10, wherein the power management module include a circuit board and
An at least electronic component, the electronic component, which is set, defaults in the circuit board, and the circuit board includes a longitudinal direction portion and one
Transverse part, first assembling parts and the first cooperation assembling parts are plugged and fixed in the longitudinal direction portion, and described second group
The longitudinal direction portion is plugged and fixed with supporting in dress component and the second cooperation assembling parts.
16. according to any fuel-cell device of claim 5 to 8, wherein the third assembling parts and the third
Cooperating assembling parts is the plug connector with conducting wire and straight cutting pedestal.
17. according to any fuel-cell device of claim 5 to 8, wherein the third assembling parts and the third
The quantity for cooperating assembling parts is two and three or more.
18. fuel cell rotary device according to claim 2, wherein the assembling mechanism includes at least one first assembled portion
Part and at least one first cooperation assembling parts, each first assembling parts and it is described first cooperation assembling parts be arranged to
Few two collector plates and the power management module, so that two affluxs are fixed in power management module electrical connection
Plate.
19. fuel-cell device according to claim 18, wherein first assembling parts and described first are with being combined
Component is filled in longitudinal grafting, limits the lateral position of the power management module.
20. fuel-cell device according to claim 18, wherein the collector plate is including at least one positive collector plate and extremely
A few negative collector plate, at least one set of first assembling parts and the first cooperation assembling parts are arranged at the negative afflux
Plate and the power management module, at least one set of first assembling parts and the first cooperation assembling parts are arranged at institute
State positive collector plate and the power management module.
21. 8 to 20 any fuel-cell device according to claim 1, wherein first assembling parts and described the
One cooperation assembling parts are selected from: in straight cutting plug and straight cutting pedestal, horizontal plug and straight cutting pedestal, golden finger and PCI connector
One of which.
22. according to any fuel-cell device of claim 2 to 8, wherein the fuel-cell device includes a shell
With a blower, the blower, the fuel cell pack and the power management module are arranged in the shell.
23. according to any fuel-cell device of claim 2 to 9, wherein the fuel-cell device includes a blower,
Wherein the blower and the power management module are located at the same side of the fuel cell pack.
24. according to any fuel-cell device of claim 2 to 9, wherein the fuel-cell device includes a blower,
The blower and the power management module are located at the two sides of the fuel cell pack.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820613762.2U CN208489294U (en) | 2018-04-26 | 2018-04-26 | Fuel-cell device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820613762.2U CN208489294U (en) | 2018-04-26 | 2018-04-26 | Fuel-cell device |
Publications (1)
Publication Number | Publication Date |
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CN208489294U true CN208489294U (en) | 2019-02-12 |
Family
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Family Applications (1)
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CN (1) | CN208489294U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110416587A (en) * | 2018-04-26 | 2019-11-05 | 武汉众宇动力系统科技有限公司 | Fuel-cell device and power management module assembling mechanism and its assemble method and heat dissipating method |
-
2018
- 2018-04-26 CN CN201820613762.2U patent/CN208489294U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110416587A (en) * | 2018-04-26 | 2019-11-05 | 武汉众宇动力系统科技有限公司 | Fuel-cell device and power management module assembling mechanism and its assemble method and heat dissipating method |
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