CN208580807U - Integrated fuel cell electricity generation system and device - Google Patents
Integrated fuel cell electricity generation system and device Download PDFInfo
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- CN208580807U CN208580807U CN201820523098.2U CN201820523098U CN208580807U CN 208580807 U CN208580807 U CN 208580807U CN 201820523098 U CN201820523098 U CN 201820523098U CN 208580807 U CN208580807 U CN 208580807U
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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
Abstract
Integrated fuel cell electricity generation system and device, wherein the integrated fuel cell power generator includes a fuel cell pack and multiple arrangement components, it is wherein reference with the fuel cell pack, the arrangement components are integrated in multiple sides of the fuel cell pack, the arrangement components cooperate the fuel cell pack to generate electricity, to optimize the integrated configuration of the fuel-cell device.
Description
Technical field
The utility model relates to fuel cell fields, in more detail, are related to an integrated fuel cell electricity generation system and dress
It sets.
Background technique
Fuel cell technology is a kind of generation technology of clean and effective, is gradually applied to every field, such as traffic
Transport and stationary power generation station etc..In pluralities of fuel battery, Proton Exchange Membrane Fuel Cells is wherein important one kind, is had
The advantages that temperature is low, starting is fast, specific power is high, structure is simple and convenient to operate is acknowledged as electric car, stationary power generation station etc.
The preferred energy.
The operation of Proton Exchange Membrane Fuel Cells needs a series of ancillary equipments and fuel cell pack cooperating to constitute hair
Electric system.In order to ensure the normal work of pem fuel cell stack, usually by pile, hydrogen and oxygen treatments applied system,
Hydro-thermal management system and other component are integrated, and electric generator using fuel battery or fuel battery engines are constituted.
But the Integrated Solution of fuel cell is less in currently available technology, typical scenario only has fewer manufacturer,
And all there are some problems in scheme.
Firstly, component to be mainly integrated in one or two side of pile, so that component is whole in some Integrated Solutions
Body concentrates on a region, but causes the crowded of space simultaneously, heat accumulation, while the configuration relation ratio between different components
It is more complex.
Secondly, using the design concept of flush system, whole system is integrated to be made into flat be placed in some Integrated Solutions
On vehicle chassis, integrated level is lower.Versatility of this seed type in commercial vehicle, which also compares, to twine, and arrangement is difficult, and vehicle needs
The change wanted is larger.
Third in some Integrated Solutions, is integrated with the components such as motor, electric machine controller and gearbox, integrated technology difficulty
It is larger and poor for the versatility of different automobile types, difficulty or ease transplanting.
4th, in some Integrated Solutions, reduces integrated component, reduce integrated difficulty, but be the absence of some necessity
Component, such as booster, water pump, degree of protection is not high, is only applicable to stationary power generation machine.That is, in the prior art, it is right
In it is integrated between difficulty, integrated component there is no good equilibrium relation.
Utility model content
One of the utility model is designed to provide an integrated fuel cell electricity generation system and device, with fuel cell
Heap is reference, is respectively arranged in multiple sides of fuel cell pack, makes full use of arrangement space.
One of the utility model is designed to provide an integrated fuel cell electricity generation system and device, according to fuel electricity
Pond layout, is respectively arranged arrangement components in the six direction of fuel cell pack.
One of the utility model is designed to provide an integrated fuel cell electricity generation system and device, balanced arrangement portion
Part and integrated level so that integrated difficulty will not be too high, and will not lack necessary component.
One of the utility model is designed to provide an integrated fuel cell electricity generation system and device, in fuel cell
Outer integrated support component is arranged in heap, and arrangement components are advantageously configured in predetermined position.
One of the utility model is designed to provide an integrated fuel cell electricity generation system and device, according to configuration bit
The construction for counting outer integrated support component is installed, so that being in expected configuration when arrangement components are fixed in the configuring frame
Position.
One of the utility model is designed to provide an integrated fuel cell electricity generation system and device, configured in one piece shape
Shape is relatively regular, and installation is versatile, suitable for being arranged at different types of car body.
One of the utility model is designed to provide an integrated fuel cell electricity generation system and device, in some embodiments
In, starting module, pile hydrogen drain solenoid valve, purification column, thermostat, pile water are disposed in a side of fuel cell pack
Pump.
One of the utility model is designed to provide an integrated fuel cell electricity generation system and device, in some embodiments
In, hydrogen gas circulating pump, humidifier, cooling water pump are disposed in a side of fuel cell pack.
One of the utility model is designed to provide an integrated fuel cell electricity generation system and device, in some embodiments
In, electric pressure converter and fixation member are disposed in a side of fuel cell.
One of the utility model is designed to provide an integrated fuel cell electricity generation system and device, in some embodiments
In, pile bracket is disposed in a side of fuel cell.
One of the utility model is designed to provide a fuel cell power generating system and its configuration method, in some implementations
In example, Hydrogen Vapor Pressure temperature sensor, air themperature pressure sensor, coolant pressure are disposed in a side of fuel cell
Temperature sensor, hydrogen gas solenoid valve.
One of the utility model is designed to provide a fuel cell power generating system and its configuration method, in some implementations
In example, a side of fuel cell is provided with booster and turbocharger controller.
One of the utility model is designed to provide a fuel cell power generating system and its configuration method, wherein the increasing
Depressor and the supercharger controller are integrated a charger module, are easy for installation and removal, and reduce the occupancy in space.
One of the utility model is designed to provide a fuel cell power generating system and its configuration method, in fuel electricity
The entrance and exit integrated pressure temperature sensor of Chi Dui, controls and monitors the flow of hydrogen, air and coolant liquid.
One of the utility model is designed to provide a fuel cell power generating system and its configuration method, in pile
Cooling liquid outlet is provided with thermostat, to more efficiently be cooled down according to the temperature of coolant liquid.
One of the utility model is designed to provide a fuel cell power generating system and its configuration method, is integrated with and opens
Dynamic model block starts electric pressure converter.
One of the utility model is designed to provide a fuel cell power generating system and its configuration method, is provided with solid
Determine component, facilitates lifting.
In order to realize that the above at least purpose, the one side of the utility model propose an integrated fuel cell power generator,
Include:
One fuel cell pack;With
Multiple arrangement components, wherein being reference with the fuel cell pack, in multiple side collection of the fuel cell pack
At the arrangement components, the arrangement components cooperate the fuel cell pack to generate electricity.
According to some embodiments, the fuel cell pack has six sides, a respectively front side, a rear side side, one
Left side side, a right side side, side and a lower side on one, wherein the front side is equipped with a hydrogen inlet, a hydrogen outlet, one
Air intake, an air outlet slit, a coolant inlet and a cooling liquid outlet, the hydrogen inlet are connected to the hydrogen outlet
The fuel cell pack, to provide hydrogen for the fuel cell pack, the air intake is connected to institute with the air outlet slit
Fuel cell pack is stated, to provide air for the fuel cell pack, the coolant inlet is connected to the cooling liquid outlet
The fuel cell pack, to provide coolant liquid for the fuel cell pack.
According to some embodiments, the arrangement components include a hydrogen gas solenoid valve, are integrated in the hydrogen inlet,
Control the hydrogen that the hydrogen inlet passes through.
According to some embodiments, the arrangement components include a pile hydrogen drain solenoid valve, the pile hydrogen draining
Solenoid valve is integrated in the hydrogen outlet.
According to some embodiments, the arrangement components include an at least pressure-temperature sensor, are selectively integrated in
The hydrogen inlet, the hydrogen outlet, the air intake, the air outlet slit, the coolant inlet and the cooling
Liquid outlet.
According to some embodiments, the pressure-temperature sensor includes two Hydrogen Vapor Pressure temperature sensors, two air pressures
Temperature sensor, two coolant pressure temperature sensors are integrated in the hydrogen inlet, hydrogen outlet, described respectively
Air intake, the air outlet slit, the coolant inlet and the cooling liquid outlet.
According to some embodiments, the arrangement components include a charger module, and the charger module is integrated in institute
State the rear of fuel cell pack.
According to some embodiments, the charger module includes a booster and a turbocharger controller, the booster
Controller controls the booster.
According to some embodiments, the arrangement components include an electric pressure converter, and the converter is electrically connected the fuel
Battery pile, for converting the fuel cell stack voltage, the electric pressure converter is integrated in the upside of the fuel cell pack
Side.
According to some embodiments, the arrangement components include a fixation member, and the fixation member is integrated in the combustion
Side in battery pile is expected, for fixing the integrated fuel cell power generator.
According to some embodiments, the arrangement components include a starting module, and the starting module is for starting the electricity
Pressure converter, the starting module are integrated in the left of the fuel cell pack.
According to some embodiments, the arrangement components include a purification column, and the purification column is connected to the coolant liquid and enters
Mouthful, for purifying the coolant liquid into the fuel cell pack, the purification column is integrated in the left side of the fuel cell pack
Side.
According to some embodiments, the arrangement components include a thermostat, and the thermostat is for controlling the coolant liquid
The flow direction of the coolant liquid of outlet, the thermostat are integrated in the left side side of the fuel cell pack.
According to some embodiments, the arrangement components include a pile water pump, and the pile water pump is used for the fuel
The coolant inlet of battery pile provides coolant liquid, and the pile water pump is integrated in the left side side of the fuel cell pack.
According to some embodiments, the arrangement components include a hydrogen gas circulating pump, and the hydrogen gas circulating pump connects the hydrogen
Gas outlet, recycles for hydrogen, and the hydrogen gas circulating pump is integrated in the fuel cell pack right side side.
According to some embodiments, the arrangement components include a humidifier, and the humidifier is for humidifying the booster
Pressurized air, the humidifier are integrated in the fuel cell pack right side side.
According to some embodiments, the arrangement components include a booster cooling water pump, and the booster cooling water pump is used
It is cooled down in for the charger module, the booster cooling water pump is integrated in the fuel cell pack right side side.
According to some embodiments, the fuel cell pack includes a pile and an outer integrated support component, the outer integrated support
Pile described in component package, and the multiple arrangement components provide integrated position.
According to some embodiments, the outer integrated support component includes that end-rack, the pile are clamped after end-rack and one before one
To form closed fuel cell structure between the preceding end-rack and the rear end member, the preceding end-rack and the rear end member are
The integrated component of the front side and the rear side side provides integrated position.
According to some embodiments, the outer integrated support component includes a configuring frame, and the configuring frame is arranged at the electricity
At least two sides of heap mention at least two sides in the upper side of the fuel cell pack, lower side, left side side and right side side
For integrating position.
According to some embodiments, the outer integrated support component includes a pile bracket, and the pile bracket is configured in institute
State fuel cell pack lower side.
According to some embodiments, the hydrogen inlet, the air intake and the coolant inlet are close to the fuel
Battery pile top position, the hydrogen outlet, the air outlet slit and the cooling liquid outlet are under the fuel cell pack
It sets in orientation.
According to some embodiments, the multiple arrangement components are selected from combination: a starting module, a pile hydrogen drain electromagnetism
Valve, a purification column, a thermostat, a pile water pump, a hydrogen gas circulating pump, a humidifier, a cooling water pump, voltage conversion
Device, a fixation member, a pile bracket, a Hydrogen Vapor Pressure temperature sensor, an air themperature pressure sensor, a cooling are hydraulic
Power temperature sensor, a hydrogen gas solenoid valve, a booster, a turbocharger controller, an electrically-controlled controller and a pile
One of exhaust backpressure valve is a variety of.
According to some embodiments, fuel cell pack has six sides, a respectively front side, a rear side side, a left side side,
One right side side, side and a lower side on one, the Hydrogen Vapor Pressure temperature sensor, the air pressure temperature sensor, institute
State coolant pressure temperature sensor, the hydrogen gas solenoid valve and the pile hydrogen drain solenoid valve be integrated in it is described
The front side of fuel cell pack.
According to some embodiments, after the booster and the turbocharger controller are integrated in the fuel cell pack
Side.
According to some embodiments, the starting module, the purification column, the thermostat and the pile water pump are integrated
In the left side side of the fuel cell pack.
According to some embodiments, the hydrogen gas circulating pump, the humidifier and the booster cooling water pump are integrated in
The right side side of the fuel cell pack.
According to some embodiments, the electric pressure converter and the fixation member are integrated on the upside of the fuel cell pack
Side.
The another aspect of the utility model provides an integrated fuel cell stack electricity generation system comprising:
One hydrogen gas supplying apparatus;
One filter;
One water tank;With
Integrated fuel cell power generator described in one;Wherein the hydrogen gas storing device is the fuel cell stack device
Hydrogen is provided, the filter provided air filtering for the fuel cell pack, and the water tank is fuel cell power generation dress
Offer coolant liquid is provided.
According to some embodiments, the integrated fuel cell stack electricity generation system includes a heat exchanger assembly, for scattering and disappearing
State the heat of fuel cell pile power generating device generation.
According to some embodiments, the integrated fuel cell stack electricity generation system includes a control device, the control device
Control the integrated fuel cell stack device work.
The another aspect of the utility model provides an integrated fuel cell stack configuration method comprising step:
(A) it is to depend on one outer integrated package of setting with a pile, encapsulates the pile;With
(B) it is reference with the pile, depends on the outer integrated support component, integrate multiple arrangement components in multiple sides.
Detailed description of the invention
Fig. 1 is one angle solid signal of integrated fuel cell power generator of one embodiment according to the present utility model
Figure.
Fig. 2 is that the integrated fuel cell power generator of above-described embodiment according to the present utility model another angle solid is shown
It is intended to.
Fig. 3 is that the main component decomposition of the integrated fuel cell power generator of above-described embodiment according to the present utility model is shown
It is intended to.
Fig. 4 is the main of another angle of the integrated fuel cell power generator of above-described embodiment according to the present utility model
Exploded sketch.
Fig. 5 is the fuel cell pack signal of the integrated fuel cell power generator of above-described embodiment according to the present utility model
Figure.
Fig. 6 is the integrated fuel cell electricity generation system schematic diagram of above-described embodiment according to the present utility model.
Fig. 7 is the integrated fuel cell electricity generation system operation principle schematic diagram according to the utility model above-described embodiment.
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.
It referring to Figure 1 to Figure 7, is integrated fuel cell power generator 100 and electricity generation system 1 according to the present utility model.Institute
It states integrated fuel cell power generator 100 and includes at least a fuel cell pack 10 and multiple arrangement components 20, each configuration section
Part 20 is to depend on the fuel cell pack 10, is configured in multiple sides of the fuel cell pack 10 respectively.That is,
In the present invention, the arrangement components 20 are not arranged in the space for making full use of each side of the fuel cell pack 10, and
It is not to concentrate on one or both sides.
The integrated fuel cell power generator 100 is applied to an electricity generation system 1, cooperates fuel cell generation 1
Other component produce electricl energy.Specifically, referring to Fig. 6, Fig. 7, the fuel cell generation 1 may include described integrated
Fuel cell power generating system 100, a hydrogen gas supplying apparatus 200, a control device 300, a filter 400 and a water tank 500.
The hydrogen gas supplying apparatus 200 transmits hydrogen to the integrated fuel cell power generator 100, described to provide reactive fuel
Filter 400 crosses air filtering, and the air that Xiang Suoshu integrated fuel cell power generator 100 is reacted, the cooling water tank 500 is to institute
It states integrated fuel cell power generator 100 and coolant liquid is provided, the control device 300 controls the work of the fuel cell system
Make, that is, controls the integrated fuel cell power generator 100, the hydrogen gas supplying apparatus 200, the filter 400 and described
The work of water tank 500.The integrated fuel cell device 100 can connect in a heat exchanger assembly 600, such as intercooler, use
In the heat that the integrated fuel cell device 100 that scatters and disappears generates in the process of work.
Further, the fuel cell pack 10 has six sides, and the multiple arrangement components 20 are respectively selectively arranged
In the multiple of six sides of the fuel cell, for example it is disposed therein three and the above side.
Six side, respectively the first side 110, i.e., the front side of the described fuel cell pack 10, the second side 120,
That is, the rear side side of the fuel cell pack 10, third side 130, that is, the left side side of the fuel cell pack 10, the 4th side
140, i.e., the right side side of the described fuel cell pack 10, the 5th side 150, that is, the upper side of the fuel cell pack 10, the 6th side
Side 160, i.e., the lower side of the described fuel cell pack 10.
It is noted that "front", "rear", "left", "right", "upper", "lower" etc. indicate the relationship in direction, it is intended merely to just
In understanding, the not limitation of the utility model.
It further, for convenience of explanation, is further, to determine with reference to XYZ coordinate system is established with the fuel cell pack 10
Right side side's extending direction of the justice fuel cell pack 10 is the positive axis direction of X, with left side side's extending direction of fuel cell pack 10
Extended for X negative axis directions with side extending direction on fuel cell pack 10 for the positive axis direction of Y with 10 lower side of fuel cell pack
Direction is Y negative axis directions, with 10 front side extending direction of fuel cell pack for the positive axis direction of Z, with 10 rear side side of fuel cell pack
For Z negative axis directions.
The arrangement components 20 citing ground but it is not limited to a starting module 231, a pile hydrogen drain solenoid valve 215, one
Purification column 232, a thermostat 233, a pile water pump 234, a hydrogen gas circulating pump 241, a humidifier 242, a cooling water pump, one
Electric pressure converter 251, a fixation member, a pile bracket 124, a Hydrogen Vapor Pressure temperature sensor 211, an air pressure temperature
Sensor 212, a coolant pressure temperature sensor 213, a hydrogen gas solenoid valve 214, a booster 2211, a booster
Controller 2212, an electrically-controlled controller and a pile exhaust backpressure valve.
Further, referring to Fig. 3 to Fig. 5, the fuel cell pack 10 includes a pile 11 and an outer integrated support component 12, institute
The outside that outer integrated support component 12 is configured in the pile 11 is stated, for integrating the arrangement components 20.The outer integrated support
Component 12 depends on the pile 11 and is arranged, in order to provide external harmoniousness position while encapsulating pile 11.Specifically
Ground, the outer integrated support component 12 are reference with six sides of the pile 11, are selectively arranged in the more of the pile 11
A side, the multiple side citing ground but is not limited to, two sides, three sides, four sides, five sides or six sides.Preferably, in the pile
11 three sides, four sides, five sides or six sides configure the outer integrated support component 12.The mode of the configuration illustrate ground but
It is not limited to the fixed mode of bolt.
The outer integrated support component 12 includes that end-rack 122, the pile 11 are arranged at described after end-rack 121 and one before one
Between preceding end-rack 121 and the rear end-rack 122, to form closing fuel cell structure.Specifically, the pile 11 is compacted solid
Due between the preceding end-rack 121 and the rear end-rack 122.
The preceding end-rack 121 towards the positive axis direction of Z, it is described after end-rack 122 towards Z negative axis directions.
The preceding end-rack 121 and the rear end-rack 122 are arranged at wherein two side of the fuel cell pack 10 respectively,
In order to the fixation fuel cell pack 10, while to be set to the arrangement components of the corresponding side of the fuel cell pack 10
20 provide installation site.That is, in this embodiment of the utility model, the preceding end-rack 121 and the rear end-rack
122 had both played the role of fuel cell basic structural components, while also functioning to fixed exterior part.
In this embodiment of the utility model, the fuel cell is Proton Exchange Membrane Fuel Cells.That is,
It is produced electricl energy by hydrogen and oxygen with reacting for proton exchange membrane.Therefore it needs through the interface to the fuel cell pack
10 delivered insides " fuel " such as hydrogen and oxygen and coolant liquid, to realize that fuel cell produces electricl energy, i.e. power generation process.
The preceding end-rack 121 and the rear end-rack 122 can be traditional plate-like structure, in this of the utility model
In embodiment, the preceding end-rack 121 and the rear end-rack 122 are netted supporting structures, to reduce the use of raw material, together
When be conveniently that the installation fixing positions that provides of the arrangement components 20 is set.
Further, the preceding end-rack 121 is equipped with multiple interfaces, is respectively communicated with inside the pile 11, in order to pass through
The interface provides reaction material to the fuel cell, produces electricl energy.
Specifically, referring to Fig. 3, Fig. 5, the preceding end-rack 121 is equipped with a hydrogen inlet 101 and a hydrogen outlet 102, described
Hydrogen inlet 101 is connected to inside the pile 11, for transmitting hydrogen, the hydrogen outlet to the fuel cell pack 10
102 are connected to inside the pile 11, in order to recycle the remaining hydrogen of reaction.That is, the preceding end-rack 121 is multiple
In interface, one of them described interface is hydrogen inlet 101, another described interface is hydrogen outlet 102.Citing ground, hydrogen
It can be stored in the feedway, to convey hydrogen to the hydrogen inlet 101 by the feedway.Namely
It says, in some conditions, the feedway gas connection is in the hydrogen inlet 101.
Further, the hydrogen gas solenoid valve 214 is arranged at the hydrogen inlet 101 of the front end-plate, with logical
Cross the on-off that the hydrogen gas solenoid valve 214 controls hydrogen.In other words, by being supplied described in the hydrogen solenoid valve control
The hydrogen on-off of device and the fuel cell pack 10.
That is, the hydrogen gas solenoid valve 214 of the arrangement components 20 is integrated in the fuel cell pack
10 the first side 110 is arranged in the positive axis direction of Z of the fuel cell pack 10.
A Hydrogen Vapor Pressure temperature sensor 211 in the arrangement components 20 is arranged at the hydrogen inlet 101,
The one Hydrogen Vapor Pressure temperature sensor 211 is arranged at the hydrogen outlet 102, in order to control and monitor the disengaging hydrogen
The hydrogen of gas entrance 101 and the hydrogen outlet 102.In some embodiments, it is monitored by Hydrogen Vapor Pressure temperature sensor 211
The state for passing in and out the hydrogen of the pile 11 of the fuel cell pack 10 controls hydrogen by the hydrogen gas solenoid valve 214
Gas, that is, control passes in and out the hydrogen of the pile 11.
Further, the hydrogen gas solenoid valve 214 is arranged at the hydrogen inlet 101 of the front end-plate, with logical
Cross the on-off that the hydrogen gas solenoid valve 214 controls hydrogen, that is to say, that the hydrogen gas of the arrangement components 20
Solenoid valve 214 is arranged at the first side 110 of the fuel cell pack 10, that is, is being arranged in the Z of the fuel cell pack 10 just
Axis direction.In other words, logical by the hydrogen of feedway described in the hydrogen solenoid valve control and the fuel cell pack 10
It is disconnected.More specifically, in the fuel cell generation 1, the shape of 211 monitoring hydrogen of Hydrogen Vapor Pressure temperature sensor
State, the control device 300 control the movement of the hydrogen solenoid valve, to control the hydrogen of disengaging.
More specifically, the hydrogen inlet 101 is arranged at the preceding end-rack in this embodiment of the utility model
121 close top position, the hydrogen outlet 102 are arranged at the preceding end-rack 121 close to lower position.That is,
Hydrogen enters the pile 11 from the close top position of the pile 11, from the pile 11 after lower position reaction
Remainder outflow.That is, a Hydrogen Vapor Pressure temperature sensor 211 is integrated in the first side 110 of the fuel cell
Close to top position, the first side 110 that a Hydrogen Vapor Pressure temperature sensor 211 is integrated in the fuel cell is close
Lower position.
The pile hydrogen drain solenoid valve 215 in the arrangement components 20 is arranged at the hydrogen outlet 102,
The pile hydrogen drain solenoid valve 215 is used to exhaust the water generated on hydrogen paths when pile 11 works, prevents because of hydrogen
Channel " water logging " and caused by pile 11 work it is bad.That is, the pile hydrogen drain solenoid valve 215 is configured in institute
The first side 110 of pile 11 is stated, i.e. front.More specifically, the pile hydrogen drain solenoid valve 215 be fixed in it is described before
End-rack 121.
Further, the preceding end-rack 121 is equipped with an air intake 103 and an air outlet slit 104, the air intake 103
It is connected to inside the pile 11 with the air outlet slit 104, for transmitting air to the fuel cell pack 10, more specifically
Ground, the oxygen that transmission reactive fuel needs.It is connect that is, in multiple interfaces of the preceding end-rack 121, described in one of them
Mouth is air intake 103, another described interface is air outlet slit 104.Citing ground, air can be obtained directly from exterior space
It takes, to convey air to the air intake 103 by exterior space.
It's also worth mentioning that the gas that the air intake 103 and the air outlet slit 104 transmit can be pure oxygen
Gas, oxygen can be by one oxygen feedways of storage, and the type for transmitting gas is not the limitation of the utility model.Into described
The air of pile 11 can be through the filtered air of the air filter 400.
An air pressure temperature sensor 212 in the arrangement components 20 is arranged at the air intake 103,
The one air pressure temperature sensor 212 is arranged at the air outlet slit 104, in order to control and monitor the disengaging sky
The air of gas entrance 103 and the air outlet slit 104.That is, the air pressure temperature sensor 212 is integrated in institute
State the first side 110 of fuel cell pack 10.
More specifically, the air intake 103 is arranged at the preceding end-rack in this embodiment of the utility model
121 close top position, the air outlet slit 104 are arranged at the preceding end-rack 121 close to lower position.That is,
Air enters the pile 11 from the close top position of the pile 11, from the pile 11 after lower position reaction
Remainder outflow.That is, an air pressure temperature sensor 212 is integrated in the first side 110 of the fuel cell
Close to top position, the first side 110 that an air pressure temperature sensor 212 is integrated in the fuel cell is close
Lower position.
The preceding end-rack 121 is equipped with a coolant inlet 105 and a cooling liquid outlet 106,105 He of coolant inlet
The cooling liquid outlet 106 is connected to inside the pile 11, for transmitting coolant liquid to the fuel cell pack 10, more
Body, the oxygen that transmission reactive fuel needs.That is, in multiple interfaces of the preceding end-rack 121, described in one of them
Interface is coolant inlet 105, another described interface is cooling liquid outlet 106.Citing ground, coolant liquid can be directly from described
The water tank 500 of fuel cell generation 1 obtains, thus defeated to the coolant inlet 105 by the water tank 500
Send coolant liquid.
A coolant pressure temperature sensor 213 in the arrangement components 20 is arranged at the coolant inlet
105, a coolant pressure temperature sensor 213 is arranged at the cooling liquid outlet 106, in order to control and monitor into
The coolant liquid of the coolant inlet 105 and the cooling liquid outlet 106 out.That is, the coolant pressure temperature passes
Sensor 213 is integrated in the first side 110 of the fuel cell pack 10.
In the fuel cell generation 1,213 powertrain information of coolant pressure temperature sensor to the control
Device 300 processed controls the integrated fuel cell power generator 100 by the control device 300 and works.
It is noted that the fuel cell pack 10 integrates multiple temperature in this embodiment of the utility model
Pressure sensor monitors corresponding medium, such as hydrogen, air and coolant liquid respectively.The i.e. described Hydrogen Vapor Pressure temperature sensor
211, the air pressure temperature sensor 212 and the coolant pressure temperature sensor 213 are respectively to be integrated in the hydrogen
Gas entrance 101, the hydrogen outlet 102, the air intake 103, the air outlet slit 104,105 and of the coolant inlet
The cooling liquid outlet 106, it will be appreciated by those skilled in the art that, in the base that the utility model of the utility model is conceived
On plinth, the pressure-temperature sensor is integrated to the property of can choose, for example selection goes out in the hydrogen inlet 101, the hydrogen
In mouth 102, the air intake 103, the air outlet slit 104, the coolant inlet 105 and the cooling liquid outlet 106
One or more integrate the pressure-temperature sensor.
More specifically, the coolant inlet 105 is arranged at the front end in this embodiment of the utility model
The close top position of frame 121, the cooling liquid outlet 106 are arranged at the preceding end-rack 121 close to lower position.Namely
It says, coolant liquid enters the pile 11 from the close top position of the pile 11, from the pile 11 close to lower position stream
Out.That is, a coolant pressure temperature sensor 213 is arranged at the first side 110 of the fuel cell by close over
Position, a coolant pressure temperature sensor 213 are arranged at the first side 110 of the fuel cell close to lower section
Position.
The outer integrated support component 12 includes a configuring frame 123 and a pile bracket 124, the configuring frame 123 and described
Electricity pushes away preceding end-rack 121 described in bracket engagement and the rear end-rack 122 is configured at the side of the pile 11.More specifically, at this
In this embodiment of utility model, the configuring frame 123 is configured between the preceding end-rack 121 and the rear end-rack 122
At least two sides.
Further, the configuring frame 123 and the pile bracket 124 cooperate the preceding end-rack 121 and the rear end member
It is arranged at six sides of the pile 11 respectively.
In this embodiment of the utility model, the configuring frame 123 is arranged at the third side of the pile 11
130, the 4th side 140 and the 5th side 150.That is, the configuring frame 123 is on left side, the right side of the pile 11
And upside is that the arrangement components 20 provide allocation position.
The pile bracket 124 is arranged at the 6th side 160 of the pile 11, i.e., the described pile bracket 124 is set
It is placed in the lower section of the pile 11, in order to provide support for the integrated fuel cell and arrangement components 20, is facilitated institute
10 device of integrated fuel cell stack is stated to be mounted or fix.
Further, in this embodiment of the utility model, the electricity is pleaded frame and is extended to both ends, in order to provide peace
Fill fixed position.That is, the pile bracket 124 extends to the both direction of Z axis.
This embodiment according to the present utility model, referring to Fig. 2, Fig. 3, Fig. 4, the second side 120 of the pile 11 collects
At having the booster 2211 and turbocharger controller 2212, the booster 2211 and boost controller mutual cooperation are
The pile 11 provides compressed air.The turbocharger controller 2212 controls the work of the booster 2211.
Further, 2211 gas connection of booster is in the air intake 103 for being located at the first side 110.Also
It is to say, enters the air intake 103 by the pressurized air of the booster 2211, and pass through the air pressure temperature
Spend the monitoring of sensor 212.In the fuel cell generation 1,2212 information communication of turbocharger controller is in institute
Controller is stated, the turbocharger controller 2212 and the booster 2211 are controlled by the controller.
Further, in the fuel cell generation 1, the filter 400 is connected to the booster 2211,
Air filtering is crossed by the filter 400, is sucked by the booster 2211, the fuel cell pack 10 is transmitted to after pressurization.Through
The pressurized air of the booster 2211 is crossed, pressure and temperature all increases, therefore reduces temperature by a heat exchanger assembly 600
Degree.The heat exchanger assembly 600 is arranged at except the integrated fuel cell power generator 100, that is to say, that the heat is handed over
It changes component 600 and is not directly integrated in the fuel cell pack 10.Pressurized air is cold by the heat exchanger assembly 600
But the fuel cell pack 10 is passed back afterwards.
The booster 2211 is one in addition to the pile 11 and the controller in the fuel cell generation 1
A kernel component, most important for the Performance And Reliability of fuel cell pack 10, booster 2211 directly determines fuel
The increment of the oxygen " fuel " of battery pile 10 also will have a direct impact on the corresponding speed of 11 pairs of pile loads, when booster 2211
When by " pollution ", it may result in 11 power of pile and sharply decline.
In this embodiment of the utility model, the booster 2211 and the turbocharger controller 2212 are constituted
One charger module 221 is integrally arranged in the rear of the fuel cell pack 10, i.e. the second side 120, and convenient transportation
And fixation.
More specifically, the charger module 221 is fixed in the pile bracket 124, that is to say, that the electricity is pleaded
The extension of frame is that the charger module 221 provides fixed position.
In this embodiment of the utility model, the booster 2211 includes a compressor, a motor, a heat exchange
Machine and an oil tank.Compressor described in the motor driven drives work, and the oil tank is for accommodating lubricating oil, in order to lubricate
The bearing for stating booster 2211 guarantees the reliability of the compressor to run at high speed.The heat exchanger is used to be the pressure
Mechanism of qi carries out cooling effect, guarantees running at high speed for the compressor.
Further, the turbocharger controller 2212 is fixed in the pile bracket 124, and the motor described is calmed the anger
Machine, the oil tank and the heat exchanger are fixed in the turbocharger controller 2212.
Referring to Figure 2 to Figure 4, the third side 130 of the fuel cell pack 10 be equipped with a starting module 231, institute
Starting module 231 is stated for for the electric pressure converter 251 is pre-charged and starts the electric pressure converter 251.That is, institute
State the left side that the starting module 231 in arrangement components 20 is arranged at the fuel cell pack 10.
Further, the starting module 231 is fixed in the configuring frame 123 of the fuel cell pack 10, is located at institute
State the left side of pile 11.More specifically, the starting module 231 is arranged at by the position of close over, in order to be electrically connected
State electric pressure converter 251.The starting module 231 is arranged at the medium position being laterally extended, in order to which two sides are fixed respectively
Other configurations component 20.
The third side 130 of the fuel cell pack 10 is configured with the purification column 232, and the purification column 232 is for going
Except the cold ion gone in liquid of pile 11,11 inside " short circuit " of pile is avoided.That is, the purification column 232 is arranged at institute
State the left side of pile 11.The purification column 232 is fixed in the configuring frame 123, positioned at the left side of the pile 11.
232 fluid connection of purification column is in the coolant inlet 105, in order to purify into the pile 11
The coolant liquid in portion.In some embodiments of the utility model, 232 fluid connection of purification column in the water tank 500, so as to
Before the coolant liquid stored by the water tank 500 enters the pile 11, the purification of the purification column 232 is first passed through.
In this embodiment of the utility model, the purification column 232 is arranged at 231 lower section of starting module,
In order to make full use of 130 space of third side of the right battery pile.
The third side 130 of the fuel cell pack 10 is disposed with the thermostat 233 and the pile water pump 234, institute
It states thermostat 233 and the pile water pump 234 and the cooling liquid outlet 106 is connected to by pipeline, when pile coolant temperature
When less than 233 setting value of thermostat, pile coolant liquid directly passes through coolant liquid and returns to water pump, pressurizes through the pile water pump 234
After be returned to pile 11, when pile coolant temperature be greater than 233 setting value of thermostat when, 233 inner passage of thermostat is beaten
It opens, pile coolant liquid enters a pile radiator by pipeline, returns pile through fan coolling in the pile radiator
11, in cycles.
That is, the thermostat 233 controls the flow direction of the coolant liquid, to more efficiently be cooled down.Institute
The outside that pile radiator is arranged at the integrated fuel cell power generator 100 is stated, is not integrated in the integrated combustion
Expect cell apparatus.That is, the thermostat 233 is by pipeline connection in external institute in the fuel cell generation 1
State pile radiator.
The thermostat 233 and the pile cooling water pump 234 are fixed in the configuring frame 123, are located at the pile
11 left side.
Further, the thermostat 233 and the pile water pump 234 are arranged at the starting module 231 and described pure
Near position is leaned in the front for changing column 232.That is, the thermostat 233 and the pile water pump 234 are close to the coolant liquid
106 position of entrance 105 and the cooling liquid outlet.
The pile water pump 234 is arranged at 233 lower position of thermostat, to make full use of the fuel cell pack
The space in 10 left side.
Referring to Fig.1, Fig. 3, the 4th side 140 of the fuel cell pack 10 are disposed with the hydrogen gas circulating pump 241, institute
It states hydrogen gas circulating pump 241 and delivers into next 11 circular response of pile for the pile 11 to be reacted remaining hydrogen.Institute
It states hydrogen gas circulating pump 241 and is fixed in the configuring frame 123, positioned at the right side of the pile 11.
4th side 140 of the fuel cell pack 10 is disposed with the humidifier 242, the humidifier 242 for pair
Air into the pile 11 is humidified, and the 11 inner air overdrying of pile is avoided enter into, and guarantees the power generation property of pile 11
Energy and reliability.The humidifier 242 is fixed in the configuring frame 123, positioned at the right side of the pile 11.
In some embodiments, 242 gas connection of humidifier is in air intake 103,2211 gas of booster
It is connected to the booster 2211, so that passing through institute again after humidification of the pressurized gas by the humidifier 242
It states air intake 103 and enters the pile 11.
In some embodiments, the humidifier 242 is connected to the heat exchanger assembly 600, the heat exchanger assembly 600
It is connected to the booster 2211, the booster 2211 is connected to the filter 400.That is, in the process of work
In, the circulation path of air is that outside air is sucked by the filtration of the filter 400 by the booster 2211,
Increase pressure, and then be transferred into the heat exchanger assembly 600 and cool down, the air after cooling is transferred into described
Humidifier 242 carries out humidification, is then reacted by the air intake 103 into the pile 11.
On the other hand, other gases and water that reaction is not engaged in air are excluded from the pile 11, and enter institute
Stating humidifier 242 is that the pile 11 is humidified, and is then discharged.That is, 242 gas connection of humidifier is in being located at
The air intake 103 and the air outlet slit 104 on front side of the fuel cell pack 10.
4th side 140 of the fuel cell pack 10 is disposed with the booster cooling water pump 243, and the booster is cold
But water pump 243, for being cooled down for the booster 2211.The booster cooling water pump 243 is fixed in the configuration
Frame 123, positioned at the right side of the pile 11.After the booster cooling water pump 243 is arranged at the hydrogen gas circulating pump 241
Orientation is set, to make full use of the right side horizontal space position of the pile 11.
Referring to figs. 1 to Fig. 4, the 5th side 150 of the fuel cell pack 10 is disposed with the electric pressure converter 251, institute
Electric pressure converter 251 is stated for converting the voltage that the pile 11 produces electricl energy, in order to be applicable in different grades of voltage requirements.
The electric pressure converter 251 may include a high pressure DC and a low voltage DC, and the high pressure DC is defeated by the pile 11
Voltage out increases, and after being transferred to high voltage power distribution device, provides electric energy for motor, booster 2211 or other High-Voltage Electrical Appliances.It is described
The voltage that low voltage DC exports the pile 11 reduces, and can be the power supply of the low-voltage electrical apparatuses such as fan, water pump, solenoid valve.
The electric pressure converter 251 is fixed in the configuring frame 123, is located at 11 top position of pile.
In some embodiments, the 5th side 150 of the fuel cell pack 10 is provided with the fixation member, in order to
The integrated fuel cell device is fixed on the equipment applied, for example is conveniently fixed on car body or lifting is facilitated to carry.
The fixation member is fixed in the configuring frame 123, in some embodiments, the fixation member integrally connected
In the configuring frame 123.The fixation member can be lifting lug.
In some implementations, can 11 side of pile or a few sides selectively arrange the control device 300,
Pile exhaust backpressure valve.
Referring to Fig. 2 and Fig. 4, the electricity pleads the 6th side 160 that frame 124 is arranged at the fuel cell pack 10,
That is the electricity pleads the lower side that frame 124 is arranged at the fuel cell pack 10, bottom position, in order to be described
Fuel cell pack 10 provides whole support, and the pile bracket 124 can be to be integrated in first side and described
The arrangement components 20 of two sides provide installation fixing position and set.
The course of work of the fuel cell generation 1 is:
Fuel cell pack 10 needs three kinds of media at work, is hydrogen, air, coolant liquid respectively, and hydrogen and air are
Reactant, coolant liquid play cooling effect to pile 11.Hydrogen from the hydrogen gas storage device come out after by depressurizing and adjusting
It is pressed into the hydrogen gas solenoid valve 214, the hydrogen gas solenoid valve 214 is used to control the hydrogen of vehicle fuel battery
On-off.Then the hydrogen inlet 101 before pile above end-rack 121 enters the pile 11, and hydrogen enters the pile
11 after chemical reactions, the endless hydrogen of primary first-order equation enter after coming out from the lower section of end-rack 121 before the pile and are located at right side
The hydrogen gas circulating pump 241, hydrogen gas circulating pump 241, which pumps, to be entered back into next pile 11 after gas and recycles.In going out for pile hydrogen
It is provided with the pile hydrogen drain solenoid valve on mouthful, is generated on hydrogen paths when being primarily used to exhaust the work of pile 11
Water prevents from causing pile 11 to work because of hydrogen paths " water logging " bad.Hydrogen inlet 101 and outlet 102 in pile 11
Design has the pressure-temperature sensor 211 to be used to control and monitor hydrogen flowing quantity.Air is located at pile 11 by filtering
The booster 2211 of rear side sucks pressurization, and pressure and temperature raises simultaneously, and air themperature overheats and increases close in order to prevent
Degree, the air after pressurization heating are entered back into after the heat exchanger assembly 600 positioned at the 11 right side humidifier of pile
242, humidification enters fuel cell later.Oxygen and hydrogen ion in air react in pile 11 generates water, does not join in air
It is discharged with other gases and water (there are two types of forms, and one is vapor, one is liquid waters) reacted from the pile 11, into
Enter the humidifier 242 to be humidified to 11 air inlet of pile, then discharge.In 11 air intake 103 of pile and outlet
104, which are equipped with the pressure-temperature sensor 212, is used to control and monitor air mass flow.Pile 11 is carrying out hydrogen and oxygen reaction
During can generate heat, need coolant liquid in time to take away these heats, so pile water pump 234 can be from the water tank
500 draw water is cooled down to pile 11.Due to the heat that pile 11 generates under different operating conditions be it is different, so cold in pile
But liquid outlet 106 will be installed the thermostat 233 for being located at 11 left side of pile, cold when coolant temperature is not high
But the pile water pump 234 that liquid can be returned directly to be located at 11 left side of pile is again introduced into pile 11, works as coolant temperature
When very high, the thermostat 233 can cool down coolant liquid introducing radiator, then return to the pile water pump 234,
11 coolant inlet 105 of pile and outlet are equipped with the pressure-temperature sensor, for controlling and detecting coolant rate.Electricity
The electricity that heap 11 generates enters the voltage converter being located above the pile 11 and is converted to predetermined voltage range, such as 260~
700V high voltage direct current, for the driving of motor or to power battery charging or low-voltage DC.It is left positioned at the pile 11
The starting module 231 of side is used to be used to start the electric pressure converter 251 to the electric pressure converter 251 precharge.
Above-described embodiment according to the present utility model, the utility model provides an integrated fuel cell configuration method, described
Method comprising steps of
S1: it is to depend on one outer integrated support component 12 of setting with a pile 11, encapsulates the pile 11;With
S2: it is reference with the pile 11, the outer integrated support component 12 is depended on, in multiple side integrated configuration components
20。
In the step S1, outer integrated support component 12 citing ground but it is not limited to, the preceding end-rack 121, the rear end
Frame 122, the pile bracket 124 and the configuring frame 123.
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 of the utility model
Energy and structural principle show and illustrate in embodiment, under without departing from the principle, the embodiments of the present invention
Can there are any deformation or modification.
Claims (31)
1. integrated fuel cell power generator characterized by comprising
One fuel cell pack;With
Multiple arrangement components integrate institute in multiple sides of the fuel cell pack wherein being reference with the fuel cell pack
Arrangement components are stated, the arrangement components cooperate the fuel cell pack to generate electricity.
2. integrated fuel cell power generator according to claim 1, wherein the fuel cell pack has six sides,
A respectively front side, a rear side side, a left side side, a right side side, side and a lower side on one, wherein the front side is set
There are a hydrogen inlet, a hydrogen outlet, an air intake, an air outlet slit, a coolant inlet and a cooling liquid outlet, it is described
Hydrogen inlet is connected to the fuel cell pack with the hydrogen outlet, to provide hydrogen, the sky for the fuel cell pack
Gas entrance is connected to the fuel cell pack with the air outlet slit, to provide air, the cooling for the fuel cell pack
Liquid entrance is connected to the fuel cell pack with the cooling liquid outlet, to provide coolant liquid for the fuel cell pack.
3. integrated fuel cell power generator according to claim 2, wherein the arrangement components include a hydrogen gas
Solenoid valve is integrated in the hydrogen inlet, controls the hydrogen that the hydrogen inlet passes through.
4. integrated fuel cell power generator according to claim 2, wherein the arrangement components include a pile hydrogen
Drain solenoid valve, the pile hydrogen drain solenoid valve are integrated in the hydrogen outlet.
5. integrated fuel cell power generator according to claim 2, wherein the arrangement components include an at least pressure
Temperature sensor is selectively integrated in the hydrogen inlet, the hydrogen outlet, the air intake, the air and is gone out
Mouth, the coolant inlet and the cooling liquid outlet.
6. integrated fuel cell power generator according to claim 5, wherein the pressure-temperature sensor includes two hydrogen
Atmospheric pressure temperature sensor, two air pressure temperature sensors, two coolant pressure temperature sensors are integrated in described respectively
Hydrogen inlet, the hydrogen outlet, the air intake, the air outlet slit, the coolant inlet and the coolant liquid go out
Mouthful.
7. integrated fuel cell power generator according to claim 2, wherein the arrangement components include a booster mould
Block, the charger module are integrated in the rear of the fuel cell pack.
8. integrated fuel cell power generator according to claim 7, wherein the charger module includes a booster
With a turbocharger controller, the turbocharger controller controls the booster.
9. integrated fuel cell power generator according to claim 2, wherein the arrangement components are converted including a voltage
Device, the converter is electrically connected the fuel cell pack, for converting the fuel cell stack voltage, the electric pressure converter quilt
It is integrated in the upper side of the fuel cell pack.
10. integrated fuel cell power generator according to claim 9, wherein the arrangement components include a fixed part
Part, the fixation member are integrated in side on the fuel cell pack, for fixing the integrated fuel cell power generator.
11. integrated fuel cell power generator according to claim 9, wherein the arrangement components include a starting mould
Block, for the starting module for starting the electric pressure converter, the starting module is integrated in a left side for the fuel cell pack
Side.
12. integrated fuel cell power generator according to claim 2, wherein the arrangement components include a purification column,
The purification column is connected to the coolant inlet, for purifying the coolant liquid into the fuel cell pack, the purification column
It is integrated in the left side side of the fuel cell pack.
13. integrated fuel cell power generator according to claim 2, wherein the arrangement components include a thermostat,
The thermostat is used to control the flow direction of the coolant liquid of the cooling liquid outlet, and the thermostat is integrated in the fuel cell
The left side side of heap.
14. integrated fuel cell power generator according to claim 2, wherein the arrangement components include a pile water
Pump, the pile water pump are used to provide coolant liquid, the pile water pump quilt to the coolant inlet of the fuel cell pack
It is integrated in the left side side of the fuel cell pack.
15. integrated fuel cell power generator according to claim 2, wherein the arrangement components are recycled including a hydrogen
Pump, the hydrogen gas circulating pump connect the hydrogen outlet, recycle for hydrogen, and the hydrogen gas circulating pump is integrated in the fuel
Battery pile right side side.
16. integrated fuel cell power generator according to claim 8, wherein the arrangement components include a humidifier,
The humidifier is integrated on the right side of the fuel cell pack for humidifying the air after the charger boost, the humidifier
Side.
17. integrated fuel cell power generator according to claim 2, wherein the arrangement components include that a booster is cold
But water pump, the booster cooling water pump are used to be cooled down for the charger module, and the booster cooling water pump is collected
Fuel cell pack right side side described in Cheng Yu.
18. according to any integrated fuel cell power generator of claim 2 to 17, wherein the fuel cell pack includes
One pile and an outer integrated support component, pile described in the outer integrated support component package, and the multiple arrangement components provide collection
At position.
19. integrated fuel cell power generator according to claim 18, wherein the outer integrated support component includes before one
End-rack after end-rack and one, the pile are held between the preceding end-rack and the rear end member to form closed fuel cell
Structure, the preceding end-rack and the rear end member provide integrated position for the integrated component of the front side and the rear side side.
20. integrated fuel cell power generator according to claim 18, wherein the outer integrated support component is matched including one
Set frame, the configuring frame is arranged at least two sides of the pile, be the upper side of the fuel cell pack, lower side,
At least two sides in left side side and right side side provide integrated position.
21. integrated fuel cell power generator according to claim 18, wherein the outer integrated support component includes an electricity
Heap bracket, the pile bracket are configured in the fuel cell pack lower side.
22. according to any integrated fuel cell power generator of claim 2 to 17, wherein the hydrogen inlet, described
Air intake and the coolant inlet are close to the fuel cell pack top position, the hydrogen outlet, the air outlet slit
With the cooling liquid outlet close to the fuel cell pack lower position.
23. integrated fuel cell power generator according to claim 1, wherein the multiple arrangement components are selected from combination:
One starting module, a pile hydrogen drain solenoid valve, a purification column, a thermostat, a pile water pump, a hydrogen gas circulating pump, one
Humidifier, a cooling water pump, an electric pressure converter, a fixation member, a pile bracket, a Hydrogen Vapor Pressure temperature sensor, one
Air themperature pressure sensor, a coolant pressure temperature sensor, a hydrogen gas solenoid valve, a booster, a booster
One of controller, an electrically-controlled controller and a pile exhaust backpressure valve are a variety of.
24. integrated fuel cell power generator according to claim 23, wherein fuel cell pack has six sides, respectively
For side and a lower side on a front side, a rear side side, a left side side, a right side side, one, the Hydrogen Vapor Pressure temperature sensing
Device, the coolant pressure temperature sensor, the hydrogen gas solenoid valve and the pile hydrogen drain solenoid valve are integrated
In the front side of the fuel cell pack.
25. integrated fuel cell power generator according to claim 23, wherein the booster and the booster control
Device processed is integrated in the rear side side of the fuel cell pack.
26. integrated fuel cell power generator according to claim 23, wherein the starting module, the purification column,
The thermostat and the pile water pump are integrated in the left side side of the fuel cell pack.
27. integrated fuel cell power generator according to claim 23, wherein the hydrogen gas circulating pump, the humidifier
The right side side of the fuel cell pack is integrated in the booster cooling water pump.
28. integrated fuel cell power generator according to claim 23, wherein the electric pressure converter and the fixation
Component is integrated in side on the fuel cell pack.
29. integrated fuel cell electricity generation system characterized by comprising
One hydrogen gas supplying apparatus;
One filter;
One water tank;With
One -28 any integrated fuel cell power generator according to claim 1;Wherein the hydrogen gas storing device is institute
It states fuel cell stack device and hydrogen is provided, the filter provided air filtering for the fuel cell pack, and the water tank is institute
It states fuel cell power generating system and coolant liquid is provided.
30. integrated fuel cell electricity generation system according to claim 29, wherein the integrated fuel cell electricity generation system
Including a heat exchanger assembly, the heat generated for the fuel cell pile power generating device that scatters and disappears.
31. integrated fuel cell electricity generation system according to claim 29, wherein the integrated fuel cell electricity generation system
Including a control device, the control device controls the integrated fuel cell stack device work.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110190294A (en) * | 2019-06-12 | 2019-08-30 | 北京亿华通科技股份有限公司 | A kind of modular cart hydrogen fuel cell system |
CN110329114A (en) * | 2019-09-04 | 2019-10-15 | 潍柴动力股份有限公司 | A kind of control method of fuel cell, control system and electric car |
CN110380095A (en) * | 2018-04-12 | 2019-10-25 | 武汉众宇动力系统科技有限公司 | Integrated fuel cell electricity generation system and device and its configuration method |
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2018
- 2018-04-12 CN CN201820523098.2U patent/CN208580807U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110380095A (en) * | 2018-04-12 | 2019-10-25 | 武汉众宇动力系统科技有限公司 | Integrated fuel cell electricity generation system and device and its configuration method |
CN110190294A (en) * | 2019-06-12 | 2019-08-30 | 北京亿华通科技股份有限公司 | A kind of modular cart hydrogen fuel cell system |
CN110329114A (en) * | 2019-09-04 | 2019-10-15 | 潍柴动力股份有限公司 | A kind of control method of fuel cell, control system and electric car |
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