CN2791891Y - Fuel cell device with remote monitoring-controlling inter face - Google Patents

Abstract

The utility model relates to a fuel cell device with remote monitoring-controlling interface. It comprises at least one battery module and a communication module. Each battery module is used to conduct electrochemical reaction and exports the power. The battery module is made up of multiple folded printed circuit boards. At least one membrane electrode unit is arranged on the basal plate. The communication module is endued with communication protocol which is used to form electrical continuity for message import and export outwards. Remote apparatus conducts the monitoring fuel cell unit through the communication module.

Description

The fuel-cell device of tool remote monitoring interface

Technical field

The utility model system is about a kind of fuel-cell device, special system is about a kind of fuel-cell device of tool remote monitoring interface, make remote-control device can pass through communication module, carry out monitoring, and the fuel-cell device in the running is carried out message link up exchange the fuel-cell device running.

Background technology

Known fuel cell system utilizes hydrogen-containing fuel such as methyl alcohol, after redox reaction, forms current circuit, in order to the need of power supply to be provided.Have liquid fuel in the required reactant of this types of fuel cells, as methanol fuel, and reacted main generation system water and carbon dioxide, make fuel cell must have the structure of container and the fuel flow-guiding structure thereof of fill fluid fuel.

Moreover, the fuel supply of fuel cell and the control of operating temperature, influence for the operational paradigm of fuel cell is very big, making to provide the servicing unit that can carry out fuel supply and operating temperature to fuel cell, and these servicing units must have the characteristic that can be integrated into fuel cell easily.

In addition, use based on systematized fuel cell, or even provide the fuel cell supplier to carry out maintenance service, the communication interface that provides fuel-cell device to connect remote-control device is provided, make and perhaps further to upgrade the control program of fuel-cell device itself in the running of remote monitoring fuel-cell device.

Therefore, the utility model is based on the insufficiency of function of known fuel cell, thereby innovates improvement, and invents out a kind of fuel-cell device of tool remote monitoring interface.

Summary of the invention

The utility model main purpose system provides a kind of fuel-cell device of tool remote monitoring interface, is to have communication capacity, can allow remote-control device that the running of fuel-cell device is monitored.

Another purpose system of the present utility model provides a kind of fuel-cell device of tool remote monitoring interface, is to have transducer and radiating module, and can monitors by remote-control device.

A purpose more of the present utility model is the fuel-cell device that a kind of tool remote monitoring interface is provided, and is to have the fuel supply module setting, and can monitors by remote-control device.

For reaching the utility model above-mentioned purpose, the utility model provides a kind of fuel-cell device of tool remote monitoring interface, it is to comprise: at least more than one battery module, system is used for carrying out electrochemical reaction and output power, wherein each battery module system is made of the superimposed institute of a plurality of tellites, and in those substrates more than one at least mea is set; And a communication module, cording has a communications protocol, be used for forming message and outwards form message export into be electrically connected; Wherein, those battery modules system is electrically connected in this communication module, and remote-control device system communicates to connect in this communication module, and this remote-control device system is used for the running of this fuel cell of remote monitoring.

For making the scientific and technical personnel that are familiar with present technique understand the purpose of this utility model, feature and effect, now by following specific embodiment, and cooperate appended accompanying drawing, to the utility model illustrate in detail as after.

Description of drawings

Fig. 1 shows the component liaison figure of the fuel-cell device of the tool remote monitoring interface under first specific embodiment of the present utility model.

Fig. 2 shows the component liaison figure of the fuel-cell device of the tool remote monitoring interface under second specific embodiment of the present utility model.

Fig. 3 shows the three-dimensional view of the fuel-cell device of the tool remote monitoring interface under the 3rd specific embodiment of the present utility model.

Among the figure:

11 fuel-cell devices

The 11a battery module

The 11b communication module

12 remote-control devices

13 transmitting devices

14 computer installations

31 fuel-cell devices

311 battery modules

The 311a mea

The 311b transducer

The 311c fan

312 first circuit boards

312a first connector

313 second circuit boards

313a second connector

314 fuel supply modules

314a helps the Pu

Embodiment

Fig. 1 shows the component liaison figure of the fuel-cell device of the tool remote monitoring interface under first specific embodiment of the present utility model.The principal character of the fuel-cell device 11 of tool remote monitoring interface of the present utility model is to be to provide those battery modules 11a to carry out communication with remote-control device 12.Each battery module 11a system is by tellite and the made electrification component of those mea, lift an example, battery module 11a can be a kind of direct methanol fuel cell, it is to adopt several layers of FR4 plate, epoxy resin glass substrate, ceramic substrate, macromolecule plasticizing substrate or combined type material etc. wherein a kind of next as substrate, give those substrates superimposed, and in the middle of those substrates, interlayer is provided with several mea, and those mea systems can carry out electrochemical reaction and output power.

Shown with reference to figure 1, fuel-cell device 11 cordings have several battery modules 11a and communication module 11b, and those battery modules 11a system forms with communication module 11b and is electrically connected.Communication module 11b cording has the message I/O device of transmission communication protocol capability, and this communications protocol can adopt the means of communication that connects network node.For instance, the means of communication of network node can be to adopt the means of communication of Ethernet, the means of communication of coaxial line network, the means of communication of wireless network, the means of communication at mobile communication networking etc.

In the aforesaid fuel-cell device 11, communication module 11b can be connected to remote-control device 12 by transmitting device 13.For instance, when the means of communication that communication module 11b adopted is the Ethernet interface, one end of transmitting device 13 is the Ethernet interface, the other end is then for connecting the connecting interface of world-wide web, therefore can pass through communication module 11b and transmitting device 13, make fuel-cell device 11 reach being connected of telecommunication, make fuel-cell device 11 and remote-control device 12 can carry out the transmission and the exchange of data with remote-control device 12.

Fig. 2 shows the component liaison figure of the fuel-cell device of the tool remote monitoring interface under second specific embodiment of the present utility model.The principal character of the fuel-cell device 11 of tool remote monitoring interface of the present utility model is to be to provide those battery modules 11a to carry out communication with remote-control device 12.The concrete means of communication module 11b can be used in the communication that connects computer peripheral device and connect means.For instance, these communication connection means can be USB communication connection means, IEEE 1394 communications connection means, SDIO communication connection means, blue bud communication connection means, RS-232 communication connection means, RU-486 communication connection means, infrared-ray communication connection means, RF communication connection means etc.

Aforesaid fuel-cell device 11 is to communicate to connect to computer installation 14 by communication module 11b, and then, computer installation 14 is electrically connected to remote-control device 12 by transmitting device 13.Computer installation 14 is to have the means of communication that cooperates communication module 11b and transmitting device 13 simultaneously, makes fuel-cell device 11, communication module 11b, computer installation 14, transmitting device 13 and remote-control device 12 to connect and forms a communication chain.For instance, the concrete means of communication module 11b are the usb communication means, are connected with the USB interface of computer installation 14 by the USB transmission line.One end of transmitting device 13 is as adopting the Ethernet interface, then the Ethernet card of computer installation 14 system is connected with the Ethernet interface of transmitting device 13, simultaneously, the other end of transmitting device 13 then telecommunications is connected to remote-control device 12, by this, remote-control device 12 can carry out the transmission and the exchange of data with fuel-cell device 11.

Fig. 3 shows the three-dimensional view of the fuel-cell device of the tool remote monitoring interface under the 3rd specific embodiment of the present utility model.The fuel-cell device 31 of the utility model tool remote monitoring interface is to comprise battery module 311, first circuit board 312, second circuit board 313 and fuel supply module 314.Battery module 311 is by tellite and the made electrification component of mea, and those mea 311a system can carry out electrochemical reaction and output power.First circuit board 312 is the printed circuit board (PCB) that a slice has several first connectors 312a, those first connectors 312a connects those battery modules 311 in order to Jie, make those battery modules 311 by the first corresponding connector 312a, and set firmly and be electrically connected to first circuit board 312.Second circuit board 313 is to form with first circuit board 312 to be electrically connected, and is several second connectors 313a to be set it connects in order to outside Jie on the printed circuit board (PCB) of second circuit board 313, and transmits the signal of communications protocol by those second connectors 313a.Fuel supply module 314 is a kind of fuel-cell fuel feeding mechanism, and fuel supply module 314 supplies fuel to corresponding battery module 311 by each first connector 312a of first circuit board 312.

Based on aforesaid fuel-cell device 31, first circuit board 312 is electric property connection second circuit board 313, by the means of communication of second circuit board 313, the message of each battery module 311 is outwards transferred out via the second connector 313a.Remote-control device 12 (Fig. 3 does not show) can telecommunications be connected to fuel-cell device 31, and the operating state of monitoring fuel-cell device 31.Means of communication that second circuit board 313 adopts system can be Ethernet, coaxial line network, wireless network, mobile communication networking, USB communication, IEEE 1394 means of communications, SDIO means of communication, blue bud means of communication, RS-232 means of communication, RU-486 means of communication, infrared-ray communication means, RF means of communication etc.

Moreover shown with reference to figure 3, those battery modules 311 are provided with transducer 311b, and radiating module 311c, for example fan.Fuel supply module 314 is provided with Pu 314a of group and/or switch valve 314a.Those transducers 311b can be temperature sensor, fuel concentration sensor, current sensor and voltage sensor etc., various physical propertys with sensing battery module 311, and the electric message that transducer 311b is obtained can be via first circuit board 312, and transfers to remote-control device by second circuit board 313.Fan 311c system is used for those battery modules 311 are produced air flow fields, cooling off those battery modules 311, and supplies with enough oxygen.Remote-control device 12 can transfer to first circuit board 312 with the control message, and fan 311c is carried out Long-distance Control, and simultaneously, the message status of fan 311c can transfer to remote-control device 12, in order to the carrying out of Long-distance Control.Pu 314a of group and/or switch valve 314a system are used for additional storage in the fuel of fuel supply module 314, can be sent to battery module 311 via the first connector 312a.Simultaneously, remote-control device 12 can transfer to first circuit board 312 with the control message, and Pu 314a of group and/or switch valve 314a are carried out Long-distance Control, simultaneously, the message status of Pu 314a of group and/or switch valve 314a can transfer to remote-control device 12, in order to the carrying out of Long-distance Control.

Though the utility model discloses as above with specific embodiment; right its disclosed specific embodiment is not in order to limit the utility model; anyly be familiar with present technique person; in not breaking away from spirit and scope of the present utility model; when being used for a variety of modifications and variations; its change of doing all belongs to category of the present utility model with retouching, and protection range of the present utility model is worked as the claim person of defining who looks accompanying patent application and is as the criterion.

Claims (15)

1. the fuel-cell device of a tool remote monitoring interface, it is characterized in that: it comprises:

At least more than one battery module is to be used for carrying out electrochemical reaction and output power, and wherein each battery module system is made of the superimposed institute of a plurality of tellites, and in more than one at least mea is set in those tellites;

One communication module, cording have a communications protocol, be used for forming message and outwards form message export into be electrically connected;

Wherein, those battery modules system is electrically connected in this communication module, and a remote-control device is that telecommunication is connected in this communication module, and this remote-control device system is used for the running of this fuel-cell device of remote monitoring.

2. the fuel-cell device of tool remote monitoring interface according to claim 1, it is characterized in that: this communication module wherein, be one to be used for connecting the means of communication of network node, this means of communication wherein is the group of means of communication at means of communication, a mobile communication networking of means of communication, a wireless network of the means of communication that is selected from an Ethernet, a coaxial line network.

3. the fuel-cell device of tool remote monitoring interface according to claim 1, it is characterized in that: this communication module wherein, be one to be used to connect the means that communicate to connect of computer peripheral device, wherein this communicates to connect means, is to be selected from a usb communication to connect means, an IEEE 1394 and communicate to connect means, a SDIO and communicate to connect means, a blue bud and communicate to connect means, a RS-232 and communicate to connect means, a RU-486 and communicate to connect means, an infrared communication and connect the group that means, a RF communicate to connect means.

4. the fuel-cell device of tool remote monitoring interface according to claim 1 is characterized in that: this fuel-cell device wherein is to connect a transmitting device and this remote-control device by this communication module, forms a communication chain by this.

5. the fuel-cell device of tool remote monitoring interface according to claim 4, it is characterized in that: this fuel-cell device wherein, system connects a computer installation, a transmitting device and this remote-control device by this communication module, forms a communication chain by this.

6. the fuel-cell device of tool remote monitoring interface according to claim 1 is characterized in that: this battery module wherein is a liquid fuel battery.

7. the fuel-cell device of tool remote monitoring interface according to claim 1 is characterized in that: this battery module wherein is a fuel gas battery.

8. the fuel-cell device of tool remote monitoring interface according to claim 1 is characterized in that: this battery module wherein is a solid fuel battery.

9. the fuel-cell device of tool remote monitoring interface according to claim 1, it is characterized in that: this tellite wherein is the group that is selected from the substrate that a FR4 plate, an epoxy resin glass substrate, a ceramic substrate, macromolecule plasticizing substrate, a compound above-mentioned material form.

10. the fuel-cell device of tool remote monitoring interface according to claim 1 is characterized in that: this fuel-cell device wherein is further to comprise:

One first circuit board, it is the printed circuit board (PCB) that a slice is provided with at least more than one first connector, wherein those first connector families are used for being situated between and connect those battery modules, make those battery modules set firmly and be electrically connected to this first circuit board by first connector of correspondence by this;

One second circuit board is that a slice is provided with this communication module and at least one printed circuit board (PCB) with second connector, and wherein those second connector families are used for transmitting the signal that is used for this communications protocol;

One fuel supply module is a fuel-cell fuel feeding mechanism, and supplies fuel to corresponding battery module by each first connector of first circuit board.

11. the fuel-cell device of tool remote monitoring interface according to claim 10 is characterized in that: those battery modules wherein are the transducer that further comprises at least more than one.

12. the fuel-cell device of tool remote monitoring interface according to claim 11, it is characterized in that: those transducers wherein, system comprises a temperature sensor and/or a fuel concentration sensor and/or a current sensor and/or a voltage sensor, and wherein the sensing signal of those transducers system can transfer to this remote-control device.

13. the fuel-cell device of tool remote monitoring interface according to claim 10 is characterized in that: those battery modules wherein are further to comprise a radiating module, and wherein this radiating module system can monitor by hard to bear this remote-control device.

14. the fuel-cell device of tool remote monitoring interface according to claim 13 is characterized in that: this radiating module wherein is a fan or air group Pu.

15. the fuel-cell device of tool remote monitoring interface according to claim 10, it is characterized in that: this fuel supply module wherein, system comprises an a gang of Pu and/or a switch valve, wherein this group Pu and/or this switching valve train are used for auxiliary fuel and are sent to battery module via first connector, and this group Pu and/or this switching valve train can be monitored by hard to bear this remote-control device.