CN202484596U

CN202484596U - Fully automated hydrogen supply device

Info

Publication number: CN202484596U
Application number: CN2012200274370U
Authority: CN
Inventors: 李朝阳; 李士宏; 薛杨
Original assignee: Beijing Hydrogenergy Technologycoltd
Current assignee: Beijing Hydrogenergy Technologycoltd
Priority date: 2012-01-20
Filing date: 2012-01-20
Publication date: 2012-10-10
Anticipated expiration: 2022-01-20

Abstract

The utility model provides a fully automated hydrogen supply device which comprises a hydrogen-using device, more than two groups of hydrogen sources and an automatic switch device. A first input port of the automatic switch device is connected with the hydrogen sources, and an output port of the automatic switch device is connected with the hydrogen-using device. Therefore, real-time collection of a hydrogen pressure output by a hydrogen bottle assembled lattice group and detected by a monitoring instrument can be achieved. Besides, when the detected hydrogen pressure is relatively low, automatic switch of the hydrogen bottle assembled lattice group can be achieved so that real-time observation of the monitoring instrument on site by operation staff is not needed, and at the same time manual operation for switching the hydrogen bottle assembled lattice group is not needed. The fully automated hydrogen supply device has the advantages of being high in monitoring efficiency and capable of switching the hydrogen bottle assembled lattice group timely and conveniently.

Description

Full-automatic hydrogen supply device

Technical field

The utility model relates to a kind of hydrogen supply device, is specifically related to a kind of full-automatic hydrogen supply device.

Background technique

Hydrogen supply device is mainly used in to hydrogen storage equipment hydrogen source being provided, and in the existing hydrogen supply device, a plurality of hydrogen cylinder collection dress lattice groups are passed through COMM communication and are connected with hydrogen storage equipment, wherein, on the input pipeline of COMM communication, monitoring device are installed.In the using process; When COMM communication and hydrogen cylinder collection dress lattice group is communicated with and to hydrogen storage equipment conveying hydrogen the time; Operator need observe the Hydrogen Vapor Pressure that shows on the monitoring device at the scene, when the Hydrogen Vapor Pressure that shows is low, need the manually-operable COMM communication; COMM communication is communicated with another hydrogen cylinder collection dress lattice group, thereby adorns lattice group to using the hydrogen storage equipment hydrogen supply through another hydrogen cylinder collection.

Therefore, in the above-mentioned handoff procedure, need operator frequently to observe monitoring device to hydrogen cylinder collection dress lattice group, and, when needs switch hydrogen cylinder collection dress lattice group, also need the manually-operable COMM communication, have the defective of the inconvenience of taking time and effort, use.

The model utility content

To the defective that existing technology exists, the utility model provides a kind of full-automatic hydrogen supply device, comprises automatic switching control equipment; The detected hydrogen cylinder collection of acquisition monitoring instrument is adorned the Hydrogen Vapor Pressure of lattice group output in real time, and, when detected Hydrogen Vapor Pressure is low; Can realize switching the effect of hydrogen cylinder collection dress lattice group automatically, therefore, not need operator's Real Time Observation monitoring device at the scene; Simultaneously, do not need manual switchover hydrogen cylinder collection dress lattice group yet, have the high advantage of monitoring efficiency; And, can also be in time and switch hydrogen cylinder collection dress lattice group easily.

The technological scheme of the utility model is following:

The utility model provides a kind of full-automatic hydrogen supply device; Comprise with hydrogen storage equipment and two groups of above hydrogen sources; Also comprise: automatic switching control equipment, first input interface of said automatic switching control equipment is connected with said hydrogen source, and the output interface of said automatic switching control equipment is connected with hydrogen storage equipment with said.

Preferably, said automatic switching control equipment comprises: pressure acquisition module, controller and switching executing module; Said pressure acquisition module is installed on the intake line of said automatic switching control equipment, and the input end of said controller is connected with said pressure acquisition module, and the output terminal of said controller is connected with said switching executing module.

Preferably, said controller is installed in remote monitoring platform, and it is on-the-spot that said pressure acquisition module and said switching executing module are installed in monitoring.

Preferably, said pressure acquisition module is a pressure transducer.

Preferably, said automatic switching control equipment is the automatic switching control equipment with first hydrogen decompressing unit.

Preferably, said automatic switching control equipment also comprises: second input interface, said second input interface is connected with the inert gas bottle through the inert blowing gas cleaning device.

Preferably, at said automatic switching control equipment and saidly the second hydrogen decompressing unit, hydrogen allocation units and measuring instrument also are installed successively between with hydrogen storage equipment.

The utility model provides a kind of full-automatic hydrogen supply device, comprises automatic switching control equipment, in real time the Hydrogen Vapor Pressure of the detected hydrogen cylinder collection dress of acquisition monitoring instrument lattice group output; And, when detected Hydrogen Vapor Pressure is low, can realize switching the effect of hydrogen cylinder collection dress lattice group automatically; Therefore, do not need operator's Real Time Observation monitoring device at the scene, simultaneously; Do not need manual switchover hydrogen cylinder collection dress lattice group yet; Have the high advantage of monitoring efficiency, and, can also be in time and switch hydrogen cylinder collection dress lattice group easily.

Description of drawings

The structure principle chart of the full-automatic hydrogen supply device that Fig. 1 provides for the utility model;

The schematic diagram of the automatic switching control equipment that Fig. 2 provides for the utility model.

Embodiment

Below in conjunction with accompanying drawing the full-automatic hydrogen supply device that the utility model provides is elaborated:

As shown in Figure 1; The utility model provides a kind of full-automatic hydrogen supply device, comprises with hydrogen storage equipment and two groups of above hydrogen sources, also comprises: automatic switching control equipment; First input interface of automatic switching control equipment is connected with hydrogen source, the output interface of automatic switching control equipment be connected with hydrogen storage equipment.Wherein, hydrogen source can be for being built-in with several hydrogen cylinder collection dress lattice groups of hydrogen cylinder, and each hydrogen cylinder collection dress lattice group comprises several hydrogen cylinder collection dress lattice.In the utility model, the quantity of hydrogen source can not limit this for 2 groups, any amount more than 4 groups or 2 groups.

Concrete, as shown in Figure 2, automatic switching control equipment comprises: pressure acquisition module, controller and switching executing module; Said pressure acquisition module is installed on the intake line of said automatic switching control equipment, and the input end of said controller is connected with said pressure acquisition module, and the output terminal of said controller is connected with said switching executing module.Wherein, the pressure acquisition module can be pressure transducer, and controller can be the PLC controller.For satisfying the needs of remote monitoring; Can controller be installed in remote monitoring platform; It is on-the-spot that pressure acquisition module and switching executing module are installed in monitoring, and controller receives the force value on the intake line of the automatic switching control equipment that the pressure acquisition module uploads through network, when detected force value is lower than predefined value; Send switching command to switching executing module, carry out concrete handover operation by switching executing module.Therefore, the utility model does not need operator's Real Time Observation monitoring device at the scene, simultaneously, does not need manual switchover hydrogen cylinder collection dress lattice group yet, has the high advantage of monitoring efficiency, and, can also be in time and switch hydrogen cylinder collection dress lattice group easily.

In addition, for improving the safety in utilization of full-automatic hydrogen supply device, automatic switching control equipment also comprises: second input interface, second input interface is connected with the inert gas bottle through the inert blowing gas cleaning device.Therefore, before carrying out hydrogen supply, can at first in full-automatic hydrogen supply device, charge into inert gas through the inert blowing gas cleaning device.

In addition, according to actual needs, automatic switching control equipment can also comprise: the first hydrogen decompressing unit.At automatic switching control equipment and between the second hydrogen decompressing unit, hydrogen allocation units and measuring instrument can also be installed successively with hydrogen storage equipment.Through the first hydrogen decompressing unit and the hydrogen decompression to carrying successively of the second hydrogen decompressing unit, thereby make the Hydrogen Vapor Pressure that provides satisfy demand with hydrogen storage equipment.

In sum, the full-automatic hydrogen supply device that the utility model provides comprises automatic switching control equipment; The detected hydrogen cylinder collection of acquisition monitoring instrument is adorned the Hydrogen Vapor Pressure of lattice group output in real time, and, when detected Hydrogen Vapor Pressure is low; Can realize switching the effect of hydrogen cylinder collection dress lattice group automatically, therefore, not need operator's Real Time Observation monitoring device at the scene; Simultaneously, do not need manual switchover hydrogen cylinder collection dress lattice group yet, have the high advantage of monitoring efficiency; And, can also be in time and switch hydrogen cylinder collection dress lattice group easily.

The above only is the preferred implementation of the utility model; Should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; Can also make some improvement and retouching, these improvement and retouching also should be looked protection scope of the present invention.

Claims

1. full-automatic hydrogen supply device; Comprise with hydrogen storage equipment and two groups of above hydrogen sources, it is characterized in that, also comprise: automatic switching control equipment; First input interface of said automatic switching control equipment is connected with said hydrogen source, and the output interface of said automatic switching control equipment is connected with hydrogen storage equipment with said.

2. full-automatic hydrogen supply device according to claim 1 is characterized in that, said automatic switching control equipment comprises: pressure acquisition module, controller and switching executing module; Said pressure acquisition module is installed on the intake line of said automatic switching control equipment, and the input end of said controller is connected with said pressure acquisition module, and the output terminal of said controller is connected with said switching executing module.

3. full-automatic hydrogen supply device according to claim 2 is characterized in that said controller is installed in remote monitoring platform, and it is on-the-spot that said pressure acquisition module and said switching executing module are installed in monitoring.

4. full-automatic hydrogen supply device according to claim 2 is characterized in that, said pressure acquisition module is a pressure transducer.

5. full-automatic hydrogen supply device according to claim 2 is characterized in that, said automatic switching control equipment is the automatic switching control equipment with first hydrogen decompressing unit.

6. full-automatic hydrogen supply device according to claim 1 is characterized in that, said automatic switching control equipment also comprises: second input interface, said second input interface is connected with the inert gas bottle through the inert blowing gas cleaning device.

7. full-automatic hydrogen supply device according to claim 1 is characterized in that, at said automatic switching control equipment and saidly the second hydrogen decompressing unit, hydrogen allocation units and measuring instrument also are installed successively between with hydrogen storage equipment.