CN203639563U - Hydrogen making equipment for laboratory - Google Patents

Abstract

The utility model discloses hydrogen making equipment for a laboratory. The hydrogen making equipment comprises a reaction chamber, an air storage tank and a hydrogen outlet. The hydrogen making equipment is characterized in that a water inlet and an air outlet are respectively formed at the top of the reaction chamber; a control box body is arranged at the bottom of the reaction chamber; an electrode mounting base is arranged at one side of the bottom of the reaction chamber; an electrode is arranged on the electrode mounting base and arranged inside the reaction chamber; the control box body is connected with the electrode; the air outlet is connected with the air storage tank; the air storage tank is connected with oxygen absorption equipment; the oxygen absorption equipment is connected with drying equipment; the drying equipment is connected with a hydrogen outlet; a control valve is arranged between the hydrogen outlet and the drying equipment; and a hydrogen purity inspection table is arranged between the control valve and the drying equipment. The hydrogen making equipment has the advantages that the hydrogen making equipment is high in safety coefficient, simple in preparation technology, high in purity, low in energy consumption, large in air flow, concise and decent in overall structure and wide in application range.

Description

Use for laboratory hydrogen equipment

Technical field

The utility model relates to laboratory equipment field, relates in particular to a kind of use for laboratory hydrogen equipment.

Background technology

Hydrogen is the lightest known in the world gas.The use of hydrogen is ubiquitous, particularly in the middle of each laboratory.Laboratory draws place as many experimental datas, has consequence in scientific development, therefore the preparation of hydrogen have can not or scarce importance.Use for laboratory oxygen generating plant safety coefficient of the prior art is not high, preparation process complexity, and purity is inadequate, and hydrogen is a kind of gas of very easily blasting, purity requirement height very.

Therefore, be badly in need of a kind of improved technology and solve existing this problem in prior art.

Utility model content

The purpose of this utility model is to provide a kind of use for laboratory hydrogen equipment.

The technical solution adopted in the utility model is:

Use for laboratory hydrogen equipment, comprise reaction chamber, gas-holder and go out hydrogen mouth, it is characterized in that: described reactor top is respectively equipped with water inlet and air outlet, described reaction chamber bottom is provided with control casing, described reaction chamber bottom one side is provided with electrode mounting seat, described electrode mounting seat is provided with electrode, described electrode is located at reaction chamber inside, described control casing connection electrode, described air outlet connects gas-holder, described gas-holder connects oxygen breathing device, described oxygen breathing device connects drying plant, described drying plant connects hydrogen mouth, describedly go out to be provided with control valve between hydrogen mouth and drying plant, between described control valve and drying plant, be provided with hydrogen purity master meter.

Described control valve connects gas-holder near hydrogen purity master meter end.

Described reaction chamber is provided with pressure sensing device, and described pressure sensing device connects controls casing.

Described reaction chamber is provided with temperature sensing device, and described temperature sensing device connects controls casing.

Described control casing is connected at the gasbag-type plug of reactor top one side.

The utility model has the advantages that: safety coefficient is high, preparation technology is simple, and purity is high, consumes energy low, and airshed is large, and terminal with compact integral structure is generous, and usage range is wide.

Brief description of the drawings

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Fig. 1 is structural representation of the present utility model.

Wherein: 1, reaction chamber, 2, gas-holder, 3, go out hydrogen mouth, 4, water inlet, 5, control casing, 6, electrode mounting seat, 7, electrode, 8, air outlet, 9, oxygen breathing device, 10, drying plant, 11, control valve, 12, hydrogen purity master meter, 13, pressure sensing device, 14, temperature sensing device, 15, gasbag-type plug.

Embodiment

As shown in Figure 1, use for laboratory hydrogen equipment of the present utility model, comprise reaction chamber 1, gas-holder 2 and go out hydrogen mouth 3, described reaction chamber 1 top is respectively equipped with water inlet 4 and air outlet 8, described reaction chamber 1 bottom is provided with controls casing 5, described reaction chamber 1 bottom one side is provided with electrode mounting seat 6, described electrode mounting seat 6 is provided with electrode 7, described electrode 7 is located at reaction chamber 1 inside, described control casing 5 connection electrode 7, described air outlet 8 connects gas-holder 2, described gas-holder 2 connects oxygen breathing device 9, described oxygen breathing device 9 connects drying plant 10, described drying plant 10 connects hydrogen mouth 3, describedly go out to be provided with control valve 11 between hydrogen mouth 3 and drying plant 10, between described control valve 11 and drying plant 10, be provided with hydrogen purity master meter 12, described control valve 11 connects gas-holder 2 near hydrogen purity master meter 12 ends, described reaction chamber 1 is provided with pressure sensing device 13, described pressure sensing device 13 connects controls casing 5, described reaction chamber 1 is provided with temperature sensing device 14, described temperature sensing device 14 connects controls casing 5, described control casing 5 is connected at the gasbag-type plug 15 of reaction chamber 1 top one side, safety coefficient is high, preparation technology is simple, purity is high, consume energy low, airshed is large, terminal with compact integral structure is generous, usage range is wide.

Claims (5)

1. use for laboratory hydrogen equipment, comprise reaction chamber, gas-holder and go out hydrogen mouth, it is characterized in that: described reactor top is respectively equipped with water inlet and air outlet, described reaction chamber bottom is provided with control casing, described reaction chamber bottom one side is provided with electrode mounting seat, described electrode mounting seat is provided with electrode, described electrode is located at reaction chamber inside, described control casing connection electrode, described air outlet connects gas-holder, described gas-holder connects oxygen breathing device, described oxygen breathing device connects drying plant, described drying plant connects hydrogen mouth, describedly go out to be provided with control valve between hydrogen mouth and drying plant, between described control valve and drying plant, be provided with hydrogen purity master meter.

2. use for laboratory hydrogen equipment according to claim 1, is characterized in that: described control valve connects gas-holder near hydrogen purity master meter end.

3. use for laboratory hydrogen equipment according to claim 1, is characterized in that: described reaction chamber is provided with pressure sensing device, and described pressure sensing device connects controls casing.

4. use for laboratory hydrogen equipment according to claim 1, is characterized in that: described reaction chamber is provided with temperature sensing device, and described temperature sensing device connects controls casing.

5. use for laboratory hydrogen equipment according to claim 1, is characterized in that: described control casing is connected at the gasbag-type plug of reactor top one side.

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