CN209798120U - Hydrogen and oxygen generator - Google Patents

Abstract

The utility model provides a oxyhydrogen generator, include: the device comprises a shell, a metal sheet, a graphene pressing sheet, silica gel, a water inlet and a gas outlet; the shell includes the same first shell and the second shell of shape, the sheetmetal include the shape the same and with the anodal sheetmetal of shape assorted and the negative pole sheetmetal of shell, graphite alkene preforming includes unilateral fluting type graphite alkene preforming, thin wall type graphite alkene preforming and hollow type graphite alkene preforming, silica gel includes the cavity silica gel piece. The utility model has the whole structure formed by splicing the shell, the metal sheet, the graphene pressing sheet and the silica gel, the water electrolysis is carried out in the water electrolysis cavity enclosed by the middle, the titanium platinum metal sheet is used as an electrode, the graphene pressing sheet is used as a conductive medium, and the graphene pressing sheet has better conductivity, thereby being beneficial to improving the electrolysis effect, improving the purity of the obtained hydrogen and finishing the water electrolysis by using low voltage; meanwhile, the device is small in size, convenient to install, suitable for vehicle-mounted use and convenient to maintain.

Description

Hydrogen and oxygen generator

Technical Field

The utility model relates to an energy-concerving and environment-protective technical field especially relates to a oxyhydrogen generator.

Background

At present, the hydrogen preparation methods mainly comprise thermochemical reforming, electrolyzed water and photolyzed water which are traditional energy sources. The thermochemical reforming of traditional energy sources can not continuously extract hydrogen, can not solve the fundamental contradiction between energy and environment, has high carbon emission and is not friendly to the environment. The hydrogen production by electrolyzing water is sustainable and low-pollution, water resources are convenient to obtain, and the cost is low. However, in the existing water electrolysis technology, high voltage electricity is mostly needed to be used or the high voltage electricity is transformed into low voltage electricity by a transformer, and the water electrolysis is limited by large power, large volume and high cost of the transformer.

SUMMERY OF THE UTILITY MODEL

To this end, it is an object of the present invention to provide an oxyhydrogen generator that can use low voltage to electrolyze water.

The utility model provides a oxyhydrogen generator, include: the device comprises a shell, a metal sheet, a graphene pressing sheet, silica gel, a water inlet and a gas outlet; the shell comprises a first shell and a second shell which are identical in shape, the metal sheets comprise an anode metal sheet and a cathode metal sheet which are identical in shape and matched with the shell in shape, the graphene pressing sheets comprise single-side slotted graphene pressing sheets, thin-wall graphene pressing sheets and hollow graphene pressing sheets which are identical in shape and matched with the shell in shape, and the silica gel comprises a hollow silica gel sheet; the oxyhydrogen generator is formed by sequentially splicing the first shell, the positive metal sheet, the single-side grooved graphene pressing sheet, the hollow silica gel sheet, the thin-wall graphene pressing sheet, the hollow silica gel sheet, the hollow graphene pressing sheet, the negative metal sheet and the second shell; the shape of the slot of the single-side slotted graphene pressing sheet, the shape of the central hole of the hollow silica gel sheet and the shape of the central hole of the hollow graphene pressing sheet are the same; during splicing, the slotting of the slotted graphene pressing sheet and the central hole of the hollow silica gel sheet are opposite in direction, and the thin-wall graphene pressing sheet clamped in the slotted graphene pressing sheet is combined to form a water electrolysis cavity; the water inlet and the air outlet both penetrate through the shell, and the metal sheet and the graphene pressing sheet are communicated with the water electrolysis cavity.

The utility model has the whole structure formed by splicing the shell, the metal sheet, the graphene pressing sheet and the silica gel, the water electrolysis is carried out in the water electrolysis cavity enclosed by the middle, the titanium platinum metal sheet is used as an electrode, the graphene pressing sheet is used as a conductive medium, and the graphene pressing sheet has better conductivity, thereby being beneficial to improving the electrolysis effect, improving the purity of the obtained hydrogen and finishing the water electrolysis by using low voltage; meanwhile, the device is small in size, convenient to install, suitable for vehicle-mounted use and convenient to maintain.

Further, a filter screen is arranged in the water electrolysis cavity.

Further, the shell, the metal sheet, the graphene pressing sheet and the silica gel are spliced together through a stud.

Further, the metal sheet is a titanium platinum material electrode.

Further, the number of the air outlets is two, and the two air outlets are respectively connected to the first shell and the second shell.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic structural diagram of an oxyhydrogen generator according to an embodiment of the present invention;

Fig. 2 is an exploded view of an oxyhydrogen generator according to an embodiment of the present invention.

In the drawings are labeled:

1 outer cover

11 first shell

12 second housing

2 sheet Metal

11 positive electrode metal sheet

12 negative pole metal sheet

3 graphene tablets

31 unilateral fluting type graphite alkene preforming

32 thin-wall type graphene tablet

33 hollow graphene tablet

4 silica gel

41 hollow silica gel sheet

42 filter screen

5 water inlet

6 air outlet

7 stud

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The embodiment of the utility model provides a oxyhydrogen generator, as shown in fig. 1 and fig. 2, include: the device comprises a shell 1, a metal sheet 2, a graphene pressing sheet 3, silica gel 4, a water inlet 5 and a gas outlet 6; the shell 1 comprises a first shell 11 and a second shell 12 which are identical in shape, the metal sheet 2 comprises a positive electrode metal sheet 11 and a negative electrode metal sheet 12 which are identical in shape and matched with the shell 1 in shape, the graphene pressing sheet 3 comprises a single-side slotted graphene pressing sheet 31, a thin-wall graphene pressing sheet 32 and a hollow graphene pressing sheet 33 which are identical in shape and matched with the shell 1 in shape, the silica gel comprises a hollow silica gel sheet 41, and the size of the hollow silica gel sheet is slightly smaller than that of the shell; the oxyhydrogen generator is formed by sequentially splicing the first shell 11, the positive metal sheet 21, the single-side grooved graphene pressing sheet 31, the hollow silicon sheet 41, the thin-wall graphene pressing sheet 32, the hollow silicon 41 film, the hollow graphene pressing sheet 33, the hollow silicon sheet 41, the thin-wall graphene pressing sheet 32, the hollow silicon sheet 41, the hollow graphene pressing sheet 33, the negative metal sheet 22 and the second shell 12 in sequence; the positive electrode metal sheet 21 is connected with a positive electrode of an external power supply, the negative electrode metal sheet 22 is connected with a negative electrode of the external power supply, and the shapes of the slotting of the single-side slotted graphene pressing sheet 31, the central hole of the hollow silica gel sheet 41 and the central hole of the hollow graphene pressing sheet 33 are the same; during splicing, the directions of the slots of the slotted graphene pressing sheets 31 and the central holes of the hollow silica gel sheets 41 and the central holes of the hollow graphene pressing sheets 33 are corresponding, and a water electrolysis cavity is enclosed by combining the thin-wall graphene pressing sheets 32 clamped in the slots; the water inlet 5 and the air outlet 6 penetrate through the shell 1, and the metal sheet 2 and the graphene pressing sheet 3 are communicated with the water electrolysis cavity. Preferably, the metal sheet 1 is a titanium-platinum electrode, and has low resistance, which is beneficial to improving the electrolysis efficiency.

The utility model has the whole structure formed by splicing the shell, the metal sheet, the graphene pressing sheet and the silica gel, the water electrolysis is carried out in the water electrolysis cavity enclosed by the middle, the titanium platinum metal sheet is used as an electrode, the graphene pressing sheet is used as a conductive medium, and the graphene pressing sheet has better conductivity, thereby being beneficial to improving the electrolysis effect, improving the purity of the obtained hydrogen and finishing the water electrolysis by using low voltage; meanwhile, the device is small in size, convenient to install, suitable for vehicle-mounted use and convenient to maintain.

In an aspect of the embodiment of the utility model, be provided with filter screen 42 in the water electrolysis chamber, the filter screen can filter the impurity of electrolysis in-process aquatic, guarantees the purity of electrolysis water, improves the life of device.

the embodiment of the utility model provides an aspect, shell 1, sheetmetal 2, graphite alkene preforming 3 and silica gel 4 splice together through double-screw bolt 7, guarantee the compactness of connecting.

In an aspect of the embodiment of the present invention, the gas outlet 6 has two, and is respectively connected to the first housing 11 and the second housing 12, and the gas outlet is arranged on the housing at both sides, so that the emission of the prepared gas is facilitated, and the stroke of the gas in the device is reduced.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (5)

1. An oxyhydrogen generator, comprising:

the device comprises a shell, a metal sheet, a graphene pressing sheet, silica gel, a water inlet and a gas outlet;

the shell comprises a first shell and a second shell which are identical in shape, the metal sheets comprise an anode metal sheet and a cathode metal sheet which are identical in shape and matched with the shell in shape, the graphene pressing sheets comprise single-side slotted graphene pressing sheets, thin-wall graphene pressing sheets and hollow graphene pressing sheets which are identical in shape and matched with the shell in shape, and the silica gel comprises a hollow silica gel sheet;

The oxyhydrogen generator is formed by sequentially splicing the first shell, the positive metal sheet, the single-side grooved graphene pressing sheet, the hollow silica gel sheet, the thin-wall graphene pressing sheet, the other hollow silica gel sheet, the hollow graphene pressing sheet, the other hollow silica gel sheet, the other thin-wall graphene pressing sheet, the other hollow silica gel sheet, the other hollow graphene pressing sheet, the negative metal sheet and the second shell in sequence;

The shape of the slot of the single-side slotted graphene pressing sheet, the shape of the central hole of the hollow silica gel sheet and the shape of the central hole of the hollow graphene pressing sheet are the same; during splicing, the slotting of the slotted graphene pressing sheet and the central hole of the hollow silica gel sheet are opposite in direction, and the thin-wall graphene pressing sheet clamped in the slotted graphene pressing sheet is combined to form a water electrolysis cavity;

the water inlet and the air outlet both penetrate through the shell, and the metal sheet and the graphene pressing sheet are communicated with the water electrolysis cavity.

2. An oxyhydrogen generator according to claim 1, characterized in that a sieve is arranged in the water electrolysis chamber.

3. The oxyhydrogen generator according to claim 1, wherein the housing, the metal sheet, the graphene sheet and the silica gel are spliced together by a stud.

4. The oxyhydrogen generator according to claim 1, wherein the metal sheet is a titanium platinum material electrode.

5. An oxyhydrogen generator according to claim 1, wherein said gas outlet is provided in two, respectively connected to said first and second housings.