CN104805464A - High-pressure oxyhydrogen machine - Google Patents

Abstract

The present invention provides a high-pressure oxyhydrogen machine, which comprises at least a group of electrolysis tanks and a storage tank for storing and placing an electrolyte, wherein the electrolysis tanks are laterally spliced into the integration, the storage tank is arranged above each electrolysis tank and can convey the electrolyte into each electrolysis tank through pipelines, an anode plate, a cathode plate and an insulating mesh layer arranged between the anode plate and the cathode plate are arranged in the electrolysis tank, a plurality of small through holes are respectively arranged on the anode plate and the cathode plate, the mesh of the insulating mesh layer can allow the electrolyte, hydrogen gas and oxygen gas to pass through, the close pressing respectively exists between the insulating mesh layer and the anode plate and between the insulating mesh layer and the cathode plate so as to reduce the resistance and improve the hydrogen gas and oxygen gas production work efficiency, at least two inclined convex ribs are arranged on the inner wall surfaces on both sides of the electrolysis tank, and the internal space of the concave groove can be cut into the Z-shaped space with the two convex ribs, such that the electrolyte in the concave groove, the hydrogen gas and the oxygen gas are guided to upward flow along the Z-shaped path.

Description

High voltage hydrogen-oxygen machine

Technical field

The present invention relates to a kind of high voltage hydrogen-oxygen machine, it is mainly in the manufacturing speed increasing oxyhydrogen, the output pressure of Yi Jiqing, oxygen.

Background technology

Hydrogen, oxygen fuel generation device rely on electrolysis mode that the electrolytic solution electrolysis in electrolyzer is produced hydrogen, oxygen.The working efficiency of electrolyzer is related to the benefit used of hydrogen-oxygen fuel.If the electric energy of 100KL can only produce the heat energy of 30KL, working efficiency only reaches 30%, the cost of oxyhydrogen gas-fired can be made to improve, do not meet economic benefit.

Affect working efficiency a lot of because have that electrolysis mode manufactures hydrogen, oxygen, such as: in electrolyzer, the spacing of negative plate and positive plate comparatively far, will produce larger impedance, reduction working efficiency.If the spacing of negative plate and positive plate is comparatively near, just can reduce impedance, promote working efficiency.But also can reduce fast because of the water-content of the electrolytic solution between negative plate and positive plate, and have a strong impact on working efficiency.

When the mobility of electrolytic solution in electrolyzer is low, easily between the two poles of the earth, produce polarized action, affect electrolysis benefit.In the process of brine electrolysis, temperature rise phenomenon can be produced, the temperature in electrolyzer be raised, affects electrolytic efficiency.Again, the temperature of electrolyzer is too high can produce too much water vapour, and this water vapour can be discharged along with hydrogen, oxygen, causes hydrogen, oxygen pure not, just can be utilized after the branch that must first dewater after filtration.

Use hydrogen, oxygen that the mode of brine electrolysis obtains, its output pressure is too low, is often not enough to the burning making separately to have utility value, such as: can not do burning and cutting work.Therefore, hydrogen, oxygen delivery mostly mix to air-fuel mixture indoor with the Volatile Gas of flammable liquid (as: alkanes, alcohols, alcohol, gasoline) by hydrogen, oxygen fuel generation device, improve the combustion benefits of flammable liquid.The hydrogen that the electrolyzer that some working efficiency is higher produces, amount of oxygen, be merely able to the work of freezing.Investigate this hydrogen, reason that oxygen can not do burning and cutting, be the hydrogen because electrolyzer produces, oxygen output pressure not enough, be the part that burning and cutting are disconnected cannot be pushed open, form the state be separated with tangent plane.

Summary of the invention

Main purpose of the present invention is providing a kind of high voltage hydrogen-oxygen machine, and it can improve the working efficiency of hydrogen manufacturing, oxygen.

Still a further object of the present invention is providing a kind of high voltage hydrogen-oxygen machine, and it can export High Pressure Hydrogen, oxygen, to carry out the work with burning and cutting of welding.

For achieving the above object, the technical solution used in the present invention is:

A kind of high voltage hydrogen-oxygen machine, it is characterized in that, it comprises: the electrolyzer, of at least one group is for storing the storage tank of electrolytic solution; Described each electrolyzer is horizontally-spliced integral; Described storage tank is arranged on the top of this each electrolyzer, and pipeline can be relied on to be sent into by electrolytic solution in this each electrolyzer; Comprise in each electrolyzer: a positive plate, a negative plate, are arranged on the insulation stratum reticulare between this positive plate and negative plate; Most little perforation laid respectively by this positive plate and negative plate; Tight pressing respectively between this insulation stratum reticulare and this positive plate, negative plate, and the mesh of this insulation stratum reticulare can allow that electrolytic solution and hydrogen, oxygen pass; The fluid inlet that on this each electrolyzer, electrolysis liquid enters is arranged on bottom land, and the venting port that hydrogen supply, oxygen are discharged is arranged on groove top; The venting port of this each electrolyzer relies on pipeline hydrogen, oxygen to be sent in this storage tank.

Wherein, the housing of this each electrolyzer is formed by a left shell and a right shell body spelling group; The inner face of this left shell and right shell body arranges groove respectively with corresponded manner, accommodating electrolytic solution in two these grooves; This positive plate, insulation stratum reticulare, negative plate are put between this left shell and right shell body by pressure and locate; Leak-proof gasket is provided with leakproof between this left shell and right shell body.

Wherein, the fluid inlet that on each electrolyzer described, electrolysis liquid enters is arranged on the trailing edge of bottom land; The venting port that hydrogen supply, oxygen are discharged is arranged on the leading edge on groove top.

Wherein, the trailing edge of the left shell of this electrolyzer and the bottom portion of groove of right shell body is provided with this fluid inlet; The leading edge of the groove top of left shell and right shell body arranges this venting port.

Wherein, the positive plate of each electrolyzer described external connection end by this electrolyzer upper end and for giving prominence near leading edge; The external connection end of this negative plate by this electrolyzer upper end and for giving prominence near trailing edge.

Wherein, at least two are respectively arranged with in skewed fin in the left shell of this each electrolyzer and a right shell body groove; The internal space of this groove can be cut into zigzag space by two these fins, to guide electrolytic solution in this groove and hydrogen, oxygen upwards flow along Z-shaped path.

Wherein, the fin of this each electrolyzer left shell, right shell body groove can produce push effect to this positive plate and negative plate respectively, and makes to form tight pressing between this positive plate, insulation stratum reticulare, negative plate.

Wherein, the periphery of the left and right housing of this each electrolyzer is provided with the perforation that most left and right align; Rely on the corresponding perforation running through the periphery setting of the left and right housing of this each electrolyzer respectively of most screws, and this each electrolyzer can be spliced into one with serial shape.

Wherein, also include two metal sheets, this two metal sheet is provided with the perforation aligned respectively of boring a hole with the left and right casing peripheral of each electrolyzer, runs through for this each screw; This two metal sheet is separately positioned on this each electrolyzer and is spliced into the both sides integrally, then relies on nut to be screwed on each screw, and forces this two metal sheet that each electrolyzer is done tight pressing.

Wherein, in this each electrolyzer in any two adjacent electrolyzers, the left shell of an electrolyzer and the right shell body of another electrolyzer are formed in one structure.

Wherein, this storage tank is provided with pressure and takes into account a pressure switch; This pressure warning unit can detect the pressure of hydrogen in storage tank, oxygen; This pressure switch can start electrolytic circuit during the insufficient pressure of hydrogen, oxygen in storage tank.

Compared with prior art, the beneficial effect that the present invention has is: the working efficiency that can improve hydrogen manufacturing, oxygen.

Accompanying drawing explanation

Fig. 1 is outside drawing of the present invention;

Fig. 2 is the part sectioned view of Fig. 1;

Fig. 3 is the enlarged view of part A in Fig. 2;

Fig. 4 is the sectional view of the other direction of Fig. 1;

Fig. 5 is the partial enlarged drawing of Fig. 2;

Fig. 6 is the exploded view of electrolyzer;

Fig. 7 is another embodiment that electrolytic cell housing is formed.

Description of reference numerals: 10-electrolyzer; 11-left shell; 111-groove; 112-fin; 113-fin; 114-bores a hole; 115-bores a hole; 12-right shell body; 121-groove; 122-fin; 123-fin; 124-bores a hole; 125-bores a hole; 13-venting port; 14-fluid inlet; 20-storage tank; 21-pipeline; 22-pipeline; 23-pressure warning unit; 24-pressure switch; 25-liquid level detector; 26-pipeline; 27-pipeline; 28-electrolytic solution; 30-positive plate; 31-aperture; 32-external connection end; 33-current conducting rod; 40-negative plate; 41-aperture; 42-external connection end; 43-current conducting rod; 50-insulate stratum reticulare; 60-leak-proof gasket; 61-leak-proof gasket; 62-screw; 63-nut; 64-screw; 70-metal sheet; 71-mounting plate; 72-support body.

Embodiment

High voltage hydrogen-oxygen owner of the present invention at raising the manufacture hydrogen of electrolyzer, the working efficiency of oxygen, and will can export the hydrogen, the oxygen that are suitable for carrying out burning and cutting work.Refer to Fig. 1 ~ Fig. 4.Described high voltage hydrogen-oxygen machine comprises setting: the electrolyzer 10, of at least one group is for storing the storage tank 20 of electrolytic solution 28.This each electrolyzer 10 is horizontally-spliced integral.Setting is comprised: positive plate 30, negative plate 40, is arranged on the insulation stratum reticulare 50 between this positive plate 30 and negative plate 40 in this each electrolyzer 10.Most little perforation 31,41 laid respectively by this positive plate 30 and negative plate 40, can allow that electrolytic solution 28 and hydrogen, oxygen pass, see Fig. 6.Be respectively tight pressing between this insulation stratum reticulare 50 and this positive plate 30, negative plate 40, and the mesh of this insulation stratum reticulare 50 can allow that electrolytic solution 28 and hydrogen, oxygen pass.Narrow down to close to the limit between this positive plate 30 and negative plate 40, current impedance is reduced as much as possible, natural energy improves the working efficiency of hydrogen manufacturing, oxygen.Because electrolytic solution 28 is in flowing shape, and constantly can upgrade electrolytic solution 28 between this positive plate 30 and negative plate 40, make hydrogen manufacturing, oxygen working efficiency can not because of between this positive plate 30 and negative plate 40 very near and have negative impact.

The housing of each electrolyzer 10 aforementioned is formed by a left shell 11 and a right shell body 12 spelling group.This left shell 11 arranges groove 111,121 with corresponded manner, accommodating electrolytic solution in this two groove 111,121 respectively with the inner face of right shell body 12.This positive plate 30, insulation stratum reticulare 50, negative plate 40 are put between this left shell 11 and right shell body 12 by pressure and locate.Leak-proof gasket 60,61 is provided with leakproof between this left shell 11 and right shell body 12.In implementation, more can be coated with leakproof silica gel (not shown) further at the seam crossing of this left and right housing 11,12, ensure without leakage object to reach.At least two are respectively arranged with in skewed fin 112,113,122,123 in the left shell 11 of this electrolyzer 10 and right shell body 12 groove 111,121.The internal space of the groove 111,112 of correspondence can be cut into zigzag space by this two fin 112,113,122,123, upwards flows with hydrogen, oxygen with the electrolytic solution 28 of guiding in this two groove 111,121 along zigzag path.The fin 112,113,122,123 of this electrolyzer 10 left shell 11, right shell body 12 groove 111,121 can produce superzapping effect to this positive plate and negative plate respectively, and makes to form pressing more closely between this positive plate 30, insulation stratum reticulare 50, negative plate 40.This insulation stratum reticulare 50 can be glass fiber mesh layer, also can be asbestos stratum reticulare.

Described storage tank 20 is arranged on the top of this each electrolyzer 10, and pipeline 21 can be relied on to be sent into by electrolytic solution 28 in this each electrolyzer 10.The venting port 13 of this each electrolyzer 10 relies on pipeline 22 hydrogen, oxygen to be sent in this storage tank 20.The fluid inlet 14 that on this each electrolyzer 10, electrolysis liquid 28 enters is arranged on the trailing edge of bottom land, and the venting port 13 that hydrogen supply, oxygen are discharged is arranged on the leading edge on groove top.The electrolytic solution sent in electrolyzer 10 by storage tank 20 upwards can rise along this inner zigzag space of groove 111,121, and hydrogen, oxygen that brine electrolysis produces also upwards can rise along this inner zigzag space of groove 111,121, make electrolytic solution 28 in the running water shape of flowing.The hydrogen produced during electrolysis, oxygen can through this positive plate 30 and the apertures 31,41 on positive plate 40, and the mesh of this insulation stratum reticulare 50 and upwards riseing, thrust can be produced to the electrolytic solution 28 in electrolyzer 10, make electrolytic solution 28 in continual dynamic flow, make the electrolytic solution 28 between positive plate 30 and negative plate 40 constantly upgrade, and then promote the working efficiency that electrolysis manufactures hydrogen, oxygen.

The hydrogen produced in aforementioned electrolyzer 10, oxygen 22 are being transported in the process of this storage tank 20 by the road, and the electrolytic solution in this electrolyzer 10 can upwards be carried by the dispatch pressure of this hydrogen, oxygen, and is sprayed into by force in this storage tank 20 by the electrolytic solution in this pipeline 22.Namely normal temperature electrolytic solution 28 in this storage tank 20 sent in this electrolyzer 10 along the transfer line 21 of electrolytic solution.Produce good Circulation between electrolytic solution 28 then in this electrolyzer 10 and the electrolytic solution 28 in this storage tank 20, and the heat of electrolyzer 10 can be taken away, avoid the temperature in electrolyzer 10 too high.Therefore this electrolyzer 10 is in the process of brine electrolysis, continues to do the cooling effect upgrading electrolytic solution 28 and taken away by heat, and improve the working efficiency of electrolysis.

The left shell 11 of this electrolyzer 10 is not provided with this fluid inlet 14 with the rear fate bottom the groove 111,121 of right shell body 12.This left shell 11 arranges this venting port 13 with the leading edge at groove 111,121 top of right shell body 12.

The external connection end 32 of the positive plate 30 of this each electrolyzer 10 by this electrolyzer 10 upper end and for giving prominence near leading edge.The external connection end 42 of this negative plate 40 by this electrolyzer 10 lower end and for giving prominence near trailing edge.So, electric current can flow the longer time on this positive plate 30 with negative plate 40, and the electrolytic solution 28 between this positive plate 30 and negative plate 40 is done to the electrolysis of long period, promotes the working efficiency of hydrogen manufacturing, oxygen further.The external connection end 32 of this each positive plate 30 can rely on a current conducting rod 33 in parallel.The external connection end 42 of this each negative plate 40 can rely on another current conducting rod 43 in parallel.

The periphery of the left and right housing 11,12 of this each electrolyzer 10 is provided with about most the perforation 114,115,124,125 aligned.In the present embodiment, four end angles of left and right housing 11,12 periphery of this each electrolyzer are respectively provided with a perforation 115,125, arrange two perforation 114,124 in addition the every of four limits.Rely on the corresponding perforation 114,124 running through the periphery setting of the left and right housing 11,12 of this each electrolyzer 10 respectively of most screws 62, and this each electrolyzer 10 can be spliced into one with serial shape.Outside after this each electrolyzer 10 combines more can arrange a metal sheet 70 to improve the structural capacity after the combination of each electrolyzer 10.This two metal sheet 70 is provided with the perforation (on figure non-label) aligned respectively of boring a hole with the left and right casing peripheral of each electrolyzer, runs through for this each screw 62.This two metal sheet 70, be separately positioned on this each electrolyzer 10 be spliced into one after both sides, then rely on nut 63 to be screwed on each screw 62, and force this two metal sheet 70 to do tight pressing effect to each electrolyzer 10.

When actually operating, ㄧ mounting plate 71 can be set up respectively outside this two metal sheet 70 aforementioned.The visual work of this mounting plate 71 is in order to a part for the support body 72 of fixing each electrolyzer 10.This two mounting plate 71 is the metal person of making, therefore between this metal sheet 70 and this mounting plate 71, is provided with insulation layer (not shown on figure), to improve the security in use.In order to the convenience of assembling, this mounting plate 71 is provided with the perforation (figure on non-label) that arrange corresponding on metal sheet 70, makes the outside also this mounting plate 71 being assembled in this metal sheet 70 while the group-combining type state of each electrolyzer 10 of solid locking.On this left shell 11, right shell body 12, metal sheet 70, mounting plate 71, the perforation 115,125 at four each end angle places, can rely on four screws 64 through the perforation (on figure non-label) that support body 72 is preset, and be locked on this support body 72.

This storage tank 20 is provided with pressure warning unit 23, can predict the pressure of hydrogen, oxygen in storage tank 20.When in this storage tank 20, the force value of hydrogen, oxygen reaches the work being enough to carry out burning and cutting, begin hydrogen, oxygen to export along pipeline 27.Therefore the present invention is a kind of device of exportable High Pressure Hydrogen oxygen.This storage tank 20 is provided with pressure switch 24, can cut off the electrolytic circuit of electrolyzer 10 when storage tank 20 internal pressure is too high, also can in storage tank 10 internal pressure lower than the electrolytic circuit opening electrolyzer 10 during set(ting)value.This storage tank 20 is provided with a liquid level detector 25, when the liquid level of storage tank 20 electrolyte inside 28 is too low, can be sent in storage tank 20 by water along pipeline 26.

When electrolyzer 10 quantity of high voltage hydrogen-oxygen machine of the present invention is more than two, in any two adjacent electrolyzers 10, the left shell 11 of an electrolyzer 10 can be integrated with the right shell body 12 of another electrolyzer 10, as shown in Figure 7.

More than illustrate just illustrative for the purpose of the present invention; and nonrestrictive, those of ordinary skill in the art understand, when not departing from the spirit and scope that claim limits; many amendments, change or equivalence can be made, but all will fall within protection scope of the present invention.

Claims (11)

1. a high voltage hydrogen-oxygen machine, is characterized in that, it comprises: the electrolyzer, of at least one group is for storing the storage tank of electrolytic solution; Described each electrolyzer is horizontally-spliced integral; Described storage tank is arranged on the top of this each electrolyzer, and pipeline can be relied on to be sent into by electrolytic solution in this each electrolyzer; Comprise in each electrolyzer: a positive plate, a negative plate, are arranged on the insulation stratum reticulare between this positive plate and negative plate; Most little perforation laid respectively by this positive plate and negative plate; Tight pressing respectively between this insulation stratum reticulare and this positive plate, negative plate, and the mesh of this insulation stratum reticulare can allow that electrolytic solution and hydrogen, oxygen pass; The fluid inlet that on this each electrolyzer, electrolysis liquid enters is arranged on bottom land, and the venting port that hydrogen supply, oxygen are discharged is arranged on groove top; The venting port of this each electrolyzer relies on pipeline hydrogen, oxygen to be sent in this storage tank.

2. high voltage hydrogen-oxygen machine according to claim 1, is characterized in that, the housing of this each electrolyzer is formed by a left shell and a right shell body spelling group; The inner face of this left shell and right shell body arranges groove respectively with corresponded manner, accommodating electrolytic solution in two these grooves; This positive plate, insulation stratum reticulare, negative plate are put between this left shell and right shell body by pressure and locate; Leak-proof gasket is provided with leakproof between this left shell and right shell body.

3. high voltage hydrogen-oxygen machine according to claim 2, is characterized in that, the fluid inlet that on each electrolyzer described, electrolysis liquid enters is arranged on the trailing edge of bottom land; The venting port that hydrogen supply, oxygen are discharged is arranged on the leading edge on groove top.

4. high voltage hydrogen-oxygen machine according to claim 3, is characterized in that, the trailing edge of the left shell of this electrolyzer and the bottom portion of groove of right shell body is provided with this fluid inlet; The leading edge of the groove top of left shell and right shell body arranges this venting port.

5. high voltage hydrogen-oxygen machine according to claim 2, is characterized in that, the external connection end of the positive plate of each electrolyzer described by this electrolyzer upper end and for giving prominence near leading edge; The external connection end of this negative plate by this electrolyzer upper end and for giving prominence near trailing edge.

6. high voltage hydrogen-oxygen machine according to claim 4, is characterized in that, is respectively arranged with at least two in skewed fin in the left shell of this each electrolyzer and a right shell body groove; The internal space of this groove can be cut into zigzag space by two these fins, to guide electrolytic solution in this groove and hydrogen, oxygen upwards flow along Z-shaped path.

7. high voltage hydrogen-oxygen machine according to claim 6, it is characterized in that, the fin of this each electrolyzer left shell, right shell body groove can produce push effect to this positive plate and negative plate respectively, and makes to form tight pressing between this positive plate, insulation stratum reticulare, negative plate.

8. high voltage hydrogen-oxygen machine according to claim 6, is characterized in that, the periphery of the left and right housing of this each electrolyzer is provided with about most the perforation aligned; Rely on the corresponding perforation running through the periphery setting of the left and right housing of this each electrolyzer respectively of most screws, and this each electrolyzer can be spliced into one with serial shape.

9. high voltage hydrogen-oxygen machine according to claim 8, is characterized in that, also includes two metal sheets, and this two metal sheet is provided with the perforation aligned respectively of boring a hole with the left and right casing peripheral of each electrolyzer, runs through for this each screw; This two metal sheet is separately positioned on this each electrolyzer and is spliced into the both sides integrally, then relies on nut to be screwed on each screw, and forces this two metal sheet that each electrolyzer is done tight pressing.

10. high voltage hydrogen-oxygen machine according to claim 8, is characterized in that, in this each electrolyzer in any two adjacent electrolyzers, the left shell of an electrolyzer and the right shell body of another electrolyzer are formed in one structure.

11. high voltage hydrogen-oxygen machines according to claim 1, it is characterized in that, this storage tank is provided with pressure and takes into account a pressure switch; This pressure warning unit can detect the pressure of hydrogen in storage tank, oxygen; This pressure switch can start electrolytic circuit during the insufficient pressure of hydrogen, oxygen in storage tank.