CN205627351U - Deareator suitable for oxyhydrogen - Google Patents

Abstract

The utility model discloses a deareator suitable for oxyhydrogen, include: the jar body, blind flange, oxyhydrogen gas outlet, seal gasket, fast -assembling staple bolt, outlet, first hydrogen oxygen inlet pipe, second hydrogen oxygen inlet pipe, the jar body passes through seal gasket with the blind flange to be connected with the fast -assembling staple bolt, sealed and air tight, the oxyhydrogen gas outlet sets up on the blind flange, the outlet sets up jar body lower extreme, first hydrogen oxygen inlet pipe and second hydrogen oxygen inlet pipe all set up in jar body upper end, oxyhydrogen gas outlet, outlet, first hydrogen oxygen inlet pipe and second hydrogen oxygen inlet pipe all feed through with a jar body inner space. The utility model discloses simple structure, easily production manufacturing, make things convenient for dismantlement and maintenance, gas - water separation effect showing, reduced because moisture gets into the risk that next link was brought.

Description

It is applicable to the moisture trap of oxyhydrogen

Technical field

This utility model relates to chemical industry or segregation apparatus technical field mechanically, particularly relates to a kind of moisture trap being applicable to oxyhydrogen.

Background technology

Oxyhydrogen, also known as Brown Gas, has a wide range of applications in automobile carbon removing industry.It is the negative-pressure pipeline that oxyhydrogen oxyhydrogen machine produced accesses automobile engine, when auto idle speed, oxyhydrogen is sucked electromotor, make oxyhydrogen merge with in-engine carbon distribution, and fully burn together with fuel oil, reach to remove the purpose of engine interior carbon distribution.

In prior art, oxyhydrogen machine preparing hydrogen oxygen uses electrolysis mode, electrolysis can produce high temperature high heat simultaneously, and electrolyte can be made to gasify, if oxyhydrogen is mingled with substantial amounts of aqueous vapor and enters electromotor, electromotor will cause damage, be likely to result in people and hinder accident time serious.So the water content strictly controlled in preparing hydrogen oxygen, it is one of solution and the important measures avoiding problems.Although the steam-water separators such as existing orifice-plate type, net formula, vane type can also be used for separating the moisture content in oxyhydrogen, but all there is the shortcomings such as structure is complicated, cost of manufacture is high, maintenance is inconvenient.

Summary of the invention

This utility model is in order to overcome drawbacks described above present in prior art, it is provided that a kind of moisture trap being applicable to oxyhydrogen.

For solving the problems referred to above, a kind of moisture trap being applicable to oxyhydrogen of this utility model design, including: tank body, blind flange, oxyhydrogen gas outlet, gasket seal, fast-assembling anchor ear, discharge outlet, the first oxyhydrogen air inlet pipe, the second oxyhydrogen air inlet pipe；Described tank body is connected with fast-assembling anchor ear by gasket seal with blind flange, seals and air tight；Described oxyhydrogen gas outlet is arranged on blind flange, the oxyhydrogen after discharging gas-water separation；Described discharge outlet is arranged on described tank body lower end, for discharging the moisture separated in oxyhydrogen；Described first oxyhydrogen air inlet pipe and the second oxyhydrogen air inlet pipe are arranged at tank body upper end, and described oxyhydrogen gas outlet, discharge outlet, the first oxyhydrogen air inlet pipe all connect with tank interior space with the second oxyhydrogen air inlet pipe.

In technique scheme, described tank body is vertical.

In technique scheme, described oxyhydrogen gas outlet connects oxyhydrogen escape pipe, described oxyhydrogen gas outlet is identical with oxyhydrogen escape pipe diameter, the setting of oxyhydrogen escape pipe increases oxyhydrogen separating distance in moisture trap and action time, contribute to strengthening separating effect, reduce the volume of tank body.

In technique scheme, described first oxyhydrogen air inlet pipe and the second oxyhydrogen air inlet pipe are along being perpendicular to two horizontal tangents of same tank diameter in incision tank body.

Gas-water separation process is: oxyhydrogen enters tank body from the first oxyhydrogen air inlet pipe and the second oxyhydrogen air inlet pipe respectively, rotate in tank body, owing to water can be by different centrifugal force from varying in weight of gas, in rotary course, aqueous vapor can sink down into discharge outlet, discharging at discharge outlet, oxyhydrogen then rises from oxyhydrogen gas outlet output at oxyhydrogen escape pipe.

This utility model has the advantages that and advantage compared with prior art:

This utility model simple in construction, to be readily produced manufacture, convenient dismounting and maintenance, gas-water separation effect notable.Under room temperature environment, the oxyhydrogen purity after (about 25 DEG C) gas-water separation reaches more than 95%, reduces owing to moisture enters the risk that next link is brought.

Accompanying drawing explanation

Fig. 1 is the integrally-built front view of a kind of moisture trap being applicable to oxyhydrogen of the present utility model.

Fig. 2 is the integrally-built top view of a kind of moisture trap being applicable to oxyhydrogen of the present utility model.

Numbering explanation in figure: 1, tank body；2, blind flange；3, oxyhydrogen gas outlet；4, gasket seal；5, fast-assembling anchor ear；6, oxyhydrogen escape pipe；7, discharge outlet；8, the first oxyhydrogen air inlet pipe；9, the second oxyhydrogen air inlet pipe.

Detailed description of the invention

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

A kind of moisture trap being applicable to oxyhydrogen of this utility model design, as depicted in figs. 1 and 2, including: tank body 1, blind flange 2, oxyhydrogen gas outlet 3, gasket seal 4, fast-assembling anchor ear 5, discharge outlet 7, the first oxyhydrogen air inlet pipe 8, the second oxyhydrogen air inlet pipe 9；Tank body 1 is connected with fast-assembling anchor ear 5 by gasket seal 4 with blind flange 2, seals and air tight；Oxyhydrogen gas outlet 3 is arranged on blind flange 2, the oxyhydrogen after discharging gas-water separation；Discharge outlet 7 is arranged on tank body 1 lower end, for discharging the moisture separated in oxyhydrogen；First oxyhydrogen air inlet pipe 8 and the second oxyhydrogen air inlet pipe 9 are arranged at tank body 1 upper end, and oxyhydrogen gas outlet 3, discharge outlet the 7, first oxyhydrogen air inlet pipe 8 all connect with tank body 1 inner space with the second oxyhydrogen air inlet pipe 9, and tank body 1 is in vertical.

Oxyhydrogen gas outlet 3 connects oxyhydrogen escape pipe 6, oxyhydrogen gas outlet 3 is identical with oxyhydrogen escape pipe diameter 6, the setting of oxyhydrogen escape pipe 6 increases oxyhydrogen separating distance in moisture trap and action time, contributes to strengthening separating effect, reduces the volume of tank body.

First oxyhydrogen air inlet pipe 8 and the second oxyhydrogen air inlet pipe 9 are along being perpendicular to two horizontal tangents of same tank diameter in incision tank body 1.

Gas-water separation process is: oxyhydrogen enters tank body 1 from the first oxyhydrogen air inlet pipe 8 and the second oxyhydrogen air inlet pipe 9 respectively, rotate in tank body 1, owing to water can be by different centrifugal force from varying in weight of gas, in rotary course, aqueous vapor can sink down into discharge outlet 7, discharging from discharge outlet 7, oxyhydrogen then rises to output in oxyhydrogen gas outlet 3 at oxyhydrogen escape pipe 6.

Last it is noted that the foregoing is only preferred embodiment of the present utility model; it is not limited to this utility model; although this utility model being described in detail with reference to previous embodiment; for a person skilled in the art; technical scheme described in foregoing embodiments still can be modified by it; or wherein portion of techniques feature is carried out equivalent; all within spirit of the present utility model and principle; the any modification, equivalent substitution and improvement etc. made, within should be included in protection domain of the present utility model.

Claims (4)

1. the moisture trap being applicable to oxyhydrogen, it is characterized in that, including: tank body (1), blind flange (2), oxyhydrogen gas outlet (3), gasket seal (4), fast-assembling anchor ear (5), discharge outlet (7), the first oxyhydrogen air inlet pipe (8), the second oxyhydrogen air inlet pipe (9)；Described tank body (1) is connected with described fast-assembling anchor ear (5) by described gasket seal (4) with described blind flange (2), seals and air tight；Described oxyhydrogen gas outlet (3) is arranged on described blind flange (2), described discharge outlet (7) is arranged on described tank body (1) lower end, described first oxyhydrogen air inlet pipe (8) and the second oxyhydrogen air inlet pipe (9) are arranged at described tank body (1) upper end, and described oxyhydrogen gas outlet (3), discharge outlet (7), the first oxyhydrogen air inlet pipe (8) all connect with described tank interior space with the second oxyhydrogen air inlet pipe (9).

The moisture trap being applicable to oxyhydrogen the most according to claim 1, it is characterised in that described tank body (1) is in vertical.

The moisture trap being applicable to oxyhydrogen the most according to claim 1, it is characterized in that, described oxyhydrogen gas outlet (3) connects oxyhydrogen escape pipe (6), and described oxyhydrogen gas outlet (3) is identical with described oxyhydrogen escape pipe (6) diameter.

The moisture trap being applicable to oxyhydrogen the most according to claim 1, it is characterized in that, described first oxyhydrogen air inlet pipe (8) and the second oxyhydrogen air inlet pipe (9) are along being perpendicular to two horizontal tangents of same tank diameter to cutting in described tank body.