CN206631450U - A kind of metallurgy uses multicomponent gas ratio deployment device - Google Patents

Abstract

Use multicomponent gas ratio deployment device the utility model discloses a kind of metallurgical, belong to metallurgical technology field, to solve the problems, such as that gas mixing is uneven in the prior art, easy vapour lock occurs.Device includes tank body and top cover, and both are bolted, and top cover is provided with least two groups of fluidic devices, and the angle between fluidic device and tank body is 12 15 °, and fluidic device includes jet pipe and regulating valve, and the tail end of jet pipe is located at the inside of tank body；The bottom surface of top cover is provided with least two jet baffle plates, and the angle between jet baffle plate is 20 30 °；The side wall of tank body is provided with the exhaust outlet communicated with inside.The utility model movement-less part, designed according to fluid mechanics principle, enter the controllable allotment of Mobile state using gas pressure itself to mix, so that the allotment mixing of multicomponent gas is not influenceed by molecular weight or mixing ratio, realize the dynamic adaptation of the multicomponent gas ratio in staticizer, it is well mixed, efficiency high, do not consume extra power.

Description

A kind of metallurgy uses multicomponent gas ratio deployment device

Technical field

The utility model belongs to metallurgical technology field, and in particular to a kind of metallurgy uses multicomponent gas ratio deployment device.

Background technology

The mixing of multicomponent gas proportion adjustable is one of field of metallurgy problem, particularly when the molecular weight of multiple gases and mixed When composition and division in a proportion differs greatly, easily there is isolation layering, mix non-uniform phenomenon.Traditional gas mixing is typically mixed using cavity tank Close or pipeline mixes, can not all solve mixing uniformity well, when multiple gases large scale mixes, flow and ratio are small Vapour lock easily occurs for a kind of gas, destroys mixing, is more difficult to the arbitrary proportion allotment of multicomponent gas.

Utility model content

The purpose of this utility model is to provide a kind of metallurgy multicomponent gas ratio deployment device, to solve in the prior art The problem of gas mixing is uneven, easy generation vapour lock.

In order to solve problem above, the technical solution of the utility model is：

A kind of metallurgy uses multicomponent gas ratio deployment device, including tank body and top cover, tank body and top cover to be bolted, Top cover is provided with least two groups of fluidic devices, including at least one main gas jet device and at least one secondary gas jet dress Put, the distance between main gas jet device and secondary gas jet device top are more than the distance between bottom, fluidic device with Angle between tank body longitudinal axis is 12-15 °, and fluidic device includes jet pipe and the regulating valve located at jet pipe top, penetrates The tail end of flow tube is located at the inside of tank body；The bottom surface of top cover is provided with least two jet baffle plates, and the angle between jet baffle plate is 20-30°；The side wall of tank body is provided with the exhaust outlet communicated with inside.

In order to further realize the utility model, the top of jet baffle plate is on the axis of top cover bottom surface.

In order to further realize the utility model, the diameter of main gas jet device is more than the straight of secondary gas jet device Footpath.

In order to further realize the utility model, tank body is cylinder.

In order to further realize the utility model, top cover is circle, and the diameter of top cover is more than the diameter of tank body top surface.

In order to further realize the utility model, the angle between jet baffle plate is 25 °.

In order to further realize the utility model, exhaust outlet is at the bottom 1/8-1/10 of tank wall.

In order to further realize the utility model, it is mutually perpendicular between exhaust outlet and tank body.

The utility model has the advantages that relative to prior art：

The utility model utilizes cross jet principle, and setting has angled major and minor fluidic device between each other, by opening Opening regulating valve makes major and minor gas form negative pressure in gas jet area, can effectively eliminate air-resistance phenomenon, be advantageous to small scale gas and enter Enter and mix；Pass through the jet baffle plate being distributed in fluidic channel so that Gas Jet forms turbulent flow, and it is good to reach multicomponent gas Scattered and well-mixed purpose；The lower section of jet baffle plate is provided with turbulence area, after mixed gas enters turbulence area from turbulent region, Circumference and radial motion are constantly done between the outside of jet baffle plate and turbulence area, prevents isolation layering from occurring, until from row Gas port is discharged for users to use.The utility model device movement-less part, enter the controllable tune of Mobile state using gas pressure itself With mixing, the dynamic adaptation of the multicomponent gas ratio in staticizer is realized, is well mixed, efficiency high, does not consume extra power.

Brief description of the drawings

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

Fig. 2 is A-A faces sectional view in Fig. 1.

Fig. 3 is B-B faces sectional view in Fig. 1.

Fig. 4 is C-C faces sectional view in Fig. 1.

Reference implication is as follows：1st, top cover；2nd, tank body；3rd, jet pipe；4th, regulating valve；5th, jet baffle plate；6th, exhaust outlet； 7th, main gas jet device；8th, secondary gas jet device；9th, fluerics；10th, turbulence area；11st, bolt.

Embodiment

The utility model is described in further detail with reference to the accompanying drawings and detailed description.

A kind of metallurgy multicomponent gas ratio deployment device, including tank body 2 and top cover 1, tank body 2 are circle as Figure 1-4 Cylindricality ensures that Gas Jet forms turbulent flow, and what multicomponent gas can be well disperses and be sufficiently mixed, and top cover 1 is circle, top cover 1 Diameter is more than the diameter of the top surface of tank body 2, and tank body 2 and top cover 1 are connected by bolt 11, and top cover 1 is provided with least two groups of fluidic cartridges Put, including at least one main gas jet device 7 and at least one secondary gas jet device 8, the diameter of main gas jet device 7 More than the diameter of secondary gas jet device 8, ensure that the injection amount of main gas is more than secondary gas, it is ensured that gas preparing ratio, main gas The distance between body fluidic device 7 and the secondary top of gas jet device 8 are more than the distance between bottom, fluidic device and tank body 2 Angle α between longitudinal axis is 12-15 °, and fluidic device includes jet pipe 3 and the regulating valve 4 located at the top of jet pipe 3, penetrates The tail end of flow tube 3 is located at the inside of tank body 2；The bottom surface of top cover 1 is provided with least two jet baffle plates 5, and the top of jet baffle plate 5 is set In on the axis of the bottom surface of top cover 1, so that Gas Jet forms uniform turbulent flow, the angle β between jet baffle plate 5 is 20- 30 °, the optimum angle between jet baffle plate 5 is 25 °；The side wall of tank body 2 is provided with the exhaust outlet 6 communicated with inside, exhaust outlet 6 At the bottom 1/8-1/10 of the side wall of tank body 2, ensure that mixed gas is discharged after being sufficiently mixed in turbulence area uniformly, exhaust outlet 6 It is mutually perpendicular between tank body 2.

During operation, it would be desirable to which the regulating valve 4 of the main gas jet device 6 of allotment ratio highest gas is opened, and gas leads to Cross jet pipe 3, on jet to jet baffle plate 5, negative pressure is formed in fluerics 9；Opening needs the secondary gas of small scale allotment gas The regulating valve 4 of fluidic device 8, gas enter fluerics 9 by jet pipe 3, and major and minor gas runs into stop in jet baffle plate 5, Fluerics 9 forms efficient splash mixing；The turbulence area 10 that mixed gas enters device bottom is allocated, in the He of jet baffle plate 5 Circumference and radial motion are constantly done between turbulence area 10, prevents from isolating between gas, the mixed gas in turbulence area 10 passes through exhaust The discharge of mouth 6 is for users to use.

Claims (8)

1. a kind of metallurgy uses multicomponent gas ratio deployment device, including tank body and top cover, the tank body and top cover to connect by bolt Connect, it is characterised in that：The top cover（1）It is provided with least two groups of fluidic devices, including at least one main gas jet device（7） With at least one secondary gas jet device（8）, main gas jet device（7）With secondary gas jet device（8）Between top away from From more than the distance between bottom, fluidic device and tank body（2）Angle between longitudinal axis is 12-15 °, and fluidic device includes Jet pipe（3）With located at jet pipe（3）The regulating valve on top（4）, jet pipe（3）Tail end be located at tank body（2）Inside；Top cover （1）Bottom surface be provided with least two jet baffle plates（5）, jet baffle plate（5）Between angle be 20-30 °；Tank body（2）Side wall It is provided with the exhaust outlet communicated with inside（6）.

2. metallurgy according to claim 1 uses multicomponent gas ratio deployment device, it is characterised in that：The jet baffle plate （5）Top be located at top cover（1）On the axis of bottom surface.

3. metallurgy according to claim 1 or 2 uses multicomponent gas ratio deployment device, it is characterised in that：The fluidic cartridge Put main gas jet device（7）Diameter be more than secondary gas jet device（8）Diameter.

4. metallurgy according to claim 3 uses multicomponent gas ratio deployment device, it is characterised in that：The tank body（2）For Cylinder.

5. metallurgy according to claim 4 uses multicomponent gas ratio deployment device, it is characterised in that：The top cover（1）For Circle, top cover（1）Diameter be more than tank body（2）The diameter of top surface.

6. metallurgy according to claim 5 uses multicomponent gas ratio deployment device, it is characterised in that：The jet baffle plate （5）Between angle be 25 °.

7. metallurgy according to claim 6 uses multicomponent gas ratio deployment device, it is characterised in that：The exhaust outlet（6） Located at tank body（2）At the bottom 1/8-1/10 of side wall.

8. metallurgy according to claim 7 uses multicomponent gas ratio deployment device, it is characterised in that：The exhaust outlet（6） With tank body（2）Between be mutually perpendicular to.