CN106552557A - A kind of full welding gas distributor - Google Patents
A kind of full welding gas distributor Download PDFInfo
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- CN106552557A CN106552557A CN201510622490.3A CN201510622490A CN106552557A CN 106552557 A CN106552557 A CN 106552557A CN 201510622490 A CN201510622490 A CN 201510622490A CN 106552557 A CN106552557 A CN 106552557A
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- air inlet
- inlet pipe
- lower component
- welded
- metal powder
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Abstract
The present invention relates to a kind of full welding gas distributor, which includes upper and lower part and air inlet pipe, described upper-part and lower component are thin-wall part, upper-part shape can make plectane or frustum face, lower component shape can make plectane, spherical interior surface or frustum face, upper and lower part is welded into entirety, and upper-part is sintering metal powder poromerics, and lower component is the close material of matter or sintering metal powder poromerics.Air inlet pipe is hollow steel pipe, and its one end is welded in lower component.Welding is between all parts of the present invention, integrally there is no rubber part such that it is able to meet harsher working condition requirement, and bulk strength is greatly improved;The setting of all sintering metal powder poromerics of upper and lower part so that gas distribution area increases, structure of distributor is simple, can reduce manufacturing cost, more economical practical.
Description
Technical field
The present invention relates to a kind of for the various gas distributions such as ozone, hydrogen, oxygen, carbon monoxide, carbon dioxide, chlorine, sulfur dioxide
Full welding gas distributor.
Background technology
At present, existing gas distributor mostly one side is flat, and gas can only be distributed upwards, and sintering metal powder poromerics plectane passes through
Flange ring and bolt group are fixed with other assemblies, and need with cushion rubber to realize the sealing between sintering metal powder microwell plate and matter confidential paper, existing
Device complex structure is distributed, leak point is more, gas distribution area is little, low intensity, bad adaptability.
The content of the invention
The technical problem to be solved is to provide the full welding of a kind of simple structure, high intensity, big flux, low cost and less trouble
Gas distributor.
To reach above-mentioned purpose, the solution of the present invention is:
A kind of full welding gas distributor, is characterized in that being made up of upper-part, lower component and air inlet pipe, and upper-part and lower part welding is integral,
Air inlet pipe one end is welded in lower component, and the intracavity inter-connection that air inlet pipe orifice is constituted with upper-part, lower component, wherein upper-part and lower component are
Thin-wall part, upper-part shape can make plectane or frustum face, and lower component shape can make plectane, spherical interior surface or frustum face;
In some embodiments, wherein upper-part is sintering metal powder poromerics, and lower component and air inlet pipe are the close material of matter;
In other embodiments, wherein all sintering metal powder poromerics of upper-part and lower part, air inlet pipe are the close material of matter;
In other embodiments, wherein air inlet pipe is hollow steel pipe, and its one end is welded in lower component.
Description of the drawings
Fig. 1 is existing gas distributor structural representation;
Fig. 2 is the first embodiment schematic diagram of the invention;
Fig. 3 is second embodiment schematic diagram of the invention;
Fig. 4 is the third embodiment schematic diagram of the invention;
Fig. 5 is the 4th kind of embodiment schematic diagram of the invention;
Fig. 6 is the 5th kind of embodiment schematic diagram of the invention;
Fig. 7 is the 6th kind of embodiment schematic diagram of the invention;
Fig. 8 is the 7th kind of embodiment schematic diagram of the invention;
Fig. 9 is the 8th kind of embodiment schematic diagram of the invention;
Figure 10 is the 9th kind of embodiment schematic diagram of the invention;
Figure 11 is the tenth kind of embodiment schematic diagram of the invention;
Figure 12 is the tenth a kind of embodiment schematic diagram of the invention;
Figure 13 is the 12nd kind of embodiment schematic diagram of the invention;
Figure 14 is the 13rd kind of embodiment schematic diagram of the invention;
Figure 15 is the 14th kind of embodiment schematic diagram of the invention;
Figure 16 is the 15th kind of embodiment schematic diagram of the invention;
Figure 17 is the 16th kind of embodiment schematic diagram of the invention;
In fig 2,2-1 is lower component, and 2-2 is air inlet pipe, and 2-3 is upper-part;
In fig. 3,3-1 is lower component, and 3-2 is air inlet pipe, and 3-3 is upper-part;
In figure 4,4-1 is lower component, and 4-2 is air inlet pipe, and 4-3 is upper-part;
In figure 5,5-1 is lower component, and 5-2 is air inlet pipe, and 5-3 is upper-part;
In figure 6,6-1 is lower component, and 6-2 is air inlet pipe, and 6-3 is upper-part;
In fig. 7,7-1 is lower component, and 7-2 is air inlet pipe, and 7-3 is upper-part;
In accompanying drawing 8,8-1 is lower component, and 8-2 is air inlet pipe, and 8-3 is upper-part;
In accompanying drawing 9,9-1 is lower component, and 9-2 is air inlet pipe, and 9-3 is upper-part;
In fig. 10,10-1 is lower component, and 10-2 is air inlet pipe, and 10-3 is upper-part;
In accompanying drawing 11,11-1 is lower component, and 11-2 is air inlet pipe, and 11-3 is upper-part;
In accompanying drawing 12,12-1 is lower component, and 12-2 is air inlet pipe, and 12-3 is upper-part;
In accompanying drawing 13,13-1 is lower component, and 13-2 is air inlet pipe, and 13-3 is upper-part;
In accompanying fig. 14,14-1 is lower component, and 14-2 is air inlet pipe, and 14-3 is upper-part;
In accompanying drawing 15,15-1 is lower component, and 15-2 is air inlet pipe, and 15-3 is upper-part;
In figure 16,16-1 is lower component, and 16-2 is air inlet pipe, and 16-3 is upper-part;
In figure 17,17-1 is lower component, and 17-2 is air inlet pipe, and 17-3 is upper-part;
Specific embodiment
With reference to several embodiments and accompanying drawing, the present invention is described in further detail, to make those skilled in the art with reference to description text
Word can be implemented according to this.
The first embodiment
A specific embodiment of the present invention is illustrated in figure 2,2-3 upper-parts are shaped as frustum face, and material is sintering metal powder poromerics,
2-1 lower components shape can be the spherical interior surface that cylinder pipe nipple is welded with spherical interior surface two parts, or directly punching press is integrated, and material is the close material of matter
Material, is thin-wall part with upper-part;2-2 air inlet pipe is hollow steel pipe, and its one end is welded on the spherical interior surface of 2-1 lower components.During work, gas
Body enters gas distributor inner chamber from 2-2 air inlet pipe, is evenly spread to outside chamber by the capillary micropore inside the frustum face of 2-3 upper-parts, so as to rise
To the equally distributed effect of gas.
Second embodiment
Another specific embodiment of the present invention is illustrated in figure 3,2-3 upper-parts are shaped as frustum face, and material is sintering metal powder micropore
Material, 2-1 lower components are shaped as cylinder pipe nipple and are welded with spherical interior surface two parts, and wherein cylinder pipe nipple material is the close material of matter, and spherical interior surface material is to burn
Knot metal dust poromerics, are thin-wall part with upper-part;2-2 air inlet pipe is hollow steel pipe, and its one end is welded on the segment of 2-1 lower components
On face.During work, gas enters gas distributor inner chamber from 2-2 air inlet pipe, by frustum face and the spherical interior surface of 2-1 lower components of 2-3 upper-parts
Internal capillary micropore is evenly spread to outside chamber, so as to play the equally distributed effect of gas.
The third embodiment
Another specific embodiment of the present invention is illustrated in figure 4,4-3 upper-parts are shaped as frustum face, and material is sintering metal powder micropore
Material, 4-1 lower components are shaped as spherical interior surface, and material is the close material of matter, is thin-wall part with upper-part;2-2 air inlet pipe is hollow steel pipe, one
End is welded on the spherical interior surface of 4-1 lower components.During work, gas enters gas distributor inner chamber from 4-2 air inlet pipe, by the cone of 4-3 upper-parts
Capillary micropore inside table top is evenly spread to outside chamber, so as to play the equally distributed effect of gas.
4th kind of embodiment
Another specific embodiment of the present invention is illustrated in figure 5,5-3 upper-parts are shaped as frustum face, and 5-1 lower components are shaped as spherical interior surface,
Material is all sintering metal powder poromerics, is thin-wall part with upper-part;2-2 air inlet pipe is hollow steel pipe, and its one end is welded under 5-1
On the spherical interior surface of part.During work, gas enters gas distributor inner chamber from 5-2 air inlet pipe, by the frustum face and 5-1 bottoms of 5-3 upper-parts
Capillary micropore inside the spherical interior surface of part is evenly spread to outside chamber, so as to play the equally distributed effect of gas.
5th kind of embodiment
Another specific embodiment of the present invention is illustrated in figure 6,6-3 upper-parts are shaped as plectane, and material is sintering metal powder micropore material
Material, 6-1 lower components shape can be the spherical interior surface that cylinder pipe nipple is welded with spherical interior surface two parts, or directly punching press is integrated, and material is matter
Close material, is thin-wall part with upper-part;6-2 air inlet pipe is hollow steel pipe, and its one end is welded on the spherical interior surface of 6-1 lower components.During work,
Gas enters gas distributor inner chamber from 6-2 air inlet pipe, is evenly spread to outside chamber by the capillary micropore inside the frustum face of 6-3 upper-parts, so as to
Play the equally distributed effect of gas.
6th kind of embodiment
Another specific embodiment of the present invention is illustrated in figure 7,7-3 upper-parts are shaped as plectane, and material is sintering metal powder micropore material
Material, 7-1 lower components are shaped as cylinder pipe nipple and are welded with spherical interior surface two parts, and wherein cylinder pipe nipple material is the close material of matter, and spherical interior surface material is sintering
Metal dust poromerics, are thin-wall part with upper-part;7-2 air inlet pipe is hollow steel pipe, and its one end is welded on the spherical interior surface of 7-1 lower components
On.During work, gas enters gas distributor inner chamber from 7-2 air inlet pipe, inside the spherical interior surface by the plectane and 7-1 lower components of 7-3 upper-parts
Capillary micropore evenly spread to outside chamber, so as to play the equally distributed effect of gas.
7th kind of embodiment
Another specific embodiment of the present invention is illustrated in figure 8,8-3 upper-parts are shaped as plectane, and material is sintering metal powder micropore material
Material, 8-1 lower components shape can be the frustum face that cylinder pipe nipple is integrated with the welding of frustum face two parts, or direct punching press, and material is matter
Close material, is thin-wall part with upper-part;8-2 air inlet pipe is hollow steel pipe, and its one end is welded on the frustum face of 8-1 lower components.During work,
Gas enters gas distributor inner chamber from 8-2 air inlet pipe, is evenly spread to outside chamber by the capillary micropore inside the plectane of 8-3 upper-parts, so as to rise
To the equally distributed effect of gas.
8th kind of embodiment
Another specific embodiment of the present invention is illustrated in figure 9,9-3 upper-parts are shaped as plectane, and material is sintering metal powder micropore material
Material, 9-1 lower components are shaped as cylinder pipe nipple and the welding of frustum face two parts, and wherein cylinder pipe nipple material is the close material of matter, and spherical interior surface material is sintering
Metal dust poromerics, are thin-wall part with upper-part;9-2 air inlet pipe is hollow steel pipe, and its one end is welded on the frustum face of 9-1 lower components
On.During work, gas enters gas distributor inner chamber from 9-2 air inlet pipe, inside the frustum face by the plectane and 9-1 lower components of 9-3 upper-parts
Capillary micropore evenly spread to outside chamber, so as to play the equally distributed effect of gas.
9th kind of embodiment
It is another specific embodiment of the present invention as shown in Figure 10,10-3 upper-parts are shaped as frustum face, material is that sintering metal powder is micro-
Porous materials, the frustum face that 10-1 lower components shape can be integrated with the welding of frustum face two parts, or direct punching press for cylinder pipe nipple, material
For the close material of matter, thin-wall part is with upper-part;10-2 air inlet pipe is hollow steel pipe, and its one end is welded on the frustum face of 10-1 lower components.
During work, gas enters gas distributor inner chamber from 10-2 air inlet pipe, is evenly spread to by the capillary micropore inside the frustum face of 10-3 upper-parts
Outside chamber, so as to play the equally distributed effect of gas.
Tenth kind of embodiment
It is another specific embodiment of the present invention as shown in figure 11,11-3 upper-parts are shaped as frustum face, material is that sintering metal powder is micro-
Porous materials, 11-1 lower components are shaped as cylinder pipe nipple and the welding of frustum face two parts, and wherein cylinder pipe nipple material is the close material of matter, bore mesa material and are
Sintering metal powder poromerics, are thin-wall part with upper-part;11-2 air inlet pipe is hollow steel pipe, and its one end is welded on the cone of 11-1 lower components
On table top.During work, gas enters gas distributor inner chamber from 11-2 air inlet pipe, by frustum face and the cone of 11-1 lower components of 11-3 upper-parts
Capillary micropore inside table top is evenly spread to outside chamber, so as to play the equally distributed effect of gas.
A kind of tenth embodiment
It is another specific embodiment of the present invention as shown in figure 12,12-3 upper-parts, 12-1 lower component shapes are frustum face, are welded into
It is integrated, material is respectively sintering metal powder poromerics and the close material of matter, is thin-wall part with upper-part;12-2 air inlet pipe is hollow steel pipe,
Its one end is welded on the frustum face of 12-1 lower components.During work, gas enters gas distributor inner chamber from 12-2 air inlet pipe, by 12-3 tops
Capillary micropore inside the frustum face of part is evenly spread to outside chamber, so as to play the equally distributed effect of gas.
12nd kind of embodiment
It is another specific embodiment of the present invention as shown in figure 13,13-3 upper-parts, 13-1 lower component shapes are frustum face, are welded into
It is integrated, material is all sintering metal powder poromerics, is thin-wall part with upper-part;13-2 air inlet pipe is hollow steel pipe, its one end welding
On the frustum face of 13-1 lower components.During work, gas enters gas distributor inner chamber from 13-2 air inlet pipe, micro- by the capillary inside frustum face
Hole is evenly spread to outside chamber, so as to play the equally distributed effect of gas.
13rd kind of embodiment
It is another specific embodiment of the present invention as shown in figure 14,14-3 upper-parts are shaped as frustum face, material is that sintering metal powder is micro-
Porous materials, 14-1 lower components shape can be welded with plectane two parts for cylinder pipe nipple, or directly punching press is integrated U-shaped cylinder, and material is
The close material of matter, is thin-wall part with upper-part;14-2 air inlet pipe is hollow steel pipe, and its one end is welded on the plectane of 14-1 lower components.Work
When, gas enters gas distributor inner chamber from 14-2 air inlet pipe, is evenly spread to outside chamber by the capillary micropore inside the frustum face of 14-3 upper-parts,
So as to play the equally distributed effect of gas.
14th kind of embodiment
It is another specific embodiment of the present invention as shown in figure 15,15-3 upper-parts are shaped as frustum face, material is that sintering metal powder is micro-
Porous materials, 15-1 lower components are shaped as cylinder pipe nipple and are welded with plectane two parts, and wherein cylinder pipe nipple material is the close material of matter, and disc materials are sintering
Metal dust poromerics, are thin-wall part with upper-part;15-2 air inlet pipe is hollow steel pipe, and its one end is welded on the plectane of 15-1 lower components
On.During work, gas enters gas distributor inner chamber from 15-2 air inlet pipe, by the frustum face of 15-3 upper-parts and the plectane of 15-1 lower components
The capillary micropore in portion is evenly spread to outside chamber, so as to play the equally distributed effect of gas.
15th kind of embodiment
It is another specific embodiment of the present invention as shown in figure 16,16-3 upper-parts are shaped as plectane, material is sintering metal powder micropore
Material, 16-1 lower components shape can be welded with plectane two parts for cylinder pipe nipple, or directly punching press is integrated U-shaped cylinder, and material is matter
Close material, is thin-wall part with upper-part;16-2 air inlet pipe is hollow steel pipe, and its one end is welded on the plectane of 16-1 lower components.During work,
Gas enters gas distributor inner chamber from 16-2 air inlet pipe, is evenly spread to outside chamber by the capillary micropore inside the plectane of 16-3 upper-parts, so as to
Play the equally distributed effect of gas.
16th kind of embodiment
It is another specific embodiment of the present invention as shown in figure 17,17-3 upper-parts are shaped as plectane, material is sintering metal powder micropore
Material, 17-1 lower components are shaped as cylinder pipe nipple and are welded with plectane two parts, and wherein cylinder pipe nipple material is the close material of matter, and disc materials are sintered gold
Category powder poromerics, are thin-wall part with upper-part;17-2 air inlet pipe is hollow steel pipe, and its one end is welded on the plectane of 17-1 lower components.
During work, gas enters gas distributor inner chamber from 17-2 air inlet pipe, is evenly spread to outside chamber by the capillary micropore inside plectane, so as to play gas
The equally distributed effect of body.
Claims (5)
1. a kind of full welding gas distributor, is characterized in that being made up of upper-part, lower component and air inlet pipe, and upper-part and lower part welding is integral,
Air inlet pipe one end is welded in lower component, the intracavity inter-connection that air inlet pipe orifice is constituted with upper-part, lower component.
2. full welding gas distributor according to claim 1, is characterized in that upper-part and lower component are thin-wall part, and upper-part shape can be done
Into plectane or frustum face, lower component shape can make plectane, spherical interior surface or frustum face.
3. full welding gas distributor according to claim 1, is characterized in that upper-part for metal powder sintered poromerics, lower component, enter
Trachea is the close material of matter.
4. full welding gas distributor according to claim 1, is characterized in that all metal powder sintered poromerics of upper-part and lower part,
Air inlet pipe is the close material of matter.
5. full welding gas distributor according to claim 1, is characterized in that air inlet pipe is hollow steel pipe, and its one end is welded in lower component.
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CN201510622490.3A CN106552557A (en) | 2015-09-25 | 2015-09-25 | A kind of full welding gas distributor |
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CN201510622490.3A CN106552557A (en) | 2015-09-25 | 2015-09-25 | A kind of full welding gas distributor |
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CN106552557A true CN106552557A (en) | 2017-04-05 |
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CN201510622490.3A Pending CN106552557A (en) | 2015-09-25 | 2015-09-25 | A kind of full welding gas distributor |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109876762A (en) * | 2019-03-22 | 2019-06-14 | 淮阴工学院 | A kind of top-type three-dimensional distribution device in gas-fluid for board-like chilling tower |
CN115738580A (en) * | 2021-09-03 | 2023-03-07 | 四川大学 | Combined gas distributor |
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CN203469956U (en) * | 2013-10-09 | 2014-03-12 | 杜秋江 | Micron-order chlorine distributor |
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CN2036011U (en) * | 1988-04-02 | 1989-04-19 | 马剑文 | Mini-filter for water purifying of air pot |
EP0407180A2 (en) * | 1989-07-05 | 1991-01-09 | Okutama Kogyo Co., Ltd. | Gas-liquid contacting apparatus |
CN2130809Y (en) * | 1992-09-30 | 1993-04-28 | 北京石油大学 | Flotation device for treating sewage containing oil |
CN1795973A (en) * | 2004-12-29 | 2006-07-05 | 中国科学院过程工程研究所 | Magnetic driven rotation gas distribution device in gas-fluid etc. heterogeneous system |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109876762A (en) * | 2019-03-22 | 2019-06-14 | 淮阴工学院 | A kind of top-type three-dimensional distribution device in gas-fluid for board-like chilling tower |
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CN115738580A (en) * | 2021-09-03 | 2023-03-07 | 四川大学 | Combined gas distributor |
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