CN203441844U - Air supercharging device - Google Patents
Air supercharging device Download PDFInfo
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- CN203441844U CN203441844U CN201320526173.8U CN201320526173U CN203441844U CN 203441844 U CN203441844 U CN 203441844U CN 201320526173 U CN201320526173 U CN 201320526173U CN 203441844 U CN203441844 U CN 203441844U
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- chamber
- pressurized
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- pressure
- pressurized chamber
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Abstract
The utility model discloses an air supercharging device which is designed for solving the problem that an existing air supercharging device is complex in structure, not obvious in air supercharging effect and the like. The air supercharging device comprises at least two sleeved supercharging pipes, and at least one supercharging cavity is formed by the at least two supercharging pipes and provided with at least one supercharging cavity air inlet and at least one supercharging cavity air outlet. A rectification plate is arranged between the supercharging cavity air inlet and the supercharging cavity air outlet of the supercharging cavity, or a gradually-shrinking structure is formed from the two sides of the outer wall of the supercharging cavity to the middle. The air supercharging device is in a self-supercharging mode, and is simple in structure, reasonable in layout and obvious in energy-saving effect and supercharging effect.
Description
Technical field
The utility model relates to a kind of gas pressurized device.
Background technique
In the process that fluid is carried in flow line, conventionally because pipeline is longer, and the situation such as pipeline inner wall is rough, cause the pressure of fluid to reduce, flow velocity reduces.In central air-conditioner, central heat supply and the circulatory system such as industry is cooling, conventionally need to install fluid pressure booster additional, to reach, guarantee hydrodynamic pressure, energy-saving and cost-reducing object.
Yet existing gas pressurized device common configuration is comparatively complicated, pressurized effect is not remarkable, and need to the additional devices such as recycle pump be further set gas is pressurizeed, and has greatly increased cost of production, waste mass energy.
Model utility content
The purpose of this utility model is that the gas that proposes a kind of simple in structure, rationally distributed, supercharging, the obvious auto-pressurizing of energy-saving effect increases device.
For reaching this object, the utility model by the following technical solutions:
, described gas pressurized device comprises at least two sheathed pressure inlets, described at least two pressure inlets form at least one-level pressurized chamber,
Described at least one-level pressurized chamber is provided with at least one pressurized chamber's intakeport and at least one pressurized chamber air outlet.
Further, described gas pressurized device comprises the first pressure inlet and is sheathed on the second pressure inlet outside the first pressure inlet,
In described the first pressure inlet, be direct current chamber, described the first pressure inlet and the second pressure inlet form one-level pressurized chamber,
Described one-level pressurized chamber is provided with one-level pressurized chamber intakeport and one-level pressurized chamber air outlet.
Further, the tilted current plate that is provided with of described one-level pressurized chamber, is provided with at least one intercommunicating pore on described current plate, and described current plate is between described one-level pressurized chamber's intakeport and described one-level pressurized chamber air outlet.
Further, described the second pressure inlet outside is also arranged with circulating pressure, described the second pressure inlet and described circulating pressure form two-stage supercharging chamber, on described the second pressure inlet, offer two-stage supercharging chamber intakeport and two-stage supercharging device air outlet, the tube wall of described circulating pressure is middle by two side direction is tapered configuration.
Further, the cross section of described circulating pressure is M shape,
Described two-stage supercharging chamber intakeport and described two-stage supercharging chamber air outlet are arranged at respectively the both sides of described M shape circulating pressure medial concavity.
Further, described pressurized chamber intakeport and described pressurized chamber air outlet are angle, and the center line of described angle is 30-65 ° with the center line that forms the pressure inlet of described pressurized chamber.
Further, the both sides of described gas pressurized device are provided with adpting flange,
Described gas pressurized device is connected with gas transfer pipeline by described adpting flange.
Further, described one-level pressurized chamber intakeport is arranged on the first pressure inlet, and described one-level pressurized chamber air outlet is arranged on the adpting flange of gas outlet one side of described gas pressurized device.
The beneficial effects of the utility model are:
(1) gas pressurized device of the present utility model, by a plurality of sheathed pressure inlets, form multi-stage booster chamber, when the pressurized chamber intakeport of gas by multi-stage booster chamber and pressurized chamber air outlet by chain supercharging, without being set, additional device can realize obvious pressurized effect, simple in structure, rationally distributed, greatly save production cost;
(2) by being set, the structure of the middle convergent of current plate Huo You pressurized chamber outer wall two side direction make pressurized effect more remarkable;
(3) pressurized chamber's intakeport of pressurized chamber and pressurized chamber air outlet are angle, can effectively reduce the resistance of gas flow, reduce energy loss.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model embodiment one gas pressurized device.
In figure:
1, the second pressure inlet; 2, the first pressure inlet; 3, left adpting flange; 4, right adpting flange; 5, circulating pressure; 6, two-stage supercharging chamber; 7, two-stage supercharging chamber intakeport; 8, two-stage supercharging chamber air outlet; 9, one-level pressurized chamber intakeport; 10, current plate; 11, air-breathing chamber; 12, direct pressurized chamber; 13, ejection chamber; 14, one-level pressurized chamber air outlet; 15, intercommunicating pore.
Embodiment
Below in conjunction with accompanying drawing and by embodiment, further illustrate the technical solution of the utility model.
The gas pressurized device the utility model proposes comprises at least two sheathed pressure inlets, described at least two pressure inlets form at least one-level pressurized chamber, and described at least one-level pressurized chamber is provided with at least one pressurized chamber's intakeport and at least one pressurized chamber air outlet.The outer wall that is provided with current plate or pressurized chamber between the described pressurized chamber intakeport of described pressurized chamber and described pressurized chamber air outlet is tapered configuration by two side direction centres.
When the pressurized chamber intakeport of gas by multi-stage booster chamber and pressurized chamber air outlet by chain supercharging, without being set, additional device can realize obvious pressurized effect, simple in structure, rationally distributed, greatly save production cost, by the structure of the middle convergent of current plate Huo You pressurized chamber outer wall two side direction is set, make pressurized effect more remarkable.
Embodiment one:
Fig. 1 is the structural representation of the present embodiment gas pressurized device.As shown in the figure, this gas pressurized device comprises the first pressure inlet 2, be sheathed on the second pressure inlet 1 outside the first pressure inlet 2 and left adpting flange 3 and the right adpting flange 4 of both sides, and this gas pressurized device is connected with gas transfer pipeline with right adpting flange 4 by left adpting flange 3.Described the first pressure inlet 2 and the second pressure inlet 1 form one-level pressurized chamber, and described the second pressure inlet 1 outside is also arranged with circulating pressure 5, and described the second pressure inlet 1 forms two-stage supercharging chamber 6 with described circulating pressure 5.
Wherein, one-level pressurized chamber middle part is provided with current plate 10, and current plate 10 middle parts are provided with intercommunicating pore 15, and current plate 10 is for being obliquely installed; The cross section of circulating pressure 5 is two relative M shapes.
The position that keeps left on described the first pressure inlet 2 is provided with one-level pressurized chamber intakeport 9, the corresponding position of right adpting flange 4 Shang Yu one-level pressurized chamber is provided with one-level pressurized chamber air outlet 14, on the second pressure inlet 1, be provided with two-stage supercharging chamber intakeport 7 and two-stage supercharging chamber air outlet 8, two-stage supercharging chamber intakeport 7 and two-stage supercharging chamber air outlet 8 are separately positioned on the both sides of M shape circulating pressure 5 medial concavity.
One-level pressurized chamber intakeport 9, two-stage supercharging chamber intakeport 7 and two-stage supercharging chamber air outlet 8 are angle setting, and the center line of angle is 30-65 ° with the center line that forms the pressure inlet of described pressurized chamber.
One-level pressurized chamber intakeport 9 and current plate 10Jiang one-level pressurized chamber are divided into three chambers, be respectively: between one-level pressurized chamber intakeport 9 and left adpting flange 3, form air-breathing chamber 11, between one-level pressurized chamber intakeport 9 and current plate 10, form direct pressurized chamber 12, between current plate 10 and right adpting flange 4, form ejection chamber 13.
This gas pressurized device is installed in gas transfer pipeline, when gas enters the first pressure inlet of gas pressurized device, near the gas in the first pressure inlet inner wall area, under the effect of negative pressure, is inhaled into air-breathing chamber; The a part of gas that enters air-breathing chamber enters direct pressurized chamber, after the intercommunicating pore supercharging on current plate, enter ejection chamber, another part gas enters two-stage supercharging chamber through two-stage supercharging chamber intakeport, after the recess supercharging of " M ", by two-stage supercharging chamber air outlet, enters ejection chamber; Gas after chain supercharging is sprayed by one-level pressurized chamber air outlet, and form highdensity gas flow with the air-flow of the first pressure inlet outlet, thereby in the pipeline of variable cross section not, produce pressure shock wave, effectively pressure is converted into kinetic energy, thereby reaches the object of boosting energy-saving.
In the present embodiment, by current plate and M type circulating pressure are set, realize from supercharging, simple and reasonable, easy for installation, and pressurized effect is more remarkable; Pressurized chamber's intakeport of pressurized chamber and pressurized chamber air outlet are angle, can effectively reduce the resistance of gas flow, reduce energy loss, further strengthen pressurized effect.
Below only with embodiment, the utility model is illustrated, but the utility model is not limited to above-mentioned size and outward appearance illustration, more should not form any restriction of the present utility model.As long as within any improvement that the utility model is done or modification all belong to the protection domain of the utility model claim opinion.
Claims (8)
1. a gas pressurized device, is characterized in that: described gas pressurized device comprises at least two sheathed pressure inlets, and described at least two pressure inlets form at least one-level pressurized chamber,
Described at least one-level pressurized chamber is provided with at least one pressurized chamber's intakeport and at least one pressurized chamber air outlet.
2. a kind of gas pressurized device according to claim 1, is characterized in that: described gas pressurized device comprises the first pressure inlet (2) and be sheathed on outer the second pressure inlet (1) of the first pressure inlet (2),
In described the first pressure inlet (2), be direct current chamber, described the first pressure inlet (2) forms one-level pressurized chamber with the second pressure inlet (1),
Described one-level pressurized chamber is provided with one-level pressurized chamber intakeport (9) and one-level pressurized chamber air outlet (14).
3. a kind of gas pressurized device according to claim 2, it is characterized in that: the tilted current plate (10) that is provided with of described one-level pressurized chamber, on described current plate (10), be provided with at least one intercommunicating pore (15), described current plate (10) is positioned between described one-level pressurized chamber's intakeport (9) and described one-level pressurized chamber air outlet (14).
4. a kind of gas pressurized device according to claim 3, is characterized in that: described the second pressure inlet (1) outside is also arranged with circulating pressure (5), and the tube wall of described circulating pressure (5) is middle by two side direction is tapered configuration,
Described the second pressure inlet (1) forms two-stage supercharging chamber (6) with described circulating pressure (5),
On described the second pressure inlet (1), offer two-stage supercharging chamber intakeport (7) and two-stage supercharging device air outlet (8).
5. a kind of gas pressurized device according to claim 4, is characterized in that: the cross section of described circulating pressure (5) is M shape,
Described two-stage supercharging chamber intakeport (7) and described two-stage supercharging chamber air outlet (8) are arranged at respectively the both sides of described M shape circulating pressure (5) medial concavity.
6. a kind of gas pressurized device according to claim 1, is characterized in that: described pressurized chamber intakeport and described pressurized chamber air outlet are angle, and the center line of described angle is 30-65 ° with the center line that forms the pressure inlet of described pressurized chamber.
7. according to the arbitrary described a kind of gas pressurized device of claim 1-6, it is characterized in that:
The both sides of described gas pressurized device are provided with adpting flange,
Described gas pressurized device is connected with gas transfer pipeline by described adpting flange.
8. a kind of gas pressurized device according to claim 7, it is characterized in that: it is upper that described one-level pressurized chamber's intakeport (9) is arranged on the first pressure inlet (2), described one-level pressurized chamber air outlet (14) is arranged on the adpting flange of gas outlet one side of described gas pressurized device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320526173.8U CN203441844U (en) | 2013-08-27 | 2013-08-27 | Air supercharging device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320526173.8U CN203441844U (en) | 2013-08-27 | 2013-08-27 | Air supercharging device |
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CN203441844U true CN203441844U (en) | 2014-02-19 |
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CN201320526173.8U Expired - Fee Related CN203441844U (en) | 2013-08-27 | 2013-08-27 | Air supercharging device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108007868A (en) * | 2017-12-19 | 2018-05-08 | 山东科技大学 | Underground natural gas storage gas recovery well moisture content detection device and underground natural gas storage gas recovery well moisture content detecting method |
CN108007868B (en) * | 2017-12-19 | 2024-06-11 | 山东科技大学 | Device and method for detecting water content of natural gas underground gas storage gas production well |
-
2013
- 2013-08-27 CN CN201320526173.8U patent/CN203441844U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108007868A (en) * | 2017-12-19 | 2018-05-08 | 山东科技大学 | Underground natural gas storage gas recovery well moisture content detection device and underground natural gas storage gas recovery well moisture content detecting method |
CN108007868B (en) * | 2017-12-19 | 2024-06-11 | 山东科技大学 | Device and method for detecting water content of natural gas underground gas storage gas production well |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140219 Termination date: 20160827 |
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CF01 | Termination of patent right due to non-payment of annual fee |