CN203610013U - Gas-water condensing and separating device - Google Patents
Gas-water condensing and separating device Download PDFInfo
- Publication number
- CN203610013U CN203610013U CN201320836006.3U CN201320836006U CN203610013U CN 203610013 U CN203610013 U CN 203610013U CN 201320836006 U CN201320836006 U CN 201320836006U CN 203610013 U CN203610013 U CN 203610013U
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- Prior art keywords
- wireway
- gas
- separating unit
- container
- guide pipe
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Abstract
The utility model discloses a gas-water condensing and separating device. The gas-water condensing and separating device comprises a gas inlet, a gas outlet, a gas guide pipe, a heat exchange body and a container capable of collecting condensed water, wherein the heat exchange body is attached to the surface of the gas guide pipe; the air inlet is formed in one end of the gas guide pipe; the air outlet is formed in the other end of the gas guide pipe or the container; condensed water in the gas guide pipe flows into the container through one end or the other end of the gas guide pipe; rest gas in the gas guide pipe is exhausted through the gas outlet; a cooling column is mounted inside the gas guide pipe; a gas passing channel is formed by a clearance between the cooling column and the gas guide pipe. According to the gas-water condensing and separating device disclosed by the utility model, the contact area of airflow in the gas guide pipe is enlarged by using the cooling column, so that the airflow is fully cooled and further more thorough gas-water separation can be realized and the phenomenon that part of water steam in the gas guide pipe is taken away by the airflow due to failure to timely condensation is prevented.
Description
Technical field
The utility model relates to a kind of gas and water separator, particularly relate to a kind of water condensation effect significantly, gas-water separation air water condensation separating unit thoroughly.
Background technology
No matter be laboratory, or in commercial Application, many times all need gas that reaction is obtained or the gas of sampling to process before further utilizing or analyzing, the steam of therefrom sneaking into is removed.At present, prior art mainly adopts a kind of air water condensation separating unit to realize the object of gas-water separation.This air water condensation separating unit mainly comprises wireway, air inlet, gas outlet, for collecting container and the heat exchanger of condensed water, it adopts heat exchanger to lower the temperature to wireway, the water vapor condensation that makes to enter in the gas of wireway flows in container after the tube wall of wireway, and remaining gas is discharged by gas outlet.But, this air water condensation separating unit of prior art, there is following weak point: because the steam mixing in gas is that the inwall that is attached to the wireway that temperature is lower is realized condensation separation, and the area of the inwall of wireway is effective, and wireway inside is hollow structure, after causing gas to enter in wireway, can not guarantee that all steam in wireway all can be attached on the inner face of wireway, especially the steam of middle part in wireway, its due to the inwall from wireway away from, thereby easily taken out of by air-flow, thereby cause gas-water separation not thorough.
Utility model content
The purpose of this utility model is to overcome the deficiency of prior art, and a kind of air water condensation separating unit is provided.
The utility model solves the technical scheme that its technical problem adopts: a kind of air water condensation separating unit, comprise air inlet, gas outlet, wireway, heat exchanger and can collect the container of condensed water, heat exchanger is attached at wireway surface, air inlet is located at wherein one end of wireway, the other end or the container of wireway is located in gas outlet, the water of air guide in-tube condensation flows in container by wherein one end or the other end of wireway, and in wireway, remaining gas is discharged by gas outlet; A cooling stud is equipped with in wireway inside, and the space between this cooling stud and wireway formed gas passage.
Further, the lateral surface border of described cooling stud is provided with helicitic texture.
Further, described heat exchanger is cooling piece; Also comprise radiator, this radiator is attached at the heat-delivery surface of described cooling piece.
Further, described container is reaction bulb, and wherein one end of described wireway down, and is tightly connected with the opening of this reaction bulb; Upward, the other end of described wireway is located in described gas outlet to the other end of described wireway.
Further, described container is water receiving container, and wherein one end of described wireway upward, the other end down, the opening of the other end of described wireway and water receiving container is tightly connected, and water receiving container is located in described gas outlet, and is connected with the inner sealing of water receiving container.
Further, wherein one end of described wireway is up-narrow and down-wide bullet structure.
Further, the other end of described wireway is up-narrow and down-wide bullet structure.
Further, described wireway is vertical setting, and it comprises upper segment body and lower segment body that one is joined, and the internal diameter of upper segment body is less than the internal diameter of lower segment body, and described cooling stud is arranged in the lower segment body of described wireway; Described heat exchanger is attached at the surface of the lower segment body of described wireway.
Further, described reaction bulb is copper material and surface gold-plating; The volume of described reaction bulb is greater than 50ml.
Further, described cooling stud is copper post.
With respect to the air water condensation separating unit of prior art, the beneficial effects of the utility model are:
1, due to cooling stud being set in wireway, and the space between this cooling stud and wireway formed gas passage, make the utility model can utilize this cooling stud to increase the contact area of air-flow in wireway, air-flow is obtained fully cooling, thereby can make gas-water separation more thorough, prevent that in wireway, part steam is taken away by air-flow because not obtaining in time condensation;
2, as preferably a kind of, its heat exchanger adopts the cooling piece of electrothermal refrigeration to replace the water refrigeration modes of prior art, and not only refrigeration is better, and refrigerating efficiency is higher, can also greatly reduce the overall volume of device, dwindles and takes up room;
3, as preferably a kind of, it also arranges helicitic texture in the border, side of cooling stud, make the air-flow in wireway increase along thread helix, therefrom not only further increase the contact area of air-flow and cooling stud, can also extend the cool time of air-flow, make the air-flow in wireway more easily fully cooling, thereby make gas-water separation more thorough.
Below in conjunction with drawings and Examples, the utility model is described in further detail; But a kind of air water condensation separating unit of the present utility model is not limited to embodiment.
Accompanying drawing explanation
Fig. 1 is generalized section of the present utility model.
The specific embodiment
Embodiment mono-:
Shown in Figure 1, a kind of air water condensation separating unit of the present utility model, comprise air inlet 6, gas outlet 1, wireway 2, heat exchanger, the container that can collect condensed water and cooling stud 5, heat exchanger is attached at wireway 2 surfaces, air inlet 6 is located at wherein one end of wireway 2, the water of wireway 2 interior condensations flows in container by wherein one end or the other end of wireway 2, and in wireway 2, remaining gas is discharged by gas outlet 1; Cooling stud 5 is installed on wireway 2 inside, and and wireway 2 between there is space, this space is gap, and forms gas passage.Specifically, a circular lamellar body 8 is installed in wherein one end of wireway 2, on this circle lamellar body 8, is distributed with some openings, these some openings form air inlet 6; Cooling stud 5 adopts this circle lamellar body 8 to support, and adopts screw 9 and this circle lamellar body 8 to lock mutually.
Preferred as one, above-mentioned cooling stud 5 is copper post, and its lateral surface border is provided with helicitic texture.
Preferred as one, above-mentioned heat exchanger is the cooling piece 3 of electrothermal refrigeration formula, water refrigeration modes compared to existing technology, and its refrigeration is better, and refrigerating efficiency is higher, and can greatly reduce the overall volume of device, the taking up room of reduction means.
Preferred as one, the utility model also comprises radiator 4, and this radiator 4 adopts heat pipe heat radiation, and it is attached at the heat-delivery surface of cooling piece 3.
Said vesse is reaction bulb 7, and this reaction bulb 7 is copper material and surface gold-plating, and the volume of this reaction bulb 7 is greater than 50ml.Wherein one end of above-mentioned wireway 2 down, and be tightly connected with the opening of this reaction bulb 7 (specifically employing face sealing, and belong to positive seal).Preferred as one, wherein one end of above-mentioned wireway 2 is up-narrow and down-wide bullet structure, is convenient to condensed drop and is back in reaction bulb 7.Upward, the other end of this wireway 2 is located in above-mentioned gas outlet 1 to the other end of above-mentioned wireway 2.
Preferred as one, above-mentioned wireway 2 is vertical setting, it comprises upper segment body 21 and lower segment body 22 that one is joined, the internal diameter of upper segment body 21 is less than the internal diameter of lower segment body 22, above-mentioned cooling stud 5 is arranged in the lower segment body 22 of wireway 2, above-mentioned cooling piece 3 is attached at the surface of the lower segment body 22 of wireway 2 just, and above-mentioned air inlet 6 is arranged at the bottom of lower segment body 22 just, and the bottom sidewall of this lower segment body 22 is the up-narrow and down-wide conical surface; Above-mentioned gas outlet 1 is arranged at the top of segment body 21 just.
A kind of air water condensation separating unit of the present utility model, the gas (containing water vapor) producing through reaction in its reaction bulb 7 enters in wireway 2 by air inlet 6, and along the helicitic texture spiral of cooling stud 5, the temperature of wireway 2 is reduced to preset temperature by the cooling piece 3 outside wireway 2.Because the temperature of wireway 2 inwalls and cooling stud 5 is lower than the temperature of gas itself, thereby, when gas enters wireway 2 inside, the steam mixing in its gas will be condensed into rapidly the globule on the sidewall at wireway 2 inside and cooling stud 5, and in the time that the globule of condensation increases to a certain degree, due to Action of Gravity Field, the sidewall of the inwall along wireway 2 and cooling stud 5 is moved down, finally be back in reaction bulb 7, uncooled gas in wireway 2 (not containing water vapor) is finally discharged by the gas outlet 1 of wireway 2 other ends, so, realizing air water thoroughly separates.
Embodiment bis-:
A kind of air water condensation separating unit of the present utility model, the difference of itself and embodiment mono-is: its container is water receiving container (being non-reaction carriers), and this water receiving container can be cup, bottle etc.Upward, down, and the opening of the other end of wireway and water receiving container is tightly connected the other end in wherein one end of its wireway; Water receiving container is located in its gas outlet, and is connected with the inner sealing of water receiving container.
A kind of air water condensation separating unit of the present utility model, gas (containing water vapor) to be separated enters in wireway by the air inlet of wireway upper end, and under the helicitic texture screw of the cooling stud in wireway.Because the temperature of wireway inwall and cooling stud is lower than the temperature of gas itself, thereby, when gas enters wireway inside, the steam mixing in its gas will be condensed into rapidly the globule on the sidewall at wireway inside and cooling stud, and in the time that the globule of condensation increases to a certain degree, due to Action of Gravity Field, the sidewall of the inwall along wireway and cooling stud is moved down, final inflow in water receiving container, uncooled gas in wireway (not containing water vapor) equally also enters in water receiving container, and finally discharge by the gas outlet of installing on water receiving container, realize gas-water separation with this.
Above-described embodiment is only used for further illustrating a kind of air water condensation separating unit of the present utility model; but the utility model is not limited to embodiment; any simple modification, equivalent variations and modification that every foundation technical spirit of the present utility model is done above embodiment, all fall in the protection domain of technical solutions of the utility model.
Claims (10)
1. air water condensation separating unit, comprise air inlet, gas outlet, wireway, heat exchanger and can collect the container of condensed water, heat exchanger is attached at wireway surface, air inlet is located at wherein one end of wireway, the other end or the container of wireway is located in gas outlet, the water of air guide in-tube condensation flows in container by wherein one end or the other end of wireway, and in wireway, remaining gas is discharged by gas outlet; It is characterized in that: a cooling stud is equipped with in wireway inside, the space between this cooling stud and wireway formed gas passage.
2. air water condensation separating unit according to claim 1, is characterized in that: the border, side of described cooling stud is provided with helicitic texture.
3. air water condensation separating unit according to claim 1, is characterized in that: described heat exchanger is cooling piece; Also comprise radiator, this radiator is attached at the heat-delivery surface of described cooling piece.
4. air water condensation separating unit according to claim 1, is characterized in that: described container is reaction bulb, and wherein one end of described wireway down, and is tightly connected with the opening of this reaction bulb; Upward, the other end of described wireway is located in described gas outlet to the other end of described wireway.
5. air water condensation separating unit according to claim 1, it is characterized in that: described container is water receiving container, wherein one end of described wireway upward, the other end down, the opening of the other end of described wireway and water receiving container is tightly connected, water receiving container is located in described gas outlet, and is connected with the inner sealing of water receiving container.
6. air water condensation separating unit according to claim 4, is characterized in that: wherein one end of described wireway is up-narrow and down-wide bullet structure.
7. air water condensation separating unit according to claim 5, is characterized in that: the other end of described wireway is up-narrow and down-wide bullet structure.
8. air water condensation separating unit according to claim 1, it is characterized in that: described wireway is vertical setting, it comprises upper segment body and lower segment body that one is joined, and the internal diameter of upper segment body is less than the internal diameter of lower segment body, and described cooling stud is arranged in the lower segment body of described wireway; Described heat exchanger is attached at the surface of the lower segment body of described wireway.
9. air water condensation separating unit according to claim 4, is characterized in that: described reaction bulb is copper material and surface gold-plating; The volume of described reaction bulb is greater than 50ml.
10. air water condensation separating unit according to claim 1, is characterized in that: described cooling stud is copper post.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320836006.3U CN203610013U (en) | 2013-12-17 | 2013-12-17 | Gas-water condensing and separating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320836006.3U CN203610013U (en) | 2013-12-17 | 2013-12-17 | Gas-water condensing and separating device |
Publications (1)
Publication Number | Publication Date |
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CN203610013U true CN203610013U (en) | 2014-05-28 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201320836006.3U Withdrawn - After Issue CN203610013U (en) | 2013-12-17 | 2013-12-17 | Gas-water condensing and separating device |
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CN (1) | CN203610013U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103623672A (en) * | 2013-12-17 | 2014-03-12 | 厦门大学 | Air-water condensation separating device |
-
2013
- 2013-12-17 CN CN201320836006.3U patent/CN203610013U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103623672A (en) * | 2013-12-17 | 2014-03-12 | 厦门大学 | Air-water condensation separating device |
CN103623672B (en) * | 2013-12-17 | 2016-07-13 | 厦门大学 | A kind of air water condensation separating unit |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140528 Effective date of abandoning: 20160713 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |