CN1566853A - Heat exchanger device assembly arrangement for air conditioner - Google Patents
Heat exchanger device assembly arrangement for air conditioner Download PDFInfo
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- CN1566853A CN1566853A CN 03130037 CN03130037A CN1566853A CN 1566853 A CN1566853 A CN 1566853A CN 03130037 CN03130037 CN 03130037 CN 03130037 A CN03130037 A CN 03130037A CN 1566853 A CN1566853 A CN 1566853A
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- heat exchange
- exchange device
- device assembly
- power supply
- air conditioner
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Abstract
Disclosed is a heat exchange device assembling body for an air conditioner. It comprises a plurality of square division plates, and a plurality of division walls which cause air flow paths of every adjacent layer perpendicular to each other. The invention is characterized in that in the heat exchange device assembling body are arranged a electric field forming device and a magnetic field forming device. Heat exchange between inflow air and outflow air through the air conditioner can be improved more effectively.
Description
Technical field
The present invention relates to air conditioner, relate in particular to its heat exchange device assembly.
Background technology
So-called air conditioner is a kind of certain interior space to be adjusted to the space of the temperature, humidity and the air-flow that meet people's activity, removes the device of dust in air etc. simultaneously, is a kind of heating-cooling device of air in general.
In the air conditioner notion of broad sense, in order to strengthen the operating efficiency of heating-cooling device, the invention provides the heat exchange device that can bring following effect: not only can prevent the direct mixing of inside and outside air, but also the heat exchange that can improve the inside and outside air, by said structure, make the temperature difference of discrepancy air minimize.
As shown in Figure 1 and Figure 2, the heat exchange device assembly (10) that is used for air conditioner possesses following structure is arranged: a plurality of square demarcation strip (11) that keeps a determining deviation to install according to laminated construction, make the space between per 2 demarcation strips (11) form the air flow circuit (13A) of a direction, and link a plurality of partition walls (12) of each demarcation strip (11) dual-side; By the different dual-sides of above-mentioned partition wall (12), make that the air flow circuit (13B) that forms is vertical mutually with stream (13A) at each layer each demarcation strip of binding (11).
In addition,, on each demarcation strip (11), be provided with the heat transfer area expansion section (14) of fold plate structure, make its perspective plane form wavy in air flow circuit (13A), (13B) direction in order to enlarge the heat transfer area of each demarcation strip (11).
So as shown in Figure 2, when the air of mutual different temperatures passes through different mutually air flow circuits (13A, 13B) through heat exchange device assembly (10), these two air streams are isolated and can directly not mixed by the demarcation strip (11) and the partition wall (12) of each layer, enlarge contact area by above-mentioned demarcation strip (11) and heat transfer area expansion section (14), carry out heat transmission effectively, make the air of two mutual different temperatures pass through heat exchange device assembly (10), reduce the temperature difference between this two air.
Heat exchange device assembly (10) with said structure is installed in the air conditioner (1) as shown in Figure 1, make indoor-outdoor air pass through above-mentioned heat exchange device assembly (10) mutual vertically by the blowing fan (not shown), produce heat exchange, be discharged to the room air that pollutes outdoor, and pure and fresh outdoor air is drawn into indoor, reach the purpose of air conditioner, simultaneously under the minimized state of the temperature difference of two kinds of air, carry out the discharge and the suction of air, use heating-cooling device effectively.
That is to say that in the winter time, indoor temperature need be kept higher than outdoor temperature the time, flow out the contained heat of air and pass to leaked-in air, can save the driving of heating combined equipment by above-mentioned heat exchange device assembly (10); In summer, indoor temperature need be kept lower than outdoor temperature the time, flows into the contained heat of air and passes to the air of outflow, the driving that can save refrigerating plant by above-mentioned heat exchange device assembly (10).
But the heat exchange device assembly with prior art of said structure but has following problem: that is to say, prior art only takes forced air flow to go into mounting structure of blowing fan to the air flow circuit of above-mentioned heat exchange device assembly, but do not consider the air mobility status on control flow in the above-mentioned air flow circuit more effectively, further improve heat transfer effect, so heat transfer effect is undesirable.
Summary of the invention
In order to overcome the above-mentioned shortcoming that prior art exists, the invention provides a kind of heat exchange device assembly that is used for air conditioner, with the inflow air of further raising air conditioner and the heat exchanger effectiveness between the outflow air.
The technical solution adopted for the present invention to solve the technical problems is:
A kind of heat exchange device assembly that is used for air conditioner, it mainly includes a plurality of square demarcation strip that keeps a determining deviation to install according to laminated construction, make the space between described each adjacent separator plates form the air flow circuit of a direction, and link a plurality of partition walls of described each demarcation strip dual-side, by the different dual-sides of described partition wall, make that the air flow circuit of described each adjacent layer is vertical mutually at described each demarcation strip of each layer binding; It is characterized in that described heat exchange device assembly also is provided with electric field and forms device and magnetic field formation device; Described electric field forms device and produces ion wind along described air flow circuit; Described magnetic field forms the magnetic field of device generation perpendicular to the ion wind direction of described electric field.
The described heat exchange device assembly that is used for air conditioner, wherein electric field forms device and is made of discharge electrode and power supply and earth electrode; Described discharge electrode is arranged on the inflow side of described air flow circuit; Described power supply is attached on the described discharge electrode, is used to apply dc high voltage; When described earth electrode and described power supply link, be arranged on the outflow side of described air flow circuit.
The described heat exchange device assembly that is used for air conditioner, wherein said electric field form device and mainly comprise discharge electrode, the 1st power supply, the 1st earth electrode, the 2nd power supply and the 2nd earth electrode; Described discharge electrode is arranged on the inflow side of described air flow circuit; Described the 1st power supply is attached on the described discharge electrode, is used to apply dc high voltage; Described the 1st earth electrode and described discharge electrode and the 1st power supply are connected; Described the 2nd power supply is attached on described demarcation strip and the partition wall, is used to apply the dc high voltage with described discharge electrode identical polar; Described the 2nd earth electrode is attached on described the 2nd power supply.
The described heat exchange device assembly that is used for air conditioner, wherein formation device in magnetic field is arranged on dull and stereotyped magnet above the described heat exchange device assembly.
The described heat exchange device assembly that is used for air conditioner, wherein magnetic field forms device dull and stereotyped magnet is arranged on below the described heat exchange device assembly.
The described heat exchange device assembly that is used for air conditioner, wherein formation device in magnetic field is the top and bottom that dull and stereotyped magnet are arranged on described heat exchange device assembly.
The described heat exchange device assembly that is used for air conditioner, wherein each demarcation strip above be provided with the heat transfer area expansion section of fold plate structure, make its perspective plane form wavy in described each air flow circuit direction.
Description of drawings
The present invention is further described below in conjunction with drawings and Examples.
Fig. 1 is the schematic perspective view that the air conditioner structure of heat exchange device assembly is installed.
Fig. 2 is the schematic perspective view of heat exchange device assembly structure.
Fig. 3 is the structure chart of the 1st embodiment.
Fig. 4 is the structure chart of the 2nd embodiment.
The number in the figure explanation:
1: air conditioner 10: the heat exchange device assembly
11: demarcation strip 12: partition wall
13A: air flow circuit 111,121: discharge electrode
13B: with the perpendicular air flow circuit of 13A
112,122: dc source 113,123,125: earth electrode
The specific embodiment
Below with reference to back accompanying drawing paper, embodiments of the invention are described in detail.
As depicted in figs. 1 and 2, the heat exchange device assembly that is used for air conditioner of the present invention possesses basically following structure is arranged: a plurality of square demarcation strip (11) that keeps a determining deviation to install according to laminated construction; Make the space between above-mentioned per two demarcation strips (11) form the air flow circuit (13A) of a direction, (13B) and link a plurality of partition walls (12) of above-mentioned each demarcation strip (11) dual-side; By the different dual-sides of above-mentioned each partition wall (12), make above-mentioned each adjacent layer air flow circuit (13A), (13B) vertical mutually at each layer above-mentioned each demarcation strip of binding (11).This structure is identical with the structure of prior art.
But as shown in Figure 3, Figure 4, the heat exchange device assembly that is used for air conditioner of the present invention also is provided with electric field and forms device (111,112,113,121,122,123,124,125) and magnetic field formation device (201,202).Above-mentioned electric field forms device (111,112,113,121,122,123,124,125) and produces ion wind along above-mentioned air flow circuit; Above-mentioned magnetic field formation device (201,202) produces the magnetic field perpendicular to the ion wind direction of above-mentioned electric field.
That is to say, basic fundamental thought of the present invention is, the direction of having utilized incident electron produces the character of former motion during perpendicular to magnetic direction, it is mobile through the air of above-mentioned air flow circuit (13A), (13B) to form the device upset by electric field formation device and magnetic field, makes heat transfer effect maximize.
Above-mentioned magnetic field forms device can embody following structure simply: dull and stereotyped magnet (201) is set on above-mentioned heat exchange device assembly (10); Dull and stereotyped magnet (202) perhaps is set below heat exchange device assembly (10); Again or in the top and bottom of heat exchange device assembly (10) dull and stereotyped magnet is set all.
Above-mentioned electric field forms device and can embody by a lot of methods, only points out out two kinds of embodiment below.
First embodiment: as shown in Figure 3, above-mentioned electric field forms device substantially by discharge electrode (111) and power supply (112) and earth electrode (113) formation.Above-mentioned discharge electrode (111) is arranged on the inflow side of above-mentioned air flow circuit (13A), (13B); Above-mentioned power supply (112) is attached on the above-mentioned discharge electrode (111), is used to apply dc high voltage; Earth electrode (113) and above-mentioned power supply (112) are arranged on the outflow side of above-mentioned air flow circuit (13A), (13B) when being connected.
That is to say, with above-mentioned heat exchange device assembly (10) is the center, at above-mentioned air flow circuit (13A), entrance side (13B) is provided with discharge electrode (111), at above-mentioned air flow circuit (13A), after outlet side (13B) is provided with earth electrode (113), apply dc high voltage by above-mentioned power supply (112), the feasible ion wind that forms from above-mentioned discharge electrode (111) towards earth electrode (113), above-mentioned ion wind forms the magnetic field generation whirlpool that device forms by magnetic field, upset through air flow circuit (13A), air heat flow (13B) improves heat transfer effect.
Second embodiment: as shown in Figure 4, above-mentioned electric field forms device and comprises discharge electrode (121), the 1st power supply (122), the 1st earth electrode (123), the 2nd power supply (124) and the 2nd earth electrode (125) substantially.Above-mentioned discharge electrode (121) is arranged on the inflow side of air flow circuit; Above-mentioned the 1st power supply (122) is attached on the discharge electrode (121), is used to apply dc high voltage; Above-mentioned the 1st earth electrode (123) is connected with the 1st power supply (122) with discharge electrode (121); Above-mentioned the 2nd power supply (124) is attached on above-mentioned demarcation strip (11) and the partition wall (12), is used to apply the dc high voltage with above-mentioned discharge electrode (121) identical polar; Above-mentioned the 2nd earth electrode (125) is attached on the 2nd power supply (124).
Present embodiment has following advantage: feasible different by on the body of above-mentioned heat exchange device assembly (10), linking above-mentioned the 2nd earth electrode (125) with the situation of above-mentioned first embodiment, do not need the independent structure that is used for earth electrode.
But but can produce following problem points: in the ion transport of the ion wind that above-mentioned discharge electrode (121) go up to produce in the process of the demarcation strip (11) of above-mentioned heat exchange device assembly (10) and partition wall (12), other foreign substances such as dust are close on demarcation strip (11) and the partition wall (12), have polluted demarcation strip (11) and partition wall (12).
So, present embodiment is in order to remove the problem points of above-mentioned appearance, independent the 2nd power supply (124) is attached on the heat exchange device assembly (10), make the demarcation strip (11) of heat exchange device assembly (10) and partition wall (12) produce the ion wind with the ion wind identical polar of above-mentioned discharge electrode (121), in above-mentioned magnetic field, produce upset by this ion wind, improve heat transfer effect.This situation is identical with the situation of first embodiment.
Based on said structure, the same with prior art, the heat transfer area expansion section (14) of fold plate structure is set on above-mentioned each demarcation strip (12), makes heat transfer area expansion section (14) form wavy on the perspective plane of each air flow circuit (13A), (13B) direction.
Other structure is identical with the prior art structure with action principle.
That is to say, as shown in Figure 2, the air of different temperatures is by mutual different air flow circuit (13A mutually, in the time of 13B) through above-mentioned heat exchange device assembly (10), above-mentioned air stream is separated by demarcation strip that constitutes each layer (11) and partition wall (12) can directly not produce mixing, but contact area is enlarged by above-mentioned demarcation strip (11) and heat transfer area expansion section (14), make mutual heat conduction carry out effectively, make the air of above-mentioned mutual different temperatures reduce the temperature difference between the above-mentioned air when passing through above-mentioned heat exchange device assembly (10) by said structure.
Heat exchange device assembly (10) with said structure is installed in the air conditioner (1) as shown in Figure 1, make indoor-outdoor air pass through above-mentioned heat exchange device assembly (10) mutual vertically by the blowing fan (not shown), and the generation heat exchange, be discharged to the room air that pollutes outdoor, and pure and fresh outdoor air is flowed into indoor, reach the purpose of air conditioner.Under the minimized state of the temperature difference of two kinds of air, carry out the discharge and the suction of air simultaneously, use heating-cooling device effectively.
That is to say that in the winter time, indoor temperature need be kept higher than outdoor temperature the time, flow out the contained heat of air and pass to leaked-in air, can save the driving of heating combined equipment by above-mentioned heat exchange device assembly (10); In summer, indoor temperature need be kept lower than outdoor temperature the time, flows into the contained heat of air and passes to the air of outflow, the driving that can save refrigerating plant by above-mentioned heat exchange device assembly (10).
As shown in Figure 3 and Figure 4, form device (111,112,113,121,122,123,124,125) by above-mentioned magnetic field formation device (201,202) and electric field and make air heat flow produce upset, the raising heat exchange effect through above-mentioned air flow circuit (13A), (13B).
The effect of invention
Heat exchange device assembling body provided by the invention: can more effectively carry out the stream through air conditioner Enter air and flow out the mutual heat exchange of air.
Claims (7)
1, a kind of heat exchange device assembly that is used for air conditioner, mainly include a plurality of square demarcation strip that keeps a determining deviation to install according to laminated construction, make the space between described each adjacent separator plates form the air flow circuit of a direction, and link a plurality of partition walls of described each demarcation strip dual-side, by the different dual-sides of described partition wall, make that the air flow circuit of described each adjacent layer is vertical mutually at described each demarcation strip of each layer binding; It is characterized in that described heat exchange device assembly also is provided with electric field and forms device and magnetic field formation device;
Described electric field forms device and produces ion wind along described air flow circuit;
Described magnetic field forms the magnetic field of device generation perpendicular to the ion wind direction of described electric field.
2, the heat exchange device assembly that is used for air conditioner according to claim 1 is characterized in that described electric field forms device and is made of discharge electrode and power supply and earth electrode;
Described discharge electrode is arranged on the inflow side of described air flow circuit;
Described power supply is attached on the described discharge electrode, is used to apply dc high voltage;
When described earth electrode and described power supply link, be arranged on the outflow side of described air flow circuit.
3, the heat exchange device assembly that is used for air conditioner according to claim 1 is characterized in that described electric field forms device and mainly comprises discharge electrode, the 1st power supply, the 1st earth electrode, the 2nd power supply and the 2nd earth electrode;
Described discharge electrode is arranged on the inflow side of described air flow circuit;
Described the 1st power supply is attached on the described discharge electrode, is used to apply dc high voltage;
Described the 1st earth electrode and described discharge electrode and the 1st power supply are connected;
Described the 2nd power supply is attached on described demarcation strip and the partition wall, is used to apply the dc high voltage with described discharge electrode identical polar;
Described the 2nd earth electrode is attached on described the 2nd power supply.
4,, it is characterized in that described magnetic field forms device dull and stereotyped magnet is arranged on above the described heat exchange device assembly according to claim 1 or the 2 or 3 described heat exchange device assemblies that are used for air conditioner.
5,, it is characterized in that described magnetic field forms device dull and stereotyped magnet is arranged on below the described heat exchange device assembly according to claim 1 or the 2 or 3 described heat exchange device assemblies that are used for air conditioner.
6,, it is characterized in that it is the top and bottom that dull and stereotyped magnet are arranged on described heat exchange device assembly that described magnetic field forms device according to claim 1 or the 2 or 3 described heat exchange device assemblies that are used for air conditioner.
7, the heat exchange device assembly that is used for air conditioner according to claim 4, it is characterized in that described each demarcation strip above be provided with the heat transfer area expansion section of fold plate structure, make its perspective plane form wavy in described each air flow circuit direction.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 03130037 CN1566853A (en) | 2003-06-17 | 2003-06-17 | Heat exchanger device assembly arrangement for air conditioner |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 03130037 CN1566853A (en) | 2003-06-17 | 2003-06-17 | Heat exchanger device assembly arrangement for air conditioner |
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CN1566853A true CN1566853A (en) | 2005-01-19 |
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CN 03130037 Pending CN1566853A (en) | 2003-06-17 | 2003-06-17 | Heat exchanger device assembly arrangement for air conditioner |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102052741A (en) * | 2009-11-05 | 2011-05-11 | 有限会社科技新领域 | Heat exchange body |
CN110573818A (en) * | 2017-05-11 | 2019-12-13 | 沃尔沃卡车集团 | Heat exchanger device |
-
2003
- 2003-06-17 CN CN 03130037 patent/CN1566853A/en active Pending
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102052741A (en) * | 2009-11-05 | 2011-05-11 | 有限会社科技新领域 | Heat exchange body |
CN110573818A (en) * | 2017-05-11 | 2019-12-13 | 沃尔沃卡车集团 | Heat exchanger device |
CN110573818B (en) * | 2017-05-11 | 2021-10-08 | 沃尔沃卡车集团 | Heat exchanger device |
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