CN1995840A

CN1995840A - Air conditioner

Info

Publication number: CN1995840A
Application number: CNA2006100827556A
Authority: CN
Inventors: 李柱东; 金东炫; 李在权; 早赖岳; 黄准; 崔容华
Original assignee: Samsung Electronics Co Ltd
Current assignee: Samsung Electronics Co Ltd
Priority date: 2006-01-03
Filing date: 2006-05-25
Publication date: 2007-07-11
Anticipated expiration: 2026-05-25
Also published as: KR101085899B1; KR20070073142A; CN100567828C

Abstract

The present invention provides an air conditioner, that is an air conditioner also capable of blowing heat-exchanged air evenly into chamber space and showing the highest capability even vertical distribution of heat in the chamber space is not even. The air conditioner comprises a main body including a first air inlet and a second air inlet separately formed through the upper and lower part of the main body; a heat exchanger installed in the main body for exchanging heat with air from the first air inlet and the second air inlet; and a clapboard for dividing the interior main body into an upper area and a lower area such that air flow from the first air inlet and the second air inlet is separated. Said clapboard satisfies following relational expression: S1 is not less than S2. Wherein, S1 represents area of heat exchanging between air from the first air inlet and the heat exchanger, and S2 represents area of heat exchanging between air from the second air inlet and the heat exchanger.

Description

Air-conditioning

The application requires to be submitted on January 3rd, 2006 interests of the 2006-0000706 korean patent application of Korea S Department of Intellectual Property, and it openly intactly is contained in this, for reference.

Technical field

The present invention relates to a kind of air-conditioning with a plurality of air blasts and a plurality of exhaust outlets, more particularly, relate to a kind of like this air-conditioning, even when the vertical distribution of heat in the interior space is inhomogeneous, this air-conditioning also can be blown into the air of finishing heat exchange equably the interior space and demonstrate maximum performance.

Background technology

Japan Patent discloses 2003-156232 number and discloses a kind of air-conditioning with a plurality of air blasts and a plurality of exhaust outlets.

This air-conditioning comprises front surface and the air entry of upper surface formation and first exhaust outlet and second exhaust outlet that passes the lower surface formation of main body that passes main body.First air duct and second air duct are formed in the main body, and first heat exchanger and second heat exchanger are installed in first air duct respectively and neutralize in second air duct.First air blast and second air blast are installed in first air duct respectively and neutralize in second air duct.Here, cross flow fan is used as first air blast and second air blast.

In described air-conditioning, the air that carries out heat exchange with first heat exchanger by the operation of first air blast is discharged into first exhaust outlet, and the air that carries out heat exchange with second heat exchanger by the operation of second air blast is discharged into second exhaust outlet.

Because air entry is positioned on the front surface and upper surface of main body, and first exhaust outlet and second exhaust outlet be positioned on the lower surface of main body, so the air that blows discharge to the air-conditioning region in front is restricted.In addition, because air-flow focuses on the lower area of the interior space, so when air-conditioning moved continuously, the vertical distribution of temperature was uneven in the interior space.That is to say, temperature difference occurs between the upper area of the interior space on the air-conditioning that the lower area of the interior space under the concentrated air-conditioning that arrives of the air of discharge and the air of discharge do not have directly to arrive.This difference has been damaged the uniformity of the interior space, and has reduced heating/refrigerating efficiency of air-conditioning.

Summary of the invention

Therefore, an aspect of of the present present invention provides a kind of like this air-conditioning, and described air-conditioning is blown into the air of discharging the whole zone of the interior space equably.

Another aspect of the present invention provides a kind of like this air-conditioning, even when the vertical distribution of the heat of the interior space is inhomogeneous, described air-conditioning also demonstrates maximum performance.

According on the one hand, the invention provides a kind of air-conditioning, this air-conditioning comprises: main body comprises first air entry and second air entry that pass its upper and lower and form respectively; Heat exchanger is installed in the main body, is used for and carry out heat exchange by first air entry and the second air entry inhaled air; And dividing plate, be upper area and lower area with the internal separation of main body so that by the first air entry inhaled air flow and by the flowing separately of the second air entry inhaled air, wherein, described dividing plate satisfies following relational expression,

S1≥S2，

Here, S1 represents that the area that carries out heat exchange by the first air entry inhaled air and heat exchanger, S2 represent the area that carries out heat exchange by the second air entry inhaled air and heat exchanger.

Preferably, dividing plate is installed in the position of satisfying following relational expression,

1.0≤S1/S2≤2.3。

The top that described first air entry can pass the rear surface of described main body forms, and the bottom that described second air entry can pass the rear surface of described main body forms.

Described main body also can comprise first exhaust outlet and second exhaust outlet, and the top that described first exhaust outlet passes the front surface of described main body forms, and the bottom that described second exhaust outlet passes the front surface of described main body forms; And described air-conditioning also can comprise first air blast and second air blast, described first air blast is installed on the described dividing plate, be used for to the described first exhaust outlet blow air, described second air blast is installed under the described dividing plate, is used for to the described second exhaust outlet blow air.

Described air-conditioning also can comprise: first guider and first stabilizer, and the air that is used for being blowed by described first air blast is directed to described first exhaust outlet; And second guider and second stabilizer, the air that is used for being blowed by described second air blast is directed to described second exhaust outlet.

Preferably, the downward inclination angle of the downward inclination angle of described first guider and first stabilizer is respectively less than the downward inclination angle of described second guider and the downward inclination angle of second stabilizer.

According on the other hand, the invention provides a kind of air-conditioning, this air-conditioning comprises: main body comprises and passes first air entry and second air entry that its upper and lower forms respectively; Heat exchanger is installed in the main body, is used for and carry out heat exchange by first air entry and the second air entry inhaled air; And dividing plate, with the internal separation of main body is upper area and lower area, so that by flowing of the first air entry inhaled air and flowing separately by the second air entry inhaled air, wherein, described dividing plate is installed in rotation on the inside of main body, so that the ratio of S1 and S2 can change, described S1 represents that the area that carries out heat exchange through the air of first air entry and heat exchanger, described S2 represent the area that carries out heat exchange through the air of second air entry and heat exchanger.

One end of described dividing plate can be positioned on the inner surface of front portion of described main body and the other end of described dividing plate can approach described heat exchanger, so that, can change described ratio by being that described dividing plate is rotated around it in the center with the described end on the inner surface of the front portion that is positioned at described main body.

Described air-conditioning also can comprise: first temperature sensor, be installed in described first air entry around, be used to measure the temperature that is drawn into the air in described first air entry; With second temperature sensor, be installed in described second air entry around, be used to measure the temperature that is drawn into the air in described second air entry.

The angle of rotation of described dividing plate can and be determined pro rata by the temperature of the air of described first temperature sensor measurement with by the difference between the temperature of the air of described second temperature sensor measurement.

According on the other hand, the present invention has supplied a kind of air-conditioning, and this air-conditioning comprises: main body comprises and passes first air entry and second air entry that its upper and lower forms respectively; Dividing plate is upper area and lower area with the internal separation of main body; First heat exchanger is installed in the upper area, is used for and carry out heat exchange by the first air entry inhaled air; With second heat exchanger, be installed in the lower area, be used for and carry out heat exchange by the second air entry inhaled air, wherein, described dividing plate satisfies following relational expression,

S1≥S2，

Description of drawings

By the description of embodiment being carried out below in conjunction with accompanying drawing, these and/or other aspect of the present invention and advantage will become clear and be easier to and understand, wherein:

Fig. 1 is the perspective view that illustrates according to the rear portion of air-conditioning of the present invention;

Fig. 2 is the longitdinal cross-section diagram according to the air-conditioning of first embodiment of the invention;

Fig. 3 is used for the ratio (S1: the S2) situation of Bian Huaing under the figure of the performance of air-conditioning of comparison at heat exchange area;

Fig. 4 is the longitdinal cross-section diagram according to the air-conditioning of second embodiment of the invention; With

Fig. 5 is the longitdinal cross-section diagram according to the air-conditioning of third embodiment of the invention.

The specific embodiment

Now the embodiment of the invention is described in detail, its example shown in the accompanying drawings, wherein, identical label is represented identical parts all the time.Below with reference to the accompanying drawings embodiment is described to explain the present invention.

Fig. 1 is the perspective view that illustrates according to the rear portion of air-conditioning of the present invention, and Fig. 2 is the longitdinal cross-section diagram according to the air-conditioning of first embodiment of the invention.

As depicted in figs. 1 and 2, comprise according to the air-conditioning of first embodiment of the invention: main body 10, have first air entry 13 and second air entry 14 that pass its formation, be used to suck room air; Heat exchanger 20 is installed in the main body 10, is used for and carry out heat exchange by first air entry 13 and second air entry, 14 inhaled airs;

Air blast

31 and 32 is arranged on the front of heat exchanger 20; With dividing plate 50, be upper area and lower area with the internal separation of main body 10, be used to make by flowing of first air entry, 13 inhaled airs and flowing separately by second air entry, 14 inhaled airs.

The top that first air entry 13 passes the rear surface 11 of main body 10 forms, and the bottom that second air entry 14 passes the rear surface 11 of main body 10 forms.The upper and lower that first exhaust outlet 15 and second exhaust outlet 16 pass the front surface 12 of main body 10 forms, and the air that described exhaust outlet is used for finishing heat exchange is discharged into the interior space.Pass that the upper and lower of the rear surface 11 of its main body 10 that forms first air entry 13 and second air entry 14 preferably tilts.In this case, when the main body 10 of air-conditioning was fixed on the wall in house, the distance that first air entry 13 and second air entry 14 and wall separate appointment was so that air can be sucked first air entry 13 and second air entry 14 swimmingly.

Heat exchanger 20 is positioned at the rear portion of main body 10 inside, and be divided into first heat exchange section 21 and second heat exchange section 22 by dividing plate 50, first heat exchange section 21 with carry out heat exchange by first air entry, 13 inhaled airs, second heat exchange section 22 with carry out heat exchange by second air entry, 14 inhaled airs.

First air blast 31 and second air blast 32 be separately positioned on the dividing plate 50 and dividing plate 50 under.First air blast 31 is from first air entry, 13 suction air and to first exhaust outlet, 15 blow air, and second air blast 32 is from second air entry, 14 suction air and to second exhaust outlet, 16 blow air.Traditional cross flow fan is as first air blast 31 and second air blast 32.First air blast 31 and second air blast 32 are operated respectively by the drive motors (not shown) that is installed separately.Therefore, the control of the controller (not shown) of air-conditioning is used to operate the drive motors of first air blast 31 and be used to operate the drive motors of second air blast 32, thereby first air blast 31 and second air blast 32 is moved simultaneously or optionally operation.

Second guider 43 and second stabilizer 44 that the air that is used for being directed to by the air that first air blast 31 blows first guider 41 of first exhaust outlet 15 and first stabilizer 42 and is used for being blowed by second air blast 32 is directed to second exhaust outlet 16 are installed in main body 10.

First guider 41 extends the top to first air blast 31 from the upper end of first exhaust outlet 15, and around the top of first air blast 31.First stabilizer 42 extends from the lower end of first exhaust outlet 15, approaches first air blast 31.According to identical mode, second guider 43 extends the top to second air blast 32 from the upper end of second exhaust outlet 16, and around the top of second air blast 32.Second stabilizer 44 extends from the lower end of second exhaust outlet 16, approaches second air blast 32.

Downward inclination angle (the α of first guider 41 ₁) less than the downward inclination angle (α of second guider 43 ₂), the downward inclination angle (β of first stabilizer 42 ₁) less than the downward inclination angle (β of second stabilizer 44 ₂).Its reason is that the air that blows by first exhaust outlet 15 is discharged into zone far away, and the air that blows by second exhaust outlet 16 is discharged near zone.

Below, will the operation of above-mentioned air-conditioning be described briefly.

When first air blast 31 and 32 operations of second air blast, the room air that is positioned on the air-conditioning is inhaled into first air entry 13, and the room air that is positioned under the air-conditioning is inhaled into second air entry 14.Inhaled air is optionally through first heat exchange section 21 or second heat exchange section 22 of over-heat-exchanger 20, and is discharged into the interior space by first exhaust outlet 15 or second exhaust outlet 16.Here, the air of discharging from second exhaust outlet 16 from the air ratio of first exhaust outlet, 15 discharges arrives farther zone.Therefore, air-conditioning of the present invention is distributed to the whole zone of the interior space equably with air-flow, and keeps the consistent state of the whole interior space.

Yet, though air-flow is blowed equably as mentioned above, air of discharging by first exhaust outlet 15 and the bottom that is conducted to the interior space by the air that second exhaust outlet 16 is discharged.Consequently, be drawn into the temperature (t of the air of first air entry 13 that the top of passing main body 10 forms ₁) and be drawn into the temperature (t of the air of second air entry 14 that the bottom of passing main body 10 forms ₂) between there are differences.Therefore, the air that is drawn into first air entry 13 on top has the thermic load greater than the air of second air entry 14 that is drawn into the bottom.For example, in refrigerating operation, because be drawn into the temperature (t of the air of first air entry 13 ₁) be higher than the temperature (t of the air that is drawn into second air entry 14 ₂), so the temperature of the air of discharging for the temperature that makes the air of discharging from first exhaust outlet 15 with from second exhaust outlet 16 equates that the air that is drawn into first air entry 13 must be than the cooled longer time of the air that is drawn into second air entry 14.In heating operation, the method for applications similar.

Consider above aspect, the dividing plate 50 that must install an air-conditioner makes and satisfies following relational expression.Here, S1 represents that the area that carries out heat exchange by first air entry, 13 inhaled airs and heat exchanger 20, S2 represent the area that carries out heat exchange by second air entry, 14 inhaled airs and heat exchanger 20.

S1≥S2

When considering owing to temperature (t ₁) and temperature (t ₂) the thermic load that causes of difference and when determining S1 and S2, the heat exchange in the heat exchanger 20 is more effectively carried out, thereby has improved the performance of air-conditioning.

Fig. 3 is used for the ratio (S1: the S2) situation of Bian Huaing under the figure of the performance of air-conditioning of comparison at heat exchange area.As shown in Figure 3, when S1 〉=S2, the performance of air-conditioning is normally high.Specifically, as shown in Figure 3, as S1: S2=6: 4 or S1: S2=7: in the time of 3, the performance of air-conditioning is quite high.Therefore, dividing plate 50 preferably is positioned at appointed positions, and following expression is satisfied in this position, 1.0≤S1/S2≤2.3.

The condense water disk 23 that is used to collect and discharge the condensed water that flows down from heat exchanger 20 is installed under the heat exchanger 20, is used for eliminating the filter 13a of impurity and the inboard that 14a is installed in first air entry 13 respectively and the inboard of second air entry 14 from being drawn into air in first air entry 13 and second air entry 14.

Fig. 4 is the longitdinal cross-section diagram according to the air-conditioning of second embodiment of the invention.The air-conditioning of the air-conditioning of second embodiment and first embodiment shown in Figure 2 is different, that is, the air-conditioning of second embodiment comprises movably dividing plate 60.Below, some parts among second identical with parts among the first embodiment in fact embodiment are represented by identical label, even these parts are plotted in the different accompanying drawings, and consider and unnecessary these parts are described again, so will omit their detailed description.

Dividing plate 60 according to the air-conditioning of second embodiment is installed in rotation in the main body 10, so that S1: the ratio of S2 can change.One end 61 of dividing plate 60 is positioned on the front surface 12 of main body, and the other end 62 of dividing plate 60 approaches heat exchanger 20.Because a described end 61 of dividing plate 60 is connected to drive motors 63, so when drive motors 60 operations, dividing plate 60 is that rotate around it at the center with a described end 61, thereby changes the ratio of S1: S2.

First temperature sensor 71 that is used to measure the temperature of the air that is drawn into first air entry 13 be installed in first air entry 13 around, second temperature sensor 72 that is used to measure the temperature of the air that is drawn into second air entry 14 be installed in second air entry 14 around.Difference between the temperature (T2) of the temperature (T1) of angle of rotation of dividing plate 60 (θ) and the air measured by first temperature sensor 71 and the air measured by second temperature sensor 72 is definite pro rata.That is to say that when the difference between temperature (T1) and the temperature (T2) was big, dividing plate 60 rotated big relatively angle, and the difference between temperature (T1) and temperature (T2) than hour, dividing plate 60 rotates relatively little angle.The angle of rotation of dividing plate 60 (θ) is adjusted according to the temperature (T1 and T2) of the air of being measured by first temperature sensor 71 and second temperature sensor 72, thereby makes air-conditioning demonstrate maximum performance according to the state of the interior space.

Fig. 5 is the longitdinal cross-section diagram according to the air-conditioning of third embodiment of the invention.The air-conditioning of the air-conditioning of the 3rd embodiment and first embodiment shown in Figure 2 is different, promptly, the air-conditioning of the 3rd embodiment comprises such dividing plate 80, described dividing plate 80 is divided into upper area (A) and lower area (B) with the inside of main body fully, and is separately installed with first heat exchanger 24 and second heat exchanger 25 in upper area and lower area (A and B).Here, the heat exchange area that is arranged in first heat exchanger 24 of upper area (A) is greater than or equal to the heat exchange area of second heat exchanger 25 that is arranged in lower area (B).Condense water disk 26 and condense water disk 27 are mounted respectively under first heat exchanger 24 and second heat exchanger 25.

Can be clear that from the above description, the invention provides a kind of like this air-conditioning, described air-conditioning comprises first air blast, second air blast, first exhaust outlet and second exhaust outlet that branch vertically is arranged, thereby the air of discharging is blown into equably the whole zone of the interior space.

In addition, air-conditioning of the present invention is considered the heat exchange area of adjusting heat exchanger according to the thermic load of the temperature of inhaled air, thereby heats and refrigerating operation even also carry out effectively when the vertical distribution of the heat of the interior space is inhomogeneous.

Though shown and described some embodiments of the present invention, but those skilled in the art should understand that, without departing from the principles and spirit of the present invention, can make amendment to these embodiment, scope of the present invention is limited by claim and equivalent thereof.

Claims

1, a kind of air-conditioning, this air-conditioning comprises:

Main body comprises and passes first air entry and second air entry that its upper and lower forms respectively;

Heat exchanger is installed in the described main body, is used for and carry out heat exchange by described first air entry and the described second air entry inhaled air; With

Dividing plate is upper area and lower area with the internal separation of described main body so that by the described first air entry inhaled air flow and by the flowing separately of the described second air entry inhaled air,

Wherein, described dividing plate satisfies following relational expression,

S1≥S2，

Here, S1 represents that the area that carries out heat exchange by described first air entry inhaled air and described heat exchanger, S2 represent the area that carries out heat exchange by described second air entry inhaled air and described heat exchanger.

2, air-conditioning as claimed in claim 1, wherein, described dividing plate is installed in the position of satisfying following relational expression,

1.0≤S1/S2≤2.3。

3, air-conditioning as claimed in claim 1, wherein, described first air entry pass described main body the rear surface top and form, described second air entry pass described main body the rear surface the bottom and form.

4, air-conditioning as claimed in claim 1, wherein:

Described main body also comprises first exhaust outlet and second exhaust outlet, described first exhaust outlet pass described main body front surface top and form, described second exhaust outlet pass described main body front surface the bottom and form; With

Described air-conditioning also comprises first air blast and second air blast, described first air blast is installed on the described dividing plate, be used for to the described first exhaust outlet blow air, described second air blast is installed under the described dividing plate, is used for to the described second exhaust outlet blow air.

5, air-conditioning as claimed in claim 4 also comprises:

First guider and first stabilizer, the air that is used for being blowed by described first air blast is directed to described first exhaust outlet; With

Second guider and second stabilizer, the air that is used for being blowed by described second air blast is directed to described second exhaust outlet.

6, air-conditioning as claimed in claim 5, wherein, the downward inclination angle of described first guider and the downward inclination angle of described first stabilizer are respectively less than the downward inclination angle of described second guider and the downward inclination angle of described second stabilizer.

7, a kind of air-conditioning, this air-conditioning comprises:

Dividing plate is upper area and lower area with the internal separation of described main body, so that the air-flow of the sky that flows and suck by described second air entry by the described first air entry inhaled air is separately moving,

Wherein, described dividing plate is installed in rotation in the described main body, so that the ratio of S1 and S2 can change, described S1 represents that through the air of described first air entry and the area that described heat exchanger carries out heat exchange, described S2 represents through the air of described second air entry and the area that described heat exchanger carries out heat exchange.

8, air-conditioning as claimed in claim 7, wherein, one end of described dividing plate is positioned on the inner surface of front portion of described main body and the other end of described dividing plate approaches described heat exchanger, so that, can change described ratio by being that described dividing plate is rotated around it in the center with the described end on the inner surface of the front portion that is positioned at described main body.

9, air-conditioning as claimed in claim 7 also comprises:

First temperature sensor, be installed in described first air entry around, be used to measure the temperature that is drawn into the air in described first air entry; With

Second temperature sensor, be installed in described second air entry around, be used to measure the temperature that is drawn into the air in described second air entry.

10, air-conditioning as claimed in claim 9, the angle of rotation of wherein said dividing plate and determine pro rata by the temperature of the air of described first temperature sensor measurement with by the difference between the temperature of the air of described second temperature sensor measurement.

11, air-conditioning as claimed in claim 7, wherein, the top that described first air entry passes the rear surface of described main body forms, and the bottom that described second air entry passes the rear surface of described main body forms.

12, air-conditioning as claimed in claim 7, wherein:

Described main body also comprises first exhaust outlet and second exhaust outlet, and the top that described first exhaust outlet passes the front surface of described main body forms, and the bottom that described second exhaust outlet passes the front surface of described main body forms; With

13, a kind of air-conditioning, this air-conditioning comprises:

Dividing plate is upper area and lower area with the internal separation of described main body;

First heat exchanger is installed in described upper area, is used for and carry out heat exchange by the described first air entry inhaled air; With

Second heat exchanger is installed in described lower area, is used for and carry out heat exchange by the described second air entry inhaled air,

Wherein, described dividing plate satisfies following relational expression,

S1≥S2，

Here, S1 represents that the area that carries out heat exchange by the first air entry inhaled air and first heat exchanger, S2 represent the area that carries out heat exchange by the second air entry inhaled air and second heat exchanger.

14, air-conditioning as claimed in claim 13, wherein: