CN101793431A

CN101793431A - Air conditioner

Info

Publication number: CN101793431A
Application number: CN201010003555A
Authority: CN
Inventors: 金辉中
Original assignee: Samsung Electronics Co Ltd
Current assignee: Samsung Electronics Co Ltd
Priority date: 2009-01-20
Filing date: 2010-01-15
Publication date: 2010-08-04
Also published as: KR20100085428A; EP2208942A3; EP2208942A2; KR101576539B1

Abstract

Disclosed herein is an air conditioner including a front panel. The front panel includes a center panel provided with a display and moving panels provided respectively at both sides of the center panel. In the air conditioner, as the moving panels are moved forward by drive units, discharge holes are defined at both sides of the moving panels, to discharge heat-exchanged air. Accordingly, the air conditioner may discharge the heat-exchanged air forward from both sides of the moving panels without exposing the interior thereof.

Description

Air-conditioning

Technical field

Embodiments of the invention relate to the air-conditioning that discharge heat-exchanged air forward a kind of inside that does not expose casing (cabinet).

Background technology

Usually, air-conditioning is that a kind of utilization comprises that the cold-producing medium of compressor, condenser, expander and heat exchanger circulates the interior space is freezed or heated and think that the user provides the equipment of more comfortable indoor environment.

Traditional air-conditioning comprises casing with unlimited front side and the front panel that is attached to the front side of casing.Front panel comprises the lower panel of the preceding bottom that is attached to casing and is attached to the top panel of the front upper part of casing.

Top panel rotatably is provided with the discharging grid, carries out being discharged forward by this discharging grid by the air of heat exchange in casing.Yet in having the air-conditioning of above-mentioned structure, when the discharging grid was rotated with the discharging heat-exchanged air, the discharging grid made the interior exposed of casing to outside.

In order to prevent above-mentioned exposure, the such air-conditioning that has proposed, wherein, front panel travels forward, to discharge heat-exchanged air between plate and the casing both sides in front.

Yet the discharging heat-exchanged air is being restricted aspect the discharging heat-exchanged air between the both sides of the front panel of air-conditioning and casing.

Summary of the invention

Therefore, one aspect of the present invention is to provide a kind of and does not expose the inside of casing and easily discharge the air-conditioning of heat-exchanged air forward.

Will be in ensuing description part set forth the present invention other aspect, some will be clearly by describing, and perhaps can learn through enforcement of the present invention.

According to an aspect of the present invention, a kind of air-conditioning comprises: casing, have unlimited front side, and heat exchanger and hair-dryer are arranged in this casing; Intermediate plate is arranged on the front side of casing; A plurality of movable plates are arranged on the front side of casing, and separate with intermediate plate, and movable plate can be forward or motion backward.

Intermediate plate can comprise display.

Movable plate can be separately positioned on the both sides of intermediate plate.

When each movable plate travels forward, carry out the both sides discharging of heat-exchanged air from each movable plate by the heat exchanger in the casing.

Rear portion at movable plate is provided with driver element, and this driver element can be used to make described movable plate to move forward or backward.

Driver element can make described movable plate move forward or backward separately or simultaneously.

Driver element can comprise the tooth bar at the rear portion that is arranged on described movable plate, with the pinion of tooth bar engagement with along the drive motors that axially is attached to pinion.

Described air-conditioning also can comprise the rotary unit that is used for making respectively described movable plate rotation.

Rotary unit can make the end rotation of each movable plate around the close intermediate plate of movable plate.

Along with each movable plate rotates by rotary unit, can change from the emission direction of the outside air discharged of each movable plate.

Each rotary unit can comprise support that extends from the rear surface of a corresponding movable plate and the electric rotating machine that makes the support rotation.

Each rotary unit also can comprise ways, and an end of this ways is fixed to support, and the other end of this ways is fixed to the axle of electric rotating machine.

Described air-conditioning also can comprise auxiliary blowing unit, and this auxiliary blowing unit is used to change the emission direction from the inboard air discharged of each movable plate.

Auxiliary blowing unit can comprise: bleed member is arranged on the intermediate plate, and has at least one discharge orifice; Electric rotating machine makes the bleed member rotation, thereby changes the emission direction by the air of discharge orifice.

The air that changes direction by discharge orifice discharging and the rotation by electric rotating machine can change from the direction of the air-flow of the inboard discharging of movable plate.

Auxiliary blowing unit can comprise: housing is arranged on the rear surface of intermediate plate; The auxiliary blower pipe is connected to housing; Auxiliary blower is contained in the auxiliary blower pipe.

Housing can be communicated with bleed member, and auxiliary blower is from the housing blow air that makes progress, so that air discharges from discharge orifice.

Bleed member can be along vertical setting of intermediate plate, and discharge orifice can be along vertical formation of bleed member.

According to a further aspect in the invention, a kind of air-conditioning comprises: casing has unlimited front side; Intermediate plate is arranged on the front side of casing; A plurality of movable plates are arranged on the front side of casing, and separate with intermediate plate; Driver element moves movable plate forward or backward; Rotary unit makes the movable plate rotation.

According to a further aspect in the invention, a kind of air-conditioning comprises: casing has unlimited front side; Intermediate plate is arranged on the front side of casing; A plurality of movable plates are arranged on the front side of casing, and are arranged in the both sides of intermediate plate; Driver element moves movable plate forward or backward, and to limit discharge orifice, the air in the casing discharges by discharge orifice; Auxiliary blowing unit is arranged on the intermediate plate, is used for changing the emission direction from the air of the inboard of each movable plate.

According to another aspect of the invention, a kind of air-conditioning comprises: casing has unlimited front side; A plurality of panels on one side, are arranged in the front side of casing; In described a plurality of panel at least one can be moved forward or backward.

Description of drawings

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

Fig. 1 is the perspective view that air-conditioning according to an embodiment of the invention is shown;

Fig. 2 is the perspective view that the state that the movable plate of air-conditioning shown in Figure 1 moved forward is shown;

Fig. 3 is the partial, exploded perspective view of the air-conditioning shown in Fig. 1;

Fig. 4 A, Fig. 4 B and Fig. 4 C are the views that illustrates from the discharging of the air-conditioning shown in Fig. 1 heat-exchanged air;

Fig. 5 is the perspective view that the local structure of air-conditioning according to another embodiment of the present invention is shown;

Fig. 6 is the perspective view that the optional structure of air-conditioning shown in Figure 5 is shown;

Fig. 7 A, Fig. 7 B, Fig. 7 C and Fig. 7 D are the views that illustrates from the discharging of the air-conditioning shown in Fig. 5 heat-exchanged air;

Fig. 8 is the perspective view that air-conditioning according to another embodiment of the present invention is shown;

Fig. 9 is the perspective view that the local structure of air-conditioning shown in Figure 8 is shown;

Figure 10 A and Figure 10 B are the views that illustrates from the discharging of the air-conditioning shown in Fig. 8 heat-exchanged air.

The specific embodiment

To describe air-conditioning now in detail according to the embodiment of the invention, its example shown in the accompanying drawings, wherein, identical label is represented similar elements all the time.

With reference to Fig. 1, air-conditioning according to an embodiment of the invention comprises the casing 10 with unlimited front side and is used to cover the front panel 40 of the whole unlimited front side of casing 10.

As mentioned above, casing 10 is constructed such that whole front side opens wide.Casing 10 has the air suction inlet 11 of the lower position that is formed on its rear surface or side surface, and room air is inhaled in the casing 10 by this air suction inlet 11.

Heat exchanger 20 is installed in the upper area of casing 10, and is used for the air that hair-dryer 30 blows is carried out heat exchange.Hair-dryer 30 is installed in the lower area of casing 10, and is used for blowing by air suction inlet 11 and is inhaled into air in the casing 10.

Heat exchanger 20 adopts dull and stereotyped form, with the air that allows to blow by hair-dryer 30 by heat exchanger 20 time by heat exchange.Heat exchanger 20 is installed with being tilted, to separate the internal upper part space of casing 10.

Hair-dryer 30 comprises: fan 31; The drive motors (not shown) is used for revolving force is imposed on fan 31; Fan duct 33, fan 31 are contained in this fan duct 33.

Fan 31 is traditional centrifugal fans, and as mentioned above, fan is used for room air is drawn in the casing 10, then, the air by heat exchanger 20 is discharged into the outside.Drive motors is attached to the rear end of fan 31, and provides revolving force for fan 31.As mentioned above, fan duct 33 is contained in fan 31 wherein, and the air that is used for blowing by fan 31 is towards heat exchanger 20 guiding.

As depicted in figs. 1 and 2, front panel 40 comprises intermediate plate 41 and the movable plate 46 that is arranged in the both sides of intermediate plate 41.

Intermediate plate 41 is arranged in the centre of front panel 40, and is provided with the display 49 of the normal operations that shows air-conditioning.

As mentioned above, movable plate 46 is arranged in the both sides of intermediate plate 41.Movable plate 46 can move forward or backward by the operation of driver element 50.When movable plate 46 travelled forward by driver element 50,

discharge orifice

42,43 and 44 was limited to the both sides of each movable plate 46, to discharge heat-exchanged air from casing 10.

As shown in Figures 2 and 3, each driver element 50 comprises: tooth bar 51 is arranged on the rear surface of each movable plate 46; Pinion 53 is with tooth bar 51 engagements; Drive motors 55 is along axially being attached to pinion 53.

More particularly, along with pinion 53 rotates by the rotation of drive motors 55, and move by the rotation of pinion 53 with the tooth bar 51 of pinion 53 engagement, each movable plate 46 can be forward or is mobile backward.

As shown in the figure, a pair of driver element 50 is separately positioned on the top and bottom of each movable plate 46.Casing 10 can comprise the tooth bar guiding elements 57 of the tooth bar 51 that is used to guide each driver element 50.

Shown in Fig. 4 A, the air-conditioning with above-mentioned structure limits

discharge orifice

42,43 and 44, to discharge heat-exchanged air from casing 10 when each movable plate 46 travels forward by driver element 50.

Discharge orifice

42,43 and 44 comprises: first discharge orifice 42 when any one of movable plate 46 travels forward, is limited to the outside of this corresponding movable plate; Second discharge orifice 43 is limited to the outside of another movable plate 46; Second discharge orifice 44 is limited between the inboard of movable plate 46.

Here, move along the direction oblique by first discharge orifice 42 and second discharge orifice, 43 air discharged with respect to the horizontal inclination of air-conditioning.By the 3rd discharge orifice 44 air discharged mixed the travelling forward in interior rear flank by each movable plate 46.

Shown in Fig. 4 B and Fig. 4 C, the

discharge orifice

42,43 of air-conditioning and 44 one of can optionally be defined as in the movable plate 46 only can travel forward.In this case, heat-exchanged air is discharged from any side and the centre of air-conditioning.

With reference to Fig. 5 that another embodiment of the present invention is shown, air-conditioning also can comprise rotary unit 60, and this rotary unit 60 makes each movable plate 46 rotate predetermined angulars after movable plate 46 travels forward by driver element 50.

Rotary unit 60 is used for changing the emission direction from the air in the outside of each movable plate 46, that is, and and the emission direction of the air by first discharge orifice 42 and second discharge orifice 43.

For this reason, each rotary unit 60 comprises: support 61, extend from the rear surface of each movable plate 46; Electric rotating machine 65 makes support 61 rotate; Ways 63, the one end is fixed to support 61, and its other end is fixed to the axle of electric rotating machine 65.

As mentioned above, support 61 extends from the rear surface of the movable plate 46 of correspondence, and adopts fan-shaped form, and the end of close intermediate plate 41 is top (vertex).Ways 63 integrally bendings, an end of this ways 63 is fixed to support 61, and the other end of this ways 63 is fixed to the axle of electric rotating machine 65.

Electric rotating machine 65 and ways 63 are installed to tooth bar 51.Electric rotating machine 65 makes ways 63 rotate predetermined angular around the end (that is, the bound fraction of ways 63 and tooth bar 51) of the close intermediate plate 41 of ways 63, thereby makes support 61 rotations.

As shown in Figure 6, alternatively, driver element 50 can comprise Y shape tooth bar 52.In this case, two movable plates 46 can move forward or backward by the rotation of single drive motors 55.The ways 63 that is arranged on each rotary unit 60 on the rear surface of each movable plate 46 can be respectively fixed to two branches of Y shape tooth bar 52.

In the air-conditioning that comprises above-mentioned rotary unit 60, shown in Fig. 7 A, along with each movable plate 46 travels forward by driver element 55, heat-exchanged air is discharged from casing 10.

In this case, move along the direction oblique by first discharge orifice 42 and second discharge orifice, 43 air discharged with respect to the horizontal inclination of air-conditioning.By the 3rd discharge orifice 44 air discharged mixed travelling forward the time by each movable plate 46 inboard.

Shown in Fig. 7 B, by under the driver element 50 proal states, rotary unit 60 can make movable plate 46 rotate around the end of the close intermediate plate 41 of movable plate 46 at each movable plate 46.In this case, can move along the direction that turns forward a little by first discharge orifice 42 and second discharge orifice, 43 air discharged.

Shown in Fig. 7 C and Fig. 7 D, by under the driver element 50 proal states, can only make a movable plate 46 rotations in the movable plate 46 at each movable plate 46.In this case, only the outside air discharged of a movable plate 46 stream and does not change from the emission direction of the air stream in the outside of another movable plate 46 along the direction discharging that turns forward a little from movable plate 46.

With reference to Fig. 8 and Fig. 9 that another embodiment of the present invention is shown, air-conditioning also can comprise auxiliary blowing unit 70, and this auxiliary blowing unit 70 is used to control the air-flow of the inboard discharging (that is, by 44 dischargings of the 3rd discharge orifice) from each movable plate 46.

Auxiliary blowing unit 70 comprises: bleed member 71 is arranged on the intermediate plate 41, and has four discharge orifices 72; Electric rotating machine 77 is used to make bleed member 71 rotations, to change the emission direction by the air of four discharge orifices 72.

Bleed member 71 is arranged on the centre of intermediate plate 41 along the longitudinal, and has semi-circular cross-section.Intermediate plate 41 is provided with the construction opening 45 that is used for bleed member 71, and the both sides of construction opening 45 are rounded to guarantee the level and smooth rotation of semicircle bleed member 71.

As mentioned above, bleed member 71 has four discharge orifices 72.Four discharge orifices 72 penetrate bleed member 71 along the longitudinal, and adopt the form of single vertical discharge orifice or a plurality of discharge orifices.That is, four discharge orifices 72 comprise at least one discharge orifice.

Auxiliary blowing unit 70 also comprises: housing 75 is arranged on the rear surface of intermediate plate 41; Auxiliary blower is connected to housing 75.Auxiliary blower comprises: auxiliary blower 73; The drive motors (not shown) is used for revolving force is imposed on auxiliary blower 73; Auxiliary blower pipe 74, auxiliary blower 73 are contained in this auxiliary blower pipe 74.

As mentioned above, housing 75 is arranged on the rear surface of intermediate plate 41, and auxiliary blower pipe 74 is connected to the bottom of housing 75.The inner space of the inside of housing 75 and casing 10 separates, to limit the air flow passage that auxiliary blower 73 blows.

Housing 75 is communicated with four discharge orifices 72 of bleed member 71.Thereby the air that blows by auxiliary blower 73 moves upward by the inner space of housing 75, with by four discharge orifices, 72 dischargings from bleed member 71.

Electric rotating machine 77 is arranged on the top of bleed member 71, so that 71 rotations of the bleed member in the construction opening 45 of intermediate plate 41.

Along with each movable plate 46 travels forward by driver element 50, comprise that the air-conditioning of above-mentioned auxiliary blowing unit 70 discharges heat-exchanged air from casing 10.In this case, move along the direction oblique by first discharge orifice 42 and second discharge orifice, 43 air discharged with respect to the horizontal inclination of air-conditioning.By the 3rd discharge orifice 44 air discharged mixed the travelling forward in interior rear flank by each movable plate 46.

In aforesaid operations, shown in Figure 10 A and Figure 10 B, auxiliary blowing unit 70 can be optionally in the movable plate 46 any one change direction by the air-flow of the 3rd discharge orifice 44.

More particularly, if auxiliary blower 73 is operated, then the air that blows by auxiliary blower 73 moves upward by the inner space of housing 75.Then, the air of the inner space by housing 75 is discharged by four discharge orifices 72 of bleed member 71.In this case, along with bleed member 71 is rotated motor 77 rotations, four discharge orifices 72 can be changed on direction.

If blow and emission direction by four discharge orifice 72 air discharged changes by auxiliary blower 73, then the direction by the 3rd discharge orifice 44 air discharged is also from forwards to the direction that changes over respect to any one inclination the movable plate 46.

Therefore, in an embodiment of the present invention, front panel 40 is divided into intermediate plate 41 and is arranged in the movable plate 46 of the both sides of intermediate plate 41, heat-exchanged air is from the both sides discharging of each movable plate 46, thereby heat-exchanged air can easily be discharged from air-conditioning forward, and does not expose the inside of casing 10.

In addition, in an embodiment of the present invention, movable plate 46 can travel forward separately or simultaneously, with the emission direction of control heat-exchanged air.In addition, can be controlled from the emission direction of the outside air discharged of each movable plate 46 by the operation of rotary unit 60, can be controlled from the emission direction of the inboard air discharged of each movable plate 46 by the operation of auxiliary blowing unit 70.

Be clear that from top description air-conditioning comprises front panel according to an embodiment of the invention, front panel comprises intermediate plate and is arranged in the movable plate of intermediate plate both sides, with the both sides discharging heat-exchanged air from movable plate.Can easily guarantee the discharging forward of heat-exchanged air like this, and not expose the inside of casing.

Though represented and described some embodiments of the present invention, it should be appreciated by those skilled in the art that under the situation that does not break away from the principle of the present invention that limits its scope by claim and equivalent thereof and spirit, can make amendment to these embodiment.

Claims

1. air-conditioning comprises:

Casing has unlimited front side, and heat exchanger and hair-dryer are arranged in this casing;

Intermediate plate is arranged on the front side of casing;

A plurality of movable plates are arranged on the front side of casing, and separate with intermediate plate, and movable plate can be forward or motion backward.

2. air-conditioning as claimed in claim 1, wherein, intermediate plate comprises display, movable plate is separately positioned on the both sides of intermediate plate.

3. air-conditioning as claimed in claim 1 wherein, when each movable plate travels forward, carries out the both sides discharging of heat-exchanged air from each movable plate by the heat exchanger in the casing.

4. air-conditioning as claimed in claim 3 wherein, is provided with driver element at the rear portion of movable plate, and this driver element is used for making described movable plate to move forward or backward, and driver element moves described movable plate separately or simultaneously forward or backward.

5. air-conditioning as claimed in claim 4, wherein, driver element comprises the tooth bar at the rear portion that is arranged on described movable plate, with the pinion of tooth bar engagement with along the drive motors that axially is attached to pinion.

6. air-conditioning as claimed in claim 5 also comprises the rotary unit that is used for making respectively described movable plate rotation, and rotary unit makes the end rotation of each movable plate around the close intermediate plate of movable plate.

7. air-conditioning as claimed in claim 6 wherein, along with each movable plate rotates by rotary unit, changes from the emission direction of the outside air discharged of each movable plate.

8. air-conditioning as claimed in claim 7, wherein, each rotary unit comprises support that extends from the rear surface of a corresponding movable plate and the electric rotating machine that makes the support rotation.

9. air-conditioning as claimed in claim 8, wherein, each rotary unit also comprises ways, and an end of this ways is fixed to support, and the other end of this ways is fixed to the axle of electric rotating machine.

10. air-conditioning as claimed in claim 3 also comprises auxiliary blowing unit, and this auxiliary blowing unit is used to change the emission direction from the inboard air discharged of each movable plate.

11. air-conditioning as claimed in claim 10, wherein, auxiliary blowing unit comprises: bleed member is arranged on the intermediate plate, and has at least one discharge orifice; Electric rotating machine makes the bleed member rotation, thereby changes the emission direction by the air of discharge orifice.

12. air-conditioning as claimed in claim 11, wherein, the air that changes direction by discharge orifice discharging and the rotation by electric rotating machine changes from the direction of the air-flow of the inboard discharging of movable plate.

13. air-conditioning as claimed in claim 10, wherein, auxiliary blowing unit comprises: housing is arranged on the rear surface of intermediate plate; The auxiliary blower pipe is connected to housing; Auxiliary blower is contained in the auxiliary blower pipe.

14. air-conditioning as claimed in claim 13, wherein, housing is communicated with bleed member, and auxiliary blower is from the housing blow air that makes progress, so that air discharges from discharge orifice.

15. air-conditioning as claimed in claim 11, wherein, bleed member is along vertical setting of intermediate plate, and discharge orifice is along vertical formation of bleed member.