CN101469891A

CN101469891A - Indoor unit of air-conditioning system

Info

Publication number: CN101469891A
Application number: CNA2009100036958A
Authority: CN
Inventors: 金江永; 安鍲
Original assignee: LG Electronics Inc
Current assignee: LG Electronics Inc
Priority date: 2004-12-30
Filing date: 2005-12-30
Publication date: 2009-07-01
Anticipated expiration: 2025-12-30
Also published as: CN101469891B; CN100532963C; CN1847734A; KR20060077397A; KR100758951B1

Abstract

An indoor unit of an air-conditioning system is disclosed, in which air outlets are desirably opened and closed. The indoor unit of the air-conditioning system includes a cabinet having at least one or more air inlets and air outlets and receiving a blower and a heat exchanger therein, the blower forcibly urging air flow and the air outlets being respectively formed at one side and the other side, and outlet doors movably provided in the cabinet to open and close the air outlets.

Description

The indoor unit of air-conditioning system

The application is that the application number that proposed on December 30th, 2005 is dividing an application of 200510048816.2 patent application.The denomination of invention of original bill application is " indoor unit of air-conditioning system ".

The application requires the priority of open No.P2004-0116241 of Korean Patent that applied on December 30th, 2004 and the open No.P2005-0031473 of Korean Patent that applied on April 15th, 2005, these two parts of applications are incorporated into this by reference, as having set forth fully here.

Technical field

The present invention relates to a kind of air-conditioning system of separation, and more specifically, relate to a kind of indoor unit of air-conditioning system, the phase is arranged on indoor cooling and the heating room air of being used for.

Background technology

Usually, air-conditioning system be equipped with compressor and heat exchanger in case by refrigerant is flowed therein cool off with heating clamber in place (such as life area, restaurant, library or office).This air-conditioning system can be divided into separation air conditioner system and unitary air-conditioning system usually.

Unitary air-conditioning system comprises and is formed in the main body and unseparated each other outdoor unit and indoor unit.Outdoor unit and indoor unit are set directly in the house with the state that is installed in the wall or be suspended on the window.

Separation air conditioner system comprises: indoor unit, and it is provided with the heat exchanger that carries out indoor cooling or indoor heating; Outdoor unit, it is provided with the heat exchanger that carries out heat exchange with outdoor air; And the refrigerant tube that connects indoor unit and outdoor unit.

In separation air conditioner system, indoor unit and outdoor unit be provide dividually outdoor unit is located at outdoor so that indoor unit is located at indoor.

A kind of existing indoor unit of separation air conditioner system is described below with reference to Fig. 1.

With reference to figure 1, the indoor unit of separation air conditioner system comprises: heat exchanger (not shown), air blast (not shown) and heat exchanger and air blast be contained in wherein cabinet 10.

Air intlet

12a, 12b and 12c are located at the bottom of cabinet 10 to attract air to discharge conditioned air on the top that air outlet slit 11a, 11b and 11c are located at cabinet 10.

Air outlet slit 11a, 11b and 11c are formed at respectively on the left and right sides sidepiece of the top of cabinet front surface and cabinet.The front surface of left side and right side and cabinet forms predetermined angle.

In air outlet slit 11a, 11b and 11c, the air outlet slit that is formed at cabinet front surface top place is called as front air outlet slit 11a, and be formed at cabinet on the left of respectively and the air outlet slit on right side be called as respectively on the left of air outlet slit 11b and right side air outlet slit 11c.

Simultaneously,

air outlet slit

11a, 11b and 11c are respectively equipped with

blade

13a, 13b and

13c.Blade

13a, 13b and 13c rotatably form the air stream of controlling from

outlet

11a, 11b and 11c discharge.And

blade

13a, 13b and 13c are used for open and close

air outlet slit

11a, 11b and 11c.

Yet the indoor unit that air-conditioning system is as above constructed exists a problem.Because the direct open and close of blade left side and right side air outlet slit, if there is foreign object to be attached on their edge or the edge of air outlet slit, they just can not be worked, thereby have caused some errors on the open and close air outlet slit.

Summary of the invention

So the present invention points to a kind of indoor unit of air-conditioning system, it has been avoided basically because the restriction of prior art and one or more problems that shortcoming is brought.

A target of the present invention provides a kind of indoor unit of air-conditioning system, and wherein air outlet slit can be by hope ground open and close.

Other advantage of the present invention, target and characteristics will be partly articulated in the following description, and those of ordinary skill in the art can understand other parts of the present invention on the following content of research, perhaps can learn from the practice of the present invention.Pass through the also structure specifically noted of drawings attached of the explanation of being write and claim, can realize and obtain the objectives and other advantages of the present invention.

In order to realize that these targets are with other advantage and according to purpose of the present invention, as specializing and wide in range description, indoor unit according to air-conditioning system of the present invention comprises: cabinet, it has at least one or a plurality of air intlet and air outlet slit and wherein holds air blast and heat exchanger, air blast forces air to flow and air outlet slit is formed at respectively on a side and the opposite side, and outlet portal is located at movably and is used for the open and close air outlet slit in the cabinet.

Cabinet is provided with the door drive mechanism that drives outlet portal.

Door drive mechanism comprises the door buanch unit of transfer outlet portal and the drive division of driving gate buanch unit.

The door buanch unit drive to be driven with open and close outlet portal side by side by the single-motor that is located at drive division.

The door buanch unit will switch to rectilinear motion so that the outlet portal reciprocating motion by rotatablely moving of producing of drive division.

Buanch unit comprises that being located at open and close is formed at first in the outlet portal of air outlet slit at cabinet one side place and shifts body, and is located at open and close and is formed at second in the outlet portal of air outlet slit at cabinet opposite side place and shifts body.

First shifts body comprises first tooth bar, and the second transfer body comprises second tooth bar.

Preferably, first and second tooth bars be meshed by the pinion that single-motor rotated that is located in the drive division.

Preferably, outlet portal is rotatably connected to a buanch unit.

Outlet portal is rotatably connected to a buanch unit by means of hook.

Preferably, door drive mechanism also includes the guide of guiding door buanch unit.

Guide comprise the guiding hub that is formed at arbitrary place in cabinet and the door buanch unit and be formed at cabinet and the door buanch unit in the gathering sill at another place, gathering sill longitudinally forms on the shift direction of door buanch unit so that will lead the hub insertion wherein.

Preferably, guide includes guiding door buanch unit and prevents the support member that a buanch unit breaks away from simultaneously.

This indoor unit of air-conditioning system also comprises and minimizes the friction damper that rubs between a buanch unit and the cabinet.

Friction damper include in door buanch unit and cabinet arbitrary place outstanding and with door buanch unit and cabinet in another linear slipping rib that contacts.

Friction damper comprises the roller that is located at arbitrary place in a buanch unit and the cabinet.

The door buanch unit shifts outlet portal to open any one also closed other air outlet slit in the air outlet slit.

The door buanch unit includes the one side and is connected to the transfer body that arbitrary outlet portal and opposite side are connected to other outlet portal.

Outlet portal is rotatably connected to the transfer body.

This indoor unit of air-conditioning system also comprises the position sensor of surveying the outlet portal open and close.

Position sensor comprises optical pickocff, its detection be located at any one reservations office in a buanch unit and the outlet portal at least one be detected portion.

Cabinet also comprises anterior cover plate, and it covers door drive mechanism and at least one outlet portal of opening fully.

This indoor unit of air-conditioning system also comprises the door guide of each outlet portal of guiding.

The door guide comprises the door direction recess that is formed at any one place in each outlet portal and the cabinet and is formed at another place in each outlet portal and the cabinet and is inserted into door guiding hub in the direction recess that door guiding hub is relatively shifted with respect to the door direction recess when outlet portal is transferred.

Preferably, air outlet slit is formed at the left side and the right side of cabinet.

Cabinet also comprises the upper air outlet of side formed thereon.

Preferably, thus air outlet slit is spaced apart from each other towards the back and the front surface of cabinet forms predetermined angular.

The indoor unit of this air-conditioning system also comprises the wind direction controller, and it is located at the wind direction that the air outlet slit place is used for controlling the air of discharging by air outlet slit.

The wind direction controller changes the wind direction of the air of discharging by air outlet slit on left and right directions or above-below direction.

Should be understood that, aforementioned general introduction description of the present invention and following detailed description be exemplary and indicative and be used for as give to the invention provides further stating and explain.

Description of drawings

Accompanying drawing shows embodiments of the invention and is used for explaining principle of the present invention together with the description, and accompanying drawing is included to provide for a further understanding of the present invention and the combined part of coming in and constituting the application, in the accompanying drawings:

Fig. 1 is the front view that existing indoor unit in the air-conditioning system is shown;

Fig. 2 is the perspective view that illustrates according to the indoor unit of the air-conditioning system of first embodiment of the invention;

Fig. 3 illustrates the perspective view of indoor unit shown in Figure 2 when in running order;

Fig. 4 illustrates the front view of indoor unit shown in Figure 2 when in running order;

Fig. 5 is the decomposition diagram that illustrates according to the indoor unit of the air-conditioning system of first embodiment of the invention;

Fig. 6 is the sectional view that illustrates according to the indoor unit of the air-conditioning system of first embodiment of the invention;

Fig. 7 is the decomposition diagram that illustrates according to the door drive mechanism of the indoor unit of the air-conditioning system of first embodiment of the invention;

Fig. 8 is the perspective view that left side and right side outlet portal state when being opened by door drive mechanism shown in Figure 7 are shown;

Fig. 9 be illustrate left side and right side outlet portal by door drive mechanism shown in Figure 7 the perspective view of state during closure;

Figure 10 is the decomposition diagram that illustrates according to the door drive mechanism of the indoor unit of the air-conditioning system of second embodiment of the invention;

Figure 11 is the perspective view that door drive mechanism shown in Figure 10 is shown;

Figure 12 is the perspective view of state when outlet portal is opened by door drive mechanism shown in Figure 11 on the left of illustrating;

Figure 13 is the perspective view of state when the right side outlet portal being shown being opened by door drive mechanism shown in Figure 11;

Figure 14 is that the indoor unit that illustrates according to the air-conditioning system of second embodiment of the invention is in the front view of operating under the pattern of opening at the left side air outlet slit;

Figure 15 is that the indoor unit that illustrates according to the air-conditioning system of second embodiment of the invention is in the perspective view of operating under the pattern of opening at the right side air outlet slit;

Figure 16 is the perspective view that illustrates according to the indoor unit of the air-conditioning system of third embodiment of the invention;

Figure 17 is the front view that indoor unit shown in Figure 16 is shown;

Figure 18 is the perspective view that illustrates according to the indoor unit of the air-conditioning system of fourth embodiment of the invention; With

Figure 19 is the perspective view that illustrates according to the indoor unit of the air-conditioning system of fifth embodiment of the invention.

The specific embodiment

At length with reference to the preferred embodiments of the present invention, its example is shown in the drawings now.Whenever possible, identical Reference numeral will all be used to refer to identical or similar parts in the accompanying drawing.

Referring to figs. 2 to Fig. 4, comprise a cabinet 100 with indoor unit different elements according to the indoor unit of the air-conditioning system of first embodiment of the invention.

Air outlet slit 101 and 102 is formed on side of cabinet 100 and the opposite side and is used for discharging air.Air outlet slit 101 and 102 is by the

outlet portal

210 and 220 open and closes that are located at movably in the cabinet 100.

In more detail,

outlet portal

210 and 220 preferably is formed at the left side and the right side of cabinet 100.

Hereinafter, for convenience of description, the air outlet slit that is formed at cabinet 100 left sides is called left side air outlet slit 101, and the air outlet slit that is formed at cabinet 100 right sides is called right side air outlet slit 102.

The outlet portal of open and close left side air outlet slit 101 is called left side outlet portal 210, and the outlet portal of open and close right side air outlet slit 102 is called right side outlet portal 220.

The left side is formed at two marginal portions of cabinet 100 front surfaces so that they are concordant with the front surface of cabinet 100 with right side air outlet slit 101 and 102.Alternatively, left side and right side air outlet slit 101 and 102 are formed at two sidepieces of cabinet 100 front surfaces.

And left side and right side air outlet slit 101 and 102 preferably are formed on the left side and right side of cabinet 100.More specifically, left side and right side air outlet slit 101 and 102 are on the left side and right side that longitudinally are formed at cabinet 100 on the above-below direction.

In addition, upper air outlet 103 preferably be formed at cabinet 100 above.

Simultaneously, at least one air intlet preferably is formed at the bottom of cabinet 100, so that room air is inhaled into air intlet.

In the first embodiment of the present invention, left side air intlet 105 and right side air intlet 106 in the vertical directions are formed under the left side and right side of cabinet 100 longitudinally.

Anterior air intlet 104 is formed at the lower end of cabinet 100 front surfaces.

Yet, should be pointed out that the number of air intlet and position thereof are not limited to above situation.

Anterior air intlet 104, left side air intlet 105 and right side air intlet 106 are formed at the bottom of cabinet 100.

Then, the indoor unit of air-conditioning system will be described in more detail in conjunction with Fig. 5 and Fig. 6.

With reference to figure 5 and Fig. 6, heat exchanger 300 and air blast 400 are contained in the cabinet 100.Heat exchanger 300 is used for cooling and add hot-air and air blast 400 is used for forcing air to flow.

Air blast 400 is located at the bottom of cabinet 100 inboards and heat exchanger 300 is located at the air that is used on the air blast 400 with discharging from air blast 400 obliquely and carries out heat exchange.

Cabinet 100 comprises anterior cabinet 110, rear portion cabinet 120 and base portion 130.The bottom of base portion 130 support front cabinets 110 and rear portion cabinet 120.

Thereby the front end that anterior cabinet 110 is fixed to rear portion cabinet 120 has formed the space that holds air blast 400 and heat exchanger 300.

Anterior cabinet 110 has the rear side and the bottom of opening.Anterior cabinet 110 comprises front surface,

left side

111 and 112 and right side 113 and 114.Left side and right side are located on the both sides of front surface.

Thereby the cabinet 100 that is provided with left side and right side air outlet slit 101 and 102 comprises left side and right side 111 to 114.

The left side and the right side of anterior cabinet 110 can be extended towards the rear portion from the front surface in the vertical direction of anterior cabinet 110.Yet preferably, the left side of anterior cabinet 110 and right side comprise left side face 111a and inclined plane, right side 113a, and described inclined plane is spaced apart from each other towards the rear portion with predetermined angle from the front surface of anterior cabinet 110.

The front surface of anterior cabinet 110 and the front surface of angle of inclination between the left side face 111a and anterior cabinet 110 and the angle of inclination between the 113a of inclined plane, right side preferably in 15 ° to 25 ° scope, more specifically are 20 °.Yet the angle of inclination is not limited to above scope.

Left side face 111a can substitute with concordant with the front surface of anterior cabinet basically left side planar section (not shown) and right side planar section (not shown) with inclined plane, right side 113a.Left side air outlet slit 101 and right side air outlet slit 102 can be formed at left side planar section and right side planar section respectively.

In addition, anterior cabinet also comprises left side 112 and right side 114, and they with 113a become predetermined angular ground to extend towards its posterior direction and with the left side with inclined plane, right side 111a from the rear end of left side and inclined plane,

right side

111a and 113a.

Left side 112 and right side 114 can be approximately perpendicular to the front surface of anterior cabinet 110.

On the left of the first half that anterior cabinet 110 is provided with air outlet slit 101,102 and 103 is provided with anterior cabinet 110 and the Lower Half of right

side air intlet

105 and 106 can be provided as separated from one another dividually.

Preferably, the bottom front surface of anterior cabinet 110 can be opened to be convenient to repair or clean the various elements that are contained in the cabinet 10.

In the present embodiment, have the left side air intlet 105 the left side Lower Half constitute by the lower left plate that separately provides.Right side Lower Half with right side air intlet 106 is made of the right side lower panel that separately provides.

Therefore, if lower left plate and right side lower panel are fixed to the first half of anterior cabinet, so just between lower left plate and right side lower panel, form an opening.

Simultaneously, left side air outlet slit 101 and right side air outlet slit 102 are formed at

left side

111 and 112 and

right side

113 and 114 respectively, corresponding to the first half of anterior cabinet.

More specifically, left side and right side air outlet slit 101 and 102 are formed at the facial 111a of left side and inclined plane, the right side 113a of anterior cabinet 110 first halves respectively.

Left side air intlet 105 and right side air intlet 106 are formed at two the side 112b and the 114b of anterior cabinet 110 Lower Halves respectively,, are formed at the right side and the right side of Lower Half that is.

Yet left side air outlet slit 101 and right side air outlet slit 102 can be formed at two the side 112a and the 114a of anterior cabinet 110 first halves respectively.Alternatively, left side air outlet slit 101 and right side air outlet slit 102 can be formed at the facial 111b of left side and inclined plane, the right side 113b of anterior cabinet Lower Half respectively.

In addition, preferably the gas flow controller of control discharge air draught is located at left side air outlet slit 101 and right side air outlet slit 102 respectively.

In the present embodiment, plate shape left side wind vane 141 is located at left side air outlet slit 101 and plate shape right side wind vane 142 is located at right side air outlet slit 102.

Left side and right

side wind vane

141 and 142 top and bottom rotatably are connected with 102 top and bottom with left side and right side air outlet slit 101, and CD-

ROM drive motor

141a and 142a be connected on the left of and in the top and bottom of right

side wind vane

141 and 142 any one in case the variations in flow that will discharge air to left side and right side.

Door drive mechanism 600 is located at the top of anterior cabinet 110 front surfaces to drive left side and right

side outlet portal

210 and 220.

Door drive mechanism is covered by anterior cover plate 150, and described anterior cover plate has constituted the front surface of anterior cabinet 110 first halves, and backing plate 160 is located at the rear portion of anterior cover plate 150 so that the assembling door drive mechanism.The back will be described door drive mechanism in detail in conjunction with Fig. 7 to Fig. 9.

Upper air outlet 103 is formed at the upside 115 that is substantially perpendicular to anterior cabinet 110 front surfaces.

Upper air outlet 103 is provided with the upper portion door 230 of being rotated by independent CD-ROM drive motor 231.The air-flow of air is discharged in upper portion door 230 open and close upper air outlet 103 and control simultaneously.

Then, left side and right

side inlet vane

143 and 144 rotatably are located at left side and right

side air intlet

105 and 106 respectively.Left side and right

side inlet vane

143 and 144 open and closes left side and air intlet 105 and 106 and the air that leads and be inhaled into simultaneously thus.

Left side and right

side inlet vane

143 and 144 top and bottom rotatably are connected with 106 top and bottom with left side and right side air intlet 105, and the CD-ROM drive motor 143a that separates and 144a be connected on the left of and in the top and bottom of right

side inlet vane

143 and 144 any one.

And filter is provided with

portion

161 and 162 and is located at left side and right

side air intlet

105 and 106 inboards so that left side and right

side air cleaner

161a and 162a can be arranged on wherein.The opening front surface that

air cleaner

161a and 162a pass anterior cabinet 110 Lower Halves is drawn out.

As above Gou Zao anterior cabinet 110 is fixed to the top of base portion 130, and anterior air intlet 104 is formed at base portion 130.

Filter assemblies 163 preferably is located at the upper surface of base portion 130, above the especially anterior air intlet 104.163 pairs of filter assemblies pass anterior air intlet 104 and inhaled air purifies.

Filter assemblies 163 comprises a plurality of

filter

163a, 163b and the 163c that arranges up and down.Preferably, filter is made of HEPA and high-performance filter (such as the nanofilter of removing foul smell particulate or rod bacterium).

Simultaneously, rear portion cabinet 120 has the bottom of the front surface and the opening of opening, and its horizontal cross-section is to become big trapezoidal to improve space availability ratio, if indoor unit is located at the place, corner of the room towards the front portion.

The downward-sloping top that is fixed to rear portion cabinet 120 with the top panel 121 that forms rear portion cabinet 120 top boards towards the rear portion.

Preceding department 170 is located at the front portion of aforementioned cabinet 100 to cover the front surface of anterior cabinet 110.

Preceding department 170 lower ends, one side rotatably is connected with base portion 130 and preceding department 170 upper ends, one side rotatably is connected with anterior cabinet 110 upper ends.

Preceding department 170 comprises glass 171, is located at the door-plate 172 and the doorframe 173 of glass 171 back.Doorframe 173 rotatably is connected with support glass 171 and door-plate 172 with anterior cabinet 110 with base portion 130.

Door-plate 172 has open pore 172a, and display 174 is located at the rear side of door-plate 172 to show various information by open pore 172a and glass 171, such as activation bit.

Simultaneously, air blast 400 sucks room air by air intlet 104,105 and 106 and forces air to flow so that the air that is inhaled into is discharged by heat exchanger 300 and air intlet 101,102 and 103.

Air blast 400 comprises the blower casing 410 that is located at place, bottoms in the cabinet 100 and is located at blower fan 420 in the blower casing 410.

Blower casing 410 has the front surface of opening to communicate the air that hole 430 guiding are inhaled into by air intlet with hole 430.Air outlet slit hole 411 is formed at the upper surface of blower casing 410 so that air is residing upward to discharge towards heat exchanger 300.

As the example of blower fan 420, provide by means of the driving axial ground of blower motor 421 to suck air and radially discharge the turbofan of air.

In addition, electric dust collector 500 preferably is located at the front in hole 430.

Electric dust collector 500 comprises high pressure generator 510, ionization portion 520 and collection unit 530.

High pressure generator 510 is applied to ionization portion 520 with induced discharge with high pressure.Energetic ion dust in air and radiation luminous energy that ionization portion 520 utilizes discharge to produce therebetween.The dust of collection unit 530 collection of ionsization.

Heat exchanger 300 retreats in the past and tiltedly is located at the upside of blower fan 420, and is made of the refrigerant tube that passes refrigerant and a plurality of fin that is located in the refrigerant tube.Heat exchanger 300 is connected with the refrigerant tube (not shown), and described refrigerant is directed to the evaporation or the refrigerant of condensation outdoor by carrying out heat exchange with air.

Water memory 310 is arranged in the following to store condensed water therein of heat exchanger 300.Condensed water is created on the surface of heat exchanger 300 and falls.The scupper hose (not shown) is connected to a side of water memory 310 condensed water is discharged to the outside of indoor unit.

Below with reference to Fig. 7 to Fig. 9 left side and right

side outlet portal

210 and 220 and door drive mechanism 600 are described.

To Fig. 9, door drive mechanism 600 comprises the door buanch unit that shifts left side and right

side outlet portal

210 and 220, and the drive division of driving gate buanch unit with reference to figure 7.

The door buanch unit shift in the horizontal direction the left side and right

side outlet portal

210 and 220 so that left side and right side air outlet slit 101 and 102 are opened and the closure.

In order to move back and forth left side and right

side outlet portal

210 and 220 in the horizontal direction, the buanch unit in the present embodiment is constructed to it and will will be converted to rectilinear motion and this rectilinear motion is sent to air outlet slit

door

210 and 220 by rotatablely moving of producing of drive division.Yet the door buanch unit is not limited to this structure.

At length, the door buanch unit comprises that being located at first of outlet portal 210 places, left side shifts body 610 and the second transfer body 620 that is located at right side outlet portal 220 places.

Preferably, the first transfer body 610 and second shifts body 620 and rotatably is connected respectively to left side outlet portal 210 and right side outlet portal 220.Yet first and second shift body is not limited to this situation.

First and second shift body can the mode identical with second embodiment that the back will be described form the unit.In the present embodiment, the first transfer body 610 and the second transfer body 620 provide dividually and shift left side outlet portal 210 and right side outlet portal 220 respectively.

For this reason, at least one or a plurality of

hook

611 and 621 are located at any one place that left side outlet portal 210 and first shifts body 610.At least one or a plurality of 210a and 220a be located at left side outlet portal 210 and first shift another place of body 610 and promptly in

hook

611 and 621 forming rotating shaft, so that left side outlet portal 210 and first shifts that body 610 rotatably is connected and left side outlet portal 210 and the first transfer body 610 removably are connected simultaneously.

In the present embodiment, a plurality of 210a are located at the left-hand end place of left side outlet portal 210, and a plurality of hook 611 that is connected respectively to a 210a is located at the left end of the first transfer body 610.

Preferably, right side outlet portal 220 and second shifts body 620 and left side outlet portal 210 and the first transfer body, 610 identical modes are connected to each other.

In other words, a plurality of 220a are located at the left end of right side outlet portal 220, and a plurality of hook 621 that is connected respectively to a 220a is located at the right-hand member of the second transfer body 220.

Like this, the first transfer body 610 and second that is connected respectively to left side and right

side outlet portal

210 and 220 shifts body 620 preferably by a single-motor 630 drivings.

For this reason, the first transfer body 610 comprises first link portions 612 and first rack bar 613.First link portions 612 is provided with the hook 611 of the axle 210a that is connected to the left side outlet portal.First rack bar 613 extends to second with predetermined length from the right side of first link portions 612 and shifts body 620.

Second shifts body 620 comprises second link portions 622 and second rack bar 623.Second link portions 622 is provided with the hook 621 of the axle 220a that is connected to the right side outlet portal.Second rack bar 623 extends to first with predetermined length from the left side of second link portions 622 and shifts body 610.

First rack bar 613 and second rack bar 623 are respectively equipped with the first tooth bar 613a and the second tooth bar 623a.The first tooth bar 613a and the second tooth bar 623a preferably are meshed with pinion 631, and described pinion is rotated by motor 630.Motor 630 is located in the drive division.Pinion 631 can directly be fixed to the axle of motor 630 to simplify its structure.Therefore, the door buanch unit can be driven by single-motor 630.

In the present embodiment, comprise that the drive division of motor 630 is located at the middle part of the backing plate 160 with door drive mechanism.First rack bar 613 be located at pinion 613 below, and second rack bar 623 and first rack bar 613 be located at abreast pinion 631 above.

In this case, the first tooth bar 613a forms along the upside that first rack bar 613 will be meshed with the lower end of pinion 631, and the second tooth bar 623a forms along the downside that first rack bar 623 will be meshed with the upper end of pinion 631.

Simultaneously, door drive mechanism is provided with the guide of guiding door buanch unit.

The example of guide comprises guiding

hub

641 and 642 and gathering sill 651 and 652.

Guiding hub

641 and 642 is formed on any one place of cabinet 100 and door buanch

unit.Gathering sill

651 and 652 longitudinally is formed at another place of cabinet 100 and door buanch unit on the shift direction of door buanch unit.

To Fig. 9, gathering

sill

651 and 652 is formed at first and shifts the part place that body 610 and second shifts body 620, specifically

door link portions

612 and 622 with reference to figure 7.

Gathering sill

651 and 652 are given prominence to and inserted respectively to guiding

hub

641 and 642 corresponding to gathering

sill

651 and 652 from the backing plate 160 of cabinet to the front.

Therefore, when first shifts body 610 and second and shifts body 620 and shift in the horizontal direction by the rotation of pinion 631, guiding

hub

641 and 642 and gathering sill 651 and 62 just lead and first shift body 610 and second and shift body 620.

In addition, preferably guide also comprises the support member of guiding door buanch unit (promptly first shifting the body 610 and the second transfer body 620), and prevents that simultaneously the first and second transfer bodies 610 from separating with the door buanch unit with 620.

As the example of support member, the first ribs 653a and the second ribs 653b are located in the indoor unit according to air-conditioning system of the present invention.The first ribs 653a supports first and shifts a side of body 610 and the second ribs 653b supports second and shifts body 620.

In more detail, the first ribs 653a from backing plate 160 to the front outstanding with the downside that closes on first rack bar 613 the second ribs 653b outstanding to close on the upside of second rack bar 623 from backing plate 160 to the front.

Preferably, the first ribs 653a has ' ∩ ' shape vertical cross-section to improve its intensity and minimum frictional forces.The second ribs 653b has ' ∪ ' shape vertical cross-section.

As above Gou Zao the first ribs 653a and the second ribs 653b can be provided as respectively from backing plate 160 and will be assembled into backing plate 160.

Support member can form rotatable roll shape, especially train wheel shape roll shape.

Simultaneously, the indoor unit according to air-conditioning system of the present invention is provided preferably with the friction damper that minimizes friction between a buanch unit and the cabinet 100.

Friction damper is included in a

buanch unit

610 and 620 and side-prominent first and second slipping

ribs

661 and 662 of cabinet one.

In the present embodiment, first slipping rib 661 is formed at the rear side of the first transfer body 610, and second slipping rib 662 is formed at the rear side of the second transfer body 620.

More specifically, slipping

rib

661 and 662 is formed at the rear side of first link portions 612 and second link portions 622 respectively.

And first link portions 612 and second link portions 622 can have bend 612a and 622a respectively at

formation slipping rib

661 and 662 parts.Bend 612a and 622a have "

" shape vertical cross-section and outstanding towards the back.

Preferably, slipping

rib

661 and 662 with backing plate 160 contact linearly with minimize slipping

rib

661 and 662 and cabinet 100 between friction, particularly, slipping

rib

661 and 662 and backing plate 160 front surfaces between friction.

Friction damper can be made of the roller (not shown), and described roller is located at least one side of the backing plate 160 of cabinet and door buanch unit.

Simultaneously, the first transfer body 610 is preferably concordant to minimize the occupied space of a buanch unit with the second transfer body 620.

Preferably, a door buanch unit also comprises the interference portion that prevents, the described interference portion that prevents prevents that when left side and right

side outlet portal

210 and 220 are opened first shifts the body 610 and second interference of shifting between the body 620.

Prevent that interference portion from comprising that first prevents to disturb groove 614 and second to prevent to disturb groove 624.First prevents to disturb groove 614 to be formed at first shifts in the body 610 preventing and disturbs mutually with second rack bar 623.Second prevents to disturb groove 624 to be formed at second shifts in the body 620 preventing and disturbs mutually with first rack bar 613.

In more detail, first prevent to disturb groove 614 to be formed in first link portions 612 and second prevent to disturb groove 624 to be formed in second link portions 622.

Except above-mentioned structure, preferably also comprise the door guide of guiding left side and right

side outlet portal

210 and 220 according to the indoor unit of air-conditioning system of the present invention.

The door guide comprises a

direction recess

671a and 671b and door guiding hub 672a and 672b.

Door direction recess

671a and 671b be formed at left side and right

side outlet portal

210 and 220 and any side place of cabinet and

door guiding hub

672a and 672b be formed on the left of and right

side outlet portal

210 and 220 and the opposite side place of cabinet.

In the present embodiment, first direction recess 671a is formed at 101, the second direction recess 671b of left side air outlet slit and is formed at right side air outlet slit 102.Left side outlet portal 210 is provided with first the guiding hub 672a that moves along first direction recess 671a and right side outlet portal 220 is provided with second the guiding hub 672b that moves along second direction recess 671b.

In more detail, corresponding

door direction recess

671a and 671b longitudinally are formed at the top edge of left side and right side air outlet slit 101 and 102 on left and right directions.Corresponding

door guiding hub

672a and 672b are located at the top of left side and right

side outlet portal

210 and 220.

Simultaneously, anterior cabinet 110 is provided preferably with the position sensor 680 of surveying left side and right

side outlet portal

210 and 220 open and closes.

Position sensor 680 is surveyed first and is shifted arbitrary position in body 610, second transfer body 620, left side outlet portal 210 and the right side outlet portal 220, so that can detect the position of left side and right

side outlet portal

210 and 220.

For this reason, position sensor 680 comprises optical pickocff, its detection be located at

shift body

610 and 620 and left side and right

side outlet portal

210 and 220 at least one of arbitrary reservations office be detected portion.

In the present embodiment, position sensor 680 is surveyed second and is shifted the position of body 620 to survey the position of left side and right side outlet portal 210 and 220.So position sensor 680 is surveyed the open and close of left side and right

side outlet portal

210 and 220.

In more detail, optical pickocff is located at the reservations of backing plate 160, and the portion of being detected comprises that being detected body 691 and second with the predetermined space and the second transfer body 620 isolated first is detected body 692.

Optical pickocff comprises light emission part 681 and light receiver 682, and light receiver is in the face of the light emission part and receive the light that emits from light emission part 681.

First is detected body 691 and second is detected body 692 and is located at first and shifts the rear side of body so that in the left side with the right side outlet portal is opened and pass space between light emission part 681 and the light receiver 682 when closed.

When left side and right side outlet portal 210 and the complete closure of 220 quilts, first is detected body 691 is positioned between light emission part 681 and the light receiver 682.When left side and right

side outlet portal

210 and 220 were opened fully, second is detected body 692 was positioned between light emission part 681 and the light receiver 682.

Therefore, if second when shifting body 620 and moving to the right side with complete closed right side outlet portal 220, first is detected body 691 is just surveyed so that stop motor 630 by controller by position sensor 680.

And if second shift body 620 and move to the left side when opening right side outlet portal 220 fully, second is detected body 692 is just surveyed so that stop motor 630 by controller by position sensor 680.

Operation according to the aforementioned indoor unit of air-conditioning system of the present invention will be described now.

At first, if power is applied to air-conditioning system and input cooling or heat driven pattern, door drive mechanism just is actuated to make opens left side and right

side outlet portal

210 and 220 simultaneously by horizontal movement, and opens upper portion door 230.

More specifically, left side and right

side outlet portal

210 and 220 are shifted

body

610 and 620 by first and second and shift, thereby open left side and right side air outlet slit respectively, and described transfer body side by side shifts by the rotation of pinion 630.

Simultaneously, thus left

side inlet vane

143 and 144 respectively by rotation open the left side and right

side air intlet

105 and 106.

When blower 400, room air is inhaled into cabinet by each air intlet 104,105 and 106.

Inhaled air is cleaned when the air purifier 161a by constituting air cleaning system and 162a and clarifier assembly 163.

In more detail, anterior air intlet 104 inhaled airs by base portion 130 are being cleaned when being located at

filter

163a, 163b in the filter assemblies 163 and 163c.Be cleaned the time by left side and right

side air intlet

105 and 106 inhaled airs through

air cleaner

161a and 162a.

Then, the air that has passed

air cleaner

161a and 162a and filter assemblies 163 passes the electric dust collector 500 that is positioned at air blast 400 fronts again.Dust in electric dust collector 500 ionized airs and foul smell particulate and the dust and the Ionized foul smell particulate of collection of ionsization subsequently.

The air that as above is cleaned by air blast 400 towards heat exchanger 300 blow and its by with heat exchanger in flowing refrigerant carry out that heat exchange is cooled or heated state under be discharged into by air outlet slit 101,102 and 103 indoor, thereby carry out indoor cooling or indoor heating.

At this moment, the air of left side and right

side wind vane

141 and 142 pairs of discharges is controlled.

If the operation of air-conditioning system is stopped, left side and right

side outlet portal

210 and 220 are just shifted in the horizontal direction and are closed simultaneously by the first and

second transfer bodies

610 and 620 that the rotation by pinion 631 is transferred.

In addition, upper portion door 230 and left side and right

side inlet vane

143 and 144 flow into cabinet 100 by each CD-ROM drive motor closure to prevent foreign object.

Simultaneously, because left side and right

side outlet portal

210 and 220 are driven by single-motor open and close and upper portion door 230 and

inlet vane

143 and 144 with being separated, whether on the left of the open and close and right side outlet portal, upper portion door and inlet vane depend on indoor cooling, indoor heating and the blow rate required that is used for air cleaning.

Simultaneously, be used for air cleaning if indoor unit mainly drives, the sealed and air of left side and right

side air intlet

105 and 106 just is inhaled into by anterior air intlet 104.

Although air purification mode can be carried out under the state that air outlet slit 101,102 and 103 is opened entirely, left side and right side air outlet slit 101 and 102 are by the left side and right

side outlet portal

210 and 220 seals and upper air outlet 103 is just considered to carry out balance with the air suction and open.

Therefore, the air that flows into cabinet 100 by anterior air intlet 104 is cleaned so that tiny dust and foul smell particulate are removed from air through filter assemblies 163 and electric dust collector 500 time.Yet air is discharged to indoor place by upper air outlet 103.

Now will be in conjunction with the indoor unit of Figure 10 to 15 description according to the air-conditioning system of second embodiment of the invention.

In indoor unit, except the door drive mechanism that drives left side and right side outlet portal, construct with identical according to the indoor unit of first embodiment according to other of the indoor unit of second embodiment according to the air-conditioning system of second embodiment.Therefore, identical Reference numeral all is being used for identifying identical or similar parts and omitting their repeatability is described in the accompanying drawing.

With reference to figures 10 to 13, be located at according to the door drive mechanism in the indoor unit of second embodiment 700 and be constructed to the left side and one of right side air outlet slit 101 and 102 are opened and another is closed.

For this reason, door drive mechanism 700 includes the door buanch unit that shifts left side and right side air outlet slit 101 and 102 in the horizontal direction.

The door buanch unit comprises transfer body 710, and transfer body one side is connected to left side outlet portal 210 and opposite side is connected to right side outlet portal 220.

In order to move back and forth left side and right

side outlet portal

210 and 220, transfer body 710 is constructed to and will switches to rectilinear motion and rectilinear motion is sent to air outlet slit

door

210 and 220 by being located at rotatablely moving that motor 630 in the drive division produced.Yet the door buanch unit is not limited to this structure.

At length, preferably shift side of body 710 and opposite side (promptly shifting the left side and the right side of body 710) and be rotatably connected to left side and right

side outlet portal

210 and 220 respectively.Yet, shift body 710 and be not limited to this situation.

For this reason, at least one or a plurality of hook 710a are located at left side outlet portal 210 and shift any one place in body 710 left sides.Thereby at least one or a plurality of 210a are located at left side outlet portal 210 and shift another place in body 710 left sides and promptly formed rotating shaft in hook so that left side outlet portal 210 with shift that body 710 rotatably is connected and simultaneously on the left of outlet portal 210 removably be connected with transfer body 710.

In the present embodiment, a plurality of 210a are located at the right-hand end place of left side outlet portal 210, and a plurality of hook 710a that are connected respectively to a 210a in top are located at the left end place that shifts body 710.

Preferably, right side outlet portal 220 and shift body 710 right sides with left side outlet portal 210 with shift the same mode in body 710 left sides and be connected to each other.

In other words, a plurality of 220a are located at right side outlet portal 220 left end places, and a plurality of hook 710b that is connected respectively to a 220a is located at the right-hand member place that shifts body 710.

Like this, be connected respectively to the transfer body 710 of left side and right

side outlet portal

210 and 220 preferably by a single-motor 630 drivings.

For this reason, shift body 710 and comprise first link portions 711, second link portions 712 and rack bar 713.First connecting portion 711 is provided with the hook 710a of the axle that is connected to left side outlet portal 210.Second connecting portion 712 is provided with the hook 710b of the axle that is connected to right side outlet portal 220.Rack bar 713 is located between the left side of the right side of first link portions 711 and second link portions 712 so that first link portions 711 is connected with second link portions 712.

Rack bar 713 is provided with tooth bar 713a in a side.Tooth bar 713a preferably is meshed with the pinion 631 that is rotated by motor 630.Motor 630 is located in the drive division.Pinion 631 can directly be fixed to the axle of motor 630 with simplified structure.

Door drive mechanism is provided with the guide of guiding door buanch unit.

The example of guide comprises guiding

hub

641 and 642 and gathering sill 651 and 652.

Guiding hub

641 and 642 is formed on cabinet 100 and shifts any one place of body 710.Gathering

sill

651 and 652 longitudinally is formed at cabinet 100 and shifts another place of body 710 on the shift direction that shifts body 710.

With reference to figures 11 to Figure 13, gathering

sill

651 and 652 is formed at the reservations office of shifting body 710, and guiding

hub

641 and 642 is located in the backing plate 160.

Preferably, gathering

sill

651 and 652 is formed at first link portions 711 and second link portions 712 place respectively on the shift direction that shifts body 710.

Gathering sill

651 and 652 are given prominence to and inserted respectively to guiding

hub

641 and 642 corresponding to gathering

sill

651 and 652 from the backing plate 160 of cabinet to the front.

Therefore, when shifting body 710 and be transferred in the horizontal direction, guiding

hub

641 and 642 and gathering

sill

651 and 652 guiding transfer body 710 on left and right directions just.

In addition, preferably guide also comprises the support member of guiding door buanch unit (promptly shifting body 710), and prevents to shift body 710 simultaneously and separate with the door buanch unit.

As the example of support member, provide in the present embodiment and supported the ribs 720 that shifts body 710.

In more detail, if the tooth bar of rack bar 713 is meshed with the downside of pinion, ribs 720 is just outstanding to close on the downside of rack bar 713 to the front from backing plate 160.

Preferably, ribs 720 has ' ∩ ' shape vertical cross-section to improve its intensity and minimum frictional forces.

If rack bar 713 is located on the pinion, ribs 720 just is provided as the upside of contiguous rack bar 713 so.

Friction damper is included at least one and shifts the side-prominent slipping rib 730 of body 710 and cabinet 100 1.

In the present embodiment, slipping rib 730 is formed at the rear side that shifts body 710.

More specifically, slipping rib 730 is formed at the rear side of first link portions 711 and second link portions 712 respectively.

And first link portions 711 and second link portions 712 can have

bend

711a and 712a respectively in formation slipping rib 730

parts.Bend

711a and 712a have "

" shape vertical cross-section and outstanding towards the back.

Preferably, slipping rib 730 contacts to minimize the friction between slipping rib 730 and the cabinet 100 linearly with backing plate 160, particularly, and the friction between slipping rib 730 and backing plate 160 front surfaces.

Because other structure of second embodiment is identical with first embodiment, just omit description to it.

Can under the pattern of opening of the pattern of opening of left side air outlet slit and right side air outlet slit, move according to the indoor unit of the air-conditioning system of second embodiment.

In other words, carry out indoor cooling or indoor heating, open the left side air outlet slit and close the right side air outlet slit simultaneously in order to concentrate in the place, the left side of indoor unit.

On the contrary, carry out indoor cooling or indoor heating, open the right side air outlet slit and close the left side air outlet slit simultaneously in order to concentrate in the place, the right of indoor unit.

At first, if air-conditioning system is moved (referring to Figure 14) under the pattern of opening of left side air outlet slit, pinion 631 just rotates will shift body 710 in one direction and transfers to the right side so.

Thereby left side outlet portal 210 is opened and while right side outlet portal 220 is closed.

Upper portion door 230 can optionally be opened according to service condition.

Left side and right

side inlet vane

143 and 144 are opened respectively so that room air flows into cabinet 100 by air intlet 104,105 and 106 when blower 400.

Room air is purified and is purified by electric dust collector 500 once more subsequently by

air cleaner

161a and 162a and filter assemblies 163 when flowing into cabinets 100 by air intlet 104,105 and 106.

The air that purifies is cooled off by heat exchanger 300 or heats, and the air of cooling or heating is discharged into the room by left side air outlet slit 101 subsequently.If upper air outlet 103 is opened, the air of cooling or heating is also discharged by upper air outlet 103.

Then, if air-conditioning system is moved (referring to Figure 15) under the pattern of opening of right side air outlet slit, pinion 631 just rotates on another direction will shift body 710 and transfers to the left side so.

Thereby right side outlet portal 220 is opened and while left side outlet portal 210 is closed.

Upper portion door 230 can optionally be opened according to service condition.

Left side and right

side inlet vane

air cleaner

The air that purifies is cooled off by heat exchanger 300 or heats, and the air of cooling or heating is discharged into the room by right side air outlet slit 102 subsequently.If upper air outlet 103 is opened, the air of cooling or heating is also discharged by upper air outlet 103.

The indoor unit of air-conditioning system can move under the situation that left side air outlet slit 101 and right side air outlet slit 102 all partially open.In this case, indoor unit is provided preferably with sensor, such as aforementioned location sensor 680.

Below in conjunction with Figure 16 and 17 indoor units of describing according to the air-conditioning system of third embodiment of the invention.

In indoor unit according to the air-conditioning system of third embodiment of the invention, the wind direction controller of the air stream of discharging from left side and right side air outlet slit except control, according to other structure of the indoor unit of the 3rd embodiment with identical according to the indoor unit of first embodiment.Therefore, identical Reference numeral all is being used for identifying identical or similar parts and omitting their repeatability is described in the accompanying drawing.

Be located to be configured and on above-below direction, change the air wind direction of discharging from left side and right side air outlet slit according to the wind direction controller in the indoor unit of the air-conditioning system of third embodiment of the invention.

In more detail, the wind direction controller comprises a plurality of left side and right

side outlet blades

145 and 146 that are arranged in up and down respectively in left side and right side air outlet slit 101 and 102.

Each is located at the left side outlet blade 145 of left side in the air outlet slit 101 and rotatably provides up and down around the rotation parallel with base portion 130.

The wind direction controller also comprises left side interlocking member 145a, and its interlocking is located at the left side outlet blade 145 in the air outlet slit 101 of left side.

Left side outlet blade 145 is by the left side interlocking member 145a institute interlocking that is driven by left side blade CD-ROM drive motor 145b.Interlocking member 145a or rotation left side outlet blade 145 on the left of left side blade CD-ROM drive motor 145b rises.

Each right side outlet blade 146 that is located in the right side air outlet slit 102 rotatably provides up and down around the rotation parallel with base portion 130.

Right side outlet blade 146 is by right side interlocking member 146a interlocking.

Below in conjunction with the indoor unit of Figure 18 description according to the air-conditioning system of fourth embodiment of the invention.

In the indoor unit according to the air-conditioning system of fourth embodiment of the invention, left side among first embodiment and right

side inlet vane

143 and 144 are substituted by left side and right side import grid 147 and 148.Left side and right side grid 147 and 148 are located at respectively in left side and right side air outlet slit 105 and 106.

Preferably, left side and right side import grid 147 and 148 removably provide.

According to other structure of the indoor unit of the 4th embodiment and operation logic with identical according to the indoor unit of first embodiment.Therefore, omission is described their repeatability.

To indoor unit according to the air-conditioning system of fifth embodiment of the invention be described in conjunction with Figure 19 subsequently.

With reference to Figure 19, comprise left side air intlet 107 and right side air intlet 108 according to the indoor unit of the air-conditioning system of fifth embodiment of the invention, they are formed at respectively on left side and inclined plane, right side 111b and the 112b corresponding to the Lower Half of anterior cabinet.

Left side air intlet 107 and right side air intlet 108 are respectively equipped with rotatable left side inlet vane (not shown) and right side inlet vane 144.

Since according to other structure of the indoor unit of the 5th embodiment and operation logic with identical according to the indoor unit of first embodiment.Therefore, omission is described their repeatability.

As mentioned above, the indoor unit according to air-conditioning system of the present invention has the following advantages.

At first, in indoor unit according to air-conditioning system of the present invention, because left side and right side air outlet slit come open and close by movably left side and right side outlet portal, just can prevent left side and right side air outlet slit owing to foreign object lead to errors open and close.

Secondly, in the indoor unit according to air-conditioning system of the present invention, have simple structure owing to drive the door drive mechanism of left side and right side outlet portal, its manufacturing work just is easy to and has reduced manufacturing cost.

The 3rd, in indoor unit, because left side and right side air outlet slit just can be realized reliability of operation by open and close side by side according to air-conditioning system of the present invention.

The 4th, in indoor unit, shifting left side and the transfer body of right side outlet portal and the friction between the cabinet owing to minimized according to air-conditioning system of the present invention, just can come open and close left side and right side outlet portal according to hope.

The 5th, in indoor unit according to air-conditioning system of the present invention, because left side and right side air outlet slit door are formed at the place that is different from left side and right side air intlet, just can prevent to mix mutually with the air that is inhaled into cabinet, thereby prevent that the air of discharging from flowing into cabinet once more from the air that cabinet is discharged.

The 6th, in indoor unit,, just can improve indoor adjusting function because the air of cooling or heating is discharged with different directions from each air outlet slit according to air-conditioning system of the present invention.

At last, in indoor unit according to the air-conditioning system of second embodiment of the invention, can the concentrated area cooling or a side of heat rooms.

For those skilled in the art, clearly, under the prerequisite that does not depart from the spirit or scope of the present invention, can make various modifications and variations to the present invention.Thereby the present invention should cover modifications and variations of the present invention, as long as they fall in the scope of claims and equivalent thereof.

Claims

1. the indoor unit of an air-conditioning system comprises:

Cabinet, described cabinet have the air intlet and the right side on the top of the front surface that is formed on this cabinet and the air outlet slit of left side of the lower end that is formed on this cabinet,

The Qianmen of She Zhiing rotatably is used for the front surface of open and close cabinet, and this Qianmen is arranged between the described air outlet slit,

Be located at movably and be used for the outlet portal of open and close air outlet slit in the horizontal direction in the cabinet,

Door drive mechanism is used for moving back and forth described outlet portal in the horizontal direction, thus the described air outlet slit of open and close,

Be arranged at the anterior cover plate of cabinet, be used to cover described door drive mechanism.

2. according to the indoor unit of the air-conditioning system of claim 1,

Wherein, described outlet portal comprises:

The right side outlet portal is used for the outlet of right side on top that open and close slidably is formed on the front surface of cabinet, and

The left side outlet portal is used for the outlet of left side on top that open and close is formed on the front surface of cabinet.

3. according to the indoor unit of the air-conditioning system of claim 1, wherein door drive mechanism comprises the door buanch unit that shifts outlet portal and the drive division of driving gate buanch unit.

4. according to the indoor unit of the air-conditioning system of claim 3, door buanch unit open and close outlet portal by being located at that a single-motor in the drive division drives and simultaneously wherein.

5. according to the indoor unit of the air-conditioning system of claim 3, wherein the door buanch unit will convert rectilinear motion to the reciprocating motion outlet portal by rotatablely moving of producing of drive division.

6. according to the indoor unit of the air-conditioning system of claim 3, wherein the door buanch unit comprises that first shifts the body and the second transfer body, the described first transfer body is located at and is used for the outlet portal that open and close is formed at the air outlet slit at cabinet one side place, and the described second transfer body is located at and is used for the outlet portal that open and close is formed at the air outlet slit at cabinet opposite side place.

7. according to the indoor unit of the air-conditioning system of claim 6, wherein first shift body and comprise first tooth bar, and second shifts body and comprise second tooth bar.

8. according to the indoor unit of the air-conditioning system of claim 7, wherein first and second tooth bars be meshed by the pinion that described single-motor rotated that is located in the drive division.

9. according to the indoor unit of the air-conditioning system of claim 3, wherein right side outlet portal and left side outlet portal are rotatably connected to a buanch unit.

10. according to the indoor unit of the air-conditioning system of claim 9, wherein right side outlet portal and left side outlet portal are rotatably connected to a buanch unit by means of hook.

11. according to the indoor unit of the air-conditioning system of claim 3, wherein door drive mechanism also includes the guide that the opposite house buanch unit leads.

12. indoor unit according to the air-conditioning system of claim 11, wherein said guide comprise be formed at the guiding hub on any in cabinet and the door buanch unit and be formed at cabinet and the door buanch unit in gathering sill on another, gathering sill longitudinally forms on the shift direction of door buanch unit so that will lead the hub insertion wherein.

13. according to the indoor unit of the air-conditioning system of claim 11, wherein guide includes support member, described support member opposite house buanch unit leads and prevents that simultaneously a buanch unit breaks away from.

14. the indoor unit according to the air-conditioning system of claim 3 also comprises the friction damper that makes minimise friction between a buanch unit and the cabinet.

15. according to the indoor unit of the air-conditioning system of claim 14, wherein friction damper be included in a buanch unit and the cabinet arbitrary place outstanding and with door buanch unit and cabinet in another linear slipping rib that contacts.

16. according to the indoor unit of the air-conditioning system of claim 14, wherein friction damper comprises the roller that is located at arbitrary place in a buanch unit and the cabinet.

17. according to the indoor unit of the air-conditioning system of claim 3, wherein the door buanch unit shifts outlet portal to open any and closed another air outlet slit in the described air outlet slit.

18. according to the indoor unit of the air-conditioning system of claim 17, wherein the door buanch unit comprises that the one side is connected to the transfer body that arbitrary outlet portal and opposite side are connected to another outlet portal.

19. according to the indoor unit of the air-conditioning system of claim 18, wherein outlet portal is rotatably connected to the transfer body.

20., also comprise the position sensor of surveying the outlet portal open and close according to the indoor unit of the air-conditioning system of claim 3.

21. according to the indoor unit of the air-conditioning system of claim 20, wherein position sensor comprises optical pickocff, at least one of reservations office that its detection is located in a buanch unit and the outlet portal any is detected portion.

22. according to the indoor unit of the air-conditioning system of claim 1, wherein said anterior cover plate covers the outlet portal that at least one is opened fully.

23., also comprise the door guide that each outlet portal is led according to the indoor unit of the air-conditioning system of claim 1.

24. indoor unit according to the air-conditioning system of claim 23, wherein the door guide comprises the door direction recess that is formed at any one place in each outlet portal and the cabinet, and be formed at another place in each outlet portal and the cabinet and be inserted into door guiding hub in this direction recess, door guiding hub is relatively shifted with respect to the door direction recess when outlet portal is transferred.

25. according to the indoor unit of the air-conditioning system of claim 2, wherein cabinet also comprises the upper air outlet of side formed thereon.

26. according to the indoor unit of the air-conditioning system of claim 2, thereby wherein the front surface that is spaced apart from each other towards the back with cabinet of air outlet slit forms predetermined angular.

27. the indoor unit according to the air-conditioning system of claim 1 also comprises the wind direction controller, it is located at the wind direction that the air outlet slit place is used for controlling the air of discharging by air outlet slit.

28. according to the indoor unit of the air-conditioning system of claim 27, wherein the wind direction controller changes the wind direction of the air of discharging by air outlet slit on left and right directions.

29. according to the indoor unit of the air-conditioning system of claim 27, wherein the wind direction controller changes the wind direction of the air of discharging by air outlet slit on above-below direction.

30. according to the indoor unit of the air-conditioning system of claim 1, wherein cabinet also comprises the anterior air intlet of the lower end of the front side that is positioned at cabinet.

31. according to the indoor unit of the air-conditioning system of claim 30, wherein said anterior air intlet is formed on the base portion place that constitutes bottom of cabinet bulk.

32. according to the indoor unit of the air-conditioning system of claim 1, wherein said anterior cover plate constitutes the front surface of the first half of cabinet.

33., also comprise the backing plate at the rear portion that is arranged on anterior cover plate, so that assembling door drive mechanism according to the indoor unit of the air-conditioning system of claim 1.