KR20170061137A - Vertical air conditioner - Google Patents

Abstract

The present invention relates to a stand-type air conditioner, which includes an air conditioner body 100, the air conditioner body 100 including an air conditioner main body 1, a blowing air duct formed in the air conditioner main body 1, The air conditioner includes a first panel (2) and a second panel (3); The first panel 2 and the second panel 3 are slid in an orientation so that the first panel 2 and the second panel 3 and the air outlet end of the blowing air duct An air outlet (4) formed between the air outlet (4); A first panel drive mechanism (5) for sliding the first panel (2) and the second panel (3) in a direction opposite to each other and closing the air outlet (4) Further includes a mechanism. In the stand type air conditioner, it is not necessary to make an air outlet directly to the panel, and it is not necessary to separately install an air induction panel at the air outlet, thereby solving the problem that the air conditioner is not good due to the wind guide panel, .

Description

Stand air conditioner {VERTICAL AIR CONDITIONER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of air conditioning technology, and more particularly, to a stand-type air conditioner.

Stand-type air conditioners are widely used in offices, public places and living rooms of general households because they have a large amount of air discharge and are characterized by cooling and heating ability.

In the conventional stand type air conditioner, most of the air is discharged in the front air mode. The air conditioner panel is fixed, and an air outlet is formed in the panel and an air induction panel is installed in the air outlet point. When the air conditioner is turned off, the wind induction panel closes the air outlet and basically matches the panel plane to form an integrated panel structure. When the air conditioner is turned on, the air induction panel rotates to open the air outlet, and the heat exchange air after the heat exchange is discharged from the air outlet to cool or heat the indoor air.

Since the conventional stand type air conditioner structure as described above relies on opening and closing the air outlet of the wind guide panel, the panel and the wind guide panel must be produced independently and then the two parts must be assembled. In addition, if the process can not be precisely controlled during the wind guide panel production process, the wind guiding panel does not properly match the panel when the air outlet is closed, so that it is likely to affect the appearance. If there is a gap between the wind guide panel and the panel, not only does it affect the aesthetic appearance, but also the dust and the like present in the environment are likely to enter the air conditioner through the gap. In particular, when the wind guide panel is used for a long time, the wind guide panel is likely to be deformed because cold and warm winds alternately come out from the air outlet. As a result, the air outlet can not be completely closed. This not only affects the appearance of the air conditioner, but also increases the probability of dust entering the air conditioner through the gap, which may affect the service life of the air conditioner internal structure member and the air blowing performance of the air conditioner.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a stand-type air conditioner and to solve the technical problem of opening and closing an air outlet by an independent wind guide panel in which an air outlet is formed in a panel in a conventional air conditioner.

To achieve the above object, the present invention provides the following technical solutions.

In the stand-type air conditioner of the present invention, the air conditioner body includes an air conditioner main body, a blowing air duct is formed in the air conditioner main body, the air conditioner includes a first panel and a second panel; And an air outlet formed between the first panel and the air outlet end of the second panel and the air flow duct, respectively, when the first panel and the second panel slide in an orientation, respectively, when power is supplied to the air conditioner. A first panel driving mechanism and a second panel driving mechanism for sliding the first panel and the second panel in a direction opposite to each other and closing the air outlet when power is cut off to the air conditioner.

Compared with the prior art, the advantages of the present invention are as follows. In the present invention, since the panel driving mechanism is installed, the air outlet is formed by sliding the two panels, sliding the panel in the orientation, and the air outlet is closed through sliding the panels in the directions facing each other, It is not necessary to make a direct air outlet and it is not necessary to separately install an air induction panel at the air outlet, so that it is possible to solve the problem that the air induction panel does not have a good air conditioner appearance and is not hygienic due to crevice dust.

Hereinafter, exemplary embodiments of the present invention will be described in more detail with reference to the drawings.

1 is a front view of a stand-type air conditioner according to an embodiment of the present invention when the air outlet is closed;
2 is a front view of the stand-type air conditioner according to the embodiment of the present invention when the air outlet is opened;
3 is a schematic view of a stand-type air conditioner according to an embodiment of the present invention after some panels are removed;
4 is a rear structural view of a panel in one embodiment of the stand-type air conditioner of the present invention;
5 is an exploded view of a panel assembly structure in one embodiment of the stand-type air conditioner of the present invention;
FIG. 6 is a structural exploded view of the stand-type air conditioner in FIG. 1; FIG.
Figure 7 is a perspective view of the base of Figure 6;
Figure 8 is a structural exploded view of the base of Figure 7;
Fig. 9 is a perspective view of the connecting member of Fig. 6; Fig.

BRIEF DESCRIPTION OF THE DRAWINGS In order to more clearly explain the objects, techniques and advantages of the present invention, exemplary embodiments of the present invention will be described in detail with reference to the drawings.

1 to 9 show an embodiment of a stand-type air conditioner according to the present invention. 1 and 2 are a front view showing the air outlet when the air outlet is closed and opened, respectively, FIG. 3 is a structural view after removing some panels, FIG. 4 is a rear structural view of the panel, FIG. 6 is a structural exploded view of the stand-type air conditioner in the embodiment, FIGS. 7 and 8 are a perspective view and a structural exploded view of the base, and FIG. 9 is a perspective view of the connecting member.

1 and 2, the stand-type air conditioner of the embodiment includes a base 7 and an air conditioner body 100 which are shaped like a cylinder as a whole, and the base 7 and the air conditioner body 100 are separated from each other . However, it is not limited to the cylinder structure but may be other structures. For example, both the air conditioner body 100 and the base 7 may be a rectangular structure or the like. In the stand-type air conditioner, the base 7 is an entire floor sheet of the air conditioner body 100 and is installed on the ground to raise the air conditioner body 100 up to a certain height. The air conditioner body 100 includes an air conditioner main body 1 as a structure for realizing basic functions such as cooling, heating and dehumidifying air conditioners, and a blowing air duct, a heat exchanger, a blower, and the like are formed in the air conditioner main body 1 (Not shown in the drawing). The air conditioner body 100 further includes a first panel 2 and a second panel 3. The first panel 2 and the second panel 3 are front panels of the air conditioner body 100 and are formed outside the air conditioner main body 1 symmetrically. Here, the first panel 2 and the second panel 3 are not fixed to the air conditioner body 1 but can be moved under the driving of the panel driving mechanism. Specifically, in the frame of the air conditioner body 1, a slide groove 11 is formed corresponding to the upper edge and / or the lower edge point of the first panel 2 and the second panel 3, The upper edge and / or the lower edge of the first panel 2 and the second panel 3 are inserted into the slide groove 11 and surround the air conditioner main body 1 in the slide groove 11 under the driving of the panel drive mechanism It moves. Or in the frame of the air conditioner main body 1, a slide rail is formed (not shown) corresponding to the upper edge and / or the lower edge point of the first panel 2 and the second panel 3 The upper edge and / or the lower edge of the first panel 2 and the second panel 3 form a slide groove and surround the outside of the slide rail of the air conditioner main body 1. Under the driving of the panel drive mechanism, (2) and the second panel (3) also move around the air conditioner main body (1). The two panels are controlled to slide while enclosing the air conditioner main body 1 so that the panel is relatively far from the air conditioner main body 1 without being distanced from the air conditioner main body 1, It reduces the space occupancy after the panel is opened and makes it possible to conveniently install and place the air conditioner in the room.

Here, the panel driving mechanism includes a first panel driving mechanism 5 for driving the first panel 2 and a second panel driving mechanism (not shown in the drawing) for driving the second panel 3. The detailed structure of the panel driving mechanism can be referred to Figs. 3 to 5. Fig. When the electric power is supplied to the air conditioner, the first panel driving mechanism 5 drives the first panel 2 and the second panel driving mechanism drives the second panel 3 to drive the first panel 2 and the second panel 2, Thereby sliding the panel 3 in the orientation. For example, the first panel 2 slides toward the left or the rear left, and the second panel 3 slides toward the right or rear right. Therefore, the first panel 2, the second panel 3, An air outlet (4) is formed between the air outlet end of the air flow duct. In this way, the heat-exchanged air in the heat exchanger is discharged to the room from the blowing air duct and the air outlet (4). The first panel driving mechanism 5 drives the first panel 2 and the second panel driving mechanism drives the second panel 3 so that the first panel 2 and the second panel 3 3 in the direction facing each other. For example, the first panel 2 slides toward the right until the first panel 2 and the second panel 3 contact or overlap, and the second panel 3 slides toward the left, The air outlet 4 is closed.

Here, by providing a panel driving mechanism and driving the two panels to slide so as to form an air outlet by using the orientation sliding of the panel, and closing the air outlet by using the sliding directions of the panels facing each other, There is no need to open the air outlet, and there is no need to additionally install a wind guide panel on the air outlet, so that the aesthetics of the appearance are lowered due to the wind guide panel installation and the problems such as easy entry of dust into the gap can be prevented have.

As shown in Figs. 3 to 5, at the same time, as shown in Figs. 1 and 2, the panel driving mechanism is realized by matching gears and racks. Further, in the case of a panel having a relatively long length, in order to ensure stability of sliding, a set of driving mechanisms is preferably provided at the upper and lower ends of the panel, respectively, and at the same time, the panel is driven. With the first panel drive mechanism 5 as an example, its concrete structure is as follows.

The first panel driving mechanism 5 includes an upper drive mechanism formed by the first rack 51, the first motor 52 and the first gear 53 located at the upper end of the first panel 2, 2) a lower drive mechanism formed by the second rack 56, the second motor 57, and the second gear 58 located at the lower end. The first rack 51 is fixed to the upper end of the first panel 2 adjacent to the point of the slide groove 11 at the upper end of the air conditioner main body 1 and the first motor 52 is fixed to the air conditioner main body 1 , The first gear 53 is rotatably connected to the first motor 52 and the first panel 2 is fixed to the first rack 51 at a position corresponding to the first rack 51, And then engages with the first rack 51. Further, the first motor 52 is accommodated in the first motor box 54; The first motor box 54 is accommodated in the first gear box 55 together with the first gear 53. Thus hiding the motor box and the gearbox to protect the corresponding structural members. The second rack 56 is fixed to the lower end of the first panel 2 and the second motor 57 is fixed to the main body 1 of the air conditioner And the second gear 58 is rotatably connected to the second motor 57. The first panel 2 is assembled in place and the second gear 58 is rotatably connected to the second motor 57. [ 2 with the rack (52). Similarly, the second motor 57 and the second gear 58 are also shielded through a motor box, a gear box, and the like.

When the drive mechanism slides on the drive panel, sliding the panel to a position can be implemented in various ways, for example, by controlling the motor through a program, or by a mechanical mechanism. In the above embodiment, the structure of the driving mechanism is combined, and the position of the panel sliding position is limited by adopting the mechanical structure of the position limiting structure. Specifically, the first panel driving mechanism 5 is taken as an example, and the first position restricting portion 511 is formed in the first rack 51, specifically, it is one position restricting block; The air conditioner main body 1 forms a second position restricting part 59 which matches the first position restricting part 511, for example, a position restricting switch. The second position restricting portion 59 is formed in the air conditioner main body 1 and can be fixed to the air conditioner main body 1 and formed in other members fixed together with the air conditioner main body 1 . For example, in the first gear box 55, the essence is to fix the air conditioner main body 1 and match the first position restricting part 511 to limit the sliding position. After the first position restricting portion 511 and the second position restricting portion 59 are in contact with each other, the air conditioning control system receives the corresponding position restricting signal, controls the motor rotation of the driving mechanism to be stopped, And no longer slides, thereby implementing the sliding position limitation. At the same time, the position restricting portion can be formed in the second rack 56, and the position restricting portion matching the position restricting portion of the second rack 56 is formed in the air conditioner main body 1, All of them are allowed to proceed with the position restriction. It is of course possible to form a position restricting structure matching only the lower drive mechanism.

In the case of a panel having a relatively long length, a drive mechanism is provided at both ends to maintain the sliding stability, and a more stable and smooth sliding performance can be realized by additionally providing a slide rail. In the above embodiment, the first panel 2 is provided with a first slide rail support 21 at the rear middle portion of the first panel 2, A first slide rail (12) is installed at a position corresponding to the rail support (21). The first slide rail 12 is mounted and connected to the first slide rail supporter 21 after the first panel 2 is assembled to the air conditioner main body 1 and when the first panel 2 is slid, Since the first slide rail supporter 21 is caused to slide along the first slide rail 12 through positional restriction and directional guidance of the first slide rail 12 and the first slide rail supporter 21, 1) to slide more steadily and smoothly. Alternatively, a slide rail may be provided on the rear surface of the first panel 2, and a slide rail support corresponding to the air conditioner main body 1 may be provided to make the first panel 2 slide more stably and smoothly.

The second panel driving mechanism and other auxiliary structures can refer to the structure corresponding to the first panel, and will not be described here.

6 to 9, in the above embodiment, the air conditioner base 7 includes a base body 71, a base body 71 has an assembly portion 7121, The base 7 is assembled so as to be detachable from the air conditioner body 100 by using the unit 7121. Therefore, the base 7 is basically independent of the air conditioner body 100. A body air inlet 7141 and a body air outlet 7151 are formed in the base body 71 and a cavity is formed in the base body 71. A blower 722 and an air treatment module 73 are formed in the cavity do. Unlike the basic processing function module for heating, cooling, and dehumidifying air of a conventional air conditioner, the air processing module 73 of the above point is a module that implements additional functions such as humidification, purification, and cleaning of air.

Since the base body 71 has the body air inlet 7141 and the body air outlet 7151 and the blower 722 and the air treatment module 73 are formed inside the base body 71, It itself forms one independent ventilation system. The ventilator 722 allows the outside air to be sucked into the base body 71 through the body air inlet 7141 through the rational structure design and is supplied to the body air outlet 7151), thereby realizing the air treatment using the air treatment module 73. For example, if the air treatment module 73 is a humidification module, humidification treatment of air in the environment is performed; If the air processing module 73 is a purifying module, proceed with the purifying process for the air in the environment; If the air treatment module 73 is a direction and odor removing module, the direction and odor removing process for air in the environment proceed. Also, since the base 7 and the air conditioner body 100 are basically independent, they can be independently controlled, so that the additional air treatment function and the air conditioner existing basic functions can be independently operated. Since the base 7 does not depend on the existing space and air duct structure of the air conditioner body 100, it does not affect the existing air conditioner performance of the air conditioner, and does not require special design to the air conditioner air duct structure, Simplifying the structure and design to enable functionality.

Specifically, the base body 71 includes a bottom sheet 711, a base main body 712, a base support 713, a rear housing 714, and a front housing 715. The bottom sheet 711 is a bottom plate structure of the entire base 7 and is connected in a detachable manner to the base main body 712. For example, by means of screws, buckles or the like. The assembly 7121 of the entire base 7 is formed in the base main body 712 at the top end facing the bottom sheet 711 so that the assembly 7121 is placed on the top of the entire base 7 Located. A cavity is formed in the base main body 712 to be used to accommodate structures such as the blower 722 and the air processing module 73 to be assembled. Such a method can lower the supporting strength of the base main body 712. [ Between the bottom sheet 711 and the base main body 712 and between the bottom sheet 711 and the assembly 7121 in order to improve the support strength and support rigidity of the entire base 7, 713). An outer housing surrounding the base main body 712 is formed on the outer peripheral surface of the base main body 712. In detail, the outer housing surrounding the base main body 712 includes a rear housing 714 and a front housing 715, and the front housing 715 is divided into left and right parts. The rear housing 714 and the front housing 715 are fixedly connected to the bottom sheet 711, the main main body 712 and the base support 713 via buckles, screws, and the like, respectively. The body air inlet 7141 is formed in the rear housing 714 and is used to introduce outside air; The body air outlet 7151 is formed in the front housing 715 and is used to discharge processed air through the air treatment module 73. [

An air discharge assembly 72 is formed in the cavity formed in the base main body 712 and the air discharge assembly 72 includes an air discharge frame 721. The blower 722 is connected to the air discharge frame 721 . Specifically, the air discharge assembly 72 and the base main body 712 are fixed through a buckle, a screw, or the like; The blower 722 is fixed in the air discharge frame 721 by a centrifugal blower. At both ends of the air discharge frame 721, there is an opening, one end for the bottom sheet 711 and the other end for the assembly part 7121. One end of the air discharge frame 721 toward the bottom sheet 711 forms an air discharge frame air inlet 7211 and communicates with the body air inlet 7141 of the base body 71; One end of the air discharge frame 721 toward the assembly portion 7121 forms an air discharge frame second air outlet 7213. In the air discharge frame 721, an air discharge frame first air outlet 7212 is formed between the air discharge frame air inlet 7211 and the air discharge frame second air outlet 7213. The air discharge frame first air outlet 7212 and the body air outlet 7131 of the base body 71 communicate with each other. Preferably, the air discharge frame first air outlet 7212 is formed on the side of the air discharge frame 721 in such a manner that the air discharge angle is larger than 180 DEG, thereby increasing the range of air discharge. In this embodiment, the air discharge frame first air outlet 7212 may include three air outlets distributed at the side of the air discharge frame 721 at intervals to form an air blow angle of about 270 °. The air treatment module 73 is also formed in the air discharge frame 721 and specifically the air treatment module 73 is formed between the air discharge frame air inlet 7211 and the air discharge frame first air outlet 7212 . Preferably, the air treatment module 73 is formed on the air discharge frame 721 in a pullout manner, which is convenient when the user wishes to replace the air handling module of the same type after sale and the user, It is easy to use when installing an air handling module that implements the function, so it can meet the customized demand of the user.

In the cavity formed by the base main body 712, an electric appliance box 74 is formed below the air discharge assembly 72. A control panel of the air conditioner body 100 may be disposed in the electric device box 74 and a control panel of the air conditioner body 100 to be assembled with the base 7 may be disposed. All of the control panels of the electric device box 100 can be disposed in the electric device box 74. [ The electric appliance box 74 is disposed farther from the body air inlet 7141 of the base body 71 so that the air is introduced into the electric appliance box 74, the body air inlet 7141, By forming the entry cavity 75, it is ensured that the base 7 can smoothly enter and exit the air.

In the assembly section 7121, an assembly air outlet (not shown in the figure), a lead wire opening 71211, and a connection pipe opening 71212 are formed at an upper portion thereof. Here, the assembly air outlet and the air discharge frame second air outlet 7213 of the air discharge assembly 72 communicate with each other. After the air conditioner body 100 is assembled with the base 7 through the assembly portion 7121, the air conditioner body 100 forms a coupling portion air outlet 91 between the air conditioner body 100 and the assembly portion 7121, The coupling portion air outlet 91 and the assembly portion air outlet communicate with each other. Thus, the air processed through the air treatment module 73 is discharged from the air discharge frame first air outlet 7212 and the body air outlet 7151, and the air discharge frame second air outlet 7213, And also can be discharged through the outlet and the coupling air outlet 91 and can be discharged from the top of the base 7 and the bottom of the air conditioner body 100 so that omnidirectional blowing at various angles, , Thereby increasing the air exhaust range and mode of the stand-type air conditioner. The lead wire opening 71211 provides a path for each lead electrically connected to the electrical device box 74 so that a lead connecting the lead member of the air conditioner body 100 and the lead box 7412 is connected to the lead wire opening 71211, So that the air can be introduced into the air conditioner body 100. The connection pipe opening 71212 is a passage for connecting the air conditioner body 100 and the connection pipe of the air conditioner outdoor unit.

The stand type air conditioner constructed by combining the base (7) and the air conditioner body (100) adopting the above structure is suitable for mass production and assembly because of its reasonable structure, large air exhausting range and various air exhausting methods. .

In addition, an air discharge grill 92 is formed in the coupling air outlet 91 to arrange the air blowing direction. The air outlet cover plate 93 is provided outside the air outlet grill 92 at the coupling air outlet 91 so as to be used for opening and closing the coupling air outlet 91 and air is discharged from the coupling air outlet 91 . For example, the air discharge cover plate 93 is formed at the joint air outlet 91 in a buckle-type connection structure with the base 7 or / and the air conditioner body 100, (93) can be assembled and separated. If the air outlet cover plate 93 is separated and the air outlet 91 of the coupling unit is opened, if the air outlet port 91 of the coupling unit is desired to be exhausted after the electrical operation is performed in the blower 722 of the base 7, The air treated through the air outlet 73 is discharged from the air outlet 91 of the coupling portion. If the air discharge cover plate 93 is assembled to the coupling air outlet 91, the air discharge at the air outlet is closed, and even if the electric work proceeds in the blower 722, Since it is not discharged, there is a high possibility of operation of the air discharge range and the method. In the preferred embodiment, both the air outlet grill 92 and the air outlet cover plate 93 are annular so that an annular air outlet can be realized, and the air outlet angle is large and the air outlet range is wide.

The air conditioning body 100 is assembled in a detachable manner via the connecting member 8 to the base 7 in order to increase the assembling strength of both the base 7 and the air conditioner body 100 in order to conveniently assemble them. Specifically, the connecting member 8, the base 7, and the air conditioner body 100 have a similar external shape or a rectangular plate. When assembled, the connecting member 8 is connected to the base 7 And then fixes the air conditioner body 100 and the connecting member 8 to each other. When the air conditioner body 100 and the base 7 are connected and fixed via the connecting member 8, a connecting portion air outlet 91 is formed between the assembly portion 7121 and the connecting member 8. A connection opening 811 corresponding to the connection opening 71212 of the assembly portion 7121 and a lead opening 81 corresponding to the lead opening 71211 of the assembly portion 7121 are formed on the bottom surface of the connection member 8 82 is opened. In addition, both the wire opening portion 81 and the connection pipe opening portion 82 are provided in a sealing structure to prevent air in the coupling portion air outlet 91 from leaking at the connection member 8.

The above embodiments are for illustrating the technical solution of the present invention and do not limit the claims of the present invention. It will be apparent to those skilled in the art that modifications and variations may be made to the technology described in the above embodiments based on the basic spirit and scope of the technology to be protected by the present invention, Where the features are replaced by equivalent levels, they all fall within the scope of protection of the present invention.

Claims (12)

The air conditioner of claim 1, wherein the air conditioner main body includes an air conditioner main body, a blowing air duct is formed in the air conditioner main body, the air conditioner comprises a first panel and a second panel; And an air outlet formed between the first panel and the air outlet end of the second panel and the air flow duct, respectively, when the first panel and the second panel slide in an orientation, respectively, when power is supplied to the air conditioner. Further comprising a first panel driving mechanism and a second panel driving mechanism for sliding the first panel and the second panel in a direction in which the first panel and the second panel face each other when the electric power is cut off to the air conditioner, Type air conditioner. The method according to claim 1,
Wherein a slide groove / slide rail is formed in a frame of the air conditioner main body, and the first panel and the second panel slide while enclosing the air conditioner main body in the slide groove / slide rail. . The method according to claim 1,
Wherein the first panel drive mechanism comprises:
A first rack formed on the first panel and adjacent to one end of the slide groove / slide rail;
A first motor formed in the air conditioner main body; And
And a first gear rotatably connected to the first motor and meshing with the first rack;
Wherein the second panel drive mechanism comprises:
A third rack formed on the second panel and adjacent to one end of the slide groove / slide rail;
A third motor formed in the air conditioner main body; And
And a third gear rotatably connected to the third motor and meshing with the third rack. The method of claim 3,
Wherein the first panel drive mechanism comprises:
A second rack formed on the other end of the first panel facing one end of the first panel on which the first rack is located;
A second motor formed on the main body of the air conditioner; And
A second gear rotatably connected to the second motor and meshing with the second rack;
Wherein the second panel drive mechanism comprises:
A fourth rack formed at the other end of the second panel facing one end of the second panel in which the third rack is located;
A fourth motor formed in the air conditioner main body; And
And a fourth gear rotatably connected to the fourth motor and meshing with the fourth rack. 5. The method of claim 4,
Wherein the first panel drive mechanism comprises:
A first position restricting portion formed in the first rack and / or the second rack; And
Further comprising a second position restricting portion formed on the main body of the air conditioner and matching the position of the first position restricting portion,
Wherein the second panel drive mechanism comprises:
A third position restricting portion formed in the third rack and / or the fourth rack; And
Further comprising a fourth position restricting portion formed on the main body of the air conditioner and matching the position of the third position restricting portion. The method according to claim 1,
A first slide rail / first slide rail support is formed on the first panel, and a second slide rail support / second slide rail matched with the first slide rail / first slide rail support is formed on the air conditioner main body Being; A third slide rail / third slide rail support is formed on the second panel, and a fourth slide rail support / fourth slide rail matched with the third slide rail / third slide rail support is formed on the air conditioner main body Wherein the air conditioner is a stand-type air conditioner. The method according to claim 6,
Wherein the first slide rail / first slide rail support member is formed at an intermediate portion of the first panel, and the third slide rail / third slide rail support member is formed at an intermediate portion of the second panel. Type air conditioner. 8. The method according to any one of claims 1 to 7,
The standing air conditioner further includes a base assembled in a detachable manner with respect to the air conditioner body, wherein the base includes a base body, and the base body has a body portion and a body air inlet and a body air outlet are formed in the base body , A cavity is formed in the base body, and a blower and an air processing module are formed in the cavity. 9. The method of claim 8,
Wherein the air discharge assembly is formed in the cavity, the air discharge assembly includes an air discharge frame, the blower is formed in the air discharge frame, and the air discharge frame air inlet and the air discharge frame first air The air outlet frame first air outlet is located between the air outlet frame air inlet and the assembly section, the air outlet frame air inlet and the body air inlet communicate with each other, and the air outlet frame first air And the outlet and the body air outlet communicate with each other. 10. The method of claim 9,
Wherein the air discharge frame first air outlet is formed on a side surface of the air discharge frame in such a structure that an air discharge angle is larger than 180 degrees. 10. The method of claim 9,
And an air discharge frame second air outlet located between the air discharge frame first air outlet and the assembly air outlet is formed in the air discharge frame, The second air outlet and the assembly air outlet communicate with each other, an air outlet for the air inlet is formed between the air conditioner body and the air outlet, and the air outlet for the air outlet and the air outlet for the air outlet are communicated with each other. Type air conditioner. 9. The method of claim 8,
Wherein an electrical apparatus box is further formed in the cavity, and a lead wire opening and a connection tube opening are formed in the assembly portion, a lead wire connected to the electrical appliance box is extended to the base body through the lead wire opening, Wherein the connecting tube extends into the base through the opening of the connecting tube.

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