CN214791469U - Air conditioner - Google Patents
Air conditioner Download PDFInfo
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- CN214791469U CN214791469U CN202120924312.7U CN202120924312U CN214791469U CN 214791469 U CN214791469 U CN 214791469U CN 202120924312 U CN202120924312 U CN 202120924312U CN 214791469 U CN214791469 U CN 214791469U
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Abstract
The utility model provides an air conditioner relates to the air conditioning technology field, and this air conditioner includes air conditioner casing, wind-guiding door and sliding door, and the air outlet has been seted up to air conditioner casing's bottom side, and the wind-guiding door activity sets up in air conditioner casing's bottom side, and the sliding door activity sets up on air conditioner casing, and the sliding door under the state of just sheltering from matches with the wind-guiding door under the first state of opening and combines to form the side wind channel, and the side wind channel is by the both sides air-out of wind-guiding door. Through addding the sliding door to the sliding door under sheltering from the state can form the side air guide passageway with the air guide door under the open mode, through the side air guide passageway by the both sides air-out of air guide door, avoided directly by the positive air-out of air outlet, thereby avoided the air conditioner air-out directly to blow to the user, the use comfort level of air conditioner has been improved, carry out the air-out by the both sides of air guide door simultaneously, air-out scope on the direction about having increased, realize the wide area air-out, and also guaranteed the refrigeration/heating ability of air conditioner.
Description
Technical Field
The utility model relates to an air conditioner technical field particularly, relates to an air conditioner.
Background
When the indoor unit of a conventional hanging air conditioner is used for cooling and air supplying, airflow blown out from the air outlet of the air conditioner is high in flow speed and low in temperature, and can be directly blown to a user. In hot summer, if cold air is directly blown on the body surface of a user for a long time, human body discomfort is easily caused, the body health of the user is not facilitated, and particularly, diseases such as cold and the like are easily caused for old people, children and the like.
SUMMERY OF THE UTILITY MODEL
The utility model provides a problem how avoid the air-conditioner air-out directly to blow to the user, improve the use comfort level of air conditioner.
In order to solve the problems, the utility model adopts the following technical proposal to solve.
In one aspect, the utility model provides an air conditioner, including air conditioner casing, air guide door and sliding door, the air outlet has been seted up to air conditioner casing's bottom side, the air guide door activity sets up air conditioner casing's bottom side can selectively seal or open the air outlet, the sliding door activity sets up on the air conditioner casing and can selectively shelter from or relieve and shelter from the air outlet, and shelter from under the state the sliding door is with under the first state of opening the air guide door matches and forms the side air guide passageway, the side air guide passageway by the both sides air-out of air guide door.
The utility model provides an air conditioner, through addding the sliding door, and the sliding door that shelters from under the state can form the side air guide passageway with the air guide door under the open mode, both sides air-out by the air guide door through the side air guide passageway, avoided directly by the positive air-out of air outlet, thereby avoided the air conditioner air-out directly to blow to the user, the use comfort level of air conditioner has been improved, carry out the air-out by the both sides of air guide door simultaneously, the ascending air-out scope in the left and right sides direction has been increased, realize the wide area air-out, and also guaranteed the refrigeration/heating capacity of air conditioner.
Furthermore, the air conditioner shell is rotatably provided with an air guide transmission shaft, the air guide door is in transmission connection with the air guide transmission shaft and can be driven by the air guide transmission shaft to rotate relative to the air conditioner shell, and the air guide door is rotated to the middle section of the stroke to form the first opening state.
The utility model provides an air conditioner is through setting up the wind-guiding transmission shaft for the air guide door can rotate relative air conditioner casing, in order to conveniently open or seal the air outlet, has also guaranteed simultaneously that the wind-guiding door can cooperate with the sliding door under the open mode.
Furthermore, the air guide door forms a second opening state when rotating to the end of the stroke, the sliding door in the shielding state is in clearance fit with the air guide door in the second opening state to form a lower air guide channel, and the lower air guide channel is used for exhausting air through a gap between the air guide door and the sliding door.
The utility model provides an air conditioner shelters from sliding door under the state and rotates wind-guiding door clearance fit and the wind-guiding passageway under the stroke to the stroke end to make the air-out direction confirm by the clearance between wind-guiding door and the sliding door, and can realize downward air-out, and then can make hot-blast falling to the ground under the condition of heating, with the improvement effect of heating fast and user's travelling comfort.
Furthermore, a sliding groove structure is arranged on the air conditioner shell, and the sliding door is arranged on the sliding groove structure in a sliding assembly mode and can move along the sliding groove structure.
The utility model provides an air conditioner is through setting up the spout structure for the sliding door can freely slide relative air conditioner casing more smoothly, in order to shelter from the air outlet.
Furthermore, the extending direction of the sliding groove structure is perpendicular to the wind guiding direction of the side wind guiding channel.
Furthermore, a plurality of ventilation holes penetrating through the sliding door are formed in the sliding door.
The utility model provides an air conditioner through set up the ventilation hole on the sliding door, can be so that when the sliding door sheltered from the air outlet, partial air current blew off from the ventilation hole to realize reducing positive cold wind and directly blowing, reduce wind speed and amount of wind simultaneously, promote the experience of directly blowing and feel.
Further, the aperture of the vent hole is less than or equal to 3 mm.
The utility model provides an air conditioner through setting up little ventilation hole, can reach the air-out effect of zero wind sense, further promotes the experience of directly blowing and feels.
Furthermore, the air conditioner shell is also provided with a yielding groove for accommodating the sliding door.
The utility model provides an air conditioner through setting up the groove of stepping down, can make things convenient for the sliding door to slide, guarantees that the sliding door can hold on air conditioner casing when being in to relieve the state of sheltering from, avoids sliding door and air conditioner casing to take place to interfere.
Further, the depth of the abdicating groove is matched with the thickness of the sliding door, so that the sliding door is flush with the upper edge of the abdicating groove when the shielding state is removed.
The utility model provides an air conditioner, through setting up the degree of depth in the groove of stepping down for remove and shelter from under the state the sliding door with the top edge looks parallel and level in the groove of stepping down, thereby the problem that the parallel and level appears in the air-conditioner casing surface when avoiding the sliding door to stack.
Further, the air conditioner casing includes base, center and panel, the center sets up on the base, the panel sets up the front side of center, the sliding door activity sets up on the panel, air guide door with base or center swing joint, the air outlet set up in the bottom side of base.
Drawings
Fig. 1 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention at a first viewing angle;
fig. 2 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention at a second viewing angle;
fig. 3 is a schematic cross-sectional structure view of an air conditioner according to an embodiment of the present invention when an air guiding door is in a first open state;
fig. 4 is a schematic cross-sectional view of an air conditioner according to an embodiment of the present invention when the air guide door is in a second open state;
FIG. 5 is a schematic view of the assembly structure of the panel and the sliding door in FIG. 3;
FIG. 6 is an enlarged partial schematic view of VI of FIG. 5;
fig. 7 is a schematic structural diagram of an air conditioner at a third viewing angle according to an embodiment of the present invention.
Description of reference numerals:
100-an air conditioner; 110-an air conditioning housing; 111-an air outlet; 112-a base; 113-middle frame; 114-a panel; 115-an evaporator; 116-cross-flow fan blades; 117-wind guide transmission shaft; 118-a chute configuration; 119-a mounting port; 130-a damper door; 131-a door body; 133-a drive arm; 150-a sliding door; 151-a drive rack; 153-snap slide; 155-vent; 157-a yielding slot; 158-drive cartridge; 159 — a drive gear; 170-side air guide channel; 190-lower wind guide channel.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.
First embodiment
With reference to fig. 1 to 3, the present embodiment provides an air conditioner 100, which can avoid the air outlet of the air conditioner from directly blowing to the user in the cooling state, improve the comfort level of the air conditioner, and simultaneously enable hot air to fall to the ground in the heating state, so as to improve the rapid heating effect and the comfort of the user, increase the left and right air outlet range and the upper and lower air outlet range, realize multiple air supply modes, and meet different air supply requirements of the user.
The air conditioner 100 provided in this embodiment includes an air conditioner case 110, an air guide door 130, and a sliding door 150, wherein an air outlet 111 is formed at a bottom side of the air conditioner case 110, the air guide door 130 is movably disposed at the bottom side of the air conditioner case 110 and can selectively close or open the air outlet 111, the sliding door 150 is movably disposed on the air conditioner case 110 and can selectively block or unblock the air outlet 111, the sliding door 150 in a blocking state is matched with the air guide door 130 in a first opening state to form a side air guide channel 170, and the side air guide channel 170 is blown out from two sides of the air guide door 130.
The air conditioner 100 provided by this embodiment is a wall-mounted air conditioner, wherein the air conditioning casing 110 includes a base 112, a middle frame 113 and a panel 114, the middle frame 113 is disposed on the base 112, the panel 114 is disposed in front of the middle frame 113, the sliding door 150 is movably disposed on the panel 114, the air guiding door 130 is movably connected with the base 112 or the middle frame 113, and the air outlet 111 is opened at the bottom side of the base 112. Specifically, the panel 114 is located at the front side of the middle frame 113, the air outlet 111 is located below the panel 114, and the sliding door 150 is movably disposed on the panel 114 and can slide relative to the panel 114, so as to shield the air outlet 111 below the panel 114 and wind. In addition, the air guide door 130 is movably connected with the base 112, and can close or open the air outlet 111.
In this embodiment, an evaporator 115 and a cross-flow fan blade 116 are further disposed in the air conditioning casing 110, specifically, the cross-flow fan blade 116 is disposed on the base 112, the evaporator 115 is disposed above the base 112 in a surrounding manner, an air inlet of the air conditioning casing 110 is disposed above the evaporator 115, the base 112 has an air outlet channel, the air outlet 111 is communicated with the air outlet channel, and the cross-flow fan blade 116 is configured to send air, which enters the air conditioning casing 110 from the air inlet and exchanges heat with the evaporator 115, into the air outlet channel, and out of the air outlet 111, so as to implement a heating/cooling function. The internal structure and cooling/heating principle of the air conditioner case 110 may be described with reference to a conventional wall-mounted air conditioner, which will not be described herein.
In this embodiment, the sliding door 150 is slidably disposed on the panel 114, by additionally providing the sliding door 150, the sliding door 150 in the shielding state and the air guiding door 130 in the opening state can form the side air guiding channel 170, air is blown out from both sides of the air guiding door 130 through the side air guiding channel 170, direct front air outlet from the air outlet 111 is avoided, direct blowing to a user by the air outlet of the air conditioner is avoided, the use comfort of the air conditioner is improved, air outlet is performed from both sides of the air guiding door 130, the air outlet range in the left and right directions is increased, wide area air outlet is realized, and the refrigerating/heating capacity of the air conditioner is also ensured.
In this embodiment, the air-conditioning casing 110 is rotatably provided with the air-guiding transmission shaft 117, the air-guiding door 130 is in transmission connection with the air-guiding transmission shaft 117, and can be driven by the air-guiding transmission shaft 117 to rotate with respect to the air-conditioning casing 110, and the air-guiding door 130 forms the first open state when rotating to the middle of the stroke. Specifically, the air guide transmission shaft 117 is disposed on the base 112, and a driving structure (not shown) for driving the air guide transmission shaft 117 to rotate is further disposed in the air conditioner casing 110, and the driving structure is controlled by an electric control system of the air conditioner, so that the air guide transmission shaft 117 can drive the air guide door 130 to rotate relative to the panel 114.
In this embodiment, the air guiding transmission shaft 117 is located on the base 112 and is disposed near the lower edge of the air outlet 111, so that the air guiding door 130 can rotate from top to bottom to open the air outlet 111, and can rotate from bottom to top to close the air outlet 111. Through setting up wind-guiding transmission shaft 117 for air guide door 130 can rotate relative to air conditioner casing 110, in order to conveniently open or seal air outlet 111, has also guaranteed simultaneously that wind-guiding door 130 can cooperate with sliding door 150 under the open mode.
The air guide door 130 includes a door body 131 and a transmission arm 133, one end of the transmission arm 133 extends into the air outlet 111 and is connected with the air guide transmission shaft 117 arranged on the base 112, and the other end is connected with the door body 131, so that the air guide transmission shaft 117 can drive the door body 131 to rotate around the air guide transmission shaft 117 through the transmission arm 133. Specifically, the transmission arm 133 is bent, the door 131 is arc-shaped, the shape of the door 131 is matched with the shape of the air outlet 111, the transmission arm 133 is connected with the concave side of the door 131, and the specific connection structure of the air guide door 130 and the air guide transmission shaft 117 can refer to the existing wall-mounted air conditioner.
Referring to fig. 4 in combination, in the present embodiment, the second open state is formed when the air guiding door 130 rotates to the end of the stroke, the sliding door 150 in the shielding state is in clearance fit with the air guiding door 130 in the second open state to form the lower air guiding channel 190, and the lower air guiding channel 190 is used for exhausting air from the gap between the air guiding door 130 and the sliding door 150. Sliding door 150 under the state of sheltering from and rotate to the wind guide door 130 clearance fit of stroke end and form wind-guiding channel 190 down to make the air-out direction confirm by the clearance between wind guide door 130 and the sliding door 150, and can realize air-out downwards, and then can make hot-blast ground under the condition of heating, with the effect of improving fast heating and user's travelling comfort.
In this embodiment, under the condition that air guide door 130 is in the second open mode, can also realize the regulation of air-out direction from top to bottom through the degree of sheltering from of control sliding door 150 to air outlet 111 to make air-out angle increase from top to bottom, further realized wide area air-out. Specifically, when forming the lower air guiding channel 190, a part of the air blown out from the air outlet 111 is blown out from the left and right ends of the air guiding door 130, and the other part of the air is directly blown out from the gap between the air guiding door 130 and the sliding door 150, so that downward air blowing is realized, and the upper and lower air blowing angles are increased, thereby further realizing wide-area air blowing.
It should be noted that, in the present embodiment, the middle and end of the stroke refer to the stroke when the air guiding door 130 is turned from closed to open, wherein the air guiding door 130 is driven by the air guiding transmission shaft 117 to gradually open the air outlet 111, and reaches the stroke end when the air guiding door 130 rotates to the downward limit position. Here, the stroke of the air guide door 130 may be determined according to the rotation angle of the air guide transmission shaft 117 and the interference point between the air guide door 130 and the bottom side of the middle frame 113, and the size of the stroke of the air guide door 130 is not particularly limited herein. Specifically, in the present embodiment, when the air guiding door 130 is driven by the air guiding transmission shaft 117 to rotate from the closed state to the open state, when the air guiding door 130 rotates to the middle point of the stroke, the air guiding door 130 is in the first open state, at this time, the air guiding door 130 is in the horizontal half-open state, when the air guiding door 130 rotates to the end point of the stroke, the air guiding door 130 is in the second open state, at this time, the air guiding door 130 is in the downward fully-open state. Of course, the stroke of the air guiding door 130 may be further subdivided to achieve cooperation between the sliding door 150 and the air guiding door 130 in different opening states, so as to achieve different air blowing strategies.
Referring to fig. 5 to 7 in combination, in the present embodiment, the air conditioning casing 110 is provided with a chute structure 118, and the sliding door 150 is slidably mounted on the chute structure 118 and can move along the chute structure 118. Through the arrangement of the sliding chute structure 118, the sliding door 150 can more smoothly and freely slide relative to the air conditioner housing 110 to block the air outlet 111.
It should be noted that, in this embodiment, a driving box 158 for driving the sliding door 150 is further disposed in the air conditioning casing 110, and a driving member, such as a stepping motor, is disposed in the driving box 158, and the stepping motor is in transmission connection with the sliding door 150 through a transmission structure, so as to drive the sliding door 150 to move along the sliding slot structure 118. The transmission structure in this embodiment includes a pinion 159 and a transmission rack 151, specifically, the pinion 159 is disposed on an output shaft of the stepping motor, the transmission rack 151 is integrally disposed inside the sliding door 150, and the pinion 159 is engaged with the transmission rack 151, so as to realize transmission connection between the sliding door 150 and the stepping motor.
In the present embodiment, the extending direction of the chute structure 118 is perpendicular to the wind guiding direction of the side wind guiding channel 170. Specifically, the wind guiding direction of the side wind guiding channel 170 is a left-right direction, the arrangement direction of the chute structures 118 is an up-down direction, and the extending direction of the chute structures 118 is parallel to the extending direction of the transmission rack 151, so that the sliding door 150 can slide up and down relative to the panel 114 under the driving of the driving member to block or unblock the air outlet 111.
In the present embodiment, the chute structures 118 are opened at both ends of the panel 114, and the opening direction of the chute structures 118 is far away from the center of the panel 114, preferably, the chute structures 118 at both ends are opened toward the left and right direction, respectively. The sliding door 150 is integrally provided with a latch sliding member 153 at both ends, and the latch sliding member 153 is latched in the sliding slot structure 118 and can freely slide in the sliding slot structure 118, so that the sliding door 150 is slidably assembled on the panel 114.
It should be noted that, the driving element in this embodiment is also connected to the control system of the air conditioner, and the sliding distance of the sliding door 150 can be controlled by the stepping motor, so that the shielding degree of the sliding door 150 to the air outlet 111 can be controlled, and different requirements of users can be met. Moreover, when the sliding door 150 slides down to the limit position, the air outlet 111 still cannot be completely closed, and when the air outlet 111 needs to be completely closed, the air guide door 130 can be used for realizing the purpose. Specifically, when the air guide door 130 is in the first open state and the sliding door 150 slides down to the limit position, the air guide door 130 can be just abutted against the air guide door 130, so that the air guide door 130 completely blocks the front air outlet of the air outlet 111, and the side air guide channel 170 is formed, and at this time, the air guide door 130 is in the open state, so that the two ends of the air guide door 130 are in the open state, and the air outlet of the side air guide channel 170 can be realized through the left end and the right end of the air guide door 130. When the air guiding door 130 is in the second open state and the sliding door 150 slides down to the limit position, a certain gap still exists between the air guiding door 130 and the air guiding door 130, the width of the gap is between 8mm and 25mm, and due to the shielding effect of the sliding door 150, part of air flushed out from the air outlet 111 has to be exhausted through the gap between the air guiding door 130 and the sliding door 150, and at the moment, the air guiding door 130 is in the fully open state and the direction is downward, so that the air outlet direction is downward, and hot air can quickly fall to the ground in the heating state.
It should be noted that in this embodiment, the panel 114 is further provided with assembling ports 119 at two ends, the assembling ports 119 penetrate through the sliding slot structure 118, and the shape of the assembling ports 119 is adapted to the shape of the buckle sliding member 153, preferably, the size of the assembling ports 119 is slightly smaller than the size of the buckle sliding member 153, and when the sliding door 150 is installed, the buckle sliding member 153 can be installed into the assembling ports 119 under the pressing of an external force and enter the sliding slot structure 118. In order to prevent the fitting port 119 from affecting the sliding stroke of the sliding door 150, the fitting port 119 may be provided at the bottom side of the panel 114.
In the present embodiment, slide door 150 is provided with a plurality of ventilation holes 155 penetrating slide door 150. Through seting up ventilation hole 155 on sliding door 150, can be so that when sliding door 150 sheltered from air outlet 111, partial air current blew out from ventilation hole 155 to the realization reduces positive cold wind and blows directly, reduces wind speed and amount of wind simultaneously, promotes the experience of blowing directly and feels.
Further, the aperture of the vent hole 155 is less than or equal to 3 mm. Preferably, the aperture of ventilation hole 155 is 1.5mm, and a plurality of ventilation holes 155 array distribute on sliding door 150, through setting up tiny ventilation hole 155, can reach the air-out effect of zero wind sense, further promotes the experience of directly blowing and feels.
In this embodiment, the air-conditioning case 110 is further provided with a relief groove 157 for accommodating the sliding door 150. Specifically, the panel 114 is provided with a receding groove 157, the sliding door 150 is movably disposed on the panel 114 and can slide up and down relative to the panel 114, when the sliding door 150 slides up to the limit position, the sliding door 150 is accommodated in the receding groove 157, and the upper side edge of the sliding door 150 abuts against the upper side wall of the receding groove 157, through the provision of the receding groove 157, the sliding door 150 can slide conveniently, it is ensured that the sliding door 150 can be accommodated on the air conditioning casing 110 when the shielding state is released, and interference between the sliding door 150 and the air conditioning casing 110 is avoided.
In the embodiment, the panel 114 is arc-shaped, so the receding groove 157 has a certain arc, and the shape of the sliding door 150 is matched with the shape of the receding groove 157, so the sliding door 150 is also arc-shaped. The depth of the receding groove 157 is adapted to the thickness of the sliding door 150, so that the sliding door 150 in the shielding-released state is flush with the upper edge of the receding groove 157. Through setting up the degree of depth of groove 157 of stepping down for sliding door 150 under the state of removing the sheltering from is parallel and level mutually with the top edge of groove 157 of stepping down, thereby avoids sliding door 150 to stack the problem that the outer surface of air-conditioning casing 110 appears not the parallel and level.
In summary, the air conditioner 100 provided in this embodiment forms the side air guide channel 170 through the sliding door 150 and the air guide door 130 in the first open state, so as to realize left and right air outlet, and forms the lower air guide channel 190 through the sliding door 150 and the air guide door 130 in the second open state, so as to realize downward air outlet and adjust in the up and down direction, and by additionally arranging the sliding door 150 and matching with the air guide door 130, so as to realize wide-area air outlet, so as to increase left and right air outlet ranges and up and down air outlet ranges, so as to realize multiple air supply modes, and adopt different air supply strategies according to different actual requirements, thereby satisfying different air supply requirements of users. And can avoid directly by the positive air-out of air outlet 111 after forming side wind-guiding passageway 170 or wind-guiding passageway 190 down to avoided the air conditioner air-out directly to blow to the user, improved the use comfort level of air conditioner. And can make hot-blast fall to the ground under the heating state to improve quick heating effect and user's travelling comfort.
Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.
Claims (10)
1. The air conditioner is characterized by comprising an air conditioner shell (110), an air guide door (130) and a sliding door (150), wherein an air outlet (111) is formed in the bottom side of the air conditioner shell (110), the air guide door (130) is movably arranged on the bottom side of the air conditioner shell (110) and can be selectively closed or opened, the air outlet (111) is selectively closed or opened, the sliding door (150) is movably arranged on the air conditioner shell (110) and can be selectively shielded or unblocked, the sliding door (150) in a shielding state is matched with the air guide door (130) in a first opening state to form a side air guide channel (170), and the side air guide channel (170) is used for exhausting air from two sides of the air guide door (130).
2. The air conditioner as claimed in claim 1, wherein an air guide transmission shaft (117) is rotatably disposed on the air conditioning casing (110), the air guide door (130) is in transmission connection with the air guide transmission shaft (117) and can be driven by the air guide transmission shaft (117) to rotate relative to the air conditioning casing (110), and the first open state is formed when the air guide door (130) rotates to a middle stroke.
3. The air conditioner as claimed in claim 2, wherein the second open state is formed when the air guide door (130) is rotated to the end of the stroke, the sliding door (150) in the blocking state is in clearance fit with the air guide door (130) in the second open state and forms a lower air guide passage (190), and the lower air guide passage (190) is blown out of a gap between the air guide door (130) and the sliding door (150).
4. The air conditioner according to claim 1, wherein a chute structure (118) is provided on the air conditioning case (110), and the sliding door (150) is slidably fitted on the chute structure (118) and is movable along the chute structure (118).
5. The air conditioner as claimed in claim 4, wherein the sliding groove structure (118) extends in a direction perpendicular to the wind guiding direction of the side wind guiding passage (170).
6. The air conditioner according to claim 1, wherein the sliding door (150) is opened with a plurality of ventilation holes (155) penetrating the sliding door (150).
7. The air conditioner as claimed in claim 6, wherein the aperture of the vent hole (155) is less than or equal to 3 mm.
8. The air conditioner according to claim 1, wherein the air conditioning case (110) is further provided with a relief groove (157) for receiving the sliding door (150).
9. The air conditioner according to claim 8, wherein the depth of the relief groove (157) is adapted to the thickness of the sliding door (150) so that the sliding door (150) in the shielding-released state is flush with the upper edge of the relief groove (157).
10. The air conditioner according to any one of claims 1 to 8, wherein the air conditioning case (110) comprises a base (112), a middle frame (113) and a panel (114), the middle frame (113) is disposed on the base (112), the panel (114) is disposed at a front side of the middle frame (113), the sliding door (150) is movably disposed on the panel (114), the air guide door (130) is movably connected with the base (112) or the middle frame (113), and the air outlet (111) is opened at a bottom side of the base (112).
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CN202120924312.7U CN214791469U (en) | 2021-04-29 | 2021-04-29 | Air conditioner |
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CN202120924312.7U CN214791469U (en) | 2021-04-29 | 2021-04-29 | Air conditioner |
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Cited By (1)
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CN115264589A (en) * | 2021-04-29 | 2022-11-01 | 宁波奥克斯电气股份有限公司 | Air conditioner |
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CN115264589A (en) * | 2021-04-29 | 2022-11-01 | 宁波奥克斯电气股份有限公司 | Air conditioner |
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