CN213901264U - Double air intake air conditioner - Google Patents

Abstract

The utility model relates to an air conditioning equipment technical field, concretely relates to two air conditioners of intaking. The air conditioner comprises a shell, a first air inlet panel, a second air inlet panel, a first air inlet adjusting mechanism and a second air inlet adjusting mechanism. The shell is provided with a first air inlet and a second air inlet, the first air inlet panel is rotatably connected to the shell, and the first air inlet panel is used for shielding or exposing the first air inlet. The first air inlet adjusting mechanism is used for driving the first air inlet panel to rotate relative to the shell. The second air inlet panel is rotatably connected to the machine shell and used for shielding or exposing the second air inlet. The second air inlet adjusting mechanism is used for driving the second air inlet panel to rotate relative to the shell. When two air inlet air conditioners were stopped using, can shield first air intake and second air intake, in the external dust can't fall into the air intake, reduced two air inlet air conditioners's cleaning cycle, the life of air conditioner is also longer, and user experience is better.

Description

Double air intake air conditioner

Technical Field

The utility model relates to an air conditioning equipment field, especially a two air inlet air conditioners.

Background

In order to provide better performance of the air conditioner, such as faster cooling/heating, or to increase the function of the air conditioner, such as the air conditioner integrated with an air purifying function, a double intake air conditioner is commercially available.

However, only one air inlet of the existing double-air-inlet air conditioner is provided with the air inlet panel, the air inlet panel can shield or expose the air inlet, and the other air inlet is in an exposed state for a long time, so that dust is easily accumulated at the other air inlet of the existing double-air-inlet air conditioner, the cleaning period is short, and the user experience is poor.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in providing a double air inlet air conditioner, aims at solving the problem that the double air inlet air conditioner air intake accumulates the dust easily among the prior art.

The utility model provides a two air inlet air conditioners includes: a casing, wherein the casing is provided with a first air inlet, a second air inlet, a first air inlet panel, a first air inlet adjusting mechanism, a second air inlet panel and a second air inlet adjusting mechanism, the first air inlet panel is rotatably connected to the casing and used for shielding or exposing the first air inlet, the first air inlet adjusting mechanism is arranged on the shell and is connected with the first air inlet panel, the first air inlet adjusting mechanism is used for driving the first air inlet panel to rotate relative to the shell, the second air inlet panel is rotatably connected to the casing and is used for shielding or exposing the second air inlet, the second air inlet adjusting mechanism is arranged on the shell and is connected with the second air inlet panel, and the second air inlet adjusting mechanism is used for driving the second air inlet panel to rotate relative to the shell.

Further, first air inlet adjustment mechanism with second air inlet adjustment mechanism all includes: the driving part comprises a driving part body and an output shaft driven by the driving part body, the gear is installed on the output shaft of the driving part, one end of the power output part is connected with the first air inlet panel or the second air inlet panel, the other end of the power output part can stretch out of and retract into the shell, the power output part comprises a rack, the rack is arranged on one side, close to the output shaft, of the power output part, and the gear is in transmission connection with the rack.

Further, first air inlet adjustment mechanism with second air inlet adjustment mechanism all still includes: the power output device comprises a first shell and a second shell, wherein the second shell and the first shell are arranged oppositely, an accommodating space used for accommodating the gear and the power output part is formed between the second shell and the first shell, a telescopic opening communicated with the accommodating space is formed in the first shell and/or the second shell, the driving part body is installed on one side, away from the second shell, of the first shell, and the output shaft penetrates through the first shell and extends into the accommodating space.

Furthermore, the first casing and the second casing are provided with first guide grooves arranged along the predetermined path of the power output part on the surface opposite to the power output part, the first lug is arranged on the surface opposite to the first casing and the second casing, and the first lug extends into the first guide groove, or the first casing and the second casing are provided with second guide grooves arranged along the predetermined path of the power output part on the surface opposite to the power output part, the first casing and the surface opposite to the power output part are provided with second lugs, and the second lugs extend into the second guide grooves.

Further, the power take-off spare is offered along the rectangular guiding hole that its predetermined route set up, install on the first casing with the guide of rectangular guiding hole cooperation use, the guide paste lean on in the pore wall of rectangular guiding hole.

Further, the guide member is a roller, and the roller is rotatably mounted to the first housing.

Further, the gyro wheel is along its global sunken slide that forms, the slide with the pore wall laminating of rectangular guiding hole.

Further, the first housing is detachably connected with the second housing.

And the first air inlet adjusting mechanism and the second air inlet adjusting mechanism are included, the first air inlet adjusting devices are respectively connected to two ends of the first air inlet panel, and the second air inlet adjusting devices are respectively connected to two ends of the second air inlet panel.

Furthermore, first air intake panel with second air intake panel is located respectively two adjacent sides of double air inlet air conditioner, just first air intake panel is kept away from the one end of second air intake panel with the casing rotates to be connected, the second air intake panel keep away from the one end of first air intake panel with the casing rotates to be connected.

The beneficial effects of the utility model reside in that: connect in the first air intake panel and the second air intake panel of casing through setting up the rotation, make first air intake and second air intake homoenergetic shielded or exposed, when two air conditioner were out of service, first air intake and second air intake homoenergetic shielded, in the external dust can't fall into the air intake, reduced the cleaning cycle of two air conditioner, the life of air conditioner is also longer, user experience is better. The double-air-inlet air conditioner further comprises a first air inlet adjusting mechanism and a second air inlet adjusting mechanism, the first air inlet adjusting mechanism is installed on the shell and connected with the first air inlet panel, the first air inlet adjusting mechanism is used for driving the first air inlet panel to rotate relative to the shell, the second air inlet adjusting mechanism is installed on the shell and connected with the second air inlet panel, and the second air inlet adjusting mechanism is used for driving the second air inlet panel to rotate relative to the shell.

Drawings

The following description of the embodiments of the present invention will be made in detail with reference to the accompanying drawings and examples, wherein:

fig. 1 is a schematic view of the structure of the housing of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic view of a part of the structure of the present invention;

FIG. 4 is an exploded view of the first intake air adjustment mechanism of the present invention;

FIG. 5 is an exploded view of the second inlet adjustment mechanism of the present invention;

fig. 6 is a schematic structural view of a first guide member of the present invention;

fig. 7 is a schematic structural view of a second guide of the present invention;

the figures are numbered:

1. a housing; 11. a first air inlet; 12. a second air inlet; 2. a first air inlet panel; 3. a second air inlet panel; 4. a first air intake adjusting mechanism; 41. a first driving member; 411. a first driving member body; 412. a first output shaft; 42. a first gear; 43. a first power take-off; 431. a first rack; 432. a first bump; 433. a first elongate guide hole; 44. a first housing; 441. a first guide groove; 442. a third mounting shaft; 45. a second housing; 46. a first guide member; 461. a first slideway; 5. a second air inlet adjusting mechanism; 51. a second driving member; 511. a second driving member body; 52. a second gear; 53. a second power take off; 531. a second rack; 532. a third bump; 533. a second elongated guide hole; 54. a third housing; 541. a third guide groove; 55. a fourth housing; 551. a second mounting shaft; 552. a second blind hole; 56. a second guide member; 561. a second slide way.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

The utility model provides a double-air-inlet air conditioner, as shown in fig. 1-3, double-air-inlet air conditioner includes casing 1, first air intake panel 2, second air intake panel 3, first air inlet adjustment mechanism 4 and second air inlet adjustment mechanism 5. The casing 1 is provided with a first air inlet 11 and a second air inlet 12, the first air inlet panel 2 is rotatably connected to the casing 1, and the first air inlet panel 2 is used for shielding or exposing the first air inlet 11. First air inlet adjustment mechanism 4 is installed in casing 1 and is connected with first air intake panel 2, and first air inlet adjustment mechanism 4 is used for driving first air intake panel 2 and rotates 1 relative casing. The second air inlet panel 3 is rotatably connected to the casing 1, and the second air inlet panel 3 is used for shielding or exposing the second air inlet 12. The second air inlet adjusting mechanism 5 is installed on the casing 1 and connected with the second air inlet panel 3, and the second air inlet adjusting mechanism 5 is used for driving the second air inlet panel 3 to rotate relative to the casing 1.

By implementing the embodiment, the first air inlet 11 and the second air inlet 12 can be shielded or exposed by the first air inlet panel 2 and the second air inlet panel 3, respectively. When two air conditioners that enter stop, drive first air inlet adjustment mechanism 4 and second air inlet adjustment mechanism 5 to drive first air intake panel 2 and second air intake panel 3 and rotate around casing 1, make first air intake 11 and second air intake 12 shield, external dust can't fall into in the air inlet this moment, has reduced two air conditioners's cleaning cycle, and the life of air conditioner is also longer, and user experience is better. When the double-air-inlet air conditioner is used, the first air inlet adjusting mechanism 4 and the second air inlet adjusting mechanism 5 are driven, so that the first air inlet panel 2 and the second air inlet panel 3 are driven to rotate around the shell 1, and the first air inlet 11 and the second air inlet 12 are exposed. Depending on a specific function of the air conditioner or a specific operation state, only one of the first intake vent 11 or the second intake vent 12 may be exposed. For example, when the two air inlets of the air conditioner correspond to the air purification function and the air conditioning function respectively, only one air inlet may be exposed to purify air or adjust the indoor temperature, or the two air inlets may be exposed to purify air and adjust the indoor temperature at the same time.

In an embodiment, as shown in fig. 4, the first intake air adjusting mechanism 4 includes: a first driving member 41, a first gear 42 and a first power take-off member 43. The first driving member 41 includes a first driving member body 411 and a first output shaft 412 driven by the first driving member body 411, the first gear 42 is mounted on the first output shaft 412, one end of the first power output member 43 is connected to the first air inlet panel 2 and can extend out of and retract into the casing 1, the first power output member 43 includes a first rack 431, the first rack 431 is disposed along a side of the first power output member 43 close to the first output shaft 412, and the first gear 42 is in transmission connection with the first rack 431.

Specifically, since the first gear 42 is in transmission connection with the first rack 431 and rotates bidirectionally through the first output shaft 412, the first gear 42 is driven to rotate bidirectionally, and the first power output member 43 is driven to do telescopic motion. In the present embodiment, the first gear 42 is engaged with the first rack 431.

Optionally, one or more speed change gears may also be added between the first gear 42 and the first rack 431 in order to increase or decrease the speed of movement of the first pto 43.

In one embodiment, as shown in fig. 5, the second intake air adjusting mechanism 5 includes: a second driving member 51, a second gear 52 and a second power output member 53. The second driving member 51 includes a second driving member body 511 and a second output shaft driven by the second driving member body 511, the second gear 52 is mounted on the second output shaft, one end of the second power output member 53 is connected to the second air inlet panel 3, and the one end can extend out of and retract into the casing 1, the second power output member 53 includes a second rack 531, the second rack 531 is disposed along a side of the second power output member 53 close to the second output shaft, and the second gear 52 is in transmission connection with the second rack 531.

Specifically, the second gear 52 is in transmission connection with the second rack 531, and the second output shaft rotates bidirectionally, so that the second gear 52 is driven to rotate bidirectionally, and the second power output part 53 is driven to do telescopic motion. In the present embodiment, the second gear 52 is engaged with the second rack 531. Optionally, one or more speed change gears may also be added between the second gear 52 and the second rack 531 in order to increase or decrease the speed of movement of the second pto 53.

In an embodiment, as shown in fig. 4, the first intake adjusting mechanism 4 further includes a first housing 44 and a second housing 45. The second housing 45 is disposed opposite to the first housing 44, and an accommodating space for accommodating the first gear 42 and the first power output member 43 is formed between the second housing 45 and the first housing 44. The first housing 44 and/or the second housing 45 are provided with a telescopic opening communicating with the accommodating space for the first power output member 43 to perform telescopic movement, wherein the first driving member body 411 is installed on one side of the first housing 44 away from the second housing 45, and the first output shaft penetrates through the first housing 44 and extends into the accommodating space.

Specifically, the first housing 44 and the second housing 45 are disposed opposite to each other, and an accommodating space for accommodating the first gear 42 and the first power output member 43 is formed. The dust can be effectively prevented from falling into the transmission structure, the transmission efficiency is prevented from being influenced by the dust, and the service life of the double-air-inlet air conditioner can be prolonged.

Further, as shown in fig. 4, the first housing 44 is detachably connected to the second housing 45 for easy maintenance and cleaning. Wherein, the mode of connection can be dismantled in the realization has the multiple, for example bond, draw-in groove and card key connection, screw thread screw are connected etc. as long as realize that first casing 44 can dismantle with second casing 45 and be connected can, the utility model discloses do not limit to this.

In an embodiment, as shown in fig. 5, the second intake adjusting mechanism 5 further includes a third housing 54 and a fourth housing 55. The fourth housing 55 and the third housing 54 are disposed opposite to each other, and an accommodating space for accommodating the second gear 52 and the second power output member 53 is formed between the fourth housing 55 and the third housing 54. The third casing 54 and/or the fourth casing 55 are provided with a telescopic opening communicated with the accommodating space for the second power output member 53 to perform telescopic movement, wherein the second driving member body 511 is installed on one side of the third casing 54 far away from the fourth casing 55, and the second output shaft penetrates through the third casing 54 and extends into the accommodating space.

Specifically, the third housing 54 is disposed opposite to the fourth housing 55, and an accommodating space for accommodating the second gear 52 and the second power output member 53 is formed. The dust can be effectively prevented from falling into the transmission structure, the transmission efficiency is prevented from being influenced by the dust, and the service life of the double-air-inlet air conditioner can be prolonged.

Further, as shown in fig. 5, the third housing 54 is detachably connected to the fourth housing 55 for easy maintenance and cleaning. Wherein, the mode that the connection can be dismantled in the realization has the multiple, for example bond, draw-in groove and card key connection, screw thread screw are connected etc. as long as realize that third casing 54 can be dismantled with fourth casing 55 and be connected can, the utility model discloses do not limit to this.

In an embodiment, as shown in fig. 4, a first mounting shaft extends from one surface of the second housing 45 facing the first housing 44, a side of the first gear 42 away from the first driving member 41 is mounted on the first mounting shaft, and the first gear 42 rotates around the first mounting shaft.

When the first driving member 41 rotates the first gear 42, the first gear 42 is likely to shake due to centrifugal force. Through implementing this embodiment, install the first gear 42 in first installation axle with the one side that is kept away from first driving piece 41, improved the stationarity when first gear 42 rotates, when having reduced the noise, prolonged the life of first gear 42.

In an embodiment, as shown in fig. 5, a second mounting shaft 551 extends from one surface of the fourth housing 55 facing the third housing 54, a side of the second gear 52 away from the second driving element 51 is mounted on the second mounting shaft 551, and the second gear 52 rotates around the second mounting shaft 551.

When the second driving member 51 rotates the second gear 52, the second gear 52 is likely to shake due to centrifugal force. By implementing the embodiment, the side of the second gear 52 far away from the second driving element 51 is mounted on the second mounting shaft 551, so that the smoothness of the rotation of the second gear 52 is increased, the noise is reduced, and the service life of the second gear 52 is prolonged.

In one embodiment, as shown in fig. 4, the first and second housings 44 and 45 are provided with a first guide groove 441 along a predetermined path of the first power output member 43 on a surface thereof opposite to the first power output member 43, and the first power output member 43 is provided with a first protrusion 432 on a surface thereof opposite to the first and second housings 44 and 45, and the first protrusion 432 extends into the first guide groove 441.

When the first driving member 41 drives the first power output member 43 to perform the telescopic movement, a fixed movement path is formed, along which the first power output member 43 performs the telescopic movement, and the movement path is the predetermined path of the first power output member 43.

Specifically, the first guide groove 441 is matched with the first protrusion 432 to guide the first power output member 43, so that the first power output member 43 moves more stably, and the first air inlet panel 2 is prevented from being clamped and being incapable of rotating due to the fact that the first power output member is separated from the preset movement track.

Optionally, a second guide groove is formed on a surface of the first power output element 43 opposite to the first housing 44 and the second housing 45, the second guide groove being formed along a predetermined path of the first power output element 43, and a second protrusion is formed on a surface of the first housing 44 and the second housing 45 opposite to the first power output element 43, and the second protrusion extends into the second guide groove.

Specifically, the second guide groove is matched with the second bump to guide the first power output part 43, so that the first power output part 43 moves more stably, and the first air inlet panel 2 is prevented from being clamped and cannot rotate due to the fact that the first power output part is separated from the preset movement track.

In one embodiment, as shown in fig. 5, the third guide groove 541 is disposed on the surface of the third housing 54 and the fourth housing 55 opposite to the second power output 53 along the predetermined path of the second power output 53, the third protrusion 532 is disposed on the surface of the second power output 53 opposite to the third housing 54 and the fourth housing 55, and the third protrusion 532 extends into the third guide groove 541.

When the second driving member 51 drives the second power output member 53 to perform telescopic movement, a fixed movement path is formed, and the second power output member 53 performs telescopic movement along the movement path, which is a predetermined path of the second power output member 53.

Specifically, the third guide groove 541 is matched with the third bump 532 to guide the second power output member 53, so that the second power output member 53 moves more stably, and the second air inlet panel 3 is prevented from being clamped and being incapable of rotating due to the fact that the second power output member is separated from the preset movement track.

Optionally, a surface of the second power output element 53 opposite to the third casing 54 and the fourth casing 55 is provided with a fourth guide groove arranged along the predetermined path of the second power output element 53, a surface of the third casing 54 and the fourth casing 55 opposite to the second power output element 53 is provided with a fourth protrusion, and the fourth protrusion extends into the fourth guide groove.

Specifically, the fourth guide groove is matched with the fourth bump to guide the second power output part 53, so that the second power output part 53 moves more stably, and the second air inlet panel 3 is prevented from being clamped and cannot rotate due to the fact that the second power output part is separated from the preset movement track.

In one embodiment, as shown in fig. 4, the first power output element 43 is provided with a first elongated guiding hole 433 disposed along a predetermined path thereof, the first housing 44 is provided with a first guiding element 46 cooperating with the first elongated guiding hole 433, and the first guiding element 46 abuts against a hole wall of the first elongated guiding hole 433.

Specifically, the first strip guide hole 433 is matched with the first guide member 46 to guide the first power output member 43, so that the first air inlet panel 2 is prevented from being clamped and being incapable of rotating due to the fact that the first power output member is separated from the preset movement track.

In an exemplary embodiment, as shown in fig. 4, the first guide member 46 is a first roller rotatably mounted to the first housing 44. Because the rolling friction force is smaller than the sliding friction force, the first roller is used as the first guide piece 46, so that the friction force between the first guide piece 46 and the hole wall of the first strip guide hole 433 when the first power output piece 43 does telescopic motion can be reduced, the first power output piece 43 can move more stably, and the service life of the double-air-inlet air conditioner is prolonged.

Further, as shown in fig. 4 and 6, a first sliding track 461 is disposed along the circumferential surface of the first roller, and the first sliding track 461 is attached to the hole wall of the first elongated guiding hole 433.

Specifically, utilize the pore wall of first slide 461 cooperation first rectangular guiding hole 433, prevent that the gyro wheel from breaking away from first rectangular guiding hole 433, not only fixed the orbit of first power take off 43, prevent that first power take off 43 from derailing, avoid appearing because of first air inlet adjustment mechanism 4 became invalid and then lead to first air intake panel 2 to block the unable pivoted condition, still increased the steadiness when the gyro wheel rolls, reduced the noise.

Further, as shown in fig. 4, a third mounting shaft 442 extending toward the second housing is disposed on a surface of the first housing 44 facing the second housing 45, the first roller is mounted on the third mounting shaft 442, and a first blind hole for the third mounting shaft 442 to extend into is disposed on a surface of the second housing 45 facing the first housing 44.

When the first roller rotates, the third mounting shaft 442 and the first roller are prone to generate vibration due to centrifugal force. Through implementing this embodiment, install three installation axles 442 in first blind hole, restricted the vibrations of third installation axle 442 through the blind hole to increased the steadiness when first gyro wheel rolls, reduced the noise, and further fixed the orbit of first power take off 43.

In one embodiment, as shown in fig. 5, the second power output member 53 is provided with a second elongated guide hole 533 along a predetermined path thereof, the third housing 54 is provided with a second guide member 56 cooperating with the second elongated guide hole 533, and the second guide member 56 abuts against a hole wall of the second elongated guide hole 533.

Specifically, the second elongated guide hole 533 is used to cooperate with the second guide member 56 to guide the second power output member 53, so as to prevent the second air intake panel 3 from being jammed and unable to rotate due to being separated from the predetermined movement track.

In a particular embodiment, as shown in fig. 5, the second guide 56 is a second roller that is rotatably mounted to the third housing 54. Because the rolling friction force is smaller than the sliding friction force, the second roller is used as the second guide member 56, which can reduce the friction force between the second guide member 56 and the hole wall of the second strip guide hole 533 when the second power output member 53 makes telescopic motion, so that the second power output member 53 can move more stably, and the service life of the double-inlet air conditioner is prolonged.

Further, as shown in fig. 4 and 7, a second slide 561 having a concave shape is provided along the circumferential surface of the second roller, and the second slide 561 is attached to the hole wall of the second elongated guide hole 533.

Specifically, utilize the pore wall of second slide 561 cooperation second rectangular guiding hole 533, prevent that the gyro wheel from breaking away from second rectangular guiding hole 533, not only fixed the orbit of second power take off 53, prevent that second power take off 53 derails, avoid appearing and further lead to second air intake panel 3 to block the unable pivoted condition because of second air inlet adjustment mechanism 5 became invalid, still increased the steadiness when the gyro wheel rolls, reduced the noise.

Further, as shown in fig. 5, a fourth mounting shaft extending toward the fourth housing 55 is disposed on a surface of the third housing 54 facing the fourth housing 55, the second roller is mounted on the fourth mounting shaft, and a second blind hole 552 for the fourth mounting shaft to extend into is disposed on a surface of the fourth housing 55 facing the third housing 54.

When the second roller wheel rotates, the fourth installation shaft and the second roller wheel are easy to vibrate due to the centrifugal force. Through implementing this embodiment, install the four installation axles in second blind hole 552, restricted the vibrations of fourth installation axle through second blind hole 552 to increased the steadiness when the second gyro wheel rolls, reduced the noise, and further fixed the orbit of second power take-off 53.

In one embodiment, as shown in fig. 1-3, the dual inlet air conditioner includes two first inlet air adjusting mechanisms 4, and the two first inlet air adjusting mechanisms 4 are respectively connected to two ends of the first inlet panel 2.

The existing air inlet panel is made of plastic materials and has certain deformation capacity, if only one end of the air conditioner is provided with a first air inlet adjusting mechanism 4, one end, far away from the first air inlet adjusting mechanism 4, of the first air inlet panel 2 is affected by elastic deformation, and the rotation angle of the first air inlet adjusting mechanism relative to the shell 1 is small. If set up a first air inlet adjustment mechanism 4 in the middle part of the air conditioner, can solve above-mentioned problem to a certain extent, but can occupy the space that is in the core component in the middle part of the air conditioner, the design degree of difficulty is big, and the design cost is high. Through implementing this embodiment, set up first air inlet adjustment mechanism 4 at the both ends of two air inlet air conditioners, not only the design cost is low, can also guarantee that the holistic turned angle of first air intake panel 2 is unanimous, has increased the exposed degree of first air intake 11, and then has increased the intake of first air intake 11.

In one embodiment, as shown in fig. 1-3, the dual inlet air conditioner includes two second inlet air adjusting mechanisms 5, and two second inlet air adjusting devices 4 are respectively connected to two ends of the second inlet panel 3.

The existing air inlet panel is made of plastic materials and has certain deformation capacity, if only one end of the air conditioner is provided with a second air inlet adjusting mechanism 5, one end, far away from the second air inlet adjusting mechanism 5, of the second air inlet panel 3 is affected by elastic deformation, and the rotation angle of the second air inlet panel relative to the shell 1 is small. If set up a second air inlet adjustment mechanism 5 in the middle part of the air conditioner, can solve above-mentioned problem to a certain extent, but can occupy the space that is in the core component in the middle part of the air conditioner, the design degree of difficulty is big, and the design cost is high. Through implementing this embodiment, set up second air inlet adjustment mechanism 5 at the both ends of two air inlet air conditioners, not only the design cost is low, can also guarantee that the holistic turned angle of second air intake panel 3 is unanimous, has increased the exposed degree of second air intake 12, and then has increased the intake of second air intake 12.

In an embodiment, as shown in fig. 1 to 3, the first air inlet panel 2 and the second air inlet panel 3 are respectively disposed on two adjacent sides of the dual-inlet air conditioner, and one end of the first air inlet panel 2 away from the second air inlet panel 3 is rotatably connected to the casing 1, and one end of the second air inlet panel 3 away from the first air inlet panel 2 is rotatably connected to the casing 1.

Specifically, when first air inlet panel 2 and second golden wind panel 3 are all in the open mode, the one end that first air intake panel 2 and second air intake panel 3 are adjacent can be lifted, and the wind of external environment can be gathered earlier, gets into first air intake 11 or second air intake afterwards, is favorable to the air inlet of air intake.

The embodiment of the utility model provides a show a two air conditioners, as shown in fig. 1-3, rotate through setting up and connect in the first air intake panel 2 and the second air intake panel 3 of casing, make first air intake 11 and second air intake 12 homoenergetic shade or be exposed, when two air conditioners stop using, first air intake 11 and second air intake 12 homoenergetic shade, external dust can't fall into in the air intake, the cleaning cycle of two air conditioners has been reduced, the life of air conditioner is also longer, user experience is better. Wherein, two air inlet air conditioners still include first air inlet adjustment mechanism 4 and second air inlet adjustment mechanism 5, and first air inlet adjustment mechanism 4 is installed in casing 1 to be connected with casing 1 and first air intake panel 2, first air inlet adjustment mechanism 4 is used for driving the relative casing 1 rotation of first air intake panel 2. The second air inlet adjusting mechanism 5 is installed on the casing 1 and connected with the second air inlet panel 3, and the second air inlet adjusting mechanism 5 is used for driving the second air inlet panel 3 to rotate relative to the casing 1.

It should be understood that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same, and those skilled in the art can modify the technical solutions described in the above embodiments, or make equivalent substitutions for some technical features; and all such modifications and alterations should fall within the scope of the appended claims.

Claims (10)

1. The utility model provides a two air inlet air conditioners, its includes the casing, first air intake and second air intake have been seted up on the casing, its characterized in that still includes:

the first air inlet panel is rotatably connected to the shell and used for shielding or exposing the first air inlet;

the first air inlet adjusting mechanism is arranged on the shell and connected with the first air inlet panel, and the first air inlet adjusting mechanism is used for driving the first air inlet panel to rotate relative to the shell;

the second air inlet panel is rotatably connected to the shell and is used for shielding or exposing the second air inlet;

and the second air inlet adjusting mechanism is arranged on the shell and connected with the second air inlet panel, and is used for driving the second air inlet panel to rotate relative to the shell.

2. The dual intake air conditioner of claim 1, wherein the first intake air adjustment mechanism and the second intake air adjustment mechanism each comprise:

the driving piece comprises a driving piece body and an output shaft driven by the driving piece body;

a gear mounted on the output shaft of the driving member;

and one end of the power output part is connected with the first air inlet panel or the second air inlet panel, the other end of the power output part can extend out of and retract into the shell, the power output part comprises a rack, the rack is arranged along one side, close to the output shaft, of the power output part, and the gear is in transmission connection with the rack.

3. A dual inlet air conditioner according to claim 2 wherein said first inlet air adjustment mechanism and said second inlet air adjustment mechanism each further include:

a first housing;

the second shell is opposite to the first shell, an accommodating space for accommodating the gear and the power output part is formed between the second shell and the first shell, and a telescopic opening communicated with the accommodating space is formed in the first shell and/or the second shell;

the driving piece body is arranged on one side, far away from the second shell, of the first shell, and the output shaft penetrates through the first shell and extends into the accommodating space.

4. A double intake air conditioner according to claim 3 wherein: the surfaces of the first shell and the second shell, which are opposite to the power output part, are provided with first guide grooves arranged along a preset path of the power output part, and the surfaces of the power output part, which are opposite to the first shell and the second shell, are provided with first lugs, and the first lugs extend into the first guide grooves; alternatively, the first and second electrodes may be,

the surface of the power output part opposite to the first shell and the second shell is provided with a second guide groove arranged along the preset path of the power output part, and the surface of the first shell and the second shell opposite to the power output part is provided with a second lug which extends into the second guide groove.

5. A double intake air conditioner according to claim 3 wherein: the power take off spare is seted up along the rectangular guiding hole that its predetermined route set up, install on the first casing with the guide that rectangular guiding hole cooperation was used, the guide paste lean on in the pore wall of rectangular guiding hole.

6. A double intake air conditioner according to claim 5 wherein: the guide member is a roller, and the roller is rotatably mounted to the first housing.

7. A double intake air conditioner according to claim 6 wherein: the gyro wheel is along its global sunken slide that forms, the slide with the pore wall laminating of rectangular guiding hole.

8. A double intake air conditioner according to any one of claims 3-7 wherein the first housing is removably connected to the second housing.

9. A dual inlet air conditioner according to claim 8 and including two said first inlet air adjustment mechanisms and two said second inlet air adjustment mechanisms, said two first inlet air adjustment devices being connected to respective ends of said first air inlet panel and said two second inlet air adjustment devices being connected to respective ends of said second air inlet panel.

10. A double intake air conditioner according to claim 9 wherein: first air intake panel with second air intake panel is located respectively two adjacent sides of double air inlet air conditioner, just first air intake panel is kept away from the one end of second air intake panel with the casing rotates to be connected, second air intake panel is kept away from the one end of first air intake panel with the casing rotates to be connected.

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