CN216281713U - Air conditioner - Google Patents

Abstract

The utility model discloses an air conditioner, which comprises a machine body, a first air outlet and a second air outlet, wherein the machine body is provided with the second air outlet; the air outlet structure comprises a first air outlet which moves relative to the machine body, and the first air outlet in the use state is positioned at the top of the machine body; the first air outlet system is used for providing air flow to the first air outlet; and the second air outlet system is used for providing air flow to the second air outlet, and the working air speed of the first air outlet system is greater than that of the second air outlet system. Thereby provide the air current that amount of wind and wind speed are bigger through first air outlet, can carry out quick adjustment to indoor temperature, can provide comfortable air current through the second air outlet, first air-out system can use the partial energy of second air-out system to strengthen the accuse temperature ability of first air-out system simultaneously, reduces the accuse temperature ability of second air-out system, makes its air-out more comfortable for the air conditioner can have multiple usage pattern simultaneously.

Description

Air conditioner

Technical Field

The utility model relates to the technical field of air conditioning equipment, in particular to an air conditioner.

Background

The air conditioner can regulate and control the indoor temperature and brings comfort to daily life and work. Because the existing air conditioner only has one air outlet, the temperature can be adjusted according to a set single mode during temperature adjustment, air flows in different modes cannot be generated simultaneously, and the existing air conditioner cannot adapt to different user groups simultaneously.

SUMMERY OF THE UTILITY MODEL

To solve at least one of the problems of the prior art described above, according to an aspect of the present invention, there is provided an air conditioner including: the machine body is provided with a second air outlet; the air outlet structure comprises a first air outlet which moves relative to the machine body, and the first air outlet in the use state is positioned at the top of the machine body; the first air outlet system is arranged in the machine body, corresponds to the first air outlet and is used for providing air flow for the first air outlet; and the second air outlet system is arranged in the machine body, corresponds to the second air outlet and is used for providing air flow to the second air outlet, and the working air speed of the first air outlet system is greater than that of the second air outlet system.

Therefore, when the air conditioner is used, when a user needs to start a rapid temperature control mode to rapidly adjust the temperature of an indoor partial area, the first air outlet system is operated to exhaust air from the first air outlet, and because the first air outlet and the second air outlet are sequentially arranged on the machine body from top to bottom and the working air speed of the first air outlet system is higher than that of the second air outlet system, high-speed temperature control airflow sent by the first air outlet is blown out from the top of the air conditioner to the position required by the user rapidly and can be blown to a farther position, so that the air conditioner not only can achieve a rapid temperature adjustment function, but also can be suitable for more users and achieve a rapid temperature adjustment function; after the first air-out system works for a certain time, the indoor air temperature is effectively regulated and controlled, the second air-out system is operated to exhaust air from the second air outlet, the second air-out system sucks indoor air, low-speed temperature control airflow generated by the second air-out system is blown out from the lower position of the air conditioner through the second air outlet, the indoor temperature is kept stable under the working conditions of low wind speed and low energy consumption, a user can adjust the temperature adjusting efficiency of the air conditioner according to the change of actual needs, and therefore wind with different wind speeds and wind amounts is blown out through different air outlets, the requirements of different customers can be met simultaneously, and the air conditioner is more convenient for the user to use.

In some embodiments, the first air outlet system comprises a first driving fan and a first heat exchanger;

the first heat exchanger and the first driving fan are sequentially arranged on an air path of the first air outlet system along the air outlet direction of the first air outlet system, the first driving fan is provided with a first air suction port and a first wind power generation port, the first air suction port is used for sucking air flow, the first wind power generation port is communicated with the first air outlet, and the first heat exchanger is used for adjusting the temperature of air sucked by the first air suction port.

Therefore, the first heat exchanger and the first driving fan are sequentially arranged on the air path of the first air outlet system along the air outlet direction of the first air outlet system, when the first air outlet system works, the first driving fan rotates to generate strong suction to suck air, and after the air is subjected to heat exchange through the first heat exchanger, the air is blown out from the first air outlet through the first wind power generation port.

In some embodiments, the second air outlet system includes a second heat exchanger and a second driving fan, the second heat exchanger and the second driving fan are sequentially arranged on an air path of the second air outlet system along an air outlet direction of the second air outlet system, the second driving fan has an air suction path and an air blowing path, the second heat exchanger is located on the air suction path, and is used for adjusting the temperature of air in the air suction path and then entering the air blowing path, and the air blowing path is communicated with the second air outlet.

Like this, second drive fan during operation produces induced draft gas circuit and the gas circuit of blowing in the gas circuit direction of second air-out system, and the second heat exchanger is located the gas circuit of induced draft to make indoor air inhaled the back by the air conditioner, earlier through the processing of second heat exchanger, blow away by second drive fan after the regulation and control temperature.

In some embodiments, a second drainage port is further disposed on the machine body, and the drainage port is used for communicating the second air outlet and the first air inlet.

Like this, still set up the second drainage mouth through on the organism, when blowing out the air current in the second air-out system, by the panel interception that keeps out the wind of organism front portion, the air current flows back to from flowing back in the second drainage mouth, being blown out from first air outlet again after being inhaled the enhancement by first drive fan, in order to obtain to strengthen temperature regulation and control effect.

In some embodiments, the drainage device further comprises an opening and closing mechanism for closing or opening the second drainage port, the opening and closing mechanism comprises a driving part and an opening and closing door, the driving part is arranged on the machine body, and the opening and closing door is rotatably connected with the machine body so as to open or close the second drainage port by the driving of the driving part.

Thus, by arranging the opening and closing door and driving the second drainage port to be closed or opened through the driving piece, when the opening and closing door closes the second drainage port, the first air outlet system can blow air to the first air outlet, and the second air outlet system can blow air to the second air outlet, so that the respective use functions of the first air outlet and the second air outlet are ensured; when the second drainage port is opened during opening and closing the door, the air flow blown out of the second air outlet system is intercepted by the wind shielding panel at the front part of the machine body, and the air flow flows back through the second drainage port and is sucked into the first driving fan to be reinforced and then blown out of the first air outlet, so that the temperature regulation and control effect is enhanced.

In some embodiments, the wind outlet structure further comprises a lifting wind outlet assembly and a lifting driving assembly; the lifting air outlet assembly is movably arranged on the machine body, and the lifting driving assembly drives the lifting air outlet assembly to extend or retract relative to the machine body; when the lifting air outlet assembly extends out relative to the machine body, the lifting air outlet assembly forms the first air outlet in a conducting state at the top of the machine body; when the lifting air outlet assembly retracts relative to the machine body, the first air outlet is closed, and the air flow generated by the first air outlet system flows to the second air outlet.

Like this, when the air conditioner was opened, lift drive assembly drive lift air-out subassembly stretched out for the organism, and the organism forms the first air outlet that is in the on-state, has formed the first air outlet that supplies the top direction air-out of air conditioner on the messenger's organism, and when the drive assembly drive lift air-out subassembly was withdrawn for the organism, the air current of first air-out system blew out from the second air outlet.

In some embodiments, the lifting air outlet assembly is slidably connected with respect to the machine body.

Therefore, when the air conditioner needs to be used, the lifting driving assembly is arranged to drive the lifting air outlet assembly to extend and open relative to the machine body; when the air conditioner is closed, the lifting driving assembly drives the lifting air outlet assembly to extend and retract relative to the machine body, so that the whole air conditioner has a smaller occupied space, and the lifting air outlet assembly is prevented from being exposed in the air for a long time and being polluted by impurities such as dust and the like.

In some embodiments, the lift blower assembly comprises a first plate, a second plate, and a third plate; the second plate and the third plate are arranged at intervals and are respectively connected with the machine body in a sliding mode, and the first plate is connected between the second plate and the third plate, so that the lifting air outlet assembly in the extending state forms the first air outlet relative to the machine body.

Therefore, when the air conditioner is opened, the lifting driving assembly drives the second plate and the third plate to stretch relative to the machine body, so that a first air outlet is formed and the first air outlet is closed.

In some embodiments, the body is provided with a first sliding groove and a second sliding groove which are spaced; the lifting driving assembly drives the second plate to slide relative to the first sliding groove and the third plate to slide relative to the second sliding groove respectively.

Therefore, the machine body is provided with the first sliding groove and the second sliding groove, the second plate is slidably arranged in the first sliding groove, the third plate is slidably arranged in the second sliding groove, when the lifting air outlet assembly extends out relative to the machine body, the first plate, the second plate and the third plate all move away from the machine body, and then the frame-mouth-shaped first air outlet extends out from the machine body from inside to outside and is communicated with the outside atmosphere; when the air conditioner is closed, the lifting air outlet assembly retracts into the machine body, then the frame-mouth-shaped first air outlet retracts into the machine body and is isolated from the outside atmosphere, and therefore the lifting driving assembly is driven to extend out or retract relative to the machine body through the lifting air outlet assembly to control the first air outlet to be switched on or switched off.

In some embodiments, the air conditioner further includes a second wind direction adjusting mechanism, and the second wind direction adjusting mechanism is configured to adjust a wind outlet direction of the second air outlet.

Like this, adjust the wind direction of second air outlet through second wind direction adjustment mechanism for the wind current covers wider scope, and more users of being convenient for use.

Drawings

Fig. 1 is an exploded view of an air conditioner according to an embodiment of the present invention;

fig. 2 is a front view of the air conditioner shown in fig. 1;

FIG. 3 is a cross-sectional view taken along A-A of FIG. 2;

FIG. 4 is a schematic view of the first outlet of the air conditioner of FIG. 1 in a retracted closed state;

fig. 5 is an exploded schematic view of the lifting air-out assembly in fig. 1.

Wherein the reference numerals have the following meanings:

an air conditioner 10;

the air conditioner comprises a machine body 1, a first air outlet 11, a second drainage port 111, a second air outlet 12, a front shell 13, a rear shell 14, a base 15, an installation space 16, a first sliding groove 17, a second sliding groove 18, a first air supply port 19 and a second air supply port 20;

the air outlet structure 2, the lifting air outlet assembly 21, the first plate 211, the second plate 212, the third plate 213 and the lifting driving assembly 22;

the first air outlet system 3, the first driving fan 31, the first air suction opening 311, the first wind power generation opening 312, the first heat exchanger 32 and the air suction opening driving assembly 33;

a second air outlet system 4, a second driving fan 41 and a second heat exchanger 42;

a first adjusting mechanism 5, a first air deflector 51, a first air guiding driving device 52, a second air deflector 53, a second air guiding driving device 54, a third air deflector 55, and a third air guiding driving device 56;

the second wind direction adjusting mechanism 6, the air deflector 61 and the air deflector driving piece 62;

the mounting seat 7 and the first drainage port 71;

a wind shielding panel 8;

an opening and closing mechanism 9, a driving member 91, and an opening and closing door 92.

Detailed Description

For better understanding and implementation, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 5, an air conditioner 10 provided by the present invention includes a machine body 1, an air outlet structure 2, a first air outlet system 3, and a second air outlet system 4.

Referring to fig. 1 and 3, the body 1 is provided with a second air outlet 12; the air outlet structure 2 comprises a first air outlet 11 which moves relative to the machine body 1, and the first air outlet 11 in the use state is positioned at the top of the machine body 1 and communicated with a second air outlet 12; the air outlet system 3 is arranged in the machine body 1, corresponds to the first air outlet 11 and is used for providing air flow to the first air outlet 11; the second air outlet system 4 is disposed in the machine body 1, and is disposed corresponding to the second air outlet 12, and configured to provide an air flow to the second air outlet 12, and a working air speed of the first air outlet system 3 is greater than a working air speed of the second air outlet system 4.

Thus, when the air conditioner 10 is used, when a user needs to start the rapid temperature control mode to rapidly adjust the temperature of an indoor partial area, the first air outlet system 3 is operated to outlet air from the first air outlet 11, because the first air outlet 11 and the second air outlet 12 are sequentially arranged on the machine body 1 from top to bottom, and the working air speed of the first air outlet system 3 is greater than that of the second air outlet system 4, a high-speed temperature control air flow emitted by the first air outlet 11 is blown out from the top of the air conditioner 10 and then rapidly blown to a position required by the user, and can be blown to a farther position, so that the rapid temperature adjustment function can be achieved, and the air conditioner is suitable for more users; waiting for first air-out system 3 to work for a certain time, indoor temperature obtains operating second air-out system 4 and from second air outlet 12 air-out after effectively regulating and control, second air-out system 4 inhales indoor air after, the produced low-speed temperature control air current of second air-out system 4 blows away from the below position of air conditioner through second air outlet 12, keep indoor temperature stable under the operating condition of low wind speed and low energy consumption, the user can adjust the temperature regulation efficiency of air conditioner according to the change of actual need, thereby blow out the wind of different wind speeds and amount of wind through the air outlet of difference, can satisfy different customers' demand simultaneously, more facilitate the user and use.

Referring to fig. 1, in an embodiment of the present invention, the machine body 1 includes a front shell 13, a rear shell 14 and a base 15, the front shell 13 and the rear shell 14 are respectively installed on the base 15, the front shell 13 and the rear shell 14 enclose to form an installation space 16, and the first air outlet system 3 and the second air outlet system 4 are accommodated in the installation space 16.

Referring to fig. 5, in an embodiment of the present invention, the air outlet structure 2 includes a lifting air outlet assembly 21 and a lifting driving assembly 22, the lifting air outlet assembly 21 is movably disposed on the machine body 1, the lifting driving assembly 22 is configured to drive the lifting air outlet assembly 21 to extend or retract relative to the machine body 1, so that the lifting air outlet assembly 21 in the extended state forms a first air outlet 11 in a conducting state at the top of the machine body 1, and the lifting air outlet assembly 21 in the retracted state closes the first air outlet 11, at this time, the air flow generated by the first air outlet system 3 flows to the second air outlet 12. Fig. 2 shows the lifting air-out assembly 21 in the extended state, fig. 4 shows the lifting air-out assembly 21 in the retracted state, and fig. 5 shows a structure diagram of the lifting air-out assembly 21.

Thus, when the air conditioner is turned on, the lifting driving assembly 22 drives the lifting air outlet assembly 21 to extend out relative to the machine body 1, and the machine body 1 forms the first air outlet 11 in a conducting state, that is, the first air outlet 11 for discharging air in the top direction of the air conditioner 10 is formed on the machine body 1; in addition, when the user needs to blow the wind of the first wind outlet system 3 out through the second wind outlet 12, so that the wind outlet direction of the air conditioner is in the machine body 1 in the rapid temperature adjustment mode, the lifting driving component 22 drives the lifting wind outlet component 21 to retract relative to the machine body 1, the first wind outlet 11 is closed, and the wind generated by the first wind outlet system 3 flows to the second wind outlet 12. Wherein, the lifting air-out component 21 is arranged on the machine body 1 in a slidable movable manner or a rotatable manner.

Specifically, the lifting air outlet assembly 21 in this embodiment is slidably connected to the machine body 1, so that when the air conditioner 10 needs to be used, the lifting driving assembly 22 drives the lifting air outlet assembly 21 to extend out of the machine body 1; when the air conditioner 10 is turned off, the lifting driving assembly 22 drives the lifting air outlet assembly 21 to extend and retract relative to the machine body 1, so that the whole air conditioner 10 has a smaller occupied space, and the lifting air outlet assembly 22 is prevented from being polluted by impurities such as dust and the like when being exposed in the air for a long time.

It can be understood that, at this time, the lifting driving assembly 21 in this embodiment may adopt a form of an air cylinder, and the extension and retraction of the lifting air-out assembly are driven by the extension and retraction of an output shaft of the air cylinder, or in other embodiments, the lifting air-out assembly is driven to lift relative to the machine body by adopting a mode of a motor and a ball screw.

Specifically, referring to fig. 5, the lifting air-out assembly 21 includes a first plate 211, a second plate 212 and a third plate 213, the second plate 212 and the third plate 213 are disposed at an interval and are respectively connected to the machine body 1 in a sliding manner, and the first plate 211 is connected between the second plate 212 and the third plate 213, so that the lifting air-out assembly 21 in the extended state forms a first air outlet 11 relative to the machine body 1.

In this embodiment, the second plate 212 and the third plate 213 are disposed in parallel, so as to facilitate the up-and-down movement of the whole lifting/lowering air outlet assembly 21.

Correspondingly, referring to fig. 5, the machine body 1 is provided with a first sliding chute 17 and a second sliding chute 18, and the lifting driving assembly 22 drives the second plate 212 to slide relative to the first sliding chute 17 and the third plate 213 to slide relative to the second sliding chute 18 respectively.

That is, the second plate 212 is slidably disposed in the first sliding slot 17, and the third plate 213 is slidably disposed in the second sliding slot 18, so that when the lifting driving assembly 22 drives the lifting air-out assembly 21 to move, the second plate 212 slides in the first sliding slot 17, and the third plate 213 slides in the second sliding slot 18.

Thus, because the machine body 1 is provided with the first sliding chute 17 and the second sliding chute 18, the second plate 212 is slidably disposed in the first sliding chute 17, and the third plate 213 is slidably disposed in the second sliding chute 18, when the lifting air-out assembly 21 extends out relative to the machine body 1, the first plate 211, the second plate 212, and the third plate 213 all move away from the machine body 1, and then the frame-mouth-shaped first air outlet 11 extends out from the machine body 1 from inside to outside and is communicated with the outside atmosphere; when the air conditioner 10 is closed, the lifting air-out assembly 21 retracts into the machine body 1, and then the frame-mouth-shaped first air outlet 11 retracts into the machine body and is isolated from the outside atmosphere, so that the lifting driving assembly 22 controls the conduction or the closing of the first air outlet 11 by driving the lifting air-out assembly 21 to extend or retract relative to the machine body 1, and at the moment, the wind power generated by the first air-out system 3 flows to the second air outlet 12, so that the mixed wind can be generated on the second air outlet 12.

In addition, in order to make the air outlet range from the first outlet 11 wider and be applicable to more users, the air conditioner in this embodiment further includes a first air direction adjusting mechanism 5, and the first air direction adjusting mechanism 5 is configured to adjust the air flow direction of the first outlet 11.

The first wind direction adjusting mechanism 5 is configured to adjust the wind flow direction of the first wind outlet 11, for example, the wind flow direction of the first wind outlet 11 may be adjusted to the left or the right, and the wind flow direction of the first wind outlet 11 may also be adjusted to the up or the down, so as to provide wind flows with different wind directions to a user.

Specifically, the first wind direction adjusting mechanism 5 in this embodiment is configured to drive the wind flow of the first wind outlet 11 to be adjusted to the left or the right, and may also be configured to drive the wind flow of the first wind outlet 11 to be adjusted to the up or the down, so as to provide the wind flow with different wind directions to the user.

In detail, in the present embodiment, the first wind direction adjustment mechanism 5 includes a first wind deflector 51 and a first wind guiding driving device 52, and the first wind guiding driving device 52 is configured to drive the first wind deflector 51 to swing up and down relative to the first plate 211, so that the first wind deflector 51 changes the flow direction of the wind flowing out of the first wind outlet 11.

Specifically, the first air deflector 51 is swingably provided on the first plate 211, and the first air guiding driving device 52 is provided for driving the first air deflector 51 to swing up and down according to a preset adjustment air direction. In this way, the first wind guiding driving device 52 can drive the first wind guiding plate 51 to swing correspondingly according to the preset wind direction adjustment by the user, so that the present invention has the function of adjusting the wind flow up and down.

The first wind guiding driving device 52 in this embodiment may be disposed in the first plate 211, for example, a driving motor and a transmission mechanism are disposed in connection with the first wind guiding plate 51 to drive the first wind guiding plate 51 to rotate, so as to save an installation space.

In the present embodiment, the first wind direction adjustment mechanism 5 includes the second wind deflector 53 and the second wind guiding and driving device 54, and the second wind guiding and driving device 54 is configured to drive the second wind deflector 53 to swing left and right with respect to the second plate 212.

Specifically, the second air guiding plate 53 is swingably provided on the second plate 212, and the second air guiding driving device 54 is provided for driving the second air guiding plate 53 to swing leftward or rightward. In this way, the second air guiding driving device 54 can drive the second air guiding plate 53 to swing left and right according to the preset wind direction adjustment by the user, so that the present invention has the function of adjusting left and right wind flow.

The second wind guiding driving device 54 in this embodiment may be disposed in the second plate 212, for example, a driving motor and a transmission mechanism are disposed in connection with the second wind guiding plate to drive the second wind guiding plate to rotate, so as to save the installation space.

In this embodiment, the first airflow direction adjusting mechanism 5 further includes a third air guiding plate 55 and a third air guiding driving device 56, and the third air guiding driving device 56 is configured to drive the third air guiding plate 55 to swing left and right with respect to the third plate 213.

Specifically, the third air deflector 55 is swingably provided on the third plate 213, and the third air guiding driving device 56 is provided for driving the third air deflector 55 to swing leftward or rightward. In this way, the third wind guiding driving device 56 can drive the third wind guiding plate 55 to swing correspondingly according to the preset wind direction adjustment by the user, and synchronously swing in the same direction in cooperation with the second wind guiding plate 53, so that the function of adjusting the left and right wind flow is enhanced.

The third wind guiding driving device 56 in this embodiment may be disposed in the third plate 213, for example, in a manner that the driving motor and the transmission mechanism are connected to the third wind guiding plate 55 to drive the third wind guiding plate to rotate, so as to save the installation space.

In this way, by providing the first air deflector 51 and the first air guiding driving device 52, the function of adjusting the air flow direction of the first air outlet 11 up and down is realized; the second air guide plate 53 and the second air guide driving device 54, and the third air guide plate 55 and the third air guide driving device 56 are provided to realize the function of adjusting the air flow direction of the first outlet 11 in the left-right direction.

Wherein, still include the panel 8 of keeping out the wind in this embodiment, the panel 8 of keeping out the wind sets up on the air-out side of second air outlet 12 to make the air current that the air conditioner produced block by the panel 8 of keeping out the wind after slowing down, spill over through second air outlet 12. In this way, the airflow generated by the air conditioner 10 is blocked by the wind shielding panel 8, and then overflows through the second air outlet 12 after being decelerated, so that the direct blowing feeling is reduced.

It can be understood that the air conditioner in this embodiment further includes a second air direction adjusting mechanism 6, where the second air direction adjusting mechanism 6 is used to adjust the air flow direction of the second air outlet 12, so that the air outlet range from the second air outlet 12 is wider and can be applied to more users.

Specifically, referring to fig. 2 and 4, the second wind direction adjusting mechanism 6 is disposed below the second wind outlet 12 for adjusting the wind flow below the second wind outlet 12.

The second wind direction adjusting mechanism 6 comprises a wind deflector 61 and a wind deflector driving piece 62; the air deflector 61 is disposed in the air outlet direction of the second outlet 12, and the air deflector driving member 62 is used for driving the air deflector 61 to move relative to the second outlet 12, for example, to move in a manner of swinging up and down, or swinging left and right, or rotating relative to the second outlet 12. Therefore, the air deflector driving piece 62 drives the air deflector 61 to move in the second air outlet 12, so that the air outlet direction of the second air outlet 12 is changed, the air outlet range is wider, and the air deflector can be applied to more users.

In this embodiment, the first air outlet system 3 and the second air outlet system 4 are both installed in the installation space 16, wherein the first air outlet system 3 is located above the second air outlet system 4.

Specifically, referring to fig. 1 and fig. 3, in an embodiment of the present invention, the first air outlet system 3 includes a first driving fan 31 and a first heat exchanger 32, the first heat exchanger 32 and the first driving fan 31 are sequentially arranged on an air path of the first air outlet system 3 along an air outlet direction of the first air outlet system 3, the first driving fan 31 has a first air inlet 311 and a first wind power generating opening 312, the first air inlet 311 is used for sucking an air flow, the first wind power generating opening 312 is communicated with the first air outlet 11, the first heat exchanger 32 is used for adjusting a temperature of air sucked by the first air inlet 311, and then the air is blown out by the first wind power generating opening 312. In this way, the first heat exchanger 32 and the first driving fan 31 are sequentially arranged on the air path of the first air outlet system 3 along the air outlet direction of the first air outlet system 3, when the first air outlet system 3 operates, the first driving fan 31 rotates to generate a strong suction force to suck air, and after the heat exchange of the first heat exchanger 32, the air is blown out from the first air outlet 11 through the first wind generating port 312. In the present embodiment, the specific type of the first driving fan 31 is a turbo fan, and in other embodiments, the specific type of the first driving fan 31 may be appropriately adjusted according to specific situations.

Referring to fig. 1, in an embodiment of the present invention, the body 1 is further provided with a second air outlet 111, and the second air outlet 111 is used for communicating the second air outlet 12 with the first air inlet 311. Like this, still set up second drainage mouth 111 on through organism 1, when blowing out the air current in second air-out system 4, by the anterior wind-break panel 8 interception of organism 1, the air current flows back to from second drainage mouth 111 backward flow, inhale the enhancement back again from first air outlet 11 by first drive fan 31 and blow out, in order to obtain to strengthen temperature regulation and control effect.

In addition, referring to fig. 1, in an embodiment of the present invention, in order to ensure that the first air outlet 11 and the second air outlet 12 can be used normally, the air conditioner 10 in this embodiment further includes an opening and closing mechanism 9 for closing or opening the second air drainage opening 111, the opening and closing mechanism 9 includes a driving member 91 and an opening and closing door 92, the driving member 91 is disposed on the machine body 1, and the opening and closing door 92 is rotatably connected to the machine body 1 to open or close the second air drainage opening 111 by the driving member 91. Thus, by arranging the switch door 92 and driving the second drainage port 111 to be closed or opened through the driving part 91, when the switch door 92 closes the second drainage port 111, the first air outlet system 3 can blow air to the first air outlet 11, and the second air outlet system 4 can blow air to the second air outlet 12, so that respective use functions of the first air outlet 11 and the second air outlet 12 are ensured; when the second air-out opening 111 is opened by the switch door 92, the air flow blown out from the second air-out system 4 is intercepted by the wind-shielding panel 8 at the front part of the machine body 1, and the air flow flows back through the second air-out opening 111, is sucked and reinforced by the first driving fan 31 and then is blown out from the first air outlet 11, so as to obtain the reinforced temperature regulation and control effect.

In detail, in the present embodiment, the second air guiding opening 111 is obliquely directed to the downstream position of the air outlet of the second driving fan 41, and a slope passage is formed on the front case 13 of the machine body 1.

In addition, in this embodiment, the first air outlet system 3 further includes an air inlet driving assembly 33, and the air inlet driving assembly 33 is configured to drive the first wind generating opening 312 of the first driving fan 31 to switch between the first air outlet 11 and the second air guiding opening 111. Like this, because the amount of wind that first air-out system 3 provided and the air current that cold volume is bigger, second air-out system 4 provides softer air current, when the air-out ability and the regulatory ability of air-out that need strengthen second air outlet 12, drive first wind-force generation mouth 312 of first drive fan 31 through inlet scoop drive assembly 33 and be towards second drainage mouth 111, because second drainage mouth 111 and second air outlet 12 are linked together, the air current of providing of first drive fan 31 will be blown out from second air outlet 12 to the air-out effect of second air outlet 12 has been strengthened.

The suction opening driving assembly 33 in this embodiment includes a driving motor 331, a driving gear (not shown in the figure) and a driven gear 333, wherein the driving gear is coaxially disposed on an output shaft of the driving motor 331, and the driving gear is engaged with the driven gear 333; the first driving fan 31 is pivotally disposed in the machine body 1, so that the first wind-force generation port 312 for driving the first driving fan 31 through the driving motor 231 is switched between the first wind outlet 11 and the second wind-guiding port 111, and when facing the first wind outlet 11, the wind-force flows out from the first wind outlet 11, and when facing the second wind-guiding port 111, the wind-force flows out from the second wind outlet 12, so as to enhance the temperature control effect of the second wind outlet 12.

Referring to fig. 1 and 3, in this embodiment, the second air outlet system 4 includes a second driving fan 41 and a second heat exchanger 42, the second heat exchanger 42 and the second driving fan 41 are sequentially arranged on an air path of the second air outlet system 4 along an air outlet direction of the second air outlet 12, the second driving fan 41 has an air suction path and an air blowing path, the second heat exchanger 42 is located on the air suction path, and is configured to adjust a temperature of air in the air suction path and then enter the air blowing path, and the air blowing path is communicated with the second air outlet 12. In other embodiments, the specific structure of the second air outlet system 4 may be adjusted according to actual conditions, that is, the second air outlet system may have both temperature control and air blowing functions. In this way, when the second driving fan 41 works, an air suction path and an air blowing path are generated in the air path direction of the second air outlet system 4, and the second heat exchanger 42 is located on the air suction path, so that after the indoor air is sucked by the air conditioner, the indoor air is firstly processed by the second heat exchanger 42, and then is blown out by the second driving fan 41 after the temperature is regulated and controlled.

In other embodiments, the specific type of the second driving fan 41 may also be appropriately adjusted according to specific situations.

Referring to fig. 1, in the present embodiment, an installation base 7 is further disposed in the machine body 1, and the first air outlet system 3 is disposed on the installation base 7. Like this, under the support of mount pad 7, first air-out system 3 can set up stably inside organism 1, has stable in structure's characteristics.

In this embodiment, the second heat exchanger 42 is disposed at the bottom of the mounting base 7, a first air inlet 71 is formed in the mounting base 7, the first air inlet 71 extends between the second heat exchanger 42 and the second driving fan 41, and the first air inlet 311 can be in butt joint with the first air inlet 71. In this way, because the first drainage port 71 formed in the mounting base 7 extends to a position between the second heat exchanger 42 and the second driving fan 41, the first air outlet system 3 can suck the air flow between the second heat exchanger 42 and the second driving fan 41, that is, the first air suction port 311 is moved on the air path of the second air outlet system 4, the air subjected to temperature regulation and control processing in the second air outlet system 4 is obtained, and the air speed enhancement effect is also obtained while the temperature is quickly regulated and controlled.

In this embodiment, the air conditioner further includes a refrigerant compressor, and the first heat exchanger 32 and the second heat exchanger 42 are both connected to the refrigerant compressor. Thus, the refrigerant compressor exchanges the refrigerant with the first heat exchanger 32 and the second heat exchanger 42 through the refrigerant pipe, so that the refrigerant exchanges heat with air through the first heat exchanger 32 and the second heat exchanger 42, and an air flow with a cooling or heating effect is formed.

The technical means disclosed in the utility model scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.

Claims (10)

1. An air conditioner, characterized by comprising:

the machine body is provided with a second air outlet;

the air outlet structure comprises a first air outlet which moves relative to the machine body, and the first air outlet in the use state is positioned at the top of the machine body;

the first air outlet system is arranged in the machine body, corresponds to the first air outlet and is used for providing air flow for the first air outlet;

and the second air outlet system is arranged in the machine body, corresponds to the second air outlet and is used for providing air flow to the second air outlet, and the working air speed of the first air outlet system is greater than that of the second air outlet system.

2. The air conditioner according to claim 1, wherein the first air outlet system includes a first driving fan and a first heat exchanger;

the first heat exchanger and the first driving fan are sequentially arranged on an air path of the first air outlet system along the air outlet direction of the first air outlet system, the first driving fan is provided with a first air suction port and a first wind power generation port, the first air suction port is used for sucking air flow, the first wind power generation port is communicated with the first air outlet, and the first heat exchanger is used for adjusting the temperature of air sucked by the first air suction port.

3. The air conditioner according to claim 1, wherein the second air outlet system includes a second heat exchanger and a second driving fan;

the second heat exchanger and the second driving fan are sequentially arranged on an air path of the second air-out system along the air-out direction of the second air-out system, the second driving fan is provided with an air suction path and an air blowing path, the second heat exchanger is positioned on the air suction path and used for adjusting the temperature of air in the air suction path and then enabling the air to enter the air blowing path, and the air blowing path is communicated with the second air outlet.

4. The air conditioner as claimed in claim 2, wherein a second drainage port is further provided on the body, and the drainage port is used for communicating the second air outlet and the first air suction port.

5. The air conditioner as claimed in claim 4, further comprising an opening and closing mechanism for closing or opening the second drainage port, wherein the opening and closing mechanism comprises a driving member and an opening and closing door, the driving member is disposed on the body, and the opening and closing door is rotatably connected with respect to the body to open or close the second drainage port by the driving of the driving member.

6. The air conditioner according to claim 1, wherein the air outlet structure further comprises a lifting air outlet assembly and a lifting driving assembly;

the lifting air outlet assembly is movably arranged on the machine body, and the lifting driving assembly drives the lifting air outlet assembly to extend or retract relative to the machine body;

when the lifting air outlet assembly extends out relative to the machine body, the lifting air outlet assembly forms the first air outlet in a conducting state at the top of the machine body;

when the lifting air outlet assembly retracts relative to the machine body, the first air outlet is closed, and the air flow generated by the first air outlet system flows to the second air outlet.

7. The air conditioner of claim 6, wherein the lifting air outlet assembly is slidably connected with respect to the machine body.

8. The air conditioner of claim 7, wherein the lifting outlet assembly comprises a first plate, a second plate, and a third plate;

the second plate and the third plate are arranged at intervals and are respectively connected with the machine body in a sliding mode, and the first plate is connected between the second plate and the third plate, so that the lifting air outlet assembly in the extending state forms the first air outlet relative to the machine body.

9. The air conditioner according to claim 8, wherein the body is provided with a first chute and a second chute spaced apart;

the lifting driving assembly drives the second plate to slide relative to the first sliding groove and the third plate to slide relative to the second sliding groove respectively.

10. The air conditioner of claim 1, further comprising a second wind direction adjusting mechanism, wherein the second wind direction adjusting mechanism is configured to adjust a wind direction of the outlet wind of the second outlet.

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