CN216769585U - Air conditioner induction air outlet assembly and cabinet air conditioner - Google Patents

Abstract

The utility model provides an air conditioner induction air outlet assembly and a cabinet air conditioner, and relates to the technical field of air conditioners. The wind shield is arranged at least one end of the wind outlet frame and used for shielding part of the wind outlet so as to prevent wind outlet airflow from blowing to the wind outlet sensing module, so that the cold wind direct blowing sensing module is avoided, condensate water is prevented from being generated on the surface of the wind outlet sensing module, the condensate water is prevented from entering the wind outlet sensing module and influencing the wind outlet sensing module, normal implementation of a wind outlet sensing function is guaranteed, and reliability of an air conditioner is improved.

Description

Air conditioner induction air outlet assembly and cabinet air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to an air conditioner induction air outlet assembly and a cabinet air conditioner.

Background

Current cabinet air conditioner in order to realize the response air-out, generally need set up infrared sensor to real-time supervision human signal. Conventional cabinet air conditioner, infrared sensor's installation box body is installed on the crossbeam of air outlet usually, and the air-out air current can directly blow installation box body, leads to producing the comdenstion water, and the comdenstion water flows into the inside sensor damage that then can cause of box body to make response air-out function receive the influence, and then reduced the reliability of air conditioner.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problem of how to avoid the influence of condensed water on the sensor, ensure the normal implementation of the induction air outlet function and improve the reliability of the air conditioner.

In order to solve the problems, the utility model adopts the following technical scheme.

In one aspect, the utility model provides an air conditioner induction air outlet assembly, which comprises a shell, an air outlet frame and an air outlet sensing module, wherein an air outlet is formed in the shell, the air outlet frame is arranged at the air outlet, at least one end of the air outlet frame is provided with a wind shield, the air outlet sensing module is arranged at one end, provided with the wind shield, of the air outlet frame and used for detecting a human body signal, and the wind shield is used for shielding part of the air outlet so as to prevent air flow from blowing to the air outlet sensing module.

According to the air conditioner induction air outlet assembly provided by the utility model, the air baffle and the air outlet sensing module are arranged at least one end of the air outlet frame, the air outlet sensing module is used for detecting a human body signal so as to realize induction air outlet, meanwhile, the air baffle is used for shielding part of the air outlet so as to prevent the air outlet flow from blowing to the air outlet sensing module, so that the cold air direct blowing sensing module is avoided, condensate water is prevented from being generated on the surface of the air outlet sensing module, the condensate water is prevented from entering the air outlet sensing module to influence the air outlet sensing module, the normal implementation of an induction air outlet function is ensured, and the reliability of an air conditioner is improved.

Furthermore, the upper end and the lower end of the air outlet frame are provided with the wind shield and the air outlet sensing module, the air outlet sensing module is clamped on the air outlet frame and is positioned at one side of the air outlet center or at the middle part of the wind shield, which is far away from the wind shield.

The air conditioner response air-out subassembly that this embodiment provided all sets up deep bead and air-out sensing module through the upper and lower both ends at the air-out frame, can increase the response scope, realizes responding to the air-out better, and air-out sensing module is located the upper and lower both ends edge or the deep bead middle part of air-out frame simultaneously, and the cold wind that completely cuts off and blow off of deep bead can further be guaranteed to the homoenergetic to the production of comdenstion water has further been avoided.

Furthermore, the air outlet frame or the air outlet sensing module is provided with a connecting buckle, and the air outlet sensing module and the air outlet frame are connected together in a clamping manner through the connecting buckle.

The air conditioner response air-out subassembly that this embodiment provided connects the buckle through setting up for air-out sensing module passes through the connection buckle joint with the air-out frame and is in the same place, when guaranteeing fixed effect, and the installation of being convenient for is dismantled.

Further, the air-out sensing module includes sensing box, fixed lid and sensing circuit board, the sensing box card is held on the air-out frame, fixed lid sets up inside the sensing box, sensing circuit board sets up fixed covering, just the last sensor that is provided with of sensing circuit board.

The air conditioner response air-out subassembly that this embodiment provided realizes fixing sensor circuit board through fixed lid to guaranteed the firm installation of sensor, installed sensor circuit board inside the sensing box simultaneously, also played the guard action to the sensor, further avoided the influence of comdenstion water to the sensor.

Further, a plurality of the sensors are arranged on the sensing circuit board, and the plurality of the sensing heads comprise transmitting sensing heads for transmitting signals and receiving sensing heads for receiving signals.

The air conditioner response air-out subassembly that this embodiment provided through with launch sensing head and receive sensing head integration on same sensing circuit board, can be so that the response module integrated level is higher, need not to install the location respectively during the installation, and it is more convenient to install. Meanwhile, the mounting position and the mounting angle of the sensing head can be set on the sensing circuit board in advance, and the accuracy of transmitting and receiving signals after mounting is guaranteed.

Furthermore, the sensing box comprises an upper cover and a bottom plate, the fixed cover is clamped on the bottom plate, the upper cover is clamped on the bottom plate and covers the fixed cover and the sensing circuit board, and the connecting buckle is arranged on the outer side of the upper cover.

The air conditioner response air-out subassembly that this embodiment provided is through adopting the components of a whole that can function independently structure to adopted the card to hold connected mode, made the sensing box easily dismantle, more be favorable to the maintenance and the change of sensor.

Furthermore, the air-out sensing module comprises a sensor and a sensing box, the connecting buckle is arranged on the sensor, so that the sensor is clamped on the air-out frame, and the sensing box is covered on the sensor.

The air conditioner response air-out subassembly that this embodiment provided is through adopting sensor and sensing box direct combination for sensing module's structure is simpler, and it is more convenient to install.

Furthermore, the air outlet sensing module is an infrared sensing module, and the infrared rays emitted by the air outlet sensing module positioned at the upper end are intersected or parallel with the infrared rays emitted by the air outlet sensing module positioned at the lower end.

The air conditioner response air-out subassembly that this embodiment provided, through adopting infrared sensing module, and the infrared sensing module of upper and lower extreme adopts crossing or parallel detection angle for human body signal's detection is more accurate, can realize better that wind moves along with the people or wind avoids people's waiting to respond to the air-out effect.

Further, the air-out frame includes installation frame and air-out grid, the installation frame is followed the edge setting of air outlet, the air-out grid sets up air outlet department, and with installation frame connection, the deep bead sets up at least one end of air-out grid, with the shutoff part the air-out grid, air-out sensing module sets up on the installation frame or on the air-out grid.

The air conditioner response air-out subassembly that this embodiment provided can set up the deep bead more conveniently through setting up the air-out grid to install air-out sensing module more conveniently.

On the other hand, the utility model also discloses a cabinet air conditioner, which comprises the air conditioner induction air outlet assembly, wherein the air conditioner induction air outlet assembly comprises a shell, an air outlet frame and an air outlet sensing module, an air outlet is formed in the shell, the air outlet frame is arranged at the air outlet, at least one end of the air outlet frame is provided with a wind shield, the air outlet sensing module is arranged at one end, provided with the wind shield, of the air outlet frame and used for detecting a human body signal, and the wind shield is used for shielding part of the air outlet so as to prevent air outlet flow from blowing to the air outlet sensing module.

Drawings

Fig. 1 is a schematic structural view of an air conditioner induction air outlet assembly according to a first embodiment of the present invention;

FIG. 2 is an enlarged partial view of II in FIG. 1;

FIG. 3 is an enlarged partial view of III of FIG. 1;

fig. 4 is a schematic view of the overall structure of the air outlet sensing module in fig. 2;

fig. 5 is an exploded schematic view of the air outlet sensing module in fig. 2;

fig. 6 is a schematic structural view of an air conditioner induction air outlet assembly according to a second embodiment of the present invention;

fig. 7 is a schematic partial structure view of an air conditioner induction air outlet assembly according to a second embodiment of the present invention;

fig. 8 is an exploded schematic view of the air outlet sensing module in fig. 7.

Description of reference numerals:

100-an air conditioner induction air outlet assembly; 110-a housing; 111-an air outlet; 130-an air outlet frame; 131-a mounting frame; 133-an air outlet grille; 150-an air outlet sensing module; 151-sensing cartridge; 1511-upper cover; 1513-floor; 153-a fixed cover; 155-sensing circuit board; 157-a sensor; 159-rubber gasket; 170-wind deflector; 190-connecting the buckle.

Detailed Description

As disclosed in the background art, in the prior art, an infrared sensor is usually disposed at an air outlet of a cabinet air conditioner with an air outlet sensing function to detect a human body signal. For example, a conventional infrared sensor may be disposed on a cross beam in the middle of the air outlet of the air conditioner, and the detection direction of the conventional infrared sensor is consistent with the opening direction of the air outlet, so that the conventional infrared sensor can directly detect human body signals. However, in this arrangement, on one hand, the outlet airflow is directly blown to the infrared sensor, and during refrigeration, condensed water is easily formed on the surface of the infrared sensor and flows into the infrared sensor, thereby affecting the detection function of the infrared sensor. On the other hand, to the box-packed sensor with control circuit board integration together, its setting can cause the influence to the air-out undoubtedly in air outlet middle part to cause the disorder of air-out easily, be unfavorable for promoting and blow the impression.

In order to solve the problems, the utility model provides a novel air conditioner induction air outlet assembly and a cabinet air conditioner, which can ensure the normal implementation of an induction air outlet function, improve the reliability of an air conditioner, avoid the disorder of air outlet and ensure the blowing feeling.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

First embodiment

Referring to fig. 1 to 3, this embodiment provides an air conditioner response air-out subassembly 100, and it is applicable to cabinet air conditioner to can guarantee the normal implementation of response air-out function, promote the reliability of air conditioner, can not cause the disorder of air-out simultaneously, guarantee the impression of blowing.

The air conditioner induction air outlet assembly 100 provided by the embodiment comprises a shell 110, an air outlet frame 130 and an air outlet sensing module 150, wherein an air outlet 111 is formed in the shell 110, the air outlet frame 130 is arranged at the air outlet 111, at least one end of the air outlet frame 130 is provided with a wind shield 170, the air outlet sensing module 150 is arranged at one end of the air outlet frame 130, which is provided with the wind shield 170, and is used for detecting a human body signal, and the wind shield 170 is used for shielding part of the air outlet 111 so as to prevent air outlet flow from blowing to the air outlet sensing module 150.

In this embodiment, the casing 110 is a conventional cabinet casing, and may be cylindrical or rectangular column-shaped, and the front side is provided with an air outlet 111 for blowing air, wherein the air outlet 111 may be opened along the height direction, and the air outlet sensing module and the air outlet frame 130 are disposed at the upper end and/or the lower end of the air outlet 111, so as to change the installation position of the air outlet sensing module, so that the air outlet sensing module does not affect the air outlet flow, thereby causing air outlet disorder. Meanwhile, the wind shield 170 is used for shielding part of the air outlet 111 to prevent the air outlet flow from blowing to the air outlet sensing module 150, so that the cold air direct blowing sensing module is avoided, condensate water is prevented from being generated on the surface of the air outlet sensing module 150, the condensate water is prevented from entering the air outlet sensing module 150 and influencing the air outlet sensing module, normal implementation of an induction air outlet function is guaranteed, and the reliability of the air conditioner is improved.

It should be noted that, in this embodiment, the wind blocking plate 170 is integrally disposed on the wind outlet frame 130, and a false wind opening can be formed, so that the region where the wind blocking plate 170 is disposed can completely block wind, and a no-wind region is formed near the installation position of the wind outlet sensing module 150, so as to further avoid the influence of the wind outlet airflow on the wind outlet sensing module 150. And the part of the air outlet 111 which is not shielded is normally exhausted.

In this embodiment, the wind deflector 170 and the wind outlet sensing module 150 are disposed at the upper end and the lower end of the wind outlet frame 130, and the wind outlet sensing module 150 is clamped on the wind outlet frame 130 and is located on one side of the wind deflector 170 away from the center of the wind outlet 111 or in the middle of the wind deflector 170. Specifically, air-out sensing module 150 is located one side that air outlet 111 center was kept away from to deep bead 170, all sets up deep bead 170 and air-out sensing module 150 through the upper and lower both ends at air-out frame 130, can increase the response scope, realize responding to the air-out better, air-out sensing module 150 is located the upper and lower both ends edge or deep bead 170 middle part of air-out frame 130 simultaneously, the isolated cold wind that blows off of deep bead 170 all can further be guaranteed to the homoenergetic, thereby further avoided the production of comdenstion water. Of course, in other preferred embodiments of the present invention, the air outlet sensing module 150 and the air baffle 170 may be disposed only at the upper end or the lower end of the air outlet 111 according to the height of the cabinet and the actual requirement of the air outlet.

It should be noted that, in the present embodiment, the upper end and the lower end of the air outlet 111 are respectively shielded by the wind shields 170, so as to shield the wind from the wind outlet sensing module 150 at the upper end and the wind outlet sensing module 150 at the lower end, respectively, so as to avoid the generation of condensed water. Through the upper end and the lower end, the area of the air outlet 111 which is not shielded adopts a three-section air supply structure, namely the air outlet 111 is divided into an upper air supply area, a middle air supply area and a lower air supply area, so that three-section air supply is realized.

In this embodiment, the air outlet sensing module 150 is an infrared sensing module, and the infrared rays emitted by the air outlet sensing module 150 located at the upper end are parallel to the infrared rays emitted by the air outlet sensing module 150 located at the lower end. That is to say, the infrared sensing modules at the upper end and the lower end both adopt a plane-shooting mode, the infrared sensing modules at the upper end and the lower end respectively detect different heights, and can respectively control the wind sweeping blades of different air supply sections, so that the wind moves along with people, or the wind avoids people. The specific control method thereof will not be described in detail here, and reference may be made to the related description in the prior art. Of course, in other preferred embodiments of the present invention, the wind outlet sensing module 150 may also be other types of sensing modules, such as the laser sensor 157.

In other preferred embodiments of the present invention, the air outlet sensing module 150 at the upper end and the air outlet sensing module 150 at the lower end may also emit intersecting infrared rays, that is, the infrared sensing modules at the upper end and the lower end are obliquely emitted, so that the infrared rays intersect and are matched up and down to determine the detection positions, and different detection positions are controlled by the different segments of the wind sweeping blades, thereby realizing the operation of wind moving along with the human or avoiding the human.

Specifically, the outlet frame 130 in this embodiment includes a mounting frame 131 and an outlet grill 133, the mounting frame 131 is disposed along an edge of the outlet 111, the outlet grill 133 is disposed at the outlet 111 and connected to the mounting frame 131, a wind deflector 170 is disposed at least one end of the outlet grill 133 to block a portion of the outlet grill 133, and the outlet sensing module 150 is disposed on the mounting frame 131 or on the outlet grill 133. By providing the air outlet grille 133, the wind shield 170 can be more conveniently provided, and the air outlet sensing module 150 can be more conveniently installed.

In this embodiment, the mounting frame 131 and the outlet grill 133 are integrally formed and disposed at the outlet 111, and the specific structure and mounting manner thereof are the same as those of a conventional cabinet. Meanwhile, the air outlet grille 133 can perform an air flow conducting function, thereby realizing air outlet. Preferably, the wind deflectors 170 are disposed at upper and lower ends of the outlet grill 133, and can flush and shield areas near the upper and lower ends of the outlet grill 133, thereby blocking wind. Meanwhile, the wind shield 170 may be disposed inside the air outlet grill 133 and blackened, thereby forming a false air opening to ensure uniformity of appearance.

In this embodiment, the air outlet sensing module 150 is disposed on the mounting frame 131, and specifically can be fixed by a snap-fit manner, and after the mounting is completed, the air outlet sensing module 150 can be located on one side of the air baffle 170 away from the center of the air outlet 111, so as to prevent the cold air from blowing directly on the surface thereof as much as possible. Of course, in other preferred embodiments of the present invention, the wind outlet sensing module 150 may also be disposed on the wind deflector 170.

In this embodiment, a sliding door is further disposed on the housing 110, and a wind sweeping blade is further disposed inside the wind outlet 111, and the sliding door can slidably block the wind outlet 111. In addition, the installation position of the wind outlet sensing module 150 is located inside the sliding door, so that the wind outlet sensing module 150 is prevented from interfering with the stroke of the sliding door. Or, the upper and lower ends of the sliding door are provided with abdicating notches, so as to avoid the air outlet sensing module 150.

Referring to fig. 4 and fig. 5 in combination, in this embodiment, a connection buckle 190 is disposed on the air outlet frame 130 or the air outlet sensing module 150, and the air outlet sensing module 150 and the air outlet frame 130 are clamped together by the connection buckle 190. Through setting up connection buckle 190 for air-out sensing module 150 is in the same place through connecting buckle 190 joint with air-out frame 130, when guaranteeing fixed effect, and the installation of being convenient for is dismantled.

The air outlet sensing module 150 includes a sensing box 151, a fixing cover 153 and a sensing circuit board 155, the sensing box 151 is clamped on the air outlet frame 130, the fixing cover 153 is disposed inside the sensing box 151, the sensing circuit board 155 is disposed on the fixing cover 153, and a sensor 157 is disposed on the sensing circuit board 155. The sensor circuit board 155 is fixed through the fixing cover 153, so that the stable installation of the sensor 157 is ensured, meanwhile, the sensor circuit board 155 is installed inside the sensor box 151, the sensor 157 is protected, and the influence of condensed water on the sensor 157 is further avoided.

In the present embodiment, the sensor circuit board 155 is provided with a plurality of sensors 157, and the plurality of sensor heads include a transmitting sensor head for transmitting a signal and a receiving sensor head for receiving a signal. Through with transmitting sensing head and receiving sensing head integration on same sensing circuit board 155, can make the response module integration level higher, need not to install the location respectively during the installation, it is more convenient to install. Meanwhile, the mounting position and the mounting angle of the sensor head can be set on the sensor circuit board 155 in advance, so that the accuracy of transmitting and receiving signals after mounting is ensured.

It should be noted that in the present embodiment, the sensing circuit board 155 is vertically disposed, so that the receiving sensing head and the transmitting sensing head can be horizontally mounted, which is more beneficial for receiving and transmitting infrared signals. Here, the box-packed sensing box 151 is adopted, and the circuit board and the sensor 157 are integrated inside the box body, which can be more favorable for the installation of the air outlet sensing module 150.

In this embodiment, the sensor box 151 includes an upper cover 1511 and a bottom plate 1513, the fixing cover 153 is held on the bottom plate 1513, the upper cover 1511 is held on the bottom plate 1513 and covers the fixing cover 153 and the sensor circuit board 155, and the connection latch 190 is disposed outside the upper cover 1511. By adopting the split structure and the clamping connection mode, the sensing box 151 is easy to disassemble, and the maintenance and the replacement of the sensor 157 are facilitated. Moreover, the overall configuration of the sensing box 151 in this embodiment needs to be adapted to the configuration of the housing 110, for example, when the housing 110 has a cylindrical structure, the outer side of the sensing box 151 may also have an arc-shaped structure to ensure the installation adaptation.

In the embodiment, the sensing circuit board 155 is clamped on the fixing cover 153, so as to avoid damage to the sensing circuit board 155 in the clamping process, the embodiment may further include a rubber gasket 159 on the sensing circuit board 155, thereby facilitating installation. And the rubber gasket 159 can also play a role in shock absorption, thereby preventing the sensor 157 from vibrating during the operation of the air conditioner.

In conclusion, the air conditioner induction air outlet assembly 100 provided by the embodiment, the air baffle 170 and the air outlet sensing module 150 are arranged at the upper end and the lower end of the air outlet frame 130, the air outlet sensing module 150 is used for detecting human body signals, so as to realize induction air outlet, meanwhile, the air baffle 170 is used for shielding part of the air outlet 111, so as to avoid the air outlet flow from blowing to the air outlet sensing module 150, so as to avoid the cold air from directly blowing the sensing module, avoid the generation of condensed water on the surface of the air outlet sensing module 150, also avoid the condensed water from entering the air outlet sensing module 150 to cause influence on the air outlet sensing module, ensure the normal implementation of the induction air outlet function, and improve the reliability of the air conditioner.

Second embodiment

Referring to fig. 6 to 8, the basic structure and principle of the induction outlet assembly 100 of the air conditioner and the technical effects thereof are the same as those of the first embodiment, and for the sake of brief description, reference may be made to corresponding contents of the first embodiment for parts not mentioned in the present embodiment. Compared with the first embodiment, the present embodiment is different in the air outlet sensing module 150.

Air conditioner response air-out subassembly 100 includes casing 110, air-out frame 130 and air-out sensing module 150, casing 110 is last to have seted up air outlet 111, air-out frame 130 sets up in air outlet 111 department, and the at least one end of air-out frame 130 is provided with deep bead 170, air-out sensing module 150 sets up the one end that has deep bead 170 on the air-out frame 130 for detect human body signal, deep bead 170 is used for sheltering from partial air outlet 111, in order to avoid the air-out air current to blow to air-out sensing module 150. The upper end and the lower end of the air-out frame 130 are both provided with a wind shield 170 and an air-out sensing module 150, and the air-out sensing module 150 is clamped on the air-out frame 130 and is positioned in the middle of the wind shield 170.

In this embodiment, the air outlet sensing module 150 adopts a structure of a small sensor 157, specifically, the air outlet sensing module 150 includes a sensor 157 and a sensing box 151, the connecting buckle 190 is disposed on the sensor 157, so that the sensor 157 is clamped on the air outlet frame 130, and the sensing box 151 is covered on the sensor 157. The sensor 157 is clamped on the air outlet grille 133 to realize fixation, and the sensing box 151 is covered on the sensor 157 to realize protection and limit. By adopting the direct combination of the sensor 157 and the sensing box 151, the structure of the sensing module is simpler and the installation is more convenient.

In this embodiment, in order to further improve the control effect of response air-out, can set up a plurality of air-out response modules on the air-out grid 133, specifically, be located and all be provided with a plurality of air-out response modules on the air-out grid 133 that upper end and lower extreme are provided with deep bead 170. And, the air-out response module card is held in the outside of air-out grid 133 to can install very conveniently from the outside.

It should be noted that, in this embodiment, the electric control portion for sensing the air outlet may be integrated inside the casing 110, and electrically connected to the air outlet sensing module through a connection terminal or a hidden wire.

In this embodiment, the air outlet sensing module 150 located at the upper end and the air outlet sensing module 150 located at the lower end are both infrared sensing modules, and the infrared rays emitted by the infrared sensing modules at the upper and lower ends are intersected. That is to say, the infrared sensing module of upper end and lower extreme adopts the slope transmission mode for the infrared ray is crossing, and the cooperation is in order to confirm the detection position from top to bottom, and different detection positions correspond the control of the blade of sweeping the wind of different sections, thereby has realized that wind moves along with the people or wind dodges people's operation. Of course, the infrared sensing modules at the upper and lower ends may also adopt a flat-shooting mode, for example, the detection mode in the first embodiment.

The air conditioner response air-out subassembly 100 that this embodiment provided adopts miniaturized air-out sensing module 150, through adopting sensor 157 and the direct combination of sensing box 151 for sensing module's structure is simpler, and it is more convenient to install, simultaneously through adopting infrared sensing module, and the infrared sensing module of going up the lower extreme adopts crossing detection angle, makes human body signal's detection more accurate, can realize better that wind moves along with the people or wind avoids people's waiting to respond to the air-out effect.

Third embodiment

The embodiment provides a cabinet air conditioner, which comprises an air conditioner induction air outlet assembly 100 provided by the first embodiment or the second embodiment. Regarding the basic structure and principle of the air conditioner induction outlet assembly 100 and the technical effects thereof, the same as the first embodiment is provided, and for the sake of brief description, no part of this embodiment is mentioned, and reference may be made to the corresponding contents in the first embodiment.

In this embodiment, cabinet air conditioner still includes the base, air conditioner response air-out subassembly 100 includes casing 110, air-out frame 130 and air-out sensing module 150, casing 110 is last to have seted up air outlet 111, air-out frame 130 sets up in air outlet 111 department, and the at least one end of air-out frame 130 is provided with deep bead 170, air-out sensing module 150 sets up the one end that has deep bead 170 on the air-out frame 130, be used for detecting human body signal, deep bead 170 is used for shielding part air outlet 111, in order to avoid the air-out air current to blow to air-out sensing module 150. The housing 110 has a cylindrical or rectangular column shape and is disposed on the base. While the air outlet 111 is provided at the front side and the air inlet is provided at the rear side of the housing 110.

In this embodiment, the housing 110 is further provided with conventional components such as a fan and a heat exchanger, and it should be noted that, in the cabinet air conditioner mentioned in this embodiment, components for implementing cooling or heating are the same as those of a conventional air conditioner, and are not described in detail herein.

It should be further noted that in this embodiment, a wind sweeping blade is further disposed in the air outlet 111, the wind sweeping blade is driven by a wind sweeping motor, the wind sweeping motor is electrically connected to the air outlet sensing module 150, and an angle of the wind sweeping blade can be adaptively adjusted according to a detection result of the air outlet sensing module 150, so as to achieve induction of air outlet.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (10)

1. The utility model provides an air conditioner response air-out subassembly, its characterized in that, includes casing (110), air-out frame (130) and air-out sensing module (150), air outlet (111) have been seted up on casing (110), air-out frame (130) set up air outlet (111) department, just the at least one end of air-out frame (130) is provided with deep bead (170), air-out sensing module (150) sets up have on air-out frame (130) the one end of deep bead (170) for detect human body signal, deep bead (170) are used for sheltering from the part air outlet (111) to avoid the air-out air current to blow to air-out sensing module (150).

2. The air conditioner induction air outlet assembly according to claim 1, wherein the air baffle (170) and the air outlet sensing module (150) are disposed at both the upper end and the lower end of the air outlet frame (130), and the air outlet sensing module (150) is clamped on the air outlet frame (130) and is located on one side of the air baffle (170) away from the center of the air outlet (111) or located in the middle of the air baffle (170).

3. The air conditioner induction air outlet assembly of claim 2, wherein a connecting buckle (190) is arranged on the air outlet frame (130) or the air outlet sensing module (150), and the air outlet sensing module (150) and the air outlet frame (130) are clamped together through the connecting buckle (190).

4. The air conditioner induction air outlet assembly of claim 3, wherein the air outlet sensing module (150) comprises a sensing box (151), a fixed cover (153) and a sensing circuit board (155), the sensing box (151) is clamped on the air outlet frame (130), the fixed cover (153) is arranged inside the sensing box (151), the sensing circuit board (155) is arranged on the fixed cover (153), and a sensor (157) is arranged on the sensing circuit board (155).

5. The air conditioner induction air outlet assembly as claimed in claim 4, wherein a plurality of the sensors (157) are arranged on the sensor circuit board (155), and the plurality of the sensors (157) comprise a transmitting sensor head for transmitting signals and a receiving sensor head for receiving signals.

6. The air conditioner induction air outlet assembly of claim 4, wherein the sensing box (151) comprises an upper cover (1511) and a bottom plate (1513), the fixed cover (153) is clamped on the bottom plate (1513), the upper cover (1511) is clamped on the bottom plate (1513) and covers the fixed cover (153) and the sensing circuit board (155), and the connecting buckle (190) is arranged on the outer side of the upper cover (1511).

7. The air conditioner induction air outlet assembly of claim 3, wherein the air outlet sensing module (150) comprises a sensor (157) and a sensing box (151), the connecting buckle (190) is arranged on the sensor (157) to enable the sensor (157) to be clamped on the air outlet frame (130), and the sensing box (151) covers the sensor (157).

8. The air conditioner induction air outlet assembly according to any one of claims 1 to 7, wherein the air outlet sensing module (150) is an infrared sensing module, and infrared rays emitted by the air outlet sensing module (150) located at the upper end intersect or are parallel to infrared rays emitted by the air outlet sensing module (150) located at the lower end.

9. The induction air outlet assembly of any one of claims 1 to 7, wherein the air outlet frame (130) comprises a mounting frame (131) and an air outlet grille (133), the mounting frame (131) is disposed along an edge of the air outlet (111), the air outlet grille (133) is disposed at the air outlet (111) and connected to the mounting frame (131), the wind deflector (170) is disposed at least one end of the air outlet grille (133) to block a portion of the air outlet grille (133), and the air outlet sensing module (150) is disposed on the mounting frame (131) or on the air outlet grille (133).

10. A cabinet air conditioner characterized by comprising the air conditioner induction outlet assembly according to any one of claims 1-9.

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