CN114791130B - Air conditioner with movable fresh air port and fresh air outlet control method - Google Patents

Abstract

The invention discloses an air conditioner with a movable fresh air port and a fresh air outlet control method. According to the invention, the fresh air port mechanism is added on the air conditioner to provide a fresh air function, and the fresh air port mechanism utilizes the movable connection of the air outlet component and the air inlet component to realize the adjustment of the fresh air supply angle and the range, so that the effect and the range of fresh air supply are effectively improved, and better use experience is brought to users; the invention can realize the regulation of the fresh air supply angle through the intelligent regulation mode, the remote control mode or the linkage mode, the fresh air supply function can be independently realized, the linkage can be formed with the self air supply of the air conditioner, and a user can select according to the self use requirement.

Description

Air conditioner with movable fresh air port and fresh air outlet control method

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner with a movable fresh air port and a fresh air outlet control method.

Background

With the improvement of living standard, consumers have higher and higher attention to physical health, and the corresponding requirements on the air quality in the residence have higher and higher. Aiming at the demands of users, the air conditioner products also start to be provided with a fresh air function so as to solve the problem of staleness of indoor air, thereby improving the indoor air quality.

At present, the fresh air module of the air conditioner is generally arranged in the traditional air conditioner in a structure limited by the prior air conditioner, and the air outlet of the fresh air function is fixed, so that the multi-angle air supply of fresh air or the fresh air supply to a specific area cannot be realized, and the use experience of a user is not facilitated.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the air conditioner with the movable fresh air port has good fresh air supply effect and wide air supply range.

The technical scheme adopted by the invention for solving the technical problems is as follows: the air conditioner with the movable fresh air port comprises an air conditioner body and at least one group of fresh air port mechanisms arranged on the air conditioner body; the fresh air port mechanism comprises an air inlet assembly, an air outlet assembly and an air outlet, wherein the air inlet assembly is fixed on the air conditioner body and communicated with outdoor air, the air outlet assembly is movably connected with the air inlet assembly, a fan assembly is arranged in the air outlet assembly, and the air outlet is arranged on the air outlet assembly.

Further is: the number of the fresh air port mechanisms is two, and the two groups of fresh air port mechanisms are respectively arranged at the end heads of the two sides of the air conditioner body.

Further is: the air inlet assembly comprises a first air inlet shell, a second air inlet shell and a filter screen assembly, wherein the first air inlet shell is fixed on the air conditioner body, and a first air outlet channel communicated with the air outlet assembly is arranged on the second air inlet shell; the first air inlet shell and the second air inlet shell are detachably connected to form a shell structure containing the filter screen assembly and are communicated with outdoor air through the air inlet.

Further is: the air outlet assembly comprises a shell structure formed by detachably connecting a first air outlet shell and a second air outlet shell, and the fan assembly is arranged in the shell structure; the first air outlet shell is rotatably connected with the second air inlet shell through a rotation driving mechanism, and a second air outlet channel communicated with the first air outlet channel is arranged on the first air outlet shell.

Further is: the rotary driving mechanism comprises a motor bracket, a motor and a gear, wherein the motor bracket is fixed on the second air inlet shell, the motor is fixed on the motor bracket, and the gear is fixed at the output end of the motor; and a transmission gear meshed with the gear is fixed on the first air outlet shell.

Further is: the top of first air inlet casing and second air inlet casing all is equipped with matched with opening, and first air inlet casing and second air inlet casing are connected the back and are constituteed at the top of air inlet subassembly and can supply filter screen subassembly male entry.

Further is: the air conditioner further comprises a pressing plate arranged between the second air inlet shell and the first air outlet shell.

Further is: and a grille or a grid covered on the air outlet.

The invention also discloses a fresh air outlet control method, which adopts the air conditioner with the movable fresh air inlet as described in the above description, and controls the fresh air outlet angle of the air outlet through an intelligent regulation mode, a remote control mode or a linkage mode;

In the intelligent regulation mode, the air conditioner control system calculates a fresh air outlet angle of an air outlet according to the comprehensively estimated air difference value and by combining the outdoor environment temperature and humidity, the indoor environment temperature and humidity and the target temperature set by the air conditioner;

in the remote control mode, the air conditioner control system controls the fresh air outlet angle of the air outlet according to an angle adjusting instruction input by a user through the remote control system;

In the linkage mode, the air conditioner control system synchronously controls the fresh air outlet angle of the air outlet while controlling the cold and warm air supply angle of the air conditioner swing blade, so that the air supply mode and the air supply angle of the air outlet are consistent with the air conditioner swing blade.

Further is: in the intelligent control mode, the fresh air outlet angle of the air outlet is calculated according to the following formula:

A＝(T _{Outer part} -T _{Is provided with} )×W_T×k_T+(H _{Outer part} -H _{Is provided with} )×W_H×k_H；

When |A| > A is set, alpha _{New type} ＝ɑ _Pendulum ; when A is less than or equal to A, alpha _{New type} ＝(ɑ_max-ɑ _{Base group} )×A/A _{Base group} +ɑ _{Base group} ;

Wherein, A is the air difference value of comprehensive evaluation, A _{Is provided with} and A _{Base group} are the reference values of the built-in air difference value of the air conditioner system, alpha _{New type} is the included angle between the air outlet air flow direction and the horizontal direction, alpha _max is the maximum set value of alpha _{New type} , alpha _Pendulum is the included angle between the air conditioner swing blade inclined direction and the horizontal direction, alpha _{Base group} is the reference angle of the air outlet direction, T _{Outer part} is the outdoor environment temperature, T _{Is provided with} is the target temperature set by the air conditioner, H _{Outer part} is the outdoor environment humidity, H _{Is provided with} is the target humidity set by the air conditioner, k _T is the correction coefficient of temperature, k _H is the correction coefficient of humidity, W _T is the weight coefficient of temperature, and W _H is the weight coefficient of humidity.

The beneficial effects of the invention are as follows: according to the invention, the fresh air port mechanism is added on the air conditioner to provide a fresh air function, and the rotatable connection of the air outlet component and the air inlet component is utilized in the fresh air port mechanism to realize the adjustment of the fresh air supply angle and the range, so that the effect and the range of fresh air supply are effectively improved, and better use experience is brought to users; the invention can realize the regulation of the fresh air supply angle through the intelligent regulation mode, the remote control mode or the linkage mode, the fresh air supply function can be independently realized, the linkage can be formed with the self air supply of the air conditioner, and a user can select according to the self use requirement.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a side exploded view of the present invention;

FIG. 3 is a side exploded view of the present invention;

FIG. 4 is a flow chart of a control method in the present invention.

Marked in the figure as: 100-air conditioner body, 200-fresh air inlet mechanism, 300-air inlet assembly, 310-first air inlet shell, 320-second air inlet shell, 321-first air outlet channel, 330-filter screen assembly, 340-air inlet, 350-filter screen mounting port, 400-air outlet assembly, 410-fan assembly, 420-first air outlet shell, 421-second air outlet channel, 422-transmission gear, 430-second air outlet shell, 500-air outlet, 600-rotation driving mechanism, 610-motor bracket, 620-motor, 630-gear and 700-pressing plate.

Detailed Description

In order to facilitate an understanding of the present invention, the present invention will be further described with reference to the drawings and examples.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "front", "rear", "left", "right", "upper", "lower", "inner", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description, and do not indicate or imply that the apparatus or components referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

As shown in fig. 1 to 3, the air conditioner with movable fresh air inlet according to the present invention adds a fresh air inlet mechanism 200 to the air conditioner body 100, and the fresh air inlet mechanism 200 can be used to add fresh air function to the air conditioner, and fresh air in outdoor environment is fed into the room to improve indoor air quality. The number of the fresh air port mechanisms 200 can be set according to design requirements and product positioning; when the fresh air port mechanism 200 is adopted, the fresh air port mechanism 200 can be arranged at one side end of the air conditioner body 100; when two sets of fresh air port mechanisms 200 are adopted, the two sets of fresh air port mechanisms 200 can be respectively arranged at the two side ends of the air conditioner body 100.

In the invention, the structure of the fresh air port mechanism 200 is specially designed, so that the fresh air supply angle and the fresh air supply range of the fresh air port mechanism 200 can be adjusted. As shown in fig. 2 and 3, the fresh air inlet mechanism 200 adopted in the invention is composed of an air inlet assembly 300, an air outlet assembly 400 and an air outlet 500, wherein the air inlet assembly 300 is fixed at the end of the air conditioner body 100, the air inlet assembly 300 is used for communicating the fresh air inlet mechanism 200 with the external environment, the air inlet assembly 300 is provided with an air inlet 340, and the fresh air in the external environment can enter the air outlet assembly 400 through the air inlet assembly 300 through an air inlet pipeline connected with the air inlet 340; the air outlet assembly 400 is communicated with the air inlet assembly 300 to form an air channel cavity inside, and the air outlet assembly 400 and the air inlet assembly 300 are connected in a rotatable connection mode, and the air outlet 500 is arranged on the air outlet assembly 400, so that the outlet direction of the air outlet 500 can be changed through rotation of the air outlet assembly 400, and the air outlet angle of fresh air at the air outlet 500 is changed; the air outlet assembly 400 is further provided with a fan assembly 410, the fan assembly 410 is generally composed of a fan and a fan motor, negative pressure is formed inside the fresh air port mechanism 200 through the operation of the fan assembly 410, so that fresh air in the external environment is pumped into the fresh air port mechanism 200, and then is sent into the indoor environment through the air outlet 500 under the action of the fan assembly 410; the air supply size of the fresh air can be changed by changing the rotating speed of the fan in the fan assembly 410, so that the purposes of adjusting the fresh air quantity and the air supply range are achieved.

As shown in fig. 2 and 3, the specific structure of the air intake assembly 300 in the present invention is composed of a first air intake housing 310, a second air intake housing 320 and a filter screen assembly 330, wherein the first air intake housing 310 and the second air intake housing 320 are detachably connected by a fastener structure or a fastener to form a housing structure capable of accommodating the filter screen assembly 330; the first air inlet housing 310 is fixed at the end of the air conditioner body 100, the air inlet 340 is opened on the first air inlet housing 310, and the air inlet 340 is connected with an air inlet pipe to communicate the internal cavity of the air inlet assembly 300 with the external environment; the second air inlet housing 320 is provided with a first air outlet channel 321, and the first air outlet channel 321 is communicated with the air outlet assembly 400 so that external fresh air entering the air inlet assembly 300 can enter the air outlet assembly 400 through the first air outlet channel 321. The filter screen assembly 330 is installed in the shell structure that first air inlet casing 310 and second air inlet casing 320 connect the constitution, can filter and purify the external air that gets into in the air inlet assembly 300 through filter screen assembly 330, still can increase air treatment functions such as perfuming on filter screen assembly 330, make the air after filtering have the fragrance, bring better use experience for the user.

To facilitate installation and replacement of the screen assembly 330, the screen assembly 330 is installed and secured by insertion. In a specific manner, openings are formed at the top of the first air inlet housing 310 and the second air inlet housing 320, the openings at the top of the second air inlet housing 320 of the first air inlet housing 310 are relatively arranged and matched with each other, when the first air inlet housing 310 and the second air inlet housing 320 are connected, the openings at the top of the second air inlet housing 320 of the first air inlet housing 310 are butted to form a filter screen mounting opening 350, and the length and width dimensions of the filter screen mounting opening 350 are matched with those of the filter screen assembly 330. When installing the screen assembly 330, the screen assembly 330 is inserted vertically into the air intake assembly 300 after the screen assembly 330 is aligned with the screen mounting opening 350. The screen assembly 330 is inserted at an angle perpendicular to the direction of the air flow, thereby forming a complete partition within the cavity of the air intake assembly 300, ensuring no dead corners for filtration and no omission of filtration of air.

As shown in fig. 2 and 3, the specific structure of the air-out assembly 400 in the present invention includes, in addition to the fan assembly 410, a first air-out housing 420 and a second air-out housing 430, where the first air-out housing 420 and the second air-out housing 430 are detachably connected by a fastener structure or a fastener to form a housing structure with an inner cavity, and the fan assembly 410 is installed in the housing structure formed by the first air-out housing 420 and the second air-out housing 430. The first air outlet shell 420 is provided with a second air outlet channel 421 communicated with the first air outlet channel 321, and air in the air inlet assembly 300 enters the inner cavity of the air outlet assembly 400 through the second air outlet channel 421.

The rotatable connection between the air outlet assembly 400 and the air inlet assembly 300 is realized by means of a rotation driving mechanism 600, the rotation driving mechanism 600 consists of a motor bracket 610, a motor 620 and a gear 630, the motor bracket 610 is fixed on the second air inlet shell 320, the motor 620 is fixed on the motor bracket 610, and the gear 630 is fixed at the output end of the motor 620; meanwhile, a transmission gear 422 engaged with the gear 630 is fixed to the first outlet case 420. The motor 620 can drive the gear 630 to rotate, the gear 630 can rotate and drive the transmission gear 422 meshed with the gear 630 to rotate, and finally the air outlet assembly 400 can be driven to rotate, so that the air outlet angle of the air outlet 500 on the air outlet assembly 400 can be adjusted. The operation of the rotary drive mechanism 600 is controlled by means of the air conditioner control system of the air conditioner itself. In addition, a pressing plate 700 may be further added between the first air outlet housing 420 and the second air inlet housing 320 to perform axial limiting.

As shown in fig. 1 to 3, a grille or grid structure may be covered on the air outlet 500 to protect the internal structure of the fresh air inlet mechanism 200; the grille or mesh may be detachably connected to the air outlet 500, or may be integrally formed with the air outlet assembly 400.

As shown in fig. 4, the invention also discloses a fresh air outlet control method for adjusting the fresh air outlet angle by adopting the air conditioner with the movable fresh air outlet, which is specifically embodied in that the adjustment of the fresh air outlet angle of the air outlet is realized by three different modes.

The first control mode is an intelligent regulation mode, in the intelligent regulation mode, the air conditioner control system calculates a fresh air outlet angle of an air outlet according to the comprehensively estimated air difference value and by combining the outdoor environment temperature and humidity, the indoor environment temperature and humidity and the target temperature set by the air conditioner; in the intelligent regulation mode, the fresh air outlet angle of the air outlet is calculated according to the following formula:

A＝(T _{Outer part} -T _{Is provided with} )×W_T×k_T+(H _{Outer part} -H _{Is provided with} )×W_H×k_H；

When |A| > A is set, alpha _{New type} ＝ɑ _Pendulum ; when A is less than or equal to A, alpha _{New type} ＝(ɑ_max-ɑ _{Base group} )×A/A _{Base group} +ɑ _{Base group} ;

Wherein, A is the air difference value of comprehensive evaluation, A _{Is provided with} and A _{Base group} are the reference values of the built-in air difference value of the air conditioner system, alpha _{New type} is the included angle between the air outlet air flow direction and the horizontal direction, alpha _max is the maximum set value of alpha _{New type} , alpha _Pendulum is the included angle between the air conditioner swing blade inclined direction and the horizontal direction, alpha _{Base group} is the reference angle of the air outlet direction, T _{Outer part} is the outdoor environment temperature, T _{Is provided with} is the target temperature set by the air conditioner, H _{Outer part} is the outdoor environment humidity, H _{Is provided with} is the target humidity set by the air conditioner, k _T is the correction coefficient of temperature, k _H is the correction coefficient of humidity, W _T is the weight coefficient of temperature, and W _H is the weight coefficient of humidity.

The second control mode is a remote control mode, in the remote control mode, the air conditioner control system controls the fresh air outlet angle of the air outlet according to an angle adjusting instruction input by a user through the remote control system, namely, the air conditioner control system starts or shuts down a motor in the rotary driving mechanism according to the received angle adjusting instruction; the specific control mode is as follows:

and after receiving the angle adjustment instruction, the air conditioner control system starts the motor to continuously operate, and after receiving the angle adjustment instruction for the second time, closes the motor to stop operating, and repeats the operation.

After receiving the angle adjustment instruction once, the air conditioner control system starts the motor to enable the air outlet to rotate to a fixed angle and then stops, and after receiving the angle adjustment instruction next time, the air conditioner control system starts the motor again to enable the air outlet to rotate to the fixed angle and then stops, so that the air conditioner control system reciprocates in a preset angle range.

In the preset angle range, the air conditioner control system is divided into a plurality of gears, after receiving the angle adjustment instruction, the air conditioner control system starts the motor to enable the air outlet to rotate to the angle corresponding to the next gear, and after receiving the angle adjustment instruction for the next time, the air conditioner control system starts the motor again to enable the air outlet to rotate to the angle corresponding to the next gear, and the air conditioner control system reciprocates in this way.

Defining forward rotation and reverse rotation within a preset angle range; if the forward rotation is from the minimum air outlet angle to the maximum air outlet angle, the reverse rotation is from the maximum air outlet angle to the minimum air outlet angle; meanwhile, the angle adjustment instruction simultaneously comprises steering information; when the forward rotation instruction is sent, the air outlet angle is controlled within the forward angle range; conversely, when the instruction is rotated reversely, the air outlet angle is controlled within the reverse angle range; the control mode is the same as the previous one.

In a preset angle range, the air outlet angle parameter is directly sent through an App, and after receiving an angle parameter instruction, the air conditioner control system starts a motor to enable the air outlet to rotate to a corresponding angle.

In a preset angle range, a fresh air sweeping mode can be started, and after receiving an instruction of the fresh air sweeping mode, the air conditioner control system starts a motor to continuously operate; and continuously reciprocating in the set angle parameter range of the air outlet, so as to realize the fresh air sweeping function.

The third control mode is a linkage mode, in the linkage mode, the air conditioner control system synchronously controls the fresh air outlet angle of the air outlet while controlling the cold and warm air supply angle of the air conditioner swing blade, so that the air supply mode and the air supply angle of the air outlet are consistent with the air conditioner swing blade. Specifically, when the swing blades of the air conditioner are fixed to a certain angle, the air outlet of the air outlet assembly is also rotated to be fixed to a corresponding angle; when the swing blade sweeps air reciprocally, the air outlet of the air outlet assembly also rotates reciprocally to supply air reciprocally.

Claims (8)

1. The fresh air outlet control method is characterized by comprising the following steps of: an air conditioner with a movable fresh air port is adopted, and the fresh air outlet angle of the air outlet is controlled through an intelligent regulation mode, a remote control mode or a linkage mode;

The air conditioner with the movable fresh air port comprises an air conditioner body (100) and at least one group of fresh air port mechanisms (200) arranged on the air conditioner body (100); the fresh air port mechanism (200) comprises an air inlet assembly (300), an air outlet assembly (400) and an air outlet (500), wherein the air inlet assembly (300) is fixed on the air conditioner body (100) and is communicated with outdoor air, the air outlet assembly (400) is movably connected with the air inlet assembly (300), a fan assembly (410) is arranged in the air outlet assembly (400), and the air outlet (500) is arranged on the air outlet assembly (400);

in the intelligent control mode, the air conditioner control system calculates a fresh air outlet angle of an air outlet according to comprehensively estimated air difference values and then by combining the outdoor environment temperature and humidity, the indoor environment temperature and humidity and the target temperature set by the air conditioner, and in the intelligent control mode, the fresh air outlet angle of the air outlet is calculated according to the following formula:

A＝(T _{Outer part} -T _{Is provided with} )×W_T×k_T+(H _{Outer part} -H _{Is provided with} )×W_H×k_H；

When |A| > A is set, alpha _{New type} ＝ɑ _Pendulum ; when A is less than or equal to A, alpha _{New type} ＝(ɑ_max-ɑ _{Base group} )×A/A _{Base group} +ɑ _{Base group} ;

Wherein A is an air difference value comprehensively estimated, A _{Is provided with} and A _{Base group} are reference values of an air difference value built in an air conditioner system, alpha _{New type} is an included angle between an air outlet air flow direction and a horizontal direction, alpha _max is a maximum set value of alpha _{New type} , alpha _Pendulum is an included angle between an air conditioner swing blade inclined direction and the horizontal direction, alpha _{Base group} is a reference angle of the air outlet direction, T _{Outer part} is an outdoor environment temperature, T _{Is provided with} is a target temperature set by the air conditioner, H _{Outer part} is outdoor environment humidity, H _{Is provided with} is a target humidity set by the air conditioner, k _T is a temperature correction coefficient, k _H is a humidity correction coefficient, W _T is a weight coefficient of temperature, and W _H is a weight coefficient of humidity;

in the remote control mode, the air conditioner control system controls the fresh air outlet angle of the air outlet according to an angle adjusting instruction input by a user through the remote control system;

In the linkage mode, the air conditioner control system synchronously controls the fresh air outlet angle of the air outlet while controlling the cold and warm air supply angle of the air conditioner swing blade, so that the air supply mode and the air supply angle of the air outlet are consistent with the air conditioner swing blade.

2. The fresh air outlet control method according to claim 1, characterized in that: the number of the fresh air port mechanisms (200) is two, and the two groups of fresh air port mechanisms (200) are respectively arranged at the two side ends of the air conditioner body (100).

3. The fresh air outlet control method according to claim 1 or 2, characterized in that: the air inlet assembly (300) comprises a first air inlet shell (310), a second air inlet shell (320) and a filter screen assembly (330), wherein the first air inlet shell (310) is fixed on the air conditioner body (100), and a first air outlet channel (321) communicated with the air outlet assembly (400) is arranged on the second air inlet shell (320); the first air inlet shell (310) and the second air inlet shell (320) are detachably connected to form a shell structure containing the filter screen assembly (330) and are communicated with outdoor air through the air inlet (340).

4. A fresh air outlet control method according to claim 3, wherein: the air outlet assembly (400) comprises a shell structure formed by detachably connecting a first air outlet shell (420) and a second air outlet shell (430), and the fan assembly (410) is arranged in the shell structure; the first air outlet shell (420) is movably connected with the second air inlet shell (320) through a rotary driving mechanism (600), and a second air outlet channel (421) communicated with the first air outlet channel (321) is arranged on the first air outlet shell (420).

5. The fresh air outlet control method according to claim 4, wherein: the rotary driving mechanism (600) comprises a motor bracket (610), a motor (620) and a gear (630), wherein the motor bracket (610) is fixed on the second air inlet shell (320), the motor (620) is fixed on the motor bracket (610), and the gear (630) is fixed at the output end of the motor (620); and a transmission gear (422) meshed with the gear (630) is fixed on the first air outlet shell (420).

6. A fresh air outlet control method according to claim 3, wherein: the top of the first air inlet shell (310) and the top of the second air inlet shell (320) are respectively provided with a matched opening, and the top of the air inlet assembly (300) is formed into a filter screen mounting opening (350) into which the filter screen assembly (330) can be inserted after the first air inlet shell (310) and the second air inlet shell (320) are connected.

7. The fresh air outlet control method according to claim 4, wherein: also comprises a pressing plate (700) arranged between the second air inlet shell (320) and the first air outlet shell (420).

8. The fresh air outlet control method according to claim 1, characterized in that: and a grille or mesh covering the air outlet (500).