CN113685899B - Shared air conditioner device, shared air conditioner system and control method - Google Patents

Abstract

The present invention provides a shared air conditioner device, a shared air conditioner system and a control method. The shared air conditioner device includes an indoor unit and a rotating bracket. A rotating assembly is arranged on the indoor unit. The other end of the rotating assembly is connected to the rotating bracket. Under the action of the rotating assembly, the indoor unit can rotate horizontally on the rotating bracket. The shared air conditioner device, the shared air conditioner system and the control method of the present invention realize the purpose of the air conditioner working in different rooms by rotating the indoor unit, so that one indoor unit can control the temperature and humidity of two rooms in turn, improve the utilization rate of the air conditioner, and facilitate energy saving and emission reduction.

Description

Shared air conditioner device, shared air conditioner system and control method

Technical Field

The invention relates to the technical field of air conditioning equipment, in particular to a shared air conditioner device, a shared air conditioner system and a control method.

Background

With the continuous improvement of living standard, air conditioners have come into thousands of households, and a comfortable environment which is warm in winter and cool in summer is provided for people.

The traditional household wall-mounted air conditioner is used, so that a user often needs to install a plurality of sets of air conditioners to meet the use requirements of different spaces, the cost is high, meanwhile, the operation power consumption of the plurality of air conditioners is high at the same time, and the price and the resources are wasted under the condition of insufficient use duration of the rooms.

Disclosure of Invention

Aiming at the problem that the existing air conditioner cannot meet the requirements of low-income household users and special tenants, the invention provides a shared air conditioner device, a shared air conditioner system and a control method.

In order to solve the problems, the invention discloses a shared air conditioner device which comprises an indoor unit and a rotating bracket, wherein a rotating assembly is arranged on the indoor unit, the other end of the rotating assembly is connected with the rotating bracket, and under the action of the rotating assembly, the indoor unit can horizontally rotate on the rotating bracket.

According to the application, through the rotating assembly arranged on the indoor unit, the air conditioner can work on different rooms or different areas of the same room through rotating the air conditioner, so that one air conditioner can control the temperature and the humidity of two rooms or a plurality of areas in sequence, the utilization rate of the air conditioner is improved, and the energy conservation and the emission reduction are facilitated.

Preferably, the indoor unit is provided with a containing groove, and the rotating assembly is arranged in the containing groove.

The arrangement is convenient for the indoor unit to have a larger rotation angle in the rotation process, the rotation of the indoor unit is prevented from being influenced by the interference of the wall body, and the reliability of the shared air conditioner device for adjusting humidity and temperature of different areas or rooms is improved.

Preferably, the indoor unit is provided with an inner unit connecting pipe and an outer unit connecting pipe, and the accommodating groove is arranged at a position close to the inner unit connecting pipe and the outer unit connecting pipe.

The setting is convenient for the indoor set in the rotation in-process, and the position of indoor and outdoor set connecting pipe can not take place great change to because the rotation of indoor set leads to the indoor and outdoor set connecting pipe to appear becoming flexible or the risk that the condensing agent revealed.

Preferably, the rotating assembly and the rotating bracket are in power transmission through a transmission mode of gear engagement.

Preferably, the rotating assembly comprises a first driving motor, a driving gear is arranged on the first driving motor, the rotating support comprises a transmission shaft, a connecting groove is formed in the transmission shaft, and the driving gear can extend into the connecting groove to carry out gear engagement transmission.

The mode ensures the reliability of horizontal rotation movement of the indoor unit under the action of the rotating assembly and the rotating bracket.

Preferably, the rotating bracket comprises a plate body, a sliding rail is arranged on the plate body, a pulley is arranged on the lower surface of the indoor unit, and the pulley can extend into the sliding rail to perform sliding motion.

The arrangement ensures that the pulley can guide and slide in the sliding rail when the indoor unit horizontally rotates on the rotating bracket, thereby enhancing the reliability of the movement of the indoor unit during rotation.

Another object of the present invention is to disclose a shared air conditioner system, including the shared air conditioner device as described above, further including a first wall, a hollowed-out groove is provided on the first wall, a partition is provided at the hollowed-out groove, the shared air conditioner device is provided at one side of the partition, and the partition can open or close the hollowed-out groove, so that an indoor unit on the shared air conditioner device can independently perform indoor temperature adjustment on the first area or the second area.

The arrangement ensures that the shared air conditioner device can independently regulate the temperature of a plurality of different rooms, ensures the reliability of the efficiency of the shared air conditioner system during working, and avoids energy consumption loss.

Preferably, the partition is connected to a drive device, and the partition is subjected to a rotational movement and/or a sliding movement under the influence of the drive device.

Preferably, the first area and the second area are adjacent rooms using the first wall as a public wall.

This setting is installed indoor set on the wall of two adjacent space commonss for indoor set rotates under the effect of rotating the subassembly in the fretwork inslot on first wall, realizes indoor temperature regulation of indoor set to different spaces through rotatory, need not remove the organism or change the pipeline direction of connection.

Preferably, the driving device comprises a second driving motor and a rotating shaft, the second driving motor is arranged on the wall body at the hollowed-out groove, the rotating shaft is arranged on one side of the partition board, and the rotating shaft drives the partition board to rotate under the action of the second driving motor.

The setting discloses a baffle pivoted actuating structure, drives the baffle through the motor and rotates and realize baffle rotary motion, and then adjusts the open-close state of fretwork groove.

Preferably, a limiting structure is arranged at the hollow groove on the first wall body and used for limiting the rotation movement of the partition plate.

The arrangement ensures the reliability of opening or closing the hollow groove in the rotation process of the partition plate, and further improves the efficiency of the shared air conditioner system during operation.

It is a further object of the present invention to disclose a control method of a shared air conditioner apparatus, applied to the shared air conditioner apparatus as described above and/or to the shared air conditioner system as described above.

Preferably, the control method of the shared air conditioner device includes the steps of:

The method comprises the steps of presetting a signal for the room position of an area where an indoor unit is located;

after the indoor unit is started, detecting the position of the area where the indoor unit is positioned;

The indoor unit receives a required working signal and judges whether the position of the area where the indoor unit is required to be positioned by the signal is the same as the position of the area where the current indoor unit is positioned;

If yes, the indoor unit works normally;

If not, the indoor unit and the partition board are controlled to do rotary motion respectively, so that the indoor unit rotates to the position of the area where the working signal is required.

According to the control method of the shared air conditioner device, the purpose that the air conditioner works in different rooms is achieved through rotating the indoor units, so that one indoor unit can control the temperature and the humidity of two rooms in sequence, the indoor unit works in different rooms through the arranged partition plates, the utilization rate of the air conditioner is improved, and energy conservation and emission reduction are achieved.

Preferably, when the indoor unit is in a room in the second area, the partition plate seals the hollowed-out groove, and the position of the indoor unit is preset as a signal A;

After the indoor unit is started;

s1, detecting that an indoor unit is positioned in a room where a second area is positioned;

S11, when the indoor unit receives the working requirement of the signal A, the indoor unit works normally, and the temperature of a room where the second area is located is regulated;

S12, when the indoor unit receives the working requirement of the signal B, the driving device receives the signal, the driving motor on the driving device drives the rotating shaft to lift the partition board, the first driving motor of the rotating assembly drives the driving gear to rotate after receiving the signal, the pulley rotates 90 degrees clockwise along the sliding rail to enter a room where the first area is located, the position of the pulley is recorded as the signal B, the indoor unit normally operates, and the temperature of the room where the first area is located is regulated;

s2, detecting that the indoor unit is positioned in a room where the first area is positioned;

S21, when the indoor unit receives the working requirement of the signal A, the first driving motor of the rotating assembly drives the driving gear to rotate after receiving the signal, the pulley rotates 90 degrees anticlockwise along the sliding rail to enter a room where the second area is located, after receiving the signal, the driving motor on the driving device reversely rotates to drive the rotating shaft to drop the partition board, the hollow groove is closed, then the indoor unit starts to operate, and temperature adjustment is carried out on the room where the second area is located;

and S22, when the indoor unit receives the working requirement of the signal B, the indoor unit works normally, and the temperature of the room where the first area is located is regulated.

In summary, the shared air conditioner device, the shared air conditioner system and the control method of the invention can efficiently utilize the indoor units to be used in multiple spaces of one unit, thereby achieving the purposes of saving cost, energy conservation and emission reduction.

Drawings

Fig. 1 is a schematic structural diagram of a shared air conditioner according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an indoor unit in the shared air conditioner according to an embodiment of the present invention;

Fig. 3 is a schematic structural view of a rotating bracket in the shared air conditioner according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a shared air conditioner according to an embodiment of the present invention when the shared air conditioner works in a first area;

Fig. 5 is a schematic structural diagram of a shared air conditioner according to an embodiment of the present invention when the shared air conditioner works in a second area;

FIG. 6 is a schematic view of a separator according to an embodiment of the present invention;

FIG. 7 is a schematic view of a separator according to an embodiment of the present invention in a partially opened state;

FIG. 8 is a schematic view of a driving device for a partition board according to an embodiment of the present invention;

Reference numerals illustrate:

The indoor unit comprises a 1-indoor unit, a 101-pulley, a 2-accommodating groove, a 3-rotating assembly, a 301-first driving motor, a 302-driving gear, a 4-rotating support, a 401-plate body, a 402-sliding rail, a 403-first connecting plate, a 404-second connecting plate, a 405-transmission shaft, a 406-connecting groove, a 5-indoor and outdoor unit connecting pipe, a 6-partition board, a 7-driving device, a 701-second driving motor, a 702-third driving motor, a 703-rotating shaft, an 8-first area, a 9-second area, a 10-first wall body, a 11-second wall body, a 12-limiting structure, a 13-hollowed groove and a 14-ceiling.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Example 1

As shown in fig. 1-8, this embodiment discloses a shared air conditioner device, including an indoor unit 1 and a rotating bracket 4, a rotating assembly 3 is disposed on the indoor unit 1, the other end of the rotating assembly 3 is connected with the rotating bracket 4, and under the action of the rotating assembly 3, the indoor unit 1 can horizontally rotate on the rotating bracket 4.

According to the shared air conditioner device, the rotating support 1 is fixed on the wall, the indoor unit 1 is connected with the rotating support 4 through the rotating assembly 3, and the indoor unit 1 can horizontally rotate relative to the rotating support 4 under the driving action of the rotating assembly 3, so that the air outlets of the indoor unit 1 can be adjusted to different directions as required, and air conditioning of different areas or different rooms in the same room is realized.

According to the application, through the rotating assembly 3 arranged on the indoor unit 1, the air conditioner can work on different rooms or different areas of the same room through rotating the air conditioner, so that one air conditioner can control the temperature and the humidity of two rooms or a plurality of areas in sequence, the utilization rate of the air conditioner is improved, and the energy conservation and the emission reduction are facilitated.

As a preferred example of the present invention, a receiving groove 2 is provided in the indoor unit 1, and the rotating unit 3 is provided in the receiving groove 2.

The arrangement is convenient for the indoor unit 1 to have a larger rotating angle in the rotating process, the rotation of the indoor unit 1 is prevented from being influenced by the interference of the wall body, and the reliability of the shared air conditioner device for adjusting humidity and temperature of different areas or rooms is improved.

As a preferred example of the present invention, an indoor unit 1 is provided with an indoor unit connection pipe 5 for connecting an indoor unit and an outdoor unit, and the housing groove 2 is provided near the indoor unit connection pipe 5.

This setting is convenient for indoor set 1 in the rotation in-process, and the position of indoor and outdoor set connecting pipe 5 can not take place great change to because the rotation of indoor set 1 leads to the indoor and outdoor set connecting pipe to appear becoming flexible or the risk that the condensing agent revealed.

As a preferred example of the present invention, the rotating assembly 3 and the rotating bracket 4 are driven by a gear engaged transmission mode. Preferably, the rotating assembly 3 can be driven to rotate by a driving structure, and can also be driven to rotate by an applied external force, specifically, the rotating assembly 3 comprises a first driving motor 301, a driving gear 302 is arranged on the first driving motor 301, the rotating bracket 4 comprises a transmission shaft 405, a connecting groove 406 is arranged on the transmission shaft 405, and the driving gear 302 can extend into the connecting groove 406 to carry out gear engagement transmission. As an example of the present invention, the first driving motor 301 is disposed at the upper end of the accommodating groove 2, a driving gear 302 is disposed at the lower end of the first driving motor 301, the driving gear 302 is driven by the first driving motor 301 to rotate, the transmission shaft 405 is disposed below the first driving motor 301, the connection groove 406 is disposed at the upper end of the transmission shaft 405, the driving gear 302 extends into the connection groove 406 from top to bottom and can perform gear engagement transmission, and the lower end of the transmission shaft 405 is fixedly connected with the connection plate 401 of the rotating bracket 4. As an example of the present invention, the first driving motor 301 is a stepper motor, and when in use, the stepper motor receives a signal, and drives the driving gear 302 to rotate, and the transmission shaft 405 on the rotating bracket 4 is fixed, so that the indoor unit rotates.

This ensures the reliability of the horizontal rotational movement of the indoor unit 1 by the rotating assembly 3 and the rotating bracket 4.

As a preferred example of the present invention, the rotating bracket 4 includes a plate 401, a slide rail 402 is provided on the plate 401, and a pulley 101 is provided on a lower surface of the indoor unit 1, and the pulley 101 can extend into the slide rail 402 for performing a rotational movement.

This setting is through setting up the pulley 101 that can 360 rotatory gliding in the air conditioner bottom, cooperates with the slide rail 402 on the runing rest 4, slide rail 402 is convex design for indoor set 1 when runing rest 4 horizontal rotation, pulley 101 can be in slide rail 402 internal direction slip, the reliability of motion when reinforcing indoor set 1 is rotatory.

As a preferred example of the present invention, the first connection plate 403 and the second connection plate 404 are respectively disposed at two ends of the plate body 401, and the first connection plate 403 and the second connection plate 404 are respectively fixed on the first wall body 10 and the second wall body 11.

As a preferred example of the present invention, the shared air conditioner further includes an outdoor unit, not shown, and the indoor and outdoor unit connection pipes 5 of the indoor unit 1 are connected to the outdoor unit through connection pipes.

In embodiment 2, as shown in fig. 1 to 8, the present invention further discloses a shared air conditioner system, which includes the shared air conditioner device described in embodiment 1, and further includes a first wall 10, a hollow groove 13 is disposed on the first wall 10, a partition board 6 is disposed at the hollow groove 13, the shared air conditioner device is disposed on one side of the partition board 6, and the partition board 6 can open or close the hollow groove 13, so that the indoor unit 1 on the shared air conditioner device can independently perform indoor temperature adjustment on the first area 8 or the second area 9.

The partition plate 6 can open or close the hollow groove 13 in a sliding or rotating mode, and the partition plate 6 can slide or rotate under the action of the driving device or can slide or rotate under the action of external force applied by a user.

Preferably, the partition 6 is connected to a drive 7, and the partition 6 can be driven to perform a rotational movement and/or a sliding movement by the drive of the drive 7.

Preferably, the first area 8 and the second area 9 are adjacent rooms using the first wall 10 as a common wall.

The indoor unit 1 is arranged on a wall surface shared by two adjacent spaces, so that the indoor unit 1 rotates in the hollow groove 13 on the first wall body 10 under the action of the rotating assembly 3, and indoor temperature adjustment of the indoor unit 1 to different spaces is realized through rotation without moving an engine body or changing the connection direction of a pipeline.

Preferably, as a preferred example of the present invention, the driving device 7 includes a second driving motor 701 and a rotating shaft 703, the second driving motor 701 is disposed on a wall body at the hollowed out groove 13, the rotating shaft 703 is disposed on one side of the partition board 6, and the rotating shaft 703 drives the partition board 6 to rotate under the action of the second driving motor 701.

This setting discloses a baffle 6 pivoted drive structure, drives the baffle through the motor and rotates and realize baffle 6 rotary motion, and then adjusts the open-close state of hollow 13.

Preferably, the driving device 7 further includes a third driving motor 702, the second driving motor 701 and the third driving motor 702 are respectively disposed at two ends of the rotating shaft 703, and the third driving motor 702 is also fixed on the wall body at the hollow groove 13.

This setting discloses a baffle 6 pivoted drive structure, rotates through the effect of two driving motor that set up at rotation axis 703 both ends, avoids the instability when unilateral motor drive drives, guarantees baffle 6 rotary motion's reliability.

As an example of the present invention, the second driving motor 701 and the third driving motor 702 are also stepper motors, the motor wires are connected to the main board of the internal machine, and the motor drives the partition to rotate, so that the on-off state of the partition can be realized.

Preferably, as a preferred example of the present invention, a limiting structure 12 is disposed at a hollow groove 13 on the first wall 10, and the limiting structure 12 is used for limiting the rotation movement of the partition board 6. As an example of the present invention, the step structure of the limiting structure 12 is used for limiting the partition board 6 when closing the hollow groove 13, the step structure enables the partition board 6 to perform rotational movement only on one side of the hollow groove 13, and the partition board 6 can be limited by the ceiling 14 at the hollow groove 13 when opening the hollow groove 13.

As an example of the present invention, the indoor unit 1 is preferably a wall-mounted air conditioner.

As a preferred example of the present invention, the rotation of the shared air conditioner and the rotation of the partition 6 are controlled by a control device, which is used to control the indoor unit 1 to rotate in the horizontal direction when the user gives a steering command, so that the air outlet faces the target area, and the partition 6 is correspondingly used to open or close the hollow groove 13 under the control command. Alternatively, the user sends a steering command through the remote controller with a rotation control function, so as to control the indoor unit 1 to horizontally rotate.

Embodiment 3 the present invention also discloses a control method of the shared air conditioner device, which is applied to the shared air conditioner device as described in embodiment 1 or the shared air conditioner system as described in embodiment 2, so that the indoor unit 1 performs horizontal rotation under the action of the rotation component 3.

The horizontal rotation of the indoor unit 1 may be an electric rotation by a received signal and a control program, or a manual rotation by a user as needed.

Preferably, the control method of the shared air conditioner device includes the steps of:

the method comprises the steps of presetting a signal for the room position of an area where an indoor unit 1 is located;

after the indoor unit 1 is started, detecting the position of the area where the indoor unit 1 is positioned;

The indoor unit 1 receives a required working signal and judges whether the position of the area where the signal requires the indoor unit 1 is the same as the position of the area where the current indoor unit 1 is;

If yes, the indoor unit 1 works normally;

If not, the partition board 6 and the indoor unit 1 are controlled to perform rotary motion, so that the indoor unit 1 rotates to the position of the area where the working signal is required.

The operation signal of the indoor unit 1 may be an electrical signal provided by a remote controller, or an artificial request signal of a user, or the partition board 6 and/or the indoor unit 1 may be electrically rotated or fixed under the driving action of an electric device, or the partition board 6 and/or the indoor unit 1 may be manually rotated or fixed by the user through an external force applied.

Specifically, taking the first area 8 and the second area 9 as examples, the two rooms share the indoor unit 1, the rooms should meet the requirement of the working area of the indoor unit 1, and the usage effect of the air conditioner should not be affected if the working area exceeds the range. For example, the two rooms meet the working area of a 1.5P air conditioner, and the indoor unit 1 is a 1.5P on-hook.

When the indoor unit 1 is in the room of the second area 9, the partition board 6 seals the hollowed-out groove 13, and the position of the indoor unit 1 is preset to be a signal A, and when the indoor unit 1 is in the room of the first area 8, the partition board 6 opens the hollowed-out groove 13, and the position of the indoor unit 1 is preset to be a signal B;

after the indoor unit 1 is started;

S1, detecting that the indoor unit 1 is positioned in a room in a second area 9;

s11, when the indoor unit 1 receives the working requirement of the signal A, the indoor unit 1 works normally, and the temperature of a room where the second area 9 is located is regulated;

S12, when the indoor unit 1 receives the working requirement of the signal B, the driving device 7 receives the signal, the driving motor on the driving device 7 drives the rotating shaft 703 to lift the partition board 6, the first driving motor of the rotating assembly 3 drives the driving gear 302 to rotate after receiving the signal, the pulley 101 rotates 90 degrees clockwise along the sliding rail 402 to enter a room where the first area 8 is located, the position of the pulley is recorded as the signal B, the indoor unit 1 operates normally, and the temperature of the room where the first area 8 is located is regulated;

s2, detecting that the indoor unit 1 is positioned in a room in which the first area 8 is positioned;

S21, when the indoor unit 1 receives the working requirement of the signal A, the first driving motor 301 of the rotating assembly 3 drives the driving gear 302 to rotate after receiving the signal, the pulley 101 rotates 90 degrees along the sliding rail 402 anticlockwise to enter a room where the second area 9 is located, after receiving the signal, the driving device 7 reversely rotates the driving motor on the driving device 7 to drive the rotating shaft 703 to drop the partition board 6 to seal the hollow groove 13, and then the indoor unit 1 starts to operate to regulate the temperature of the room where the second area 9 is located;

And S22, when the indoor unit 1 receives the operation requirement of the signal B, the indoor unit 1 works normally, and the temperature of the room where the first area 8 is located is regulated.

As an example of the present invention, when the air outlet of the indoor unit 1 blows air to the room in the first area 8, the rear plate of the indoor unit 1 partially or completely seals the hollowed-out groove 13, so as to prevent the conditioned air in the room in the first area 8 from entering the room in the second area 9 through the hollowed-out groove 13, and when the air outlet of the indoor unit 1 blows air to the room in the second area 9, the partition plate 6 seals the hollowed-out groove 13 under the action of the driving device 7, so as to prevent the conditioned air in the room in the second area 9 from entering the room in the first area 8 through the hollowed-out groove 13. The arrangement ensures the reliability of the efficiency of the shared air conditioner system during operation and avoids energy consumption loss.

According to the control method of the shared air conditioner device, the purpose that the air conditioner works in different rooms is achieved through rotating the indoor units 1, so that one indoor unit 1 can control the temperature and the humidity of two rooms in sequence, the purpose that the indoor unit works in different rooms is achieved through the arranged partition plates 6, the utilization rate of the air conditioner is improved, and energy conservation and emission reduction are achieved.

The shared air conditioner device, the shared air conditioner system and the control method of the invention efficiently utilize the indoor units to achieve the purposes of saving cost, energy and emission.

Although the present invention is disclosed above, the present invention is not limited thereto. In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention, and the scope of the invention should be assessed accordingly to that of the appended claims.

Claims (4)

1. The shared air conditioning system is characterized by comprising an indoor unit (1) and a rotary support (4), wherein a rotating assembly (3) is arranged on the indoor unit (1), the other end of the rotating assembly (3) is connected with the rotary support (4), and the indoor unit (1) can horizontally rotate on the rotary support (4) under the action of the rotating assembly (3);

An accommodating groove (2) is formed in the indoor unit (1), and the rotating assembly (3) is arranged in the accommodating groove (2);

an inner and outer machine connecting pipe (5) is arranged on the indoor machine (1), and the accommodating groove (2) is arranged at a position close to the inner and outer machine connecting pipe (5);

The rotating component (3) and the rotating bracket (4) are in power transmission in a gear meshed transmission mode;

The rotary support (4) comprises a plate body (401), a sliding rail (402) is arranged on the plate body (401), a pulley (101) is arranged on the lower surface of the indoor unit (1), and the pulley (101) can extend into the sliding rail (402) to perform sliding motion;

The indoor temperature control device comprises a first wall body (10), and is characterized in that a hollowed groove (13) is formed in the first wall body (10), a partition board (6) is arranged at the hollowed groove (13), the indoor unit (1) is arranged on one side of the partition board (6), and the partition board (6) can open or close the hollowed groove (13), so that the indoor unit (1) can independently perform indoor temperature control on a first area (8) or a second area (9);

The partition board (6) is connected with the driving device (7), and the partition board (6) performs rotary motion or sliding motion under the action of the driving device (7);

the first area (8) and the second area (9) are adjacent rooms with a first wall (10) serving as a public wall;

the control method comprises the following steps:

the method comprises the steps of presetting a signal for the room position of an area where an indoor unit (1) is located;

After the indoor unit (1) is started, detecting the position of the area where the indoor unit (1) is positioned;

The indoor unit (1) receives a required working signal and judges whether the position of the area where the indoor unit (1) is required to be positioned by the signal is the same as the position of the area where the current indoor unit (1) is positioned;

if yes, the indoor unit (1) works normally;

if not, the indoor unit (1) and the partition board (6) are controlled to do rotary motion respectively, so that the indoor unit (1) rotates to the position of the area where the working signal is required.

2. The shared air conditioning system according to claim 1, wherein the rotating assembly (3) comprises a first drive motor (301), a drive gear (302) is arranged on the first drive motor (301), the rotating bracket (4) comprises a transmission shaft (405), a connecting groove (406) is arranged on the transmission shaft (405), and the drive gear (302) can extend into the connecting groove (406) for gear engagement transmission.

3. The shared air conditioning system according to claim 1, characterized in that a limiting structure (12) is arranged at the hollowed-out groove (13) on the first wall body (10), and the limiting structure (12) is used for limiting the rotation movement of the partition board (6).

4. The shared air conditioning system according to claim 1, wherein when the indoor unit (1) is in the room of the second area (9), the partition board (6) closes the hollowed-out groove (13), the position of the indoor unit (1) is preset to be the signal a, when the indoor unit (1) is in the room of the first area (8), the partition board (6) opens the hollowed-out groove (13), and the position of the indoor unit (1) is preset to be the signal B;

After the indoor unit (1) is started;

S1, detecting that the indoor unit (1) is positioned in a room where the second area (9) is positioned;

s11, when the indoor unit (1) receives the working requirement of the signal A, the indoor unit (1) works normally, and the temperature of a room where the second area (9) is located is regulated;

S12, when the indoor unit (1) receives the working requirement of the signal B, the driving device (7) receives the signal, the driving motor on the driving device (7) drives the rotating shaft (703) to lift the partition board (6), after the first driving motor of the rotating assembly (3) receives the signal, the driving gear (302) is driven to rotate, the pulley (101) rotates 90 degrees clockwise along the sliding rail (402) to enter a room where the first area (8) is located, the position of the pulley is recorded as the signal B, the indoor unit (1) operates normally, and the temperature of the room where the first area (8) is located is regulated;

S2, detecting that the indoor unit (1) is positioned in a room where the first area (8) is positioned;

S21, when the indoor unit (1) receives the working requirement of the signal A, a first driving motor (301) of the rotating assembly (3) receives the signal and drives a driving gear (302) to rotate, a pulley (101) rotates 90 degrees anticlockwise along a sliding rail (402) to enter a room where a second area (9) is located, after the driving device (7) receives the signal, the driving motor on the driving device (7) rotates reversely to drive a rotating shaft (703) to drop a partition board (6) to seal a hollow groove (13), and then the indoor unit (1) starts to operate to regulate the temperature of the room where the second area (9) is located;

And S22, when the indoor unit (1) receives the operation requirement of the signal B, the indoor unit (1) works normally, and the temperature of the room where the first area (8) is located is regulated.