CN114278996A - Cooling and heating air supply device and cooling and heating air supply device control method - Google Patents

Abstract

The application relates to a cooling and heating air supply device and a cooling and heating air supply device control method. Cold and warm air supply equipment includes: a body; the air supply part, the position detection device and the heating part are respectively and electrically connected with the controller; the position detection device is used for detecting whether the heating piece is at the heating position; the controller responds to a warm air mode starting instruction, and controls the heating piece and the air supply piece to be started when the heating piece is determined to be at the heating position based on the position detection device. Adopt this changes in temperature air supply equipment can promote user experience degree.

Description

Cooling and heating air supply device and cooling and heating air supply device control method

Technical Field

The present application relates to the field of electrical equipment technologies, and in particular, to a cooling and heating air supply device, a cooling and heating air supply device control method, an apparatus, a computer device, a storage medium, and a computer program product.

Background

With the development of electrical appliance technology, in order to realize refrigeration and heating with one object for multiple purposes, cold and warm air supply equipment is provided.

In the prior art, the cold and warm air supply equipment supplies air through the air supply part, and when the heating part is opened, the heating part is used for heating to enable the air supply part to supply warm air. When the heating member is closed, the air blowing member blows out cold air.

However, the requirements for the heat generating member are different due to the cold and warm modes. Therefore, how to coordinate the heating parts to adapt to different working modes meets the requirements of users, improves the user experience and provides a test.

Disclosure of Invention

In view of the above, it is desirable to provide a cooling and heating air supply apparatus and a cooling and heating air supply apparatus control method that can improve user experience.

In a first aspect, the present application provides a cooling and heating air supply apparatus, comprising:

a body;

the air supply part, the position detection device and the heating part are respectively electrically connected with the controller; the position detection device is used for detecting whether the heating piece is at a heating position or not;

the controller responds to a warm air mode starting instruction, and controls the heating piece and the air supply piece to be started when the position detection device determines that the heating piece is at the heating position.

In one embodiment, the controller controls the heat generating member to leave the heating position in a non-warm air mode.

In one embodiment, the method further comprises the following steps: the driving piece is connected to the machine body in a matched mode and is in transmission connection with the heating piece, the driving piece is electrically connected with the controller, and after the controller receives the opening instruction of the warm air mode, the driving piece is controlled to drive the heating piece to move from the standby position to the heating position when the position detection device determines that the heating piece is not located at the heating position.

In one embodiment, the method further comprises the following steps: the driving piece is connected to the machine body in a matched mode and is in transmission connection with the heating piece, the driving piece is electrically connected with the controller, the controller responds to a warm air mode exit instruction, controls the heating piece to be closed, and controls the driving piece to drive the heating piece to move from the heating position to the standby position.

In one embodiment, the warm air mode exit instruction comprises a cool air mode on instruction received in the warm air mode and a shutdown instruction received in the warm air mode;

when the warm air mode quit instruction is a shutdown instruction received in the warm air mode, the controller further controls the blower to be closed.

In one embodiment, when the warm air mode opening command is received in the cold air mode, the controller further controls the air blowing part to be closed when receiving the warm air mode opening command.

In a second aspect, the application also provides a control method of the cooling and heating air supply device. The method comprises the following steps: responding to a warm air mode starting instruction;

when the heating part is determined to be at the heating position based on the position detection device, controlling the heating part and the air supply part to be started;

wherein, the position detection device, the heating element and the air supply element are connected with the machine body in a matching way.

In one embodiment, the method further comprises: and controlling the heating member to leave the heating position when the heating member is in the non-warm air mode.

In one embodiment, after receiving the warm air mode start instruction, the method further includes:

when the position detection device determines that the heating element is not at the heating position, the driving element is controlled to drive the heating element to move from the standby position to the heating position;

wherein the driving member is coupled to the body.

In one embodiment, the method further comprises: in response to a warm air mode exit instruction, controlling the heating element to be closed, and controlling the driving element to drive the heating element to move from the heating position to the standby position;

wherein the driving member is coupled to the body.

In one embodiment, the warm air mode exit instruction comprises a cool air mode on instruction received in the warm air mode and a shutdown instruction received in the warm air mode;

and when the warm air mode exit instruction is a shutdown instruction received in the warm air mode, controlling the blower to be closed.

In one embodiment, when the warm air mode opening instruction is received in a cold air mode, the air supply part is also controlled to be closed.

According to the cold and warm air supply equipment and the cold and warm air supply equipment control method, the controller responds to the warm air mode starting instruction, and controls the heating piece and the air supply piece to be started when the heating piece is determined to be at the heating position based on the position detection device. After the air supply part is started, the air supply part sends out cold air, but because the heating part is started at the same time, the air supply part sends out warm air by self heating and heat transfer of the heating part. Under the warm braw mode, confirm that the piece that generates heat just controls the piece that generates heat and air supply part start when heating the position to make the piece that generates heat can adapt to different user demands, improved user experience.

Drawings

FIG. 1 is a schematic block diagram of a cooling and heating air supply device in one embodiment;

FIG. 2 is a flow chart illustrating a method for controlling a cooling/heating blower apparatus according to an embodiment;

fig. 3 is a flow chart of a cooling and heating air supply device control method in another embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In one embodiment, as shown in fig. 1, there is provided a cooling and heating air supply apparatus 10, comprising: a body 101; the air blowing part 106, the heat generating part 110, the position detecting device 104 and the controller 102 are coupled to the machine body 101, and the air blowing part 106, the position detecting device 104 and the heat generating part 110 are respectively electrically connected with the controller 102; the position detecting device 104 is used for detecting whether the heating element 110 is at a heating position; the controller 102 controls both the heat generating member 110 and the blowing member 106 to be activated when the position detecting device 104 determines that the heat generating member 110 is at the heating position in response to a warm air mode activation command.

Wherein, the cold and warm air supply device 10 is an air supply device which can supply cold air and warm air. When the cooling and heating air supply device 10 works in the cold air mode, the air supplied by the cooling and heating air supply device 10 is cold air; when the cooling and heating air supply device 10 operates in the warm air mode, the air supplied by the cooling and heating air supply device 10 is warm air.

The air blowing member 106 is a component for enabling the cooling and heating air blowing device 10 to blow air, when the controller 102 of the cooling and heating air blowing device 10 receives a cold air mode opening instruction, the controller 102 controls the air blowing member 106 to start, and the temperature of air blown by the air blowing member 106 is consistent with the temperature of air in the space environment, so that cold air is blown out. In one embodiment, when the cooling and heating blower apparatus 10 is a cooling and heating fan, the blower 106 is a wind wheel.

The heating element is a component which can be electrified at a heating position for heating, and the heating element generates heat by itself and transfers the heat to the surrounding environment. When the controller 102 of the cooling and warming air supply device 10 receives the warm air mode opening instruction, the controller 102 controls the air supply member 106 to start, and the temperature of air supplied by the air supply member 106 is higher than the temperature of air in the space environment due to self heating and heat transfer of the heating member, so as to blow out warm air. In one embodiment, when the cooling/heating air supply device 10 is a cooling/heating fan, the heat generating element 110 is a heat generating element.

The position detecting device 104 is a component that detects the position of the heat generating member 110, the position detecting device 104 is electrically connected to the controller 102, and when the heat generating member 110 moves to the heating position or the standby position, the position detecting device 104 generates a detection result and transmits the corresponding detection result to the controller 102. Wherein, the detection result includes state information at the heating position and state information at the standby position, and the state information indicates that the heat generating member 110 is at the heating position or the heat generating member 110 is at the standby position.

In one embodiment, the position detection device 104 includes a heating switch disposed at the heating position and a standby switch disposed at the standby position. When the heating member 110 reaches the heating position, it contacts the heating switch, and the heating switch is closed by touch control, and when the heating switch is closed, the detection result generated by the position detection device 104 is: the state information at the heating position is 1, and the state information at the standby position is 0. When the heat generating member 110 reaches the standby position, it contacts the standby switch, and the touch switches the standby switch, and when the standby switch is closed, the position detecting device 104 generates the following detection results: the state information at the heating position is 0, and the state information at the standby position is 1.

Note that the representation of the status information is not limited to the example described above.

The warm air mode opening instruction is generated based on the user operation, including but not limited to touch input or voice input, to select the opening warm air mode.

The controller 102 is a logic control device that controls each component electrically connected thereto. The controller 102 may be any suitable computing device, and in one embodiment, the controller 102 is an MCU (Microcontroller Unit).

In the warm air mode, the controller 102 responds to a warm air mode opening instruction, and when it is determined that the heating member 110 reaches the heating position based on the position detection device 104, the heating member 110 and the air supply member 106 can be controlled to be started, and the heating member 110 heats itself after being started, so that the air supply member 106 supplies warm air. The cooling and heating air supply device 10 is provided with an air outlet communicating with the outside on the body 101 for supplying air. The heating position is usually arranged at the air outlet of the cooling and heating air supply device. The heat of the heated heat generating member 110 is taken out from the air outlet through the air blowing member 106 to form warm air.

In this embodiment, the controller controls the heating member and the blowing member to start when it is determined that the heating member is at the heating position based on the position detection means in response to the warm air mode start instruction. After the air supply part is started, the air supply part sends out cold air, but because the heating part is started at the same time, the air supply part sends out warm air by self heating and heat transfer of the heating part. Under the warm braw mode, confirm that the piece that generates heat just controls the piece that generates heat and air supply part start when heating the position to make the piece that generates heat can adapt to different user demands, improved user experience.

In one embodiment, the controller controls the heat generating member to leave the heating position in a non-warm air mode.

The non-warm air mode is a working mode which does not provide warm air for the user when the cold and warm air supply device works in other modes except the warm air mode. In one embodiment, the non-warm air mode includes a cool air mode. The non-warm air mode opening instruction is generated based on user operation selection to open the non-warm air mode, and the user operation includes but is not limited to touch input or voice input. In one embodiment, when the non-warm air mode is the cool air mode, the non-warm air mode activation command is a cool air mode activation command.

When the controller responds to a non-warm air mode starting instruction, the cold and warm air supply device enters a non-warm air mode, and the controller responds to the non-warm air mode starting instruction and controls the heating piece to leave the heating position because the heating piece does not need to be heated at the heating position in the non-warm air mode. As mentioned above, the heating position is located at the air outlet of the cooling and heating air supply device. In order to avoid the air supply from the air outlet by the heating body in the non-warm air mode. Therefore, the controller needs to move the heat generating member out of the heating position.

In this embodiment, when the cooling and heating air supply device is in the non-warm air mode, the controller controls the heating element to leave the heating position, so that the heating element does not affect the air supply of the air feeder in the non-warm air mode.

In one embodiment, as shown in fig. 1, the cooling and heating air supply device 10 further includes: a driving member 108 coupled to the body 101 and in transmission connection with the heating member 110, wherein the driving member 108 is electrically connected to the controller 102, and after the controller 102 receives the warm air mode start command, the controller controls the driving member 108 to drive the heating member 110 to move from the standby position to the heating position based on the position detection device 104 determining that the heating member 110 is not at the heating position.

The driving member 108 is connected to the heating member in a transmission manner, and is controlled to drive the heating member 110 to move. The driving member 108 is controlled to drive the heat generating member 110 to move between the standby position and the heating position to switch between the cool wind mode and the warm wind mode. In one embodiment, the driving member 108 is a heat generating member 110 driving a motor. In one embodiment, when the cooling/heating blower apparatus 10 is a cooling/heating fan, the driving member 108 is a heating element driving motor.

The standby position is a position where the heat generating member 110 is located when the cooling/heating air supply apparatus 10 is in the cooling mode. When the heat generating member 110 is in the standby position, the heat generating member 110 cannot heat itself at this position, and therefore the air blower blows cool air.

When the controller 102 receives the warm air mode activation command, if the position detection device 104 determines that the heating member 110 is not at the heating position, the driving member 108 is controlled to drive the heating member 110 to move from the standby position to the heating position. When the heating member 110 does not reach the heating position, the heating member 110 cannot be heated at this time, and therefore, the air sent by the air sending member 106 is cold air during the period from when the heating member 110 reaches the heating position after responding to the warm air mode opening instruction. In order to avoid the user from blowing the cold wind, the controller 102 controls the driving member 108 to drive the heating member 110 to move from the standby position to the heating position during the period.

In this embodiment, after the controller receives the warm braw mode opening instruction, when confirming based on position detection device that the piece that generates heat is not at the heating position, control driving piece drive generate heat the piece from standby position to the removal of heating position to when the piece that generates heat is at standby position, can move to the heating position, heat the piece that generates heat, make air supply piece send out the warm braw.

In one embodiment, the cooling and heating air supply device further comprises: the driving piece is connected to the machine body in a matched mode and is in transmission connection with the heating piece, the driving piece is electrically connected with the controller, the controller responds to a warm air mode exit instruction, controls the heating piece to be closed, and controls the driving piece to drive the heating piece to move from the heating position to the standby position.

The driving part is a part which is in transmission connection with the heating part and is controlled to drive the heating part to move. The driving piece is controlled to drive the heating piece to move between the standby position and the heating position so as to realize the switching between the cold air mode and the warm air mode. In one embodiment, the driving member is a heating member driving motor. In one embodiment, when the cooling and heating air supply device is a cooling and heating fan, the driving element is a heating element driving motor.

The warm air mode exit instruction is generated based on a user operation selecting the warm air mode to be turned off, the user operation including but not limited to a touch input or a voice input.

When the controller responds to the warm air mode exit instruction, the controller controls the heat generating member to be turned off because the warm air mode exit instruction indicates that the user needs to turn off the warm air mode. After the heating element is closed, the heating element can not be heated any more, and at the moment, if the controller continuously controls the air supply element to supply air, the supplied air is no longer warm air. The controller controls the heating element to be closed and controls the driving element to drive the heating element to move from the heating position to the standby position, and the standby position is close to the cold and warm air supply and the air outlet.

In this embodiment, when the controller responds to the warm air mode quitting instruction, the controller controls the heating element to be closed, so that the air supply element can not supply warm air any more. And meanwhile, the driving piece is controlled to drive the heating piece to move from the heating position to the standby position, so that the heating piece does not influence the air supply of the air feeder in the non-warm air mode.

In one embodiment, the warm air mode exit instruction includes a cool air mode on instruction received in the warm air mode and a shutdown instruction received in the warm air mode; when the warm air mode quit instruction is a shutdown instruction received in the warm air mode, the controller further controls the blower to be closed.

The warm air mode exit instruction refers to an instruction to exit the warm air mode. The exit from the warm air mode comprises two conditions, wherein the warm air mode is switched to the cold air mode, and the air supply part is closed to prevent air from being supplied.

The cold air mode opening instruction received in the warm air mode refers to that the controller receives the cold air mode opening instruction in the process that the cold and warm air supply equipment works in the warm air mode. And receiving a cold air mode starting instruction in the warm air mode, and correspondingly switching the warm air mode into the cold air mode. The cold and warm air supply equipment can also be used for receiving a warm air mode starting instruction by the controller in a cold air mode and correspondingly switching the cold air mode into the warm air mode. Namely, the cold and warm air supply equipment can realize free switching between the cold air mode and the warm air mode.

The shutdown instruction received in the warm air mode refers to that the controller receives the shutdown instruction in the process that the cold and warm air equipment works in the warm air mode. The shutdown instruction is generated based on a user operation selection shutdown, and the user operation includes but is not limited to touch input or voice input. Here, the shutdown means that the air blower is turned off and does not blow air. Under the shutdown state, the controller controls the heating element to be closed and can still control the driving element to move from the heating position to the standby position.

In this embodiment, when the warm air mode exit instruction is a shutdown instruction received in the warm air mode, the blower is controlled to be turned off, so that the blower does not blow air any more when exiting the warm air mode.

In one embodiment, when the warm air mode on command is received in the cool air mode, the controller further controls the air blowing member to be turned off when the warm air mode on command is received.

The receiving of the warm air mode opening instruction in the cold air mode means that the controller receives the warm air mode opening instruction in the process that the cold and warm air supply equipment works in the cold air mode. And receiving a warm air mode starting instruction in the cold air mode, and indicating that the cold and warm air supply equipment is switched from the cold air mode to the warm air mode.

When the warm air mode opening instruction is received in the cold air mode, and the controller receives the warm air mode opening instruction, if the heating piece is determined not to be at the heating position based on the position detection device, the heating piece cannot be heated, so that cold air can be sent out if the air supply piece is opened. When the heating member is to be heated and the air supply member is to be started to supply warm air, the controller is required to control the driving member to drive the heating member to move from the standby position to the heating position. In the process that the driving piece is controlled by the controller to drive the heating piece to move to the heating position, the controller is also required to control the air supply piece to be closed, so that the air supply piece can not supply air, and therefore a user can not blow cold air in the period from the time when the controller responds to a warm air mode opening instruction to the time when the heating piece reaches the heating position.

In this embodiment, when the controller received behind the warm braw mode opening instruction, still controlled air supply spare and closed to in a period after responding to the warm braw mode opening instruction, air supply spare can not send out cold wind, is favorable to promoting user experience and feels.

The limitation of the control method of the cooling and heating air supply device refers to the relevant limitation of the cooling and heating air supply device, which is not described herein again.

In one embodiment, as shown in fig. 2, a method for controlling a cooling and heating air supply device is provided, which is described by taking the method as an example applied to the cooling and heating air supply device in fig. 1, and comprises the following steps:

step 202, responding to a warm air mode opening instruction.

204, controlling the heating part and the air supply part to be started when the heating part is determined to be at the heating position based on the position detection device; wherein, the position detection device, the heating element and the air supply element are connected with the machine body in a matching way.

In the control method of the cold and warm air supply equipment, the controller responds to a warm air mode starting instruction and controls the heating element and the air supply element to start when the heating element is determined to be at the heating position based on the position detection device. After the air supply part is started, the air supply part sends out cold air, but because the heating part is started at the same time, the air supply part sends out warm air by self heating and heat transfer of the heating part. Under the warm braw mode, confirm that the piece that generates heat just controls the piece that generates heat and air supply part start when heating the position to make the piece that generates heat can adapt to different user demands, improved user experience.

In one embodiment, the cooling and heating air supply device control method further comprises: and controlling the heating member to leave the heating position when the heating member is in the non-warm air mode.

In this embodiment, when the cooling and heating air supply device is in the non-warm air mode, the controller controls the heating element to leave the heating position, so that the heating element does not affect the air supply of the air feeder in the non-warm air mode.

In one embodiment, after receiving the warm air mode start instruction, the method further includes:

when the position detection device determines that the heating element is not at the heating position, the driving element is controlled to drive the heating element to move from the standby position to the heating position; wherein the driving member is coupled to the body.

In this embodiment, after the controller receives the warm braw mode opening instruction, when confirming based on position detection device that the piece that generates heat is not at the heating position, control driving piece drive generate heat the piece from standby position to the removal of heating position to when the piece that generates heat is at standby position, can move to the heating position, heat the piece that generates heat, make air supply piece send out the warm braw.

In one embodiment, the cooling and heating air supply device control method further comprises: in response to a warm air mode exit instruction, controlling the heating element to be closed, and controlling the driving element to drive the heating element to move from the heating position to the standby position; wherein the driving member is coupled to the body.

In this embodiment, when the controller responds to the warm air mode quitting instruction, the controller controls the heating element to be closed, so that the air supply element can not supply warm air any more. And meanwhile, the driving piece is controlled to drive the heating piece to move from the heating position to the standby position, so that the heating piece does not influence the air supply of the air feeder in the non-warm air mode.

In one embodiment, the warm air mode exit instruction includes a cool air mode on instruction received in the warm air mode and a shutdown instruction received in the warm air mode;

and when the warm air mode exit instruction is a shutdown instruction received in the warm air mode, controlling the blower to be closed.

In this embodiment, when the warm air mode exit instruction is a shutdown instruction received in the warm air mode, the blower is controlled to be turned off, so that the blower does not blow air any more when exiting the warm air mode.

In one embodiment, when the warm air mode opening instruction is received in the cold air mode, the air supply part is also controlled to be closed.

In this embodiment, when the controller received behind the warm braw mode opening instruction, still controlled air supply spare and closed to in a period after responding to the warm braw mode opening instruction, air supply spare can not send out cold wind, is favorable to promoting user experience and feels.

In one embodiment, as shown in fig. 3, the method for controlling a cooling and heating air supply device includes steps 402-406, wherein:

in step 402, responding to a warm air mode opening instruction, the warm air mode opening instruction is to receive the warm air mode opening instruction in a cold air mode.

And step 404, when the heating element is determined not to be at the heating position based on the position detection device, controlling the driving element to drive the heating element to move from the standby position to the heating position, and controlling the air supply element to be closed.

And 406, controlling the heating part and the air supply part to be started when the heating part is determined to be at the heating position based on the position detection device.

When the warm air mode opening instruction received by the controller is the warm air mode opening instruction received under the cold air mode, the heating piece is not located at the heating position, and the driving piece is controlled to drive the heating piece to move to the heating position. In the process of driving the heating part to move to the heating position, the controller also controls the air supply part to be closed at the same time because the air supply part supplies cold air at the moment, so that the air supply part can not supply air, and a user can not blow the cold air. When the controller determines that the heating part is at the heating position according to the position detection device, the controller controls the heating part and the air supply part to start, and at the moment, the air supply part supplies warm air.

In this embodiment, the controller only controls the piece that generates heat and the air supply piece starts when heating the position based on the position detection device is confirmed to generate heat, and the in-process that the piece that generates heat and remove through the driving piece drive is closed through controlling the air supply piece to make the user can not blow cold wind, can promote user experience.

It should be understood that, although the steps in the flowcharts related to the embodiments as described above are sequentially displayed as indicated by arrows, the steps are not necessarily performed sequentially as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a part of the steps in the flowcharts related to the embodiments described above may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the execution order of the steps or stages is not necessarily sequential, but may be rotated or alternated with other steps or at least a part of the steps or stages in other steps.

It should be noted that, the user information (including but not limited to user device information, user personal information, etc.) and data (including but not limited to data for analysis, stored data, presented data, etc.) referred to in the present application are information and data authorized by the user or sufficiently authorized by each party.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, database, or other medium used in the embodiments provided herein may include at least one of non-volatile and volatile memory. The nonvolatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical Memory, high-density embedded nonvolatile Memory, resistive Random Access Memory (ReRAM), Magnetic Random Access Memory (MRAM), Ferroelectric Random Access Memory (FRAM), Phase Change Memory (PCM), graphene Memory, and the like. Volatile Memory can include Random Access Memory (RAM), external cache Memory, and the like. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others. The databases referred to in various embodiments provided herein may include at least one of relational and non-relational databases. The non-relational database may include, but is not limited to, a block chain based distributed database, and the like. The processors referred to in the embodiments provided herein may be general purpose processors, central processing units, graphics processors, digital signal processors, programmable logic devices, quantum computing based data processing logic devices, etc., without limitation.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present application shall be subject to the appended claims.

Claims (12)

1. A cold and warm air supply device is characterized by comprising:

a body;

the air supply part, the position detection device and the heating part are respectively electrically connected with the controller; the position detection device is used for detecting whether the heating piece is at a heating position or not;

the controller responds to a warm air mode starting instruction, and controls the heating piece and the air supply piece to be started when the position detection device determines that the heating piece is at the heating position.

2. The air conditioning and supply apparatus of claim 1, wherein the controller controls the heat generating member to move away from the heating position in a non-warm air mode.

3. A cooling and heating air supply apparatus according to claim 1 or 2, further comprising: the driving piece is connected to the machine body in a matched mode and is in transmission connection with the heating piece, the driving piece is electrically connected with the controller, and after the controller receives the opening instruction of the warm air mode, the driving piece is controlled to drive the heating piece to move from the standby position to the heating position when the position detection device determines that the heating piece is not located at the heating position.

4. The cooling and heating air supply apparatus according to claim 2, further comprising: the driving piece is connected to the machine body in a matched mode and is in transmission connection with the heating piece, the driving piece is electrically connected with the controller, the controller responds to a warm air mode exit instruction, controls the heating piece to be closed, and controls the driving piece to drive the heating piece to move from the heating position to the standby position.

5. The air conditioning supply apparatus of claim 4, wherein the warm air mode exit instruction comprises a cool air mode on instruction received in the warm air mode and a shutdown instruction received in the warm air mode;

when the warm air mode quit instruction is a shutdown instruction received in the warm air mode, the controller further controls the blower to be closed.

6. The cooling and heating air supply apparatus according to claim 3, wherein when the warm air mode on command is received in the cool air mode, the controller further controls the air blowing member to be turned off when receiving the warm air mode on command.

7. A control method for a cold and warm air supply device is characterized by comprising the following steps:

responding to a warm air mode starting instruction;

when the heating part is determined to be at the heating position based on the position detection device, controlling the heating part and the air supply part to be started;

wherein, the position detection device, the heating element and the air supply element are connected with the machine body in a matching way.

8. The cold and warm air supply apparatus control method according to claim 7, further comprising: and controlling the heating member to leave the heating position when the heating member is in the non-warm air mode.

9. The cooling and heating air supply apparatus control method according to claim 7 or 8, further comprising, after receiving the warm air mode on command:

controlling a driving member to drive the heating member to move from a standby position to a heating position when the position detection device determines that the heating member is not at the heating position;

wherein the driving member is coupled to the body.

10. The cooling and heating air supply apparatus control method according to claim 8, further comprising: controlling the heating element to be closed in response to a warm air mode exit instruction, and controlling a driving element to drive the heating element to move from the heating position to a standby position;

wherein the driving member is coupled to the body.

11. The cooling and heating air supply apparatus control method according to claim 10, wherein the warm air mode exit instruction includes a cool air mode on instruction received in the warm air mode and a shutdown instruction received in the warm air mode;

and when the warm air mode exit instruction is a shutdown instruction received in the warm air mode, controlling the blower to be closed.

12. The cooling and heating air supply apparatus control method according to claim 9, wherein when the warm air mode on command is received in a cool air mode, the air supply member is further controlled to be turned off.

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