WO2022183714A1

WO2022183714A1 - Control method for downward air-output air conditioner, and downward air-output air conditioner

Info

Publication number: WO2022183714A1
Application number: PCT/CN2021/119674
Authority: WO
Inventors: 李向凯; 郝本华; 矫立涛
Original assignee: 青岛海尔空调器有限总公司; 青岛海尔空调电子有限公司; 海尔智家股份有限公司
Priority date: 2021-03-02
Filing date: 2021-09-22
Publication date: 2022-09-09
Also published as: CN112944627B; CN112944627A

Abstract

A control method for a downward air-output air conditioner, and a downward air-output air conditioner. The method comprises: acquiring an air temperature in the middle of the bottom of a room, and controlling the number of graphene heating films (3) according to the air temperature; if the air temperature in the middle of the bottom of the room is lower than a preset temperature, increasing the number of started graphene heating films (3) according to the air temperature; and if the air temperature is higher than the preset temperature, reducing the number of graphene heating films (3) according to the air temperature. Heating layers for heating air and radiation layers for heating the bottom of the room are arranged in the graphene heating films (3), and temperature sensors (11, 12, 13) mounted at different heights are used to make a warm air control module (2) control, according to air temperatures at different heights of the room, different numbers of graphene heating films (3) to heat, such that the downward air-output air conditioner can change an air supply temperature at the bottom of the air conditioner according to a temperature change, and at the same time, the temperature at the bottom is quickly raised by using radiative heat transfer, thereby solving the problem of the temperature at the bottom of a room being excessively low when a cabinet air conditioner heats in winter.

Description

A control method of a down-flow air conditioner and a down-flow air conditioner

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the priority of the Chinese patent application with the application number of 202110232123.8, filed on March 2, 2021, and the invention title is "a control method of a down-flow air conditioner and a down-flow air conditioner", which are incorporated by reference in their entirety. into this article.

technical field

The present application relates to the technical field of air conditioners, and in particular, to a control method of a down-flow air conditioner and a down-flow air conditioner.

Background technique

With the improvement of people's living standards, air conditioners have become a must-use electrical appliance for modern people's homes and offices, especially in summer and winter, air conditioners are used for a long time. The air conditioner can cool in summer and heat in winter, and can adjust the indoor temperature to be warm in winter and cool in summer, providing users with a comfortable environment.

At present, most air conditioners have multiple modes such as cooling and heating. In the process of automatic control mode, they can automatically select cooling or heating according to the outdoor ambient temperature, and can automatically set the target temperature and temperature according to the indoor and outdoor temperatures. Fan speed, in order to achieve the purpose of indoor constant temperature as much as possible. However, during the heating process of the existing air conditioner, only the temperature sensor on the air conditioner is used to judge and control the heating process, and it is difficult to make the indoor temperature reach the set temperature. Especially when heating in winter, the cabinet air conditioner can easily cause the problem that the temperature at the bottom of the room is too low.

SUMMARY OF THE INVENTION

Embodiments of the present application provide a control method for a bottom-outlet air conditioner and a down-flow air conditioner, so as to solve the problem that the temperature of the bottom of the room is too low when the cabinet air conditioner is heated in winter.

The embodiments of the present application provide a control method for a bottom air conditioner, wherein the bottom air conditioner is provided with a plurality of temperature sensors and a multilayer graphene heating film; the graphene heating film includes: a heating layer for air heating and a radiant layer for heating at the bottom of the room;

The control method includes the following steps:

The temperature sensor obtains the air temperature in the middle of the room bottom, if the air temperature in the middle of the room bottom is at a preset temperature, according to the air temperature in the middle of the room bottom, the number of the graphene heating film is controlled to start;

If the air temperature in the middle of the bottom of the room is lower than the preset temperature, the temperature sensor obtains the air temperature at the lower end of the room bottom, and increases the number of activated graphene heating films according to the air temperature at the lower end of the room bottom;

If the air temperature in the middle of the bottom of the room is higher than the preset temperature, the temperature sensor obtains the air temperature at the upper end of the bottom of the room, and reduces the number of the graphene heating films that are activated according to the air temperature at the upper end of the bottom of the room.

According to the control method for a bottom outlet air conditioner provided by an embodiment of the present application, the number of the temperature sensors is three, including: a first temperature sensor, a second temperature sensor and a third temperature sensor installed in sequence from top to bottom.

According to the control method for a down-flow air conditioner provided by an embodiment of the present application, if the temperature measured by the second temperature sensor is within the first preset temperature interval, the warm air control module controls the number of corresponding to the first preset temperature interval. The graphene heating film is heated.

According to the control method for a down-flow air conditioner provided by an embodiment of the present application, if the temperature measured by the second temperature sensor is less than or equal to the lower limit threshold of the first preset temperature interval, the third temperature sensor is turned on, and if the When the temperature measured by the third temperature sensor is in the second preset temperature interval, the warm air control module controls the graphene heating film corresponding to the number of the second preset temperature interval to heat;

The upper threshold of the second preset temperature interval is less than or equal to the lower threshold of the first preset temperature interval, and the number of the graphene heating films corresponding to the second preset temperature interval is greater than that of the first preset temperature interval. The number of graphene heating films described above.

According to the control method for a down-flow air conditioner provided by an embodiment of the present application, if the temperature measured by the third temperature sensor is within a third preset temperature interval, the warm air control module controls all the number of corresponding third preset temperature intervals. The graphene heating film is heated;

Wherein, the upper threshold value of the third preset temperature interval is smaller than the lower threshold value of the second preset temperature interval, and the number of the graphene heating films corresponding to the third preset temperature interval is more than the number of the graphene heating films corresponding to the second preset temperature interval The number of graphene heating films.

According to the control method for a down-flow air conditioner provided by an embodiment of the present application, if the temperature measured by the second temperature sensor is greater than the upper limit threshold of the first preset temperature interval, the first temperature sensor is turned on, and if the temperature measured by the second temperature sensor is greater than the upper limit threshold of the first preset temperature interval When the temperature measured by a temperature sensor is in the fourth preset temperature interval, the warm air control module controls the graphene heating film corresponding to the number of the fourth preset temperature interval to heat;

Wherein, the lower threshold value of the fourth preset temperature interval is greater than the upper threshold value of the first preset temperature interval, and the number of the graphene heating films corresponding to the fourth preset temperature interval is smaller than that of the graphite corresponding to the first preset temperature interval The number of ene heating films.

According to the control method for a down-flow air conditioner provided by an embodiment of the present application, if the temperature measured by the first temperature sensor is within the fifth preset temperature interval, the warm air control module controls all the number of corresponding fifth preset temperature intervals. The graphene heating film is heated;

Wherein, the lower threshold value of the fifth preset temperature interval is greater than the upper threshold value of the fourth preset temperature interval, and the number of the graphene heating films corresponding to the fifth preset temperature interval is smaller than the number of the graphite heating films corresponding to the fourth preset temperature interval The number of ene heating films.

According to the control method for a down-flow air conditioner provided by an embodiment of the present application, if the temperature measured by the first temperature sensor is within a sixth preset temperature interval, the warm air control module controls all the corresponding numbers of the sixth preset temperature interval. The graphene heating film is heated;

Wherein, the lower threshold value of the sixth preset temperature interval is greater than the upper threshold value of the fifth preset temperature interval, and the number of the graphene heating films corresponding to the sixth preset temperature interval is smaller than the number of the graphite heating films corresponding to the fifth preset temperature interval The number of ene heating films.

The embodiment of the present application also provides a down-air air conditioner, comprising: a main control module, a warm air control module, the multilayer graphene heating film and a plurality of the temperature sensors;

The main control module, each of the graphene heating films and each of the temperature sensors are all connected with the heater control module circuit, and each of the temperature sensors is installed at intervals from top to bottom, and each of the temperature sensors is used for Detecting air temperatures in different height areas, so that the warm air control module controls different numbers of the graphene heating films to heat according to the temperature measured by each of the temperature sensors.

According to the bottom outlet air conditioner provided by an embodiment of the present application, the lower outlet air conditioner further includes: a WiFi control module, a mobile phone client and a cloud server; the main control module communicates with the WiFi control module, the cloud server and the cloud server through the WiFi control module, the cloud server The mobile phone client is communicatively connected.

In the control method of the down-air air conditioner provided by the present application, a heating layer for air heating and a radiation layer for heating at the bottom of the room are arranged in graphene, and the down-air outlet of the air conditioner is controlled by a temperature sensor and a graphene heating film, Use temperature sensors installed at different heights to obtain the air temperature at different heights of the room, so that the heater control module can control different numbers of graphene heating films to heat according to the air temperature at different heights in the room, so that the down-air air conditioner can be heated according to the temperature. Change the air supply temperature at the bottom of the air conditioner, and at the same time use the method of radiation heat transfer to quickly increase the bottom temperature, so as to solve the problem that the temperature at the bottom of the room is too low when the cabinet air conditioner is heated in winter.

Description of drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the following will briefly introduce the accompanying drawings used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description These are some embodiments of the present application. For those of ordinary skill in the art, other drawings can also be obtained based on these drawings without any creative effort.

Fig. 1 is a schematic flowchart of a control method of a down-flow air conditioner provided by an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a down-flow air conditioner provided by an embodiment of the present application;

FIG. 3 is a schematic structural diagram of another down-flow air conditioner provided by an embodiment of the present application;

In the figure, 1, temperature sensor; 11, first temperature sensor; 12, second temperature sensor; 13, third temperature sensor; 2, warm air control module; 3, graphene heating film; 4, main control module; 5 , cloud server; 6, mobile phone client; 7, WiFi control module.

Detailed ways

In order to make the purposes, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be described clearly and completely below with reference to the drawings in the embodiments of the present application. Obviously, the described embodiments It is a part of the embodiments of the present application, but not all of the embodiments. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present application.

The present application provides a control method for a down-flow air conditioner. The following describes the control method for a down-flow air conditioner provided by an embodiment of the present application with reference to FIG. 1 and FIG. 2 . The down-flow air conditioner is provided with a plurality of temperature sensors 1 and multiple layers of graphite. Graphene heating film 3; each layer of graphene heating film 3 includes: a heating layer and a radiation layer. Among them, the heating layer is used for air heating, and the radiant layer is directly used for heating at the bottom of the room.

The control method of the down-flow air conditioner includes the following steps:

Step S1: The temperature sensor obtains the air temperature in the middle of the bottom of the room. If the air temperature in the middle of the bottom of the room is at a preset temperature, the number of graphene heating films is controlled according to the air temperature in the middle of the bottom of the room.

Step S2: If the air temperature in the middle of the bottom of the room is lower than the preset temperature, the temperature sensor obtains the air temperature at the lower end of the room bottom, and increases the number of graphene heating films according to the air temperature at the lower end of the room bottom.

Step S3: If the air temperature in the middle of the bottom of the room is higher than the preset temperature, the temperature sensor obtains the air temperature at the upper end of the bottom of the room, and reduces the number of graphene heating films according to the air temperature at the upper end of the bottom of the room.

After the user selects the heating function, the main control module 4 sends a signal to the heating control module 2. After receiving the signal, the heating control module 2 can control all the temperature sensors 1 to start measuring the air temperature of the room at the same time, and each temperature sensor 1 can obtain different rooms. Altitude gets air temperature. The warm air control module 2 controls different numbers of graphene heating films 3 to heat according to the air temperature measured by each temperature sensor 1 . The heating layer of the graphene heating film 3 can effectively heat the air, and the radiation layer of the graphene heating film 3 directly heats the bottom of the room.

According to the distribution characteristics of air temperature, in the absence of other factors, the air temperature at the bottom of the room decreases sequentially from top to bottom. It is necessary to maintain the stability of the overall temperature at the bottom and avoid the temperature at the bottom of the room from being too low. During the control process, if the temperature of the air in the middle of the bottom of the room is at a preset temperature, the number of the graphene heating films 3 to be activated is controlled according to the temperature of the air in the middle of the bottom of the room. If the air temperature in the middle of the bottom of the room is lower than the preset temperature, obtain the air temperature at the lower end of the room bottom, and increase the number of activated graphene heating films 3 according to the air temperature at the lower end of the room bottom. If the air temperature in the middle of the bottom of the room is higher than the preset temperature, the air temperature at the upper end of the bottom of the room is obtained, and the number of activated graphene heating films 3 is reduced according to the air temperature at the upper end of the bottom of the room.

It should be noted that the down-flow air conditioner can be used together with conventional air conditioners. Therefore, in the process of controlling heating, the bottom air conditioner only needs to ensure the bottom temperature.

In this embodiment, as shown in FIG. 2 , the number of temperature sensors 1 is three, including: a first temperature sensor 11 , a second temperature sensor 12 and a third temperature sensor 13 installed in sequence from top to bottom.

After the heater control module 2 receives the signal, the temperature sensors that are equidistantly divided into 60 cm from the bottom of the air conditioner are divided into a first temperature sensor 11, a second temperature sensor 12 and a third temperature sensor 13 from top to bottom, and start to judge the room. Bottom air temperature. The first temperature sensor is used to measure the air temperature at the upper end of the bottom of the room, the second temperature sensor is used to measure the air temperature at the middle of the bottom of the room, and the first temperature sensor is used to measure the air temperature at the lower end of the room bottom.

During the working process, the second temperature sensor 12 measures the air temperature in the middle of the bottom of the room. If the temperature measured by the second temperature sensor 12 is within the first preset temperature range, the warm air control module 2 controls the number corresponding to the first preset temperature range. The graphene heating film 3 is heated.

If the temperature measured by the second temperature sensor 12 is less than or equal to the lower limit threshold of the first preset temperature range, the third temperature sensor 13 is turned on, and if the temperature measured by the third temperature sensor 13 is within the second preset temperature range, the warm air control The module 2 controls the number of graphene heating films 3 corresponding to the second preset temperature range to be heated.

Wherein, the upper threshold value of the second preset temperature interval is less than or equal to the lower threshold value of the first preset temperature interval, and the number of graphene heating films 3 corresponding to the second preset temperature interval is more than the graphene corresponding to the first preset temperature interval The number of heating films 3.

If the temperature measured by the third temperature sensor 13 is in the third preset temperature interval, the warm air control module 2 controls the number of graphene heating films 3 corresponding to the third preset temperature interval to heat;

Wherein, the upper threshold of the third preset temperature interval is smaller than the lower threshold of the second preset temperature interval, and the number of graphene heating films 3 corresponding to the third preset temperature interval is greater than that of the graphene heating films corresponding to the second preset temperature interval Number of membranes 3.

If the temperature measured by the second temperature sensor 12 is greater than the upper limit threshold of the first preset temperature range, the first temperature sensor 11 is turned on, and if the temperature measured by the first temperature sensor 11 is within the fourth preset temperature range, the heater control module 2. Control the number of graphene heating films 3 corresponding to the fourth preset temperature interval to be heated.

Wherein, the lower threshold of the fourth preset temperature interval is greater than the upper threshold of the first preset temperature interval, and the number of graphene heating films 3 corresponding to the fourth preset temperature interval is smaller than that of the graphene heating films corresponding to the first preset temperature interval 3 quantity.

If the temperature measured by the first temperature sensor 11 is within the fifth preset temperature range, the warm air control module 2 controls the number of graphene heating films 3 corresponding to the fifth preset temperature range to heat.

Wherein, the lower threshold value of the fifth preset temperature interval is greater than the upper threshold value of the fourth preset temperature interval, and the number of graphene heating films 3 corresponding to the fifth preset temperature interval is smaller than the number of graphene heating films corresponding to the fourth preset temperature interval 3 quantity.

If the temperature measured by the first temperature sensor 11 is within the sixth preset temperature range, the warm air control module 2 controls the number of graphene heating films 3 corresponding to the sixth preset temperature range to heat.

Wherein, the lower threshold of the sixth preset temperature interval is greater than the upper threshold of the fifth preset temperature interval, and the number of graphene heating films 3 corresponding to the sixth preset temperature interval is smaller than the number of graphene heating films corresponding to the fifth preset temperature interval 3 quantity.

When the air conditioner is turned on or off, the heating function can operate simultaneously or independently. After the user selects the heating function, the main control module 4 sends a signal to the heating control module 2. After receiving the signal, the heating control module 2 can control all the temperature sensors 1 to start measuring the air temperature of the room at the same time, and each temperature sensor 1 can obtain different rooms. Altitude gets air temperature. The warm air control module 2 controls different numbers of graphene heating films 3 to heat according to the air temperature measured by each temperature sensor 1 .

In a specific embodiment, the second temperature sensor 12 is used to measure the air temperature in the middle of the bottom of the room, and the first temperature sensor 11 and the third temperature sensor 13 are shielded. When the temperature T2 measured by the second temperature sensor 12 is 16°C<T2≤20°C, the warm air control module 2 controls to turn on the three graphene heating films 3, and the heating layer of the graphene heating films 3 heats the air, and the graphite The radiant layer of the olefin heating film 3 directly heats the bottom of the room.

When the temperature T2 measured by the second temperature sensor 12 is less than or equal to 16° C., the first temperature sensor 11 is shielded, and the third temperature sensor 13 is turned on. If the temperature T3 measured by the third temperature sensor 13 is 14°C<T3≤16°C, the warm air control module 2 controls to turn on the four graphene heating films 3 . If the temperature T3 measured by the third temperature sensor 13 is T3<14° C., the warm air control module 2 controls the six graphene heating films 3 to be turned on.

If the temperature T2 measured by the second temperature sensor 13 is greater than 20° C., the third temperature sensor 13 is shielded, and the first temperature sensor 11 is turned on. If the temperature T1 measured by the first temperature sensor 11 is 20°C<T1≤25°C, the warm air control module 2 controls to turn on the two graphene heating films 3 . If the temperature T1 measured by the first temperature sensor 11 is 25°C<T1<30°C, the warm air control module 2 controls to turn on a graphene heating film 3 . If the temperature T1 measured by the first temperature sensor 11 is greater than or equal to 30° C., the graphene heating film 3 is turned off by default.

In addition, if the air conditioner has a warm air forced mode, after the user selects it, the first temperature sensor 11, the second temperature sensor 12 and the third temperature sensor 13 can be shielded, and the forced mode is entered, and the user can manually select graphene heating. The number of openings of membrane 3.

The application also provides a bottom air conditioner. As shown in FIG. 2 , the bottom air conditioner includes: a main control module 4 , a warm air control module 2 , a multilayer graphene heating film 3 and a plurality of temperature sensors 1 . The main control module 4, each graphene heating film 3 and each temperature sensor 1 are all connected with the heating air control module 2 circuit, each temperature sensor 1 is installed at intervals from top to bottom, and each temperature sensor 1 is used to detect the air in different height areas temperature, so that the warm air control module 2 controls different numbers of graphene heating films 3 to heat according to the temperature measured by each temperature sensor 1 .

Step S1: the temperature sensor obtains the air temperature in the middle of the bottom of the room, and if the air temperature in the middle of the bottom of the room is at a preset temperature, the number of graphene heating films is controlled according to the air temperature in the middle of the bottom of the room.

According to the distribution characteristics of air temperature, in the absence of other factors, the air temperature at the bottom of the room decreases sequentially from top to bottom. It is necessary to maintain the stability of the overall temperature at the bottom and avoid the temperature at the bottom of the room from being too low. During the control process, if the temperature of the air in the middle of the bottom of the room is at a preset temperature, the number of the graphene heating films 3 to be activated is controlled according to the temperature of the air in the middle of the bottom of the room. If the air temperature in the middle of the bottom of the room is lower than the preset temperature, then the air temperature at the lower end of the room bottom is obtained, and the number of the graphene heating films 3 is increased according to the air temperature at the lower end of the room bottom. If the air temperature in the middle of the bottom of the room is higher than the preset temperature, the air temperature at the upper end of the bottom of the room is obtained, and the number of activated graphene heating films 3 is reduced according to the air temperature at the upper end of the bottom of the room.

In addition, as shown in FIG. 3 , the down-flow air conditioner also includes: a WiFi control module 7 , a mobile phone client 6 and a cloud server 5 . The main control module 4 is connected in communication with the mobile phone client 6 through the WiFi control module 7 and the cloud server 5 . The heating function of the down-flow air conditioner can be turned on through the mobile phone client 6. The temperature sensor 1 can detect the temperature within 1m at the bottom of the room in the standby and power-on state, and feed back to the mobile phone client 6 including the value and the prompt color, such as blue temperature is low, green is suitable, and red temperature is high. The user can select display functions such as warm air through the operation interface of the mobile phone client 6 , and the mobile phone client 6 sends a signal to the cloud server 5 to the main control module 4 . In addition, the mobile phone client 6 comes with a one-key setting function. After the user chooses to turn it on, the down-air air conditioner can automatically determine the indoor temperature and automatically turn on the heater.

In the down-air air conditioner provided by this application, a heating layer for air heating and a radiant layer for heating at the bottom of the room are arranged in graphene, and the down-out air of the air conditioner is controlled by a temperature sensor and a graphene heating film. Temperature sensors at different heights can obtain the air temperature at different heights of the room, so that the heater control module can control different numbers of graphene heating films for heating according to the air temperature at different heights in the room, so that the down-air air conditioner can change the air conditioner according to the temperature change. At the same time, the temperature of the bottom is quickly increased by means of radiation heat transfer, which solves the problem that the temperature of the bottom of the room is too low when the cabinet air conditioner is heated in winter.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present application, but not to limit them; although the present application has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: it can still be The technical solutions described in the foregoing embodiments are modified, or some technical features thereof are equivalently replaced; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions in the embodiments of the present application.

Claims

A control method for a bottom air conditioner, characterized in that the bottom air conditioner is provided with a plurality of temperature sensors and a multi-layer graphene heating film; the graphene heating film comprises: a heating layer for air heating and a multi-layer graphene heating film. radiant layer for heating at the bottom of the room;

The control method includes the following steps:

The temperature sensor obtains the air temperature in the middle of the bottom of the room, and if the air temperature in the middle of the bottom of the room is at a preset temperature, the number of the graphene heating films to be activated is controlled according to the air temperature in the middle of the bottom of the room;

If the air temperature in the middle of the bottom of the room is lower than the preset temperature, the temperature sensor obtains the air temperature at the lower end of the room bottom, and increases the number of activated graphene heating films according to the air temperature at the lower end of the room bottom;

If the air temperature in the middle of the bottom of the room is higher than the preset temperature, the temperature sensor obtains the air temperature at the upper end of the bottom of the room, and reduces the number of the graphene heating films that are activated according to the air temperature at the upper end of the bottom of the room.
The control method for a bottom outlet air conditioner according to claim 1, wherein the number of the temperature sensors is three, including: a first temperature sensor, a second temperature sensor and a third temperature sensor installed in sequence from top to bottom Temperature Sensor.
The control method for a down-flow air conditioner according to claim 2, wherein if the temperature measured by the second temperature sensor is within the first preset temperature range, the warm air control module controls the corresponding first preset temperature range The amount of the graphene heating film is heated.
The control method for a down-flow air conditioner according to claim 3, wherein if the temperature measured by the second temperature sensor is less than or equal to the lower limit threshold of the first preset temperature interval, the third temperature sensor is turned on, If the temperature measured by the third temperature sensor is in the second preset temperature interval, the warm air control module controls the graphene heating film corresponding to the number of the second preset temperature interval to heat;

The upper threshold of the second preset temperature interval is less than or equal to the lower threshold of the first preset temperature interval, and the number of the graphene heating films corresponding to the second preset temperature interval is greater than that of the first preset temperature interval. The number of graphene heating films described above.
The control method for a down-flow air conditioner according to claim 4, wherein if the temperature measured by the third temperature sensor is within a third preset temperature interval, the warm air control module controls the corresponding third preset temperature interval Quantity of the graphene heating film is heated;

Wherein, the upper threshold value of the third preset temperature interval is smaller than the lower threshold value of the second preset temperature interval, and the number of the graphene heating films corresponding to the third preset temperature interval is more than the number of the graphene heating films corresponding to the second preset temperature interval The number of graphene heating films.
The control method for a down-flow air conditioner according to claim 3, wherein if the temperature measured by the second temperature sensor is greater than the upper limit threshold of the first preset temperature interval, the first temperature sensor is turned on, and if the temperature measured by the second temperature sensor is greater than the upper limit threshold of the first preset temperature interval When the temperature measured by the first temperature sensor is in the fourth preset temperature interval, the warm air control module controls the graphene heating film corresponding to the number of the fourth preset temperature interval to heat;

Wherein, the lower threshold value of the fourth preset temperature interval is greater than the upper threshold value of the first preset temperature interval, and the number of the graphene heating films corresponding to the fourth preset temperature interval is smaller than that of the graphite corresponding to the first preset temperature interval The number of ene heating films.
The control method of a down-flow air conditioner according to claim 6, wherein if the temperature measured by the first temperature sensor is within a fifth preset temperature interval, the warm air control module controls the corresponding fifth preset temperature interval Quantity of the graphene heating film is heated;

Wherein, the lower threshold value of the fifth preset temperature interval is greater than the upper threshold value of the fourth preset temperature interval, and the number of the graphene heating films corresponding to the fifth preset temperature interval is smaller than the number of the graphite heating films corresponding to the fourth preset temperature interval The number of ene heating films.
The control method for a down-flow air conditioner according to claim 7, wherein if the temperature measured by the first temperature sensor is within a sixth preset temperature range, the warm air control module controls the corresponding sixth preset temperature range Quantity of the graphene heating film is heated;

Wherein, the lower threshold of the sixth preset temperature interval is greater than the upper threshold of the fifth preset temperature interval, and the number of the graphene heating films corresponding to the sixth preset temperature interval is smaller than the number of the graphite heating films corresponding to the fifth preset temperature interval The number of ene heating films.
A lower outlet air conditioner for implementing the control method according to any one of claims 1-8, characterized in that, comprising:

a main control module, a warm air control module, the multilayer graphene heating film and a plurality of the temperature sensors;

The main control module, each of the graphene heating films and each of the temperature sensors are all connected to the heater control module circuit, and each of the temperature sensors is installed at intervals from top to bottom, and each of the temperature sensors is used for Detecting air temperatures in different height areas, so that the warm air control module controls different numbers of the graphene heating films for heating according to the temperature measured by each of the temperature sensors.
The bottom outlet air conditioner according to claim 9, wherein the lower outlet air conditioner further comprises: a WiFi control module, a mobile phone client and a cloud server; the main control module uses the WiFi control module, the The cloud server is communicatively connected with the mobile phone client.