CN214891749U - Air conditioner system linked with heater - Google Patents

Abstract

The utility model discloses an air conditioner system with heater linkage, include: an air conditioner body, the air conditioner body includes: the temperature acquisition module is used for acquiring the ambient temperature of the heater; the air conditioner control module is in communication connection with the temperature acquisition module; and the air conditioner heating module is in communication connection with the air conditioner control module. In the scheme, the air conditioner body is used as a main body, the temperature acquisition module acquires the ambient temperature information of the heater, and then the air conditioner control module controls the operation of the air conditioner heating module according to the acquired information, so that the temperature adjustment linked with the heater is realized. Therefore, the scheme has the characteristics of high integration level, low cost, good temperature regulation effect and the like; meanwhile, the scheme is also helpful for providing a good and comfortable sleep experience effect for the user.

Description

Air conditioner system linked with heater

Technical Field

The utility model relates to an air conditioner technical field, in particular to air conditioner system with heater linkage.

Background

In winter, the air conditioner and the electric blanket can operate simultaneously. The electric blanket can have the condition that the temperature difference of the indoor space is large and the humidity is low when the electric blanket is operated for a long time, and then the sleeping experience of people can be influenced.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides an air conditioner system linked with a heater, which has the characteristics of high integration level, low cost, good temperature adjustment effect, etc.; meanwhile, the scheme is also helpful for providing a good and comfortable sleep experience effect for the user.

In order to achieve the above object, the utility model provides a following technical scheme:

an air conditioner system in combination with a heater, comprising: an air conditioner body, the air conditioner body includes:

the temperature acquisition module is used for acquiring the ambient temperature of the heater;

the air conditioner control module is in communication connection with the temperature acquisition module;

and the air conditioner heating module is in communication connection with the air conditioner control module.

Preferably, the temperature acquisition module includes:

the temperature communication module is used for acquiring the surface temperature of the heater; the temperature communication module is used for being in communication connection with a heater temperature sensor on the surface of the heater.

Preferably, the temperature acquisition module includes:

and the human body temperature detection module is used for detecting the human body temperature.

Preferably, the human body temperature detection module includes: an infrared imaging device.

Preferably, the temperature acquisition module includes:

and the air conditioner temperature sensor is used for detecting the ambient temperature of the air conditioner body.

Preferably, the air conditioner body further includes:

the humidity acquisition module is used for acquiring the ambient humidity of the heater; the humidity acquisition module is in communication connection with the air conditioner control module;

and the air conditioner humidifying module is in communication connection with the air conditioner control module.

Preferably, the method further comprises the following steps: a heater;

the heater includes: an instruction receiving module; the air conditioner control module is in communication connection with the instruction receiving module.

Preferably, the air conditioner body further includes: a wireless communication module;

the air conditioner control module is in wireless communication connection with the instruction receiving module through the wireless communication module.

Preferably, the heater further comprises: a heater temperature sensor;

the temperature acquisition module includes: a temperature communication module; the temperature communication module is in communication connection with the heater temperature sensor.

Preferably, the heater includes: an electric blanket.

According to the above technical scheme, the utility model provides an among the air conditioner system with heater linkage, this scheme uses the air conditioner body as the main part, acquires the ambient temperature's of heater information through its temperature acquisition module, then the operation of control air conditioner heating module according to the information that acquires of rethread air conditioner control module to the temperature regulation with the heater linkage has been realized. Therefore, the scheme has the characteristics of high integration level, low cost, good temperature regulation effect and the like; meanwhile, the scheme is also helpful for providing a good and comfortable sleep experience effect for the user.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic diagram of an air conditioner system coupled to a heater according to an embodiment of the present invention;

fig. 2 is a temperature and humidity control flowchart provided by an embodiment of the present invention.

The system comprises an air conditioner body 10, an air conditioner control module 11, a temperature acquisition module 12, an air conditioner heating module 13 and a humidity acquisition module 14, wherein the air conditioner control module is connected with the temperature acquisition module; the device comprises a heater 20, a heater temperature sensor 21 and a command receiving module 22.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment of the utility model provides an air conditioner system with heater linkage, as shown in FIG. 1, include: air conditioner body 10, air conditioner body 10 includes:

a temperature acquisition module 12 for acquiring the ambient temperature of the heater 20;

the air conditioner control module 11 is in communication connection with the temperature acquisition module;

and the air-conditioning heating module 13 is in communication connection with the air-conditioning control module 11.

In this embodiment, it should be noted that, first, the temperature obtaining module 12 obtains the ambient temperature of the heater 20, where the ambient temperature of the heater 20 includes: the surface temperature of the heater 20, the temperature of the human body (the temperature around the user), and the ambient temperature of the air conditioner (the indoor temperature), the details of which will be described later; then, the air conditioner control module 11 controls the operation of the air conditioner heating module 13 according to the obtained information (mainly according to the temperature difference information between the human body temperature and the ambient temperature of the air conditioner), and details are shown below.

According to the above technical scheme, the embodiment of the utility model provides an among the air conditioner system with heater linkage, this scheme uses air conditioner body 10 as the main part, acquires the ambient temperature's of heater 20 information through its temperature acquisition module 12, then rethread air conditioner control module 11 is according to the information that acquires, controls the operation of air conditioner heating module to the temperature regulation with the heater linkage has been realized. Therefore, the scheme has the characteristics of high integration level, low cost, good temperature regulation effect and the like; the method is simple and meanwhile, the scheme is also beneficial to providing a good and comfortable sleep experience effect for the user.

In this embodiment, the temperature obtaining module 12 includes:

a temperature communication module for acquiring the surface temperature of the heater 20; the temperature communication module is used for communicating with a heater temperature sensor 21 connected to the surface of the heater 20. This scheme designs so to realized obtaining of heater 20 surface temperature, and then according to heater 20 surface temperature, adjust heater 20 to corresponding mode of operation again, make heater 20 reach the effect of suitability heating, thereby help further promoting user's sleep experience effect.

Further, the temperature acquisition module 12 includes:

and the human body temperature detection module is used for detecting the human body temperature. The scheme is designed in such a way, so that the detection of the human body temperature (the ambient temperature of a user) is realized.

Specifically, the human body temperature detection module includes: an infrared imaging device. This scheme design like this has the convenient and accurate characteristics such as detect the temperature of detection temperature.

Still further, the temperature acquisition module 12 includes:

an air conditioner temperature sensor for detecting the ambient temperature of the air conditioner body 10. This scheme is so designed to in order to realize the detection of indoor temperature, and then be convenient for air conditioner control module 11 according to the difference in temperature information of indoor temperature and human body temperature, control air conditioner heating module 13's operation, for the operation of the power that heats that controls air conditioner heating module 13 promptly. More specifically, the air-conditioning control module 11 determines whether the temperature difference between the human body temperature and the ambient temperature of the air conditioner is greater than a preset temperature difference, and if so, adjusts the heating power of the air-conditioning heating module 13 until the human body temperature reaches the set temperature. Wherein the preset temperature difference is 2 ℃. That is to say, if the deviation between the indoor temperature and the ambient temperature of the user is greater than 2 ℃, the ambient temperature of the user is transmitted to the air conditioner control module 11 as the feedback temperature, so that the air conditioner control module 11 adjusts the thermal power of the air conditioner heating module 13 according to the ambient temperature of the user until the ambient temperature of the user reaches the set temperature, and then the temperature linkage adjustment considering the ambient temperature of the heater 20 can be realized, the excessive ambient temperature difference is avoided, and the good and comfortable sleep experience effect is provided for the user.

In the scheme, in order to avoid that the indoor humidity is too low to influence the sleeping experience effect of a user, the scheme is required to have a humidity self-adaptive adjusting function; accordingly, as shown in fig. 1, the air conditioner main body 10 further includes:

a humidity acquiring module 14 for acquiring the ambient humidity of the heater 20; namely, the humidity obtaining module 14 obtains the indoor humidity; the humidity acquisition module 14 is in communication connection with the air conditioner control module 11;

and the air conditioning humidifying module is in communication connection with the air conditioning control module 11. More specifically, after the humidity obtaining module 14 obtains the indoor humidity, the air conditioning control module 11 determines whether the indoor humidity is less than a preset humidity, and if so, controls the air conditioning humidifying module to humidify until the indoor humidity is within a reasonable range. That is to say, the air conditioner can automated inspection room air humidity at the heater operation in-process, and when humidity was less than human comfortable scope, the air conditioner can automatic identification and carry out the humidification, still can close heater power certainly, makes it get into standby state, and the room air humidity reaches suitable scope until reaching humidity linkage regulation's effect.

In this scheme, as shown in fig. 1, the air conditioner system that links with heater that the embodiment of the utility model provides a still includes: a heater 20;

the heater 20 includes: an instruction receiving module 22; the air conditioning control module 11 is connected to the command receiving module 22 in a communication manner. This scheme is so designed to realize the coordinated control to heater 20. That is, the air conditioner control module 11 adjusts the heater 20 to the corresponding operation mode according to the acquired information (the surface temperature of the heater 20), so that the present scheme has a function of selecting the operation mode in a heater self-adaptive manner, thereby being beneficial to providing a heating effect with good and comfortable sensible temperature for a user. That is to say, the present solution takes the air conditioner body 10 as a main body, obtains the heater surface temperature through the temperature obtaining module 12, and then controls the heater to operate to a corresponding mode through the air conditioner control module according to the heater surface temperature, so that a linkage control effect with high integration level and low cost is achieved.

Further, the air conditioner body 10 further includes: a wireless communication module;

the air conditioner control module 11 is connected to the instruction receiving module 22 through a wireless communication module. This scheme adopts wireless communication connection's mode, has characteristics such as the structure is retrencied, the communication is convenient and economic practical.

Further, the air conditioning control module 11 adjusts the heater 20 to a corresponding operation mode according to the surface temperature of the heater 20, which is as follows:

if the surface temperature of the heater exceeds 35 ℃, adjusting the heater to a standby state;

if the surface temperature of the heater is lower than 20 ℃, adjusting the heater to a high-grade heating mode;

if the surface temperature of the heater is higher than 20 ℃ and lower than 30 ℃, adjusting the heater to a medium heating mode;

and if the surface temperature of the heater is higher than 30 ℃ and lower than 35 ℃, adjusting the heater to a low-grade heating mode.

Further, as shown in fig. 1, the heater 20 further includes: a heater temperature sensor 21 for obtaining the surface temperature of the heater; the temperature acquisition module includes: a temperature communication module; the temperature communication module is in communication connection with the heater temperature sensor 21. The present scheme is designed such that the air conditioner control module 11 adjusts the heater 20 to a corresponding operation mode according to the surface temperature of the heater, thereby facilitating adaptive heating of the heater 20.

Specifically, in order to provide a heating effect with good sensible temperature, the heater preferably includes: an electric blanket. Of course, the heater in the present embodiment may also include other heaters, such as: the warmer will not be described herein.

The scheme is further described by combining the specific embodiment as follows:

the utility model provides an air conditioner with electric blanket linkage can be according to the temperature around the electric blanket (electric blanket surface temperature), the operation of human ambient temperature and indoor temperature, room air humidity, control air conditioner and electric blanket to improve people's travelling comfort and improve the sleep and experience.

The utility model provides an air conditioner with electric blanket linkage, it relies on to set for temperature, indoor humidity, human body ambient temperature, electric blanket surface temperature control room fan rotational speed, heating capacity, electric blanket power. The control program is only operated in the heating mode of the air conditioner, and the control program can be interrupted by manual operation and can be manually restarted again after being interrupted. The indoor temperature detection, the indoor humidity detection, the human body surrounding temperature detection and the electric blanket surface temperature detection are carried out simultaneously. The indoor temperature detection is performed by means of an air conditioner temperature sensor, the detection of the temperature around a human body is performed by means of an infrared imaging device on the surface of the air conditioner, and the detection of the surface temperature of the electric blanket is performed by means of a temperature sensor on the surface of the electric blanket.

The utility model provides an air conditioner with electric blanket linkage acquires indoor infrared image through the infrared imaging device of air conditioner, confirms the temperature data in a plurality of temperature regions according to infrared thermal imaging to discern people's position, discern that the people can open the electric blanket automatically and gather electric blanket surface temperature and human body ambient temperature when on the electric blanket. As shown in fig. 2, the electric blanket is adjusted to a standby state when the surface temperature of the electric blanket exceeds 35 ℃, enters a high-grade heating mode when the surface temperature of the electric blanket is lower than 20 ℃, is a medium-grade heating mode when the surface temperature of the electric blanket is higher than 20 ℃ and lower than 30 ℃, and is a low-grade heating mode when the surface temperature of the electric blanket is higher than 30 ℃ and lower than 35 ℃.

If the deviation between the average temperature around the human body and the temperature measured by the indoor temperature sensor is more than 2 ℃, the average temperature around the human body is used as feedback temperature to the air conditioner, namely, the heating power is adjusted according to the average temperature around the human body until the average temperature around the human body reaches the set temperature, the uniform air mode is started, air is swept in the indoor space with large air volume, and when the deviation between the average temperature around the human body and the temperature measured by the indoor temperature sensor is less than 2 ℃, the direct blowing prevention mode is started.

The air conditioner can automatically detect the indoor air humidity in the operation process of the electric blanket, when the humidity is lower than the comfortable range of people, the air conditioner can automatically recognize and humidify, the power of the electric blanket is turned off, and the air conditioner enters a standby state until the indoor air humidity reaches the proper range.

In addition, this scheme still provides an air conditioner and heater's linkage method, includes:

acquiring information; the information includes: operational and/or environmental information of the heater;

and controlling the operation of the heater and/or the air conditioner according to the acquired information.

In this aspect, the operation information of the heater includes: heater surface temperature (see below for details); the environmental information of the heater includes: room temperature and user ambient temperature (see below for details); in addition, according to the scheme, the operation of the heater and/or the air conditioner is controlled according to the acquired information until the parameters (including the indoor temperature difference or the indoor humidity and the like) of the use environment are within a reasonable range, for example, the operation of the air conditioner is adjusted until the indoor temperature difference is smaller than or equal to the preset temperature difference, or the heater is adjusted to a corresponding operation mode until the indoor humidity is larger than or equal to the preset humidity and the like, so that the comfortable experience effect is provided for a user. Of course, the air conditioner can be used as a main body, the information is acquired through the air conditioner acquisition module of the air conditioner, and then the operation of the heater and/or the air conditioner is controlled through the air conditioner control module of the air conditioner according to the acquired information, so that the linkage control effect of high integration level and low cost is achieved.

In the scheme, the operation information and/or the environment information of the heater are firstly acquired, then the operation of the heater and/or the air conditioner is controlled according to the acquired information, and further the linkage control of the operation of the heater and the air conditioner is facilitated to be realized, so that a comfortable and self-adaptive sleeping environment can be provided for a user, and the sleeping experience of the user is facilitated to be improved.

In the scheme, in order to provide a heating effect with good and comfortable body sensing temperature for a user by the heater, so as to improve the experience degree of the heater, the scheme is required to have the function of selecting the operation mode in a self-adaptive manner; accordingly, the acquiring information includes:

acquiring the surface temperature of the heater;

the controlling the operation of the heater according to the acquired information includes:

and adjusting the heater to a corresponding operation mode according to the surface temperature of the heater.

In the scheme, in order to avoid overlarge indoor temperature difference and ensure that a user has comfortable sleep experience with good somatosensory temperature, the scheme is required to have a temperature difference self-adaptive adjusting function; specifically, the acquiring information includes:

acquiring indoor temperature and ambient temperature of a user;

the controlling the operation of the air conditioner according to the acquired information comprises the following steps:

the heating power of the air conditioner is controlled according to the temperature difference between the indoor temperature and the ambient temperature of the user. More specifically, it is first determined whether the temperature difference between the indoor temperature and the ambient temperature of the user is greater than a preset temperature difference, and if so, the heating power of the air conditioner is adjusted until the ambient temperature of the user reaches the set temperature. Wherein the preset temperature difference is 2 ℃. That is, if the deviation between the indoor temperature and the ambient temperature of the user is greater than 2 ℃, the ambient temperature of the user is transmitted to the control module of the air conditioner as the feedback temperature, i.e., the control module of the air conditioner adjusts the heating power according to the ambient temperature of the user until the ambient temperature of the user reaches the set temperature.

Specifically, in order to keep the temperature difference after being adjusted in place within a reasonable range, the temperature difference needs to be maintained by the wind power of the air conditioner; accordingly, the air conditioner needs to be controlled to start the even air mode. That is, the air conditioner is controlled to sweep air in the indoor space with a large air volume. In addition, when the deviation between the ambient temperature and the indoor temperature of the user is less than 2 ℃, the air conditioner is controlled to start the direct blowing prevention mode.

Furthermore, in order to ensure that the heater is automatically started under the condition that people use the heater, the false start or the idle start of the heater is avoided; correspondingly, before the acquiring information, the method further comprises:

acquiring the position of a user; the method for acquiring the position of the user comprises the following steps of acquiring the position of the user by infrared imaging equipment in an identification mode;

and judging whether the position of the user is in the use range of the heater, if so, controlling the heater to be started and collecting the surface temperature of the heater and the ambient temperature of the user.

In the scheme, in order to avoid that the indoor humidity is too low to influence the sleeping experience of a user, the scheme is required to have a humidity self-adaptive adjusting function; specifically, the acquiring information includes:

acquiring indoor humidity;

the controlling the operation of the heater according to the acquired information includes:

and adjusting the heater to a corresponding operation mode according to the indoor humidity. More specifically, whether the indoor humidity is less than the preset humidity is judged, and if the indoor humidity is less than the preset humidity, the heater is controlled to enter a standby state until the indoor humidity is within a reasonable range. Wherein, can also carry out humidification through linkage humidifier. Further, the air conditioner can automatically detect the indoor air humidity in the operation process of the heater, when the humidity is lower than the comfortable range of a human body, the air conditioner can automatically recognize and can perform linkage control on the humidifier to humidify, the power of the heater is turned off, and the air conditioner is enabled to enter a standby state until the indoor air humidity reaches the proper range.

Further, before the acquiring information, the method further includes:

and judging whether the operation mode of the air conditioner is a heating mode, and if so, acquiring information. That is to say, the air conditioner and heater coordinated control process in this scheme only operates when the air conditioner heats the mode. This scheme is so designed to play the effect of supplementary linkage regulation and control to the mode of heating of air conditioner, make and change under this mode of heating of air conditioner and form the sleep environment that the difference in temperature is suitable, the humidity is pleasant.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An air conditioner system in combination with a heater, comprising: air conditioner body (10), characterized in that, air conditioner body (10) includes:

a temperature acquisition module (12) for acquiring the ambient temperature of the heater (20);

the air conditioner control module (11) is in communication connection with the temperature acquisition module;

and the air conditioner heating module (13) is in communication connection with the air conditioner control module (11).

2. The air conditioner system in conjunction with a heater according to claim 1, characterized in that the temperature acquisition module (12) comprises:

the temperature communication module is used for acquiring the surface temperature of the heater (20); the temperature communication module is used for being in communication connection with a heater temperature sensor (21) on the surface of the heater (20).

3. The air conditioner system in conjunction with a heater according to claim 1, characterized in that the temperature acquisition module (12) comprises:

and the human body temperature detection module is used for detecting the human body temperature.

4. An air conditioner system in combination with a heater as set forth in claim 3 wherein said human body temperature detecting module includes: an infrared imaging device.

5. The air conditioner system in conjunction with a heater according to claim 1, characterized in that the temperature acquisition module (12) comprises:

and the air conditioner temperature sensor is used for detecting the ambient temperature of the air conditioner body (10).

6. The air conditioner system in combination with a heater according to claim 1, wherein the air conditioner body (10) further comprises:

a humidity acquisition module (14) for acquiring the ambient humidity of the heater (20); the humidity acquisition module (14) is in communication connection with the air conditioner control module (11);

and the air conditioning humidifying module is in communication connection with the air conditioning control module (11).

7. An air conditioner system in combination with a heater as set forth in claim 1 and further comprising: a heater (20); the heater (20) comprises: an instruction receiving module (22); the air conditioner control module (11) is in communication connection with the instruction receiving module (22).

8. The air conditioner system in combination with a heater according to claim 7, wherein the air conditioner body (10) further comprises: a wireless communication module;

the air conditioner control module (11) is in wireless communication connection with the instruction receiving module (22) through the wireless communication module.

9. The air conditioner system in combination with a heater according to claim 1, wherein the heater (20) further comprises: a heater temperature sensor (21);

the temperature acquisition module includes: a temperature communication module; the temperature communication module is in communication connection with the heater temperature sensor (21).

10. The air conditioner system in combination with a heater according to claim 1, wherein the heater (20) includes: an electric blanket.

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