CN114543295A - Intelligent air conditioning system and method - Google Patents

Abstract

The invention provides an intelligent air conditioning system which comprises a first temperature sensing device, a second temperature sensing device, an opening and closing state sensing device and an intelligent air conditioning device. The first temperature sensing device senses a first indoor temperature of a first indoor space. The second temperature sensing device senses a second indoor temperature of a second indoor space. The opening and closing state sensing device senses an opening and closing device arranged between the first indoor space and the second indoor space. When the opening and closing state parameter of the opening and closing device does not reach an opening state judgment reference value, the intelligent air conditioner operates in a space separation working mode according to the first indoor temperature; when the opening and closing state parameters of the opening and closing device reach the opening state judgment reference value, the intelligent air conditioner operates in a space communication working mode according to the first indoor temperature and the second indoor temperature.

Description

Intelligent air conditioning system and method

Technical Field

The invention relates to a system and a method, in particular to an intelligent air conditioning system and an intelligent air conditioning method.

Background

As the population gathers in major communities, the rate of housing is high, although in recent years there has been a trend towards a gradual steady and even slightly declining rate of housing, but for most people the rate of housing is still high. Thus, the construction of small-lawn houses or suites is becoming more prevalent, for example: one room to one hall configuration. Because of the small number of floors, the household will usually choose to install only one cool air in the room or living room, and connect the room and the living room, thereby saving money.

However, since the flow range of the cooling air blown into the airflow is limited and the cooling air is adjusted only by sensing the temperature of the space (room or living room) in which the cooling air is located and does not sense the temperature of the other space (living room or room). In brief, a household installs cold air in a room and opens a door to communicate the room with a living room, but the cold air is blown into the room only according to the temperature adjustment of the room, and the temperature of the living room cannot be known and adjusted. Therefore, there may be a case where the room temperature is low but the temperature in the living room is still high, or a problem of energy waste caused by continuous operation of the cool air since the room temperature is influenced by the temperature in the living room and does not reach the target temperature. Thus, there is room for improvement in the prior art.

Disclosure of Invention

In view of the problems of the prior art, the provision of cold air in one of the spaces only adjusts the flow of the blown air in accordance with the temperature of the space. It is a primary object of the present invention to provide an intelligent air conditioning system and method for solving at least one problem of the prior art.

The present invention is directed to solve the problems of the prior art, and a necessary technical means is to provide an intelligent air conditioning system, which is adapted to a first indoor space and a second indoor space, wherein an opening and closing device is disposed between the first indoor space and the second indoor space, the opening and closing device is used to selectively communicate and block the first indoor space and the second indoor space, and the intelligent air conditioning system includes a first temperature sensing device, a second temperature sensing device, an opening and closing state sensing device, and an intelligent air conditioning device.

The first temperature sensing device is disposed in the first indoor space for sensing a first indoor temperature of the first indoor space, and transmitting a first temperature sensing signal. The second temperature sensing device is disposed in the second indoor space for sensing a second indoor temperature of the second indoor space, and transmitting a second temperature sensing signal. The opening and closing state sensing device is arranged adjacent to the opening and closing device and used for sensing an opening and closing state parameter of the opening and closing device so as to transmit an opening and closing state signal. The intelligent air conditioner device is arranged in the first indoor space, is in communication connection with the first temperature sensing device, the second temperature sensing device and the opening and closing state sensing device, is used for receiving the first temperature sensing signal, the second temperature sensing signal and the opening and closing state signal, operates in a space separation working mode when the opening and closing state parameter does not reach a preset opening state judgment reference value, and operates in a space communication working mode when the opening and closing state parameter reaches the opening state judgment reference value.

When the intelligent air conditioner operates in the space separation working mode, controlling at least one airflow parameter of an air blowing flow blown into the first indoor space by the intelligent air conditioner according to the first indoor temperature; when the intelligent air conditioner operates in the space communication working mode, the first indoor temperature and the second indoor temperature are averaged to be used as a target temperature, and the air flow parameter of the air flow blown into the first indoor space by the intelligent air conditioner is controlled according to the target temperature until the second indoor temperature reaches the target temperature.

Based on the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the opening/closing state parameter in the intelligent air conditioning system be at least one of an opening angle, an opening width and an opening time.

Based on the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the opening state judgment reference value in the intelligent air conditioning system be 75 degrees.

Based on the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the opening state judgment reference value in the intelligent air conditioning system be 3 minutes.

Based on the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the air flow parameters in the intelligent air conditioning system include at least one of a wind speed and a temperature of a blown air flow.

The present invention is directed to solve the problems of the prior art, and a necessary technical means is to provide an intelligent air conditioning method, which is adapted to a first indoor space and a second indoor space, wherein an opening and closing device is provided between the first indoor space and the second indoor space, the opening and closing device is used to selectively communicate and block the first indoor space and the second indoor space, and the intelligent air conditioning method comprises the following steps: sensing a first indoor temperature of the first indoor space so as to transmit a first temperature sensing signal; sensing a second indoor temperature of the second indoor space so as to transmit a second temperature sensing signal; sensing an opening and closing state parameter of the opening and closing device so as to transmit an opening and closing state signal; receiving a first temperature sensing signal, a second temperature sensing signal and an opening and closing state signal by using an intelligent air conditioning device arranged in a first indoor space; judging whether the opening and closing state parameter reaches a preset opening state judgment reference value; when the opening and closing state parameter does not reach a preset opening state judgment reference value, the intelligent air conditioner is operated in a space separation working mode, and when the opening and closing state parameter reaches the opening state judgment reference value, the intelligent air conditioner is operated in a space communication working mode.

When the intelligent air conditioner operates in the space separation working mode, controlling at least one airflow parameter of an air blowing flow blown into the first indoor space by the intelligent air conditioner according to the first indoor temperature; when the intelligent air conditioner operates in the space communication working mode, the first indoor temperature and the second indoor temperature are averaged to be used as a target temperature, and at least one airflow parameter of an airflow blown into the first indoor space by the intelligent air conditioner is controlled according to the target temperature until the second indoor temperature reaches the target temperature.

Based on the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the opening/closing state parameter in the intelligent air conditioning method be at least one of an opening angle, an opening width and an opening time.

Based on the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the opening state judgment reference value in the intelligent air conditioning method be 75 degrees.

Based on the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the opening state judgment reference value in the intelligent air conditioning method be 3 minutes.

Based on the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the air flow parameters in the intelligent air conditioning method include at least one of a wind speed and a temperature of a blown air flow.

In view of the above, the present invention provides an intelligent air conditioning system and method, which senses a first indoor temperature, a second indoor temperature and an open/close state parameter, and determines an operation mode of an intelligent air conditioning device according to whether the open/close state parameter reaches an open state judgment reference value. Therefore, the intelligent air conditioner device in the first indoor space can control the operation mode according to the opening and closing state parameters of the opening and closing device, and energy waste is avoided. Furthermore, the invention can also control the airflow parameter according to the second indoor temperature of the second indoor space, thereby achieving the effect of effectively reducing the second indoor temperature.

Drawings

FIG. 1 is a block diagram of an intelligent air conditioning system according to a preferred embodiment of the present invention;

fig. 2 is a schematic view illustrating the opening/closing device blocking the first indoor space and the second indoor space;

FIG. 3 is a schematic view of the opening/closing device connecting the first indoor space and the second indoor space; and

fig. 4 is a flowchart illustrating an intelligent air conditioning method according to a preferred embodiment of the present invention.

The reference numbers illustrate:

1: intelligent air conditioning system

11 first temperature sensing device

12 second temperature sensing device

13 open/close state sensing device

14 intelligent air conditioner

2 opening and closing device

A is the opening angle

F1, F2, F3, F4, F5 and F6 furniture

S1 first indoor space

S2 second indoor space

S101 to S107 step

Detailed Description

The following describes in more detail embodiments of the present invention with reference to the schematic drawings. Advantages and features of the present invention will become apparent from the following description and from the claims. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention.

Referring to fig. 1 to 4, in which, fig. 1 shows a block diagram of an intelligent air conditioning system according to a preferred embodiment of the present invention; fig. 2 is a schematic view illustrating the opening/closing device blocking the first indoor space and the second indoor space;

FIG. 3 is a schematic view of the opening/closing device connecting the first indoor space and the second indoor space; fig. 4 is a flowchart illustrating an intelligent air conditioning method according to a preferred embodiment of the present invention. As shown, an intelligent air conditioning system 1 is adapted to a first indoor space S1 and a second indoor space S2, and includes a first temperature sensing device 11, a second temperature sensing device 12, an open/close state sensing device 13 and an intelligent air conditioning device 14.

A switching device 2 is disposed between the first indoor space S1 and the second indoor space S2 for selectively connecting and blocking the first indoor space S1 and the second indoor space S2. In the present embodiment, the opening and closing device 2 is a door, but not limited thereto, and the opening and closing device 2 may also be a window, a curtain, or other devices having the function of communicating and blocking the first indoor space S1 and the second indoor space S2.

The first temperature sensing device 11 is disposed in the first indoor space S1 for sensing a first indoor temperature of the first indoor space S1 and transmitting a first temperature sensing signal accordingly. In the present embodiment, the first indoor space S1 is a room.

The second temperature sensing device 12 is disposed in the second indoor space S2 for sensing a second indoor temperature of the second indoor space S2 and transmitting a second temperature sensing signal accordingly. In the present embodiment, the second indoor space S2 is a living room.

The first indoor space S1 and the second indoor space S2 include a plurality of pieces of furniture F1, F2, F3, F4, F5 and F6 (six schematic drawings are drawn and labeled). In this embodiment, the furniture F1 is a bed, the furniture F2 is a cabinet, the furniture F3 is a desk, the furniture F4 is a sofa, the furniture F5 is a tea table, and the furniture F6 is a television cabinet.

The open-close state sensing device 13 is disposed adjacent to the open-close device 2, and is used for sensing an open-close state parameter of the open-close device 2, so as to transmit an open-close state signal. The opening and closing state parameter is at least one of an opening angle, an opening width and an opening time.

In the present embodiment, the opening/closing device 2 is a door with a rotating type, and therefore, the opening/closing state parameter is at least one of an opening angle and an opening time. If the opening/closing device 2 is a door or window in a horizontal moving manner, the opening/closing state parameter may be at least one of an opening width and an opening time.

The intelligent air conditioner 14 is disposed in the first indoor space S1, and is communicatively connected to the first temperature sensing device 11, the second temperature sensing device 12, and the opening/closing state sensing device 13 for receiving the first temperature sensing signal, the second temperature sensing signal, and the opening/closing state signal.

The intelligent air conditioner 14 analyzes the open/close state parameter in the open/close state signal, and operates in a space division mode when the open/close state parameter does not reach a preset open state judgment reference value. The opening state determination reference value may be an opening angle of 75 degrees, an opening time of 3 minutes, an opening width of 45 centimeters, or the like.

In the present embodiment, the open state determination reference value is an open angle of 75 degrees. Therefore, in fig. 2, the opening/closing device 2 is not opened and separates the first indoor space S1 from the second indoor space S2, so that the opening/closing state parameter (the opening angle is 0 °) does not reach the opening state determination reference value (the opening angle is 75 °). Therefore, the intelligent air conditioner 14 operates in the space division operation mode.

In the space division operation mode, the smart air conditioner 14 controls at least one airflow parameter of an incoming airflow only according to the first indoor temperature. The flow parameter may be a wind speed and a temperature of an incoming air flow. That is, the smart air conditioner 14 determines the opening/closing state parameter of the opening/closing device 2, and considers that the opening/closing device 2 is mainly blocking the first indoor space S1 and the second indoor space S2, so that the smart air conditioner 14 only controls the airflow parameter of the blown airflow according to the first indoor temperature without considering the second indoor temperature of the second indoor space S2.

For example, the first indoor temperature is 24 degrees, the second indoor temperature is 30 degrees, the opening angle of the opening and closing device 2 is 0 degree, and the intelligent air conditioner 14 only controls the airflow parameters of the blown airflow according to 24 degrees of the first indoor temperature, but does not refer to 30 degrees of the second indoor temperature.

When the opening/closing state parameter of the opening/closing device 2 reaches the opening state judgment reference value, as shown in fig. 3, when the opening angle a of the opening/closing device 2 reaches 75 degrees or more, the intelligent air conditioner 14 operates in a space communication mode. In practice, when the opening/closing state parameter of the opening/closing device 2 reaches the opening state judgment reference value, it indicates that the user may be located in the second indoor space S2 at this time, and it is desired that the smart air conditioner 14 in the first indoor space S1 is able to circulate the blowing air flow to the second indoor space S2, so as to lower the second indoor temperature of the second indoor space S2.

Therefore, when operating in the space-connected operation mode, the intelligent air conditioner 14 defines a target temperature as an average of the first indoor temperature and the second indoor temperature, and controls the airflow parameter of the blowing airflow according to the target temperature until the second indoor temperature reaches the target temperature. That is, when the opening/closing device 2 reaches the opening state determination reference value, the intelligent air conditioner 14 determines that the opening/closing device 2 mainly communicates the first indoor space S1 with the second indoor space S2, indicating that the intelligent air conditioner 14 needs to consider the first indoor temperature and the second indoor temperature at the same time, rather than control the blowing air flow according to the first indoor temperature alone.

For example, when the first indoor temperature is 24 degrees, the second indoor temperature is 30 degrees, and the opening angle a of the opening and closing device 2 is 75 degrees, the smart air conditioner 14 defines 27 degrees after the average of the 24 degrees of the first indoor temperature and the 30 degrees of the second indoor temperature as the target temperature, and controls the airflow parameters of the blown airflow according to the target temperature. Compared to the above example, in this example, the wind speed of the airflow parameter is higher or the temperature of the airflow parameter is lower. Therefore, the smart air conditioner 14 is operated in the space-connected mode of operation, which will reduce the second indoor temperature.

As shown in fig. 4, an intelligent air-conditioning method includes the following steps S101 to S107, and may be implemented by using the intelligent air-conditioning system 1 shown in fig. 1.

Step S101: the first indoor temperature is sensed, and a first temperature sensing signal is transmitted according to the first indoor temperature.

Step S101 may be sensed by using the first temperature sensing device 11 as in fig. 1.

Step S102: the second indoor temperature is sensed, and a second temperature sensing signal is transmitted according to the second indoor temperature.

Step S102 may be sensed by the second temperature sensing device 12 as in fig. 1.

Step S103: the opening and closing state parameter is sensed to transmit an opening and closing state signal.

Step S103 can use the open-close state sensing device 13 shown in fig. 1 to sense the open-close device 2 shown in fig. 2 and 3. The opening and closing state parameter can be an opening angle, an opening width or an opening time.

Step S104: and receiving the first temperature sensing signal, the second temperature sensing signal and the opening and closing state signal by using the intelligent air conditioner.

Step S105: and judging whether the opening and closing state parameters reach a preset opening state judgment reference value or not by using the intelligent air conditioner.

The opening state determination reference value in step S105 may be an opening angle of 75 degrees, an opening time of 3 minutes, an opening width of 45 centimeters, or the like.

When the determination in step S105 is no, the process proceeds to step S106. Step S106: the intelligent air conditioning device is enabled to operate in a space division working mode, and air flow parameters of blown air flow are controlled according to the first indoor temperature.

Step S106 is to operate the intelligent air conditioner 14 shown in fig. 1 in a space division operation mode, as shown in fig. 2, so as to control the airflow parameters of the blown airflow according to the first indoor temperature.

When the determination of step S105 is yes, the process proceeds to step S107. Step S107: the intelligent air conditioning device operates in a space communication working mode, and controls the airflow parameters of the blown airflow according to the first indoor temperature and the second indoor temperature.

Step S107 is to operate the intelligent air conditioner 14 shown in fig. 1 in a space-connected mode, as shown in fig. 3, to control the airflow parameter according to the target temperature (the average of the first indoor temperature and the second indoor temperature) and to make the second indoor temperature reach the target temperature.

In summary, the intelligent air conditioning system and method provided by the present invention determine the operation mode of the intelligent air conditioning device by sensing the first indoor temperature, the second indoor temperature and the open/close state parameter and determining whether the open/close state parameter reaches the open state judgment reference value, compared to the prior art, the intelligent air conditioning device of the present invention can control the airflow parameter of the blown airflow according to the first indoor temperature in the space division operation mode, and control the airflow parameter according to the target temperature defined by the first indoor temperature and the second indoor temperature in the space connection operation mode, so as to enable the second indoor temperature to reach the target temperature. Therefore, the intelligent air conditioner device in the first indoor space can control the operation mode according to the opening and closing state parameters of the opening and closing device, and energy waste is avoided. Furthermore, the invention can also control the airflow parameter according to the second indoor temperature of the second indoor space, thereby achieving the effect of effectively reducing the second indoor temperature.

The foregoing detailed description of the preferred embodiments is intended to more clearly illustrate the features and spirit of the present invention, and not to limit the scope of the invention by the preferred embodiments disclosed above. On the contrary, it is intended to cover various modifications and equivalent arrangements included within the scope of the claims appended hereto.

Claims (10)

1. An intelligent air conditioning system for use in a first interior space and a second interior space having an opening and closing device therebetween for selectively communicating and blocking the first interior space and the second interior space, the intelligent air conditioning system comprising:

the first temperature sensing device is arranged in the first indoor space and used for sensing a first indoor temperature of the first indoor space so as to transmit a first temperature sensing signal;

the second temperature sensing device is arranged in the second indoor space and used for sensing the second indoor temperature of the second indoor space so as to transmit a second temperature sensing signal;

the opening and closing state sensing device is arranged adjacent to the opening and closing device and used for sensing opening and closing state parameters of the opening and closing device so as to transmit an opening and closing state signal;

an intelligent air conditioner device, disposed in the first indoor space, communicatively connected to the first temperature sensing device, the second temperature sensing device and the open/close state sensing device, for receiving the first temperature sensing signal, the second temperature sensing signal and the open/close state signal, operating in a space division operating mode when the open/close state parameter does not reach a preset open state judgment reference value, and operating in a space communication operating mode when the open/close state parameter reaches the open state judgment reference value;

when the intelligent air conditioner operates in the space division working mode, controlling at least one airflow parameter of an air flow blown into the first indoor space by the intelligent air conditioner according to the first indoor temperature; when the intelligent air conditioner operates in the space communication working mode, averaging the first indoor temperature and the second indoor temperature to be used as target temperatures, and controlling the at least one airflow parameter of the blowing airflow blown into the first indoor space by the intelligent air conditioner according to the target temperatures until the second indoor temperature reaches the target temperatures.

2. The intelligent air conditioning system according to claim 1, wherein the open-close state parameter is at least one of an open angle, an open width, and an open time.

3. The intelligent air conditioning system according to claim 2, wherein the open state judgment reference value is that the open angle is 75 degrees.

4. The intelligent air conditioning system according to claim 2, wherein the on-state judgment reference value is that the on-time is 3 minutes.

5. The smart air conditioning system of claim 1, wherein the airflow parameter includes at least one of a wind speed and a temperature of the incoming airflow.

6. An intelligent air conditioning method, adapted to be used in a first indoor space and a second indoor space, wherein an opening and closing device is provided between the first indoor space and the second indoor space, and the opening and closing device is used for selectively communicating and blocking the first indoor space and the second indoor space, the intelligent air conditioning method comprising the following steps:

(a) sensing a first indoor temperature of the first indoor space so as to transmit a first temperature sensing signal;

(b) sensing a second indoor temperature of the second indoor space to transmit a second temperature sensing signal;

(c) sensing the opening and closing state parameters of the opening and closing device so as to transmit an opening and closing state signal;

(d) receiving the first temperature sensing signal, the second temperature sensing signal and the opening and closing state signal by using an intelligent air conditioner arranged in the first indoor space;

(e) judging whether the opening and closing state parameter reaches a preset opening state judgment reference value or not;

(f) when the opening and closing state parameters do not reach the preset opening state judgment reference value, the intelligent air conditioner device is operated in a space separation working mode, and when the opening and closing state parameters reach the opening state judgment reference value, the intelligent air conditioner device is operated in a space communication working mode;

when the intelligent air conditioner operates in the space division working mode, controlling at least one airflow parameter of an air flow blown into the first indoor space by the intelligent air conditioner according to the first indoor temperature; when the intelligent air conditioner operates in the space communication working mode, averaging the first indoor temperature and the second indoor temperature to be used as target temperatures, and controlling the at least one airflow parameter of the blowing airflow blown into the first indoor space by the intelligent air conditioner according to the target temperatures until the second indoor temperature reaches the target temperatures.

7. The intelligent air-conditioning method according to claim 6, wherein the opening and closing state parameter is at least one of an opening angle, an opening width and an opening time.

8. The intelligent air-conditioning method according to claim 7, wherein the open state judgment reference value is that the open angle is 75 degrees.

9. The intelligent air-conditioning method of claim 7, wherein the on-state judgment reference value is that the on-time is 3 minutes.

10. The smart air conditioning method of claim 6, wherein the airflow parameters include at least one of a wind speed and a temperature of the incoming airflow.

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