TWI735378B - Intelligent air conditioning system and method - Google Patents

Abstract

An intelligent air conditioning system is disclosed in the present invention. The intelligent air conditioning system includes a first sensor, a second sensor, a third sensor, and an intelligent air conditioner. The first sensor is utilized to sense a first temperature of a first space. The second sensor is utilized to sense a second temperature of a second space. The third sensor is utilized to sense a blocking device between the first space and the second space. When the blocking device is in a closed state, the intelligent air conditioner operates with the first temperature. When the blocking device is in an open state, the intelligent air conditioner operates with the first temperature and the second temperature so as to decrease the second temperature. An intelligent air conditioning method is also disclosed in the present invention.

Description

Smart air conditioning system and method

The present invention relates to a system and method, in particular to a smart air-conditioning system and method.

As the population gathers in major metropolitan areas, housing prices are on the high side. Although housing prices have gradually stabilized or even declined in recent years, housing prices are still high for most people. Therefore, the construction of several houses or suites in Xiaoping gradually became popular, for example, the pattern of one bedroom and one living room. Because the number of pings is small, residents usually choose to install only one air conditioner in the room or living room and connect the room to the living room to save money.

However, since the circulation range of the cold air blowing into the airflow is limited and the cold air only senses the temperature of the space where it is located (room or living room) and does not sense the temperature of another space (living room or room). Simply put, residents install air-conditioning in the room and open the door to connect the room with the living room. However, the air-conditioning only adjusts the airflow according to the temperature of the room and cannot know the temperature of the living room. Therefore, there may be a situation where the room temperature is very low but the living room temperature is still high, or the room temperature is affected by the living room temperature and does not reach the target temperature, causing energy waste caused by the continuous operation of the air-conditioning. Therefore, there is room for improvement in the prior art.

In view of the prior art, placing the cold air in one of the spaces only adjusts the blow-in airflow according to the temperature of the space and various problems arising therefrom. One of the main objectives of the present invention is to provide a smart air conditioning system and method to solve at least one of the problems in the prior art.

In order to solve the problems of the prior art, the necessary technical means adopted by the present invention is to provide a smart air-conditioning system suitable for a first indoor space and a second indoor space, between the first indoor space and the second indoor space An opening and closing device for selectively connecting and blocking the first indoor space and the second indoor space. The smart air conditioning system includes a first temperature sensing device, a second temperature sensing device, and an opening and closing device State sensing device and a smart air conditioning device.

The first temperature sensing device is disposed in the first indoor space, and is used for sensing a first indoor temperature of the first indoor space, and thereby transmitting a first temperature sensing signal. The second temperature sensing device is arranged in the second indoor space for sensing a second indoor temperature of the second indoor space, and accordingly transmits a second temperature sensing signal. The opening and closing state sensing device is arranged adjacent to the opening and closing device for sensing an opening and closing state parameter of the opening and closing device, and accordingly transmits an opening and closing state signal. The smart air conditioner is installed in the first indoor space, and is communicatively connected to the first temperature sensing device, the second temperature sensing device, and the opening and closing state sensing device to receive the first temperature sensing signal and the second temperature sensing signal With the opening and closing state signal, when the opening and closing state parameters have not reached a preset opening state judgment reference value, it operates in a space-separated working mode, and when the opening and closing state parameters reach the opening state judgment reference value, it is connected by a space Work mode operation.

Wherein, when the smart air-conditioning device operates in the space separation mode, at least one airflow parameter of one of the blowing airflows that the smart air-conditioning device blows into the first indoor space is controlled according to the first indoor temperature; when the smart air-conditioning device works in spatial communication When operating in the mode, the first indoor temperature and the second indoor temperature are averaged as a target temperature, and the airflow parameters of the airflow blowing into the first indoor space by the smart air conditioner are controlled according to the target temperature until the second indoor The temperature reaches the target temperature.

On the basis of the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the opening and closing state parameters of the smart air-conditioning system be at least one of an opening angle, an opening width, and an opening time.

On the basis of the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the open state judgment reference value in the smart air-conditioning system set at an opening angle of 75 degrees.

On the basis of the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the open state judgment reference value in the smart air-conditioning system, the open time is 3 minutes.

On the basis of the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the airflow parameters in the smart air-conditioning system include at least one of a blowing airflow, a wind speed, and a temperature.

In order to solve the problem of the prior art, the necessary technical means adopted by the present invention is to provide a smart air-conditioning method, which is suitable for a first indoor space and a second indoor space, between the first indoor space and the second indoor space. There is an opening and closing device for selectively connecting and blocking the first indoor space and the second indoor space. The smart air conditioning method includes the following steps: sensing a first indoor temperature of one of the first indoor spaces, according to To transmit a first temperature sensing signal; to sense a second indoor temperature in a second indoor space, and to transmit a second temperature sensing signal accordingly; to sense an opening and closing state parameter of an opening and closing device, according to To transmit an opening and closing state signal; use a smart air conditioner installed in the first indoor space to receive the first temperature sensing signal, the second temperature sensing signal, and the opening and closing state signal; to determine whether the opening and closing state parameters reach the preset An opening state judgment reference value; when the opening and closing state parameters do not reach a preset opening state judgment reference value, the smart air conditioner is operated in a space-separated working mode, and the opening and closing state parameters reach the opening state judgment reference value At the same time, the smart air-conditioning device is operated in a spatially connected working mode.

Wherein, when the smart air-conditioning device operates in the space separation mode, at least one airflow parameter of one of the blowing airflows that the smart air-conditioning device blows into the first indoor space is controlled according to the first indoor temperature; when the smart air-conditioning device works in spatial communication When operating in the mode, the first indoor temperature and the second indoor temperature are averaged as a target temperature, and at least one airflow parameter of the blowing airflow of the smart air conditioner into the first indoor space is controlled according to the target temperature, until the first indoor temperature 2. The indoor temperature reaches the target temperature.

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

On the basis of the above-mentioned necessary technical means, one of the subsidiary technical means derived from the present invention is to make the open state judgment reference value in the smart air-conditioning method set at an opening angle of 75 degrees.

On the basis of the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the open state judgment reference value in the smart air-conditioning method, the open time is 3 minutes.

On the basis of the above-mentioned necessary technical means, an auxiliary technical means derived from the present invention is to make the airflow parameters in the smart air conditioning method include at least one of a blowing airflow, a wind speed, and a temperature.

As mentioned above, the smart air conditioning system and method provided by the present invention use the sensing of the first indoor temperature, the second indoor temperature and the opening and closing state parameters, and determine the wisdom based on whether the opening and closing state parameters reach the open state judgment reference value. Compared with the prior art, the operation mode of the air-conditioning device of the present invention can control the airflow parameters of the blow-in airflow according to the first room temperature in the space-separated working mode, and according to the first room temperature in the space-connected working mode. The temperature and the second indoor temperature define the target temperature control airflow parameter, so that the second indoor temperature reaches the target temperature. Therefore, the present invention can enable the smart air conditioner in the first indoor space to control the operation mode according to the opening and closing state parameters of the opening and closing device without causing energy waste. Furthermore, the present invention can also control the airflow parameters according to the second indoor temperature of the second indoor space, so as to achieve the effect of effectively reducing the second indoor temperature.

The specific embodiments of the present invention will be described in more detail below in conjunction with the schematic diagrams. According to the following description and the scope of patent application, the advantages and features of the present invention will be more clear. It should be noted that the drawings all adopt a very simplified form and all use imprecise proportions, which are only used to conveniently and clearly assist in explaining the purpose of the embodiments of the present invention.

Please refer to Figures 1 to 4, where the first figure shows a block diagram of the smart air conditioning system provided by the preferred embodiment of the present invention; the second figure shows the opening and closing device blocking the first indoor space and the second indoor space The schematic diagram of the space; the third diagram is a diagram showing the opening and closing device connecting the first indoor space and the second indoor space; and the fourth diagram is a flowchart of the smart air conditioning method provided by the preferred embodiment of the present invention. As shown in the figure, a smart air conditioning system 1 is used for 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, and an opening The combined state sensing device 13 and a smart air-conditioning device 14 are combined.

An opening and closing device 2 is disposed between the first indoor space S1 and the second indoor space S2 to selectively communicate and block the first indoor space S1 and the second indoor space S2. In this embodiment, the opening and closing device 2 is a door, but it is not limited to this. The opening and closing device 2 can also be a window, a curtain, or other functions that connect and block the first indoor space S1 and the second indoor space S2. s installation.

The first temperature sensing device 11 is disposed in the first indoor space S1 to sense a first indoor temperature in the first indoor space S1 and transmit a first temperature sensing signal accordingly. In this 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 this 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 furnitures F1, F2, F3, F4, F5, F6 (drawing and marking six schematic diagrams). In this embodiment, furniture F1 is a bed, furniture F2 is a cabinet, furniture F3 is a desk, furniture F4 is a sofa, furniture F5 is a coffee table, and furniture F6 is a TV cabinet.

The opening/closing state sensing device 13 is disposed adjacent to the opening/closing device 2 to sense an opening/closing state parameter of the opening/closing device 2 and to transmit an opening/closing state signal accordingly. The opening and closing state parameter is at least one of an opening angle, an opening width, and an opening time.

In this embodiment, the opening and closing device 2 is a rotary door. Therefore, the opening and closing state parameter is at least one of the opening angle and the opening time. If the opening and closing device 2 is a translational door or window, the opening and closing state parameter can be at least one of the opening width and the opening time.

The smart air-conditioning device 14 is installed 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 and closing state sensing device 13, for receiving the first temperature sensing signal and the first temperature sensing device. 2. Temperature sensing signal and opening/closing state signal.

The smart air conditioner 14 analyzes the opening and closing state parameters in the opening and closing state signals, and operates in a space-separated working mode when the opening and closing state parameters do not reach a preset threshold value for determining the opening state. The criterion value for determining the opening state can be an opening angle of 75 degrees, an opening time of 3 minutes, or an opening width of 45 cm.

In this embodiment, the open state determination reference value is an open angle of 75 degrees. Therefore, in the second figure, the opening and closing device 2 is not opened and isolates the first indoor space S1 and the second indoor space S2, so the opening and closing state parameter (opening angle is 0 degrees) does not reach the opening state judgment reference value ( The opening angle is 75 degrees). Therefore, the smart air-conditioning device 14 will operate in a space-separated working mode.

In the space-separated working mode, the smart air conditioner 14 only controls at least one airflow parameter of a blow-in airflow according to the first indoor temperature. The airflow parameter can be a wind speed and a temperature of an insufflation airflow. That is to say, the smart air conditioner 14 judges the opening and closing state parameters of the opening and closing device 2, and considers that the opening and closing device 2 is mainly blocking the first indoor space S1 and the second indoor space S2. An indoor temperature is used to control the airflow parameters of the blow-in airflow without considering the second indoor temperature of the second indoor space S2.

For example, if the first indoor temperature is 24 degrees, the second indoor temperature is 30 degrees, and the opening angle of the opening and closing device 2 is 0 degrees, the smart air conditioner 14 will only control the blowing airflow based on the 24 degrees of the first indoor temperature. The airflow parameter does not refer to the 30 degrees of the second room temperature.

When the opening and closing state parameters of the opening and closing device 2 reach the opening state judgment reference value, as shown in the third figure, when the opening angle A of the opening and closing device 2 reaches 75 degrees or more, the smart air conditioner 14 will operate in a spatial connection mode Operation. In practice, when the opening and closing state parameters of the opening and closing device 2 reach the open state judgment reference value, it means that the user at this time may be located in the second indoor space S2 and hope that the smart air conditioner 14 in the first indoor space S1 can blow in The airflow circulates to the second indoor space S2, thereby reducing the second indoor temperature of the second indoor space S2.

Therefore, operating in the spatial connection working mode, the smart air conditioner 14 will average the first indoor temperature and the second indoor temperature and define it as a target temperature, and control the airflow parameters of the blowing air according to the target temperature until the second indoor temperature Reach the target temperature. In other words, when the opening and closing device 2 reaches the open state judgment reference value, the smart air conditioner 14 will determine that the opening and closing device 2 mainly connects the first indoor space S1 with the second indoor space S2, indicating that the smart air conditioning device 14 needs At the same time, the first indoor temperature and the second indoor temperature are taken into consideration, instead of controlling the blowing airflow solely based on the first indoor temperature.

For example, if 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 will compare the 24 degrees of the first indoor temperature with the second indoor temperature. 27 degrees after the average of 30 degrees of temperature is defined as the target temperature, and the airflow parameters of the blowing airflow are controlled according to the target temperature. Compared with the previous 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-conditioning device 14 operates in the spatial connection working mode, which can reduce the second indoor temperature.

As shown in the fourth figure, a smart air-conditioning method includes the following steps S101 to S107, and can be implemented using the smart air-conditioning system 1 as shown in the first figure.

Step S101: The first indoor temperature is sensed, and the first temperature sensing signal is transmitted accordingly.

In step S101, the first temperature sensing device 11 as shown in the first figure can be used for sensing.

Step S102: The second indoor temperature is sensed, and the second temperature sensing signal is transmitted accordingly.

In step S102, the second temperature sensing device 12 as shown in the first figure can be used for sensing.

Step S103: Sensing the opening and closing state parameters, and transmitting an opening and closing state signal accordingly.

In step S103, the opening and closing state sensing device 13 as shown in the first figure can be used to sense the opening and closing device 2 as shown in the second and third figures. The opening and closing state parameter can be an opening angle, an opening width or an opening time.

Step S104: Use the smart air conditioner to receive the first temperature sensing signal, the second temperature sensing signal, and the opening and closing state signal.

Step S105: Use the smart air conditioner to determine whether the opening and closing state parameters have reached the preset opening state judgment reference value.

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

When the determination of step S105 is negative, the system proceeds to step S106. Step S106: Make the smart air conditioner operate in a space-separated working mode, and control the airflow parameters of the blowing airflow according to the first indoor temperature.

In step S106, the smart air conditioner 14 as shown in the first figure is operated in a space-separated working mode, as shown in the second figure, so as to control the airflow parameters of the blowing air according to the first indoor temperature.

When the determination of step S105 is YES, the system proceeds to step S107. Step S107: Make the smart air-conditioning device operate in a spatially connected working mode, and control the airflow parameters of the blowing airflow according to the first indoor temperature and the second indoor temperature.

In step S107, the smart air-conditioning device 14 in the first figure is operated in the spatial communication mode, as shown in the third figure, so as to control the airflow parameters according to the target temperature (the average of the first indoor temperature and the second indoor temperature), and make The second room temperature reaches the target temperature.

In summary, the smart air-conditioning system and method provided by the present invention use the sensing of the first indoor temperature, the second indoor temperature, and the opening and closing state parameters, and determine whether the opening and closing state parameters reach the open state judgment reference value. Compared with the prior art, the operation mode of the smart air-conditioning device of the present invention can control the airflow parameters of the blow-in airflow according to the first indoor temperature in the spatially separated working mode, and according to the first Room temperature and second room temperature The target temperature is defined by the degree to control the airflow parameters, so that the second indoor temperature reaches the target temperature. Therefore, the present invention can enable the smart air conditioner in the first indoor space to control the operation mode according to the opening and closing state parameters of the opening and closing device without causing energy waste. Furthermore, the present invention can also control the airflow parameters according to the second indoor temperature of the second indoor space, so as to achieve the effect of effectively reducing the second indoor temperature.

Based on the above detailed description of the preferred embodiments, it is hoped that the characteristics and spirit of the present invention can be described more clearly, and the scope of the present invention is not limited by the preferred embodiments disclosed above. On the contrary, the purpose is to cover various changes and equivalent arrangements within the scope of the patent for which the present invention is intended.

1: Smart air conditioning system

11: The first temperature sensing device

12: The second temperature sensing device

13: Opening and closing state sensing device

14: Smart air conditioning device

2: Opening and closing device

A: Opening angle

F1, F2, F3, F4, F5, F6: Furniture

S1: The first interior space

S2: The second indoor space

S101~S107: steps

The first figure is a block diagram showing the smart air-conditioning system provided by the preferred embodiment of the present invention; The second figure is a schematic diagram showing the opening and closing device blocking the first indoor space and the second indoor space; The third figure is a schematic diagram showing the opening and closing device connecting the first indoor space and the second indoor space; and The fourth figure is a flowchart of the smart air conditioning method provided by the preferred embodiment of the present invention.

1: Smart air conditioning system

11: The first temperature sensing device

12: The second temperature sensing device

13: Opening and closing state sensing device

14: Smart air conditioning device

2: Opening and closing device

A: Opening angle

F1, F2, F3, F4, F5, F6: Furniture

S1: The first interior space

S2: The second indoor space

Claims (10)

A smart air-conditioning system is suitable for a first indoor space and a second indoor space. There is an opening and closing device between the first indoor space and the second indoor space, and the opening and closing device is used to selectively The ground connects and blocks the first indoor space and the second indoor space, and the smart air conditioning system includes: A first temperature sensing device arranged in the first indoor space for sensing a first indoor temperature of the first indoor space, and transmitting a first temperature sensing signal accordingly; A second temperature sensing device arranged in the second indoor space for sensing a second indoor temperature of the second indoor space, and transmitting a second temperature sensing signal accordingly; An opening and closing state sensing device is arranged adjacent to the opening and closing device for sensing an opening and closing state parameter of the opening and closing device, and transmits an opening and closing state signal accordingly; A smart air-conditioning device is arranged in the first indoor space, and is communicatively connected to the first temperature sensing device, the second temperature sensing device, and the opening and closing state sensing device for receiving the first temperature sensing Signal, the second temperature sensing signal, and the opening and closing state signal, when the opening and closing state parameter does not reach a preset opening state determination reference value, operate in a space-separated working mode, and the opening and closing state parameters When reaching the open state judgment reference value, operate in a spatial connection working mode; Wherein, when the smart air-conditioning device operates in the space-divided working mode, at least one airflow parameter of one of the blowing airflows that the smart air-conditioning device blows into the first indoor space is controlled according to the first indoor temperature; when the smart When the air-conditioning device operates in the space connection working mode, the first indoor temperature and the second indoor temperature are averaged as a target temperature, and the smart air-conditioning device is controlled to blow into the first indoor space according to the target temperature The at least one airflow parameter of the blowing airflow until the second indoor temperature reaches the target temperature. The smart air conditioning system according to claim 1, wherein the opening and closing state parameter is at least one of an opening angle, an opening width, and an opening time. The smart air conditioning system according to claim 2, wherein the opening state judgment reference value is that the opening angle is 75 degrees. The smart air-conditioning system according to claim 2, wherein the open state judgment reference value is that the open time is 3 minutes. The smart air conditioning system according to claim 1, wherein the airflow parameter includes at least one of a wind speed and a temperature of the blowing airflow. A smart air conditioning method is used for a first indoor space and a second indoor space. There is an opening and closing device between the first indoor space and the second indoor space, and the opening and closing device is used to selectively The ground connects and blocks the first indoor space and the second indoor space, and the smart air conditioning method includes the following steps: (a) Detect a first indoor temperature of the first indoor space, and transmit a first temperature sensing signal accordingly; (b) Detect a second indoor temperature of the second indoor space, and transmit a second temperature sensing signal accordingly; (c) Sense an opening and closing state parameter of the opening and closing device, and transmit an opening and closing state signal accordingly; (d) Using a smart air conditioner installed in the first indoor space to receive the first temperature sensing signal, the second temperature sensing signal, and the opening and closing state signal; (e) Judging whether the opening and closing state parameter has reached one of the preset opening state judgment reference values; (f) When the opening and closing state parameter does not reach a preset threshold value for determining the opening state, the smart air-conditioning device is operated in a space-separated working mode, and when the opening and closing state parameter reaches the threshold value for determining the opening state , So that the smart air-conditioning device operates in a spatially connected working mode; Wherein, when the smart air-conditioning device operates in the space separation mode, at least one airflow parameter of one of the blowing airflow that the smart air-conditioning device blows into the first indoor space is controlled according to the first indoor temperature; when the smart When the air-conditioning device operates in the space-connected working mode, the first indoor temperature and the second indoor temperature are averaged as a target temperature, and the smart air-conditioning device is controlled to blow into the first indoor space according to the target temperature The at least one airflow parameter of the blowing airflow until the second indoor temperature reaches the target temperature. The smart 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. The smart air conditioning method according to claim 7, wherein the opening state judgment reference value is that the opening angle is 75 degrees. The smart air-conditioning method according to claim 7, wherein the open state judgment reference value is that the open time is 3 minutes. The smart air conditioning method according to claim 6, wherein the airflow parameter includes at least one of a wind speed and a temperature of the blowing airflow.

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