CN114431692B - Intelligent curtain system - Google Patents

Abstract

The invention provides an intelligent curtain system, which relates to the field of intelligent control and comprises a plurality of electric curtains which are arranged in a window in parallel, a first temperature sensor and a first light brightness sensor which are arranged outside the window, a second temperature sensor and a second light brightness sensor which are arranged in the window, and a controller which is electrically connected with the first temperature sensor, the first light brightness sensor, the second temperature sensor, the second light brightness sensor and the electric curtains, wherein the controller comprises a setting module and a control module, and the control module is used for comprehensively controlling the electric curtains by selecting the electric curtains corresponding to light transmission parameters and heat insulation parameters in combination with weight values according to indoor and outdoor temperature detection data and light brightness detection data and comparing with light brightness standard values and temperature standard values. The intelligent curtain solves the problems that in the prior art, the intelligent curtain can only process shading, and the indoor environment can not be optimized through comprehensive control of the curtain.

Description

Intelligent curtain system

Technical Field

The invention relates to the field of intelligent control, in particular to an intelligent curtain system.

Background

Currently, motorized window treatments have been increasingly used by people. The electric curtain is driven by a motor and other power devices to automatically close or open, so that the trouble of manual operation is eliminated. However, the existing electric curtain still has the problem of low automation degree, and manual operation control is also needed.

Based on the not high problem of electric window curtain degree of automation, current patent application number: CN201510796453.4, patent name: an intelligent curtain system with an adjustable shading effect can automatically open and close according to the intensity of outdoor light, and the shading effect of a curtain is adjusted. The prior patent mainly considers the shading problem of the curtain, please refer to fig. 1 and 2, but does not consider the heat preservation and wind shielding problem of the curtain, so that the indoor environment comfort level cannot be optimized through the comprehensive control of the curtain.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, an object of the present invention is to provide an intelligent curtain system, which is used for solving the problem that an intelligent curtain in the prior art can only process the shading problem, and cannot achieve the best indoor environment through comprehensive control of the curtain.

The invention provides an intelligent curtain system, which comprises a plurality of electric curtains, a first temperature sensor, a first light brightness sensor, a second temperature sensor, a second light brightness sensor, a controller and a control module, wherein the electric curtains are arranged in a window in parallel;

the setting module is internally pre-stored with light transmission parameters and heat insulation parameters of a plurality of electric curtains, a light brightness standard value, a temperature standard value and weight values of the light brightness standard value and the temperature standard value;

the control module compares the detection data of the first temperature sensor, the first light brightness sensor, the second temperature sensor and the second light brightness sensor with the light brightness standard value and the temperature standard value, and combines the weight values of the light brightness standard value and the temperature standard value to select the electric curtain corresponding to the light transmission parameter and the heat insulation parameter, and the control module is used for controlling the opening and closing of the electric curtain.

In an embodiment of the present invention, the control module performs an opening/closing control process for the electric window curtain, which includes:

(1) Acquiring detection data T1 of a first temperature sensor, detection data L1 of a first light brightness sensor, detection data T2 of the first temperature sensor and detection data L2 of a second light brightness sensor;

(2) Firstly, judging the size relation between detection data L1 and detection data L2, the size relation between detection data T1 and detection data T2, then judging the size relation between detection data L1 and a light brightness standard value L0, and judging the size relation between detection data T1 and a temperature standard value T0;

(3) If L1 > L2 or T1 > T2, and L1 > L0, T1 > T0, calculating l=l1-L0, t=t1-T0, calculating a light transmittance value and a heat insulation value tx=l×m, lx=t×n according to the weight values M, N of the light brightness standard value and the temperature standard value, sequentially matching L and T according to the magnitude relation between Tx and Lx, selecting an electric curtain corresponding to the light transmittance parameter and the heat insulation parameter, generating a closing control instruction, and otherwise generating an opening control instruction;

(4) If L1 is more than L2 or T1 is more than T2, L1 is more than L0, T1 is less than or equal to T0, calculating L=L1-L0, matching L, selecting an electric curtain corresponding to the light transmission parameter, generating a closing control instruction, and otherwise generating an opening control instruction;

(5) If L1 is more than L2 or T1 is more than T2, L1 is less than or equal to L0, and T1 is more than T0, calculating T=T1-T0, matching T, selecting an electric curtain corresponding to the heat insulation parameter, generating a closing control instruction, and otherwise generating an opening control instruction;

(6) And controlling the opening and closing of the electric curtain according to the closing control command and the opening control command.

In an embodiment of the present invention, the controller performs superposition matching with the light transmission parameters and the heat insulation parameters of the plurality of electric curtains according to the L and the T, and generates the closing control command for simultaneously controlling the plurality of electric curtains.

In an embodiment of the invention, the control module updates the detection data T1 of the first temperature sensor, the detection data L1 of the first light brightness sensor, the detection data T2 of the first temperature sensor, and the detection data L2 of the second light brightness sensor every 5 minutes to 10 minutes.

In an embodiment of the invention, the light brightness standard value L0 and the temperature standard value T0 are preset parameters or post-modification parameters.

As described above, the intelligent curtain system has the following beneficial effects: the invention collects outdoor temperature detection data and light brightness detection data through a first temperature sensor and a first light brightness sensor which are arranged outdoors; acquiring indoor temperature detection data and light brightness detection data through a second temperature sensor and a second light brightness sensor which are arranged in the indoor; and the controller is used for comparing the indoor and outdoor temperature detection data and the light brightness detection data with the preset light brightness standard value and temperature standard value, judging which of the light brightness and the temperature has larger influence on the human comfort according to the weight values of the light brightness standard value and the temperature standard value, and further, preferentially considering the object with larger influence on the human comfort to process, and further, selecting electric curtains with different light transmission parameters and heat insulation parameters to comprehensively control, so that the indoor environment comfort is optimal.

Drawings

Fig. 1 is a block diagram illustrating a construction of an intelligent window covering system disclosed in the prior art of the present invention.

Fig. 2 shows a flow chart of the operation of the smart shade system disclosed in the prior art of the present invention.

Fig. 3 is a block diagram of an intelligent window covering system according to an embodiment of the present invention.

Fig. 4 is a block diagram showing a specific construction of an intelligent curtain system according to an embodiment of the present invention.

Fig. 5 shows a flowchart of the operation of the smart shade system disclosed in an embodiment of the present invention.

Fig. 6 shows a specific workflow diagram of the smart shade system disclosed in an embodiment of the present invention.

Detailed Description

Other advantages and effects of the present invention will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present invention with reference to specific examples. The invention may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present invention. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict.

It should be noted that the illustrations provided in the following embodiments merely illustrate the basic concept of the present invention by way of illustration, and only the components related to the present invention are shown in the drawings and are not drawn according to the number, shape and size of the components in actual implementation, and the form, number and proportion of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complicated.

Referring to fig. 3 and 4, the present invention provides an intelligent curtain system, which includes a plurality of electric curtains arranged in parallel in a window, a first temperature sensor and a first light brightness sensor arranged outside the window, a second temperature sensor and a second light brightness sensor arranged in the window, and a controller electrically connected with the first temperature sensor, the first light brightness sensor, the second temperature sensor, the second light brightness sensor and the electric curtains, wherein the controller includes a setting module and a control module;

the setting module is internally pre-stored with light transmission parameters and heat insulation parameters of a plurality of electric curtains, a light brightness standard value, a temperature standard value and weight values of the light brightness standard value and the temperature standard value;

the control module compares the detection data of the first temperature sensor, the first light brightness sensor, the second temperature sensor and the second light brightness sensor with the light brightness standard value and the temperature standard value, and combines the weight values of the light brightness standard value and the temperature standard value to select the electric curtain corresponding to the light transmission parameter and the heat insulation parameter, and the control module is used for controlling the opening and closing of the electric curtain.

Referring to fig. 5, the present invention collects outdoor temperature detection data and light brightness detection data through a first temperature sensor and a first light brightness sensor disposed outdoors; acquiring indoor temperature detection data and light brightness detection data through a second temperature sensor and a second light brightness sensor which are arranged in the indoor; and the controller is used for comparing the indoor and outdoor temperature detection data and the light brightness detection data with the preset light brightness standard value and temperature standard value, judging which of the light brightness and the temperature has larger influence on the human comfort according to the weight values of the light brightness standard value and the temperature standard value, and further, preferentially considering the object with larger influence on the human comfort to process, and further, selecting electric curtains with different light transmission parameters and heat insulation parameters to comprehensively control, so that the indoor environment comfort is optimal.

Referring to fig. 6, the control module performs an opening/closing control process on the electric curtain, which includes:

(1) Acquiring detection data T1 of a first temperature sensor, detection data L1 of a first light brightness sensor, detection data T2 of the first temperature sensor and detection data L2 of a second light brightness sensor;

(2) Firstly, judging the size relation between detection data L1 and detection data L2, the size relation between detection data T1 and detection data T2, then judging the size relation between detection data L1 and a light brightness standard value L0, and judging the size relation between detection data T1 and a temperature standard value T0;

firstly, judging whether a temperature difference value and a light brightness difference value exist between the indoor and the outdoor, then judging whether a difference value exists between outdoor light brightness detection data L1 and a light brightness standard value L0, and judging whether a difference value exists between outdoor temperature detection data T1 and a temperature standard value T0.

(3) If L1 > L2 or T1 > T2, and L1 > L0, T1 > T0, calculating l=l1-L0, t=t1-T0, calculating a light transmittance value and a heat insulation value tx=l×m, lx=t×n according to the weight values M, N of the light brightness standard value and the temperature standard value, sequentially matching L and T according to the magnitude relation between Tx and Lx, selecting an electric curtain corresponding to the light transmittance parameter and the heat insulation parameter, generating a closing control instruction, and otherwise generating an opening control instruction;

if it is determined that there is a temperature difference between indoor and outdoor or a light brightness difference, and outdoor light brightness detection data L1 is greater than a light brightness standard value L0, and outdoor temperature detection data T1 is greater than a temperature standard value T0, calculating a light transmittance value and a heat insulation ratio tx=l×m, and lx=t×n, that is, an influence value of temperature and light brightness on environmental comfort, according to the influence value, preferentially selecting temperature and light brightness for processing, further sequentially matching with the difference values L and T, selecting a motor curtain corresponding to the light transmittance parameter and the heat insulation parameter, and generating a closing control instruction, and otherwise generating an opening control instruction.

(4) If L1 is more than L2 or T1 is more than T2, L1 is more than L0, T1 is less than or equal to T0, calculating L=L1-L0, matching L, selecting an electric curtain corresponding to the light transmission parameter, generating a closing control instruction, and otherwise generating an opening control instruction;

namely, if it is judged that there is a temperature difference between indoor and outdoor or there is a light brightness difference, and outdoor light brightness detection data L1 is greater than a light brightness standard value L0, and outdoor temperature detection data T1 is not greater than a temperature standard value T0, only the influence of light brightness on environmental comfort is considered, L is matched, an electric curtain corresponding to a light transmission parameter is selected, a closing control instruction is generated, and otherwise an opening control instruction is generated.

(5) If L1 is more than L2 or T1 is more than T2, L1 is less than or equal to L0, and T1 is more than T0, calculating T=T1-T0, matching T, selecting an electric curtain corresponding to the heat insulation parameter, generating a closing control instruction, and otherwise generating an opening control instruction;

namely, if it is judged that there is a temperature difference between indoor and outdoor or there is a light brightness difference, and outdoor light brightness detection data L1 is not greater than a light brightness standard value L0, and outdoor temperature detection data T1 is greater than a temperature standard value T0, only the influence of temperature on environmental comfort is considered, T is matched, an electric curtain corresponding to a heat insulation parameter is selected, a closing control instruction is generated, and otherwise, an opening control instruction is generated.

(6) And controlling the opening and closing of the electric curtain according to the closing control command and the opening control command.

The controller performs superposition matching with the light transmission parameters and the heat insulation parameters of the plurality of electric curtains according to the L and the T, and generates a closing control instruction for simultaneously controlling the plurality of electric curtains; the control module updates the detection data T1 of the first temperature sensor, the detection data L1 of the first light brightness sensor, the detection data T2 of the first temperature sensor and the detection data L2 of the second light brightness sensor every 5 to 10 minutes.

Specifically, the light brightness standard value L0 and the temperature standard value T0 are preset parameters or later-stage changing parameters, so that factory setting can be performed, and artificial later-stage setting can also be performed.

In summary, the intelligent curtain solves the problem that the intelligent curtain can only process shading, and the indoor environment can not be optimized through comprehensive control of the curtain. Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (4)

1. An intelligent window covering system, characterized in that: the window comprises a plurality of electric curtains which are arranged in parallel in a window, a first temperature sensor and a first light brightness sensor which are arranged outside the window, a second temperature sensor and a second light brightness sensor which are arranged in the window, and a controller which is electrically connected with the first temperature sensor, the first light brightness sensor, the second temperature sensor, the second light brightness sensor and the electric curtains, wherein the controller comprises a setting module and a control module;

the setting module is internally pre-stored with light transmission parameters and heat insulation parameters of a plurality of electric curtains, a light brightness standard value, a temperature standard value and weight values of the light brightness standard value and the temperature standard value;

the control module compares the detection data of the first temperature sensor, the first light brightness sensor, the second temperature sensor and the second light brightness sensor with a light brightness standard value and a temperature standard value, and selects an electric curtain corresponding to the light transmission parameter and the heat insulation parameter by combining the weight values of the light brightness standard value and the temperature standard value, and controls the opening and closing of the electric curtain through the control module;

the control module carries out the flow of opening and closing control to the electric curtain as follows:

(1) Acquiring detection data T1 of a first temperature sensor, detection data L1 of a first light brightness sensor, detection data T2 of the first temperature sensor and detection data L2 of a second light brightness sensor;

(2) Firstly, judging the size relation between detection data L1 and detection data L2, the size relation between detection data T1 and detection data T2, then judging the size relation between detection data L1 and a light brightness standard value L0, and judging the size relation between detection data T1 and a temperature standard value T0;

(3) If L1 > L2 or T1 > T2, and L1 > L0, T1 > T0, calculating l=l1-L0, t=t1-T0, calculating a light transmittance value and a heat insulation value tx=l×m, lx=t×n according to the weight values M, N of the light brightness standard value and the temperature standard value, sequentially matching L and T according to the magnitude relation between Tx and Lx, selecting an electric curtain corresponding to the light transmittance parameter and the heat insulation parameter, generating a closing control instruction, and otherwise generating an opening control instruction;

(4) If L1 is more than L2 or T1 is more than T2, L1 is more than L0, T1 is less than or equal to T0, calculating L=L1-L0, matching L, selecting an electric curtain corresponding to the light transmission parameter, generating a closing control instruction, and otherwise generating an opening control instruction;

(5) If L1 is more than L2 or T1 is more than T2, L1 is less than or equal to L0, and T1 is more than T0, calculating T=T1-T0, matching T, selecting an electric curtain corresponding to the heat insulation parameter, generating a closing control instruction, and otherwise generating an opening control instruction;

(6) And controlling the opening and closing of the electric curtain according to the closing control command and the opening control command.

2. An intelligent window covering system according to claim 1, wherein: and the controller performs superposition matching with the light transmission parameters and the heat insulation parameters of the plurality of electric curtains according to the L and the T, and generates a closing control instruction for simultaneously controlling the plurality of electric curtains.

3. An intelligent window covering system according to claim 2, wherein: the control module updates the detection data T1 of the first temperature sensor, the detection data L1 of the first light brightness sensor, the detection data T2 of the first temperature sensor and the detection data L2 of the second light brightness sensor every 5 to 10 minutes.

4. An intelligent window covering system according to claim 3, wherein: the light brightness standard value L0 and the temperature standard value T0 are preset parameters or later-period changing parameters.

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