JP2008156817A - Control equipment of electric blind - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide control equipment of an electric blind, which collectively controls the operations of many electric blinds, and which can enhance the accuracy of control operations for adjusting the amount of daylighting. <P>SOLUTION: This control equipment of the electric blind, which is equipped with the function of automatically adjusting the height and angle of a slat, for the many electric blinds 1, comprises: an outdoor illuminometer 4 for detecting the presence or absence of direct sunlight from the sun; an indoor illuminometer 5 which is provided in each of the electric blinds 1; and a shade control device 3 which controls the angle of the slat of the electric blind 1, installed in an incident position of the direct sunlight from the sun, to an angle for letting in light, when an illuminance value detected by the outdoor illuminometer 4 exceeds a preset value and when an illuminance value detected by the indoor illuminometer 5 does not exceed the preset value. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a control device for an electric blind that automatically controls the amount of sunlight incident on a room, and in particular, when it is shaded by an adjacent building or the like, it has a control function corresponding to the shade or is adjacent. The present invention relates to a control device for an electric blind having a control function corresponding to reflected light that is reflected on a building.

  The electric blind control device automatically controls the blind opening (slat raising / lowering position) and slat angle with respect to the electric blinds installed on many windows along the outer wall of the building. It blocks sunlight and optimally controls the amount of light collected into the room.

  Such a control device calculates the azimuth and altitude of the sun that changes with time, calculates the optimum slat angle to block direct light based on the calculation result, and calculates the slat angle based on the calculated slat angle. And a schedule function for automatically controlling the blind opening and the slat angle every predetermined time.

  In addition, since direct light does not enter when it is shaded by an adjacent building, etc., the shade control function that turns the slats of the electric blind located in the shade to take in sufficient outside light, or adjacent There has also been proposed a control device having a reflected light control function for blocking the incidence of reflected light reflected on a building.

  In Patent Document 1, based on the position and shape of an adjacent building or the like, the shade generated in the building or the like is calculated by simulation, and the shade control is performed on the electric blind located in the calculated shade. A control device is disclosed.

In Patent Document 2, the incident angle of reflected light is calculated based on the incident angle of sunlight and the position and shape of an adjacent building, and the reflected light is controlled based on the incident angle of the reflected light. A control device is disclosed.
Japanese Patent No. 3561224 Japanese Patent No. 3554510

  In the control device for an electric blind described in Patent Document 1, in order to calculate the shade generated in an adjacent building or the like by simulation, it is necessary to input the position and shape of the building or the like as data. Therefore, the data input operation is complicated, and it is necessary to input the data again when the situation of the adjacent building changes.

  In addition, since the shade is calculated in a simulated manner, an error occurs between the simulation result and the actually generated shade range. For this reason, there is a problem that accurate and reliable shade control cannot be performed.

  In the electric blind described in Patent Document 2, it is necessary to input data such as the external dimensions and relative position of the reflecting object in order to calculate the incident angle of the reflected light. There is a point.

  In addition, since the reflected light is calculated in a simulated manner, an error occurs between the simulation result and the actually generated reflected light. For this reason, there is a problem that accurate and reliable reflected light control cannot be performed.

  An object of the present invention is to provide a control device for an electric blind that can improve the accuracy of a control operation for adjusting the amount of light extraction in a control device for an electric blind that collectively controls the operation of a large number of electric blinds. is there.

  The above object is to provide a control device for an electric blind having a function of automatically adjusting the height and angle of slats for a large number of electric blinds, an outdoor illuminometer that detects the presence or absence of direct light from the sun, and With respect to the indoor illuminance meter provided for each electric blind and the electric blind installed at a position where direct sunlight from the sun is incident, the illuminance value detected by the outdoor illuminance meter exceeds a preset specified value, When the illuminance value detected by the indoor illuminance meter does not exceed the specified value, it is achieved by an electric blind control device including a shade control device that controls the angle of the slats of the electric blind to an angle for taking in outside light. The

  Further, the object is to provide a control device for an electric blind having a function of automatically adjusting the height and angle of a slat for a large number of electric blinds. When the illuminance value detected by the indoor illuminance meter exceeds a preset value for an electric blind installed at a position where no direct light from the incident light is incident, the reflected light is blocked by the angle of the slat of the electric blind. This is achieved by a control device for an electric blind provided with a reflected light control device for controlling the angle to be controlled.

  In addition, the object is to provide an outdoor illuminometer for detecting the presence or absence of direct sunlight from a sun in a control device for an electric blind having a function of automatically adjusting the height and angle of a slat for a large number of electric blinds. The illuminance value detected by the outdoor illuminance meter exceeds a preset value with respect to the indoor illuminance meter provided for each electric blind and the electric blind installed at a position where direct sunlight from the sun is incident. In addition, when the illuminance value detected by the indoor illuminometer does not exceed the specified value, the shade control device for controlling the angle of the slats of the electric blind to an angle for taking in outside light, and direct light from the sun does not enter When the illuminance value detected by the indoor illuminance meter exceeds a preset value with respect to the electric blind installed at the position, the electric blind The angle of the slats is achieved by an electric blind controller having a reflected light control device for controlling the angle of blocking reflected light.

  According to the present invention, it is possible to provide an electric blind control device capable of improving the accuracy of the control operation for adjusting the amount of light extraction in the electric blind control device that collectively controls the operation of a large number of electric blinds. it can.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows an outline of a control device for an electric blind. The electric blinds 1 are respectively installed in a plurality of windows provided along the outer wall surface of the building, and the electric blinds 1 installed on the floor are connected to a floor controller 2 installed for each floor of the building.

  Each floor controller 2 is connected to a personal computer 3 that operates as a main controller, and an outdoor illuminometer 4 is connected to the personal computer 3. This outdoor illuminance meter 4 is installed at a position that is not shaded by other buildings, such as the roof of a building, detects the outdoor illuminance, that is, the intensity of sunlight, and converts the detected value into a digital signal to the personal computer 3 It is designed to output.

  An indoor illuminance meter 5 is connected to each electric blind 1. The indoor illuminometer 5 detects the intensity of sunlight incident on each electric blind 1 as an illuminance value, converts the illuminance value into a digital signal, and is incorporated in the head box of each electric blind 1. Output to.

  FIG. 2 shows a configuration of the control unit 6. The power supply unit 7 supplies power to the microcomputer 8, the motor drive circuit 9, and other circuits in the control unit 6. A motor 16 is connected to the motor drive circuit 9, and the motor 16 is driven by the motor control circuit 9 based on a control signal output from the microcomputer 8 to the motor drive circuit 9. The height and angle of the slats of each electric blind 1 are controlled by the operation of the motor 16.

  The indoor illuminance meter 5 is connected to the microcomputer 8, and the microcomputer 8 captures the illuminance value output from the indoor illuminance meter 5 at a constant period such as one minute interval and stores it in the memory 10. Then, the microcomputer (average illuminance value calculation unit) 8 calculates the average of the latest five illuminance values and stores it in the memory 10 as the average illuminance value.

  The contact switch input unit 11 receives an operation signal output from a contact type operation switch provided in each electric blind 1 and outputs it to the microcomputer 8. The communication system switch input unit 12 receives a command signal output from a communication system switch for controlling the plurality of electric blinds 1 via each electric blind 1 and outputs the command signal to the microcomputer 8.

  The receiving circuit 13 receives the communication signal output from the floor controller 2 and outputs it to the microcomputer 8. The transmission circuit 14 outputs a communication signal output from the microcomputer 8 to the floor controller 2.

  The dip switch 15 is preset with a number for identifying the electric blind 1, and the number is read by the microcomputer 8 to identify each electric blind 1 when communicating with the floor controller 2. Used as.

  In the electric blind control apparatus configured as described above, the slats of the electric blinds 1 are moved up and down based on the programs stored in the personal computer 3, the floor controller 2, and the control unit 6 of each electric blind 1, respectively. The angle adjustment operation is controlled.

  The contents of the control are roughly divided into shade control, reflected light control, and schedule control. In the shade control, in the electric blind 1 installed on the wall surface to which the direct light is irradiated, the slats of the electric blind 1 to which the direct light is irradiated are fully closed and installed in the shaded window by an adjacent building or the like. This is a control for taking outside light with the slats of the electric blind as a horizontal direction.

  In the reflected light control, in the electric blind 1 installed on the wall where direct light is not irradiated, the slats of the electric blind 1 where the reflected light reflected by an adjacent building or the like enters is closed, and the other electric blinds 1 take in external light. This control is to make the slat angle possible.

The schedule control is a known control that automatically controls the elevation and angle of the slats based on a preset schedule.
Next, the operation of the shade control and the reflected light control of the electric blind control device configured as described above will be described. FIG. 3 shows the operation of the control unit 6 of each electric blind 1. The control unit 6 requests the illuminance value data from the indoor illuminometer 5 at intervals of one minute or less (step 1). When the illuminance value data is received from the indoor illuminometer 5, the illuminance value data is stored in the memory 10. (Steps 2 and 3).

  Next, when storing the five illuminance value data in the memory 10, the control unit 6 calculates the average of the illuminance value data, and stores the average illuminance value in the memory 10 (step 4). Next, when receiving a request for illuminance value data from the floor controller 2, the control unit 6 outputs the latest average illuminance value stored in the memory 10 to the floor controller 2 (steps 5 and 6). Return to.

  FIG. 4 shows the operation of the floor controller 2. Various command signals are input from the personal computer 3 to each floor controller 2. When an illuminance confirmation command is input among command signals from the personal computer 3 (steps 7 and 8), the floor controller 2 requests each electric blind 1 on the floor to transmit an average illuminance value (step 9).

  When the average illuminance value is received from each electric blind 1, the average illuminance value is stored in a built-in memory (steps 10 and 11), and the received average illuminance value is transmitted to the personal computer 3.

  When the slat height data and the angle data are input as operation command signals for controlling the operation of each electric blind 1 among the command signals from the personal computer 3 (steps 13 and 14), the corresponding electric blind 1 is applied. The height data and angle data are transmitted (step 15), and the process returns to step 7. In the electric blind 1 to which the height data and the angle data are transmitted, the slat lifting operation and the angle adjusting operation are performed based on the transmitted data.

  The personal computer 3 performs direct light blocking control, shade control, reflected light control or schedule control, and determines whether the direct light blocking control, the shade control and the reflected light control are prioritized or the schedule control mode prioritizes the schedule control. It is selectable.

  When the schedule control mode is selected, shade control and reflected light control are not performed. When the schedule control mode is not selected, for example, the direct-light blocking control and the shade control are performed on the electric blind 1 installed on the south-facing wall where direct light is incident, and the other three wall surfaces where the direct light is not incident are applied. Direct light blocking control and reflected light control are performed on the installed electric blind 1. In addition, the wall surface which performs shade control and the wall surface which performs reflected light control can be set arbitrarily.

  Next, the shade control operation and the reflected light control operation of the personal computer 3 will be specifically described. As shown in FIG. 5, the personal computer 3 first selects whether to perform a shade control operation on the electric blind 1 on the wall surface where direct light is incident, or to perform a reflected light control operation on the electric blind 1 on the wall surface where no direct light is incident. (Step 20).

  And when performing shade control operation | movement, it transfers to step 21, and the illuminance value output from the said outdoor illuminometer 4 is confirmed, and whether the illuminance value exceeds the preset value set beforehand. A determination is made (step 22).

  If it is determined in step 22 that the specified value is exceeded, that is, if it is determined that the weather is fine and direct light is incident, the average illuminance value of the electric blind 1 to be controlled is set to the floor controller 2. (Step 23).

  If the average illuminance value exceeds a predetermined value set in advance, it is determined whether a command signal can be output to the floor controller 2 (steps 24 and 25), and then direct light blocking control is performed. It is determined whether or not the mode is selected (step 26).

  If it is in the direct light blocking control mode, control data for blocking direct light on the electric blind 1 is transmitted to the floor controller 2 (step 27), and the process returns to step 20.

  If the schedule control mode is selected in step 26, control data based on a preset schedule is transmitted to the floor controller 2 (step 28), and the process returns to step 20.

  In step 24, when it is determined that the average illuminance value does not exceed the prescribed value, that is, when it is determined that the electric blind 1 is shaded, the process proceeds to step 29 shown in FIG.

  Then, after determining whether or not the command signal can be output to the floor controller 2, it is determined whether or not direct light blocking control is performed (step 30). Here, if it is the direct light blocking mode, the process proceeds to step 27.

  If it is determined in step 30 that the direct light blocking control mode is not selected, the process proceeds to step 31 to determine whether or not the shade control mode is selected. If the shade control mode is selected, the process proceeds to step 32.

  In step 32, with respect to the electric blind 1 determined to be located in the shade, it is determined that the average illuminance value exceeds the specified value and the direct light is incident on any of the electric blinds 1 adjacent to the upper, lower, left, and right sides. It is determined whether or not the electric blind 1 is present. When such an electric blind 1 exists, it is determined that the electric blind 1 is located at a boundary between a shaded range and a range where direct light is incident.

  When it is determined in step 32 that the electric blind 1 is located at the boundary, the process proceeds to step 33 and it is determined whether or not boundary data transmission is set (step 33). The boundary data transmission setting is a setting in which the electric blind 1 located at the boundary performs direct light blocking control.

  If there is boundary data transmission setting in step 33, it is determined whether or not the average illuminance values of the other electric blinds 1 on the floor to which the electric blind 1 belongs are all lower than the specified value (step 34).

  When the average illuminance value of any electric blind exceeds the specified value on the same floor, it is determined that it is a boundary, and the process proceeds to step 27 to block direct light on the electric blind 1. Send control data. If the average illuminance value of all other electric blinds on the same floor is below the specified value, it is determined that the average illuminance value of the electric blind 1 is inaccurate and is not a boundary, and is set in advance. The control data in the shaded state, that is, the control data for the slat angle that can take in the outside light is transmitted (step 35), and the process returns to step 23. The personal computer 3 functions as a boundary control unit by the operations in steps 32 to 35.

If the border data transmission setting is not set in step 33 and if the border is not bordered in step 32, the process proceeds to step 35, and control data in the shade is transmitted.
Further, when shade control is not performed in step 31, the process proceeds to step 28 and control data based on a preset schedule is transmitted to the floor controller 2.

  In step 22, when the illuminance value of the outdoor illuminometer 4 does not exceed the prescribed value, that is, when it is determined that no direct light is incident on a cloudy day, the process proceeds to step 35 shown in FIG. After determining whether or not the command signal can be output to the floor controller 2 in step 35, it is determined whether or not it is a mode for performing shade control (step 36).

  If it is in the shade control mode, control data for cloudy weather set in advance, that is, control data for a slat angle at which external light can be taken in is transmitted (step 37), and the process returns to step 20.

  On the other hand, if the mode is not the shade control mode, the process proceeds to step 28, where control data based on a preset schedule is transmitted to the floor controller 2, and the process returns to step 23.

  FIG. 8 shows an operation when the reflected light control operation for the electric blind 1 on the wall surface where no direct light is incident is selected in Step 20. In the figure, steps 41 to 44 are the same as steps 21, 23, 24, and 25 shown in FIG. In step 43, if the average illuminance value exceeds the specified value, the reflected light is incident.

  In step 45, it is determined whether or not the direct light blocking control mode is set. If it is in the direct light blocking control mode, the control data at the time of cloudy weather for the electric blind 1 is transmitted to the floor controller 2 (step 46), and the process returns to step 20. In the control data at the time of cloudy weather, the slat is controlled to an angle at which external light can be taken.

  If the direct light blocking control mode is not selected in step 45, the process proceeds to step 47 to determine whether or not the reflected light control mode is selected. If it is the reflected light control mode, control data for blocking the reflected light is transmitted (step 48), and the process returns to step 20.

  If the reflected light control mode is not selected in step 47, the process proceeds to step 49, where control data based on a preset schedule is transmitted to the floor controller 2, and the process returns to step 20.

  When it is determined in step 43 that the average illuminance value does not exceed the prescribed value, that is, when it is determined that the reflected light is not incident on the electric blind 1, the process proceeds to step 50 shown in FIG. .

  Then, after determining whether or not the command signal can be output to the floor controller 2, it is determined whether or not direct light blocking control is performed (step 51). Here, if it is the direct light blocking mode, the process proceeds to step 46.

  If it is determined in step 51 that the mode is not the direct light blocking control mode, the process proceeds to step 52 to determine whether or not it is the reflected light control mode, and if it is the reflected light control mode, the process proceeds to step 53.

  In step 53, with respect to the electric blind 1 determined that no reflected light is incident, the average illuminance value exceeds the specified value in any of the electric blinds 1 adjacent to the upper, lower, left, and right, and the reflected light is incident. It is determined whether or not the electric blind 1 determined to be present exists. When such an electric blind 1 exists, it is determined that the electric blind 1 is located at a boundary between a range where the reflected light is incident and a range where the reflected light is not incident.

  When it is determined in step 53 that the electric blind 1 is located at the boundary, the process proceeds to step 54 and it is determined whether there is a transmission setting for boundary data (step 54). The boundary data transmission setting is a setting in which the electric blind 1 located at the boundary performs the reflected light blocking control.

If there is boundary data transmission setting in step 54, the process proceeds to step 48 to transmit control data for blocking the reflected light.
If the border data transmission setting is not set in step 54 and if the border is not bordered in step 53, the process proceeds to step 46, and the control data at the time of cloudy weather is transmitted.

  If the reflected light control is not performed in step 52, the process proceeds to step 49 to transmit control data based on a preset schedule to the floor controller 2 and returns to step 42.

In the control device for an electric blind as described above, the following operational effects can be obtained.
(1) Out of the electric blinds 1 installed on the wall where direct light is incident, the electric blind 1 which is shaded by an adjacent building or the like takes outside light, and the electric blind 1 where direct light is incident blocks the direct light. be able to. Therefore, since external light can be taken in while blocking direct light, it is possible to improve habitability and reduce power consumption by avoiding the use of indoor lighting equipment.
(2) Whether or not direct light is incident on each electric blind 1 by the indoor illuminometer 5 provided in each electric blind 1 instead of calculating a shaded area by simulation based on data such as adjacent buildings Therefore, it is possible to accurately perform the shade control as described above.
(3) Since it is not necessary to input data such as adjacent buildings and the indoor illuminance meter 5 provided in each electric blind 1 determines whether or not direct light is incident on each electric blind 1. It can easily cope with changes in buildings.
(4) Since the electric blind 1 located at the boundary between the direct light incident area and the shaded area controls the slats at an angle that blocks the direct light, the direct incident light from the electric blind 1 located at the boundary is It can be surely prevented.
(5) Of the electric blinds 1 installed on the wall surface where no direct light is incident, the electric blinds 1 where the reflected light from adjacent buildings and the like is incident block the reflected light, and the other electric blinds 1 adopt outside light. be able to. Accordingly, it is possible to prevent the reflected light from entering the room, improve the comfortability, and improve the indoor air conditioning efficiency.
(6) Rather than calculating the area where the reflected light is incident by simulation based on data such as adjacent buildings, the reflected light is incident on each electric blind 1 by the indoor illuminometer 5 provided on each electric blind 1 Therefore, the reflected light control as described above can be performed accurately.
(7) Since it is not necessary to input data such as adjacent buildings and the indoor illuminance meter 5 provided in each electric blind 1 determines whether or not the reflected light is incident on each electric blind 1. It can easily cope with changes in buildings.
(8) Since the electric blind 1 located at the boundary between the area where the reflected light is incident and the area where the reflected light is not incident controls the slats at an angle that blocks the reflected light, the incident of the reflected light from the electric blind 1 located at the boundary is ensured. Can be prevented.
(9) Since the average illuminance value calculated by each electric blind 1 is compared with the specified value set by the personal computer, stable control can be performed.

You may implement the said embodiment in the following aspects.
-It is good also as a control apparatus provided only with either shade control or reflected light control.

It is a schematic diagram which shows the control apparatus of the electric blind of one Embodiment. It is a block diagram which shows the control part of an electric blind. It is a flowchart which shows the control operation of a personal computer. It is a flowchart which shows the control operation of a personal computer. It is a flowchart which shows the control operation of a personal computer. It is a flowchart which shows the control operation of a personal computer. It is a flowchart which shows the control operation of a personal computer. It is a flowchart which shows the control operation of a personal computer. It is a flowchart which shows the control operation of a personal computer.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Electric blind, 3 ... Shade control apparatus and reflected light control apparatus (personal computer), 4 ... Outdoor illuminance meter, 5 ... Indoor illuminance meter.

Claims (7)

In a control device for an electric blind having a function of automatically adjusting the height and angle of a slat for a large number of electric blinds,
An outdoor illuminometer that detects the presence of direct sunlight from the sun,
An indoor illuminometer provided for each electric blind;
The illuminance value detected by the outdoor illuminometer exceeds a preset value for the electric blind installed at a position where direct sunlight from the sun is incident, and the illuminance value detected by the indoor illuminometer is the specified value. A control device for an electric blind, comprising: a shade control device that controls an angle of a slat of the electric blind to an angle for taking in external light when the value does not exceed the value. In a control device for an electric blind having a function of automatically adjusting the height and angle of a slat for a large number of electric blinds,
An indoor illuminometer provided for each electric blind;
When the illuminance value detected by the indoor illuminometer exceeds a preset value for an electric blind installed at a position where direct sunlight from the sun does not enter, the angle of the slat of the electric blind is reflected by the reflected light. A control device for an electric blind, comprising: a reflected light control device that controls the angle to be blocked. In a control device for an electric blind having a function of automatically adjusting the height and angle of a slat for a large number of electric blinds,
An outdoor illuminometer that detects the presence of direct sunlight from the sun,
An indoor illuminometer provided for each electric blind;
The illuminance value detected by the outdoor illuminometer exceeds a preset value for the electric blind installed at a position where direct sunlight from the sun is incident, and the illuminance value detected by the indoor illuminometer is the specified value. When the value does not exceed the value, the indoor illuminometer is used for the shade control device that controls the angle of the slats of the electric blind to an angle for taking in outside light and the electric blind installed at a position where direct sunlight does not enter. Control of an electric blind comprising a reflected light control device that controls the angle of the slat of the electric blind to an angle that blocks the reflected light when the detected illuminance value exceeds a preset specified value apparatus. The shade control device is:
When the illuminance value detected by the indoor illuminance meter does not exceed the specified value, it is determined whether the illuminance value of the indoor illuminance meter of the electric blind adjacent to the electric blind exceeds the specified value, and the specified value is The control device for an electric blind according to claim 1 or 3, further comprising a boundary control unit that sets the angle of the slat of the electric blind to an angle that blocks direct light when exceeding.   The boundary control unit, when the illuminance value of the indoor illuminance meter of all electric blinds installed on the same floor does not exceed the specified value, the angle of the slats of all electric blinds installed on the same floor, 5. The control device for an electric blind according to claim 4, wherein the control is performed at an angle for taking in outside light. The reflected light control device is
When the illuminance value detected by the indoor illuminance meter does not exceed the specified value, it is determined whether the illuminance value of the indoor illuminance meter of the electric blind adjacent to the electric blind exceeds the specified value, and the specified value is 4. The control device for an electric blind according to claim 2, further comprising a boundary control unit that sets the angle of the slat of the electric blind to an angle at which the reflected light is blocked when exceeding.   Each of the electric blinds is provided with an average illuminance value calculation unit that calculates an average of a plurality of illuminance value data detected by the indoor illuminometer and outputs the average illuminance value as the illuminance value. The control apparatus of the electric blind of any one of Claims.

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