JP4010692B2 - Electric window shutter device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electric window shutter device installed on the outdoor side of a window, wherein the window shutter is moved by an electric driving means.
[0002]
[Prior art]
As this type of electric window shutter device, a window shutter housed in a shutter case in a state of being wound around a drum rotated by a motor which is an electric drive means is rotated out of the shutter case by rotating the drum. Some window shutters are guided by guide rails so that the window shutter moves along the windows to shield the windows, and the windows are opened by winding the window shutter that shields the windows with a drum.
[0003]
By the way, when the window shutter is in the closed position, ie, when the window shutter is in the closed position and the temperature of the window shutter is below freezing point, the water adhering to the window shutter freezes to form ice, which becomes an obstacle. The smooth movement of the window shutter may be hindered, or the window shutter and the guide rail may freeze together due to freezing.
[0004]
[Problems to be solved by the invention]
If an attempt is made to wind the window shutter in such a state with a drum, an excessive load is applied to the electric motor. Excessive load causes motor failure. In addition, when an excessive load is applied to the motor and an overcurrent exceeding a predetermined value flows, the motor is automatically turned off to protect the motor, so the window shutter opening operation is automatically stopped. Can't open.
[0005]
In view of such problems, the present invention prevents the window shutter from freezing in an environment where moisture adhering to the window shutter can freeze, such as when the outside air temperature is below freezing point, and the window shutter in the closed position is provided. It is an object of the present invention to provide an electric window shutter device that can be opened by an electric driving means and that does not apply an excessive load to the driving means when opening.
[0006]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention is an electric window shutter device installed on the outdoor side of a window, which is movable between a closed position that shields the window and an open position that opens the window. In the electric window shutter device, the drum that winds up the window shutter is provided at the upper part of the window, an electric heater is installed on the drum, and a temperature sensor that measures the temperature of the window shutter from the outside temperature is provided. A control means for heating the window shutter wound around the drum by energizing the electric heater when the temperature sensor detects that the temperature of the temperature sensor falls below the temperature at which the window shutter is wound around the drum. It is provided with.
[0007]
When the window shutter at the closed position has a risk of freezing water, for example, when the temperature of the window shutter is below freezing, the electric heater is energized. Then, the electric heater generates heat and the window shutter is heated, and moisture freezing in the window shutter is prevented. If the freezing is prevented, there is no problem that the smooth movement of the window shutter is hindered by ice. Therefore, the window shutter can be opened by the electric driving means even under an environment where freezing usually occurs, and an excessive load is not applied to the driving means when opening.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Referring to FIG. 1, reference numeral 1 denotes an electric window shutter device attached to the outdoor side of a house window W, and includes a shutter case 3 for housing a window shutter 2 that shields the window W at the top, and a shutter case. Guide rails 4 are provided on both the left and right sides for guiding the window shutter 2 extended downward from the supply opening 3b formed in the lower surface 3a of the output 3 in a stable state. A lower frame 5 is attached to the lower end of the guide rail 4.
[0009]
In the shutter case 3, a drum 6 that houses the window shutter 2 in a wound state and an electric motor (driving means) 7 that rotates the drum 6 are installed. The illustration of the support structure of the drum 6 and the state in which the window shutter 2 is wound around the drum 6 is omitted. The motor 7 is capable of forward and reverse rotation. When the drum 6 is rotated forward in a predetermined direction via the belt 7a, the window shutter 2 is extended and the window W is shielded, and when the drum 6 is reversed by the motor 7, the window 7 is rotated. The shutter 2 is wound up and the window W is opened. The operation of the motor 7 is controlled by a controller (control means) 8 installed indoors.
[0010]
The window shutter 2 is a so-called plug-in type shutter. The plurality of slats 2a constituting the window shutter 2 are connected to each other at their upper and lower edges so that the window shutter 2 can be wound by the drum 6. A bent portion 21 is formed at the lower end of the window shutter 2. The window shutter 2 is wound into the shutter case 3 until the bent portion 21 moves to an open position where the bent portion 21 contacts the lower surface 3 a of the shutter case 3, and until the bent portion 21 moves to a closed position where the bent portion 21 contacts the lower frame 5. It is paid out.
[0011]
A carbon film (manufactured by Hitachi Chemical Co., Ltd .: carbon fit) covered with a weather-resistant film (for example, polyarylate film) as shown in FIG. 2 on the front surface (outdoor surface) of each slat 2a of the window shutter 2 HGP) 9a is attached. And the copper plate 22 electrically connected to the carbo film 9a is stuck to the part covered with the guide rails 4 at the left and right ends of the carbon film 9a. Similarly, a belt-like carbon film 9b is attached to the outer peripheral surface of the drum 6 in the shutter case 3 (see FIG. 1), and a copper plate 62 attached to both ends of the drum 6 in an annular shape over the entire periphery. Is energized by. Both the carbon films 9a and 9b function as electric heaters.
[0012]
The left and right guide rails 4, 4 are provided with grooves 41 (only the right side is shown in FIG. 1) that are open in directions facing each other. The groove 41 extends vertically along the longitudinal direction of the guide rail 4, and as shown in FIG. 3, bent portions 41 a and 41 b bent in the groove 41 are provided on the front edge and the rear edge of the groove 41, respectively. It has been. Each guide rail 4 guides the corresponding side end of the window shutter 2 with the bent portions 41 a and 41 b from the front and rear, and the bent portion 41 a at the front edge of the groove 41 slides on the front side surface of the window shutter 2. The bent portion 41b at the rear edge is in sliding contact with the rear surface of the side end of the window shutter 2. A copper plate 42 covering the entire length of the bent portion 41a is attached to the bent portion 41a of the front edge. When the window shutter 2 is extended along the guide rail 4, each of the copper plate 42 and the window shutter 2 of the guide rail 4 is provided. The copper plate 22 adhered to the front surface of the slat 2a comes into contact. Electric power from an external power source (not shown) is applied to the carbon film 9a of the window shutter 2 through the contact portion between the copper plates 22 and 42.
[0013]
As shown in FIG. 4, the controller 8 includes a CPU (central processing unit), a power switch SW1 of the motor 7, a power switch SW2 on the power circuit of the carbon film 9a attached to the window shutter 2, and the drum 6. On / off control of the power switch SW3 on the power circuit of the carbon film 9b adhered to the substrate is performed. The controller 8 includes a closing operation button 8a and an opening operation button 8b for opening and closing the window shutter 2. The closing operation button 8a is a button that is pressed when the window shutter 2 is extended to shield the window W, and the opening operation button 8b is a button that is pressed when the window shutter 2 is wound to open the window W. Further, the CPU includes a fully closed limit switch 81 for detecting that the window shutter 2 is in the closed position, a fully open limit switch 82 for detecting that the window shutter 2 is in the open position, and a temperature for measuring the temperature of the window shutter 2. Signals are input from the sensor 83, and the on / off states of the switches 81 and 82 and the temperature measured by the temperature sensor 83 are detected.
[0014]
As shown in FIG. 1, the fully closed limit switch 81 is attached to the upper surface of the lower frame 5 and is turned on by being pushed by the bent portion 21 of the window shutter 2 moved until it contacts the lower frame 5. . The fully open limit switch 82 is attached to the lower surface 3a of the shutter case 3, and is pushed by the bent portion 21 that has moved until it comes into contact with the lower surface 3a of the shutter case 3 to be turned on. The temperature sensor 83 is attached to the upper part of the left guide rail 4. In FIG. 1 to FIG. 3, the power supply circuit and the on / off signal wiring are not shown.
[0015]
The operation of the electric window shutter device 1 will be described with reference to FIGS. When the window W is blocked by the window shutter 2, the closing operation button 8a of the controller 8 is pushed. Then, it is detected that the closing operation switch 8a is turned on (S1), the motor 7 is operated, the drum 6 rotates forward, and the window shutter 2 starts to be fed (S2). Thereafter, the opening operation button 8b is pressed (S3), the window shutter 2 moves to the closed position, the bent portion 21 reaches the lower frame 5, and the full-close limit switch 81 is pressed by the bent portion 21. When turned on (S4), the motor 7 is stopped and the drum 6 is stopped (S5), and the closing operation of the window shutter 2 is completed.
[0016]
On the other hand, when opening the window shutter 2, the opening operation switch 8b is pushed. Then, it is detected that the opening operation switch 8b is turned on (S6), the motor 7 is operated, the drum 6 is reversely rotated, and the winding of the window shutter 2 is started (S7). Thereafter, the closing operation button 8a is pushed (S8), or the window shutter 2 is moved to the open position, the bent portion 21 reaches the lower surface 3a of the shutter case 3, and the full-open limit switch 82 is pushed to the bent portion 21. When turned on (S9), the motor 7 is stopped and the drum 6 is stopped (S5), and the opening operation of the window shutter 2 is completed.
[0017]
Further, the CPU executes an anti-freezing process (S10) in order to prevent freezing of moisture in the window shutter 2. In this process, first, it is detected whether or not the temperature T measured by the temperature sensor 83 is equal to or lower than the temperature at which there is a risk of freezing (0 ° C. in this embodiment) (S11), and if the temperature T is higher than 0 ° C. If the power switches SW2 and SW3 of the carbon films 9a and 9b are on, the carbon films 9a and 9b are turned off (S16) and the freeze prevention process is terminated. On the other hand, when the measured temperature T is 0 ° C. or lower, first, the on / off state of the fully open limit switch 82 is detected (S12). If it is off, at least a part of the window shutter 2 is extended to the guide rail 4. The power switch SW2 of the carbon film 9a of the window shutter 2 is turned on, and the window shutter is heated by the carbon film 9a (S13). Next, the on / off state of the fully closed limit switch 81 is detected (S14). If it is off, it is determined that at least a part of the window shutter 2 is wound up by the drum 6, and the carbon of the drum 6 is determined. The power switch SW3 of the film 9b is turned on (S15), and the window shutter 2 wound around the drum 6 by the carbon film 9b is heated. The above process is repeated.
[0018]
In this way, it is possible to keep the temperature at a temperature at which the moisture in the window shutter 2 is prevented from being frozen, the moisture in the window shutter 2 is prevented from being frozen, and a smooth movement of the window shutter 2 is ensured. Therefore, the window shutter 2 can be opened reliably, and an excessive load is not applied to the motor 7 when the window shutter 2 is opened, so that the failure of the motor 7 can be prevented. In addition, since an excessive load is not applied to the motor, even if the motor has a circuit that protects the motor by automatically turning off the motor and stopping the motor when an overcurrent exceeding the specified value flows, the motor is automatically The window shutter can be opened and closed without stopping.
[0019]
In the above embodiment, the carbon film 9a is used as an electric heater to heat the window shutter 2 and the drum 6. However, other than this, for example, a so-called sheathed heater may be used. Since the sheathed heater is thicker (thicker) than the carbon film, when it is used, it is attached to the back surface of the window shutter along the extending direction of the slats.
[0020]
【The invention's effect】
As described above, according to the present invention, it is possible to prevent an excessive load from being applied to the electric driving means by preventing the window shutter in the closed position, which is normally in a freezing environment, from freezing. The window shutter that is in the closed position can be opened by the driving means.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an electric window shutter device according to the present invention. FIG. 2 is a front view showing a front surface of the window shutter. FIG. 3 is a plan view showing a cross section of the guide rail taken along the line III-III in FIG. FIG. 4 is a block diagram showing the connection of signal lines to the controller. FIG. 5 is a flowchart showing processing at the time of closing the window shutter and opening operation. FIG. 6 is a flowchart showing anti-freezing processing. ]
DESCRIPTION OF SYMBOLS 1 Electric window shutter apparatus 2 Window shutter 7 Motor (drive means)
83 Temperature sensor 9a, 9b Carbon film (electric heater)
W window

Claims (1)

An electric window shutter device installed on the outdoor side of a window, wherein the window shutter movable between a closed position for shielding the window and an open position for opening the window is moved by an electric driving means. In the device, a drum that winds up the window shutter is provided at the top of the window, an electric heater is installed on this drum, a temperature sensor that measures the temperature of the window shutter from the outside temperature is attached, and the window shutter is wound around the drum When the temperature detected by the temperature sensor falls below a temperature at which the temperature may be frozen, the electric window shutter device is provided with control means for heating the window shutter wound around the drum by energizing the electric heater. .

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