JP2004263399A - Electrically-operated shutter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electrically-operated shutter which enables a shutter curtain to be properly stopped in a fully closed position in an almost linear attitude. <P>SOLUTION: This electrically-operated shutter is opened/closed by winding and paying out the shutter curtain 13 by means of a winding shaft 14 which is driven by an electric motor 60, so as to make the shutter curtain 13 ascend/descend. A descent regulator 17 is provided in a shutter case 11 which is provided with the winding shaft 14, and the descent of the shutter curtain 13 is regulated in the fully closed position by the descent regulator 17, so that a rotational load of the electric motor 60 can be increased for the stop of the electric motor 60. Thus, since a descending force by the electric motor 60 does not act on a slat 15 below a slat 15 wherein the descent of the shutter curtain 13 is regulated, the slat 15 does not move even in the presence of a clearance between the slat 15 and a guide rail 10, and the shutter curtain 13 can be properly stopped in the fully closed position in the almost linear attitude. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electric shutter mounted on a window opening, an entrance, or the like of a building.
[0002]
[Prior art]
Patent Document 1 discloses an electric shutter.
In this shutter, the uppermost slat of the shutter curtain is connected to a winding shaft that is driven to rotate by an electric motor, and the electric motor rotates the winding shaft in the winding and unwinding directions to wind the shutter curtain. The shutter curtain is opened and closed by extending and descending, and the lowering of the shutter curtain to the fully closed position is detected by counting the number of rotations of a lower limit switch and a winding shaft with a detector, and the OFF signal of the lower limit switch is detected. , An electric shutter that automatically stops the electric motor in response to a detection signal.
In this electric shutter, the electric motor may continue to be driven even after the shutter curtain reaches the fully closed position due to a failure of the lower limit switch or a failure of the electric system. An emergency switch is provided to stop the electric motor by an OFF signal.
[0003]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 2000-145337
[Problems to be solved by the invention]
The above-mentioned conventional electric shutter requires wiring for connecting the lower limit switch and the controller of the electric motor, and the wiring work is troublesome, and the wiring may interfere with the shutter curtain and break.
In addition, when the rotation speed is detected by the detector, a detection error or the like is likely to occur, and the shutter slat may not be correctly set to the fully closed position.
[0005]
In order to solve these problems, attention was paid to the fact that when the shutter curtain reached the fully closed position, the lowermost slat (seat plate) was pressed against the lower frame and the rotational load of the electric motor was increased. There has been proposed an electric shutter that automatically stops an electric motor when a rotational load increases and stops a shutter curtain at a fully closed position.
This eliminates the need for the lower limit switch and eliminates the need for electrical wiring, and eliminates the need to detect the number of revolutions of the electric motor, thereby solving the above-described problem.
[0006]
However, the above-mentioned electric shutter has the following problems.
That is, as shown in FIG. 10, when the lowermost slat (seat plate) 2 of the shutter curtain 1 is pressed against the lower frame 3, the rotation force of the electric motor causes the slat 2 to move between the slat 2 and the opening 4 a of the guide rail 4. The slat 2 moves by the gap, the shutter curtain 1 sags in a wave shape, and after the slat 2 comes into contact with the inner surface of the opening 4a of the guide rail 4 and stops moving, the rotational load of the electric motor increases and stops.
For this reason, the shutter curtain 1 cannot correctly stop at the fully closed position in a substantially linear posture.
[0007]
The present invention has been made to solve the above-described problem, and an object of the present invention is to provide an electric shutter capable of correctly stopping a shutter curtain at a fully-closed position in a substantially linear posture. is there.
[0008]
[Means for Solving the Problems]
A first invention is a winding device having a guide rail 10, a shutter case 11 provided on the upper part of the guide rail 10, and a winding shaft 14 provided in the shutter case 11 and driven to rotate by an electric motor 60. 12 and an electric shutter provided with a shutter curtain 13 that is wound and fed by the winding shaft 14 and is moved up and down along the guide rail 10.
Provided in the shutter case 11 is a descent restricting device 17 for restricting the descent of the shutter curtain 13 when the shutter curtain 13 is at the fully closed position,
When the lowering of the shutter curtain 13 is restricted by the lowering control device 17, the rotational load of the electric motor 60 increases and the electric motor 60 stops.
[0009]
According to a second aspect of the present invention, in the first aspect, the descent regulating device 17 includes a regulating member 40 attached to the slat 15 forming the shutter curtain 13 and a receiving member 50 attached in the shutter case 11. This is an electric shutter in which the regulating member 40 comes into contact with the receiving member 50 when in the fully closed position.
[0010]
The third invention is an electric shutter in which the position of the receiving member 50 in the first invention is freely adjustable in the vertical direction of the shutter curtain 13.
[0011]
[Operation]
According to the first aspect, when the shutter curtain 13 is in the fully closed position, the lowering of the shutter curtain 13 is restricted by the descent restricting device 17, and the rotational load of the electric motor 60 is increased to stop the electric motor 60.
Further, since the descent regulating device 17 is provided in the shutter case 11 and the descent of the shutter curtain 13 is regulated in the shutter case 11, the descent force of the electric motor 60 is applied to the slat 15 below the shutter case 11. Does not act, the slat 15 does not move even if there is a gap between the guide rail 10 and the slat 15.
Therefore, the shutter curtain 13 can be correctly stopped at the fully closed position in a substantially linear posture.
[0012]
According to the second aspect, the regulating member 40 attached to the slat 15 contacts the receiving member 50 provided in the shutter case 11 to regulate the lowering. Do not climb along.
Therefore, since the regulating member 40 does not move up and down along the guide rail 10, the shape, size, and the like of the regulating member 40 can be arbitrarily set regardless of the guide rail 10. , And there is no restriction on the mounting.
[0013]
According to the third aspect of the present invention, by adjusting the position of the receiving member 50, the regulating member 40 comes into contact with the receiving member 50 when the shutter curtain 13 is in the fully closed position even when there is a processing error or an assembly error of each member. Can be.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
As shown in FIG. 1, left and right guide rails 10, a shutter case 11 provided above the left and right guide rails 10, a winding device 12 provided in the shutter case 11, and a winding device 12. A shutter is configured by a shutter curtain 13 that is opened and closed by being wound up, fed out, and moved up and down.
The winding device 12 rotates the winding shaft 14 with an electric motor, thereby constituting an electric shutter.
The shutter curtain 13 is formed by connecting a plurality of slats 15, and the uppermost slat 15 is connected to the winding shaft 14.
[0015]
As shown in FIGS. 2 and 3, the guide rail 10 has a guide recess 16, and a portion near the end of the slat 15 enters the guide recess 16, and the slat 15 moves up and down in the guide recess 16.
The opening width of the guide recess 16 is larger than the width of the slat 15, and there is a gap between the two. The width of the opening is the expected direction (dimensions in the indoor / outdoor direction), and the width of the slats 15 is the expected direction (dimensions in the indoor / outdoor direction).
[0016]
As shown in FIG. 1, when the shutter curtain 13 is in the fully closed position, a descent restricting device 17 for restricting the descent of the shutter curtain 13 so as not to be lowered is provided in the shutter case 11. When the lowering of the shutter curtain 13 is restricted by the lowering restricting device 17, the rotational load of the electric motor increases and the electric motor stops.
In FIG. 1, the lowering control device 17 is provided on both the left and right sides, but may be provided only on one of the left and right sides.
[0017]
As described above, since the descent regulating device 17 is provided in the shutter case 11, when the descent regulating device 17 regulates the descent of the shutter curtain 13, the slat 15 (that is, the guide) below the descent regulating device 17 is provided. Since the descending force of the electric motor does not act on the slat 15) in the guide recess 16 of the rail 10, even if there is a gap (gap in the expected direction) between the guide rail 10 (guide recess 16) and the slat 15, 15 does not move.
Therefore, the shutter curtain 13 can be properly stopped at the fully closed position in a substantially straight posture as shown in FIG.
At the time described above, the lowering force of the electric motor acts on the slats 15 between the winding shaft 14 and the lowering restricting device 17, and the rotational load of the electric motor increases after being displaced in a wave shape. However, the slats 15 displaced in a wave shape cannot be seen from the outside in the shutter case 11, so that the appearance does not deteriorate.
[0018]
Next, an example of a specific shape of each member will be described.
As shown in FIG. 2 and FIG. 3, the guide rail 10 is attached to the outdoor side of the vertical frame 21 of the sash frame 20 of the sliding sash window as a shutter frame 22, and the shutter frame 22 has a sliding door on its indoor side. The shutter curtain 13 can be mounted on the outside, and a shutter curtain 13 is provided so as to be able to ascend and descend to form a sash window with a shutter. The sash frame 20 is a rectangular frame including left and right vertical frames 21, an upper frame 23, and a lower frame 24.
The shutter frame 22 and the sash frame 20 are not limited to this, and the shutter frame 22 may be directly attached to the opening of the building, or the shutter frame 22 may be attached to the sash frame 20. Further, the vertical frame 21 and the guide rail 10 may be integrated. Further, the guide rail 10 may be attached to the left and right vertical portions of the entrance.
[0019]
As shown in FIGS. 2 and 3, the shutter box 11 includes a portion protruding from the upper frame 23 of the vertical frame 21, a top plate 25, a side plate 26, a cover 27, and a reinforcing plate 28 attached to the side plate 26. The cover 27 is openable and closable. For example, the upper end of the cover 27 is vertically rotatably supported by the outdoor portion of the upper plate 25, and the lower portion 27 a is fixed to the reinforcing plate 28 with screws 29.
An opening 30 through which the shutter curtain 13 enters and exits is formed between the lower 27a indoor side of the cover 27 and the outdoor side of the upper frame 23.
The uppermost slat 15 of the shutter curtain 13 is connected to the winding shaft 14 through the opening 30, and the lowermost slat 15 is a seat plate 17.
By rotating the take-up shaft 14 in one direction and winding up the shutter curtain 13, it is raised and opened, and by rotating in the other direction, the shutter curtain 13 is extended, lowered and closed.
[0020]
Next, details of the lowering control device 17 will be described.
As shown in FIGS. 4 and 5, the lowering restricting device 17 is constituted by the restricting member 40 attached to the slat 15 and the receiving member 50 fixed in the shutter case 11 (for example, the reinforcing plate 28).
When the shutter curtain 13 is in the fully closed position (for example, when the seat plate 17 contacts the lower frame 24), the regulating member 40 contacts the receiving member 50 and regulates the shutter curtain 13 so as not to descend.
[0021]
It is preferable that the position of the receiving member 50 can be adjusted in the vertical direction of the shutter curtain 13.
With this configuration, when the fully closed position of the shutter curtain 13 is shifted due to a processing error of the shutter curtain 13, an assembly error of the shutter frame 22, or the like, the position of the receiving member 50 is adjusted so that the shutter curtain 13 is completely closed. At this time, the regulating member 40 can be brought into contact with the receiving member 50.
The position of the regulating member 40 may be adjustable.
[0022]
As shown in FIG. 6, the regulating member 40 includes a mounting plate 41 and a regulating piece 42, and the attaching plate 41 is fixedly attached to the slat 15 with a fixing tool 43, so that the regulating piece 42 is higher than the end surface 15 a of the slat 15. Protrude.
As shown in FIG. 6, the receiving member 50 includes a mounting tool 51 and a receiving tool 52, and the mounting tool 51 has a substrate 53 and a mounting plate 54.
In this embodiment, a part of the substrate 53 is bent to form a mounting plate 54, and the substrate 53 and the mounting plate 54 are out of phase by 90 degrees.
The receiving member 52 is L-shaped with a vertical plate 55 and a horizontal plate 56. A screw 58 is screwed into the mounting plate 54 from a long hole 57 of the vertical plate 55 and attached to the mounting member 51, and the screw 58 is loosened. Thus, the vertical position can be adjusted by the length of the long hole 57.
[0023]
As shown in FIGS. 4 and 5, the substrate 53 of the mounting tool 51 is fixedly mounted on the reinforcing plate 28 with a fixing tool 59, and the mounting plate 54 faces in a direction orthogonal to the reinforcing plate 28.
The vertical plate 55 of the receiving member 52 is fixed to the mounting plate 54 with screws 58, and the horizontal plate 56 faces the restricting piece 42. When the shutter curtain 13 is in the fully closed position, the restricting piece 42 is Abut.
The screw 58 is opposed to the cover 27 of the shutter case 11 and can be easily tightened and loosened by opening the cover 27. Therefore, the position adjustment operation of the receiving member 50 (up and down operation of the receiving member 52) can be performed. Easy to do.
[0024]
Next, an example of a configuration in which the lowering of the shutter curtain 13 is controlled by the lowering control device 17 and the electric motor is automatically stopped when the rotational load of the electric motor increases will be described.
As shown in FIG. 7, the electric motor 60 includes a motor body 61, a speed reducer 62, and an output shaft 63. The motor body 61 and the speed reducer 62 are inserted and fixed in a cylindrical case 64.
The case 64 is rotatably supported inside the winding shaft 14, and the output shaft 63 is connected to the winding shaft 14.
The motor body 61 is rotatably supported on the base 65 together with the case 64 by a predetermined angle. For example, as shown in FIG. 8, a protrusion 67 of the case 64 is projected into a groove 66 of the base 65, and the case 67 is rotated until the protrusion 67 hits an end of the groove 66.
A switch 68 is attached to the base 65, and an operation piece 69 attached to the motor main body 61 faces the switch 68 as shown in FIG. 9, and when the operation piece 69 rotates a predetermined angle, the switch 68 turns off.
When the switch 68 is turned off, the motor main body 61 (electric motor 60) stops.
When the electric motor 60 is started, the switch 68 is manually turned on using a wire cable (not shown) or the like.
[0025]
Next, the operation will be described.
When the motor main body 61 is driven to rotate the output shaft 63 in the direction of arrow a, the take-up shaft 14 rotates in the unwinding direction and lowers the shutter curtain 13. At this time, a reaction force acts on the motor body 61 in the direction opposite to the arrow a, and the protrusion 67 supports the reaction force by supporting it at one end of the groove 66 as shown in FIG.
When the shutter curtain 13 reaches the fully closed position, the regulating member 40 comes into contact with the receiving member 50, and the lowering of the shutter curtain 13 is regulated.
As a result, the rotation of the winding shaft 14 in the direction of arrow a is regulated, and the rotation of the output shaft 63 in the direction of arrow a is regulated. Therefore, the rotational load of the electric motor 60 increases and the motor body 61 (case 64). The case 64 rotates in the direction of the arrow a together with the electric motor 61, and the operating rod 69 turns off the switch 68.
[0026]
In other words, the structure may be such that the motor main body 61 rotates to turn off the switch 68 when the rotational load of the electric motor 60 increases.
[0027]
Alternatively, it may be configured to detect an increase in the rotational load of the electric motor 60 and stop the power supply and stop the operation. For example, an increase in the rotational load is detected by an increase in the current supplied to the electric motor 60 (motor body 61), whereby the current is stopped and stopped.
[0028]
【The invention's effect】
According to the first aspect of the present invention, when the shutter curtain 13 is in the fully closed position, the lowering of the shutter curtain 13 is restricted by the descent restricting device 17, and the rotational load of the electric motor 60 increases to stop the electric motor 60.
Further, since the descent regulating device 17 is provided in the shutter case 11 and the descent of the shutter curtain 13 is regulated in the shutter case 11, the descent force of the electric motor 60 is applied to the slat 15 below the shutter case 11. Does not act, the slat 15 does not move even if there is a gap between the guide rail 10 and the slat 15.
Therefore, the shutter curtain 13 can be correctly stopped at the fully closed position in a substantially linear posture.
[0029]
According to the second aspect of the present invention, since the regulating member 40 attached to the slat 15 contacts the receiving member 50 provided in the shutter case 11 to regulate the descent, the slat 15 to which the regulating member 40 is attached is guided. It does not move up and down along the rail 10.
Therefore, since the regulating member 40 does not move up and down along the guide rail 10, the shape, size, and the like of the regulating member 40 can be arbitrarily set regardless of the guide rail 10. , And there is no restriction on the mounting.
[0030]
According to the third aspect of the invention, by adjusting the position of the receiving member 50, even when there is a processing error or an assembly error of each member, the regulating member 40 contacts the receiving member 50 when the shutter curtain 13 is in the fully closed position. You can touch.
[Brief description of the drawings]
FIG. 1 is a partially broken external view of an electric shutter.
FIG. 2 is a vertical sectional view of an electric shutter.
FIG. 3 is a cross-sectional view of the electric shutter.
FIG. 4 is an enlarged sectional view of a shutter case portion.
FIG. 5 is a partially broken enlarged external view of a shutter case portion.
FIG. 6 is an exploded perspective view of a regulating member and a receiving member.
FIG. 7 is a sectional view of a connecting portion between the electric motor and the winding shaft.
FIG. 8 is a sectional view taken along the line AA of FIG. 7;
FIG. 9 is a right side view of FIG. 7;
FIG. 10 is a diagram for explaining a problem of a conventional electric shutter.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Guide rail, 11 ... Shutter case, 12 ... Winding device, 13 ... Shutter curtain, 14 ... Winding shaft, 15 ... Slat, 17 ... Lowering restricting device, 27 ... Cover, 28 ... Reinforcement plate, 40 ... Restricting member , 42: regulating piece, 50: receiving member, 51: mounting tool, 52: receiving tool, 56: horizontal plate, 60: electric motor.

Claims (3)

A winding device 12 having a guide rail 10, a shutter case 11 provided above the guide rail 10, a winding shaft 14 provided in the shutter case 11 and driven to rotate by an electric motor 60, In an electric shutter provided with a shutter curtain 13 that is wound and fed out by a shaft 14 and moves up and down along the guide rail 10,
Provided in the shutter case 11 is a descent regulating device 17 that regulates the descent of the shutter curtain 13 when the shutter curtain 13 is at the fully closed position,
An electric shutter characterized in that when the lowering of the shutter curtain 13 is restricted by the lowering control device 17, the rotational load of the electric motor 60 increases and the electric motor 60 stops. The descent restricting device 17 includes a restricting member 40 mounted on the slat 15 forming the shutter curtain 13 and a receiving member 50 mounted in the shutter case 11, and when the shutter curtain 13 is in the fully closed position, the restricting member 40 receives the receiving member. The electric shutter according to claim 1, wherein the shutter is in contact with the shutter. The electric shutter according to claim 2, wherein the position of the receiving member (50) is adjustable in a direction in which the shutter curtain (13) moves up and down.

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