JP5618992B2 - Electric blind solar panel mounting device - Google Patents

Description

  The present invention relates to an electric blind that operates using a rechargeable battery charged with a solar battery as a power source.

  Conventionally, an electric blind that operates using a battery as a power source and controls the angle adjustment operation of a slat with a remote control device includes a remote control receiver, a motor for adjusting a slat angle, and a microcomputer that controls the motor based on a light reception signal. Some have a battery such as a dry battery as a power source.

Since such an electric blind is often installed in a place where it is difficult to wire a commercial power supply, replacement work when the battery is exhausted is often complicated.
Then, in order to make the replacement | exchange of a battery unnecessary, the electric blind which uses the rechargeable battery which can be charged using a solar cell as a power supply is proposed (refer patent documents 1, 2).

Actual fair 4-31995 Japanese Patent No. 3256129

  In the electric blind as described above, the solar cell is installed in a state of being fixed to the window glass or the head box. Therefore, the installation position of the solar cell may not be an optimal position for efficiently receiving sunlight.

In addition, changing the installation position of the solar cell after installing the electric blind requires complicated work such as re-installing the electric blind.
An object of the present invention is to provide a solar cell panel mounting device for an electric blind that can easily change the installation position of a solar cell and ensure stable power generation performance.

To achieve the above object, in a first aspect of the present invention, the scan tape, movably supports the solar panel, the stay, by sandwiching the side of the electric blind headboxes from outside and inside There is provided a solar panel mounting device for an electric blind that includes a latching portion that can be latched, and the stay is slidably supported on the head box in the longitudinal direction via the latching portion .

ADVANTAGE OF THE INVENTION According to this invention, the solar cell panel attachment apparatus of the electric blind which can change the installation position of a solar cell easily and can ensure the stable electric power generation performance can be provided.
The case of the solar cell panel may be supported on the stay so as to be movable up and down.

In said before and Symbol stay case may be provided with concavo-convex portions for stepwise vertical movement of the casing. In this case, the concavo-convex part may include a large number of dents provided on both side edges of the stay, and a convex part provided in the case and engaged with the dent.

The stay may include an accommodation groove for accommodating a connection cord.
The stay may be provided with a mounting hole through which a screw can be inserted.
The stay is provided with a solar cell panel mounting device for an electric blind that rotatably supports the solar cell panel.

The case of the pre-Symbol solar panel may be detachably supported on the stay.
In the first aspect, a support member may be provided on the case, and a holding portion may be provided on the stay so that the support member can be adjusted in the vertical direction. In this case, the support member may be attracted to the holding portion with a magnet.

In a second aspect of the present invention, it includes a separate hanging cord and the shielding member to the supporting portion of the conductive kinematic blind, and the vertically movable solar panel via the lower cord hanging with respect to the support part and suspension support electric A blind solar panel mounting apparatus is provided.

The said 2nd aspect WHEREIN: The stopper apparatus which prevents the dead weight fall of the said solar cell panel may be provided in the said support part.
The hanging position of the hanging cord may be movable along the support portion.

Or you may equip the said support part with the winding pipe which winds up the said hanging cord. In this case, the solar cell panel can be pushed up by a weight bar so that the suspension cord can be wound around the winding pipe. Further, the winding pipe may be rotated in conjunction with the raising and lowering of the shielding material, and the solar cell panel may be raised and lowered in conjunction with the raising and lowering of the shielding material.

It is a perspective view which shows the horizontal blind of 1st embodiment. It is a side view which shows the horizontal blind of 1st embodiment. It is a perspective view which shows the back surface of the horizontal blind of 1st embodiment. It is a perspective view which shows the solar cell panel attachment apparatus of 1st embodiment. It is a rear view which shows the solar cell panel attachment apparatus of 1st embodiment. It is a perspective view which shows operation | movement of the solar cell panel attachment apparatus of 1st embodiment. It is a perspective view which shows operation | movement of the solar cell panel attachment apparatus of 1st embodiment. It is a front view which shows the solar cell panel attachment apparatus of 2nd embodiment. It is a side view which shows the solar cell panel attachment apparatus of 2nd embodiment. It is a perspective view which shows the solar cell panel case of 2nd embodiment. It is a perspective view which shows the solar cell panel case of 2nd embodiment. It is a front view which shows the stay of 2nd embodiment. It is sectional drawing which shows operation | movement of the solar cell panel attachment apparatus of 2nd embodiment. It is a front view which shows attachment operation of the solar cell panel attachment apparatus of 2nd embodiment. It is a front view which shows attachment operation of the solar cell panel attachment apparatus of 2nd embodiment. It is a front view which shows attachment operation of the solar cell panel attachment apparatus of 2nd embodiment. It is a front view which shows attachment operation of the solar cell panel attachment apparatus of 2nd embodiment. It is a front view which shows attachment operation of the solar cell panel attachment apparatus of 2nd embodiment. It is a perspective view which shows the solar cell panel case of 3rd embodiment. It is a front view which shows the stay of 3rd embodiment. It is a front view which shows attachment operation of the solar cell panel attachment apparatus of 3rd embodiment. It is a front view which shows attachment operation of the solar cell panel attachment apparatus of 3rd embodiment. It is a front view which shows attachment operation of the solar cell panel attachment apparatus of 3rd embodiment. It is a front view which shows attachment operation of the solar cell panel attachment apparatus of 3rd embodiment. It is a front view which shows the solar cell panel mounting apparatus of 4th embodiment. It is a side view which shows the stay of 4th embodiment. It is sectional drawing which shows the stay of 4th embodiment. It is sectional drawing which shows the stay of 4th embodiment. It is a front view which shows the solar cell panel attachment apparatus of 5th embodiment. It is sectional drawing which shows the solar cell panel attachment apparatus of 5th embodiment. It is a side view which shows the solar cell panel mounting apparatus of 6th embodiment. It is a side view which shows the solar cell panel attachment apparatus of 7th embodiment. It is a front view which shows the solar cell panel mounting apparatus of 8th embodiment. It is a side view which shows the solar cell panel mounting apparatus of 8th embodiment. It is a side view which shows operation | movement of the solar cell panel attachment apparatus of 8th embodiment. It is a front view which shows the pushing-up member of 8th embodiment. It is a side view which shows operation | movement of the solar cell panel attachment apparatus of 8th embodiment. It is a front view which shows the solar cell panel attachment apparatus of 9th embodiment. It is a side view which shows the solar cell panel attachment apparatus of 9th embodiment. It is a side view which shows operation | movement of the solar cell panel attachment apparatus of 9th embodiment.

(First embodiment)
A first embodiment of the present invention will be described below with reference to FIGS. In the horizontal blind shown in FIG. 1, a multi-stage slat (shielding material) 3 is supported by a ladder cord 2 suspended from a head box 1 as a support or frame, and a bottom rail is provided at the lower end of the ladder cord 2. 4 is attached.

  In the slat 3, an elevating cord 5 is inserted in the vicinity of the support position of the ladder cord 2, and the bottom rail 4 is suspended and supported at the lower end of the elevating cord 5. The upper end portion of the lifting / lowering cord 5 is guided to one end side in the head box 1, is suspended from the end portion of the head box 1 through the stopper device 6, and the operation cord 8 is connected via the cord equalizer 7. .

  The bottom rail 4 and the slat 3 can be moved up and down by operating the operation cord 8 and pulling the lifting / lowering cord 5 from the head box 1 or by pulling the lifting / lowering cord 5 into the head box 1. The stopper device 6 prevents the bottom rail 4 and the slat 3 from falling under its own weight.

  As shown in FIG. 2, a remote control receiver 9 is attached to the front surface of the head box 1, and as shown in FIG. 3, a solar cell panel 10 is attached to the back side of the head box 1, that is, the outdoor side. Has been. The remote control receiver 9 and the solar cell panel 10 are connected to a control unit (not shown) disposed in the head box 1 via a connection cord.

The remote control receiving unit 9 receives an infrared signal transmitted as an operation signal from the remote control operation unit 11 and outputs the operation signal to the control unit.
The solar cell panel 10 performs a power generation operation based on reception of sunlight, and charges the rechargeable battery disposed in the control unit with the generated power. The control unit uses the rechargeable battery as a power source, and controls a motor disposed in the head box 1 based on an operation signal output from the remote control receiving unit 9 to rotate the slat 3. Yes.

Next, an attachment device for attaching the solar cell panel 10 to the head box 1 will be described with reference to FIGS.
The case 12 supporting the solar cell panel 10 is configured by fitting a base member 13 made of a synthetic resin and a cover member 14 so that the solar cell panel 10 is exposed on the surface of the cover member 14. It is attached.

  The case 12 is suspended and supported by a lower end portion of a plate-like stay 15 that is hooked on the head box 1. The stay 15 is made of synthetic resin. As shown in FIG. 4, a pair of hooks 16 that can be hooked on the side of the head box 1 are formed at the upper end of the stay 15. When the hook 16 is hooked on the side of the head box 1, the stay 15 is supported so as to be movable with respect to the head box 1 in the longitudinal direction of the head box 1.

  An intermediate portion of the stay 15 is bent in a crank shape in a direction away from the head box 1, and the case 12 is suspended and supported at a lower end portion of the stay 15. Specifically, a large number of arc-shaped depressions 17 are continuously formed in the vertical direction on the left and right side edges of the lower end of the stay 15.

  As shown in FIG. 5, a pair of holding portions 18 are formed on the inner surface of the base member 13 so as to hold both side edges of the lower end portion of the stay 15, and the stays 18 are interposed between the holding portions 18. The lower end of 15 is inserted.

  The holding portion 18 is formed with a convex portion 19 that engages with the recess 17 of the stay 15. The base member 13 is supported in a suspended manner so as to be able to move up and down stepwise with respect to the lower end portion of the stay 15 while the convex portion 19 of the holding portion 18 is engaged with the recess 17 of the stay 15.

  An accommodation groove 21 that accommodates a connection cord 20 that electrically connects the solar cell panel 10 and the control unit is formed from the upper end portion to the lower end portion of the stay 15 at the central portion in the left-right width direction of the stay 15. Yes. The accommodating groove 21 is formed with a groove width that can accommodate the two connecting cords 20, and the holding portion 22 that holds the connecting cord 20 in the accommodating groove 21 by narrowing the opening width of the accommodating groove 21 at a plurality of locations. Is formed.

  Further, the connection cord 20 between the lower end of the stay 15 and the solar cell panel 10 has a length that does not prevent the base member 13 from moving up and down, and when the base member 13 is moved upwards, 12 is in a relaxed state.

  As shown in FIG. 4, a mounting hole 23 through which a screw can be inserted is formed at the upper end of the stay 15. Then, the stay 15 can be attached to a support portion such as a window frame (frame body) or a wall surface with a screw using the mounting hole 23.

In the horizontal blind constructed as described above, the angle of the slat 3 can be adjusted by operating the motor in the head box 1 by operating the remote controller 11.
The motor and the control unit operate using a rechargeable battery charged by the solar battery panel 10 as a power source. And the solar cell panel 10 is attached toward the window surface on the back side of the head box 1 as shown in FIGS.

  The case 12 of the solar cell panel 10 can be adjusted in the vertical direction in the range from the position shown in FIG. 6 to the position shown in FIG. 7, that is, in the range where the recess 17 is formed in the stay 15.

With the horizontal blind constructed as described above, the following operational effects can be obtained.
(1) The angle of the slat 3 can be adjusted by operating the remote control operation unit 11.
(2) The motor and control unit for adjusting the angle of the slat 3 can be operated using a rechargeable battery charged by the solar cell panel 10 as a power source.
(3) The solar cell panel 10 can be attached from the head box 1 through the stay 15 to the back side of the head box 1, that is, the position facing the window surface.
(4) The mounting position of the case 12 of the solar cell panel 10 can be easily adjusted in the vertical direction. Further, the position of the stay 15 can be adjusted by sliding it in the longitudinal direction of the head box 1. Therefore, the position of the solar cell panel 10 can be easily adjusted to a position at which sunlight is easily received.
(5) The position of the case 12 can be adjusted stepwise in the vertical direction with respect to the stay 15 by the convex portion 19 of the case 12 and the recess 17 of the stay 15.
(6) The connecting cord 20 can be held by the accommodation groove 21 provided in the stay 15 to improve the aesthetic appearance. Even when the case 12 is moved up and down, the connection cord 20 can be prevented from being separated from the stay 15.
(7) With the screws inserted into the mounting holes 23 of the stay 15, the stay 15 can be attached to a window frame or wall surface other than the head box 1. Therefore, the solar cell panel 10 can also be installed at a position away from the head box 1 at a position where sunlight is easily received.
(8) When the stay 15 is attached to a vertical surface such as a wall surface with a screw in a state where the solar cell panel 10 is directed upward, the position of the case 12 can be adjusted in the horizontal direction.
(Second embodiment)
8-18 shows 2nd embodiment of the attachment apparatus of a solar cell panel. Components that are the same as or similar to those in the first embodiment will be described with the same reference numerals.

  In the stay 31 of this embodiment, a hollow rectangular box-shaped holding portion 33 is supported at the lower end portion of a pair of arms 32 extending downward from the tip end portion of the hook 16 so as to be rotatable in the front-rear direction. And as shown in FIG. 12, the long hole 34 extended in an up-down direction is formed in the center of the front surface of the said holding | maintenance part 33. As shown in FIG.

  As shown in FIG. 11, a long plate-like support member 35 that can be inserted into the long hole 34 is formed on the rear surface of the base member 13 of the solar cell panel 10 with a support shaft 36 at a predetermined interval. Yes. The length of the support member 35 is longer than the inner dimension of the holding portion 33 in the left-right direction.

  10 and 11, a connector hole 37 is formed on the upper surface of the base member 13 and the cover member 14, and is attached to the end of the connection cord 20 as shown in FIGS. The connector 38 can be fitted. The solar cell panel 10 is connected to the rechargeable battery and the control unit via the connection cord 20.

A mounting piece 39 extending forward is formed at the lower end of the cover member 14, and a screw hole 40 is formed at the center of the mounting piece 39.
As shown in FIG. 9, a locking piece 45 that engages the inner surface of the side of the head box 1 and a clamping piece 46 that contacts the outer surface of the side are formed at the proximal end of the hook 16. The side edge of the head box 1 is clamped by the stop piece 45 and the clamping piece 46.

  With such a configuration, the stay 31 is supported so as to be slidable in the longitudinal direction of the head box 1. Therefore, the installation position of the solar cell panel 10 can be adjusted in the longitudinal direction of the head box 1.

  In the solar cell panel mounting apparatus configured as described above, as shown in FIG. 14, the base member 13 of the solar cell panel 10 is inclined obliquely, and the support member 35 is inserted into the holding portion 33 from the long hole 34. When the base member 13 is rotated in the vertical direction as shown in FIG. 15, both end corners of the support member 35 are held in contact with the inner surface of the holding portion 33 as shown in FIG.

Therefore, if the position where both corners of the support member 35 abut is adjusted in the vertical direction in the holding portion 33, the support position of the solar cell panel 10 can be adjusted in the vertical direction.
For example, as shown in FIG. 13, when the solar cell panel 10 is turned obliquely downward by rotating the holding portion 33, the solar cell panel 10 can effectively receive reflected light from below. It is also possible to face the solar cell panel 10 obliquely upward.

  Further, as shown in FIG. 17, from the state where the solar cell panel 10 is attached to the head box 1, the base member 13 is removed from the holding portion 33, and the screws inserted into the screw holes 40 of the cover member 14 are used as window frames or the like. When screwed in, as shown in FIG. 18, the solar cell panel 10 can be attached to a vertical frame of a window or the like.

In the solar cell panel mounting apparatus configured as described above, the following operational effects can be obtained.
(1) The mounting position of the solar cell panel 10 can be adjusted in the vertical direction.
(2) The angle of the panel surface can be adjusted in the vertical direction by adjusting the mounting angle of the solar cell panel 10.
(3) The position of the solar cell panel 10 can be adjusted in the longitudinal direction of the head box 1 without removing the head box 1 from the installation position.
(4) The solar cell panel 10 can be detached from the stay 15 and attached to an arbitrary position without removing the head box 1 from the installation position. Therefore, the solar cell panel 10 can also be installed at a position away from the head box 1 at a position where sunlight is easily received.
(Third embodiment)
FIGS. 19-24 shows 3rd embodiment of the attachment apparatus of a solar cell panel. As shown in FIG. 19, a long plate-like support member 41 extending in the horizontal direction is formed on the rear surface of the base member 13 of the solar cell panel 10 at a predetermined interval with a support shaft 42. A magnet sheet 43 is attached to the front end surface of the support member 41. Other configurations of the base member 13 and the cover member 14 of the solar cell panel 10 are the same as those in the second embodiment.

  As shown in FIGS. 20 and 23, magnet sheets 44 capable of attracting the magnet sheet 43 are attached to the left and right sides of the inner surface on the back side of the holding portion 33. Other configurations of the holding unit 33 are the same as those in the first embodiment.

  Then, as shown in FIG. 21, the base member 13 is rotated 90 degrees to insert the support member 41 into the holding portion 33, and as shown in FIG. 22, the base member 13 is rotated in the vertical direction to magnet. When the sheets 43 and 44 are bonded, the base member 13 is held by the holding portion 33 as shown in FIGS.

  Moreover, the attachment position of the solar cell panel 10 can be adjusted in the up-down direction by separating the support member 41 from the magnet sheet 44, adjusting the position in the up-down direction, and bonding the support member 41 to the magnet sheet 44 again.

Since the solar cell panel mounting device of this embodiment can obtain the same operational effects as those of the second embodiment, the base member 13 can be moved over the entire length of the long hole 34 of the holding portion 33. Compared with the second embodiment, the adjustment range of the height position of the solar cell panel 10 can be expanded in the holding portion 33 having the same size.
(Fourth embodiment)
FIGS. 25-28 shows 4th embodiment of the attachment apparatus of a solar cell panel. As shown in FIGS. 25 and 26, the upper end portion of the holding portion 33 is rotatably supported by a stay 51 attached to the head box 1.

  The stay 51 includes a cylindrical case 52 fixed to the head box 1 and a cover 53 that can be fitted into an opening of the case 52. A shaft portion 54 formed at the upper end of the holding portion 33 is inserted into the case 52, a cover is fitted to the case 52, and the shaft portion 54 is rotatably supported by the case 52.

  As shown in FIG. 28, the outer peripheral surface of the shaft portion 54 and the inner peripheral surface of the case 52 are formed with concavities and convexities 55 a and 55 b that engage with each other, and the shaft portion 54 rotates stepwise within the case 52. It is supposed to be.

The base member 13 of the solar cell panel 10 is attached to the holding portion 33 with the same configuration as in the first embodiment or the second embodiment.
With such a configuration, the solar cell panel 10 can be rotated and held in the direction along the window surface with the stay 51 as the center of rotation, so the solar cell panel 10 is installed at a position where sunlight is easily received. can do.
(Fifth embodiment)
29 and 30 show a fifth embodiment. In this embodiment, a substantially spherical fitting protrusion 61 is formed at the tip of the shaft portion extending upward from the base member 13 of the solar cell panel 10, and the stay 62 that can be attached to the head box has a fitting protrusion. A fitting recess 63 that fits and holds the part 61 so as to be rotatable is formed. When the fitting protrusion 61 is fitted into the fitting recess 63, the solar cell panel 10 is supported by the stay 62 so as to be rotatable in an arbitrary direction and is held at an arbitrary rotating position.

  The stay 62 is formed with a locking piece 64 that engages with the inner surface of the side of the head box 1 and a clamping piece 65 that contacts the outer surface of the side. The locking piece 64 and the clamping piece 65 together form the head box 1. It is designed to pinch the sides.

The fitting recess 63 is positioned at a predetermined distance from the front of the head box 1 through the hanging shaft 66 from the stay 62.
With such a configuration, the solar cell panel 10 can be rotated and held in any direction with the fitting protrusion 61 of the stay 62 as the rotation center. Therefore, since the panel surface of the solar cell panel 10 can be directed to a direction other than the direction toward which the window surface is directed, the solar cell panel 10 can be installed at an angle at which sunlight is easily received.

The stay 31 can be adjusted in the longitudinal direction of the head box 1 by sliding the stay 31 in the longitudinal direction of the head box 1.
(Sixth embodiment)
FIG. 31 shows a sixth embodiment. In this embodiment, the solar cell panel 10 is suspended and supported from a horizontal blind head box 71 so as to be lifted and lowered.

  On the back side of the horizontal blind, the solar cell panel 10 is suspended and supported from a head box 71 via a suspension cord 72. The suspension cord 72 includes a pulley 73 and a stopper device 74 provided in the head box 71. After that, it hangs down in front of the horizontal blind. The stopper device 74 has a function of preventing the solar cell panel 10 from falling by its own weight.

The solar cell panel 10 is connected to a control unit or a rechargeable battery via a connection cord 75 that expands and contracts in a spiral shape.
With such a configuration, the suspension cord 72 can be operated to adjust the suspension position of the solar cell panel 10 in the vertical direction and can be pulled up to the vicinity of the lower surface of the head box 71. Therefore, the solar cell panel 10 can be installed at a position where sunlight is easily received.

Further, when the slat 76 of the horizontal blind is lifted, the solar cell panel 10 is also lifted up to the vicinity of the lower surface of the head box 71 and positioned on the back side of the lifted slat 76. It is possible to prevent the panel 10 from being exposed and improve the beauty.
(Seventh embodiment)
FIG. 32 shows a seventh embodiment. In this embodiment, the pulley 73 and the stopper device 74 are attached to the stay 82 disposed on the back side of the head box 81, and the suspension cord 72 for raising and lowering the solar cell panel 10 is suspended on the back side of the horizontal blind. Is.

  With such a configuration, it is possible to obtain the same operational effects as in the sixth embodiment. Further, since the hanging cord 72 hangs down on the back side of the slat 76, the appearance of the hanging cord 72 in the room can be suppressed and the aesthetic appearance can be improved in the state where the slat 76 is lowered.

The stay 82 is slidable in the longitudinal direction of the head box 81 with the same configuration as that of the second embodiment. Therefore, in addition to the function and effect obtained in the sixth embodiment, the function and effect that the installation position of the solar cell panel 10 can be moved in the longitudinal direction of the head box 82 can be obtained.
(Eighth embodiment)
33 to 37 show an eighth embodiment. In this embodiment, the solar cell panel 10 is suspended and supported on the back side of the screen 83 of the roll blind so as to be lifted and lowered.

  As shown in FIGS. 33 and 34, a winding cord 85 that supports the solar cell panel 10 in a suspended manner can be wound up obliquely above the winding pipe 84 of the screen 83 in a side view of the roll blind. A take-up pipe 86 is rotatably supported between the support brackets 87.

  A spring motor 88 is disposed in the winding pipe 86, and the spring motor 88 applies a rotational force in the winding direction of the suspension cord 85 to the winding pipe 86. The weight of the solar cell panel 10 is secured to overcome the urging force of the spring motor 88 and lower the solar cell panel 10 to the lower limit.

  The length of the suspending cord 85 is set so that, for example, the solar cell panel 10 can be lowered to the middle position in the vertical direction of the lifting / lowering range of the screen 83. Moreover, the solar cell panel 10 is connected to a control part or a rechargeable battery through a connection cord 75 that expands and contracts in a spiral shape.

  A push-up member 90 is attached to the back surface of the weight bar 89 attached to the lower end of the screen so that the solar cell panel 10 can be pushed up from below. As shown in FIG. 36, support pieces 91 that support both side portions of the solar cell panel 10 are formed on both side portions of the push-up member 90, and can be pushed up without covering the light receiving surface of the solar cell panel 10. ing.

  In the solar cell panel mounting apparatus as described above, as shown in FIG. 34, when the screen 83 is lowered to the vicinity of the lower limit, the solar cell panel 10 is lowered to the lower limit position, that is, the intermediate position in the vertical direction of the screen 83. Become.

  When the screen 83 is lifted from this state and the push-up member 90 comes into contact with the solar cell panel 10 as shown in FIG. 35, the winding pipe 86 is moved in the winding direction of the suspended cord 85 by the rotational torque of the spring motor 88. It can be rotated.

  Then, as the weight bar 89 rises, the suspension cord 85 is wound around the take-up pipe 86, and the solar cell panel 10 rises to the upper limit position shown in FIG.

  When the screen 83 is unwound from the take-up pipe 84 and the weight bar 89 is lowered, the solar cell panel 10 is lowered together with the weight bar 89 to the position shown in FIG. 35, and thereafter, only the weight bar 89 is lowered.

  With such a configuration, the hanging position of the solar cell panel 10 can be adjusted in the vertical direction by adjusting the length of the hanging cord 85. Therefore, the solar cell panel 10 can be installed at a position where sunlight is easily received.

Further, when the screen 83 is lifted, the solar cell panel 10 can be automatically lifted together with the weight bar 89, so that the exposure of the solar cell panel 10 on the window surface can be prevented and the aesthetic appearance can be improved.
(Ninth embodiment)
38 to 40 show a ninth embodiment. In this embodiment, the solar cell panel 10 of the eighth embodiment is moved up and down in conjunction with the lifting and lowering operation of the screen 83.

  As shown in FIGS. 38 and 39, the rotation of the winding pipe 84 is transmitted to the winding pipe 86 via the transmission gear 92. The solar cell panel 10 is suspended and supported from the winding pipe 86 via the suspension cord 85. The length of the suspension cord 85 is such that when the weight bar 89 is lowered to the lower limit, the solar cell panel 10 is attached to the weight bar 89. It is set to be located behind

  When the winding pipe 84 is rotated and the screen 83 is pulled up, the hanging cord 85 is wound around the winding pipe 86 and the solar cell panel 10 is pulled up.

In addition, the winding pipes 84 and 86 are formed with the same diameter, and are set so that the lifting / lowering amount of the screen 83 is equal to the lifting / lowering amount of the solar cell panel 10.
The solar cell panel 10 is formed with a length slightly shorter than the entire length of the weight bar 89, and is suspended and supported by a plurality of suspension cords 85 from the winding pipe 86.

  In the solar cell panel mounting apparatus as described above, when the screen 83 is lowered to the lower limit, the solar cell panel 10 is lowered to the rear position of the weight bar 89. When the screen is lifted, the solar cell panel 10 is also lifted and lifted to the upper limit position shown in FIG.

When the screen 83 is lowered, the solar cell panel 10 is also lowered to the lower limit position shown in FIG.
With such a configuration, the hanging position of the solar cell panel 10 can be adjusted in the vertical direction. Further, when the screen 83 is lifted, the solar cell panel 10 can be automatically lifted together with the weight bar 89, so that the exposure of the solar cell panel 10 on the window surface can be prevented and the aesthetic appearance can be improved.

You may implement the said embodiment in the following aspects.
The position of the solar panel case may be adjustable in the horizontal direction with respect to the stay while supporting the solar panel in the vertical direction.
In the first embodiment, the case 12 is supported in the vertically long direction by the stay 15, but the case 12 may be supported in the horizontally long direction.
In the third embodiment, a hook-and-loop fastener may be used instead of the magnet sheet.
In the ninth embodiment, the length of the suspension cord 85 may be a length that is below the suspension position of the screen 83. This is effective when the amount of sunlight irradiated below the screen 83 is large.
In the ninth embodiment, the solar cell panel 10 may be longer than the entire length of the weight bar 89. Further, a plurality of solar cell panels 10 shorter than the weight bar 89 may be supported by suspension.
In the ninth embodiment, the solar cell panel 10 may be positioned at an intermediate position in the vertical direction of the screen 83 with the rotational speed of the winding pipe 86 being half that of the winding pipe 84.

  DESCRIPTION OF SYMBOLS 1 ... Head box, 10 ... Solar cell panel, 12 ... Case, 15, 31, 51, 82 ... Stay, 17 ... Uneven part (dent), 19 ... Uneven part (convex part), 20 ... Connection cord, 21 ... Accommodating groove.

Claims (16)

To the scan tape, and movably supporting the solar panels,
The stay is provided with a latching portion that can be latched by sandwiching the side of the head box of the electric blind from outside and inside,
The stay is supported by the head box so as to be slidable in the longitudinal direction of the stay via the hooking portion .   The solar cell panel mounting device for an electric blind according to claim 1, wherein the case of the solar cell panel is supported on the stay so as to be movable up and down. The solar panel mounting device for an electric blind according to claim 2, wherein the stay and the case are provided with an uneven portion for moving the case up and down stepwise. The uneven portion is
A number of depressions provided on both side edges of the stay;
The solar cell panel mounting device for an electric blind according to claim 3 , further comprising a protrusion provided on the case and engaging with the recess. The solar cell panel mounting device for an electric blind according to any one of claims 1 to 4 , wherein the stay includes an accommodation groove for accommodating a connection cord. The solar panel mounting device for an electric blind according to any one of claims 1 to 5 , wherein the stay includes a mounting hole through which a screw can be inserted. The solar cell panel mounting device for an electric blind according to any one of claims 1 to 6, wherein a solar cell panel is rotatably supported on the stay. The solar cell panel mounting device for an electric blind according to claim 1 , wherein a case of the solar cell panel is detachably supported on the stay. 9. The solar cell panel mounting device for an electric blind according to claim 8 , wherein a support member is provided on the case, and a holding portion is provided on the stay so as to hold the support member in a vertically adjustable manner. The solar cell panel mounting device for an electric blind according to claim 9, wherein the support member is attracted to the holding portion by a magnet. Electrostatic movement comprising a separate hanging cord to the blind support portion shielding material, the supporting part relative to the electric blind sun, characterized in that the vertically movable solar panel via a hanging cord and suspension support Battery panel mounting device. 12. The solar cell panel mounting device for an electric blind according to claim 11 , wherein the support portion is provided with a stopper device that prevents the solar cell panel from falling by its own weight. The solar cell panel mounting device for an electric blind according to claim 11 or 12 , wherein a hanging position of the hanging cord is movable along the support portion. 12. The solar cell panel mounting device for an electric blind according to claim 11 , wherein a winding pipe for winding the suspension cord is provided in the support portion. The solar cell panel mounting device for an electric blind according to claim 14, wherein the solar cell panel is pushed up by a weight bar so that the suspension cord can be wound around the winding pipe. The solar cell panel of the electric blind according to claim 14, wherein the winding pipe is rotated in conjunction with the raising and lowering of the shielding material, and the solar cell panel is raised and lowered in conjunction with the raising and lowering of the shielding material. Mounting device.

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