The curtain hanging device includes a plurality of runners each rotatably supporting wheels and provided with a hanging ring to be engaged with a curtain hook provided on a wave curtain, and a coupling body in a tape shape that can be accommodated in an inner space of a curtain rail body that holds the plurality of runners in a travelable state, and detachably attached to the plurality of runners via a plurality of engagement bodies provided at predetermined intervals.
Curtain drawing devices electrically operated; curtain
drawing devices electrically operated and parts and fittings
therefor; electric blind openers; electric blind openers and
parts and fittings therefor; electric roll screen openers;
electric roll screen openers and parts and fittings
therefor; electric rolled blind openers; electric rolled
blind openers and parts and fittings therefor; electric
roman shades openers; electric roman shades openers and
parts and fittings therefor; electric door openers; curtain
drawing devices, electrically operated; curtain rail cutting
machines; electric pleated blind openers; electric pleated
blind openers and parts and fittings therefor.
Curtain drawing devices electrically operated; curtain drawing devices electrically operated and parts and fittings therefor, namely, replacement motors; electric blind openers for window blinds; electric blind openers for window blinds, and parts and fittings therefor, namely, replacement motors; electric roll screen openers for window screens; electric roll screen openers for window screens, and parts and fittings therefor, namely, replacement motors; electric rolled blind openers for window blinds; electric rolled blind openers for window blinds, and parts and fittings therefor, namely, replacement motors; electric roman shades openers; electric roman shades openers and parts and fittings therefor; electric door openers; curtain drawing devices, electrically operated; curtain rail cutting machines; electric pleated blind openers for window blinds; electric pleated blind openers for window blinds, and parts and fittings therefor, namely, replacement motors
Provided is a curtain hanging device that has a simple structure, while having good appearance and being easy to maintain. A curtain hanging device (5) according to the present invention comprises: a plurality of runners (2), each of which rotatably supports a wheel (23) and is provided with a hanging ring (22) that engages with a curtain hook provided in a wave curtain (10); and a tape-like connection body (3) which is detachably attached, via a plurality of engagement bodies (35) provided at predetermined intervals, to the plurality of runners (2) that can be accommodated in an inner space of a curtain rail body (1) holding the plurality of runners (2) so as to be capable of travel.
The curtain rail structure is configured so that multiple secondary rails (11, 12) are connected via a branch member (20) to the end of a single main rail (13), and multiple curtain runners run on the main rail and one secondary rail that is selected from among the multiple secondary rails as a result of the main rail being connected to be continuous with the selected secondary rail. The single main rail and multiple secondary rails are connected by a connecting plate (21) of the branch member. The curtain rail structure is switched so that the main rail is connected to be continuous with one of the multiple secondary rails by swinging a single swinging rail (22), which is pivotally mounted to swing around a swinging axis (28), with respect to the connecting plate. A magnetorepulsive holding mechanism (23) controls the swinging angle of the swinging rail and simultaneously holds the swinging rail at a specified swinging angle. Manipulability of the swinging rail during switching is improved by reducing the operating force for switching the swinging rail.
First and second lifting and lowering units are connected to first and second shielding members hung from a head rail, and an operating cord drives the units to lift and lower the shielding members independently. An operating cord is wound around a rotating member. Between a first input shaft to which the turning force of the rotating member is transferred and a first output shaft that can lift and lower the first shielding member, a first clutch of the first lifting and lowering unit is provided, and a first stopper is provided in the first output shaft. Between a second input shaft to which the turning force of the rotating member is transferred and a second output shaft that can lift and lower the second shielding member, a second clutch of the second lifting and lowering unit is provided, and a second stopper is provided in the second output shaft.
A sunlight-shielding device in which two pieces of shielding material suspended from a head box can be switched using a single loop-shaped raising/lowering operation cord, wherein a clutch unit is implemented with a short overall length, a compact size, a simple configuration, and a small number of components. When rotation from an input disc (81) causes an input plate (83) to rotate in a predetermined direction, an engaging section of a frame plate (84) projects out from the frame plate along a guide groove, engages a latching protrusion of an output drum (87), and transmits the rotation from the input disc (81) to the output drum (87).
A first and a second raising and lowering means (21, 22) are connected to a first and a second shielding member which are suspended from a head-rail (13), and a single operating cord (14) drives the first and second raising and lowering means and independently raises and lowers the first and second shielding members. A rotating member (26) is mounted to the head-rail, and the operating cord is wound around the rotating member. A first latch (31) in the first raising and lowering means is provided between a first input axis (21a), to which the rotational force of the rotating member is transmitted, and a first output axis (21b), which is capable of raising and lowering the first shielding member. A first stopper (41) is provided on the first output axis. A second latch (32) in the second raising and lowering means is provided between a second input axis (22a), to which the rotational force of the rotating member is transmitted, and a second output axis (22b), which is capable of raising and lowering the second shielding member. A second stopper (42) is provided on the second output axis. The disclosed solar radiation shielding apparatus uses a relatively simple configuration to independently raise and lower a first and a second shielding member by the operation a single operating cord.
Upper ends of the first fabric and the second fabric are attached to the head rail, respectively, and the first lift cord and the second lift cord suspended from the head rail in a liftable manner are coupled to the first fabric and the second fabric, respectively. The first lift cord is routed into a rear side of the first fabric and the second lift cord is routed into a rear side of the second fabric so as to come over an upper end of the second fabric. An extension member is provided so as to extend downwardly along with a lower edge of a rear portion of the head rail, and the upper end of the second fabric is attached to a front surface of the extension member.
⏧PROBLEMS] Even if a first fabric is lifted up to the vicinity of a head rail, attractiveness of a second fabric is not lost and the production steps of the second fabric are not increased. ⏧MEANS OF SOLVING PROBLEMS] The upper ends of the first and second fabrics (11, 12) are respectively attached to the head rail (16), and first and second elevating/lowering cords (21, 22) suspended from the head rail so as to be able to rise and fall are connected to the first and second fabrics respectively. The first elevating/lowering cord (21) is dispose behind the first fabric (11), and the second elevating/lowering cord (22) goes beyond the upper end of the second fabric (12) to be disposed behind the second fabric (12). An extension member (17) is allowed to project along the lower rear edge of the head rail and downward from it, and the upper end of the second fabric is attached to the front face of the extension member. Further, when viewed from the front of the second fabric, a non-attaching portion (18) where the upper end of the second fabric is not attached to the front face of the extension member is provided over a specified width including the suspended portion of the second elevating/lowering cord, and the second elevating/lowering cord suspended from the head rail goes through the non-attaching portion to extend from the front side to the rear side of the second fabric.