JP3829685B2 - Blind device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a blind device that is arranged in an opening such as a window of a building and opens and closes the opening.
[0002]
[Problems to be solved by the invention]
The present applicant has previously proposed a blind device as described in JP-A-8-326445.
[0003]
As shown in FIG. 11 to FIG. 19, the blind device 1 described in JP-A-8-326445 includes a link mechanism 2, a link mechanism 3 juxtaposed with the link mechanism 2, and one end portion 4 having a shaft portion 5. The other end 6 is rotatably supported by the link mechanism 2 via the shaft 7 and the plurality of slat support mechanisms 8 respectively connected to the link mechanism 3 via the shaft 7, and the slat support mechanism 8. The slat 9 is connected to the arm member 31 of the lowermost slat support mechanism 8 and lifts the lowermost arm member 31 to raise the slat 9, while lowering the lowermost arm member 31 to lower the slat 9 The ascending / descending mechanism 14 for lowering and the upper ends 10 and 11 of the link mechanisms 2 and 3 are connected to each other. And cause positional changes, and a tilt mechanism 12 for tilting the slats 9.
[0004]
The link mechanism 2 includes a plurality of link members 22 that are rotatably connected in series via a shaft portion 5 and a shaft 21, and the link mechanism 3 is connected in series via a shaft portion 7 and a shaft 23. Are provided with a plurality of link members 24 rotatably connected to each other. The link members 22 and 24 are integrally provided with a regulating piece 25 that defines a bending (folding) direction.
[0005]
Each of the slat support mechanisms 8 is configured so that one end 4 of the slat support mechanism 8 is an alternate connecting portion (a portion of the shaft portion 5) in the connecting portion (a portion of the shaft portion 5 and the shaft 21) of the link member 22 that is freely rotatable. Are connected to each other via a shaft portion 5, and the other end portions 6 of the link member 24 are connected to each other in a freely rotatable connection portion (a portion of the shaft portion 7 and the shaft 23). An arm member 31 that is rotatably connected to the connecting portion (the portion of the shaft portion 7) via the shaft portion 7, and an attachment that is integrally fixed to a substantially central portion of the arm member 31 and extends in the horizontal direction The attachment portion 32 extends through a guide path 34 formed in the vertical frame 33 and extends in the vertical direction, and is fixed to one end of the arm member 31 at a substantially central portion. A plate-like fitting that is arranged on the outside of the portion 35 and the vertical frame 33 and is fitted with one end of the slat 9 Each of the slat support mechanisms 8 is guided by the guide path 34 and can be moved up and down, and each of the arm members 31 has a substantially central portion of the slat 9. Support each one.
[0006]
The tilt mechanism 12 includes a rotating body 43 rotatably provided on a shaft 41 via a bearing 42, one end portions 44 and 45 at the rotating body 43, and the other end 46 and 47 at the link mechanisms 2 and 3 respectively. A pair of string-like bodies connected to the respective upper ends 10 and 11, for example, wires 50 and 51, and a clutch mechanism 15 for transmitting the operation of the ascending / descending mechanism 14 to the rotating body 43.
[0007]
The rotating body 43 as the swinging body swings (rotates) so that the wires 50 and 51 are lifted and lowered differentially in the operation of the tilt mechanism 12.
[0008]
The ascending / descending mechanism 14 includes a chain 61 as a flexible traveling body having one end 59 and the other end 60, a bend preventing means 62 for preventing the bend of the chain 61, and the chain 61 as A and B A traveling device 63 that travels in the direction is provided, and a connecting means 64 that connects the chain 61 to the lowermost arm member 31 via the mounting portion 32.
[0009]
The blocking means 62 includes a pair of guide walls 71 and 72 formed integrally with the vertical frame 33, and a chain presser 70 provided on the vertical frame 33 and arranged around the sprocket wheel 73. The chain 61 travels through the guide paths 74 and 75 formed between the pair of guide walls 71 and 72 and the chain passage 76 between the chain presser 70 and the sprocket wheel 73, and the pair of guide walls 71. And 72 and the chain presser 70 are prevented from bending.
[0010]
The traveling device 63 includes a sprocket wheel 73 as a rotating body with which the chain 61 is engaged and engaged, and a rotation driving device 78 that rotates the sprocket wheel 73. The sprocket wheel 73 is coaxial with the rotating body 43. The rotation drive device 78 is attached to the vertical frame 33 in support of the electric motor 79 and the electric motor 79, and is an output rotation shaft of the electric motor 79. A speed reducer 80 that decelerates the rotation and transmits the reduced speed to the shaft 41, the shaft 41 is rotated by the operation of the electric motor 79 to rotate the sprocket wheel 73, and thereby the chain hung on the sprocket wheel 73. 61 is run in the A and B directions.
[0011]
The connecting means 64 connects one end 59 of the chain 61 to the lower part of the link mechanisms 2 and 3 via the lowermost (lowermost) slat support mechanism 8 and is guided up and down by the guide path 34. The movable body 81 connected to the slat support mechanism 8 and one end 82 are connected to the movable body 81 so as to be rotatable and linearly movable, and the other end 83 is rotatably connected to one end 59 of the chain 61. The arm member 84 is disposed between the chain 61 and the arm member 84, and one end 85 is locked to one end 59 of the chain 61, the other end 86 is locked to the arm member 84, and the center portion is connected to the pin 95. The movable body 81 includes a shaft portion 35 of the mounting portion 32, and is disposed in the guide path 34 to guide the guide path 34. The main body 91 is movable up and down The arm member 84 has a long hole 94 at one end 82, and the pin 92 is inserted into the long hole 94. Accordingly, the one end 82 is connected to the movable body 81 so as to be rotatable and linearly movable. The other end 83 of the arm member 84 is rotatably connected to one end 59 of the chain 61 via a pin 95. The spring 87 elastically biases the arm member 84 against the one end 59 of the chain 61 so as to rotate the arm member 84 counterclockwise with respect to the one end 59 of the chain 61, and thereby the movable body 81. Is moved downward along the guide path 34.
[0012]
The clutch mechanism 15 includes a claw member 97 that is rotatably attached to the rotating body 43 via a shaft 96, an engagement pin 98 that is attached to the vertical frame 33 so that the claw member 97 engages, and a claw member. Engagement protrusions 99 (refer to FIGS. 17 to 19 in particular) provided on the chain 61 of the ascending / descending mechanism 14 so as to abut against 97 and release the engagement of the claw member 97 with the engaging pin 98. The claw member 97 is integrally provided with a claw portion 101 having a recess 100 that engages with the engagement pin 98 and a contact portion 102 that comes into contact with the engagement protrusion 99. The rotating body 43 is formed with a notch 103 that allows the engagement protrusion 99 to approach the contact portion 102 so that the engagement protrusion 99 contacts the contact portion 102. When the claw member 97 is rotated by the contact of the engagement protrusion 99 with the contact portion 102, and the mutual engagement between the recess 100 of the claw portion 101 and the engagement pin 98 is released, the rotating body 43. Accordingly, the rotating body 43 is rotated as the chain 61 travels, and the claw member 97 is rotated by releasing the contact of the engagement protrusion 99 with the contact portion 102, so that the recess of the claw portion 101 is rotated. When 100 and the engagement pin 98 are engaged with each other, the rotating body 43 is fixed to the vertical frame 33 via the engagement pin 98 and cannot rotate.
[0013]
Further, in the blind device 1, the vertical frame 33 as described above is provided on the left and right sides of the opening of the building, and the above mechanism is similarly mounted on the left and right vertical frames 33. The other ends of the slats are supported by slat support mechanisms (not shown) in the same manner as described above. Further, the shaft 41 is extended to the other vertical frame 33, and the raising / lowering mechanism provided on the other vertical frame 33 is operated synchronously in the same manner as described above. Reference numeral 105 denotes an upper cover which is not described in the above publication, and the upper cover 105 is supported by the vertical frame 33 so as to cover the rotation drive device 78 and the like.
[0014]
In the above blind device 1, as shown in FIG. 16, when the link mechanisms 2 and 3 are extended, the slat 9 is tilted substantially vertically so as to completely close the opening of the building, As shown in FIG. 19, the engagement protrusion 99 provided on the chain 61 is disposed in the notch 103 and is in contact with the contact portion 102 of the claw member 97. When the electric motor 79 is operated from this state, the sprocket wheel 73 is rotated by the rotation of the shaft 41 and the chain 61 travels in the A direction. As the chain 61 travels in the A direction, the engagement protrusion 99 is also moved counterclockwise about the shaft 41, and the movement of the engagement protrusion 99 also causes the rotating body 43 to rotate counterclockwise as shown in FIG. By rotating the rotating body 43, the wire 50 is pulled upward and the wire 51 is lowered downward. As a result, the wires 50 and 51 are differentially raised and lowered, as shown in FIG. The link mechanism 2 is lifted relatively upward with respect to the link mechanism 3 so that each of the arm members 31 is rotated substantially horizontally, whereby each of the slats 9 is also rotated substantially horizontally to form a bowl shape. Is done. When the chain 61 further travels in the direction A, the engagement protrusion 99 starts to come out of the notch 103, and the engagement protrusion 99 then comes into contact with the claw portion 101 by the removal of the engagement protrusion 99 from the notch 103. The claw member 97 is rotated around the shaft 96 in contact, and the recess 100 of the claw portion 101 and the engagement pin 98 are engaged with each other. As shown in FIG. 17, when the recess 100 of the claw portion 101 is engaged with the engagement pin 98, the rotation of the rotating body 43 is prevented and held in that state. By continuing the traveling of the chain 61 in the A direction, the lowermost arm member 31 connected to the lower end of the chain 61 via the connecting means 64 is lifted, and the link mechanism is lifted by lifting the lowermost arm member 31. The respective link members 22 and 24 of 2 and 3 start to be sequentially folded from below, and by this folding, that is, bending, the slats 9 attached to the link mechanisms 2 and 3 via the slat support mechanism 8 are sequentially overlapped from below. The When all the slats 9 are overlapped on the upper side, the operation of the electric motor 79 is stopped by a signal from a detector or the like, and the state where the opening is completely opened is maintained.
[0015]
When the electric motor 79 is operated in the state in which the opening is completely opened or in the middle of the opening, the chain 61 travels in the B direction, whereby the links of the link mechanisms 2 and 3 are linked. The members 22 and 24 are unfolded from the upper side and begin to extend, and the slat bundle starts to be released from the upper slat 9. When the link members 22 and 24 of the link mechanisms 2 and 3 are all extended and the slats 9 are all released from their overlapping, the engagement protrusion 99 is inserted into the notch 103 as shown in FIG. First, as shown in FIG. 18, the engagement protrusion 99 comes into contact with the contact portion 102 of the claw member 97 by this insertion and rotates the claw member 97 to engage the engagement pin 98 with the recess 100. With this release, the rotating member 43 is rotated clockwise as shown in FIG. 19 along with the movement of the engaging protrusion 99, the wire 51 is pulled upward, and the wire 50 is lowered downward. As a result of the differential lifting and lowering of the wires 51 and 50, relative displacement occurs in the link mechanisms 2 and 3, and the slat 9 attached to the link mechanisms 2 and 3 via the slat support mechanism 8 is reversed. Tilted to the figure It comes to completely close the opening as shown in 6. Thereafter, the operation of the electric motor 79 is stopped by a signal from the detector or the like, and the state in which the opening is completely closed is maintained.
[0016]
In the blind device 1, after the opening is completely closed, the operation of the electric motor 79 is not stopped immediately, and even if the chain 61 further travels in the B direction, the other end 83 is connected to one end 59 of the chain 61. The arm member 84 that is rotatably connected rotates about the pin 92 against the elastic force of the spring 87 and moves directly with respect to the movable body 81 at one end 82 thereof. The downward movement is not caused.
[0017]
By the way, in the blind device 1 described in the above publication, each of the link mechanisms 2 and 3 connects the link members 22 and 24 to each other via the shafts 21 and 23, so that the link mechanisms 2 and 3 are assembled. In addition, if the rotation of the link members 22 and 24 on the shafts 21 and 23 is not performed smoothly, the link members 22 and 24 can be folded and extended smoothly. The slats 9 need to be lifted and lowered with great force.
[0018]
The present invention has been made in view of the above-described points, and the object of the present invention is to assemble the link mechanism in a short time, and to smoothly fold and extend the link mechanism, so that the slat An object of the present invention is to provide a blind device that can be easily lifted and lowered.
[0019]
[Means for Solving the Problems]
The blind device according to the first aspect of the present invention includes a first link mechanism, a second link mechanism juxtaposed with the first link mechanism, one end at the first link mechanism, and the other at the second link mechanism. A plurality of slat support mechanisms connected to each of the link mechanisms, a slat supported by each of the slat support mechanisms, an ascending / descending mechanism for raising and lowering the slats, and an ascending / descending mechanism by the ascending / descending mechanism And a tilt mechanism that tilts the slat by causing a relative position change in the first and second link mechanisms when descending, and each slat support mechanism is an arm that supports the slat at a substantially central portion. The first link mechanism includes a flexible strip connected to one end of each arm member, and the second link mechanism includes the other end of each arm member. Concatenated to It is provided with a strip of sex.
[0020]
According to the blind device of the first aspect of the present invention, instead of a pair of link member rows that are rotatably connected to each other via a shaft, a flexible belt-like shape connected to one end portion of each arm member Since each link mechanism is configured with a body, the link mechanism can be assembled in a short time, and the link mechanism can be folded and extended smoothly, making it easy to lift and lower the slats. Can be done.
[0021]
In the blind device according to the second aspect of the present invention, in the blind device according to the first aspect, each band-like body includes a stitched or welded overlapping portion and a loop portion continuous with the overlapping portion in the longitudinal direction. The arm member includes an arm main body and a shaft portion that is provided at each end of the arm main body and that is inserted into the loop portion of the belt-like body.
[0022]
In the blind device according to the third aspect of the present invention, in the blind device according to the first or second aspect, a hole forming member for forming a hole is sewn or welded to each band-like body at substantially equal intervals in the longitudinal direction. The arm member includes an arm main body, and a shaft portion that is inserted into a hole formed by the hole forming member and provided at each end of the arm main body.
[0023]
According to the blind device of the second and third aspects, by inserting the shaft portion of the arm member into the loop portion or the hole, each slat support mechanism can be easily connected to the link mechanism, and the assembly man-hour can be greatly reduced. .
[0024]
Each belt-like body is preferably provided with a suture line portion or a weld line portion that defines the folding direction at substantially equal intervals in the longitudinal direction as in the blind device according to the fourth aspect of the present invention.
[0025]
When such a suture line part or weld line part is provided, it is possible to prevent the strips from being folded in an unintended direction, and to ensure that the slats are horizontally leveled and overlapped.
[0026]
Each strip is preferably made of a woven fabric or a knitted fabric made of synthetic resin as in the blind device according to the fifth aspect of the present invention. However, the present invention is not limited to this, and the non-work cloth, leather or It may consist of a synthetic resin tape or the like. As the synthetic resin yarn, polyester yarn is preferable, and the polyester yarn having a width of 6 mm to 12 mm and a thickness of 0.4 mm to 0.7 mm, more specifically, a width of 7 mm and a thickness of 0.6 mm is plain. A belt-like body can be further preferred.
[0027]
In the present invention, the ascending / descending mechanism is connected to the lowermost arm member as in the blind device of the sixth aspect, and the slat is raised by lifting the lowermost arm member. Instead, like the blind device of the seventh aspect, it is connected to the uppermost arm member via a tilt mechanism, and the uppermost arm member is lifted via the tilt mechanism to raise the slat. You may come to let me.
[0028]
Next, the present invention and its embodiments will be described in more detail based on preferred examples shown in the drawings. In addition, this invention is not limited to these at all.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
1 and 2, the blind device 110 of this example is the same as the blind device 1 described in Japanese Patent Laid-Open No. 8-326445, but uses flexible strips 111 and 112 instead of the link members 22 and 24. The link mechanisms 2 and 3 are configured, and the others are configured in the same manner as the blind device 1. That is, the link mechanism 2 of the blind device 110 includes a single flexible strip 111 connected to one end 4 of each arm member 31. One flexible strip 112 connected to the end 6 is provided.
[0030]
As shown in FIG. 5 (a), each of the strips 111 and 112 made of a synthetic resin yarn woven or knitted fabric is overlapped with a three-layer overlapping portion 117 stitched or welded at portions 115 and 116. A loop portion 118 continuous to the portion 117 at equal intervals in the longitudinal direction, and a suture line portion that defines a folding direction at a substantially middle interval between the loop portions 118 at substantially equal intervals in the longitudinal direction. The arm which has the welding wire | line part 119, and is equipped with the axial part 5 and 7 provided in each edge part (equivalent to the one end part 4 and the other end part 6) of the arm main body 121 and the arm main body 121. The shaft portions 5 and 7 of the member 31 are inserted into the loop portions 118 of the strips 111 and 112 and are connected to each other via the strips 111 and 112.
[0031]
Blind device 110 in which link mechanisms 2 and 3 are configured using flexible strips 111 and 112 in place of a pair of link members 22 and 24 that are rotatably connected to each other via shafts 21 and 23. Then, as shown in FIG. 3 and FIG. 4, the belt-like bodies 111 and 112 can be easily folded in the intended direction at the suture line portion or the weld line portion 119, so that the link mechanisms 2 and 3 can be folded and extended smoothly. The slats 9 can be easily lifted and lowered, the link mechanisms 2 and 3 can be assembled in a short time, and the shaft portions 5 and 7 of the arm member 31 are inserted into the loop portion 118. By doing so, each slat support mechanism 8 can be easily connected via the link mechanisms 2 and 3, and an assembly man-hour can be reduced significantly. In FIG. 3, the strips 111 and 112 are shown to be folded simultaneously in the entire space between the arm bodies 121, but in actuality, when the slat 9 is lifted, the lower arm bodies The belt-like bodies 111 and 112 are folded between the arm bodies 121 sequentially from the upper part 121, and finally, the belt-like bodies 111 and 112 are folded between all the arm bodies 121 as shown in FIG. Thus, when the slat 9 is lowered, the strips 111 and 112 are unfolded, that is, extended, between the upper arm bodies 121 and the lower arm bodies 121 sequentially. Further, since the belt-like bodies 111 and 112 are flexible, the belt-like bodies 111 and 112 folded between the arm main bodies 121 are sequentially lowered downward toward the suture line portion or the weld wire portion 119 side. It starts to hang down.
[0032]
As shown in FIG. 5 (b), the four-layer overlapping portion 124 may be stitched or welded at portions 122 and 123 to form the loop portion 118, and as shown in FIG. 5 (c). The loop portion 118 may be formed by stitching or welding the two overlapping portions 125 with the overlapping portion 125. Further, as shown in FIG. 5D, synthetic resin hole forming members 132 for forming the holes 131 are sewn or welded to the strips 111 and 112 at equal intervals in the longitudinal direction thereof. The shaft portions 5 and 7 may be inserted into the holes 131 to connect the arm members 31 to the link mechanisms 2 and 3.
[0033]
Further, while omitting the wires 50 and 51, the strips 111 and 112 are further extended upward beyond the uppermost arm member 31, and the upper ends of the strips 111 and 112 are the same as those of the wires 50 and 51. Thus, the rotating body 43 may be connected.
[0034]
By the way, in the blind device 110 described above, the lowermost arm member 31 is lifted by the ascending / descending mechanism 14 to raise the slat 9, but instead, as shown in FIG. 6 to FIG. The lowering mechanism may be connected to the uppermost arm member 31 via a tilt mechanism, and the uppermost arm member 31 may be lifted via the tilt mechanism to raise the slat 9.
[0035]
That is, in the blind device 201 shown in FIGS. 6 to 9, the ascending / descending mechanism 202 is wound around a pulley 204 rotatably supported by a bracket 203 attached to the upper end of the vertical frame 33, and the pulley 204. At the same time, a feeding belt 205 is wound around a shaft 206, a metal belt 207 wound around a shaft 206, a movable base 208 rotatably attached to the shaft 206, and a roller guide path 209, and is rotatably supported by the movable base 208. Rollers 210 and 211, and a rotation driving device 215 for rotating the pulley 204.
[0036]
The rotation drive device 215 includes a reduction gear electric motor 216 attached to the bracket 203, a gear 217 attached to the output rotation shaft of the reduction gear of the electric motor 216, and a gear fixed to the shaft 41 and meshed with the gear 217. 218 and a turning roller 219 rotatably attached to the bracket 203 to guide the turning of the belt 207, respectively.
[0037]
The pulley 204 is fixed to the shaft 41, and the roller guide path 209 is defined by a pair of guide walls 220 formed integrally with the vertical frame 33.
[0038]
In the blind device 201, the tilt mechanism 231 includes a tilt arm 232 that is integral with the arm body 121 of the uppermost arm member 31, and a cam mechanism 233 that sets the rotation state of the tilt arm 232. The shaft 206 to which the feeding end 205 of the belt 207 is wound and connected is fixed to the arm main body 121 so as to be concentric with the shaft portion 35 at a position opposite to the shaft portion 35, and thus the feeding end 205 of the belt 207. Is connected to the slat support mechanism 8 via the shaft 206, so that the ascending / descending mechanism 202 lifts the uppermost slat support mechanism 8.
[0039]
The cam mechanism 233 includes a roller 241 as a cam that is rotatably attached to an intermediate portion of the tilt arm 232 and a roller 241 that is provided on the vertical frame 33 and lifts the upper end of the slat support mechanism 8 by the ascending / descending mechanism 202. And a guide surface 242 for guiding the movement of the camera.
[0040]
The guide surface 242 is continuous with the straight guide surface 243 extending in the up-down direction and the straight guide surface 243, and intersects the direction in which the straight guide surface 243 extends, in this example, the intersecting guide surface 244 extending orthogonally. The linear guide surface 243 defines a guide path 34 extending in the vertical direction so as to allow the shaft portion 35 to pass therethrough and allow the shaft portion 35 to move up and down. Is continuous with the guide path 34 and defines an intersecting guide path 245 extending in the direction orthogonal to the direction in which the guide path 34 extends.
[0041]
In the blind device 201, the lower end of the belt-like body 112 of the link mechanism 3 is terminated by the shaft portion 7 of the lowest-order arm member 31, while the lower end of the belt-like body 111 of the link mechanism 2 is the lowest-order arm member. Further extending from the shaft portion 5 of 31 is connected to the elastic mechanism 251.
[0042]
The elastic mechanism 251 includes a bracket 252 fixed to the lower end of the vertical frame 33, a guide rod 253 attached to the bracket 252, a movable body 254 mounted on the guide rod 253 so as to be movable in the vertical direction, and a movable body 254. A coil spring 255 disposed so as to surround the guide rod 253 between the bracket 252 and the movable body 254 and a shaft pin 256 fixed to the movable body 254. The shaft pin 256 is inserted into the loop portion 118 at the lower end of the belt-like body 111, and thus the lower end of the belt-like body 111 is connected to the movable body 254 via the shaft pin 256.
[0043]
In the blind device 201 described above, when the opening is open, the strips 111 and 112 are folded, and each of the slats 9 is closely polymerized (bundled) downward. When closing the opening, first, the electric motor 216 is actuated to rotate the output rotation shaft, whereby the pulley 204 is rotated through the gears 217 and 218 and the shaft 41, whereby the belt 207 is wound around the pulley 204. The tilt arm 232 is raised by being guided by the roller guide path 209 via the movable base 208 and the rollers 210 and 211, and as the tilt arm 232 is raised, as shown in FIG. As a result of extending from the upper end side and thus lifting the arm member 31 upward from the upper side, the slats 9 fixed to the arm member 31 are sequentially lifted in the closing direction. As shown in FIG. 6, when the cam roller 241 is guided in contact with the linear guide surface 243, the slat 9 is held in a substantially horizontal tilted state.
[0044]
Furthermore, when the belt-like bodies 111 and 112 are extended by the belt 207 being caught in the pulley 204 and the belt-like body 111 is fully extended immediately before the opening is completely closed, the belt-like body 111 is elastically moved downward by the coil spring 255. As a result, the tilt arm 232 generates a counterclockwise rotational moment in FIG. In such a state, when the cam roller 241 faces the cross guide surface 244 and shifts from the abutment guide to the straight guide surface 243 to the abutment guide to the cross guide surface 244 and is disposed on the cross guide path 245, the tilt arm 232 starts to rotate, and the belt-like body 112 is further lifted with respect to the belt-like body 111, whereby the slats 9 are rotated in the counterclockwise direction in FIG. Is done. Further, as the belt 207 is caught in the pulley 204, the tilt arm 232 is rotated based on the abutment guide to the cross guide surface 244, and as shown in FIG. The slat 9 is held in a substantially vertical tilted state and is fully closed. Thereafter, the operation of the electric motor 216 is stopped and the closing operation is completed. Even if the operation stop of the electric motor 216 is slightly delayed and the lower end of the elongated band 111 is pulled upward, the movable body 254 elastically biased downward by the coil spring 255 moves upward. Therefore, even if there is a delay in the operation stop of the electric motor 216, the lower end of the belt-like body 111 is not damaged.
[0045]
In opening the opening, the electric motor 216 is operated in reverse to the above, so that the cam roller 241 shifts from the abutment guide to the cross guide surface 244 to the abutment guide to the linear guide surface 243, 112 is sequentially folded from below.
[0046]
Even in the blind device 201, as a result of being able to easily fold the strips 111 and 112 in the intended direction at the suture line part or the weld line part 119, the link mechanisms 2 and 3 can be smoothly folded and extended, The slats 9 can be easily lifted and lowered, and the link mechanisms 2 and 3 can be assembled in a short time, and the shaft portions 5 and 7 of the arm member 31 can be easily inserted into the loop portion 118 to easily The slat support mechanism 8 can be connected via the link mechanisms 2 and 3, and the number of assembling steps can be greatly reduced.
[0047]
In the above raising / lowering mechanism, the electric motor is provided and the slat 9 is automatically lifted. Alternatively, the raising / lowering mechanism 202 may be configured to manually lift the slat 9. Good.
[0048]
【The invention's effect】
According to the present invention, it is possible to provide a blind device in which the link mechanism can be assembled in a short time, the link mechanism can be folded and extended smoothly, and the slat can be easily lifted and lowered. .
[Brief description of the drawings]
FIG. 1 is a perspective view of a preferred example of the present invention.
FIG. 2 is a perspective view of a part of the example shown in FIG.
FIG. 3 is an operation explanatory diagram of the example shown in FIG. 1;
4 is an operation explanatory diagram of the example shown in FIG. 1. FIG.
FIG. 5 is an explanatory diagram of the example shown in FIG. 1;
FIG. 6 is a cross-sectional view of another preferred example of the present invention.
7 is a partial cross-sectional view of the example shown in FIG.
8 is a partial cross-sectional view of the example shown in FIG.
9 is an operation explanatory diagram of the example shown in FIG. 6;
10 is an operation explanatory diagram of the example shown in FIG. 6;
FIG. 11 is a perspective view of a conventional example.
12 is an explanatory side view of the example shown in FIG. 11. FIG.
13 is an explanatory front view of the example shown in FIG.
14 is a partial plan view of the example shown in FIG.
15 is a partial explanatory diagram of the example shown in FIG.
16 is an operation explanatory diagram of the example shown in FIG.
17 is an operation explanatory diagram of the example shown in FIG.
18 is an operation explanatory diagram of the example shown in FIG.
19 is an operation explanatory diagram of the example shown in FIG.
[Explanation of symbols]
2, 3 Link mechanism
8 Slat support mechanism
9 Slats
12 Tilt mechanism
14 Ascent / descent mechanism
31 Arm member
110 Blind device
111, 112 strip

Claims (6)

  A first link mechanism, a second link mechanism juxtaposed to the first link mechanism, and a plurality of slats each having one end connected to the first link mechanism and the other end connected to the second link mechanism A support mechanism, a slat supported by each of the slat support mechanisms, an ascending / descending mechanism for raising and lowering the slats, and a first and a second link mechanism for raising and lowering the slats by the ascending / descending mechanism A tilt mechanism that tilts the slat by causing a relative change in position, and each slat support mechanism includes an arm member that supports the slat at a substantially central portion, and the first link mechanism Comprises a flexible strip connected to one end of each arm member, and the second link mechanism comprises a flexible strip connected to the other end of each arm member. And each band is Blind apparatus which is provided at substantially equal intervals suture portion or welding line portion defining a folding direction in the longitudinal direction.   Each strip has an overlapped portion that is stitched or welded and a loop portion that is continuous with the overlapped portion at substantially equal intervals in the longitudinal direction. The arm member includes an arm main body and an arm main body. The blind device according to claim 1, further comprising: a shaft portion provided at each end portion and inserted into a loop portion of the belt-like body.   A hole forming member that forms a hole is sewn or welded to each belt-like body at substantially equal intervals in the longitudinal direction, and the arm member is inserted into the hole formed by the arm main body and the hole forming member. The blind device according to claim 1, further comprising a shaft portion provided at each end portion of the arm main body.   The blind device according to any one of claims 1 to 3, wherein each belt is made of a woven or knitted synthetic resin yarn.   The blind device according to any one of claims 1 to 4, wherein the ascending / descending mechanism is connected to a lowermost arm member and raises the lowermost arm member to raise the slat.   The ascending / descending mechanism is connected to the uppermost arm member via a tilt mechanism, and lifts the uppermost arm member via the tilt mechanism to raise the slat. The blind apparatus as described in any one of Claims.

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