JP5768481B2 - Blind device - Google Patents

Description

  The present invention relates to a blind device that is arranged on a window of a building and blinds the room and shields it from light.

  For example, in Patent Document 1, a plurality of slats juxtaposed in the vertical direction, a link mechanism that interconnects end portions in the lateral direction of the plurality of slats, and a lowermost slat among the plurality of slats. There has been proposed a blind device including an elevating mechanism and a tilt mechanism for tilting a plurality of slats based on the elevating and lowering of the slats by the elevating mechanism.

JP 2007-239309 A

  By the way, in such a blind device, since only the end portions in the lateral direction of the plurality of slats are connected to each other by the link mechanism, there is a possibility that the slats may be bent, and the slats may be bent by the wind. When the descent stops, the slat flutters at its center due to its own weight, shortens the life of the slat, and can easily widen the distance between the centers of adjacent slats by external force, etc. There is a risk.

  The present invention has been made in view of the above points, and the object of the present invention is to prevent a plurality of slats from bending, and to prevent fluttering at the center of the slats. It is an object of the present invention to provide a blind device capable of maintaining a distance between the central portions of adjacent slats.

The blind device of the present invention includes a plurality of slats juxtaposed in the vertical direction, an end link mechanism that interconnects the lateral ends of the slats in the vertical direction, and a plurality of slats. It is connected to the upper end of the end link mechanism and the elevating mechanism that raises and lowers the plurality of slats by raising and lowering the lowest slat and lowering the plurality of slats by the elevating mechanism Based on the tilt mechanism for tilting the plurality of slats, the rigid shaft members respectively extending in the lateral directions of the plurality of slats, and the plurality of slats at the intermediate positions in the lateral direction of the plurality of slats. And a rigid link mechanism for mutually connecting the rigid shaft members disposed in the vertical direction.

  According to the blind device of the present invention, in particular, the rigid shaft members respectively extending in the lateral direction on the plurality of slats and the intermediate positions of the plurality of slats in the lateral direction are respectively arranged on the plurality of slats. In addition to preventing the bending of a plurality of slats and the fluttering at the center of the slats, the rigid shaft mechanism that connects the rigid shaft members installed in the vertical direction can be prevented. , The distance between the central portions of adjacent slats can be maintained.

  In the above-described blind device of the present invention, the rigid shaft member may be disposed on the front end edge or the rear end edge of each of the plurality of slats.

  In the above-described blind device of the present invention, the rigid link mechanism includes a plurality of pairs of rigid link members that are rotatably connected to each other at one end via the shaft member and are foldable with each other via the shaft member. In order to determine the folding direction of each of the plurality of pairs of rigid links that are rotatably connected to each other, folding portions formed on one of the plurality of pairs of rigid links are provided. The other end of each of the rigid link members may be rotatably connected to the rigid shaft member.

  According to the present invention, there is provided a blind device that can prevent deflection of a plurality of slats, can prevent fluttering at the central part of the slats, and can maintain the distance between the central parts of adjacent slats. obtain.

FIG. 1 is an explanatory front view of an example of an embodiment of the present invention. FIG. 2 is a partial perspective explanatory view of the example shown in FIG. FIG. 3 is an explanatory cross-sectional view of the example shown in FIG. FIG. 4 is another cross-sectional explanatory diagram of the example shown in FIG. FIG. 5 is a partial explanatory diagram of the example shown in FIG. FIG. 6 is a partial explanatory diagram of the example shown in FIG. FIG. 7 is a cross-sectional operation explanatory diagram of the example shown in FIG. FIG. 8 is a cross-sectional operation explanatory diagram of the example shown in FIG. FIG. 9 is a cross-sectional operation explanatory diagram of the example shown in FIG. FIG. 10 is a cross-sectional operation explanatory diagram of the example shown in FIG. FIG. 11 is an explanatory diagram mainly showing a rigid link mechanism in the example shown in FIG. FIG. 12 is an explanatory diagram mainly showing a tilt mechanism in the example shown in FIG. FIG. 13 is an explanatory diagram mainly showing a tilt mechanism in the example shown in FIG. FIG. 14 is an explanatory diagram mainly showing a tilt mechanism in the example shown in FIG. FIG. 15 is an explanatory diagram of another example of the embodiment of the present invention. FIG. 16 is an explanatory diagram of the example shown in FIG.

  Next, the present invention will be described in more detail based on an example of a preferred embodiment shown in the drawings. The present invention is not limited to these examples.

1 to 14, the blind device 1 of the present example includes a frame 2 arranged in an opening of a building such as a window and a plurality of juxtaposed in the vertical direction Z with an opening 3 surrounded by the frame 2. The slats 4, the end link mechanism 6 that interconnects the end portions 5 in the lateral direction Y of the plurality of slats 4 in the vertical direction Z, and the lowest slat 4 of the plurality of slats 4. At the same time, the lowermost slat 4 is moved down to raise and lower the plurality of slats 4, and is connected to the upper ends of the end link mechanisms 6, and based on the raising and lowering of the plurality of slats 4 by the lifting mechanism 7. position of the intermediate tilt mechanism 8 for tilting the plurality of slats 4, the rigid shaft member 9 which are respectively arranged extending in the lateral direction Y of the plurality of slats 4, in the lateral direction Y of each of the plurality of slats 4 Te In And it comprises a pair of rigid link mechanism 10 interconnecting the plurality of respective disposed slats 4 stiffness shaft member 9 in the vertical direction Z.

  The frame 2 includes a vertical frame 11 and a vertical frame 12 that are juxtaposed with each other, and a cosmetic upper frame (not shown) that is arranged by bridging the upper portions of the vertical frame 11 and the vertical frame 12. .

  The vertical frame 11 formed in the same manner as the vertical frame 12 bridges the outer side wall part 15, the inner side wall part 16 arranged facing the outer side wall part 15, and the outer side wall part 15 and the inner side wall part 16. In addition, the front wall portion 17 and the rear wall portion 18 that face each other are integrally formed. A pair of holding grooves 21 and 22 extending in the vertical direction Z are formed in the outer side wall portion 15. A slit 25 extending in the vertical direction Z is formed in the inner side wall portion 16.

  Each of the slats 4 includes a slat body 31 extending in the lateral direction Y, and a fixture 33 for attaching the end 5 in the longitudinal direction (lateral direction Y) of the slat body 31 to the end link mechanism 6. Each fixture 33 is fixed at one end to the end portion 5 of the corresponding slat main body 31 via a stopper, and the other end protrudes into the vertical frame 11 through the slit 25.

  For example, as shown in FIG. 4, the end link mechanism 6 includes a plurality of front edge link members 51 that are rotatably connected to each other via a shaft member 50 and are foldable. A plurality of trailing edge link members 53 that are rotatably connected and foldable, the uppermost front edge link member 51 and the upper end portion of the rear edge link member 53, and the lowermost front edge link member 51 and the rear edge The uppermost and lowermost lateral members 55 are rotatably connected to the lower ends of the link members 53 via shaft members 54, and every other shaft on the front edge link member 51 side and the rear edge link member 53 side. A plurality of lateral members 55 that are rotatably connected to the members 50 and 52, respectively, and a plurality of front edge link members 51 and a rear edge link member 53 that are rotatably connected to each other via the shaft members 50 and 52, respectively. How to fold To determine the, and a bent portion 56 which is integrally formed on each of every other front edge link members 51 and the rear edge link members 53 s.

  The other ends of the corresponding fittings 33 protruding into the vertical frame 11 through the slits 25 are fixed to the substantially central portions of the horizontal members 55, and the upper ends of the uppermost front edge link members 51 are fixed. The other end of the string-like body 41 of the tilt mechanism 8 is rotatably connected to the shaft member 54, and the string of the tilt mechanism 8 is connected to the shaft member 54 at the upper end of the uppermost rear edge link member 53. The other end of the shaped body 44 is rotatably connected.

  The front edge link members 51 that are rotatably connected to each other by the shaft members 50 that are not connected to the horizontal members 55 are located on the rear wall when the lowermost front edge link member 51 rises. In the same manner, it is folded by being restricted by the bent portion 56 so as to be directed to the portion 18, and similarly, the lateral members 55 are rotatably connected to each other by the shaft members 52 that are not connected, and the trailing edges adjacent to each other The link member 53 is folded by being restricted by the bent portion 56 so that the shaft member 52 faces the front wall portion 17 when the lowermost rear edge link member 53 is raised, and the folded front edge link The members 51 and the trailing edge link member 53 are alternately positioned in the vertical direction Z.

  The elevating mechanism 7 has one end 61 and the other end 62, and a chain 63 having a length as a flexible long body that is held in an inflexible state, and travel that causes the chain 63 to travel in the A and B directions. A mechanism 64 is provided, and one end of the chain 63 is connected to the lowest slat 4 via a slider 65.

  The travel mechanism 64 is fixed to an end portion of the rotary shaft 77 on the side of the vertical frame 11 and a chain 63. A wound sprocket wheel 78 and an electric motor 72 connected to the rotating shaft 77 via a speed reduction mechanism are provided. Around the sprocket wheel 78, a chain presser for suppressing the bending of the portion of the chain 63 wound around the sprocket wheel 78 is disposed. The travel mechanism 64 rotates the output shaft by the operation of the electric motor 72 to rotate the rotation shaft 77 and the sprocket wheel 78 via the speed reduction mechanism, and the rotation causes the chain 63 to travel in the A direction and the B direction. It has become.

  The chain 63 is partially disposed in the holding groove 21 so as to be movable in the A direction and the B direction on the one end 61 side, and is partially movable in the A direction and the B direction on the holding groove 22 on the other end 62 side. The holding grooves 21 and 22 prevent the chain 63 from being bent and are held in an inflexible state.

  The elevating mechanism 7 raises and lowers the lowest slat 4 of the plurality of slats 4 by traveling the chain 63 in the A direction or B direction by the traveling mechanism 64, and thus causes the plurality of slats 4 to move to the lowest slat 4. It is designed to move up and down in advance.

  The tilt mechanism 8 is provided on the rotary shaft 77 so as to be swingable (rotatable) with respect to the rotary shaft 77, and the swingable member 37 having the recess 152 and the protrusion 153, and the chain 63. When the chain 63 is set in the swing prohibition state shown in FIGS. 6 and 12, the projection 154 that fits into the recess 152 in the travel of the chain 63 in the A direction and the recess 155 are set. While the recess 155 engages with the protrusion 153 to prevent the swingable member 37 from swinging (rotating) about the rotation shaft 77, the protrusion 154 moves to the recess 152 as shown in FIGS. 5 and 13. A latch member 156 that is rotated by the projection 154 to release the engagement of the recess 155 with the projection 153 and allows the swingable member 37 to swing, and the latch The member 156 is not allowed to swing. An elastic means 157 for elastically urging the latch member 156 so as to set the state, a suspension plate 38 fixed to the swingable member 37 at the upper part of the vertical frame 11, and a suspension plate 38 at one end. A flexible string such as a wire, a rope, or a band that is rotatably connected to the tip of one arm 39 and is rotatably connected to one end of the uppermost end link mechanism 6 at the other end. At one end, it is rotatably connected to the tip of the other arm portion 42 of the suspension plate 38, and at the other end, it is rotatably connected to the other end of the uppermost end link mechanism 6. And a flexible string-like body 44 such as a wire, a rope, and a band.

  The swingable member 37 is arranged concentrically with the sprocket wheel 78, and the latch member 156 having the claw portion 161 at one end is centered on the support plate 164 via the shaft member 163 at the other end 162. The support plate 164 is attached to the upper end of the vertical frame 11, and the elastic means 157 is locked to the support plate 164 at one end and locked to the latch member 156 at the other end. The latch member 156 includes a torsion coil spring disposed around the shaft member 163, and the latch member 156 is rotated about the shaft member 163 so that the claw portion 161 faces the recess 152. It is elastically biased.

  The tilt mechanism 8 rotates the latch member 156 against the elastic force of the elastic means 157 by fitting the protrusion 154 into the recess 152 as shown in FIG. The engagement with the point 155 is released, and by this release, the swingable member 37 is swung as shown in FIG. 14 along with the movement of the projection 154, and a series of the members is pulled through the string-like body 44 pulled upward by this swinging. The rear edge link members 53 are raised relative to the series of front edge link members 51, while the series of leading edge link members 51 are connected to the series of rear edge link members 53 via the string-like bodies 41 lowered downward. In order to close the opening 3 with each slat 4, the slats 4 are synchronously illustrated through the transverse members 55 connected to the front edge link member 51 and the rear edge link member 53. 7 and shown in FIG. It is adapted to be tilted to a vertical position so, then closed by the slats 4 of the opening 3 at the stop of the operation of the electric motor 72 is adapted to be maintained.

  A rotating shaft 77 extending from the vertical frame 11 to the vertical frame 12 is fixed with a sprocket wheel on the vertical frame 12 side that is configured in the same manner as the sprocket wheel 78, and the blind device 1 has a vertical axis except for the electric motor 72. The frame 12 side is configured similarly to the vertical frame 11 side.

  The rigid shaft member 9 extends in the lateral direction Y at the front end edge 67 or the rear end edge 68 of the plurality of slats 4, in this example, the rear end edge 68. The rigid shaft member 9 may be columnar, cylindrical, or made of stainless steel. An insertion hole 69 extending in the lateral direction Y through which the rigid shaft member 9 is inserted is formed in the rear end edge 68 of the slat body 31. The rear end edge 68 of the insertion hole 69 is wound in an arc shape. It is formed.

  Each of the pair of rigid link mechanisms 10 separated in the lateral direction Y is rotatably connected to each other at one end via a shaft member 80 as shown in FIGS. A pair of rigid link members 81 and 82, and a shaft that is juxtaposed in the lateral direction Y with the plurality of pair of rigid link members 81 and 82 and that is exposed at the notch 83 of the rear end edge 68 of the slat body 31. A pair of rigid link members 84 and 85 that are rotatably connected to each other at one end via a member 80 and are foldable, and a bridging member 88 that bridges the plurality of rigid link members 81 and 84. Each of the plurality of pairs of rigid link members 81 and 82 and the plurality of pairs of rigid link members 84 and 85 that are rotatably coupled to each other via the shaft member 80 is folded. A bending portion 86 formed integrally with the rigid link members 81 and 84 to determine the direction, the other ends of the rigid link members 81 and 82 and the other ends of the rigid link members 84 and 85 are The rigid shaft member 9 is rotatably connected.

  The blind device 1 may further include a suspension plate 91 that suspends the rigid link mechanism 10 via the string-like body 90. The string-like body 90 has flexibility, and may be made of a wire, a rope, a band, or the like. The suspension plate 91 is connected to the suspension plate 38 via a bracket 92 extending in the lateral direction Y, and is rotatably supported on the rotary shaft 77 via a bearing. One end of the string-like body 90 is connected to the suspension plate 91, and the other end of the string-like body 90 is one of the uppermost rigid link members 81 and 84 and the uppermost bridging member 84 of the rigid link mechanism 10. It is connected to at least one of them. The suspension plate 91 is tilted corresponding to the tilt of the suspension plate 38 to raise and lower the rigid link mechanism 10.

  The rigid link members 81 and 82 and the rigid link members 84 and 85 are folded by being restricted by the bending portion 86 so that the shaft member 80 is directed rearward when the lowermost rigid link member 82 is raised. .

  In the blind device 1, when the plurality of slats 4 are vertically tilted so as to close the opening 3 as shown in FIGS. 14, the engagement between the protrusion 153 and the recess 155 is released in the recess 152, and the latch member 156 contacts the outer peripheral edge 165 of the swingable member 37. The swingable state is maintained with respect to the swingable member 37. In such a state, when the electric motor 72 is operated and the sprocket wheel 78 is rotated via the rotating shaft 77, and the chain 63 travels in the B direction by this rotation, the protrusion 154 also moves along with the travel of the chain 63 in the B direction. The swingable member 37 moves around the rotation shaft 77, and the swingable member 37 rotates in the same direction due to the movement of the protrusion 154. While the uppermost front edge link member 51 and the lower series of front edge link members 51 connected below the uppermost front edge link member 51 are raised relative to the rear edge link member 53, The uppermost rear edge link member 53 and the lower series of rear edge link members 53 connected to the lower side of the uppermost rear edge link member 53 via the string-like body 44 are connected to the front edge link member 51. Lowering the outcome to, a plurality of slats 4 are being synchronously tilted from Figure 1 in a substantially horizontal state as shown in FIG. The suspension plate 91 is also rotated in the same direction by the rotation of the suspension plate 38 by the operation of the tilt mechanism 8, so that the rigid link mechanism 10 can be raised and lowered in accordance with the operation of the tilt mechanism 8. The plurality of slats 4 can be smoothly tilted.

  When the chain 63 further travels in the direction B, the protrusion 154 begins to come out of the recess 152 and the protrusion 154 comes out of the recess 152, so that the latch member 156 is centered on the shaft member 163 by the elastic force of the elastic means 157. As shown in FIG. 12, the protrusion 153 and the recess 155 are engaged with each other, and the rotation of the swingable member 37 is prevented by this engagement. The front edge link member 51 and the rear edge link member 53 below the end link mechanism 6 connected to the one end 61 of the chain 63 as the one end 61 of the chain 63 rises as the travel of the chain 63 in the B direction continues. 9, the plurality of slats 4 connected to the end link mechanism 6 are sequentially overlapped from below as shown in FIG. 9, and the plurality of slats 4 are all raised and overlapped with each other. The operation of the electric motor 72 is stopped and the open state of the opening 3 is maintained as shown in FIG. When the plurality of slats 4 are sequentially stacked from below, the pair of rigid link members 81 and 82 and the pair of rigid link members 84 and 85 are also sequentially folded from below.

  When the electric motor 72 is operated in the open state in the opening 3 in the opposite direction, the chain 63 travels in the direction A. By this travel, the folding is sequentially released from the upper leading edge link member 51 and the rear edge link member 53. Thus, the overlapping of the plurality of slats 4 is sequentially released from the upper slats 4. When the folding is sequentially released from the upper leading edge link member 51 and the rear edge link member 53 and starts to be extended, the plurality of pairs of rigid link members 81 and 82 and the plurality of pairs of rigid link members 84 and 85 also Sequential folding is released and it begins to expand. When all of the end link mechanism 6 and the rigid link mechanism 10 are extended and all the overlapping of the plurality of slats 4 are also released, the projection 154 passes through the guide wedge space 166 and is recessed as shown in FIG. The protrusion 154 causes the latch member 156 to rotate against the elastic force of the elastic means 157 to release the engagement of the protrusion 153 with the recess 155, and this release causes the protrusion 154 to move. The swingable member 37 is rotated, and the trailing edge link member 53 is raised relative to the leading edge link member 51 via the string-like body 44 pulled upward by this rotation, and the string is lowered downward. The leading edge link member 51 is lowered relative to the trailing edge link member 53 via the body 41 and the plurality of slats 4 are rotated synchronously, and the opening 3 is suspended as shown in FIGS. It is in the closed state by a series of a plurality of slats 4 are tilted in the direction. Thereafter, the operation of the electric motor 72 is stopped and the closed state of the opening 3 is maintained.

According to the blind device 1 of this example, a plurality of slats 4 juxtaposed with each other in the vertical direction Z and end links that connect the end portions 5 in the lateral direction Y of the plurality of slats 4 with each other in the vertical direction Z. A mechanism 6; a lifting mechanism 7 for raising and lowering the plurality of slats 4 by raising and lowering the lowest slat 4 of the plurality of slats 4; and an upper end of the end link mechanism 6 together we are connected to a tilt mechanism 8 for tilting the plurality of slats 4 on the basis of the raising and lowering of the slats 4 by the lifting mechanism 7, and are respectively arranged extending in a plurality of slats 4 in the transverse direction Y stiffness The shaft member 9 and the rigid shaft members 9 respectively disposed on the plurality of slats 4 are connected to each other in the vertical direction Z at intermediate positions in the lateral direction Y of the plurality of slats 4. Since the plurality of slats 10 can be prevented, the slats 4 can be prevented from being bent, and the slats 4 can be prevented from fluttering at the central part. According to the blind device 1 that can be maintained and further includes the suspension plate 91, vibration due to inertia of the slat 4 can be prevented at the end of the descent of the slat 4.

  By the way, in each of the rigid link mechanisms 10 described above, when the rigid link members 81 and 82 are folded, the rigid link members 81 and 82 and the rigid link members 84 and 85 are folded outside the overlapped upper and lower slats 4. However, instead of this, as shown in FIGS. 15 and 16, in the folding of the rigid link members 81 and 82 and the rigid link members 84 and 85, the rigid link member 81 and the upper and lower slats 4 are overlapped. Each of the slats 4, the rigid link members 81 and 82, and the rigid link members 84 and 85 may be formed such that the 82 and the rigid link members 84 and 85 are folded. Rigid link members 81 and 82 and rigid phosphorus so that the shaft member 80 is positioned close to the four sides Each slat 4 is formed such that the members 84 and 85 are bent, and the folded rigid link members 81 and 82 and the space capable of accommodating the rigid link members 84 and 85 are formed between the superimposed slats 4. It may be formed in a curved shape.

DESCRIPTION OF SYMBOLS 1 Blind device 4 Slat 6 End part link mechanism 7 Elevating mechanism 8 Tilt mechanism 9 Rigid shaft member 10 Rigid link mechanism

Claims (2)

A plurality of slats juxtaposed in the vertical direction, an end link mechanism that interconnects the lateral ends of the slats in the vertical direction, and the lowest slat of the plurality of slats together is lowered the lowest slat, and elevating mechanism for raising and lowering the slats, with is connected to the upper end of the end link mechanism, the plurality of slats on the basis of the raising and lowering of the slats by the lifting mechanism A tilt mechanism for tilting, a rigid shaft member that extends laterally on each of the plurality of slats, and a rigid shaft that is disposed on each of the plurality of slats at an intermediate position in the lateral direction of each of the plurality of slats member is provided with a rigid link mechanism interconnecting the upper and lower directions, stiffness linkage, rotated at one end to each other through a shaft member itself A plurality of rigid link members coupled to each other and foldable, and a plurality of rigid link members coupled to each other via a shaft member to determine a folding direction of the plurality of rigid link members A blind device in which the other end of each of the plurality of pairs of rigid link members is rotatably coupled to the rigid shaft member. .   The blind device according to claim 1, wherein the rigid shaft member is disposed on each of a front end edge or a rear end edge of the plurality of slats.

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