JP3951891B2 - Slat support member for blind device, slat support mechanism including the slat support member, and blind device including the slat support mechanism - 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]
[Prior art]
The present applicant has previously proposed a blind device as described in JP-A-8-326445.
[0003]
Such a blind device includes a pair of link mechanisms, a plurality of slat support members each having one end connected to one link mechanism and the other end connected to the other link mechanism, and the slat support members The slats supported by each, the ascending / descending mechanism for raising and lowering the slats, and the slats rising and falling by this ascending / descending mechanism cause a relative positional change in the pair of link mechanisms to tilt the slats Each slat support mechanism includes an arm member that supports an end portion of the slat at a substantially central portion.
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 8-326445
[Problems to be solved by the invention]
By the way, in the slat support member of the blind device as described in the above publication, the shaft member to which the link member is connected is cantilevered. Therefore, when supporting a large number of slats, As a result, the shaft member bends and smooth rotation of the link member at the shaft member is hindered, and the link member may not be smoothly folded and unfolded.
[0006]
Further, in the blind device as long as described in the above publication, since each of the link mechanisms is formed by connecting each of the plate-like rigid link members via the shaft member, a considerable time is required for assembling the link mechanism. In addition, the weight of the link member requires a large force for lifting and lowering the slats.
[0007]
Therefore, instead of a rigid link member, it is flexible, and a link mechanism is to be configured using a woven or knitted strip of synthetic resin yarn such as polyester or a strip of non-woven fabric made of synthetic resin. In addition, a slat support member for supporting the slat on such a belt-like body is also required to be suitable for it.
[0008]
The present invention has been made in view of the above points, and the object of the present invention is to be able to both support the shaft member and prevent the shaft member from bending, and to ensure smooth rotation of the shaft member, In addition, the slat support member suitable for supporting the slat with a flexible belt-like member instead of the rigid link member, and the slat support member having such a slat support member, can be assembled in a short time, and can be reduced in weight. It is an object of the present invention to provide a slat support mechanism that can easily lift and lower slats and a blind device equipped with the slat support mechanism.
[0009]
[Means for Solving the Problems]
Intervening between a pair of link mechanisms having a plurality of shaft members connected to each other at a constant interval and the ends of a plurality of slats arranged in parallel to each other and having a fitting portion at the end The slat support member for the blind device according to the first aspect of the present invention for supporting the slats by the pair of link mechanisms includes a first support and a second support coupled to the first support. Here, the first support has a shaft hole in which one end of the shaft member of the link mechanism is rotatably inserted in each of the one end and the other end. One arm portion, a shaft portion formed integrally with one surface of the first arm portion, and formed integrally with the shaft portion and fitted into the fitting portion of the slat And the second support member is a shaft member of the link mechanism. The first support body and the second support body have a second arm part having a shaft hole into which the end part is rotatably inserted at one end part and the other end part. The shaft holes corresponding to the one end and the other end of the first and second arm portions are coupled to each other via fitting means so that they are coaxial with each other.
[0010]
According to the slat support member of the first aspect, the first arm portion has a shaft hole in which one end portion of the shaft member of the link mechanism is rotatably inserted in the one end portion and the other end portion, and the link mechanism The second arm portion has a shaft hole into which the other end portion of the shaft member is rotatably inserted, and one end portion and the other of the first and second arm portions. Since the first and second arm portions are coupled to each other via the fitting means so that the corresponding shaft holes at the ends are coaxial with each other, the shaft member of the link mechanism is held at both ends. As a result, the shaft member can be supported in a freely rotatable manner, and as a result of ensuring the smooth rotation of the shaft member, even if a flexible strip member is used instead of the rigid link member, the strip member can be easily extended and bent. The slats can be raised and lowered smoothly, thus making the slats appropriate It can be supported.
[0011]
Like the slat support member of the second aspect of the present invention, the fitting means is integrally formed on the other surface facing the one surface of the first arm portion and has a fitting opening. Even if it has a cylindrical portion and an engaging protrusion that is integrally formed on one surface of the second arm portion and engages with the cylindrical portion in the fitting opening, As in the slat support member of the aspect, the cylindrical portion formed integrally with one surface of the second arm portion and having a fitting opening, and the other facing the one surface of the first arm portion And an engaging protrusion that engages with the cylindrical portion at the fitting opening.
[0012]
In the slat support member according to the second or third aspect, the protrusion main body inserted into the cylindrical portion, like the slat support member according to the fourth aspect of the present invention, and the protrusion main body And a claw portion that is formed integrally with the tip of the tube and is adapted to engage with the cylinder portion at the fitting opening. The engagement of the claw portion with the cylinder portion at the fitting opening is as follows. When the snap-fit method is used with the elastic deformation of the projection main body, the first support and the second support can be easily coupled to each other via the fitting means. And can be assembled in a short time.
[0013]
Each of the first support and the second support is preferably an integrally molded product made of synthetic resin, like the slat support member of the fifth aspect of the present invention, and is such an integrally molded product. Further weight reduction and price reduction can be achieved.
[0014]
A slat support mechanism according to a first aspect of the present invention includes the slat support member according to any one of the aspects described above and a pair of link mechanisms each having a plurality of shaft members connected to each other at a constant interval. Here, each of the pair of link mechanisms includes a flexible belt-like body, and a plurality of shaft members of each link mechanism are fixed to the belt-like body at regular intervals and the belt-like body. So they are connected to each other.
[0015]
In the slat support mechanism according to the first aspect of the present invention, instead of a pair of rigid link member rows connected to each other via a shaft, a flexible belt-like body and the belt-like body are fixed. And a shaft member that is rotatably connected to the end of each arm member, so that it can be assembled in a short time, and can be reduced in weight, so that a large force can be applied to lifting and lowering the slats. The slats can be easily lifted and lowered without need.
[0016]
Preferably, as in the slat support mechanism according to the second aspect of the present invention, each belt-like body is formed of a single continuous belt-like member that penetrates the shaft member.
[0017]
Each of the shaft members is preferably a synthetic resin-made integrally molded product including a cylindrical portion and a shaft portion disposed on each end face of the cylindrical portion, like the slat support mechanism of the third aspect of the present invention. Thus, the shaft portion is rotatably inserted into the corresponding shaft hole of each arm portion, and the belt-like body is integrally fixed to the column portion and penetrates the column portion.
[0018]
When each shaft member is made of an integrally molded product made of synthetic resin as in the slat support mechanism of the third aspect, each shaft member is fixed to the belt-like body between a pair of molds for integral molding of the shaft member. It is good to carry out simultaneously with integral molding of each shaft member by inserting the material for forming the shaft member into a pair of molds sandwiching the belt-like body.
[0019]
Each shaft member in the slat support mechanism according to the third aspect further includes a pair of rectangular protrusions disposed at symmetrical positions with respect to the axis of the cylindrical portion, as in the slat support mechanism according to the fourth aspect of the present invention. In this case, the belt-like body is integrally fixed to the cylindrical portion and the pair of rectangular projections, and the cylindrical portion and the pair of rectangular projections. It is good to penetrate the part.
[0020]
Even in the case of a shaft member having a pair of rectangular protrusions, the band-shaped body is sandwiched between a pair of molds for integral molding of the shaft member as described above, and the pair of mold frames in a state in which the band-shaped body is sandwiched The shaft member forming material may be poured into the shaft member, and the shaft members may be fixed to the belt-like body simultaneously with the integral molding of the shaft members.
[0021]
Instead of the above, each strip may have a plurality of strips that terminate in shaft members adjacent in the vertical direction, and each strip is strong and flexible. It is sufficient that it does not have so much elasticity, but rather has non-stretchability, and may have some elasticity, but rather has no elasticity. Although preferred, the slat support mechanism according to the fifth aspect of the present invention is preferably composed of a synthetic resin yarn woven or knitted band such as polyester or a synthetic resin non-woven band.
[0022]
In the present invention, each belt may be made of a flat belt made of leather or the like instead of the above, and the synthetic resin yarn is preferably a polyester yarn, and a width of 6 mm to 12 mm obtained by plain weaving such a polyester yarn, A flexible belt-like body having a thickness of 0.4 mm to 0.7 mm, more specifically a width of 7 mm and a thickness of 0.6 mm can be further preferred.
[0023]
A blind device according to a first aspect of the present invention includes any one of the slat support mechanisms described above, a slat supported by the slat support mechanism, and an ascending / descending mechanism that raises and lowers the slats via the slat supporting mechanism. And a tilt mechanism that tilts the slat by causing a relative position change in the first and second link mechanisms during the ascent and descent of the slat by the ascending / descending mechanism.
[0024]
Each slat includes a slat main body and a fitting portion integrally formed on one surface of the slat main body, like the blind device according to the second aspect of the present invention in a preferred example. Thus, the fitting portion may be hollow so that the fitting protrusion can be fitted.
[0025]
The raising / lowering mechanism is connected to the uppermost slat support member as in the blind device according to the third aspect of the present invention, and lifts the uppermost slat support member to raise the slat. However, instead of this, it may be connected to the lowest slat support member, and the lowest slat support member may be lifted to raise the slat.
[0026]
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.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
1 to 10, the blind device 1 of this example includes a pair of vertical frames 2 and 3, a link mechanism 4, a link mechanism 5 juxtaposed to the link mechanism 4, and one end portion 6 having a link mechanism 4. Further, the other end 7 is connected to the link mechanism 5, and is supported by each of the slat support members 8 and the opening P between the vertical frames 2 and 3. A plurality of slats 9, an ascending / descending mechanism 10 that raises and lowers the slats 9, and a vertical position change relative to the link mechanisms 4 and 5 occurs when the slats 9 are raised and lowered by the raising / lowering mechanism 10 The tilt mechanism 11 for tilting each slat 9, the prohibiting means 12 for prohibiting the lowermost slat 9 from rising, the upper cover frame 13 disposed between the upper portions of the pair of vertical frames 2 and 3, and the pair Under vertical frames 2 and 3 It has and a disposed a bottom frame 14a between.
[0028]
Since the vertical frames 2 and 3 have the same configuration, the vertical frame 2 will be described below. The vertical frame 2 is a hollow vertical frame main body 14 and a guide fitted to the inner surface of the vertical frame main body 14. The vertical frame main body 14 has a guide slit 16 extending in the vertical direction. The guide passage forming member 15 includes a pair of guide passages 17 and a single guide passage 18. A plurality of protrusions 20 are provided so as to form a single guide passage 19.
[0029]
Each of the vertical frames 2 and 3 accommodates link mechanisms 4 and 5 and a tilt mechanism 11. The link mechanisms 4 and 5 on the vertical frame 3 side and the tilt mechanism 11 include the link mechanisms 4 and 4 on the vertical frame 2 side. 5 and the tilt mechanism 11, the link mechanisms 4 and 5 and the tilt mechanism 11 on the vertical frame 2 side will be described in detail below.
[0030]
The link mechanism 4 has a single continuous flexible strip 21 and a plurality of shafts fixed to the strip 21 and rotatably connected to one end 6 of each slat support member 8. Thus, the link mechanism 4 has a plurality of shaft members 23 connected to each other at a constant interval, and the plurality of shaft members 23 of the link mechanism 4 are attached to the belt-like body 21. They are fixed and connected to each other with a band 21.
[0031]
Similarly to the link mechanism 4, the link mechanism 5 is also a single continuous flexible band 25 similar to the band 21, and is fixed to the band 25 and the other of the slat support members 8. A plurality of shaft members 26 that are rotatably fitted to the end portion 7 and that are similar to the shaft members 23 are provided. Thus, the link mechanism 5 includes a plurality of shaft members that are connected to each other at a constant interval. The plurality of shaft members 26 of the link mechanism 5 are fixed to the belt-like body 25 and are connected to each other by the belt-like body 25.
[0032]
The belt-like body 21 penetrates through a shaft member 23 that is rotatably fitted to the end portion 6 of each slat support member 8 as shown in FIGS. The belt-like body 21 is fixed to the shaft member 23 and penetrates the shaft member 23 rotatably fitted to the end portion 6 of the uppermost and lowermost slat support members 8 at the upper end portion 28 and the lower end portion 29. Is fixed to the shaft member 23 at the upper end 28 and the lower end 29 and terminates.
[0033]
Similar to the belt-like body 21, the belt-like body 25 penetrates the shaft member 26 that is rotatably fitted to the end 7 of each slat support member 8, and is fixed to each shaft member 26 at each penetration portion. The belt-like body 25 that penetrates the shaft member 26 that is rotatably fitted to the end portion 7 of the uppermost and lowermost slat support members 8 at the upper end portion 32 and the lower end portion 33 includes the upper end portion 32 and The lower end portion 33 is fixed to the shaft member 26 and terminates.
[0034]
Each of the belt-like bodies 21 and 25 may be made of a synthetic resin yarn woven or knitted belt (belt) such as polyester or a synthetic resin non-woven flat belt. It may consist of a flexible band.
[0035]
Each of the shaft members 23 and 26 includes a columnar portion 46 and a pair of shaft portions 47 provided integrally on both end surfaces of the columnar portion 46 as shown in FIGS. The synthetic resin is integrally formed of a pair of rectangular protrusions 115 and 116 that are disposed symmetrically with respect to the axial center of the cylindrical portion 46 and that are integrally formed with the cylindrical portion 46. Each of the belt-like bodies 21 and 25 is integrally fixed to the cylindrical portion 46 and the pair of rectangular protrusions 115 and 116 and penetrates the cylindrical portion 46 and the pair of rectangular protrusions 115 and 116. Yes. The cylindrical portion 46 and the pair of rectangular protrusions 115 and 116 are fixed to the belt-like bodies 21 and 25, respectively, when the shaft members 23 and 26 are integrally formed.
[0036]
In order to support each slat 9 on the pair of link mechanisms 4 and 5 by being interposed between the pair of link mechanisms 4 and 5 and the respective end portions 39 and 49 of the plurality of slats 9 arranged in parallel to each other. Each slat support member 8 includes a support body 22 and a support body 42 coupled to the support body 22 via fitting means 40, and the support body 22 is a shaft member of the link mechanisms 4 and 5. The shaft hole 47 into which the shaft portion 47 at one end portion of 23 and 26 is rotatably inserted, in this example, the through hole 30 is connected to one end portion and the other end portion (even one end and the other end 6 and 7 of the slat support member 8). The arm portion 31 provided in each of the arm portions 31, the shaft portion 36 integrally formed on one surface of the arm portion 31 and disposed inside and outside the vertical frame 2 through the guide slit 16, and a shaft The fitting portion 6 of the slat 9 is formed integrally with the portion 36. And the support protrusion 42 is rotatably fitted to the shaft portion 47 of the other end portion of the shaft members 23 and 26 of the link mechanisms 4 and 5. The shaft hole to be inserted, in this example, has an arm portion 35 having a through hole 34 at one end and the other end (which is also one end and the other end 6 and 7 of the slat support member 8).
[0037]
Each of the shaft members 23 and 26 is a shaft portion 47 integrally provided on both end surfaces of the columnar portion 46 disposed between the arm portion 31 and the arm portion 35, and corresponds to the arm portions 31 and 35. The through holes 30 and 34 are rotatably inserted.
[0038]
The fitting means 40 configured to connect the support body 22 and the support body 42 to each other so that the corresponding through holes 30 and 34 of the one end portion and the other end portion of the arm portions 31 and 35 are coaxial with each other, A hollow rectangular tube portion 43 integrally formed on the other surface of the arm portion 31 formed integrally with the shaft portion 36 and having a pair of fitting openings 41; A pair of engaging protrusions 44 that are integrally formed on one surface of the arm portion 35 and engage with the cylindrical portion 43 in the fitting opening 41 are provided.
[0039]
Each engaging protrusion 44 is integrally formed on one surface of the arm portion 35 and is integrally formed at the tip of the protrusion main body 45 and the protrusion main body 45 inserted into the cylindrical portion 43. And a claw portion 48 adapted to engage with the cylinder portion 43 in the fitting opening 41. The engagement of the claw portion 48 with the cylinder portion 43 in the fitting opening 41 This is performed by a snap-fit method using the elastic deflection of the main part 45.
[0040]
The support body 22 is an integrally molded product made of synthetic resin including the cylindrical portion 43, and the support body 42 is also an integrally molded product made of synthetic resin including the pair of engaging projections 44.
[0041]
The end portions 39 and 49 are connected to a slat support mechanism 50 having a plurality of slat support members 8 and a pair of link mechanisms 4 and 5 each having a plurality of shaft members 23 and 26 connected to each other at a predetermined interval. Each slat 9 supported by each has a plate-like and curved slat main body 51, and extends from one end 39 to 49 on one surface of the slat main body 51 so as to be integrated with one surface of the slat main body 51. And a rectangular fitting portion 60 formed. The fitting portion 60 is hollow so that the fitting protrusion 37 can be fitted therein. Each slat 9 is supported at both ends 39 and 49 so as to be parallel to each other in the opening P by a slat support mechanism 50 on the vertical frame 2 side and the vertical frame 3 side. The fitting portion 60 does not need to be provided to extend from the end portions 39 to 49 on one surface of the slat main body 51, and may be provided on one surface of the slat main body 51 at least at the end portions 39 and 49.
[0042]
The ascending / descending mechanism 10 for raising and lowering the slat 9 via the slat support mechanism 50 includes a chain 52 as a flexible traveling body disposed in the vertical frames 2 and 3, and one of the free ends. A connecting mechanism 55 that connects the other end 54 of the chain 52 having the end 53 to the uppermost slat support member 8, a traveling device 56 that causes the chain 52 to travel in the A and B directions, and A and The chain 52 is provided with a blocking mechanism 57 that prevents the chain 52 from bending when traveling in the B direction.
[0043]
Since each of the chain 52, the coupling mechanism 55, and the blocking mechanism 57 is configured in the same manner on the vertical frame 2 side and the vertical frame 3 side, the vertical frame 2 side will be described in detail below.
[0044]
The chain 52 is arranged in the guide passage 17 so as not to bend, and the travel in the A and B directions is guided by the guide passage 17.
[0045]
The connection mechanism 55 includes a connection plate 62 that is rotatably connected to the arm portion 35 via a pin member 61 that is disposed concentrically with the shaft portion 36 of the uppermost slat support member 8, and a pair of connection plates 62. And a slider 64 that is fixed via a pin member 63. The slider 64 is rotatably supported by the slider main body 65 and the slider main body 65 via a pair of pin members 63, respectively. A pair of rollers 66 (only one is shown) is provided in the other guide passage 17 sandwiched between the one guide passage 17 and the guide passage 18 so as to be movable up and down. The other end 54 is rotatably connected via a pin member 67.
[0046]
The traveling device 56 includes an endless ball chain 71 that generates a traveling force with respect to the chain 52 by manual operation, and a transmission unit 72 that transmits the traveling force from the ball chain 71 to the chain 52.
[0047]
The transmission means 72 is engaged with the pulley 74 on which the ball chain 71 is wound and fixed to the rotating shaft 73, the gear 75 fixed to the rotating shaft 73, and the gear 75 and is fixed to the rotating shaft 76. A gear 77 fixed to the rotary shaft 76, a gear 80 meshed with the gear 78 and fixed to the rotary shaft 79, and a gear 82 meshed with the gear 80 and fixed to the rotary shaft 81. A sprocket wheel 84 fixed to one end 83 of the rotating shaft 81 and around which the chain 52 is wound, and a braking mechanism 85 for applying a constant braking to the rotation of the rotating shaft 81. .
[0048]
The ball chain 71 hung around the pulley 74 hangs down so that it can be manually operated on the indoor side 88 in an opening such as a window of a building where the blind device 1 is installed.
[0049]
The rotary shafts 73, 76, 79 and 81 are rotatably supported by the bracket 91, and the bracket 91 is fixed to the upper inner surface of the vertical frame body 14 of the vertical frame 2.
[0050]
The gears 75, 77, 78, 80, and 82 constitute a reduction gear mechanism that decelerates the rotation of the pulley 74 and transmits it to the rotation shaft 81, and a sprocket wheel disposed in the vertical frame body 14 at one end 83. The rotation shaft 81 to which the shaft 84 is fixed extends through the upper cover frame 13 to the inside of the vertical frame body of the vertical frame 3, and a sprocket wheel similar to the sprocket wheel 84 is disposed on the vertical frame 3 side of the rotation shaft 81. The chain arranged in the vertical frame 3 hangs around the sprocket wheel on the other end side of the rotating shaft 81 as well as the chain 52 arranged in the vertical frame 2. Has been.
[0051]
The brake mechanism 85 is disposed between the housing 92 and the brake plate 93, the annular brake plate 93 disposed in the housing 92 secured to the bracket 91, the annular brake receiving plate 94 secured to the rotating shaft 81, and the brake mechanism 85. And a coil spring 95 that elastically presses the brake plate 93 against the brake receiving plate 94 and frictionally contacts the brake receiving plate 94. The frictional contact between the brake plate 93 and the brake receiving plate 94 allows the ball chain 71 to When the pulley 74 is rotated manually, the rotation shaft 81 is allowed to rotate, and when the ball chain 71 is not moved manually, the rotation of the rotation shaft 81 via the chain 52 and the sprocket wheel 84 due to the weight of the slat 9 or the like is prohibited. It is supposed to be.
[0052]
The blocking mechanism 57 is arranged around the outer periphery of the sprocket wheel 84 and includes chain pressers 86 and 87 fixed to the upper inner surface of the vertical frame main body 14 via a mounting plate 96. And 87 prevent the chain 52 from being bent around the sprocket wheel 84 to ensure that the chain 52 is engaged with the sprocket wheel 84.
[0053]
In the ascending / descending mechanism 10, the sprocket wheel 84 is rotated through the gears 75, 77, 78, 80, and 82 by the rotation of the pulley 74 when the ball chain 71 is manually moved in one direction, and the chain 52 is, for example, A When the vehicle travels in the direction, it is guided by the guide passage 17 as the end portion 54 rises, and the connecting mechanism 55 is raised. The uppermost slat support member 8 having the arm portion 35 is also raised, and as the uppermost slat support member 8 is raised, the uppermost slat support member 8 is connected to the uppermost slat support member 8 via the pair of link mechanisms 4 and 5. The connected lower slat support members 8 are also lifted one after another from the slat support members 8 immediately below the uppermost slat support member 8, so that each slat support member The slats 9 supported by the uppermost slat support member 8 are also raised one after another. Therefore, the raising / lowering mechanism 10 connected to the uppermost slat support member 8 lifts the uppermost slat support member 8 to raise the slats. 9 is raised one after another.
[0054]
In the ascending / descending mechanism 10, the sprocket wheel 84 is rotated through the gears 75, 77, 78, 80, and 82 by the rotation of the pulley 74 when the ball chain 71 is manually moved in the other direction. When the vehicle travels in the direction, it is guided by the guide passage 17 along with the lowering of the end portion 54 and the connection mechanism 55 is lowered, and the connection mechanism 55 is rotatably connected to the connection mechanism 55 via the pin member 61 when the connection mechanism 55 is lowered. The uppermost slat support member 8 having the arm portion 35 is also lowered, and as the uppermost slat support member 8 is lowered, the uppermost slat support member 8 is connected to the uppermost slat support member 8 via the pair of link mechanisms 4 and 5. The connected lower slat support members 8 are also lowered from the lowest slat support member 8 one after another, so that the slats 9 supported by the respective slat support members 8 are also moved. Thus, the raising / lowering mechanism 10 connected to the uppermost slat support member 8 lowers the uppermost slat support member 8 and lowers the slats 9 one after another. It has become.
[0055]
In this example, the rotation shaft 73 is connected to the rotation shaft 81 via a speed reduction mechanism including gears 75, 77, 78, 80, and 82. The pulley 74 may be fixed to the rotary shaft 81 to transmit the rotation of the pulley 74 directly to the rotary shaft 81, or an electric motor may be used instead of the ball chain 71 or together with the ball chain 71. In this case, the output rotation shaft of the electric motor may be connected to the rotation shaft 73, or the output rotation shaft of the electric motor may be used as the rotation shaft 81. In this case, if necessary, An electric motor capable of speed control may be used.
[0056]
The tilt mechanism 11 includes a columnar protrusion 101 integrally formed on the other surface of the arm portion 35 of the uppermost slat support member 8 facing the one surface on which the engagement protrusion 44 is formed, and a guide. And a cam member 103 which is attached to the passage forming member 15 and has a guide recess 102 communicating with the guide passage 19.
[0057]
The tilt mechanism 11 guides the protrusion 101 from the guide passage 19 to the guide recess 102 by bringing the protrusion 101 into contact with the cam member 103 when the uppermost slat support member 8 is raised by the travel of the chain 52 in the A direction. The uppermost slat support member 8 having the arm portion 35 on which the projection 101 is formed is rotated in the R1 direction around the shaft portion 36, thereby linking the belt-like body 21 of the link mechanism 4. The belt-like body 25 of the mechanism 5 is lifted and raised, and thus the lower slat support member 8 following the uppermost slat support member 8 is also rotated in the same R1 direction via the link mechanisms 4 and 5. Thus, while all the slats 9 are similarly rotated in the R1 direction, the protrusion 101 is guided by the guide recess when the uppermost slat support member 8 is lowered by the travel of the chain 52 in the B direction. 02 is guided to the guide passage 19 to cause the uppermost slat support member 8 to rotate in the R2 direction around the shaft portion 36, thereby causing the belt-like body 25 of the link mechanism 5 to have the belt-like shape of the link mechanism 4. The body 21 is lifted and raised, and thus all the slats 9 are similarly rotated in the R2 direction.
[0058]
The prohibiting means 12 is connected to the connecting plate 121 disposed at the lower part of the guide passage forming member 15 and one end portion 122 to the connecting plate 121, and fixed to the lower end of the guide passage forming member 15 at the other end portion 123. A coil spring 124, a roller 126 that is rotatably attached to the connecting plate 121 via a shaft member 125, and is disposed in the other guide passage 17 sandwiched between the one guide passage 17 and the guide passage 18; A pair of rollers 129 (only one is shown) disposed on the guide plate 18 and rotatably attached to the connecting plate 121 through shaft members 127 and 128 are swung by the pair of rollers 129. The connecting plate 121 is configured so that the lowermost slat support member 8 is connected to the lowermost slat support member 8 via a shaft member (not shown) arranged concentrically with the shaft portion 36 of the lowermost slat support member 8. It is pivotally connected to the R1 and R2 directions over arm portion 35.
[0059]
The prohibiting means 12 pulls the connecting plate 121 downward by the elastic force of the coil spring 124 when the connecting plate 121 rises along the guide passages 17 and 18 due to the raising of the lowermost slat support member 8. The slat support member 8 is elastically prevented from being lifted above a certain level.
[0060]
In the fully closed state of the opening P (the state shown in FIG. 13), in order to close the gap generated between the lowest slat 9 and the bottom frame 14a, the closing plate 141 is erected on the bottom frame 14a. Good.
[0061]
In the blind device 1 described above, in the open state of the opening P, the protrusion 101 is disposed in the guide passage 19, the strips 21 and 25 are bent as shown in FIG. 12, and each of the slats 9 is shown in FIG. As shown in FIG. 2, they are closely polymerized (bundled) downward. When the opening P is closed by traveling in the direction A of the chain 52 when the ball chain 71 is manually moved, the uppermost slat support member 8 starts to be lifted. As the belts 21 and 25 of the link mechanisms 4 and 5 are stretched ascending, the slat support member 8 following the uppermost slat support member 8 starts to be lifted. And the slats 9 are also sequentially raised together with this, and when the protrusions 101 are guided by the guide passage 19 and are raised, the slats 9 are held in a substantially horizontal tilted state. As shown, the opening P is closed like a bowl with the slats 9.
[0062]
Further, the chain 52 is run in the A direction, and the strips 21 and 25 extend immediately before the opening P is completely closed. On the other hand, the lowermost slat support member 8 is connected to the coil spring 124 via the strips 21 and 25. When raised slightly against the elastic force and the projection 101 faces the guide recess 102 and comes into contact with the cam member 103, the uppermost slat support member 8 starts to rotate in the R1 direction, and the belt 25 The upper end portion 32 is lifted more than the upper end portion 28 of the belt-like body 21, whereby the uppermost slat 9 is rotated in the R1 direction, and the uppermost slat support member 8 is rotated in a belt-like manner. As shown in FIGS. 13 and 14, all the slat support members 8 and slats 9 are transmitted to the lower slat support member 8 through the body 21 and the band 25 and are held in a substantially vertical tilted state as shown in FIGS. , Opening P by the slats 9 will be fully closed.
[0063]
When the opening portion P is opened, the ball chain 71 is manually moved in the reverse direction, whereby the protrusion 101 is guided from the guide recess 102 to the guide passage 19 and the uppermost slat support member 8 is lowered to form a belt-like body. 21 and 25 come to bend sequentially from below.
[0064]
In the blind device 1 having the slat support mechanism 50 including the link mechanisms 4 and 5 and the slat support member 8, the pair of rigid link members connected to each other via a shaft are rotatably connected. Instead, flexible band-like bodies 21 and 25 and shaft members 23 and 26 to which the band-like bodies 21 and 25 are fixed and rotatably connected to the end portions 6 and 7 of the slat support member 8 are provided. Since the link mechanisms 4 and 5 are provided, the link mechanisms 4 and 5 can be assembled in a short time, and the link mechanisms 4 and 5 can be reduced in weight so that the slat 9 can be lifted and lowered with great force. The slats 9 can be easily lifted and lowered.
[0065]
Further, according to the slat support member 8, the arm portion 31 has one end portion and the other end of the through hole 30 into which the shaft portion 47 of one end portion of the shaft members 23 and 26 of the link mechanisms 4 and 5 is rotatably inserted. The arm portion 35 has a through hole 34 at one end portion and the other end portion of the shaft member 23 and 26 of the link mechanisms 4 and 5 in which the shaft portion 47 of the other end portion is rotatably inserted. Moreover, the arm portions 31 and 35 are coupled to each other via the fitting means 40 so that the corresponding through holes 30 and 34 of the one end portion and the other end portion of the arm portions 31 and 35 are coaxial with each other. As a result, the shaft members 23 and 26 of the link mechanisms 4 and 5 can be supported rotatably by both ends, and smooth rotation of the shaft members 23 and 26 can be ensured, resulting in a rigid link member. Instead, using flexible strips 21 and 25 The strips 21 and 25 is easily extended, it can be bent, increase of the slats 9, it is possible to smoothly perform the descent, and Thus, it is possible to properly support the slats 9.
[0066]
In the above example, an endless chain may be used instead of the end chain 52 having the end portions 53 and 54. In this case, in addition to the sprocket wheel 84, another sprocket wheel is arranged, and both sprocket wheels are arranged. An endless chain may be provided between them, and the blocking mechanism 57 can be omitted when such an endless chain is used. In addition, a timing belt or the like may be used instead of the chain 52, and when a timing belt is used, a toothed pulley may be used instead of the sprocket wheel 84.
[0067]
Further, in the above, the hollow rectangular tube portion 43 having the fitting opening 41 is integrally formed on the other surface of the arm portion 31, and the engaging protrusion 44 is integrally formed on one surface of the arm portion 35. However, instead of this, a hollow rectangular tube portion 43 having a fitting opening 41 on one surface of the arm portion 35 is integrally formed, and the arm portion 31 The fitting means 40 may be configured by integrally forming an engaging protrusion 44 that engages with the cylindrical portion 43 in the fitting opening 41 on the other surface.
[0068]
Furthermore, in the above, the fitting means 40 is configured with a pair of engaging projections 44 that engage with the cylindrical portion 43 in each of the pair of fitting openings 41, but instead, as shown in FIG. One engagement protrusion 152 that is integrally formed on one surface of the arm portion 35 and that engages with the cylindrical portion 43 in one fitting opening 151, and is arranged with the engagement protrusion 152 interposed therebetween. The fitting means 40 may be configured to include a pair of fitting projections 153 fitted into the cylindrical portion 43, and in this case, the engaging projection 152 is inserted into the cylindrical portion 43. The projection main body 155 has a claw portion 156 that is integrally formed at the tip of the projection main body 155 and that engages with the cylindrical portion 43 in the fitting opening 151. The engagement of the fitting opening 151 of the 156 to the cylindrical portion 43 is the projection And the like are performed with a snap-fit that utilizes 155 the elastic deflection of.
[0069]
In addition, the ascending / descending mechanism 10 may be connected to the lowermost slat support member 8 to raise the lowermost slat support member 8 and raise the slat 9.
[0070]
【The invention's effect】
According to the present invention, the shaft member can be held at both ends, the shaft member can be prevented from being bent, and the shaft member can be smoothly rotated, and the slat can be formed by a flexible belt-like body instead of the rigid link member. A slat support member suitable for supporting the slat, and having such a slat support member, can be assembled in a short time, and can be reduced in weight, and does not require a large force for lifting and lowering the slat. It is possible to provide a slat support mechanism that can be easily lowered and a blind device including the slat support mechanism.
[Brief description of the drawings]
FIG. 1 is a perspective view of a preferred example of the present invention.
2 is a side view of a part of the example shown in FIG.
FIG. 3 is a partial side view of the example shown in FIG. 1;
4 is a cross-sectional explanatory view taken along line IV-IV shown in FIG. 3 including the vertical frame shown in FIG. 1;
5 is a cross-sectional explanatory view taken along the line VV shown in FIG. 3 including the vertical frame shown in FIG. 1;
6 is a cross-sectional explanatory view taken along the line VI-VI shown in FIG. 3 including the vertical frame shown in FIG. 1;
7 is an explanatory plan view of the transmission means of the example shown in FIG. 1. FIG.
8 is a partially exploded perspective view of the example shown in FIG.
9 is a perspective explanatory view of the slat support member of the example shown in FIG. 1. FIG.
10A and 10B are explanatory views of the link mechanism of the example shown in FIG. 1, wherein FIG. 10A is a front explanatory view thereof, and FIG. 10B is a side explanatory view thereof.
FIG. 11 is an operation explanatory diagram of the example shown in FIG. 1;
12 is an operation explanatory diagram of the example shown in FIG. 1. FIG.
13 is an operation explanatory diagram of the example shown in FIG. 1. FIG.
14 is an operation explanatory diagram of the example shown in FIG. 1. FIG.
FIG. 15 is a partial perspective view of another preferred example of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Blind device 4, 5 Link mechanism 8 Slat support member 9 Slat 10 Lifting / lowering mechanism 11 Tilt mechanism

Claims (13)

Intervening between a pair of link mechanisms having a plurality of shaft members connected to each other at a constant interval and the ends of a plurality of slats arranged in parallel to each other and having a fitting portion at the end A slat support member for supporting the slat on the pair of link mechanisms, the first support member, and a second support member coupled to the first support member. One support body includes a first arm portion having a shaft hole in which one end portion of the shaft member of the link mechanism is rotatably inserted in each of the one end portion and the other end portion, and the first arm portion. A shaft portion integrally formed on one surface, and a fitting protrusion formed integrally with the shaft portion and adapted to be fitted to the fitting portion of the slat. The second support has a shaft hole into which the other end of the shaft member of the link mechanism is rotatably inserted. Each of the first and second arm portions, and the first support member and the second support member have one end portion and the other end portion of the first and second arm portions. A slat support member for a blind device, which is coupled to each other through fitting means so that corresponding shaft holes of the parts are coaxial. The fitting means is formed integrally with the other surface facing one surface of the first arm portion, and is integrally formed with the cylindrical portion having a fitting opening and one surface of the second arm portion. The slat support member for a blind device according to claim 1, wherein the slat support member is formed in a mechanical manner and has an engaging protrusion that engages with the cylindrical portion in the fitting opening. The fitting means is integrally formed on one surface of the second arm portion and has a cylindrical portion having a fitting opening and the other surface facing one surface of the first arm portion. The slat support member for a blind device according to claim 1, wherein the slat support member is formed in a mechanical manner and has an engaging protrusion that engages with the cylindrical portion in the fitting opening. The engaging protrusion is a protrusion main body that is inserted into the cylindrical portion, and a claw portion that is formed integrally with the tip of the protruding main body and engages with the cylindrical portion at the fitting opening. The engagement of the claw portion with the tube portion in the fitting opening is performed by a snap-fit method using the elastic deflection of the protrusion main body. A slat support member for a blind device according to claim 1. The slat support member for a blind device according to any one of claims 1 to 4, wherein each of the first support and the second support is an integrally molded product made of a synthetic resin. A slat support member for a blind device according to any one of claims 1 to 5, and a pair of link mechanisms each having a plurality of shaft members connected to each other at a constant interval, Each of the pair of link mechanisms includes a flexible belt-like body, and a plurality of shaft members of each link mechanism are fixed to the belt-like body at a predetermined interval and are connected to each other by the belt-like body. The slat support mechanism. The slat support mechanism according to claim 6, wherein each belt-like body is formed of a single continuous belt-like member while penetrating the shaft member. Each shaft member is made of a synthetic resin-made integral product including a cylindrical portion and a shaft portion disposed on each end face of the cylindrical portion, and the shaft portion can freely rotate into a corresponding shaft hole of each arm portion. The slat support mechanism according to claim 6 or 7, wherein the slat support mechanism is inserted, and the belt-like body is integrally fixed to the cylindrical portion and penetrates the cylindrical portion. Each shaft member is composed of an integrally molded product made of a synthetic resin further provided with a pair of rectangular protrusions arranged at symmetrical positions with respect to the axial center of the cylindrical part, and the belt-like body includes the cylindrical part and the pair of rectangular protrusions. The slat support mechanism according to claim 8, wherein the slat support mechanism is integrally fixed to the portion and penetrates the cylindrical portion and the pair of rectangular protrusions. The slat support mechanism according to any one of claims 6 to 9, wherein each belt-like body is made of a woven or knitted belt made of synthetic resin such as polyester or a non-woven belt made of synthetic resin. A slat support mechanism according to any one of claims 6 to 10, a slat supported by the slat support mechanism, an ascending / descending mechanism for raising and lowering the slat via the slat supporting mechanism, A blind device comprising: a tilt mechanism that tilts the slat by causing a relative position change in the first and second link mechanisms when the slat is raised and lowered by the lowering mechanism. Each slat includes a slat main body and a fitting portion integrally formed on one surface of the slat main body, and the fitting portion is hollow so that a fitting protrusion can be fitted therein. The blind device according to claim 11. The blind device according to claim 11 or 12, wherein the ascending / descending mechanism is connected to the uppermost slat support member and lifts the uppermost slat support member to raise the slat.

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