JPH10140920A5 - - Google Patents

Description

[Title of invention] Partition device [Claims]
Claim 1: A lower rail is arranged on the floor side and an upper rail is arranged on the ceiling side,
The partition door has engaging bodies at the upper and lower parts of one end and the other end that engage with the upper and lower rails, respectively, and is movable along the direction in which the upper and lower rails are disposed.
A partition device characterized in that at the end of one side, the upper and lower engaging bodies are capable of being freely engaged and disengaged with the upper and lower rails, and when the partition door is stored, the engagement with the upper and lower rails is released, and the upper and lower engaging bodies at the other end side can be rotated in a plane using the rotating support axis to store the door.
[Claim 2] The partition door is provided with an upper roller device having an engaging body for the upper rail at the upper and lower parts of one side end, and a lower roller device having an engaging body for the lower rail, and an operating device is provided at a position intermediate between the upper roller device and the lower roller device, and this operating device and the upper and lower roller devices are connected by operating rods,
A partition device as described in claim 1, wherein the operating lever of the operating device is operated to move each operating rod in a forward or reverse direction, thereby simultaneously engaging and disengaging the engaging bodies of the upper roller device and the lower roller device with the upper and lower rails.
[Claim 3] The partition door is provided with an upper roller device having an engaging body for the upper rail at the upper and lower parts of the other side end, and a lower roller device having an engaging body for the lower rail, and the upper roller device and the lower roller device each have a pinion gear at the tip of the engaging body holding shaft, and the engaging body holding shaft of the upper roller device and the engaging body holding shaft of the lower roller device are directly or indirectly connected by a linking rod so that the pinion gears operate in synchronization,
3. The partition device according to claim 1, wherein a rack that meshes with the pinion gear is disposed in each of the partition storage portions at the ends of the upper and lower rails.
[Claim 4] A partition device described in any one of claims 1 to 3, wherein the upper and lower rails are double-track rails having two rail grooves, and the partition door can be fitted into each rail groove to enable use as a sliding door.
Detailed Description of the Invention
[0001]
[Technical Field to which the Invention Belongs]
The present invention relates to a partition for dividing a room, and more particularly to a partition device that can be easily stored when not in use and can be opened and closed as a sliding door.
[0002]
2. Description of the Related Art
Partitions have traditionally been used to divide the interior space of a building according to its use. As shown in Figure 20, most of these partitions have a rail 60 on the ceiling side, a runner 61 that runs along the ceiling rail 60, and a partition wall 62 suspended from the runner 61. The upper and lower surfaces of the partition wall 62 are provided with upper and lower fillets 63 and 64 that can move up and down, respectively. Once the partition wall 62 is installed in a predetermined position, a separate rotating handle is engaged with a bolt (not shown) at the end of the partition wall 62 and the bolt is turned, so that the upper fillet 63 can be brought into tight contact with the ceiling surface and the lower fillet 64 can be brought into tight contact with the floor surface.
[0003]
On the other hand, when storing the partition walls 62, 62, ..., as shown in Figure 21, a square storage section rail 65 that is continuous with the ceiling rail 60 is provided at the end of the rail 60, and an operator can flip the partition walls 62 by 90 degrees in plan view by skillfully guiding one side runner 61 of the partition walls 62 onto the storage section rail 65, so that the partition walls 62, 62, ... can be stored so that they overlap. When using the partition walls 62, the partition walls 62 are pulled out onto the ceiling rail 60 in the reverse order and moved to the specified position.
[0004]
[Problem to be solved by the invention]
However, during the storage and pull-out operations, the work of guiding the runners 61 along the storage section rails 65 requires delicate manipulation while closely watching the position of the runners, making it a very time-consuming job. Also, although each partition wall 62 is ultimately fixed in place and movement between rooms is made possible by one or more partition walls with doors, for example, when it comes to partitions in ordinary homes, sliding doors tend to be preferred over open-close doors, and no partitions that meet this demand have existed to date.
[0005]
Therefore, the main object of the present invention is, first, to provide a partition device that can be easily stored when not in use and easily pulled out when in use, and second, to provide a partition device that can be used as a sliding door.
[0006]
[Means for solving the problem]
In order to solve the above problem, the present invention provides a vehicle having a lower rail disposed on the floor side and an upper rail disposed on the ceiling side,
The partition door has engaging bodies at the upper and lower parts of one end and the other end that engage with the upper and lower rails, respectively, and is movable along the direction in which the upper and lower rails are disposed.
At the end of one side, the upper and lower engaging bodies are capable of being freely engaged and disengaged with the upper and lower rails, and when the partition door is stored, the engagement with the upper and lower rails is released, allowing the upper and lower engaging bodies at the other end side to be rotated in a plane using the rotating support axis for storage.
[0007]
In this case, the partition door is provided with an upper roller device at the top and bottom of one side end, each equipped with an engaging body for the upper rail, and a lower roller device at the bottom with an engaging body for the lower rail, and an operating device is provided at a position intermediate between the upper and lower roller devices, and this operating device is connected to the upper and lower roller devices by respective operating rods, and by operating the operating lever of the operating device, each operating rod can be moved in the forward and reverse directions, respectively, making it possible to simultaneously engage and disengage the engaging body of the upper roller device and the engaging body of the lower roller device with the upper and lower rails.
[0008]
Furthermore, it is desirable that the partition door be provided with an upper roller device at the top and bottom of the other side end, each equipped with an engaging body for the upper rail, and a lower roller device at the bottom and top of the other side end, and that the upper roller device and the lower roller device each have a pinion gear at the tip of the engaging body holding shaft, and that the engaging body holding shaft of the upper roller device and the engaging body holding shaft of the lower roller device are directly or indirectly connected by a linkage rod so that the pinion gears operate in sync, and that racks that engage with the pinion gears are arranged in the partition storage portions at the ends of the upper and lower rails.
[0009]
Furthermore, to enable use as a sliding door, the upper and lower rails are double-track rails having two rail grooves, and the partition door is set into each rail groove.
[0010]
In this invention, the four corners of the partition door are equipped with rollers or pivots that engage with the upper and lower rails, and the engaging members on one end (the door leading edge) are designed to be freely engaged and disengaged from the upper and lower rails. Therefore, after moving the partition door to the end, only the engaging member on the door leading edge side can be disengaged from the upper and lower rails and rotated 90 degrees horizontally for storage, eliminating the need for the cumbersome operation required in the past. Furthermore, in the case of single-track rails, various usage patterns can be considered, such as leaving some of the rails open without partitioning the entire length, or lining up the partitions in a vertical row with no gaps between them. In particular, if the upper and lower rails are double-track rails with two rail grooves and the partition door is installed in each rail groove, it can also be used as a regular sliding shoji screen.
[0011]
[Embodiments of the Invention]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is an internal view of a partition door 1 according to the present invention.
As shown in Figure 2, the partition door 1 has a groove 11A running from top to bottom on one end face of the door body 11 (the door-tip side when stored), with the door-end device 2 installed within this groove 11A, while a groove 11B running from top to bottom on the other end face of the door body 11 (the hanging side when stored) with the hanging device 3 installed within this groove 11B. Engagements such as rollers 28 and 29 at the upper and lower ends of the door-end device 2 and engagements such as rollers 49 and 51 at the upper and lower ends of the hanging device 3 engage with the upper rail 12 and the lower rail 13, respectively, allowing the partition door 1 to move freely in the direction of the rail arrangement. The groove 11A has widened sections 11a, 11e, and 11c at the upper and lower ends and in the middle to correspond to the width of the device installed at each location, with narrowed sections 11b and 11d in the middle. Similarly, the recessed groove 11B has widened portions at the upper and lower ends, and a narrowed portion in the middle between them (not shown).
[0012]
First, the door end device 2 installed on one end surface of the partition door 1 will be described in detail.
The door edge device 2 is composed of a lower roller device 4 on the floor side, an upper roller device 5 on the ceiling side, an operating device 6 for operating the side guide rollers 29, 29 of the lower roller device 4 and the upper roller device 5 vertically, and operating rods 9A, 9B that connect the operating device 6 to the lower roller device 4 and the upper roller device 5 .
[0013]
3 to 6 in detail, the lower roller device 4 comprises a lower slide guide 14 and an upper slide guide 16 connected by a connecting member 15, and this series of guide members is fixed to the door main body 11 by a mounting plate 17 or the like. An upper slide body 18, having an operating rod 9A connected by a support shaft 31, engages with the upper slide guide 16 so as to be freely movable in the vertical direction, and a lower slide body 20, which is equipped with a vertical support roller 28 and a side guide roller 29, engages with the lower slide guide 14 so as to be freely movable and adjustable in the vertical direction, and the upper slide body 18 and the lower slide body 20 are integrated with each other by a connecting bolt 19. Therefore, the upper slide body 18, connecting bolt 19 and lower slide body 20 move up and down integrally in accordance with the up and down movement of the operating rod 9A, and the vertical support roller 28 and side guide roller 29 provided on the underside of the lower slide body 20 can be engaged with and disengaged from the lower rail 13.
[0014]
5, the upper slide guide 16 has grooves 16a, 16b on the front and back sides, respectively, and a connecting member 15 is inserted into the groove 16b, and the two are connected by screws (not shown). Meanwhile, a slide block 21 is inserted into the groove 16a, and an upper slide body 23 consisting of an operating rod connecting portion 23a having a U-shaped horizontal cross section and a horizontal flange portion 23b extending integrally on the underside is integrated with the slide block 21, with a plate material 22 having an L-shaped vertical cross section sandwiched between them, by crimping bolts 24, 24. Therefore, the assembly block formed by the slide block 21, plate material 22, and upper slide body 23 is the upper slide body 18, which moves up and down together with the operating rod 9A.
[0015]
On the other hand, the lower slide guide 14 also uses a member having the same cross section as the upper slide guide 16, with the vertical flange portion of the mounting plate 17 inserted and fixed into the groove 14b, and the engaging portion 25a of the lower slide body 25 engaging with one of the grooves 14a, allowing the lower slide body 25 to move in the longitudinal direction of the member of the lower slide guide 14. A vertically disposed roller holding shaft 26 is inserted inside the lower slide body 25 and is held rotatably about its axis by a bearing 27, and a vertical support roller 28 and a side guide roller 29 are provided on the tip side of this roller holding shaft 26. As shown in Figure 7, the vertical support roller 28 contacts the lower rail 13 only at one end A of the roller's underside, allowing it to roll smoothly on the lower rail 13 around the vertical axis while supporting the vertical load, and the side guide roller 29 has a rotatable bushing 29b attached by a stop shaft 29a that rotates in response to the movement of the partition door 1 while contacting the end face of the flange piece that forms the groove entrance portion of the lower rail 13, thereby acting as a lateral guide.
[0016]
On the other hand, the connecting bolt 19 connecting the upper slide body 18 and the lower slide body 20 has its bolt head 19a clamped between the horizontal flange piece 22a of the plate material 22 and the horizontal flange portion 23b of the upper slide body 23 , and is held in a fixed position so as to be rotatable about the screw axis, and the threaded portion 19b of the connecting bolt 19 passes through the lower slide body 25 and is screwed into a nut 30 fitted into a notched recess 25b on the side of the lower slide body 25, so that by turning the connecting bolt 19 with a specified screwdriver, only the lower slide body 25 can be moved up and down, facilitating adjustment of the fitting of the partition door 1. Reference numeral 55 denotes a cover material that covers the edge surface on the fore-end side.
[0017]
On the other hand, as shown in FIG. 8, the upper roller device 5 differs from the lower roller device 4 only in that it does not have the vertical support rollers 28, and therefore is given the same reference numerals as the lower roller device 4 and a description thereof will be omitted.
[0018]
Next, the structure of the operating device 6 that slides the operating rods 9A and 9B will be described in detail with reference to FIGS. 9 and 10.
The actuator 6 is mainly composed of a metal fitting body 32, an operating lever 33 having one end rotatably supported on the metal fitting body 32, a driving slider 36 that moves back and forth in the vertical direction by rotating the operating lever, a pinion gear 37 that meshes with a rack portion 36a of the driving slider 36, and a driven slider 38 that has a rack portion 38a that meshes with the pinion gear 37 and is arranged approximately symmetrically to the driving slider 36, and an operating rod 9A is connected to the driving slider 36, and an operating rod 9B is connected to the driven slider 37. Reference numeral 40 denotes a mounting plate, and the actuator 6 is fixed in a predetermined position with screws 41, 41.
[0019]
The metal fitting body 32 is a three-dimensional plate-like body having a flat rectangular shape with a recessed portion in the center, and the recessed portion has arc-shaped recesses 32a, 32b at the top and bottom to make it easier to grip the operating lever 33, lever base portions 32c, 32d that are continuous with these toward the inside and are formed with a depth equivalent to the thickness of the operating lever 33 from the surface of the metal fitting body, and a vertically elongated slide groove 32e that is formed in the center and penetrates to the back surface, and each of these portions is formed into the above-mentioned shape by pressing, punching, etc.
[0020]
The operating lever 33 is pivotally supported by a pivot shaft 34 that spans the center of the slide groove 32e in the width direction at a position slightly inward from one side end (base end) so as to be rotatable within a range of 180°. Also, the operating lever 33 is connected to a driving slider 36 by a lever connecting shaft 35 at a position closer to the one side end than the support position of the pivot shaft 34.
[0021]
On the other hand, the driving slider 36 has a spring installation hole 36b formed in the main body that opens to the metal fitting main body 32 side, and with a spring member 39 installed inside this spring installation hole 36b, the lever connecting shaft 35 is inserted so as to press the upper end surface of the spring member 39. The insertion hole 36c of the lever connecting shaft 35 is elongated in the spring direction so that the operating lever 33 can rotate.
[0022]
Therefore, when the operating lever 33 is rotated, a so-called toggle action causes the operating lever 33 to rotate about the rotating shaft member 34 as a rotation center, and at the same time, the lever connecting shaft 35 at the tip of the operating lever 33 is rotated about the rotating shaft member 34, and the spring member 39 is pushed toward the bottom of the spring installation hole 36b, causing the driving slider 36 to move downward. After that, after passing the 90° rotation position, the lever connecting shaft 35 rises and the spring member 39 returns to its original state. Furthermore, as the driving slider 36 moves downward, the pinion gear 37 is rotated, and the driven slider 38 meshing with this pinion gear 37 moves in the opposite direction, i.e., upward. Therefore, by rotating the operating lever 33, the operating rods 9A and 9B can be linked and simultaneously switched between the forward position and the backward position, thereby allowing the side guide rollers 29 to be engaged and disengaged with the lower rail 13 and the side guide rollers 29 to be engaged and disengaged with the upper rail 12.
[0023]
Next, the hanging device 3 installed at the other side end of the partition door 1 will be described in detail with reference to Figs.
The suspension device 3 is composed of a lower roller device 7 on the floor side, an upper roller device 8 on the ceiling side, and a linking rod 10 that connects the lower roller device 7 and the upper roller device 8 and links the rotation of the pinion gear 50 of the lower roller device 7 with the pinion gear 50 of the upper roller device 8.
[0024]
11 to 14 in detail, in the lower roller device 7, a slide guide 43 is fixed to the recessed groove 11B, and a slide body 46 having vertical support rollers 49, side guide rollers 51, and a pinion gear 50 is engaged with the slide guide 43 so as to be movable vertically. A roller holding shaft 47 that holds the vertical support rollers 49, etc., is connected to the interlocking rod 10, so that the interlocking rod 10 rotates about its axis in conjunction with the rotation of the roller holding shaft 47.
[0025]
13, the slide guide 43 has grooves 43a, 43b on the front and back sides, respectively, and a first bent plate 44 is inserted into the groove 43b, and a second bent plate 45 is disposed so as to overlap the outer side of the bent plate 44, and is integrally provided and fixed to the door body 11. An engaging portion 46a of a slide body 46 is fitted into one of the grooves 43a, and the slide body 46 is engaged with the slide guide 43 so as to be movable in the longitudinal direction of the member, and is held in a predetermined position by a holding bolt 59 described later. A vertically disposed roller holding shaft 47 is inserted inside the slide body 46 and is held rotatably about its axis by a bearing 48. The interlocking rod 10 is connected to the upper part of the roller holding shaft 47 in a penetrated state, while a vertical support roller 49, a side guide roller 51, and a pinion gear 50 are provided at the lower end. As shown in Figure 14, the vertical support roller 49 contacts the lower rail 13 only at one end A of the roller's underside, and rolls smoothly in accordance with the movement of the partition door 1 while supporting the vertical load.The side guide roller 51, which consists of a bushing fitted onto the support shaft of the pinion gear 50, contacts the end face of the flange piece that forms the groove entrance portion of the lower rail 13 and rotates in accordance with the movement of the partition door 1, thereby acting as a lateral guide.
[0026]
On the other hand, the retaining bolt 59 has a bolt head 59a clamped between the upper flange 44a of the first bent plate 44 and the upper flange piece 45a of the second bent plate 45, and is held rotatably about the screw axis in a fixed position, and the threaded portion 59b of the retaining bolt 59 passes through the slide body 46 and is screwed into a nut 52 fitted into a notched recess 46b on the side of the slide body 46, so that by rotating the retaining bolt 59 with a predetermined screwdriver, the slide body 46 can be moved up and down, thereby adjusting the fitting of the partition door 1. The function of the pinion gear 50 will be described later.
[0027]
On the other hand, as shown in Figure 15, the upper roller device 8 differs only in that it does not have the vertical support roller 49 , and other structures are the same as those of the lower roller device 7, so it is given the same reference numeral as the lower roller device 7 and its description will be omitted.
[0028]
In the partition door 1 described above, when in use, the engaging roller groups 28, 29, 49-51 of the lower roller devices 4, 7 engage with the lower rail 13, and the engaging roller groups 29, 50, 51 of the upper roller devices 5, 8 engage with the upper rail 12, allowing the partition door 1 to move freely in the direction of the upper and lower rails 12, 13. Therefore, as shown in Figures 7 and 14 , the upper and lower rails 12, 13 are double-track rails with two rail grooves, and by installing the partition doors 1, 1... into each rail groove, it can be used just like an ordinary sliding shoji screen, as shown in Figure 17. Also, as shown in Figure 18, when two orthogonal wall surfaces are constructed with partition doors 1, 1..., any partition can be created by placing a right-angle rail 56 at the orthogonal section and making the rails continuous.
[0029]
On the other hand, when storing the partition doors 1, 1... in one place, as shown in Figure 19, after moving the partition door 1 to the rail end side, the door end device 2 is released from engagement with the upper and lower rails 12, 13 by operating the operating device 6, and the door end side is rotated 90° in a plane and stored, leaving the hanging device 3 side as it is, as shown in Figure 19(B). Moreover, the procedure for pulling out the partition door 1 from the stored state is exactly the reverse.
[0030]
However, in the present invention, as described above, pinion gears 50, 50 are attached to the lower roller device 7 and the upper roller device 8, respectively, and racks 53A, 53B that mesh with the pinion gear 50 are attached to the upper and lower rails 12, 13 in the partition storage sections at the ends of the upper and lower rails 12, 13, as shown in Figure 16. Therefore, the meshing effect of these pinion gears 50 and racks 53A, 53B (see Figure 14) prevents the partition door 1 from wobbling when it is rotated, and allows it to move smoothly even when rotated. In Figure 16, reference numeral 54 denotes a stopper material made of an elastic material such as synthetic rubber installed inside the center of the rail, which acts as a resistor against the pinion gear 50 to prevent the stored partition doors 1, 1... from sliding out.
[0031]
[Effects of the Invention]
As explained above in detail, the partition device according to the present invention can be easily stored when not in use and easily pulled out when in use. It can also be used as a sliding door.
[Brief explanation of the drawings]
FIG. 1 is an internal view of a partition door 1 according to the present invention.
FIG. 2 is a perspective view showing the processed state of the side end surface of the door body 11.
FIG. 3 is a perspective view of a lower roller device 4.
FIG. 4 is a side view of the lower roller device 4.
5 is a view taken along line VV in FIG. 4. FIG.
6 is a view taken along the line VI-VI in FIG. 4. FIG.
FIG. 7 is a front view of the lower roller device 4.
FIG. 8 is a side view of the upper roller device 5.
FIG. 9 is a vertical cross-sectional view of the actuation device 6.
FIG. 10 is a front view of the actuator 6.
FIG. 11 is a perspective view of the lower roller device 7.
FIG. 12 is a side view of the lower roller device 7.
13 is a view taken along the line XIII-XIII in FIG. 12.
FIG. 14 is a front view of the lower roller device 7.
FIG. 15 is a side view of the upper roller device 8.
FIG. 16 is a plan view of the ends of the upper and lower rails.
FIG. 17 is a plan view of the partition door 1 in use.
FIG. 18 is a plan view of the partition door 1 in another state of use.
FIG. 19 is a diagram showing how to store the partition door 1.
FIG. 20 is a partially cutaway perspective view of a conventional partition device.
FIG. 21 is a diagram showing a storage procedure for a conventional partition device.
[Explanation of symbols]
1...partition door, 2...door end device, 3...hanging device, 4 and 7...lower roller device, 5 and 8...upper roller device, 6...operating device, 9A and 9B...operating rod, 10...linking rod, 12...upper rail, 13...lower rail, 50...pinion gear, 26 and 47...roller holding shaft, 28 and 49...vertical support roller, 29 and 51...side guide roller, 33...operating lever, 53A and 53B...rack.