JP4017486B2 - Partition - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a partition that can partition a room, a space, or the like at an arbitrary position.
[0002]
[Prior art]
As a partition for partitioning a part of a room or a close-in, there is one previously proposed by the present applicant.
[0003]
[Patent Document 1]
Utility Model Registration No. 3045570
As shown in FIG. 2, the partition 1 of Patent Document 1 includes two support columns 2 and a net plate type hook 3 attached in a state of being spanned over the two support columns 2.
[0004]
The partition 1 configured as described above is attached in a state where the support column 2 is stretched between a floor and a ceiling of a space such as a room or a press-in space to partition the room or the press-in.
[0005]
[Problems to be solved by the invention]
However, in the case of the partition 1 having the above-described configuration, the partition 1 can be easily attached because the mesh plate-type hook 3 is attached to the two support columns 2. Since the size of 3 is limited, it can only be attached to a place corresponding to the size of the mesh plate-type hook 3. The size and shape could not be changed according to the installation location.
[0006]
This invention is made | formed in view of the above-mentioned point, and it aims at providing the partition which can be comprised by arbitrary magnitude | sizes and shapes according to the condition of an installation place.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problem, the partition according to the first invention is a partition in which a plate member is installed in a standing state to partition a space, and a connector is provided on the left and right of the plate member, and a post is passed through the connector. A plurality of the plate members can be combined to form an arbitrary size at least on the left and right.
[0008]
With the above configuration, a plurality of plate members can be coupled to the left and right with the coupling tool. Also, a plurality of sheets can be connected vertically and horizontally. Thereby, a partition can be comprised according to the magnitude | sizes of a room, indentation, etc.
[0009]
The partition according to the second aspect of the present invention is a partition for partitioning a space by installing a plate member in an upright state, and connecting members are provided above and below the left and right ends of the plate member, and fitted to a column on one of the upper and lower connectors. And a support cylinder portion for fixing the plate member at an arbitrary height, and a support piece for loosely fitting the support column and supporting the plate member on the other of the upper and lower connectors. And
[0010]
With the above-described configuration, it can be attached with little or no gap between the top and the bottom. At this time, the support piece can be easily inserted into the support column and can be securely fixed by the support cylinder portion. Thereby, a partition can be assembled easily.
[0011]
A partition according to a third aspect of the present invention is the partition according to the first aspect of the present invention, wherein the coupling tool is configured to include a support cylinder portion that is fitted to the support column and fixed at an arbitrary height, and is adjacent to the support column. Each of the supporting cylinder portions of the plate member is provided at a position shifted so as to overlap each other in a state of being attached to one of the columns.
[0012]
With the above configuration, when each supporting cylinder part of adjacent plate members is attached to one column, each supporting cylinder part overlaps with each other vertically, and the adjacent plate members are connected to the same height without shifting up and down. can do.
[0013]
A partition according to a fourth aspect of the present invention is the partition according to the third aspect of the present invention, wherein the supporting cylindrical portion is composed of one cylindrical piece obtained by vertically dividing the conical cylinder into two parts. The second cylindrical piece is configured to be attached to the plate member at a position shifted so as to overlap each other vertically.
[0014]
With the above configuration, when each supporting cylinder portion of adjacent plate members is attached to one column, each supporting cylinder portion overlaps with each other to constitute one conical cylinder. Thereby, it can connect to the same height, without the cylinder part for support becoming bulky and without adjoining board member shifting up and down.
[0015]
A partition according to a fifth aspect of the present invention is the partition according to any one of the first, third and fourth aspects, wherein the connector is provided on one or both of the left and right end portions of the plate member in the vertical direction. The other of the upper and lower directions is provided with a connector shifted in the opposite direction to the displacement of the one connector in the vertical direction.
[0016]
With the above configuration, when each supporting cylinder of adjacent plate members is attached to one column, the supporting cylinder and supporting piece of one plate member sandwich the supporting cylinder and supporting piece of the other plate member. So positioned up and down. Thus, the two adjacent plate members are restricted from moving up and down by the support cylinder portion and the support piece, and when one plate member tries to shift up and down, the other plate member is suppressed by the other plate member. As a result, each plate member can be prevented from shifting or falling off.
[0017]
A partition according to a sixth aspect of the present invention is the partition according to the first aspect of the present invention, wherein the connector is provided with a supporting cylinder portion that is fitted to the support column and fixed at an arbitrary height, and the support The cylinder portion for use is formed by attaching two upper and lower cylindrical pieces or a central cylindrical piece to a plate member among the cylindrical pieces obtained by dividing the conical cylinder into three parts vertically.
[0018]
With the above configuration, when the upper and lower cylinder pieces of one plate member and the central cylinder piece of the other plate member are combined with each other, the adjacent plate members are It is possible to connect to the same height without shifting. Furthermore, since the upper and lower cylinder pieces of one plate member sandwich the cylindrical piece at the center of the other plate member, the two adjacent plate members are restricted from moving up and down, and one plate member is moved up and down. When it tries to shift, it is suppressed by the other plate member. As a result, each plate member can be prevented from shifting or falling off.
[0019]
The partition according to a seventh aspect of the invention is the partition according to the sixth aspect of the invention, wherein the inner diameter of the central cylindrical piece of the support cylinder portion is set larger than the inner diameter of the conical cylinder constituting the upper and lower cylindrical pieces. It is characterized by that.
[0020]
With the above configuration, since the inner diameter of the central cylinder piece of the support cylinder portion is set larger than the inner diameter of the conical cylinders constituting the upper and lower cylinder pieces, the central cylinder piece is gently fitted to the support column. And can be rotated easily. Thereby, a board member can be easily rotated and a plurality of board members can be connected with a support and used as a folding screen.
[0021]
A partition according to an eighth invention is the partition according to any one of the first to seventh inventions, wherein the plate member is made of a wire mesh.
[0022]
By the said structure, by comprising the said board member with a metal mesh, although it partitions physically, it can be set as the partition which is not completely shielded visually. Moreover, an object can be hung on a wire mesh, and a wall surface can be used effectively.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a partition according to the present invention will be described with reference to the drawings.
[0024]
[First Embodiment]
Below, the partition which concerns on the 1st Embodiment of this invention is demonstrated. FIG. 1 is an exploded view showing a partition according to this embodiment, FIG. 3 is a perspective view showing three bar pieces of a support column according to this embodiment, FIG. 4 is a front view showing an adjuster of the support column, and FIG. FIG. 6 is a plan view showing the plate member according to the present embodiment, FIG. 7 is a front view showing the supporting cylinder portion according to the present embodiment, and FIG. 8 is a supporting view according to the present embodiment. FIG. 9 is a perspective view showing the assembled state of the partition according to the present embodiment, FIG. 10 is a front view showing the assembled state of the partition according to the present embodiment, and FIG. 11 shows the embodiment. FIG. 12 is a perspective view showing an installation example in which the partition according to this embodiment is spread flat.
[0025]
The partition 11 according to the present embodiment is configured such that an arbitrary number of plate members can be combined and assembled into a size corresponding to the size of the installation space to partition the space. As shown in FIG. 1, the partition 11 includes a column 12, a plate member 13, and a connector 14. Here, the partition 11 is configured by combining four plate members 13.
[0026]
Three support columns 12 are arranged in parallel. The struts 12 are appropriately arranged according to the number of plate members 13. As shown in FIGS. 1, 3, and 4, the support column 12 is composed of a plurality of bar pieces having a circular cross-sectional shape. The types of bar pieces include a lower bar piece 16, an intermediate bar piece 17, and an upper bar piece 18. Among these, a plurality of middle bar pieces 17 are prepared, and the number corresponding to the height of the installation place is connected.
[0027]
The lower-stage bar piece 16 is composed of a bar piece having a constant length and a circular cross section, and an adjuster 20 is provided at the lower end thereof. The adjuster 20 includes a nut portion 21 that is rotatably attached to the lower end portion of the lower rod piece 16, and a support foot portion 22 that is screwed into the nut portion 21. In the adjuster 20, the support foot 22 abuts against the floor surface to support the support column 12, and the support foot 22 is most screwed into the nut portion 21 (the most contracted state shown in FIG. 4A). The height can be adjusted to the state where the nut portion 21 is turned and the support foot portion 22 is most extended (the most extended state shown in FIG. 4B). A thread groove (not shown) is formed on the inner peripheral surface of the upper end portion of the lower bar piece 16. The thread groove is for connecting the middle bar piece 17 to the lower bar piece 16 by screwing a thread 26 of the middle bar piece 17 described later. An annular groove 24 is formed on the outer peripheral surface of the lower rod piece 16 having a circular cross section. The annular groove 24 is a groove for supporting the support sleeve 55 by fitting a locking projection 56 of the support sleeve 55 described later. The annular groove 24 is formed in an annular shape on the outer peripheral surface of the lower rod piece 16, and a plurality of annular grooves 24 are provided vertically at regular intervals. The position and interval of the annular groove 24 are appropriately set according to the installation position of the plate member 13 and the like.
[0028]
The middle bar pieces 17 are members for connecting arbitrary numbers to each other and to the lower bar pieces 16 to determine the length of the column 12. The middle bar piece 17 is composed of a bar piece having a constant length and a circular cross section, and a screw thread 26 is engraved at the lower end thereof. A thread groove (not shown) is carved on the inner peripheral surface of the upper end. The thread 26 at the lower end is screwed into the screw groove of the lower bar piece 16 or the screw groove of another middle bar piece 17 so that the middle bar piece 17 is connected to the lower bar piece 16 or the middle bar piece 17 is A plurality are connected. As described above, the thread groove on the inner peripheral surface of the upper end portion of the middle bar piece 17 is connected to a plurality of middle bar pieces 17 by screwing the thread 26 at the lower end portion of the other middle bar piece 17. belongs to. For this reason, it is not necessary to provide in the case of the uppermost middle bar piece 17 among a plurality of middle stage bar pieces 17 connected. Even if there is a thread groove, there is no particular problem. An annular groove 24 is formed on the outer peripheral surface of the middle bar piece 17 in the same manner as the lower bar piece 16.
[0029]
The upper-stage bar piece 18 is a member for supporting the support column 12 in contact with the ceiling surface or the like. The upper bar piece 18 includes a bar portion 27, a contact portion 28, a pressure contact nut 29, and an end cap 30. The rod portion 27 is a rod having a constant length and a circular cross section. The outer diameter of the rod portion 27 is set to be smaller than the inner diameter of the middle rod piece 17 so that the rod portion 27 can be inserted into the middle rod piece 17. The abutting portion 28 is a member that is provided at the upper end portion of the rod portion 27 and is directly pressed against a ceiling surface or the like to support the support column 12. The press-contact nut 29 is a member that is screwed into a screw thread carved in the lower end portion of the rod portion 27 and whose diameter is enlarged to fix the upper-stage rod piece 18 to the middle-stage rod piece 17. The press-contact nut 29 is formed by vertically cutting one part of a cylinder, and a thread groove is cut on the inner peripheral surface thereof. The screw thread 31 at the lower end of the rod portion 27 is formed in a tapered shape whose diameter increases upward. As a result, the thread 31 of the rod portion 27 is screwed into the pressure contact nut 29 so that the pressure contact nut 29 is gradually expanded, and the outer peripheral surface of the pressure contact nut 29 is pressed against the inner peripheral surface of the middle-stage bar piece 17. The upper bar piece 18 is fixed to the middle bar piece 17. The end cap 30 is a member for closing the upper end of the middle bar piece 17 after the upper bar piece 18 is fixed to the middle bar piece 17.
[0030]
The plate member 13 is a member for partitioning the space. Four plate members 13 are arranged according to the size of the partitioning space here. As shown in FIGS. 1, 5, and 6, the plate member 13 includes a wire mesh portion 33 and a reinforcing portion 34.
[0031]
The metal mesh part 33 is configured by a rectangular plate-shaped metal mesh in which metal wires are combined vertically and horizontally. The metal mesh is used to partition the space physically, but to partition the space which is not completely shielded visually, and to hang an object on the metal mesh to effectively use the wall surface.
[0032]
The reinforcing portion 34 is a member for reinforcing the wire mesh portion 33 and supporting the connector 14 at both ends. The reinforcing portion 34 is provided on either the upper or lower end of the wire mesh portion 33. The reinforcing portion 34 includes two wire rods 34A and 34B, and a wavy wire rod 34C attached therebetween.
[0033]
The connector 14 is a member for attaching the plate member 13 to the support column 12, and includes a support cylinder part, a divided cylinder part, and a support piece. The connector 14 is provided at the upper and lower ends of the left and right ends of the plate member 13 (four corners of the plate member 13). These connectors 14 have different configurations depending on the four plate members 13. Here, the four plate members 13 are described as first to fourth plate members 13A, 13B, 13C, and 13D from the upper left to the lower right in FIG. 5 and 6 show the second plate member 13B.
[0034]
The first plate member 13 </ b> A is provided with a reinforcing portion 34 at the upper portion, a normal supporting cylinder portion 37 is provided at the left end portion of the reinforcing portion 34, and a divided cylinder portion 38 is provided at the right end portion.
[0035]
The normal support cylinder portion 37 is formed in a conical cylinder shape (see FIG. 7) and has a conical fitting hole (not shown) therein. The fitting hole is formed with an inner diameter reduced upward so as to be substantially aligned with a support sleeve 55 described later. As a result, in a state in which a locking protrusion 56 (described later) provided on the inner peripheral surface of the support sleeve 55 is fitted in the annular groove 24 of the support column 12, the support cylinder portion 37 is placed on the support sleeve 55. The support cylinder portion 37 is configured to tighten the support sleeve 55 by being fitted to each other. That is, the support sleeve 55 functions as a wedge and is pressed against the outer surface of the support column 12 and the inner surface of the fitting hole of the support tube portion 37 so that the support tube portion 37 is securely fixed to the support column 12. It has become. As a result, the protruding protrusion 56 of the support sleeve 55 is fitted into the annular groove 24 at an arbitrary position of the support column 12, and the support cylinder portion 37 is attached to the support sleeve 55. It can be fixed to the column 12 at an arbitrary height.
[0036]
The support sleeve 55 (see FIG. 8) is formed in a half-conical cylindrical shape so as to wrap the support 12. The support sleeve 55 formed in a conical cylindrical shape has a diameter that decreases upward and functions as a wedge. On the inner surface of the support sleeve 55, a locking protrusion 56 that is directly fitted into the annular groove 24 of the support column 12 is provided. The locking protrusion 56 is formed in an annular and thin protrusion. In a state where the locking protrusion 56 is fitted in the annular groove 24, the split support sleeve 55 is attached so as to wrap the support 12, so that the support sleeve 55 is shifted in the vertical direction with respect to the support 12. Without any problem, it is surely supported.
[0037]
The divided cylinder part 38 is constituted by one cylinder part obtained by dividing an ordinary support cylinder part (37) into two parts vertically. Here, it is comprised by the cylinder part below the normal support cylinder part (37) divided into two. As will be described later, the upper cylindrical portion is provided on the second plate member 13B side, and these are overlapped with each other so as to be fitted into one supporting sleeve 55. The divided cylindrical portions 38 and 42 of the adjacent plate members 13A and 13B are overlapped with each other in a state where the plate members 13A and 13B are attached to the support column 12 at the same height so as to constitute one supporting cylindrical portion. Are provided at positions shifted vertically. Thereby, it can attach to the support | pillar 12 in the state which kept adjacent plate member 13A, 13B at the same height.
[0038]
Support pieces 40 are provided at the left and right ends of the lower end of the wire mesh portion 33. This support piece 40 is a member for loosely fitting to the support column 12 to support the lower end of the wire mesh portion 33 and preventing blurring. The support piece 40 is configured by bending left and right ends of a horizontal metal wire located at the lower end of the metal wire constituting the wire mesh portion 33 into an annular shape. Of the left and right support pieces 40, the right support piece 40 </ b> A is provided at a position shifted upward, which is in the opposite direction to the shift of the divided cylindrical portion 38. Specifically, it is provided at a position shifted upward by the thickness of the support piece 40 and, when attached to the column 12, overlaps with the support piece 43 of the adjacent second plate member 13B vertically. Yes. The left support piece 40B extends in the horizontal direction at the same height as the horizontal metal wire positioned at the lower end.
[0039]
The second plate member 13B has substantially the same configuration as the first plate member 13A. That is, the second plate member 13 </ b> B includes a wire mesh part 33 and a reinforcing part 34. The wire mesh portion 33 and the reinforcing portion 34 are the same as the first plate member 13A.
[0040]
In the second plate member 13B, a normal support cylinder 41 is provided at the right end of the reinforcing part 34 provided at the upper portion, and a divided cylinder 42 is provided at the left end. The normal support cylinder 41 is the same as the support cylinder 37 of the first plate member 13A. The divided cylinder part 42 is a member that forms a pair with the divided cylinder part 38 of the first plate member 13A. That is, the divided cylinder part 42 is configured by the other (upper) cylinder part obtained by dividing the normal support cylinder part into two parts in the vertical direction, and overlaps the divided cylinder part 38 of the first plate member 13A in the vertical direction. A support cylinder is configured. Other configurations are the same as those of the divided cylinder portion 38 of the first plate member 13A.
[0041]
Both support pieces 43 provided at the left and right end portions of the lower end of the wire mesh portion 33 are configured to extend in the horizontal direction at the same height as the horizontal metal wire located at the lower end.
[0042]
Thereby, the division cylinder part 42 and the support piece 43 of the 2nd board member 13B are attached to the support | pillar 12 in the state which pinched | interposed the division cylinder part 38 and the support piece 40A of the 1st board member 13A from the upper and lower sides. It has become. As a result, when one of the plate members 13A and 13B tries to come out upward, the plate member 13B and 13A are caught on the divided cylinder portion or the support piece so as not to come off.
[0043]
The third plate member 13C has substantially the same configuration as the first plate member 13A. That is, the third plate member 13 </ b> C includes a wire mesh portion 33 and a reinforcing portion 34.
[0044]
The wire mesh portion 33 is the same as the first plate member 13A. The reinforcing portion 34 is provided at the lower end of the wire mesh portion 33.
[0045]
Of the connector 14, the normal support cylinder portion 45 and the support piece 46 on the left side have the same configuration as the support cylinder portion 37 and the support piece 40 </ b> B of the first plate member 13 </ b> A, but according to the reinforcement portion 34, It is provided upside down.
[0046]
The right divided cylinder portion 47 and the support piece 48 are provided upside down in accordance with the reinforcing portion 34. Further, the divided cylinder portion 47 is constituted by an upper cylinder piece among cylinder pieces obtained by dividing a normal support cylinder portion into two vertically. The specific configuration of the divided cylinder portion 47 is the same as that of the divided cylinder portion 42 of the second plate member 13B. The support piece 48 is provided at a position shifted downward, which is in the direction opposite to the shift of the divided cylindrical portion 47. The specific configuration is the same as that of the support piece 40A of the first plate member 13A with the top and bottom reversed.
[0047]
The fourth plate member 13D has substantially the same configuration as the second plate member 13B. That is, the fourth plate member 13 </ b> D is composed of a wire mesh part 33 and a reinforcing part 34.
[0048]
The wire mesh portion 33 is the same as the second plate member 13B. The reinforcing portion 34 is the same as the second plate member 13 </ b> B, but is provided at the lower end of the wire mesh portion 33.
[0049]
Of the connector 14, the normal support cylinder part 50 and the support piece 51 on the right side have the same configuration as the support cylinder part 41 and the support piece 43 of the second plate member 13 </ b> B, but according to the reinforcement part 34, It is provided upside down. The left divided cylinder part 52 and the support piece 53 are also provided upside down in accordance with the reinforcing part 34. Further, the divided cylinder portion 52 is constituted by a lower cylinder piece among cylinder pieces obtained by dividing a normal support cylinder portion into two vertically. In combination with the divided tube portion 52 and the divided tube portion 47 of the third plate member 13C, the divided tube portion 38 has the same configuration as the divided tube portion 38 of the first plate member 13A and the divided tube portion 42 of the second plate member 13B. . The support piece 53 is the same as the support piece 43 of the second plate member 13B.
[0050]
[Operation]
The partition 11 configured as described above is assembled as follows. Here, a case where the interior of the room is partitioned will be described.
[0051]
First, the support column 12 is assembled. The lower bar piece 16 and the middle bar piece 17 are screwed together and fixed. Here, two middle bar pieces 17 are used. Next, the upper bar piece 18 is inserted into the middle bar piece 17.
[0052]
Next, after confirming that the adjuster 20 is in the most contracted state, the upper bar piece 18 is extended until it contacts the ceiling. The upper bar piece 18 is turned and tightened to fix the upper bar piece 18 and the middle bar piece 17. Next, the end cap 30 is put on the upper end of the intermediate portion. If the adjuster 20 is turned in this state, the support column 12 is fixed in a state of being stretched between the floor and the ceiling. Here, remove without fixing. This adjustment is performed for the three columns 12.
[0053]
Next, as shown in FIG. 9, the four plate members 13A, 13B, 13C, and 13D are inserted into the three support columns 12, respectively. At this time, the divided cylindrical portion 38 and the support piece 40A of the first plate member 13A are inserted so as to be sandwiched between the divided cylindrical portion 42 and the support piece 43 of the second plate member 13B. That is, the divided cylinder portion 42 of the second plate member 13B is inserted first, then the divided cylinder portion 38 of the first plate member 13A is inserted, then the support piece 40A of the first plate member 13A is inserted, and finally The support piece 43 of the second plate member 13B is inserted. The supporting cylinder portion 37 and the supporting piece 40B outside the first and second plate members 13A and 13B, and the supporting cylinder portion 41 and the supporting piece 43 are inserted into the column 12 as they are.
[0054]
In the case of the third and fourth plate members 13C and 13D, the support piece 53 of the fourth plate member 13D, the support piece 48 of the third plate member 13C, the divided cylinder portion 47 of the third plate member 13C, and the fourth plate member 13D. Are inserted in this order. The support piece 46, the support cylinder part 45, the support piece 51, and the support cylinder part 50 outside the third and fourth plate members 13C and 13D are inserted into the column 12 as they are. Next, the adjuster 20 is attached to the lower end of the column 12.
[0055]
Next, the support cylinder part 37, the split cylinder part 38, the support cylinder part 41, the split cylinder part 42, the support cylinder part 45, the split cylinder part 47, the support cylinder part 50, and the split cylinder part 52 are supported at the attachment positions. The sleeve 55 is attached, and the cylinder portions are fitted from above. In the case of the divided cylindrical portions 38, 42 and 47, 52, the divided cylindrical portions 38, 42 and 47, 52 are fitted to the support sleeve 55 in a state where they are overlapped vertically. Thereby, as shown in FIG. 10, each plate member 13 is attached to the three support columns 12 at an arbitrary height, and the partition 11 is assembled. At this time, the adjacent plate members 13 are attached to the same height by the divided cylinder portions 38 and the like.
[0056]
Next, the partition 11 is erected and installed at an arbitrary position in the room, and the adjuster 20 is turned to stretch the column 12 on the floor and ceiling. In this case, as shown in FIG. 11, it is installed by being bent at 90 degrees, or as shown in FIG.
[0057]
[effect]
As described above, since the plate member 13 can be attached to an arbitrary position of the support column 12 by the connecting tool 14, the partition 11 can be assembled to an arbitrary size. Thereby, a partition can be comprised according to the magnitude | sizes of a room, indentation, etc.
[0058]
In addition, since the connector 14 of each plate member 13 is disposed so that the connector 14 of the other plate member 13 is held by one connector 14 of the adjacent plate member 13, the plate member 13 is prevented from coming off. be able to.
[0059]
Furthermore, since the partition 11 can be assembled only by inserting each connection tool 14 into the support | pillar 12, an assembly operation becomes easy. Also, disassembly becomes easy. That is, it becomes easy to attach and remove the partition 11.
[0060]
Further, since the divided cylindrical portions 38, 42 and 47, 52 of the connector 14 are shifted up and down so as to overlap, the adjacent plate members 13 can be arranged and supported at the same height.
[0061]
[Second Embodiment]
Next, a second embodiment of the present invention will be described. The partition of this embodiment is an example in which two plate members 13 are provided on the top and bottom. 13 is a perspective view showing the upper plate member 13 of the present embodiment, FIG. 14 is a perspective view showing the lower plate member 13 of the present embodiment, and FIG. 15 is a perspective view showing a partition of the present embodiment.
[0062]
The partition 60 according to the present embodiment includes the support column 12, the plate member 13, and the coupling tool 61.
[0063]
Two support columns 12 are arranged in parallel. The structure of this support | pillar is the same as that of the support | pillar 12 of 1st Embodiment.
[0064]
Here, two plate members 13 are arranged. The plate member 13 includes a wire mesh part 33 and a reinforcing part 34. The metal mesh part 33 and the reinforcing part 34 have the same configuration as in the first embodiment.
[0065]
The couplers 61 are provided at the four corners of the plate member 13. The connector 61 has a different configuration depending on the two plate members 13. Here, the upper plate member 13 of the two plate members 13 will be described as a first plate member 13E, and the lower plate member 13 will be described as a second plate member 13F.
[0066]
The first plate member 13E is provided with a reinforcing portion 34 in the upper part in the figure, and normal supporting cylinder portions 63 and 64 are provided at the left and right ends of the reinforcing portion 34. The normal support cylinders 63 and 64 are the same as the support cylinder 37 of the first embodiment.
[0067]
Support pieces 65 and 66 are provided at the left and right ends of the lower end of the wire mesh portion 33. The support pieces 65 and 66 are members that are fitted to the support column 12 and support the lower end of the wire mesh portion 33 so as not to be blurred. The support pieces 65 and 66 have the same configuration as the support piece 40B of the first embodiment.
[0068]
The second plate member 13F has substantially the same configuration as the first plate member 13E. That is, the second plate member 13 </ b> F includes a wire mesh portion 33 and a reinforcing portion 34. The wire mesh portion 33 and the reinforcing portion 34 have the same configuration as that of the first plate member 13E, except that they are upside down. The connector 61 is disposed upside down with respect to the first plate member 13E.
[0069]
[Operation]
The partition 60 configured as described above is assembled as follows.
[0070]
First, the support column 12 is assembled. The assembly of the support column 12 is the same as that in the first embodiment.
[0071]
Next, the two plate members 13E and 13F are inserted into the two support columns 12, respectively. Next, the support sleeve 55 is attached to an arbitrary position, and the support cylinder portions 63 and 64 are fitted from above. Thereby, each plate member 13 is attached to the two support columns 12 at an arbitrary height, and the partition 60 is assembled.
[0072]
Next, the partition 60 is erected and installed at an arbitrary position in the room, and the adjuster 20 is turned to stretch the column on the floor and ceiling.
[0073]
[effect]
As described above, it can be attached with little or no gap between the upper and lower sides or in a substantially closed state.
[0074]
Further, since the connecting tool 61 is composed of the supporting cylindrical portions 63 and 64 and the supporting pieces 65 and 66, the supporting pieces 65 and 66 can be easily inserted into the support column 12 and securely fixed by the supporting cylindrical portions 63 and 64. can do. Thereby, the partition 60 can be easily assembled and disassembled.
[0075]
[Modification]
(1) In each of the above-described embodiments, the divided cylindrical portion obtained by dividing the supporting cylindrical portion into two stages has been described as an example. However, as illustrated in FIG. In this case, out of the cylindrical pieces 71 obtained by dividing the conical cylinder into three vertically, two upper and lower cylindrical pieces 71A and 71C are attached to one plate member 13, and the central cylindrical piece 71B is attached to the other plate member 13. Install and configure. With this configuration, the upper and lower cylindrical pieces 71A and 71C of one plate member 13 and the central cylindrical piece 71B of the other plate member 13 are fitted to each other in one column 12 Will match.
[0076]
Thereby, the adjacent board member 13 can be connected to the same height, without shifting up and down. Further, since the upper and lower cylinder pieces 71A and 71C of the one plate member 13 sandwich the cylinder piece 71B at the center of the other plate member 13, the movement of the adjacent two plate members 13 to each other is restricted. End up. For this reason, if one plate member 13 tries to shift up and down, it is suppressed by the other plate member 13. As a result, it is possible to prevent the plate members 13 from being displaced from the support column 12 or falling off.
[0077]
At this time, the inner diameter of the central cylinder piece 71B may be set larger than the inner diameter of the conical cylinders constituting the upper and lower cylinder pieces 71A and 71C. As a result, the central cylindrical piece 71B can be easily fitted to the support column 12 and easily rotated. As a result, the plate member 13 can be easily rotated. By connecting a plurality of plate members 13 with the support columns 12 with this connecting tool, it can be used as a folding screen.
[0078]
(2) In each of the above embodiments, the case where two and four plate members 13 are combined vertically and horizontally has been described as an example, but one, three, or five or more plate members 13 may be combined. Depending on the installation location, a plurality of partitions can be combined to form an arbitrary size partition.
[0079]
(3) In each said embodiment, although the board member 13 was comprised with the board | plate material of a fixed magnitude | size, you may comprise the board member 13 of a different dimension according to an installation place. Thereby, the installation location or the like can be partitioned without a gap, or can be partitioned with a gap having a set dimension.
[0080]
【The invention's effect】
As described above in detail, according to the present invention, the following effects can be obtained.
[0081]
(1) Since a connector is provided on the left and right of the plate member, and a plurality of the plate members are combined at least on the left and right through the support column, the partition can be arbitrarily sized. Can be configured. At this time, a plurality of plate members can be connected to the left and right by a connector, and a plurality of plate members can also be connected vertically.
[0082]
(2) A connector is provided on the upper and lower ends of the left and right ends of the plate member, and one of the upper and lower connectors is provided with a supporting cylinder portion that fits into a support column and fixes the plate member at an arbitrary height. Since the support piece which loosely fits to the said support | pillar and supports a board member is provided in the other of the connection tool, it can be attached in the state which did not have much clearance up and down, or was almost closed. Moreover, a partition can be assembled easily.
[0083]
(3) The connector is configured to include a supporting cylinder portion that is fitted to the support column and fixed at an arbitrary height, and each of the support tube portions of adjacent plate members is attached to one of the support columns. In this state, the adjacent plate members can be connected to the same height without shifting up and down because they are provided at positions shifted so as to overlap each other in the vertical direction.
[0084]
(4) The supporting cylinder portion is composed of one cylindrical piece obtained by vertically dividing the conical cylinder, and the one cylindrical piece is shifted so as to overlap the other cylindrical piece vertically. Therefore, it is possible to connect to the same height without causing the supporting cylinder portion to be bulky and without causing adjacent plate members to shift up and down.
[0085]
(5) A connector is provided in one or both of the left and right ends of the plate member in one vertical direction, and the other in the vertical direction is provided with a connector shifted in the direction opposite to the displacement of the one connector in the vertical direction. Therefore, two plate members adjacent to each other are restricted from moving up and down by the support cylinder portion and the support piece, and when one plate member tries to shift up and down, each plate member is suppressed by the other plate member. Can be prevented from slipping out or falling off.
[0086]
(6) The connecting tool is configured to include a supporting cylinder portion that is fitted to the support column and is fixed at an arbitrary height, and each of the supporting cylinder portions is obtained by dividing the conical cylinder into three parts vertically. Since the upper and lower cylinder pieces or the central cylinder piece is attached to the plate member among the pieces, the adjacent plate members can be connected to the same height without shifting up and down. Furthermore, since the upper and lower cylinder pieces of one plate member sandwich the cylindrical piece at the center of the other plate member, the two adjacent plate members are restricted from moving up and down, and each plate member is displaced or dropped off. Can be prevented.
[0087]
(7) Since the inner diameter of the central cylinder piece of the supporting cylinder part is set larger than the inner diameter of the conical cylinders constituting the upper and lower cylinder pieces, the plate member can be easily rotated, These plate members can be connected by a support column and used as a folding screen.
[0088]
(8) Since the plate member is made of a wire mesh, it can be physically partitioned but can be a partition that is not completely shielded visually. Moreover, the wall surface can be effectively used by hanging an object on the wire mesh.
[Brief description of the drawings]
FIG. 1 is an exploded view showing a partition according to a first embodiment of the present invention.
FIG. 2 is a front view showing a conventional partition.
FIG. 3 is a perspective view showing three bar pieces of the support according to the first embodiment of the present invention.
FIG. 4 is a front view showing a post adjuster according to the first embodiment of the present invention.
FIG. 5 is a front view showing a plate member according to the first embodiment of the present invention.
FIG. 6 is a plan view showing a plate member according to the first embodiment of the present invention.
FIG. 7 is a front view showing a supporting cylinder portion according to the first embodiment of the present invention.
FIGS. 8A and 8B are a perspective view and a front view showing a supporting sleeve according to the first embodiment of the present invention. FIGS.
FIG. 9 is a perspective view showing an assembled state of the partition according to the first embodiment of the present invention.
FIG. 10 is a front view showing an assembled state of the partition according to the first embodiment of the present invention.
FIG. 11 is a perspective view showing an installation example in which the partition according to the first embodiment of the present invention is bent at a right angle.
FIG. 12 is a perspective view showing an installation example in which the partition according to the first embodiment of the present invention is spread flat.
FIG. 13 is a perspective view showing an upper plate member 13 according to a second embodiment of the present invention.
FIG. 14 is a perspective view showing a lower plate member 13 according to a second embodiment of the present invention.
FIG. 15 is a perspective view showing a partition according to a second embodiment of the present invention.
FIG. 16 is a front view showing a modification.
[Explanation of symbols]
11: partition, 12: support, 13: plate member, 14: connector, 16: lower bar piece, 17: middle bar piece, 18: upper bar piece, 20: adjuster, 21: nut part, 22: support foot part , 24: annular groove, 26: screw thread, 27: rod part, 28: contact part, 29: pressure contact nut, 30: end cap, 31: thread thread, 33: wire mesh part, 34: reinforcement part, 34A, 34B , 34C: wire rod, 37: support tube portion, 38: split tube portion, 40: support piece, 41: support tube portion, 42: split tube portion, 43: support piece, 45: support tube portion, 46: Support piece, 47: Divided tube portion, 48: Support piece, 50: Support tube portion, 51: Support piece, 52: Divided tube portion, 53: Support piece, 55: Support sleeve, 56: Locking ridge .

Claims (6)

In the partition that partitions the space by installing the plate member upright,
A connecting tool is provided on the upper and lower ends of the left and right ends of the plate member, and one of the upper and lower connecting tools is provided with a supporting cylinder portion that fits on a support and fixes the plate member at an arbitrary height. A partition having a support piece for loosely fitting to the support and supporting the plate member. In the partition of Claim 1,
Among the support cylinders of the connector , each support cylinder of the adjacent plate member is provided at a position shifted so as to overlap each other while being attached to one of the columns. The partition. In the partition of Claim 2 ,
The supporting cylinder is composed of one cylindrical piece obtained by vertically dividing the conical cylinder into two parts, and the one cylindrical piece is shifted from the other cylindrical piece so as to overlap each other vertically. A partition characterized by being attached to a plate member. In the partition of Claim 1,
The partition characterized by the above-mentioned supporting cylinder part being constituted by attaching two upper and lower cylinder pieces or a central cylinder piece to a plate member among the respective cylinder pieces obtained by dividing the conical cylinder into upper and lower parts. In the partition of Claim 4 ,
A partition characterized in that an inner diameter of a central cylindrical piece of the supporting cylindrical portion is set larger than an inner diameter of a conical cylinder constituting upper and lower cylindrical pieces. The partition according to any one of claims 1 to 5 ,
A partition characterized in that the plate member is made of a wire mesh.

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