JP4097810B2 - Movable passage structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a passage structure for connecting a pair of housings so that they can pass.
[0002]
[Prior art]
Conventionally, various expansion joint devices have been proposed and put into practical use in order to connect a pair of housings so that they can pass through. Such an expansion joint device includes a floor body provided between a pair of housings and a side wall body that rises upward from both side portions of the floor body, and the floor body and the side wall body are connected to be relatively displaceable. Configured. Therefore, when the pair of housings are displaced in directions that are relatively close to or away from each other, the floor body and the side wall body are relatively displaced, thereby permitting relative displacement of the pair of housings.
[0003]
[Problems to be solved by the invention]
In such an expansion joint device, the floor body and the side wall body must be configured to be relatively displaceable, and there is a problem that the configuration is complicated, the number of parts is increased, and the installation work is complicated. Therefore, it is desired to realize a passage structure with a relatively simple configuration for connecting the pair of housings so that they can pass through.
[0004]
In the above-mentioned prior art, even if each building and the corridor have a relative displacement in the direction of approaching / separating from each other due to a sudden earthquake or uneven ground subsidence, the displacement in each direction can be allowed. There is a limit of the amount of displacement or less that can maintain the both ends of the joint plate in the width direction by each support rail, and on the contrary, the gap between both ends of the crossing corridor and each building is It must be as small as possible for the safety of passers-by as long as mutual interference can be avoided. Therefore, in the above prior art, there is a problem that a large displacement between each building and the passageway cannot be allowed.
[0005]
An object of the present invention is to provide a movable passage structure that connects a pair of housings with a simple configuration and allows a large relative displacement of the pair of housings.
[0006]
[Means for Solving the Problems]
  The present invention is a movable passage structure provided with a passage body provided to be able to pass between a pair of housings,
  One housing is provided with a first guide rail, and the other housing is provided with a second guide rail,
  The first guide rail extends in a first direction that approaches and separates from the other housing, and the second guide rail extends in a second direction perpendicular to the first direction. ,
  The passage body includes the first guide rail.Moved toA first support roller body that is movably supported, and the second guide railMoved toA second support roller body that is movably supported;
  The first and second guide rails include rail members that support the first and second support rollers, and guide members projecting upward are provided on both sides of the rail members, respectively. The upper end of each part is provided with a protrusion for preventing separation that protrudes on both sides,
  The passage body is provided with an abutting member partly located below each of the first and second guide rail protrusions for preventing separation.
  When the pair of housings are relatively displaced in the first direction, the first support roller body is relatively moved along the first guide rail, and the pair of housings are moved to the second direction. The movable passage structure is characterized in that the second support roller body is moved along the second guide rail when displaced relatively in the direction.
[0007]
  According to the present invention, one casing is provided with a first guide rail extending in the first direction, and the other casing is provided with a second guide rail extending perpendicularly to the first direction. The passage body connecting the pair of housings is provided with a first support roller body supported by the first guide rail and a second support roller body supported by the second guide rail,A guide member is provided on each of the rail members of the first and second guide rails, a separation preventing projection is provided on each guide member, and a part of the passage body is provided below each separation preventing projection. A contact member to be arranged is provided.
  Therefore, when the pair of housings are relatively displaced in the first direction, the first support roller body is along the first guide rail.PhaseWhen the pair of housings move relative to each other and the pair of housings are relatively displaced in the second direction, the second support roller body moves along the second guide rail.MoveAnd thus allows a large relative displacement of the pair of housings. In addition, the first and second guide rails are provided in the pair of housings, and the passage body is provided between the pair of housings with a relatively simple configuration in which the first and second support rollers are provided in the passage body. Can be installed easily.
[0008]
  Further, the present invention is a movable passage structure provided with a passage body provided to be able to pass between a pair of housings,
  The passage body is provided with a first rail and a second rail,
  The first rail extends in a first direction in which the respective housings are relatively close to and away from each other, and the second rail extends in a second direction perpendicular to the first direction in a horizontal plane. ,
  One housing has the first railGasA first guide member that is movably fitted is provided, and the second rail is provided on the other casing.GasA second guide member is provided for movably fitting;
  On both sides of the first and second rails, concave grooves are respectively formed,
  Each of the first and second guide members is formed with a pair of fitting ridges that fit into the concave grooves.This is a movable passage structure.
[0009]
According to the present invention, when each housing is relatively displaced in the first direction, the first rail is guided by the first guide member, and the passage body is relative to each housing in the first direction. Move on. When each housing is relatively displaced in the second direction, the second rail is guided by the second guide member, and the passage body moves relative to each housing in the second direction. Thus, even if each housing is relatively displaced in the first and second directions, a gap between the housings is always closed by the passage body, and a large relative displacement of each housing can be allowed.
[0010]
  The passage body is provided with a first rail and a second rail, one housing is provided with a first guide member into which the first rail is slidably fitted, and the other housing is provided with a first rail. A second guide member is provided on which the two rails are slidably fitted.Concave grooves are formed on both sides of the first and second rails, and fitting ridges are formed on the first and second guide members to fit into the concave grooves.Therefore, there is little deviation in the width direction perpendicular to the longitudinal direction of each rail, and the first and second directions are highly accurate.To eachThe rail can be guided, the effective contact area of each rail with respect to each guide member can be increased, and the passage body can be supported with high strength.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
1-6 has shown one Embodiment of the movable channel | path structure 2 according to this invention. FIG. 1 is a perspective view schematically showing a state in which a movable passage structure 2 according to the present invention is installed between a pair of housings 4 and 6, and FIG. 2 is a plan view showing the movable passage structure 2 in FIG. 3 is a cross-sectional view taken along the line III-III in FIG. 2, and FIG. 4 is an enlarged view of the first support roller body 56 mounted on the movable passage body 16 in FIG. 5 is a partial enlarged cross-sectional view, FIG. 5 is a partial cross-sectional view showing one end portion of the floor portion of the passage body 16, and FIG. 6 is a view showing a state when a pair of housings are relatively displaced. .
[0012]
Referring to FIGS. 1 and 2, the movable passage structure 2 is provided between a pair of adjacent housings 4 and 6. The pair of housings 4 and 6 is a building such as a building. In this embodiment, the movable passage structure 2 is installed so as to connect the veranda 8 of one housing 4 and the passage 10 of the other housing 6. ing.
[0013]
In this embodiment, one casing 4 is provided with a protruding floor portion 12 that protrudes toward the other casing 6, and a side wall portion 14 that extends upward is integrally formed on the peripheral portion of the protruding floor portion 12. A substantially rectangular opening 18 is formed corresponding to a part of the side wall portion 14 and a portion where the passage body 16 is installed. Further, the other housing 6 is provided with a support protrusion 20 in association with the passage 10, and the support protrusion 20 extends in the left-right direction in FIG. 2 on both sides of the passage 10.
[0014]
The movable passage structure 2 includes a passage body 16 installed between the pair of housings 4 and 6, and first guide rails 24 and 26 and a second guide rail 28 for supporting the passage body 16. . Referring also to FIG. 3, the first guide rails 24, 26 are provided on the projecting floor portion 12 of one housing 4, and in a first direction (lower right in FIG. 1) approaching and separating from the other housing 6. 2 in the upper left direction, the up and down direction in FIG. 2, and the direction perpendicular to the paper surface in FIG. The first guide rails 24 and 26 have substantially the same configuration. The first guide rail 24 (26) has a base member 28 embedded in the projecting floor portion 12 and a rail member 30 fixed to the upper surface of the base member 28. Referring also to FIG. 4, guide protrusions 32, 34 projecting upward are provided on both sides of the rail member 30, and separation preventing protrusions projecting on both sides are provided on the upper ends of the guide projections 32, 34. Portions 36 and 38 are provided. The guide protrusions 32, 34 and the protrusions 36, 38 are provided over substantially the entire length of the first guide rail 24 (26), and the pair of guide protrusions 32, 34 extend in the first direction between them. Is specified.
[0015]
The second guide rail 28 is provided on the support protrusion 20 of the other housing 6 and is perpendicular to the first direction in the horizontal plane (the direction from the lower left to the upper right in FIG. 1, FIG. 2). In the left-right direction). The configuration of the second guide rail 28 is substantially the same as the configuration of the first guide rails 24, 26, and therefore the description of the configuration is omitted.
[0016]
The illustrated passage body 16 includes a floor body 40 that functions as a floor surface between a pair of housings 4 and 6, side wall bodies 42 and 44 provided on both sides of the floor body 40, and one end of one side wall body 42. A protective wall body 46 extending outward in the second direction from the first portion, and a protective wall body 48 extending outward in the second direction from one end of the other side wall body 44. In this form, the inner side portions of the protective wall bodies 46 and 48 cover a part of the opening of the passage 10 of the other housing 6, and the floor body 40 is disposed to face the central portion of the passage 10. The side wall bodies 42 and 44 have substantially the same configuration. The side wall body 42 (44) includes a pair of reinforcing plates 50 and 52 provided over substantially the entire length thereof, and the lower ends of the reinforcing plates 50 and 52 are fixed to the base member 54. A first support roller body 56 is provided on the lower surface of the base member 54. The first support roller body 56 is attached to an attachment member 58 attached to the base member 54 and to the attachment member 58 so as to be rotatable about an axis extending in the vertical direction (vertical direction in FIGS. 3 and 4). The rotating member 60 includes a plurality of rollers 62 that are rotatably mounted on the rotating member 60 in any direction. On both side portions of the base member 54, mounting projections 68 and 70 projecting upward substantially over the entire length are provided, and one (outside) mounting projection 68 is provided on the projection 36 of the first guide rail 24. A contact member 72 is provided so as to be able to contact. Further, a substantially L-shaped support bracket 74 is fixed to the other mounting protrusion 70, and a contact member is attached to the lower surface of the support bracket 74 so as to be able to contact the other protrusion 38 of the first guide rail 24. 76 is fixed. A connection member 84 is fixed to the upper ends of the pair of reinforcing plates 50 and 52, and a handrail member 86 is attached to the upper surface of the connection member 84. A pair of decorative plates 78 and 80 are provided outside the reinforcing plates 50 and 52. An upper end portion of the inner decorative plate 78 is attached to the inner surface of the connection member 84, a lower end portion thereof is attached to a mounting bracket 88 fixed to the reinforcing plate 50, and an upper end portion of the outer decorative plate 80 is attached to the connection member 84. It is attached to the outer surface, and its lower end is attached to a mounting bracket 90 fixed to the reinforcing plate 52.
[0017]
The floor body 40 is provided between the pair of side wall bodies 42 and 44. The floor body 40 includes an upper plate 94 constituting the floor surface and a lower plate 96 disposed below the upper plate 94, and both side portions of the upper plate 94 are upper ends of the support brackets 74 of the side wall bodies 42 and 44. The both sides of the lower plate 96 are fixed to the lower ends of these support brackets 74. As shown in FIG. 5, a plurality of reinforcing members 98 and 100 are interposed between the upper plate 94 and the lower plate 96 at intervals in the longitudinal direction.
[0018]
The protective wall bodies 46 and 48 are configured substantially the same as the side wall bodies 42 and 44 described above, and the description of the specific configuration is omitted. In this embodiment, a pair of second support rollers 102 are attached to the protective wall body 46 with a distance in the second direction, and the other protective wall body 48 is also spaced in the second direction. A pair of second support rollers 102 are attached. The configuration of the second support roller body 102 is substantially the same as that of the first support roller body 56.
[0019]
The passage body 16 is attached between the pair of housings 4 and 6 as shown in FIGS. In this embodiment, the first support roller body 56 is disposed at the other end portion of the side wall bodies 42, 44, and the first support roller body 56 of the side wall body 42 is guided by the first guide rail 24. The first support roller body 56 of the other side wall body 44 is movably received between the portions 32 and 34 (see FIG. 4), and the guide protrusions 32, 34 (see FIG. 4) is movably received along these. Accordingly, the passage body 16 is supported so as to be movable in the first direction relative to the one housing 4. In addition, the second support roller body 102 is disposed at both ends of the protection wall bodies 46 and 48, and the second support roller body 102 of the protection wall bodies 46 and 48 is not clearly shown, Between the pair of guide protrusions of the guide rail 28 is movably received along the guide protrusion 28. Accordingly, the passage body 16 is supported so as to be movable in the second direction relative to the other housing 6.
  ThisIn such a support state, a part of the contact members 72 and 76 of the side wall body 42 (44) is part of the first guide rail 24 (26).SuddenTherefore, when the side wall body 42 (44) moves relatively upward with respect to the housing 4, the contact members 72 and 76 are located on the first guide rail 24. (26)SuddenAbutting against the portions 36 and 38, the upward displacement of the passage body 16 is reliably prevented. Although not shown, a part of the contact member of the protective wall bodies 46, 48 is located below the contact portion of the second guide rail 28. Therefore, the protective side wall bodies 46, 48 are not shown. Is moved upward relative to the other housing 6, the abutting member abuts against the abutting portion of the second guide rail 28, thereby reliably preventing the passage body 16 from being displaced upward. The
[0020]
In addition, in order to ensure the safety at the time of passing through the passage body 16, it is desirable to configure the floor surface at the end of the passage body 16 as shown in FIG. That is, it is desirable that one end portion of the upper plate 94 is linearly inclined downward toward the lower plate 96 at the end portion of the floor body 40, and one end thereof is connected to the upper surface of the lower plate 96. By doing so, for example, at the connection portion between one housing 4 and the passage body 16, the height of the floor surface of the protruding floor portion 12 of the housing 4 and the floor surface of the floor body 40 of the passage body 16 can be made substantially equal. it can. Moreover, in the connection part of the channel | path body 16 and the other housing 6, it is desirable to set the floor surface of the floor body 40 of the channel body 16, and the floor surface of the channel | path 10 of the other housing 6 to the substantially same height. . In order to prevent slipping during passage, it is desirable to provide an anti-slip sheet 108 on the upper surface of the upper plate 94 of the floor body 40.
[0021]
In such a movable passage structure 16, relative displacement between the pair of housings 4 and 6 is allowed as follows. When the pair of housings 4 and 6 are displaced in directions close to each other, the first support roller body 56 attached to the side walls 42 and 44 is moved in the direction indicated by the arrow 106 along the first guide rails 24 and 26. The relative movement of the first support roller body 56 allows a large relative displacement of the pair of housings 4 and 6, and thus the pair of housings 4 and 6 are displaced. However, the passage body 16 is not damaged. At this time, the second support roller body 102 mounted on the passage body 16 does not substantially move in the first direction relative to the other housing 6. When the pair of housings 4 and 6 are displaced in directions away from each other, the first support roller body 56 is opposite to the arrow 106 along the first guide rails 24 and 26, contrary to the above. It moves relative to the direction, and the displacement in the separation direction described above is absorbed by this movement. A plurality of rollers 62 are mounted on the first support roller 56 so as to be rotatable in an arbitrary direction, and a rotating member 60 on which the plurality of rollers 62 are mounted is rotatably supported by an attachment member 58. Therefore, the relative movement of the first support roller body 56 is smoothly performed along the guide protrusions 32 and 34 of the first guide rails 24 and 26.
[0022]
Further, when the pair of casings 4 and 6 are relatively displaced in the second direction, as understood from FIG. 6, the second support roller body 102 mounted on the protective wall bodies 46 and 48 is used as the second guide. It moves relative to the second direction along the rail 28, and the relative movement of the second support roller body 102 allows a large relative displacement of the pair of housings 4 and 6. At this time, the first support roller body 56 attached to the passage body 16 does not substantially move in the first direction relative to the housing 4. Since the second support roller body 102 has substantially the same configuration as the first support roller body 56, the second support roller body 102 moves smoothly along the guide protrusions of the second guide rail 28. .
[0023]
In the present embodiment, the end portion of the wall portion 14a of the side wall portion 14 provided on the protruding floor portion 12 of one of the housings 4 is located close to the outside of the side wall body 42 of the passage body 16, and its wall. The portion 14b extends close to the outside of the side wall body 44 of the passage body 16 and substantially parallel thereto. Therefore, when the passage body 16 moves relatively greatly in the second direction with respect to the housing 4, the passage body 16 comes into contact with the wall portions 14 a and 14 b of the side wall portion 14. The relative movement of the passage body 16 in the second direction is reliably prevented.
[0024]
In the embodiment described above, the movement in the first direction is supported by the pair of first guide rails 24 and 26. However, when the load on the passage body 16 is large, three or more first guide rails are used. Can also be supported. In addition, the movement in the second direction is supported by one second guide rail 28. However, when the load on the passage body 16 is large, the movement may be supported by two or more second guide rails. it can. Further, the number of the first and second support roller bodies 56 and 102 that support the passage body 16 can be appropriately increased or decreased in consideration of a load or the like.
[0025]
In this embodiment, in order to smoothly move the passage body 16 in the first direction, the guide extends in the first direction between the side wall bodies 42 and 44 of the passage body 16 and the side wall 14 of the housing 4. A mechanism can also be interposed.
[0026]
7 is a perspective view schematically showing a movable passage structure 350 according to another embodiment of the present invention, FIG. 8 is a plan view of the movable passage structure 350, and FIG. 9 is a sectional line IX in FIG. FIG. 10 is an enlarged cross-sectional view seen from −IX, FIG. 10 is an enlarged cross-sectional view showing section X of FIG. 9, FIG. 11 is a perspective view showing a part of FIG. 10, and FIG. FIG. 6 is a partial cross-sectional view seen from a cutting plane line XII-XII. In FIG. 11, the cover means 431 is omitted for easy illustration.
[0027]
Referring to FIGS. 7 and 8, movable passage structure 350 is provided between a pair of adjacent housings 351 and 352. The pair of housings 351 and 352 is a building such as an apartment. In this embodiment, a movable passage structure 350 is installed so as to connect the veranda 353 of one housing 351 and the passage 354 of the other housing 352. The The movable passage structure 350 allows the displacement of the housing in the first direction A1 in which the housings 351 and 352 approach and separate from each other, and in the second direction A2 perpendicular to the first direction in the horizontal plane. Each housing 351, 352 is connected.
[0028]
The veranda 353 of one housing 351 is provided with a protruding floor portion 355 that protrudes toward the other housing 352. A side wall portion 356 that rises upward and extends along the peripheral edge is integrally provided at the peripheral edge of the protruding floor portion 355. A rectangular opening 357 is formed in the side wall portion 356 so as to face the other housing 352. The passage 354 provided in the other housing 352 extends in the second direction A2 inside the side wall 390 of the other housing 352 and functions as a corridor. An opening 391 is formed in the side wall portion 390 of the other housing 352 so as to face the opening 357 of the side wall portion 356 of the one housing 351. The other housing 352 is provided with a support protrusion 358 that protrudes toward the one housing 352 from the side wall 390 and extends in the second direction A2 at a portion that is substantially opposite to the projecting floor 355. The central portion in the longitudinal direction of the support protrusion 358 further protrudes to form a center support protrusion 359.
[0029]
The movable passage structure 350 is provided from the projecting floor portion 355 of one housing 351 to the support protrusion 358 of the other housing 352, and includes a passage body 360, a pair of first rails 361, 362, and a pair of first guide members. 364, 365, a second rail 363, and a pair of second guide members 366, 367. The passage body 360 includes a floor body 385 provided from the projecting floor portion 355 of one housing 351 to a central support projection 359 of the other housing 352, and a pair of side walls provided upright on both sides of the floor body 385. A body 386, 387 and a pair of protective wall bodies 388, 389 supported on the support protrusion 358 of the other housing 352, and the protection wall bodies 388, 389 are parallel to the side wall portion 390 of the other housing 352, respectively. Provided, and vertically connected to the end portions of the side wall bodies 386 and 387, respectively.
[0030]
As shown in FIG. 9, a pair of first guide rails 361 and 362 extending in the first direction A1 on both sides in the width direction are provided on the back side of the floor body 385 of the passage body 360, and the other of the passage body 360 is provided. A second rail 363 extending in the second direction A2 is provided at the lower end of the end portion of the housing 352 side. A pair of concave grooves 370 and 371 extending in the first direction A1 corresponding to the pair of first rails 361 and 362 of the passage body 360 are formed in the projecting floor portion 355 of one housing 351, and FIG. As shown, first guide members 364 and 365 for guiding the first rails 361 and 362 are provided in the concave grooves 370 and 371, respectively. Similarly, a pair of second guide members 366 and 367 for guiding the second rail 363 are provided on the support protrusion 358 of the other housing 352 with an interval in the second direction A2. Each of the first rails 361, 362 and the second rail 363 has a substantially quadrangular prism shape, the upper part is attached to the floor body 385, and substantially V-shaped concave grooves 368, 369 facing each other are provided on both sides of the entire length in the longitudinal direction. Formed over.
[0031]
With reference to FIG. 9 and FIG. 10, the structure of the 1st guide members 364 and 365 which guide the 1st rails 361 and 362 is demonstrated. Rectangular base plates 372 and 373 are laid on the bottoms of the concave grooves 370 and 371, respectively. Attachment plates 374 and 375 are fixed to the base plates 372 and 373 by welding. Buffers 376 and 377 made of elastomer, urethane rubber or chloroprene rubber are mounted on the mounting plates 374 and 375, respectively. The first guide members 364 and 365 are mounted on the cushioning materials 376 and 377, respectively. The first guide members 364 and 365 are fixed to the mounting plates 374 and 375 by bolts 378 through the buffer materials 376 and 377, respectively. Therefore, even if the first guide members 364 and 365 or the first rails 361 and 362 are twisted or thermally expanded or contracted, errors due to these deformations are absorbed by the buffer materials 376 and 377, and The positional relationship between the 1 rails 361 and 362 and the first guide members 364 and 365 can be maintained with high accuracy.
[0032]
Each of the first guide members 364 and 365 includes a base 380 formed in a substantially rectangular parallelepiped shape, a pair of protrusions 381 and 382 that protrude upward from the base 380 and extend in the longitudinal direction, and the protrusions 381 and 382 mutually It has a pair of substantially V-shaped fitting protrusions 383 and 384 that protrude in the approaching direction and fit into the concave grooves 368 and 369 of the first rails 361 and 362. In this way, the first rails 361 and 362 are slidably fitted to the first guide members 364 and 365, respectively. As a result, the first rails 361 and 362 are prevented from being pulled out in the vertical direction by the fitting protrusions 383 and 384 of the first guide members 364 and 365, and the displacement in the width direction hardly occurs. Each of the second guide members 366 and 367 has the same configuration as that of each of the first guide members 364 and 365, and a description thereof will be omitted.
[0033]
The floor body 385 is made of a floor plate 400, a plurality of support members 399 extending in the width direction below the floor plate 400 and spaced apart in the longitudinal direction, and H-shaped steel. A pair of base members 395 and 396 extending in the direction A1 and rail mounting plates 397 and 398 fixed to the base members 395 and 396 are configured.
[0034]
The pair of rail mounting plates 397 and 398 are mounted in the longitudinal direction below the lower flange 401 of each base member 395 and 396 and fixed at a plurality of locations by a plurality of bolts 404.
[0035]
The first rails 361 and 362 are fixed to the rail mounting plates 397 and 398 by a plurality of bolts 405. More specifically, each of the first rails 361 and 362 is formed with a plurality of insertion holes 406 penetrating in the vertical direction, spaced apart from each other in the longitudinal direction, and having a space in which the head of the bolt 405 can be accommodated. Is done. Each rail mounting plate 397 and 398 is formed with a plurality of screw holes 407 that are screwed into the respective bolts 405 at positions corresponding to the respective insertion holes 406. Each bolt 405 inserted into each insertion hole 406 of each first rail 361, 362 is screwed into each screw hole 407 of each rail mounting plate 397, 398, whereby each first rail 361, 362 becomes each rail mounting plate. 397, 398.
[0036]
The plurality of support members 399 are formed in a rectangular tube shape, spaced apart from each other in the longitudinal direction of the base members 395 and 396, spanned between the base members 395 and 396, and fixed on the lower flanges 401, respectively. Is done. The floor plate 400 is provided over the plurality of support members 399 and is fixed to each support member 399 by screws 408. The floor plate 400 is covered with a sheet 409 having anti-slip properties on the upper surface thereof.
[0037]
Each of the side wall bodies 388 and 389 includes a plurality of strut reinforcing members 411, a plurality of reinforcing members 412, a plurality of struts 413, a plurality of lower chord members 414, an upper chord member 415, and a decorative plate 416, respectively. The plurality of column reinforcing members 411 are formed in a substantially rectangular tube shape, and are erected on the upper flanges 403 of the base members 395 and 396 at intervals in the longitudinal direction of the base members 395 and 396. . The plurality of reinforcing members 412 are formed in a substantially L shape, and connect both side portions of each column reinforcing member 411 and the upper flange 403 of each base member 395 and 396, respectively. More specifically, each reinforcing member 412 has an upper flange 403 side portion 412a fixed to the upper flange 403 of each base member 395 and 396 by a bolt 417a and a nut 417b, and a column reinforcing member 411 side portion 412b by a bolt 418. It is fixed to the respective side portions of the column reinforcing member 411.
[0038]
The support column 413 is formed in a substantially rectangular tube shape, and is inserted into and fixed to the support column reinforcing members 411 from above. The lower chord material 414 is formed so as to have a substantially U-shaped cross-sectional shape in the direction of the axis, and extends between the lower portions of the columns 413. Each lower chord member 414 is stretched between the lower portions of the columns 413 by a substantially U-shaped bracket 419 attached to the lower portion of the columns 413. Each lower chord member 414 is provided with a first protrusion 420 that extends over the entire length in the longitudinal direction and protrudes upward. The upper chord material 415 is provided so as to continuously extend between the upper ends of the columns 413. The upper chord member 415 is provided with a second projecting portion 421 that extends over the entire length in the longitudinal direction excluding a portion corresponding to each column 413 and projects downward. The decorative plate 416 has an upper end fixed to the second protrusion 421 and a lower end fixed to the first protrusion 420. On the upper part of the upper chord member 415, a handrail member 422 extending substantially over the entire length in the longitudinal direction is provided. The protective wall bodies 388 and 389 have the same configuration as the above-described side wall bodies 386 and 387, and the description thereof is omitted.
[0039]
Referring to FIG. 10, the lower portions of the side wall bodies 386 and 387 are respectively covered with cover means 431 and 432. Each cover means 431, 432 includes a support body 433, a mounting body 434, an outer cover body 435 extending along the longitudinal direction of each base member 395, 396, and an inner side extending along the longitudinal direction of each base member 395, 396. Cover body 436. The support body 433 is fixed to the upper flange 403 of each base member 395, 396 by bolts 417a and nuts 417b, and extends to the outside substantially horizontally and continues to the horizontal section 437, and inclines downward toward the outside. And a falling portion 438. The attachment body 434 is fixed to the reinforcing member 412 by welding, and has a base portion 439 having a substantially L-shaped cross section, a welding portion fixed to a portion facing the outside of the base portion 439, and a rising portion 440 extending upward, and a rising portion It has a mounting portion 441 that is continuous with the upper end portion of 440 and is inclined downward toward the inside.
[0040]
The outer cover body 435 is provided outside the side wall bodies 386 and 387, has a substantially L-shaped cross-section, and forms an acute angle at the bent portion 442 that bends inward and the upper end portion of the bent portion 442. The upper cover part 443 that is continuous and is inclined upward as it goes outward, and the outer cover that is continuous with the free end of the upper cover part 443 and that is downwardly inclined toward the outer side so as to contact the falling part 438. Part 444. The inner cover body 436 is provided inside each of the side wall bodies 386 and 387, has a substantially L-shaped cross section, and forms an obtuse angle at the bent portion 445 that bends outward and the upper end portion of the bent portion 445. The upper cover part 446 that inclines downward as it goes inward, the inner cover part 447 that inclines downward as it goes inward, and the free end part of the upper cover part 446, and above the vinyl sheet 409 A horizontal portion 448 that extends to the outer side of the inner cover portion 447 and extends substantially horizontally toward the outer side, and a falling portion 449 that continues to the free end of the horizontal portion 448 and extends substantially vertically downward. Have. On the upper surfaces of both end portions in the longitudinal direction of each support member 399, a mounting piece 450 having a substantially L-shaped cross section and bent outward is fixed.
[0041]
The bent portion 442 of the outer cover body 435 is mounted on the mounting portion 441 of the mounting body 434. The bent portion 445 of the inner cover body 436 is mounted on the bent portion 442. In this state, the attachment portion 441 and the bent portions 442 and 445 are fixed by screws 451. The outer cover portion 444 of the outer cover body 435 is supported in contact with the falling portion 438 of the support body 433. Further, the falling portion 449 of the inner cover body 436 abuts on the attachment piece 450 and is fixed by a screw 452. Furthermore, the upper surface of the upper cover portion 443 of the outer cover body 435 and the upper surface of the upper cover portion 446 of the inner cover body 436 are disposed on the same plane and are provided so as to be inclined downward from the outside toward the inside.
[0042]
In a state where the outer cover body 435 and the inner cover body 436 are attached, the base members 495 and 496 are attached to the cover means 431 and 432 by the bent portion 442 of the outer cover body 435 and the bent portion 445 of the inner cover body 436, respectively. A concave groove 453 that extends along the longitudinal direction and opens upward is formed. A sealing member 454 for waterproofing is attached to the concave groove 453. The horizontal portion 448, the falling portion 449, and the floor plate 400 of the inner cover body 436 form a concave groove 455 that opens inward along the longitudinal direction of each base member 395,396. A seal member 456 for waterproofing is attached to the concave groove 455. Each of the upper cover portions 443 and 446 corresponding to the position where the column 413 is provided is bent downward so that a part of the upper cover 443 surrounds the column 413 and bent in a direction close to the column reinforcing member 411. A recess 457 is formed. Cover means having the same structure as the cover means 431 and 432 are provided below the respective protective wall bodies 388 and 389.
[0043]
The floor plate 400 of the floor body 385 is provided so as to be inclined downward as an end portion 400a on one side of the housing 351 moves from the side of the other housing 352 toward the side of the one housing 351. Further, the floor plate 400 of the floor body 385 is provided so as to be inclined downward as the other housing 352 side end portion 400b moves from one housing 351 side to the other housing 352 side. On the protruding floor portion 355, the side portions of the floor body 385 and the side portions of the floor body 385 are positioned in the vicinity of the one end portion 400 a of the floor body 400 of the floor body 385 in a state where the respective housing bodies 351, 352 are not relatively displaced. A member 458 that fills the step with the protruding floor 355 is installed.
[0044]
In such a movable passage structure 350, a large relative displacement of each housing 351, 352 is allowed as follows. When the housings 351 and 352 are displaced in the relatively approaching direction, the first rails 361 and 362 are guided by the first guide members 364 and 365, respectively, and the passage body 360 is Move in the close direction. Further, when the housings 351 and 352 are displaced in the direction A2 in which they are relatively separated from each other, the first rails 361 and 362 are guided by the first guide members 364 and 365, respectively, and the passage body 360 is moved relative to one housing 351. And move relatively in the separating direction. At this time, the second rail 363 extends in the second direction A2 and is fitted to the second guide members 366 and 367, and does not move in the first direction A1. In this way, relative displacement in the first direction A1 is allowed.
[0045]
When the housings 351 and 352 are relatively displaced in the second direction A2, the second rail 363 is guided by the second guide members 366 and 367, so that the passage body 360 is second with respect to the other housing 352. Move relatively in the direction A2. At this time, the first rails 361 and 362 extend in the first direction A1 and are fitted in the first guide members 364 and 365, and do not move in the second direction A2. In this way, relative displacement in the second direction A2 is allowed. As described above, even when the housings 351 and 352 are relatively displaced in the first and second directions A1 and A2, the gaps between the housings 351 and 352 are always closed by the passage body 360, and the housings 351 are provided. , 352 large relative displacements can be tolerated.
[0046]
A pair of first rails 361, 362 and a second rail 363 are provided in the passage body 360, and a pair of first guides in which the first rails 361, 362 are slidably fitted in one housing 351. The members 364 and 365 are provided, and the other casing 352 is provided with a pair of second guide members 366 and 367 into which the second rail 363 is slidably fitted. Therefore, as described above, the rails 361, 362 are provided. The rails 361, 362, and 363 can be guided in the first and second directions A1 and A2 with high accuracy with little deviation in the width direction perpendicular to the longitudinal direction of 363, respectively. Further, since the rails 361, 362, and 363 are respectively fitted to the guide members 364 to 367, the weight of the passage body 360 and the rails 361, 362, and 363 is caused by the fitting protrusions of the guide members 364 to 367. The rails 361, 362, and 363 are supported by the upper guide surfaces 383a and 384a and the bottom surface 459 of the strips 383 and 384, whereby the effective contact area of the rails 361, 362, and 363 with respect to the guide members 364 to 367 can be increased. 360 can be supported.
[0047]
Since the outer cover body 435 and the inner cover body 436 are detachably provided on the cover means 431 and 432, grease is applied to the sliding members of the rails 361, 362, 363 and the guide members 364 to 367. Maintenance inspection such as performing can be performed easily.
[0048]
In the present embodiment, the wall portions 356a and 356b of the side wall portion 356 provided on the protruding floor portion 355 of one of the housings 351 are adjacent to the side wall bodies 386 and 387 of the passage body 360 and extend in the first direction A1. Are arranged opposite to each other. Handrail members 460 and 461 are provided on the upper portions of the wall portions 356a and 356b, respectively. A pair of movable side wall means 465a and 465b are provided between the wall portions 356a and 356b and the side wall bodies 386 and 387, respectively. The movable side wall means 465a and 465b have the same configuration. In the following description, the movable side wall end portion 465b is indicated by a reference symbol in parentheses, and the description is omitted.
[0049]
Referring to FIG. 9, movable side wall means 465a (465b) includes a plurality of support rollers 467 provided on the other end of the inner surface 466a (466b) of the wall 356a (356b) on the other side of the housing 352, and each support roller. And a movable side wall body 468a (468b) provided so as to be movable along the first direction A1 while being supported by 467. Each support roller 467 is provided at a shaft portion 471 that protrudes from a mounting plate 470 that is fixed to an inner surface 466a (466b) of the wall portion 356a (356b) by an anchor bolt 469, and a tip portion of the shaft portion 471. It has a roller part 472 that is rotatably provided around the central axis of the shaft part 471 and is formed in a short cylindrical shape. A plurality (2 in the present embodiment) of the mounting plates 470 are provided on the wall portion 356a (356b) with an interval in the vertical direction. Each mounting plate 470 is provided with a plurality of support rollers 467 (2 in the present embodiment) at intervals in the first direction A1.
[0050]
The movable side wall body 468a (468b) includes a plurality of support columns 473, a lower chord member 474, an upper chord member 475, a decorative plate 476, and a pair of guide rails 477. The configuration of each support column 473, each lower chord material 474, upper chord material 475, and decorative plate 476 is the same as the configuration of each support column 413, each lower chord material 414, upper chord material 415, and decorative plate 416, and the description thereof is omitted. A handrail member 484 extending substantially over the entire length in the longitudinal direction is provided on the upper chord member 475. The pair of guide rails 477 are formed in a longitudinal shape, and are provided on the side portions facing the wall portions 356 a (356 b) of the respective columns 473 at intervals substantially equal to the vertical intervals of the support rollers 467.
[0051]
Each guide rail 477 includes a base 478, an upper guide piece 479, a lower guide piece 480, an upper support piece 481, and a lower support piece 482. The base portion 478 is attached to each column 473, extends along the first direction A1, and has a width substantially equal to the diameter of the roller portion 472 of the support roller 467. The upper guide piece 479 is connected to the upper side portion of the base portion 478, extends toward the wall portion 356 a (356 b) side, and has a guide surface capable of coming into contact with the roller portion 472 of each support roller 467. The lower guide piece 480 is connected to the lower side portion of the base portion 478, extends toward the wall portion 356a (356b), and has a guide surface capable of coming into contact with the roller portion 472 of each support roller 467. The upper support piece 481 is connected to the free end portion of the upper guide piece 479, falls substantially vertically downward, and supports the peripheral edge portion of the side surface facing the wall portion 356a (356b) in the roller portion 472 of each support roller 467. The lower support piece 482 is connected to the free end portion of the lower guide piece 480, rises substantially vertically upward, and supports the peripheral edge portion of the side surface facing the wall portion 356a (356b) in the roller portion 472 of each support roller 467. . Moreover, the longitudinal direction both ends of each guide rail 477 are closed by, for example, plates.
[0052]
In each guide rail 477 configured in this manner, a gap 483 is formed between the upper support piece 481 and the lower support piece 482 so that the shaft portion 471 of each support roller 467 is inserted and extends in the first direction A1. The Each guide rail 477 accommodates a roller portion 472 of each support roller 467 in a space surrounded by a base 478, an upper guide piece 479, a lower guide piece 480, an upper support piece 481 and a lower support piece 482. The
[0053]
In this manner, the guide surfaces of the upper guide piece 479 and the lower guide piece 480 of each guide rail 477 abut on the outer peripheral surface of the roller portion 472 of each support roller 467, so that the movable side wall body 468a (468b) It is supported by each support roller 467 and can move along the first direction A1. Further, when the upper support piece 481 and the lower support piece 482 of each guide rail 477 come into contact with the support rollers 467, the movable side wall bodies 468a (468b) are displaced in the direction approaching the side wall bodies 386 (387). Is prevented. Further, when the base portion 478 of each guide rail 477 abuts on the tip portion of the shaft portion 471 of each support roller 467, the movable side wall body 468a (468b) is prevented from being displaced away from the side wall body 386 (387). Can be removed. Therefore, each movable side wall body 468a (468b) can be moved along the first direction A1 with high accuracy.
[0054]
  Figure12Referring to FIG. 5, first protruding pieces 487 and 488 that protrude toward the outside near the movable side wall bodies 468a and 468b are provided at one end of the side wall bodies 386 and 387 on the side of the casing 351. Second projecting pieces 489 and 490 projecting inwardly adjacent to the respective side wall bodies 386 and 387 are provided at the other casing 352 side end portions of the respective movable side wall bodies 468a and 468b. The first projecting pieces 487 and 488 are arranged on the side of the movable side walls 468a and 468b with respect to the positions of the tips of the second projecting pieces 489 and 490. In the present embodiment, each movable side wall body 468a, 468b has one side wall 351 side end portion of each side wall body 386, 387 of one side wall 351 in a state where the respective housing bodies 351, 352 are not relatively displaced. It is arranged on the side of one housing 351 from the side end, and the other housing 352 side end is on the other housing 352 side than the one housing 351 side end of each side wall body 386, 387, and one housing 351. It protrudes from. As a result, the first protruding pieces 487 and 488 can be engaged with the second protruding pieces 489 and 490 when displaced in the first direction A1.
[0055]
When the respective housings 351 and 352 are displaced in the direction in which they are relatively close to each other, the first projecting pieces 487 and 488 and the second projecting pieces 489 and 490 are moved in a relatively separated direction. At this time, the movable side wall bodies 468a and 468b do not move relative to the one housing 351, but the movable side wall bodies 468a and 468b block between the wall portions 356a and 356b and the side wall bodies 386 and 387. It is out.
[0056]
Further, when the housings 351 and 352 are greatly displaced in the direction away from each other, the first projecting pieces 487 and 488 and the second projecting pieces 489 and 490 are engaged, and the movable side wall bodies 468a and 468b It is pulled out from the housing 351 toward the other housing 352. As a result, even if the housings 351 and 352 are relatively displaced in the separating direction A2, the large gap in the first direction A1 between the wall portions 356a and 356b and the side wall bodies 386 and 387 is as follows. The movable side walls 468a and 468b are closed.
[0057]
As described above, even when the respective housings 351 and 352 are relatively displaced in the first direction A1, the movable side wall bodies 468a and 468b always provide the space between the side wall portions 356a and 356b and the side wall bodies 386 and 387. It is possible to close it, and it is safe because there is no gap in the passage body 360.
[0058]
【The invention's effect】
According to the first aspect of the present invention, one casing is provided with a first guide rail extending in the first direction, and the other casing extends perpendicularly in a horizontal plane with respect to the first direction. A second guide rail is provided, and a passage body connecting the pair of housings includes a first support roller body supported by the first guide rail and a second support body supported by the second guide rail. A support roller body is provided. Therefore, when the pair of housings are relatively displaced in the first direction, the first support roller body is relatively moved along the first guide rail, and the pair of housings are relatively moved in the second direction. The second support roller body moves along the second guide rail, and thus a large relative displacement of the pair of housings can be allowed. In addition, the first and second guide rails are provided in the pair of housings, and the passage body is provided between the pair of housings with a relatively simple configuration in which the first and second support rollers are provided in the passage body. Can be installed easily.
[0059]
According to the second aspect of the present invention, even when each housing is relatively displaced in the first and second directions, the gap between the housings is always closed by the passage body, and the housings have a large relative relationship. Displacement can be tolerated. Also, each rail can be guided in the first and second directions with high accuracy with little deviation in the width direction perpendicular to the longitudinal direction of each rail, and the effective contact area of each rail with respect to each guide member is increased. And can support the passage body with high strength.
[Brief description of the drawings]
FIG. 1 is a perspective view schematically showing a state in which a movable passage structure 2 according to an embodiment of the present invention is installed between a pair of housings 4 and 6. FIG.
FIG. 2 is a plan view showing the movable passage structure 2 of FIG. 1 and the vicinity thereof.
FIG. 3 is a cross-sectional view taken along section line III-III in FIG.
4 is a partially enlarged cross-sectional view showing an enlarged view of a first support roller body 56 mounted on the movable passage body 16 of FIG. 1 and the vicinity thereof. FIG.
5 is a partial cross-sectional view showing one end portion of the floor portion of the passage body 16. FIG.
FIG. 6 is a view showing a state when a pair of housings 4 and 6 are relatively displaced.
FIG. 7 is a perspective view schematically showing a movable passage structure 350 according to another embodiment of the present invention.
8 is a plan view of a movable passage structure 350. FIG.
FIG. 9 is an enlarged cross-sectional view taken along section line IX-IX in FIG. 8;
10 is an enlarged cross-sectional view of section X in FIG.
FIG. 11 is a perspective view showing a part of FIG. 10;
12 is a partial cross-sectional view taken along section line XII-XII in FIG. 9;
[Explanation of symbols]
2,350 movable passage structure
4, 6, 351, 352
10,354 passage
16,360 passage body
24, 26, first guide rail
28 Second guide rail
56 First support roller
102 Second support roller
302 Locking mechanism
332 Holding member
361,362 First rail
363 2nd rail
364, 365 first guide member
366, 367 second guide member
467 Support roller
468a, 468b movable side wall

Claims (2)

A movable passage structure provided with a passage body provided to be able to pass between a pair of housings,
One housing is provided with a first guide rail, and the other housing is provided with a second guide rail,
The first guide rail extends in a first direction that approaches and separates from the other housing, and the second guide rail extends in a second direction perpendicular to the first direction. ,
The passage body includes a first support roller member which is moved rotatably supported on the first guide rail, a second and a support roller member, which is moved rotatably supported on the second guide rail Provided,
The first and second guide rails include rail members that support the first and second support rollers, and guide members projecting upward are provided on both sides of the rail members, respectively. The upper end of each part is provided with a protrusion for preventing separation that protrudes on both sides,
The passage body is provided with an abutting member partly located below each of the first and second guide rail protrusions for preventing separation.
When the pair of housings are relatively displaced in the first direction, the first support roller body is relatively moved along the first guide rail, and the pair of housings are moved to the second direction. When the structure is displaced in the direction, the second support roller body is moved along the second guide rail. A movable passage structure provided with a passage body provided to be able to pass between a pair of housings,
The passage body is provided with a first rail and a second rail,
The first rail extends in a first direction in which the respective housings are relatively close to and away from each other, and the second rail extends in a second direction perpendicular to the first direction in a horizontal plane. ,
On one precursor, said first rail is a first guide member provided to be fitted freely sliding on the other precursor, a second of said second rail is fitted freely sliding A guide member is provided,
On both sides of the first and second rails, concave grooves are respectively formed,
The first and second guide members, movable channel structure, wherein Rukoto each pair of mating ridges fitted into the groove is formed.

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