JP3929173B2 - Expansion joint device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an expansion joint device that is mounted between a pair of housings so as to be stretchable.
[0002]
[Prior art]
Various types of expansion joint devices arranged between a pair of housings have been proposed and put into practical use. As an example of this type of expansion joint device, for example, there is one disclosed in Japanese Utility Model Laid-Open No. 5-47108. This known expansion joint device includes a cover body provided on each of the pair of housings, and a cover plate that covers between the cover bodies. Each cover body defines a storage space therein, and both end portions of the cover plate are mounted in the storage space of the corresponding cover body so that they can be stored and pulled out. In such an expansion joint device, when the pair of housings move in a direction in which they are relatively close to each other, both end portions of the cover plate are further stored in the storage space of the cover body.
[0003]
When the pair of housings move in the direction of relative separation, both end portions of the cover plate are pulled out from the storage space of the cover body, and thus the relative displacement between the pair of housings is absorbed.
[0004]
[Problems to be solved by the invention]
In this type of expansion joint device, both end portions of the cover plate are inserted into the storage space through openings formed in the cover body, and both end portions of the cover plate are merely supported by the opening portions of the cover body. . Therefore, such an expansion joint device can be applied to a place where a large load does not act on the cover plate, for example, to cover a gap between the outer walls of a pair of housings, but a place where a large load acts on the cover plate. For example, when covering the gap between the floors of a pair of housings, there may be a problem in strength.
[0005]
An object of the present invention is to provide an expansion joint device that can sufficiently withstand a large load and can be advantageously applied to cover a gap between floor surfaces.
[0006]
[Means for Solving the Problems]
The present invention relates to an expansion joint device that is elastically mounted in a direction that approaches and separates from each other between a pair of adjacent housings,
Of the pair of housings, the first housing body of one housing has a first plate member extending toward the other housing of the pair of housings along the surface of the first housing body. Provided, an accommodation space is formed between the first casing body and the first plate member,
The second casing body of the other casing is provided with a second plate member extending toward the one casing along the surface of the second casing body, and the second plate member is the first casing member. 1 is mounted on the surface of the plate member so as to be movable.
Between the first casing body and the second casing body, a pantograph structure in which a plurality of links are connected to each other by a plurality of pins so as to be angularly displaceable and expandable is interposed. , Perpendicular to the first and second plate members, one end of the pantograph structure is connected to the first housing body, and the other end is connected to the second housing body,
A support column for supporting the second plate member is mounted on the pantograph structure in parallel to the pin, and the support column is slidable between the first housing body and the second plate member. Intervened in
The expansion joint device is characterized in that an auxiliary plate is connected to the support column so as to be able to protrude and retract from the accommodation space.
[0007]
According to the present invention, the first casing main body is provided with the first plate member, the second casing main body adjacent to the first casing main body is provided with the second plate member, and the second plate member is provided. The plate member is movable on the surface of the first plate member. In addition, a pantograph structure is interposed between the first housing body and the second housing body, and the pantograph structure is provided with a support column for supporting the second plate member. An accommodation space is defined between the first housing body and the first plate member, an auxiliary plate is disposed in the accommodation space, and the auxiliary plate is connected to the support column.
[0008]
Therefore, when the pair of housings move relative to each other in the approaching direction, the pantograph structure contracts, whereby the support column moves and the auxiliary plate moves in the direction in which the auxiliary plate is stored in the storage space. The base is supported by the support column, and the tip of the second plate member is supported by the first plate member. Further, when the pair of housings move relative to each other in the direction in which they are separated from each other, the pantograph structure is extended, whereby the support pillar moves and the auxiliary plate moves in the direction in which the auxiliary plate is pulled out from the housing space. The tip of the member is supported by a support column, and the auxiliary plate covers the gap between the first plate member and the second plate member.
[0009]
Therefore, the relative movement of the pair of housings is absorbed by the expansion and contraction of the pantograph structure and the accompanying storage and withdrawal of the auxiliary plate. In addition, since the support column moves due to the expansion and contraction of such a pantograph structure, the support state of the second plate member is maintained, and the second plate member can be reliably supported. Further, the gap generated between the first plate member and the second plate member due to the movement of the auxiliary plate accompanying the movement of the support pillar can be covered by the auxiliary plate.
[0010]
Further, the present invention provides an expansion joint device that is mounted so as to be stretchable in a direction that approaches and separates from each other between a pair of adjacent housings.
Of the pair of housings, the first housing body of one housing has a first plate member extending toward the other housing of the pair of housings along the surface of the first housing body. Provided, an accommodation space is formed between the first casing body and the first plate member,
The second casing body of the other casing is provided with a second plate member extending toward the one casing along the surface of the second casing body, and the second plate member is the first casing member. 1 is mounted on the surface of the plate member so as to be movable.
Between the first casing body and the second casing body, a pantograph structure in which a plurality of links are connected to each other by a plurality of pins so as to be angularly displaceable and expandable is interposed. Parallel to the first and second plate members, one end of the pantograph structure is connected to the first housing body, and the other end is connected to the second housing body,
A support column for supporting the second plate member is attached to the pantograph structure while being held by a link perpendicular to the pin and perpendicular to the expansion and contraction direction of the pantograph, and the support column is a second plate member Slidably supporting the surface of the pantograph structure side,
The expansion joint device is characterized in that an auxiliary plate is connected to the support column so as to be able to protrude and retract from the accommodation space.
[0011]
According to the present invention, the same operation as described above is achieved. In the expansion joint device described above, the plurality of pins connecting the links of the pantograph structure are perpendicular to the first and second plate members, and the support columns are parallel to the pins, and thus the second plate. In order to allow the first casing body to receive the weight acting on the member, the support column is interposed between the first casing body and the second plate member. On the other hand, in the present invention, the pin of the pantograph structure is parallel to the first and second plate members, and the support column is held by the link perpendicular to the pin and perpendicular to the expansion and contraction direction of the pantograph. Therefore, the strength of the pantograph structure can be improved, and the weight acting on the second plate member can be supported by the pantograph structure. Accordingly, in the present invention, it is not necessary to support the support column with the first casing body, and the structure below the pantograph structure can be simplified.
[0012]
Further, according to the present invention, a support ball body for smoothly moving relative to the first casing body is attached to an end of the auxiliary plate, and a second ball is attached to the end of the support column. A ball body for smooth movement relative to the plate member is mounted.
[0013]
According to the present invention, since the support ball body is provided at the end of the auxiliary plate and the ball body is provided at both ends of the support column, the auxiliary plate and the support column are moved along with the expansion and contraction of the pantograph structure. It can be done smoothly.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of an expansion joint device 2 according to the present invention will be described with reference to the accompanying drawings. FIG. 1 is a cross-sectional view showing a structure between a pair of housings having an embodiment of an expansion joint device 2 according to the present invention, and FIG. 2 shows a pantograph structure in the expansion joint device 2 of FIG. FIG. 3 is a front view showing a part, and FIG. 3 is a perspective view showing the pantograph structure of FIG. 2.
[0015]
Referring to FIG. 1, the illustrated expansion joint device 2 is disposed between a pair of adjacent housings 4 and 6. A housing 4 such as a building (located on the right side in FIG. 1) includes a first housing body 8 constructed on the ground 7. The first casing body 8 includes a plurality of support columns 10 provided at intervals, and a plurality of horizontal frames 12 and 14 that connect the plurality of support columns 10. The building structure of the first housing body 8 is constituted by 12 and 14. In FIG. 1, two support columns 10a and 10b arranged at one end of the first housing body 8 are shown. A horizontal frame 12a extending in a direction perpendicular to the paper surface is fixed to the support column 10a, and the other support column 10b. A horizontal frame 12b extending in a direction perpendicular to the paper surface is fixed to the upper surface of the horizontal frame 12b. One end of the horizontal frame 14 is fixed to the horizontal frame 12b, and the other end extends leftward in FIG. 1 and is fixed to a horizontal frame (not shown). At both ends of the horizontal frame 14, horizontal frames 12c and 12d extending in a direction perpendicular to the paper surface are fixed. The horizontal frame 14 extends to an intermediate portion between the pair of support columns 10a and 10b, and a portion where the horizontal frame 14 exists projects upward from a portion where the support column 10a is disposed.
[0016]
The first casing body 4 is provided with the first plate member 22 of the expansion joint device 2. More specifically, the lower plate 16 is disposed between the pair of horizontal frames 12c and 12d of the first casing body 4, and both ends of the lower plate 16 are fixed to the horizontal frames 12c and 12d. One end of the lower plate 16 is bent upward. An upper plate 18 is disposed above the lower plate 16. One end of the upper plate 18 is bent downward, and the bent portion of the lower plate 16 and the bent portion of the upper plate 18 are connected by a connecting bolt 20. A bent protrusion 18 a that protrudes upward is provided at the other end of the upper plate 18. The first plate member 22 is attached to the surface of the upper plate 18, and the upper surface of the first plate member 22 defines substantially the same plane as the bent protrusion 18a. The first plate member 22 constitutes a part of the floor surface of, for example, the first floor portion of the first housing body 8.
[0017]
The first casing body 8 is provided with a plate member 24 that constitutes the floor surface of the first floor portion, and the first plate member 22 and the plate member 24 define a substantially flat floor surface. Since the first casing body 8 is provided with the first plate member 22 in this way, the first casing body 8 and the first plate member 22 are arranged in the horizontal direction in FIG. An elongated elongate receiving space 26 is defined, which is formed between the lower plate 16 and the upper plate 18 in this embodiment.
[0018]
The other housing 6 such as a building is located on the left side in FIG. 1, and this housing 6 includes a second housing body 28 built on the ground 7. The second casing main body 28 includes a plurality of support posts (not shown) and a plurality of movable support posts 30 that are provided at intervals, and a plurality of horizontal supports that connect the plurality of support posts and the movable support posts 30. A frame 32 is provided, and the support structure, the movable support column 30 and the horizontal frame 32 constitute a construction structure of the second housing body 28. In FIG. 1, two movable support columns 30a and 30b arranged at the right end portion of the second housing body 28 are shown, and a caster body 34 is attached to the lower end portions of the movable support columns 30a and 30b. The caster body 34 is configured so that a bracket that rotatably supports a wheel having a horizontal rotation axis can be rotated around a vertical axis that is shifted in the horizontal direction from the rotation axis of the wheel, and the lower end portions of the movable columns 30a and 30b. It has the composition provided in. A horizontal frame 32a is fixed between the movable columns 30a and 30b. A lateral frame 32b extending in a direction perpendicular to the paper surface is fixed to one end of the lateral frame 32a.
[0019]
The second plate member 40 of the expansion joint device 2 is attached to the second casing main body 28 as described above. A plurality of L-shaped mounting brackets 34 (one shown in FIG. 1) are attached to the horizontal frame 32b. A second plate member 40 is attached to the attachment bracket 34 by bolts 36 and nuts 38. The second plate member 40 is made of a metal plate such as aluminum or stainless steel, and a sheet 42 made of vinyl chloride is attached to the surface thereof. The second casing main body 28 is also provided with a plate member 44 that constitutes the floor surface of the first floor portion, and the second plate member 40 is formed of the plate member 44 of the second casing main body 28. The end portion extends toward the first plate member 22 of the first casing body 8.
[0020]
Since it is configured in this manner, as shown in FIG. 1, the tip of the second plate member 40 is normally supported by the bent protrusion 18 a of the upper plate 18 of the first casing body 8, and the second plate The member 40 covers the gap between the first plate member 22 of the first housing body 8 and the plate member 44 of the second housing body 28, and the user can use the upper surface (floor surface) of the second plate member 40. It can move between a pair of housings 4 and 6 through. In the expansion joint device 2, since the distal end portion of the second plate member 40 is supported by the bent protrusion 18 a of the upper plate 18, when the pair of housings 4 and 6 move in a relatively close direction. As will be described later, the second plate member 40 can relatively move on the surface of the first plate member 22, thereby preventing deformation and damage of the second plate member 40.
[0021]
The expansion joint device 2 further includes a pantograph structure 46 interposed between the pair of housings 4 and 6. 2 and 3, the illustrated pantograph structure 46 is composed of connection frames 48, 50, 52, and 54 that are four links that are angularly displaced from each other and that are pivotably connected. The connection frames 48 to 54 are made of grooved steel or the like, which is a metal frame having a U-shaped cross section, and one end portions of a pair of adjacent connection frames 48 and 50 are connected to each other via a connection pin 56 so as to be rotatable. The connecting pin 56 is further connected to the mounting frame 58 so as to be rotatable. Further, one end portions of a pair of adjacent connection frames 52 and 54 are pivotally connected via a connection pin 60, and the connection pin 60 is further pivotally connected to a mounting frame 62. Further, the other end portions of the pair of connection frames 48 and 50 and the other end portions of the pair of connection frames 52 and 54 are connected to each other via connection pins 64 and 66 so as to be rotatable.
[0022]
In order to make the relative turning of the connecting frames 50 to 54 smooth, a washer 55 (see FIGS. 1 and 2) is interposed therebetween. As shown in FIG. 1, one attachment frame 58 is attached to the lateral frame 32 b of the second housing body 28, and the other attachment frame 62 is fixed to the transverse frame 12 c of the first housing body 8. It is preferable that two or more sets of such pantograph structures 46 are provided between the pair of casings 4 and 6 with a gap in the direction perpendicular to the paper surface of FIG. The turning motion around the center can be effectively prevented. With this configuration, the pantograph structure 46 contracts when a compressive force is applied, expands when a tensile force is applied, and expands and contracts according to the relative displacement of the pair of housings 4 and 6. The pantograph structure 46 may be provided with a spring member that elastically biases the pantograph structure 46 in the contraction (or extension) direction, for example, between the adjacent connection frames 48 to 54.
[0023]
In this embodiment, an intermediate frame 68 is disposed between the pair of connecting frames 50 and 52. One end of the intermediate frame 68 is pivotally connected to the longitudinal center of the connection frame 48 via a connection pin 70, and the other end is connected to the connection frame 48 facing the connection frame 48 via a connection pin 72. It is pivotally connected to the central portion in the longitudinal direction. A support column 74 is further attached to the middle portion of the intermediate frame 68 in the longitudinal direction. The support column 74 extends through the intermediate frame 68 in the vertical direction in FIG. 1, and one end portion (lower end portion) thereof acts on a part of the surface of the first casing body 8, and the other end portion (upper end portion). ) Acts on the second plate member 40 attached to the second housing body 28, thereby supporting the second plate 40.
[0024]
The connecting frames 48 and 54 are parallel to each other. The connecting frames 50 and 52 and the intermediate frame 68 are parallel to each other. The axes of the connecting pins 56, 60, 64, 66 and connecting pins 70, 72 are at the apex position of the parallelogram, and all of these connecting pins 56, 60, 64, 66, 70, 72 are the first and It is perpendicular to the second plate member 22, 40 and is parallel to the support column 74. The support pillar 74 is perpendicular to the first and second plate members 22, 40. As described above, the connecting frames 48, 50, 52, 54 and the intermediate frame 68 are, for example, channel steel, and the connecting pins 56, 60, 64, 66, 70, 72 are inserted through the flanges on both sides of the web. Connected.
[0025]
The support pillar 74 can be attached to any of the connection frames 50 to 54 instead of the intermediate frame 68. In such a configuration, the intermediate frame 68 can be omitted.
[0026]
In the illustrated embodiment, a lower support plate 78 is provided between the horizontal frame 12 a and the horizontal frame 14 of the first housing body 8. One end portion of the support pillar 74 is supported by the lower support frame 78, and one end portion of the lower support plate 78 supports the horizontal frame 12a so that the support pillar 74 is reliably supported even when the pantograph structure 46 contracts. It protrudes toward the second housing body 28 beyond. Ball bodies 80 and 82 are rotatably mounted on both ends of the support pillar 74. Therefore, one end portion of the support pillar 74 is supported by the lower support plate 78 via the ball body 80, and the other end portion supports the second plate member 40 via the ball body 82. When the pantograph structure 46 expands and contracts, the support pillar 74 moves smoothly with respect to the lower support plate 78 and the second plate member 40 by the action of the ball bodies 80 and 82.
[0027]
In the accommodating space 26 between the first casing body 8 and the first plate member 22, an auxiliary plate 84 is disposed so as to be accommodated and pulled out. The auxiliary plate 84 is made of a metal plate such as aluminum or stainless steel, and one end protruding from the accommodation space 26 is connected to the support column 74.
[0028]
Referring again to FIG. 2, a mounting sleeve 86 is rotatably inserted into the upper end portion of the support column 74, and an auxiliary plate 84 is fixed to a mounting projection 88 provided on the mounting sleeve 86 by a fixing bolt 90 and a nut 92. Are connected at one end. A support ball unit 94 is attached to the other end of the auxiliary plate 84. The support ball unit 94 has a unit housing 96 mounted on the lower surface of the auxiliary plate 84, and a support ball body 98 is rotatably mounted on the unit housing 96.
[0029]
With this configuration, the other end of the auxiliary plate 84 is supported by the lower plate 16 of the first casing body 8 via the support ball unit 94, and the support plate 98 is rotated to rotate the auxiliary plate 84. Can move smoothly on the lower plate 16. A sheet 100 made of synthetic resin (for example, a fluororesin such as Teflon (trade name)) is affixed to the upper surface of the auxiliary plate 84, so that the auxiliary plate 84 is relatively relative to the upper plate 18 even when it contacts the upper plate 18. Move smoothly.
[0030]
If the support column 74 is provided at the center of the pantograph structure 46, the support column 74 moves a displacement amount that is ½ of the expansion / contraction amount of the pantograph structure 46 in the expansion / contraction direction that is the horizontal direction in FIGS. 1 to 3. The support pillar 74 is positioned at any other position of the intermediate frame 68, and the position of the intermediate frame 68 provided with the support pillar 74 is arbitrarily determined, thereby supporting the amount of expansion and contraction of the pantograph structure. The amount of displacement of the pillar 74 can be changed.
[0031]
In this embodiment, a support ball unit 102 is further provided at the other end of the lower plate 16. The support ball unit 102 has substantially the same configuration as the support ball unit 94 mounted on the auxiliary plate 84, and a support ball body in which the unit housing 104 is fixed to the lower plate 16 and is rotatably mounted on the unit housing 104. 106 supports the intermediate portion of the auxiliary plate 84. By providing the support ball unit 102 in this way, the auxiliary plate 84 can be supported more reliably. A plurality of support ball units 94 and 102 can be provided at an appropriate interval according to the size of the auxiliary plate 84 and the like.
[0032]
The expansion joint device 2 described above is normally held in the state shown in FIG. In such a state, the distal end portion of the second plate member 40 is supported by the bent protrusion 18 a of the upper plate 18 of the first casing body 8, and one end portion of the support pillar 74 is a view of the lower support plate 78. In FIG. The other end portion supports a substantially central portion in the left-right direction in FIG. The other end side of the auxiliary plate 84 is accommodated in the accommodating space 26 of the first casing body 8.
[0033]
When the pair of housings 4 and 6 move relative to each other in such a state, the expansion joint device 2 is in the state shown in FIG. That is, when the pair of housings 4 and 6 are displaced in the approaching direction, the pantograph structure 46 contracts. Accordingly, the support pillar 74 moves in a direction relatively close to the first and second housing bodies 8 and 28, and most of the auxiliary plate 84 is accommodated in the accommodation space 26 by the relative movement of the support pillar 74. The Further, when the second casing main body 28 approaches the first casing main body 8, the distal end portion of the second plate member 40 moves to the surface of the first plate member 22, and this distal end portion is the first plate. Supported by member 22. Therefore, the second plate member 40 and the auxiliary plate 84 move as required without colliding, and their breakage is prevented. At this time, the support pillar 74 is located between the first and second housing bodies 8 and 28 and supports the base portion of the second plate member 40. Therefore, the second plate member 40 is reliably supported by the first plate member 22, the support pillar 74, and the mounting bracket 34.
[0034]
When the pair of housings move relative to each other from the state shown in FIG. 1, the expansion joint device 2 is held in the state shown in FIG. 5. That is, when the pair of housings 4 and 6 are separated in the approaching direction, the pantograph structure 46 extends. Accordingly, the support pillar 74 moves in a direction that is relatively separated from the first and second housing bodies 8 and 28, and the auxiliary plate 84 is pulled out of the accommodation space 26 by the relative movement of the support pillar 74, and the other end. The support ball unit 94 mounted on the part is moved to a position close to the support ball unit 102 mounted on the lower plate 16. Further, when the second casing main body 28 is separated from the first casing main body 8, the distal end portion of the second plate member 40 is separated from the first plate member 22, and in other words, the second gap is generated. The gap between the plate member 40 and the first plate member 22 is covered by the auxiliary plate 84 drawn out from the accommodation space 26. Therefore, when the pair of housings 4 and 6 are displaced in the direction away from each other, the plate member 25 acting as the floor surface of the first housing body 8 and the plate member 44 acting as the floor surface of the second housing body 28 are: A passage connecting the first plate member 22, the auxiliary plate 84 and the second plate member 40 is formed, and the safety of passers-by is ensured. At this time, since the support column 74 is located at the tip of the second plate member 40, the second plate member 40 is supported by the support column 74 and the mounting bracket 134, and sufficient support strength can be ensured. . In addition, since one end portion of the auxiliary plate 84 is supported by the support pillar 74 and the other end portion is supported by the support ball units 94 and 102, sufficient support strength can be secured for the auxiliary plate 84 as well.
[0035]
Such an expansion joint device 2 can be provided, for example, in a gap between a pair of housings as shown in FIG. In the example shown in FIG. 6, a crank-shaped gap 202 is formed between one housing 4 and the other housing 6, and the expansion joint device 2 described above is provided so as to cover the crank-shaped space 202. . In the application example of FIG. 6, three sets of pantograph structures 46 of the expansion joint device 2 are arranged, and the pantograph structure 46 can be expanded and contracted in the horizontal direction in FIG. The pantograph structure 46 is provided in the gaps 202b and 202c extending in the left-right direction in FIG. The pantograph structure requires at least two sets in the same direction so that the auxiliary plate 84 moves as a unit. In the case of FIG. 6, this condition is satisfied.
[0036]
The second plate member 40 (not shown in FIG. 6) is formed in a crank shape so as to cover the gap 202 between the pair of housings 4 and 6, and the auxiliary plate 84 is provided on one housing 4. It is housed in the housing space 26 and is formed in a crank shape so as to cover a part of the gap 202. For example, a support ball unit 94 is attached to the auxiliary plate 84 as shown by a one-dot chain line in FIG. 6, and a support ball unit 102 is attached to the lower plate 16 (not shown in FIG. 6) as shown by a solid line. .
[0037]
By providing the expansion joint device 2 having the above-described configuration as shown in FIG. 6 for example, even if the gap 202 between the pair of housings 4 and 6 is crank-shaped, the crank-shaped gap 202 is covered as required. be able to. Further, even if the pair of housings 4 and 6 move in the direction that is relatively close to or separated from each other in the left-right direction in FIG. 6 and in the vertical direction in FIG. 6, this relative movement can be absorbed as required. When the pair of housings 4 and 6 move relatively in the left-right direction in FIG. 6, the pantograph assembly 46 at the center in the vertical direction in FIG. 6 expands and contracts, but the pantograph structures 46 on both sides in the vertical direction in FIG. The mounting frames 58 and 62 (see FIG. 3) move relatively without expanding and contracting upward.
[0038]
Although the embodiment of the expansion joint device according to the present invention has been described above, the present invention is not limited to the above-described embodiment, and various modifications and corrections can be made without departing from the scope of the present invention. It is.
[0039]
For example, in the illustrated embodiment, the support ball units 94 and 102 are provided on the auxiliary plate 84 and the lower plate 16, but when the auxiliary plate 84 can be smoothly moved while being supported, these support ball units 94 are provided. , 102 can be omitted. In addition, regarding the ball bodies 80 and 82 provided on the support pillar 74, if one can move smoothly, one or both of them can be omitted.
[0040]
FIG. 7 is a longitudinal sectional view of an expansion joint device 112 according to another embodiment of the present invention. This embodiment is similar to the embodiment described with reference to FIGS. 1 to 6 described above, and corresponding parts are denoted by the same reference numerals. In the expansion joint device 2 in the above-described embodiment, the pantograph structure 46 is configured to perform expansion and contraction in a substantially horizontal plane. However, in the expansion joint device 112 in the embodiment in FIG. Oscillates in a substantially vertical plane. The pantograph structure 113 includes a plurality of (for example, 5 in this embodiment) connecting frames 114 that are parallel links of equal length, connecting frames 115 and 116 that are parallel links at both ends thereof, and the plurality of parallel links. It has a certain connecting frame 117 and connecting frames 118 and 119 at both ends thereof, and is pin-coupled by connecting pins 121, 122, and 123 having a horizontal axis parallel to the first and second plate members 22 and 40, and is parallel. Consists of a quadrilateral.
[0041]
FIG. 8 is an enlarged front view showing a part of the pantograph structure 113 of FIG. 7, and FIG. 9 is a plan view showing a part of the pantograph structure 113. Of the connection frames 114 and 117 included in the pantograph structure 113, the connection frames 114a and 117a at the center position in the expansion / contraction direction of the pantograph structure 113 (left and right direction in FIGS. 7 and 8) are connected by a connection pin 123a. The holding body 125 connects the support pillar 74 to the pantograph structure 113 by the connection pin 123a. The connecting frames 114 and 117 and the connecting pin 123 are individually shown with suffixes a and b, and the suffix a is generally omitted.
[0042]
In addition to the holding body 125, in order to keep the support column 74 perpendicular to the connecting pin 123, and thus to maintain a posture perpendicular to the first and second plate members 22, 40, Another holding body 126 is connected to the connecting pin 123b, and elongated plate-like links 127 and 128 pin-connected by the pin 129 are connected to the holding bodies 125 and 126.
[0043]
FIG. 10 is a longitudinal sectional view showing a configuration in the vicinity of the holding body 125. The holding body 125 is basically composed of a mounting piece 130 and a pair of upper and lower holding pieces 131 and 132 combined in a substantially U shape, and the side portions of the mounting piece 130 and the holding pieces 131 and 132 are combined. Are fixed to the reinforcing pieces 135 and 136. Nuts 137 and 138 are fixed to the holding pieces 131 and 132, and the male threaded portion 133 of the support column 74 passes through the holding pieces 131 and 132 and is fixed by the nuts 137 and 138. The connecting pin 123a is inserted into the mounting piece 130 so as to be angularly displaceable. Pins 139 are also attached to the holding pieces 131 and 132. The link 127 is provided by the pin 139 so as to be angularly displaceable. A cylindrical spacer 140 through which the pin 139 is inserted is interposed between the holding pieces 131 and 132 and the link 127. The axis of the support column 74, the axis of the connecting pin 123a, and the axis of the pin 139 are in one plane, which is the paper surface of FIG. 9, and the axis of the support column 74 and the axis of the connecting pin 123a are perpendicular to each other. The axis of 74 and the axis of the pin 139 are parallel. The other holding body 126 has a configuration similar to that of the holding body 125, and corresponding parts are indicated by the same reference numerals with the suffix a.
[0044]
FIG. 11 is a plan view showing a configuration in which the connecting frames 115 and 118 are connected by the connecting pin 123c. The connecting pin 123c is attached to the first casing body 8 by a bracket 141. Similarly, the connection frames 116 and 119 are attached to the second casing body 28 via the bracket 142 by the connection pins 123b. The ball body 82 provided at the upper end portion of the support pillar 74 supports the lower surface of the second plate member 40.
[0045]
The auxiliary plate 84 is supported by the support ball unit 143 that comes into contact with the lower plate 16 in the same manner as in the above-described embodiment, and is supported by the support ball unit 144 attached to the lower plate 16 of the second casing body 48. The lower surface of the plate 84 is supported.
[0046]
FIG. 12 is an enlarged cross-sectional view of the ball body 82 and the vicinity thereof. The ball body 82 is received and supported by a unit housing 146 having a substantially hemispherical receiving recess 145 via a number of receiving ball bodies 147 having a smaller diameter than the ball body 82. Thus, the ball body 82 is smoothly rotated, and the contact with the lower surface of the second plate member 40 is smooth. The configuration with the ball body 82 is the same for the ball body 80 and the support ball units 94 and 102 described above.
[0047]
FIG. 13 is an enlarged side view of the support ball unit 143, and FIG. 14 is a bottom view of the support ball unit 143. The support ball unit 143 is similar in structure to the ball body 82 shown in FIG. 12 described above, and a plurality of ball bodies 82a are arranged in an annular shape. The unit housing 146a that receives these ball bodies 82a is fixed to the base member 148, and is provided at the other end of the auxiliary plate 84 through the thrust bearing 149 as described above. The configuration of the ball body 82a received by the receiving ball body 147a is the same as that described above. The support ball unit 144 has the same configuration as the support ball unit 143 described above, and is used by being arranged upside down.
[0048]
In the illustrated embodiment, the expansion joint device 2 is applied to an example in which the floor surfaces of the adjacent housings 4 and 6 are connected. However, the expansion joint device 2 covers a gap between the wall surfaces of the adjacent housings 2 and 4. Can also be used.
[0049]
【The invention's effect】
According to the expansion joint device of the first aspect of the present invention, the first casing body is provided with the first plate member, and the second casing body adjacent to the first casing body has the second plate. A member is provided and the second plate member is movable on the surface of the first plate member. In addition, a pantograph structure is interposed between the first housing body and the second housing body, and the pantograph structure is provided with a support column for supporting the second plate member. An accommodation space is defined between the first housing body and the first plate member, an auxiliary plate is disposed in the accommodation space, and the auxiliary plate is connected to the support column.
[0050]
Therefore, when the pair of housings move relative to each other in the approaching direction, the pantograph structure contracts, whereby the support column moves and the auxiliary plate moves in the direction in which the auxiliary plate is stored in the storage space. The base is supported by the support column, and the tip of the second plate member is supported by the first plate member. Further, when the pair of housings move relative to each other in the direction in which they are separated from each other, the pantograph structure is extended, whereby the support pillar moves and the auxiliary plate moves in the direction in which the auxiliary plate is pulled out from the housing space. The tip of the member is supported by a support column, and the auxiliary plate covers the gap between the first plate member and the second plate member.
[0051]
Therefore, the relative movement of the pair of housings is absorbed by the expansion and contraction of the pantograph structure and the accompanying storage and withdrawal of the auxiliary plate. Further, since the support column moves due to the expansion and contraction of such a pantograph structure, the support state of the second plate member can be maintained, the second plate member can be reliably supported, and the support column can be moved. By this, the gap generated between the first plate member and the second plate member can be covered by the movement of the auxiliary plate.
[0052]
According to the expansion joint device of claim 2 of the present invention, the pin of the pantograph structure is parallel to the first and second plate members, and therefore the strength of the pantograph structure can be improved. The weight acting on the second plate member can be supported by the pantograph structure, and it is not necessary to support the weight acting on the second plate member in the first housing body, and the same effect as the above-described invention is achieved. Can be achieved.
[0053]
According to the expansion joint device of the third aspect of the present invention, since the support ball body is provided at the end of the auxiliary plate and the ball body is provided at both ends of the support column, the expansion and contraction of the pantograph structure is provided. Accordingly, the auxiliary plate and the support column can be moved smoothly.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an embodiment of an expansion joint device according to the present invention.
2 is a front view showing a part of a pantograph structure and a related configuration in the expansion joint device of FIG. 1; FIG.
FIG. 3 is a perspective view showing the pantograph structure in FIG. 2;
FIG. 4 is a cross-sectional view showing a state of the expansion joint device when a pair of housings are moved in directions close to each other.
FIG. 5 is a cross-sectional view showing a state of the expansion joint device when a pair of housings move in a direction away from each other.
6 is a simplified plan view schematically showing an application example of the expansion joint device shown in FIG. 1. FIG.
FIG. 7 is a longitudinal sectional view of an expansion joint device 112 according to another embodiment of the present invention.
8 is an enlarged front view showing a part of the pantograph structure 113 in FIG. 7;
9 is a plan view showing a part of the pantograph structure 113. FIG.
FIG. 10 is a longitudinal sectional view showing a configuration near a holding body 125. FIG.
FIG. 11 is a plan view showing a configuration in which connecting frames 115 and 118 are connected by a connecting pin 123c.
FIG. 12 is an enlarged cross-sectional view of a ball body 82 and its vicinity.
13 is an enlarged side view of a support ball unit 143. FIG.
14 is a bottom view of the support ball unit 143. FIG.
[Explanation of symbols]
2,112 expansion joint device
4,6 body
8 1st frame body
22 First plate member
26 accommodation space
28 Second housing body
40 Second plate member
46,113 pantograph structure
74 Support pillar
80,82 ball body
84 Auxiliary plate
98 Supporting ball body

Claims (3)

In the expansion joint device that is mounted so as to be expandable and contractible in a direction approaching and separating from each other between a pair of adjacent housings,
Of the pair of housings, the first housing body of one housing has a first plate member extending toward the other housing of the pair of housings along the surface of the first housing body. Provided, an accommodation space is formed between the first casing body and the first plate member,
The second casing body of the other casing is provided with a second plate member extending toward the one casing along the surface of the second casing body, and the second plate member is the first casing member. 1 is mounted on the surface of the plate member so as to be movable.
Between the first casing body and the second casing body, a pantograph structure in which a plurality of links are connected to each other by a plurality of pins so as to be angularly displaceable and expandable is interposed. , Perpendicular to the first and second plate members, one end of the pantograph structure is connected to the first housing body, and the other end is connected to the second housing body,
A support column for supporting the second plate member is mounted on the pantograph structure in parallel to the pin, and the support column is slidable between the first housing body and the second plate member. Intervened in
The expansion joint device is characterized in that an auxiliary plate is connected to the support column so as to be able to protrude and retract from the accommodation space. In the expansion joint device that is mounted so as to be expandable and contractible in a direction approaching and separating from each other between a pair of adjacent housings,
Of the pair of housings, the first housing body of one housing has a first plate member extending toward the other housing of the pair of housings along the surface of the first housing body. Provided, an accommodation space is formed between the first casing body and the first plate member,
The second casing body of the other casing is provided with a second plate member extending toward the one casing along the surface of the second casing body, and the second plate member is the first casing member. 1 is mounted on the surface of the plate member so as to be movable.
Between the first casing body and the second casing body, a pantograph structure in which a plurality of links are connected to each other by a plurality of pins so as to be angularly displaceable and expandable is interposed. Parallel to the first and second plate members, one end of the pantograph structure is connected to the first housing body, and the other end is connected to the second housing body,
A support column for supporting the second plate member is attached to the pantograph structure while being held by a link perpendicular to the pin and perpendicular to the expansion and contraction direction of the pantograph, and the support column is a second plate member Slidably supporting the surface of the pantograph structure side,
The expansion joint device is characterized in that an auxiliary plate is connected to the support column so as to be able to protrude and retract from the accommodation space. A support ball for smooth movement relative to the first housing body is attached to the end of the auxiliary plate, and relative to the second plate member at the end of the support column. The expansion joint device according to claim 1, wherein a ball body for smooth movement is attached.

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