JP4295706B2 - Double floor - Google Patents

Description

  The present invention relates to a double floor constructed on a floor slab.

  2. Description of the Related Art Conventionally, a double floor having a device installation area where heavy equipment such as communication equipment and computers are installed and a passage area formed adjacent to the equipment installation area is known (for example, Patent Documents). 1). Such a double floor is often built in a data center that accommodates a huge number of communication devices and computers.

  As shown in FIG. 12, the device installation area includes a plurality of table-like mounts D1, D1,... Arranged at intervals, and two beam members D2, installed between adjacent mounts D1, D1. The communication device is fixed to the beam material D2 using bolts and nuts. In addition, the passage area is composed of a plurality of floor panels P, P,... Laid between adjacent frame structures D, D.

Japanese Utility Model Publication No. 5-43154 (FIG. 1)

  However, in the conventional double floor, it is necessary to insert a bolt for fixing a communication device or the like into any of a plurality of insertion holes D21, D21,. It was not possible to freely select the mounting position of the communication device or the like. Further, for example, when installing a communication device or the like having a different dimensional standard, a new insertion hole that conforms to the dimensional standard must be formed, which requires a lot of labor.

  Then, this invention makes it a subject to provide the double floor which can select the attachment position of an apparatus freely, and also can respond easily when installing the apparatus from which a dimension standard differs in addition. To do.

  The double floor of the present invention created to solve such a problem is formed by including a plurality of beam members in which a device installation area in which devices are installed is arranged in parallel above the floor slab. It is a double floor, each said beam material is provided with the apparatus fixing | fixed part to which the said apparatus is fixed, and the beam main-body part holding the said apparatus fixing | fixed part, and the said apparatus fixing | fixed part is the said beam It is possible to move along the longitudinal direction of the main body.

  According to this double floor, the beam material forming the device installation area is divided into the beam main body part and the device fixing part, and the device fixing part is configured to be movable with respect to the beam main body part. It is possible to freely select the mounting position of the device, and it is possible to easily cope with installation of devices having different dimensional standards.

  In addition, in the double floor according to the present invention, the device fixing portion includes an attachment portion that contacts the side surface of the beam main body portion, and an overhang portion that protrudes laterally from the upper end portion of the attachment portion, And an engaging portion protruding from a side surface of the mounting portion on the beam main body side, and the engaging portion is slidably engaged with the beam main body portion along a longitudinal direction thereof. And a bolt housing portion whose side surface is open, and the mounting portion of the device fixing portion is screwed into a bolt whose head is housed in the bolt housing portion and a shaft portion of the bolt. It may be fixed to the beam main body using a nut.

  If it does in this way, since the apparatus fixing | fixed part will be in the state which can move only by loosening a volt | bolt and a nut, the handling will become very simple.

  According to the double floor according to the present invention, it is possible to freely select the mounting position of the device, and in addition, it is possible to easily cope with the installation of devices having different dimensional standards.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the accompanying drawings.

  As shown in FIG. 1, the double floor according to the embodiment is constructed in, for example, a data center in which a huge number of communication devices and computers are accommodated, and communication devices and computers are mainly installed. , A plurality of rows of communication equipment installation areas K1, K1,..., An air conditioner installation area K2 where air conditioners are mainly installed, a general passage area T1 provided between adjacent communication equipment installation areas K1, K1, And a main passage area T2 provided along the air conditioner installation area K2. The plurality of rows of communication device installation areas K1, K1,... Are arranged at a predetermined interval and in parallel with each other, while the air conditioning device installation area K2 is from the end of each communication device installation area K1. They are arranged at a predetermined interval and in a direction orthogonal to the communication device installation area K1. In the present embodiment, the communication device installation area K1 and the air conditioner installation area K2 correspond to “equipment installation area”, and the general passage area T1 and the main passage area T2 correspond to “passage area”.

  Then, cooling air is blown out from an air conditioner (not shown) provided in the air conditioner installation area K2 toward the underfloor space, and the communication equipment K and the like installed in each communication apparatus installation area K1 using this cooling air. The heat is removed.

  In the double floor according to the present embodiment, the communication device installation area K1 and the air conditioner installation area K2 are each formed by using two rows of support leg structures L, L arranged side by side on the floor slab S. ing. Further, the general passage area T1 is formed using a plurality of floor panels P, P,... Laid between adjacent communication equipment installation areas K1, K1, and the main passage area T2 is a plurality of communication equipment. Are formed using a plurality of floor panels P, P,... Laid between the installation areas K1, K1,. In the double floor according to the present embodiment, adjacent support leg structures L, L are connected to each other by a plurality of coupling bodies J, J,... In each communication device installation area K1 and air conditioner installation area K2. Are connected to each other.

(Support leg structure)
As shown in FIG. 2, the support leg structure L includes a beam member 20 disposed above the floor slab S, and at least three bundle members 10 interposed between the beam member 20 and the floor slab S. In this embodiment, a plurality of sets of a pair of brace members 30, 30 for connecting a pair of bundle members 10, 10 adjacent to each other in the longitudinal direction of the beam member 20 are connected to each other. I have.

  As shown in FIG. 3, the bundle material 10 includes a base portion 11 fixed to the floor slab S, a beam placement portion 12 on which the beam material 20 is placed, and a base portion 11 and a beam placement portion 12. A column portion 13 interposed therebetween, and a lower connection portion 14 and an upper connection portion 15 to which the brace material 30 is connected are provided.

  As shown in FIG. 4, the base portion 11 includes a lower plate 111 that is fixed to the upper surface of the floor slab S, and a lower screw rod 112 that is erected at the center of the upper surface of the lower plate 111. The lower plate 111 has a rectangular shape, and insertion holes 111a, 111a,... The base portion 11 is fixed by using anchor bolts An and nuts Na that are driven into the floor slab S at positions corresponding to the respective insertion holes 111a.

  The beam placing portion 12 includes an upper plate 121 fixed to the lower surface of the beam member 20 (see FIG. 3), and an upper screw rod 122 provided vertically at the center of the lower surface of the upper plate 121. The upper plate 121 has a rectangular shape, and insertion holes 121a, 121a,...

  The column portion 13 includes a column main body 131 and nuts 132 and 132 for loosening prevention arranged above and below the column main body 131. A screw hole 131 a into which the lower screw rod 112 of the base portion 11 is screwed is formed in the lower end surface of the column main body 131, and the upper screw rod of the beam placing portion 12 is formed in the upper end surface of the column main body 131. A screw hole 131b into which 122 is screwed is formed. The column portion 13 has a so-called turnbuckle structure, and the column main body 131 is rotated in an appropriate direction to insert the lower screw rod 112 into the screw hole 131a and the upper screw rod 122 into the screw hole 131b. When the insertion amount is adjusted as appropriate, the overall height of the bundle 10 is adjusted.

  The lower connection portion 14 includes a bracket 141, nuts 142 and 142 disposed above and below the bracket 141, and washers 143 and 143 disposed between the bracket 141 and the nuts 142 and 142. The bracket 141 includes a rectangular base piece 141a that is mounted on the lower screw rod 112 of the base portion 11, a first connection piece 141b that rises obliquely upward from one side of the base piece 141a, and the one side of the base piece 141a. Is provided with a second connection piece 141c that rises obliquely upward from another orthogonal side. In addition, insertion holes 141d and 141e are formed in the tip portion of the first connection piece 141b and the tip portion of the second connection piece 141c, respectively. The nuts 142 and 142 serve as positioning members for holding the position of the bracket 141 and are screwed to the lower screw rod 112 of the base portion 11 with the bracket 141 interposed therebetween.

  The upper connection portion 15 includes a bracket 151, a nut 152 disposed below the bracket 151, and a washer 153 disposed between the bracket 151 and the nut 152. The bracket 151 includes a rectangular base piece 151a mounted on the upper screw rod 122 of the beam mounting portion 12, a first connection piece 151b extending obliquely downward from one side of the base piece 151a, and the base piece 151a. A second connection piece 151c extending obliquely downward from another side orthogonal to one side is provided. In addition, insertion holes 151d and 151e are formed in the tip portion of the first connection piece 151b and the tip portion of the second connection piece 151c, respectively. Further, the nut 152 plays a role as a positioning member that holds the position of the bracket 151, and is screwed to the upper screw rod 122 from the lower side of the bracket 151.

  In order to install the bundle 10 on the floor slab S, the base plate 11 is placed on the floor slab S, and the anchor bolts are inserted into the floor slab S from the insertion holes 111a formed at the four corners. An may be driven in and the nut Na may be screwed into a portion protruding from the lower plate 111 of the anchor bolt An. In addition, the base part 11 may be fixed on the floor slab S in a state where the members constituting the bundle 10 are integrated in advance, or alternatively, the base part 11 may be fixed on the floor slab S in a state where the base part 11 is separated from other parts. After fixing, another member may be attached to the base portion 11.

  As shown in FIG. 2, the beam member 20 includes a plurality of beam component members 20 ′, 20 ′,...

  The beam component 20 ′ is fixed to the upper surfaces of the three bundles 10, 10, and 10, and is attached to the beam main body 21 and the beam main body 21 as shown in FIG. In the present embodiment, a first packing 23 and a second packing 24 attached to the beam main body 21 are further provided.

  The beam main body portion 21 is made of an extruded shape made of an aluminum alloy, and includes a lower layer portion 211 and an upper layer portion 212 formed above the lower layer portion 211. If the beam body 21 is made of an aluminum alloy extruded shape, in addition to the advantages of aluminum alloy, which is light in weight and resistant to corrosion, it is also expected to have the advantage of easy assembly and modification of double floors. it can. In addition, since the beam main body 21 having a different length can be manufactured simply by cutting the extruded profile with a predetermined length, the manufacturing cost can be reduced.

  As shown in FIG. 5B, the lower layer portion 211 includes a hollow portion 211a whose interior is obliquely partitioned, and a pair of first bolt housing portions 211b and 211b formed on both sides of the lower end portion of the hollow portion 211a. And a second bolt housing part 211c formed on the upper side of one first bolt housing part 211b (the upper side surface of the hollow part 211a) and a third bolt housing formed on the upper side of the other first bolt housing part 211b. A portion 211d and a first packing groove 211e formed immediately above the third bolt housing portion 211d. In addition, the lower layer part 211 has a width dimension larger than that of the upper layer part 212, so that the end part of the floor panel P can be placed on a part protruding laterally from the upper layer part 212 (FIG. 5). (See (a)).

  The first bolt housing portion 211b includes a head of a bolt B1 (see FIG. 5A; the same applies hereinafter) used when the beam main body portion 21 is fixed to the bundle member 10, and a frame member J2 (see FIG. 5). A head of a bolt (not shown) used for fixing (see (a)) to the beam main body 21 is accommodated. The first bolt accommodating portion 211b is continuous in the longitudinal direction of the beam constituting member 20 '(the pushing direction of the beam main body portion 21; the direction perpendicular to the paper surface in FIG. 5B), and the lower surface thereof is open. If it does in this way, since it will become possible to move this volt | bolt B1 to the longitudinal direction of beam structural member 20 ', with the head of volt | bolt B1 accommodated in the inside of the 1st volt | bolt accommodating part 211b, the bundle material 10 Even if there is an error in the installation position, it is possible to easily cope with this, and even when a new bundle 10 is added after the double floor is in service, a new insertion hole, etc. Since it is not necessary to form this, it can be easily handled. In addition, the protrusion which contact | abuts to the head of bolt B1 and controls the rotation is formed in the inner surface of the 1st bolt accommodating part 211b. Further, the inner width of the first bolt accommodating portion 211b is equal to the short side width of a rectangular plate washer W1 (see FIG. 5A; the same applies hereinafter) that is mounted around the shaft portion of the bolt B1. Although illustration is omitted, a blade portion is formed on the lower surface of the plate washer W1 in a direction orthogonal to the longitudinal direction of the first bolt housing portion 211b, and when the bolt B1 is tightened, the blade portion becomes the first. It bites into the inner surface of the bolt accommodating part 211b, and the movement of the bolt B1 is prevented. Although not shown, the opening on the lower surface of the first bolt housing portion 211b is widened at an appropriate location, and the head of the bolt B1 and the plate washer W1 can be inserted from this widened portion. Yes. The head of the bolt B1 and the plate washer W1 can be inserted into the inside from the end of the first bolt housing part 211b.

  The second bolt accommodating portion 211c accommodates the head of a bolt B2 (see FIG. 5A; the same applies hereinafter) used when the device fixing portion 22 is fixed to the beam main body portion 21. The second bolt accommodating portion 211c is continuous in the longitudinal direction of the beam component 20 ', and its side surface is open. If it does in this way, it will become possible to move this volt | bolt B2 to the longitudinal direction of beam structural member 20 ', with the head of volt | bolt B2 accommodated in the inside of the 2nd volt | bolt accommodating part 211c. In addition, the protrusion which contact | abuts to the head of bolt B2 and controls the rotation is formed in the inner surface of the 2nd bolt accommodating part 211c. Further, the inner width of the second bolt accommodating portion 211c is equal to the short side width of a rectangular plate washer W2 (see FIG. 5A; the same applies hereinafter) mounted around the shaft portion of the bolt B2. Moreover, although illustration is abbreviate | omitted, the opening part of the side surface of the 2nd volt | bolt accommodating part 211c is widened in a suitable location, The head of the bolt B2 and the plate washer W2 can be inserted now from this widened part. Yes.

  Since the 3rd bolt accommodating part 211d is the structure similar to the 2nd bolt accommodating part 211c, the detailed description is abbreviate | omitted.

  The first packing groove 211e is continuous in the longitudinal direction of the beam component 20 ', and its upper surface is open. A convex portion formed on the lower surface of the first packing 23 is fitted into the first packing groove 211e.

  The upper layer portion 212 includes a hollow portion 212a, projecting pieces 212b and 212c provided on the side of the hollow portion 212a and directly above the second bolt housing portion 211c of the lower layer portion 211, and a hollow portion 212a. And a second packing groove 212d formed on the opposite side of the protruding pieces 212b and 212c.

  The projecting pieces 212b and 212c are continuous with each other in the longitudinal direction of the beam constituting member 20 ′ in a state of being opposed to each other, and serve as a guide groove of an engaging portion 223 (see FIG. 5A) of the device fixing portion 22 described later. Function. The upper projecting piece 212b has a tip bent at the lower side, and engages with an engaging portion 223 of the device fixing portion 22 described later.

  The second packing groove 212d is continuous in the longitudinal direction of the beam component 20 ', and its side surface is open. A convex portion formed on the side surface of the second packing 24 is fitted into the second packing groove 212d.

  As shown in FIG. 6, the device fixing portion 22 includes a plate-like attachment portion 221 that contacts the side surface of the beam main body portion 21, and an overhang portion 222 that protrudes from the upper end portion of the attachment portion 221 toward the side. , And an engaging portion 223 projecting from the side surface of the mounting portion 221 on the beam main body portion 21 side, and has a substantially inverted L shape as a whole.

  At the end in the longitudinal direction of the attachment portion 221, horizontal U-shaped cutouts 221 a and 221 a are formed in accordance with the opening of the second bolt housing portion 211 c of the beam main body portion 21. This notch 221a is formed in such a size that the shaft portion of the bolt B2 just fits.

  The overhanging portion 222 has an upper surface flush with the upper surface of the beam main body portion 21 (see FIG. 5A), and a bolt insertion hole 222a is formed in the center thereof. A bolt Bk for fixing a communication device or the like is inserted through the bolt insertion hole 222a.

  The engaging portion 223 has a horizontal T shape, and as shown in FIG. 5A, the tip portion thereof slides between the projecting pieces 212b and 212c of the beam main body portion 21 (that is, the guide groove). Engage freely. Further, the upper protruding piece 212b is fitted into a gap (groove) formed between the distal end portion of the engaging portion 223 and the mounting portion 221.

  In addition, in order to fix the apparatus fixing | fixed part 22 to the side surface of the beam main-body part 21, while inserting the front-end | tip part of the engaging part 223 of the apparatus fixing | fixed part 22 between the protrusions 212b and 212c of the beam main-body part 21, The shaft portion of the bolt B2 in which the head is accommodated in the two-bolt accommodating portion 211c is fitted into the notch 221a (see FIG. 6) of the attachment portion 221, and the nut N2 is screwed into the portion protruding from the attachment portion 221. That's fine. Moreover, if bolt B2 and nut N2 are loosened, the apparatus fixing | fixed part 22 can be moved to arbitrary positions. In other words, the device fixing portion 22 is configured to be movable with respect to the beam main body portion 21, and its mounting position can be freely set in accordance with the dimensional standard of the communication device installed in the communication device installation area K1 (see FIG. 1). Can be moved to. Therefore, even when a communication device having a different dimensional standard is replaced after the start of service of the double floor, it is possible to cope by simply moving the device fixing unit 22. In addition, although illustration is abbreviate | omitted, nut N2 may be accommodated in the 2nd bolt accommodating part 211c, and bolt B2 may be screwed together from the attaching part 211 side.

  As shown in FIG. 5A, the first packing 23 is interposed between the lower surface of the floor panel P and the upper surface of the lower layer portion 211 of the beam main body portion 21, and is formed on the back surface thereof. The protruding portion is fixed to the beam main body 21 by fitting into the first packing groove 211e of the beam main body 21 (see FIG. 5B). The first packing 23 seals the gap between the lower surface of the floor panel P and the beam main body 21, and as a result, air conditioning (not shown) installed in the air conditioner installation region K <b> 2 (see FIG. 1). The cooling air blown from the machine is efficiently introduced into the communication device installation area K1 (see FIG. 1), and further, direct contact between the lower surface of the floor panel P and the beam main body 21 is prevented. Therefore, the generation of the squeaking noise is suppressed.

  The second packing 24 is interposed between the side end surface of the floor panel P and the side surface of the upper layer portion 212 of the beam main body portion 21, and the convex portion formed on the back surface thereof is the first portion of the beam main body portion 21. It is fixed to the beam main body 21 by being fitted into the two packing grooves 212d (see FIG. 5B). And the clearance gap between the side end surface of the floor panel P and the beam main-body part 21 is sealed by this 2nd packing 24, As a result, the cooling air ventilated from the air-conditioner which is not shown efficiently installs communication equipment. It is introduced into the region K1 (see FIG. 1), and further, direct contact between the side end surface of the floor panel P and the beam main body portion 21 is prevented, and generation of squeaking noise is suppressed. .

  In order to fix the beam constituent member 20 ′ to the upper surface of the bundle member 10, the beam main body is placed on the beam placing portion 12 of the bundle member 10 in a state where the heads of the bolts B <b> 1 are accommodated in the first bolt accommodating portions 211 b. A bolt that protrudes below the upper plate 121 after placing the portion 21 and inserting the shaft portion of the bolt B1 into an insertion hole 121a (see FIG. 4) formed in the upper plate 121 of the beam mounting portion 12. What is necessary is just to fasten the axial part of B1 with nut N1. Note that the end of the beam component 20 ′ is placed on the front half or the rear half of the upper plate 121 of the bundle member 10 (see FIG. 3), and is fixed to the upper plate 121 by two bolts B1 each on the left and right. Is done. On the other hand, the intermediate part of the beam constituting member 20 'is placed on the entire surface of the upper plate 121 of the bundle member 10, and is fixed to the upper plate 121 by a total of four bolts B1.

  As shown in FIG. 7, the brace material 30 connects the bundle members 10, 10 adjacent to each other in the longitudinal direction of the beam member 20, and is connected to the lower connection portion 14 of one bundle member 10. One bar 31, a second bar 32 connected to the upper connection portion 15 of the other bundle 10, and a joint member 33 that connects the first bar 31 and the second bar 32 are provided. .

  As shown in FIG. 8, the first bar 31 has a plate-like connection end 311 formed at one end thereof, and a thread formed at the other end. Further, the connection end 311 is formed with an insertion hole 311a at the center thereof.

  The second bar 32 has a plate-like connection end 321 formed at one end and a thread formed at the other end. The connection end 321 is formed with an insertion hole 321a at the center thereof.

  The joint material 33 includes a rod-shaped main body 331 and nuts 332 and 332 for loosening the bolts disposed at both ends of the rod-shaped main body 331. Screw holes 331a and 331b into which the end of the first bar 31 and the end of the second bar 32 are screwed are formed in both end faces of the rod-shaped main body 331. The joint material 33 has a so-called turnbuckle structure, and the amount of insertion of the first bar 31 into the screw hole 331a and the amount of insertion of the second bar 32 into the screw hole 331b are appropriately adjusted. The length of the entire brace member 30 can be adjusted.

  In order to connect the bundle members 10 and 10 with the brace member 30, as shown in FIG. 7, the connection end portion 311 of the first bar 31 is connected to the lower connection portion 14 of one bundle member 10. The connection end 321 of the second bar 32 may be connected to the upper connection 15 of the other bundle 10. More specifically, as shown in FIG. 8, the connection end 311 of the first bar 31 is overlapped with the first connection piece 141 b of the bracket 141 of the lower connection portion 14, and the insertion hole 311 a of the connection end 311 and After aligning the position of the insertion hole 141d of the first connection piece 141b, the bolt B3 may be inserted therethrough and the nut N3 may be screwed into the shaft portion. The same applies to the second bar 32.

  As described above, when the bundle members 10 and 10 adjacent to each other in the longitudinal direction of the beam constituent member 20 ′ are connected to each other by the pair of brace members 30 and 30 in each support leg structure L, the rigidity of each support leg structure L is increased. Because it improves, it is possible to provide a double floor that exhibits a strong resistance to shaking caused by an earthquake or the like.

(Connected body)
As shown in FIG. 2, the brace material J1 that connects the bundle members 10 and 10 to each other and the beam members 20 and 20 are connected to each other in the connecting member J that connects the adjacent support leg structures L and L to each other. There is a frame material J2.

  Here, since the configuration of the brace material J1 is the same as that of the brace material 30 described above, a detailed description thereof will be omitted.

  As shown in FIG. 7, the frame material J2 is made of an extruded product made of aluminum alloy having an L-shaped cross section, and a bolt whose head is accommodated in the first bolt accommodating portion 211b (see FIG. 5B). And it is being fixed to the lower surface of the beam material 20 with the nut.

  Thus, in each of the communication device installation area K1 and the air conditioner installation area K2 (see FIG. 1), if the adjacent support leg structures L and L are integrated with the connecting body J (see FIG. 2), an earthquake or the like It is possible to provide a double floor that exerts a strong resistance to shaking caused by.

(Floor panel)
The configuration of the floor panel P is not particularly limited. For example, as in the floor panel P shown in FIG. 9, a plate shape formed by cutting an extruded shape made of aluminum alloy with an appropriate length. The panel body P1 and the one provided with the fore edge members P2 and P2 provided at both ends of the panel body P1 can be used. The configuration, material, and the like of the floor panel P are not particularly limited, and may be changed as appropriate.

(How to construct a double floor)
Next, a method for constructing a double floor will be described.
In order to construct a double floor, a plurality of support leg structures L, L,... Are placed on the floor slab S in accordance with the arrangement of the communication device installation area K1 and the air conditioner installation area K2, as shown in FIG. The support leg structures L, L adjacent to each other in the communication device installation area K1 and the air conditioner installation area K2 are connected to each other by the connection body J, and then the support leg structure of the one communication equipment installation area K1. A plurality of floor panels P, P,... Are laid between L and the support leg structure L of another communication device installation area K1 adjacent thereto, and a plurality of communication equipment installation areas K1, K1,. A plurality of floor panels P, P,... May be laid between the machine installation area K2.

  In order to install the communication device K or the like in the communication device installation region K1 or the like, as shown in FIG. 2, a plurality of devices attached to the side surface of the beam main body 21 of the beam component 20 ′ (beam material 20). After the fixing portions 22, 22,... Are moved according to the dimensional standards of the communication device K (see FIG. 1) etc., as shown in FIG. 5 (a), these device fixing portions 22, 22,. The communication device K may be placed on and fixed with bolts Bk and nuts Nk.

Here, the construction method of the support leg structure L is demonstrated in detail with reference to FIG.
In order to construct the support leg structure L, for example, a support leg unit U may be used. As shown in FIG. 10A, the support leg unit U includes a beam component 20 ′ that is a part of the beam member 20, and one end of the beam component 20 ′ (the right end in FIG. 10A). ) Attached to the boundary member 10A and an intermediate bundle member 10B attached to an intermediate portion of the beam component 20 ′, and the other end of the beam component 20 ′ is adjacent to the other member. The support leg unit U can be placed on the boundary bundle 10A. Needless to say, the configuration of the boundary bundle 10A and the intermediate bundle 10B is the same as that of the bundle 10 shown in FIG. In the present embodiment, one support leg unit U is provided with one intermediate bundle 10B, but is provided with two or more intermediate bundles 10B. Of course.

  In order to construct the support leg structure L using this support leg unit U, a plurality of support leg units U, U,... That is, while the other end of the beam constituting member 20 ′ of the rear support leg unit U is placed on the bundle 10 A for the boundary of the front support leg unit U installed on the floor slab S, this rear stage The bundle material 10A for the boundary of the supporting leg unit U and the bundle material 10B for the intermediate may be erected on the floor slab S.

  More specifically, first, as shown in FIGS. 10A and 10B, the upper surface of the support leg unit U at the front stage (that is, the upper surface of the beam component 20 ′) is horizontal, The other end of the beam component 20 ′ of the support leg unit U is placed on the boundary bundle 10A of the front support leg unit U, and then the boundary bundle 10A is attached to the support leg unit U at the rear stage. While fixing on the floor slab S, the height of the bundle member 10A for the boundary is adjusted to make the upper surface of the beam constituent member 20 'horizontal, and then the intermediate member while keeping the upper surface of the beam constituent member 20' horizontal. When the height of the bundle member 10B is adjusted, as shown in FIG. 10C, the rear support leg unit U can be installed at the same height as the front support leg unit U and horizontally. .

  Here, as shown in FIG. 10B, before the support leg unit U is installed on the floor slab S, the length (height) of the intermediate bundle 10B is set to the boundary bundle 10A. If the length is shorter than, the intermediate bundle material 10B does not get in the way when adjusting the height of the boundary bundle material 10A.

  In the present embodiment, the case where the height of the boundary bundle member 10A is adjusted when the upper surface of the beam component member 20 ′ is leveled in the support leg unit U at the rear stage is illustrated, but the present invention is not limited thereto. However, the height of the intermediate bundle member 10B is adjusted to make the upper surface of the beam component member 20 ′ horizontal, and then the boundary bundle member 10A while keeping the upper surface of the beam component member 20 ′ horizontal. You may adjust the height. Further, when the support leg unit U includes three or more bundle members 10, the height of one of the bundle members 10 is adjusted so that the upper surface of the beam component 20 'is horizontal, and then the beam What is necessary is just to adjust the height of the remaining bundle material 10, keeping the upper surface of component material 20 'horizontal.

  Further, the brace material 30 may be attached to the support leg unit U in advance, or may be attached after the support leg unit U is installed on the floor slab S.

  As described above, according to the double floor according to the present embodiment, as shown in FIG. 2, the beam member 20 (beam component material) that forms the equipment installation area (communication equipment installation area K1 and air conditioner installation area K2). 20 ') is divided into a beam main body 21 and a device fixing portion 22, and the device fixing portion 22 is configured to be movable with respect to the beam main body portion 21, so that the attachment position of the device can be freely selected. Therefore, it is possible to easily cope with installation of equipment having different dimensional standards.

  Further, when the support leg structure L is constructed, if the support leg unit U is used, the support leg structure L can be constructed simply and quickly, and thus a double floor can be constructed efficiently. Become. That is, if the upper surface of one of the plurality of support leg units U, U,... Is leveled, the upper surfaces of the remaining support leg units U, U,. Can do. In addition, when the other end of the beam constituting member 20 ′ of the rear support leg unit U is placed on the bundle 10A for the boundary of the front support leg unit U whose height has been adjusted, the rear support legs In the unit U, the upper surface of the beam component 20 ′ can be made horizontal by simply adjusting the height of any one of the plurality of bundles 10 (boundary bundle 10A and intermediate bundle 10B). The height of the remaining bundle 10 can be adjusted with reference to the horizontal beam component 20 ′.

  Although illustration is omitted, the support leg structure L may be constructed without using the support leg unit U. Referring to FIG. 2, a plurality of bundle members 10, 10,... Are erected and fixed in a straight line at predetermined positions on a floor slab S, and a plurality of beam structures are formed on these upper surfaces. The supporting leg structure L may be constructed by fixing the materials 20 ′, 20 ′,. At this time, the bundle member 10 may be positioned at the boundary between the adjacent beam constituent members 20 ′ and 20 ′. In addition, when one beam constituent member 20 ′ is installed over three or more bundle members 10, the beam component member 20 ′ is fixed to the upper surface of any two bundle members 10, and the two bundle members are fixed. When the height of 10 is adjusted to make the upper surface of the beam component 20 horizontal and then the height of the remaining bundle member 10 is adjusted, the remaining beam member 10 has a horizontal beam component 20. It is convenient because it can be based on '.

  In the present embodiment, the communication device installation area K1 and the air conditioner installation area K2 are formed using two rows of support leg structures L, L arranged side by side on the floor slab S ( In addition to this, although illustration is omitted, of course, it may be formed using three or more rows of support leg structures L, L,.

  In addition, the support structure of the beam member 20 is not limited to the above-described structure, and may be changed as appropriate. For example, as shown in FIG. 11, the two beam members 20, 20 may be supported by a support leg A having a gate shape, and further supported by a gantry D1 shown in FIG. It may be. That is, if the equipment installation region is formed to include a plurality of beam members 20, 20,... Arranged side by side above the floor slab S, the structure for supporting each beam member 20 is appropriately selected. It can be changed.

It is a perspective view which shows the double floor which concerns on this invention. It is an enlarged view of FIG. It is a perspective view which shows a bundle material. It is a disassembled perspective view for demonstrating the structure of a bundle material. (A) is sectional drawing of a beam material (beam constituent material), (b) is sectional drawing of a beam main-body part. It is a disassembled perspective view for demonstrating the structure of a beam structural member. It is a side view of a support leg structure. It is a disassembled perspective view for demonstrating the structure of a brace material. It is a disassembled perspective view for demonstrating the structure of a floor panel. It is a side view for demonstrating the construction method of a support leg structure. It is a partial front view which shows the modification of the double floor which concerns on this invention. It is a perspective view which shows the conventional double floor.

Explanation of symbols

L Support leg structure 10 Bundle material 20 Beam material 20 'Beam component material 21 Beam body portion 211c (Second) bolt housing portion 212b, 212c Projection piece (guide groove)
22 equipment fixing part 221 mounting part 222 overhang part 223 engaging part 30 brace material P floor panel J coupling body S floor slab

Claims (2)

The equipment installation area where the equipment is installed is a double floor formed by including a plurality of beam members arranged side by side above the floor slab,
Each of the beam members includes a device fixing portion to which the device is fixed, and a beam main body portion that holds the device fixing portion, and the device fixing portion extends along the longitudinal direction of the beam main body portion. movable der Te is, the double floor top surface of the device fixing part, wherein it is in the upper surface flush with the beam body. The equipment installation area where the equipment is installed is a double floor formed by including a plurality of beam members arranged side by side above the floor slab,
Each of the beam members includes a device fixing portion to which the device is fixed, and a beam main body portion that holds the device fixing portion, and the device fixing portion extends along the longitudinal direction of the beam main body portion. movable der Te is,
The device fixing portion includes an attachment portion that contacts the side surface of the beam main body portion, an overhang portion that protrudes laterally from an upper end portion of the attachment portion, and a side surface of the attachment portion on the beam main body side. A projecting engagement portion,
In the beam main body portion, along the longitudinal direction, a guide groove in which the engagement portion is slidably engaged and a bolt housing portion having an open side surface are formed,
The mounting portion of the device fixing portion is fixed to the beam main body portion using a bolt having a head accommodated in the bolt accommodating portion and a nut screwed into a shaft portion of the bolt. double floor that.

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