CN114319683A - Suspended ceiling structure of data center - Google Patents

Abstract

The application discloses a suspended ceiling structure of a data center, which relates to the technical field of suspended ceilings and comprises a suspended ceiling frame, wherein the suspended ceiling frame comprises an installation rod, the suspended ceiling frame comprises a main keel and an auxiliary keel, the main keel and the auxiliary keel form a rectangular grid, a suspended ceiling block is detachably connected on the main keel and the auxiliary keel, a sliding rod is connected on the auxiliary keel in a sliding manner and is rotatably connected with a driving rod, an inserting rod is connected on the sliding rod, the suspended ceiling block is connected with a first sliding seat, an inserting ring for inserting the inserting rod is arranged on the first sliding seat, a second sliding seat is connected on the suspended ceiling block in a sliding manner, a moving pin is arranged on the second sliding seat, a moving groove for sliding the moving pin is formed in the driving rod, and a locking groove for inserting the moving pin is formed in one end of the moving groove; the ceiling block is rotatably connected with a locking piece; the house is characterized in that a mounting seat is mounted on the side wall of the house, and a second driving assembly and a first driving assembly are arranged inside the mounting seat. The ceiling of the data center can be more conveniently checked.

Description

Suspended ceiling structure of data center

Technical Field

The application relates to the technical field of suspended ceilings, in particular to a suspended ceiling structure of a data center.

Background

In building finishing, to make the ceiling of a room more attractive, a ceiling is usually installed at the ceiling of the room, and some conduit wires can also be hidden between the ceiling and the ceiling by the arrangement. The furred ceiling also can be installed to data center usually, because data center electric wire and cable are more, and need install air conditioning system, ventilation system etc. and come to cool down data center, so can arrange more electric wire, cable and pipeline etc. on the furred ceiling usually.

Among the correlation technique, can fix the vertical installation pole of multirow on the ceiling usually, fixed connection main joist between the installation pole, many main joist parallel arrangement, and can connect many false joists under the main joist, main joist and false joists are perpendicular and form latticedly, and the mode through joint, bolted connection or rifle nail connection will be suspended ceiling piece and main joist, false joists connection at last to form complete furred ceiling. The lines pipeline can be arranged on the main keel or the auxiliary keel, and is shielded by the ceiling block and plays a role in increasing support.

In the process of implementing the application, the inventor finds that at least the following problems exist in the technology: data center is the condition emergence that circuit trouble may appear when the operation, and operating personnel when troubleshooting the circuit problem, when troubleshooting a circuit, often need dismantle the polylith furred ceiling piece that probably goes wrong part, overhauls to install back polylith furred ceiling piece after accomplishing again, and operation process is comparatively loaded down with trivial details.

Disclosure of Invention

In order to make data center's furred ceiling can more conveniently carry out the investigation of circuit problem, this application provides a data center's furred ceiling structure.

The application provides a data center's furred ceiling structure adopts following technical scheme:

a ceiling structure of a data center is arranged in a house and comprises a ceiling frame, wherein the ceiling frame comprises a plurality of rows of vertical installation rods, one ends of the installation rods are fixedly connected to a ceiling, the ceiling frame comprises a plurality of main keels which are parallel to each other and fixedly connected with the ends, far away from the ceiling, of the installation rods and auxiliary keels which are parallel to each other and fixedly connected with the main keels, the main keels and the auxiliary keels are perpendicular to each other and form a rectangular grid, ceiling blocks used for covering the rectangular grid are detachably connected to the main keels and the auxiliary keels, sliding rods are slidably connected to the auxiliary keels and rotatably connected with driving rods, the driving rods are parallel to the sliding rods, the rotation axis direction of the driving rods is along the length direction of the auxiliary keels, and the movement direction of the sliding rods is along the length direction of the auxiliary keels;

a plurality of insertion rods are fixedly connected to the sliding rods along the length direction, a first sliding seat is connected to the surface, facing the ceiling, of the ceiling block in a sliding mode, an insertion ring for the insertion rods to be inserted is arranged on the first sliding seat, a second sliding seat is connected to one side, facing the ceiling and far away from the insertion ring, of the ceiling block in a sliding mode, a moving pin is arranged on the second sliding seat, a moving groove for the moving pin to slide is formed in the driving rod, locking grooves for the moving pin to be inserted are formed in two ends of the moving groove, and the moving pin and the driving rod cannot rotate relatively;

the ceiling block is rotatably connected with a locking piece which drives the moving pin and the inserting ring to move, so that the inserting rod enters or separates from the inserting ring and the moving pin enters or separates from the locking groove;

house with install the mount pad on the counter keel vertically lateral wall, the mount pad is the cavity form, in actuating lever and slide bar one end extended to the mount pad, the inside drive that is provided with of mount pad the actuating lever pivoted second drive assembly, and the drive the gliding first drive assembly of slide bar.

By adopting the technical scheme, the main keel is fixed with the mounting rod, one end of the mounting rod is fixedly connected to the ceiling, the auxiliary keel is fixedly connected with the main keel, and the ceiling block is detachably connected to the main keel and the auxiliary keel so as to connect the ceiling frame to the ceiling of the house;

when the ceiling block is installed, after the ceiling block is positioned, the locking piece is rotated, the insertion rod is inserted into the insertion ring, the moving pin is inserted into the locking groove, so that the ceiling block is locked, similarly, the insertion rod can be separated from the insertion ring by rotating the locking piece, the moving pin is separated from the locking groove, and the ceiling block can be detached from the unlocking ceiling block;

when arranging electric wire and pipeline, can arrange along false keel length direction, make lines and pipeline can arrange on one row of furred ceiling piece, when needs overhaul circuit or pipeline, the slide bar that corresponds through first drive assembly drive slides, make the grafting pole break away from the grafting ring, because remove the round pin and still peg graft at locking inslot, and remove the round pin and be difficult for rotating, so the difficult of furred ceiling piece drops, rotate the angle that is less than ninety degrees through first drive assembly drive actuating lever, a furred ceiling piece for supporting same one row of circuit and pipeline rotates, the whole row is overturn together, the operation can be overhauld the circuit of a whole row.

Optionally, two parallel sliding grooves respectively used for the first sliding seat and the second sliding seat to slide are formed in the ceiling block, the first sliding seat comprises a first sliding block connected in the sliding groove in a sliding manner, the second sliding seat comprises a second sliding block connected in the sliding groove in a sliding manner, and a limiting edge used for limiting the first sliding block and the second sliding block to be separated from the sliding groove in the vertical direction is arranged on the ceiling block.

Through adopting above-mentioned technical scheme, thereby first sliding seat with slide through first slider and can slide in the spout, thereby the second sliding seat with slide through the second slider and can slide in the spout, and through setting up spacing edge can carry on spacingly to first sliding seat and second sliding seat, difficult roll-off spout.

Optionally, the first sliding seat and the second sliding seat are provided with racks on opposite surfaces, the ceiling block is rotatably connected with a gear engaged with the racks, and the locking piece drives the gear to rotate.

Through adopting above-mentioned technical scheme, the locking piece can rotate with drive gear at the rotation in-process, thereby gear and rack toothing drive rack remove, and first sliding seat and second sliding seat can remove.

Optionally, a fixed plate is arranged on one side, facing the ceiling, of the ceiling block, an interval exists between the fixed plate and the ceiling block, the locking piece comprises a rotating column, one end of the rotating column penetrates out of the ceiling block, the gear is fixedly connected with a rotating shaft, the two ends of the rotating shaft are respectively rotated on the fixed plate and the ceiling block, and a tightening belt is sleeved on the rotating shaft and the rotating column.

By adopting the technical scheme, the fixing plate is arranged to enable the rotating shaft and the rotating column to rotate, so that the rotating column and the rotating shaft are more stable in position, the gear, the rotating column and the rotating shaft can be protected by the fixing plate, and the fixing plate can support wires and pipelines; through setting up the belt of cover on axis of rotation and column spinner, when rotating the column spinner, through the effect of belt, can drive the gear and rotate.

Optionally, the first driving assembly comprises a pushing block which is connected in the mounting seat in a sliding manner and used for driving the sliding rod to move, a connecting hole is formed in one end, located on the mounting seat, of the driving rod, one end of the pushing block is fixedly connected with a connecting rod which is inserted into the connecting hole, and operation holes used for operating the pushing block are formed in the bottom of the mounting seat at equal intervals.

Through adopting above-mentioned technical scheme, the connecting rod is pegged graft and is made can promote or pull the slide bar and slide when the ejector pad removes in the connecting hole.

Optionally, the pushing block is adapted to vertically slide in the operating hole, a supporting block attached to the inner top wall of the mounting seat is slidably connected inside the mounting seat, the supporting block is fixedly connected with a guide rod, a guide groove for the guide rod to move is formed in the pushing block, a first spring with two ends respectively fixed to the supporting block and the pushing block is sleeved outside the guide rod, and when the pushing block is located in the operating hole, the surface of the pushing block far away from the supporting block is flush with the lower surface of the mounting seat.

Through adopting above-mentioned technical scheme, the ejector pad is located the handle hole and seals the handle hole when not using for the furred ceiling frame bottom keeps the parallel and level and complete, when needs drive slide bar removes, through promoting the ejector pad, makes the ejector pad leave the handle hole, and first spring shrink, guide bar remove, and the ejector pad can horizontal migration be used for promoting the slide bar, and when the ejector pad bottom supported tightly on the mount pad bottom plate through the elasticity of first spring or when first spring resets and makes ejector pad grafting handle hole, the position of ejector pad is difficult for removing, makes the slide bar be difficult for sliding.

Optionally, the second drive assembly includes fixed connection and is in the rotation strip of actuating lever one end, it is located the mount pad to rotate the strip, set up the confession on the mount pad rotate the slot hole that the strip rolled out, be provided with on the rotation strip rotate the strip and seal the connecting piece that the slot hole time locking rotated the strip position.

Through adopting above-mentioned technical scheme, when the rotation strip seals the slot hole on the whole and locks through the connecting piece, the furred ceiling frame lower surface keeps parallel and level and breach less, and because the effect of connecting piece, when the installation furred ceiling piece, the actuating lever is difficult for rotating, when needs rotate the actuating lever, through unblock connecting piece and rotation strip, can rotate one row of furred ceiling piece and get off.

Optionally, the rotation strip has seted up the slide opening along length direction, the connecting piece is including sliding the fixed strip in the slide opening, the fixed strip including be located in the mount pad and with the support section of mount pad bottom wall butt, the rotation strip is located inside fixed connection has the lug on the surface of mount pad, the lug with be provided with the second spring between the support section, work as the second spring is located the mount pad and when being in natural state, support the section butt and be in on the mount pad bottom wall.

Through adopting above-mentioned technical scheme, when rotating the strip and covering the slot hole, the elasticity butt that supports the section through the second spring is on the mount pad diapire, rotates the strip this moment and is difficult for rotating, when needs unblock connecting piece, makes can slide after the second spring compression to support the section and remove to the slot hole top through promoting the fixed strip, rotates the strip this moment and can rotate.

Optionally, two parallel inserting edges are fixedly connected to the surface of the ceiling block facing the ceiling, an inserting groove for inserting the inserting edges is formed in the main keel, a magnetic strip is fixedly connected to the surface of the ceiling block far away from the inserting edge, and an iron sheet for attracting the magnetic strip is fixedly connected to the inside of the inserting groove.

Through adopting above-mentioned technical scheme, the furred ceiling piece plays the effect that increases the steadiness through magnetic stripe and iron sheet actuation in pegging graft to the inserting groove along pegging graft, and magnetic stripe and iron sheet actuation can play predetermined position's effect.

Optionally, a lifting ring is fixedly connected to the surface of the pushing block, which is far away from the mounting seat, the lifting ring is located on one side of the pushing block, which is far away from the false keel, and when the lifting ring abuts against the inner wall of the operation hole, the insertion rod is separated from the insertion ring.

Through adopting above-mentioned technical scheme, set up and carry the convenient operation ejector pad of pull ring, when carrying pull ring butt in the operation hole inner wall, the ejector pad horizontal slip finishes, plays the effect of location.

In summary, the present application includes at least one of the following benefits:

1. the first driving assembly drives the sliding rod to slide, so that the insertion rod is separated from the insertion ring, the movable pin is inserted into the locking groove and is not easy to rotate, the ceiling block is not easy to fall off, the driving rod is driven by the first driving assembly to rotate by an angle smaller than ninety degrees and is used for supporting the ceiling block of the same line and pipeline to rotate, the whole line is turned over together, and an operator can overhaul the line of the whole line;

2. the rotating column is rotated, the rotating shaft and the gear can be driven to rotate through the belt, the first sliding seat and the second sliding seat can be driven to move through the meshing of the gear and the rack, the inserting rod can be inserted into or separated from the inserting ring, the moving pin can be inserted into or separated from the locking groove, and the ceiling block is convenient to mount and dismount;

3. the suspended ceiling block is inserted into the insertion groove along the insertion edge, the effect of stability increase is achieved through magnetic stripe and iron sheet attraction, and the magnetic stripe and the iron sheet attraction can achieve the effect of pre-positioning.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural view of an embodiment of the present application when a ceiling block is not installed;

figure 3 is a partial schematic view of an embodiment of the present application showing the construction of a false keel;

FIG. 4 is an exploded view of a ceiling tile structure according to an embodiment of the present disclosure;

FIG. 5 is a schematic view of the overall structure of a row of ceiling blocks rotating downward according to the embodiment of the present application;

FIG. 6 is an enlarged schematic view at A in FIG. 2;

FIG. 7 is a schematic partial cross-sectional view illustrating a first driving assembly according to an embodiment of the present disclosure;

FIG. 8 is a schematic diagram in partial cross-section illustrating a second drive assembly mechanism in accordance with an embodiment of the present application;

fig. 9 is an enlarged schematic view at B in fig. 5.

Description of reference numerals: 1. a ceiling; 2. a ceiling mount; 21. mounting a rod; 22. a main keel; 221. inserting grooves; 222. iron sheets; 23. a false keel; 231. a first accommodating groove; 232. a second accommodating groove; 24. a drive rod; 241. a moving groove; 242. a locking groove; 243. rotating the strip; 244. a slide hole; 245. a fixing strip; 2451. a support section; 246. a bump; 247. a second spring; 25. a slide bar; 251. connecting holes; 252. a plug rod; 26. rectangular grids; 3. a mounting seat; 31. a push block; 311. a connecting rod; 312. a guide groove; 313. lifting the ring; 32. a support block; 321. a guide bar; 322. a first spring; 33. an operation hole; 34. a long hole; 35. a limiting block; 4. hoisting a top block; 41. a fixing plate; 411. fixing a column; 412. a spin column; 42. a first sliding seat; 421. a first slider; 422. a rack; 423. a plug-in ring; 43. a second sliding seat; 431. a second slider; 432. a moving pin; 44. a chute; 441. a limiting edge; 45. a rotating shaft; 451. a gear; 46. a belt; 47. an inserting edge; 471. a magnetic strip.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses data center's furred ceiling structure. Referring to fig. 1 and 2, a suspended ceiling structure of data center is including installing suspended ceiling frame 2 on house ceiling 1, suspended ceiling frame 2 includes many one end and ceiling 1 fixed connection's installation pole 21, and many and installation pole 21 keep away from ceiling 1's one end fixed connection's main joist 22, be parallel to each other between many main joists 22 and the distance between the adjacent main joist 22 equals, the one end fixed connection who keeps away from ceiling 1 of main joist 22 has a false keel 23, false keel 23 can pass through the bolt, the nut, mode such as rifle nail is fixed with main joist 22, false keel 23 is provided with many and perpendicular with main joist 22, and the distance between the adjacent false keel 23 is unanimous. The main runners 22 and the cross runners 23 are spliced to form a rectangular grid 26 of the same size. The ceiling grid 2 further includes ceiling tiles 4 removably connected to the main runners 22 and cross runners 23 and used to close the rectangular grid 26.

Referring to fig. 2 and 3, the false keel 23 is provided with a first accommodating groove 231 and a second accommodating groove 232 which are parallel to each other along the length direction, the first accommodating groove 231 is internally and slidably connected with a sliding rod 25, the second accommodating groove 232 is internally and rotatably connected with a driving rod 24, a side wall of a room is fixedly connected with an installation seat 3 through a bolt, the installation seat 3 is in a hollow box shape, the bottom of the installation seat is flush with the bottom surface of a ceiling block 4, one end of the false keel 23 is fixedly connected to the side wall of the installation seat 3, and one end of the sliding rod 25 and one end of the driving rod 24 are located in the installation seat 3. A second driving component for driving the driving rod 24 to rotate is arranged in the mounting seat 3, and a first driving component for driving the sliding rod 25 to slide is arranged in the mounting seat 3.

Referring to fig. 4, the ceiling block 4 is rectangular plate-shaped and made of aluminum, so that the ceiling block has the advantages of stability and light weight, and small air holes (not shown) are distributed in the ceiling block 4, so that a good air permeation effect can be achieved when the ceiling block is installed in a machine room or a data center. A first sliding seat 42 and a second sliding seat 43 are slidably attached to the surface of the ceiling block 4 facing the ceiling 1. Two parallel sliding grooves 44 are formed in the surface, facing the ceiling 1, of the ceiling block 4, the two sliding grooves 44 are close to the edge of the ceiling block 4, the first sliding seat 42 comprises a first sliding block 421 connected in one sliding groove 44 in a sliding mode, and the second sliding seat 43 comprises a second sliding block 431 sliding in the other sliding groove 44. The ceiling block 4 is connected with a limiting edge 441 in a welding manner, the limiting edge 441 is located at the opening edge of the sliding groove 44 and abuts against the surface of the first sliding block 421 or the second sliding block 431, so that the first sliding block 421 and the second sliding block 431 are limited from being separated from the sliding groove 44, and after the ceiling block 4 is installed, the limiting edge 441 can also play a role in providing support.

Referring to fig. 2 and 4, the facing surfaces of the first sliding seat 42 and the second sliding seat 43 are integrally provided with racks 422, and the length directions of the racks 422 are parallel to the length direction of the sliding groove 44 and are along the length direction of the furring channel 23. Suspended ceiling piece 4 is provided with fixed plate 41 that parallels with suspended ceiling piece 4 towards the center on ceiling 1 surface, has the interval between fixed plate 41 and the suspended ceiling piece 4, and fixed plate 41 is rectangle form and fixedly connected with fixed column 411 between four angles and the suspended ceiling piece 4. Two opposite edges of the fixing plate 41 are close to the rack 422, two rotating shafts 45 are rotatably connected between the fixing plate 41 and the ceiling block 4, and gears 451 which are coaxial and meshed with the rack 422 are fixedly connected to the rotating shafts 45. Rotation axis 45 both ends can rotate through pegging graft in the circular slot of seting up on fixed plate 41 and furred ceiling piece 4, and fixed plate 41 rotates through the bearing towards the middle part on furred ceiling piece 4 surface and is connected with column spinner 412, sets up the through-hole that supplies column spinner 412 to wear out on the furred ceiling piece 4. A straight belt 46 is sleeved between the rotary column 412 and the rotating shaft 45. When mounting, the operator can rotate the rotary column 412, and the belt 46 rotates the gear 451 and slides the first sliding seat 42 and the second sliding seat 43. After the ceiling block 4 is installed, the fixing plate 41 is slightly lower than the main joist 22 or is flush with the main joist 22, the fixing plate 41 is arranged to protect the components between the ceiling block 4 and the fixing plate 41, and the fixing plate 41 can be used for supporting lines and pipelines.

Referring to fig. 3 and 4, the first sliding seat 42 includes two insertion rings 423 at an end away from the ceiling block 4, and the sliding rods 25 are fixedly connected with insertion rods 252 at equal intervals in the length direction for being inserted into the insertion rings 423. The second sliding seat 43 includes a moving pin 432 at the top, the length direction of the moving pin 432 is along the length direction of the sliding slot 44, the driving rod 24 is provided with moving slots 241 for accommodating the moving pin 432 at equal intervals along the length direction, a locking slot 242 for the moving pin 432 to be inserted is formed on the side wall of the moving slot 241, and the locking slot 242 is a square slot adapted to the moving pin 432. When rotating the column spinner 412, first sliding seat 42 and second sliding seat 43 remove along spout 44, and peg graft pole 252 can be pegged graft to in the grafting ring 423, and removal pin 432 can be pegged graft to in locking groove 242 to the position of locking furred ceiling piece 4, the same reason can be dismantled the furred ceiling piece 4 through rotating column spinner 412, and installation and dismantlement process are convenient.

Referring to fig. 3 and 5, when the sliding rod 25 is driven to slide by the first driving assembly, so that the insertion rod 252 is disengaged from the insertion ring 423, since the locking groove 242 is a square groove and the moving pin 432 is adapted to be inserted into the locking groove 242, the position of the ceiling block 4 is kept fixed and is not easily rotated; when the driving rod 24 on the adjacent false keel 23 is driven to rotate through the second driving component, the same row of ceiling blocks 4 between the two false keels 23 can be turned towards one side at the same time, so that the whole section of line and pipeline can be overhauled. The auxiliary keel 23 is correspondingly provided with a yielding groove, so that when the driving rod 24 rotates, the first sliding seat 42 is difficult to interfere with the groove wall of the first accommodating groove 231, the second sliding seat 43 is difficult to interfere with the groove wall of the second accommodating groove 232, the edge of the ceiling block 4 is provided with a fillet, and when the ceiling block 4 rotates, the ceiling block 4 is difficult to interfere with the adjacent ceiling block 4.

Referring to fig. 6 and 7, slotted holes 34 and operation holes 33 are formed in the bottom plate of the mounting seat 3 at equal intervals along the length direction, the slotted holes 34 and the operation holes 33 are staggered, vertical connection holes 251 are formed in one end of the sliding rod 25, the first driving component comprises a push block 31 which is matched with the sliding in the operation holes 33, the push block 31 comprises a connection rod 311, one end of the connection rod is inserted into the connection holes 251, a support block 32 is connected to the mounting seat 3 in a horizontal sliding mode, the support block 32 abuts against the inner top wall of the mounting seat 3, one end, far away from the inner top wall of the mounting seat 3, of the support block 32 is fixedly connected with a guide rod 321, a guide groove 312 for the guide rod 321 to move is formed in the push block 31, and a first spring 322, which is sleeved outside the guide rod 321, is fixedly connected between the support block 32 and the push block 31. When the lifting device is used normally, the pushing block 31 is positioned in the operation hole 33, and the bottom surface of the pushing block is flush with the bottom surface of the mounting seat 3, so that the bottom surface of the lifting frame 2 is flush and complete, and the sliding rod 25 is not easy to move; when the sliding rod 25 needs to be moved, the pushing block 31 is pushed, so that the pushing block 31 enters the mounting seat 3, the first spring 322 is compressed, the pushing block 31 is pushed horizontally, the pushing block 31 can drive the sliding rod 25 to slide, at the moment, the first spring 322 releases elastic force, so that the pushing block 31 abuts against the inner bottom wall of the mounting seat 3, and the sliding rod 25 is not easy to move. One end of the push block 31, which is far away from the supporting block 32, is fixedly connected with a lifting ring 313, so that the push block 31 is convenient to operate, and the lifting ring 313 can abut against the inner wall of the operation hole 33 after the push block 31 moves horizontally, thereby playing a role in limiting.

Referring to fig. 8 and 9, the second driving assembly includes a rotating bar 243 fixedly connected to an end of the driving rod 24 located inside the mounting seat 3, a diameter of a portion of the driving rod 24 located inside the mounting seat 3 is larger to reduce a swing range of the rotating bar 243, the rotating bar 243 rotates along with the driving rod 24, and when the driving rod 24 is used normally, the rotating bar 243 substantially covers the long hole 34 and makes the bottom surface of the mounting seat 3 flush and more complete. The sliding hole 244 has been seted up along length direction to the strip 243 that rotates, sliding connection has the fixed strip 245 of L type in the sliding hole 244, and the fixed strip 245 is including the horizontally support section 2451 that is located mount pad 3, fixedly connected with stopper 35 on the mount pad 3 lateral wall, when support section 2451 pegs graft between stopper 35 and mount pad 3 inner bottom wall, rotates the strip 243 and is difficult for rotating. The fixed bar 245 is fixedly connected with a lug 246 on the surface in the mounting seat 3, a second spring 247 is fixedly connected between the lug 246 and the supporting section 2451, and when the second spring 247 is in a natural state, the supporting section 2451 is positioned in the mounting seat 3 to limit the rotation of the driving rod 24. When the rotating bar 243 needs to be rotated, the rotating bar 243 can be rotated by sliding the fixing bar 245 first so that the supporting section 2451 is positioned above the long hole 34.

Referring to fig. 3 and 4, two insertion edges 47 are fixedly connected to the surface of the ceiling block 4 facing the ceiling 1, and the two insertion edges 47 are parallel and close to the edges of the ceiling block 4. The main joist 22 has seted up along the equidistant grafting groove 221 that supplies to peg graft along 47 and do not influence the grafting along 47 commentaries on classics of turning out along length direction, peg graft along 47 one side fixedly connected with magnetic stripe 471 of keeping away from furred ceiling piece 4, fixedly connected with supplies the iron sheet 222 of magnetic stripe 471 actuation in the grafting groove 221, and when installation furred ceiling piece 4, the grafting groove 221 plays prepositioning's effect and the effect that increases stability along 47 with pegging graft.

The implementation principle of the suspended ceiling structure of the data center is as follows: during installation, the main keel 22, the auxiliary keel 23 and the installation seat 3 are installed, the rotary column 412 is rotated, the first sliding seat 42 and the second sliding seat 43 slide to proper positions along the sliding groove 44, the inserting edge 47 is inserted into the inserting groove 221, the magnetic strip 471 and the iron sheet 222 are attracted, the rotary column 412 is rotated, the inserting rod 252 and the inserting ring 423 are inserted, the movable pin 432 is inserted into the locking groove 242, and the installation is convenient and the disassembly can be carried out in the same way;

it should be noted that, when in decoration, lines and pipelines can be arranged along the length direction of the auxiliary keel 23 in advance, and an operator can conveniently overhaul the suspended ceiling blocks 4 by turning down the whole row of suspended ceiling blocks, without disassembling and installing a plurality of suspended ceiling blocks 4 one by one;

during maintenance, the pushing block 31 is pushed to ascend, so that the first spring 322 contracts, the guide rod 321 moves along the guide groove 312, the pushing block 31 is pushed to move horizontally through the lifting ring 313, the sliding rod 25 can be driven to move, and the inserting rod 252 leaves the inserting ring 423; the sliding fixing strip 245 and the second spring 247 are compressed, the supporting section 2451 moves to the position above the long hole 34 and then can rotate the rotating strip 243, at the moment, the inserting edge 47 rotates away from the inserting groove 221, and the multiple ceiling blocks 4 connected with the same driving rod 24 can rotate downwards, so that the line and the pipeline are overhauled, the operation process is convenient, and the ceiling frame 2 can be reset after the overhaul.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a data center's furred ceiling structure, sets up in the house, including furred ceiling frame (2), furred ceiling frame (2) include the vertical installation pole (21) of multirow, installation pole (21) one end fixed connection is on ceiling (1), furred ceiling frame (2) include many be parallel to each other and with installation pole (21) keep away from main joist (22) one end fixed connection with installation pole (1), and be parallel to each other and with main joist (22) fixed connection's false keel (23), main joist (22) and false keel (23) mutually perpendicular just form rectangle net (26), can dismantle on main joist (22) and false keel (23) and connect furred ceiling piece (4) that are used for covering rectangle net (26), its characterized in that: the auxiliary keel (23) is connected with a sliding rod (25) in a sliding mode and a driving rod (24) in a rotating mode, the driving rod (24) is parallel to the sliding rod (25), the rotating axis direction of the driving rod (24) is along the length direction of the auxiliary keel (23), and the moving direction of the sliding rod (25) is along the length direction of the auxiliary keel (23);

a plurality of insertion rods (252) are fixedly connected to the sliding rod (25) along the length direction, a first sliding seat (42) is connected to the surface, facing the ceiling (1), of the ceiling block (4) in a sliding manner, an insertion ring (423) for the insertion rods (252) to be inserted is arranged on the first sliding seat (42), a second sliding seat (43) is connected to the surface, facing the ceiling (1), of the ceiling block (4) in a sliding manner and far away from one side of the insertion ring (423) in a sliding manner, a moving pin (432) is arranged on the second sliding seat (43), a moving groove (241) for the moving pin (432) to slide is formed in the driving rod (24), a locking groove (242) for the moving pin (432) to be inserted is formed in one end of the moving groove (241), and the moving pin (432) and the driving rod (24) cannot rotate relatively;

a locking piece for driving the first sliding seat (42) and the second sliding seat (43) to move is rotatably connected to the ceiling block (4), so that the plug rod (252) enters or leaves the plug ring (423) and the moving pin (432) enters or leaves the locking groove (242);

house with install mount pad (3) on false keel (23) vertically lateral wall, mount pad (3) are the cavity form, in actuating lever (24) and slide bar (25) one end extended to mount pad (3), mount pad (3) inside was provided with the drive actuating lever (24) pivoted second drive assembly, and the drive slide bar (25) gliding first drive assembly.

2. The suspended ceiling structure of a data center according to claim 1, wherein: two parallel sliding grooves (44) which are respectively used for the first sliding seat (42) and the second sliding seat (43) to slide are formed in the ceiling block (4), the first sliding seat (42) comprises a first sliding block (421) which is connected in the sliding groove (44) in a sliding mode, the second sliding seat (43) comprises a second sliding block (431) which is connected in the sliding groove (44) in a sliding mode, and a limiting edge (441) which limits the first sliding block (421) and the second sliding block (431) to be separated from the sliding groove (44) in the vertical direction is arranged on the ceiling block (4).

3. The suspended ceiling structure of a data center according to claim 2, wherein: the opposite surfaces of the first sliding seat (42) and the second sliding seat (43) are provided with racks (422), a gear (451) meshed with the racks (422) is connected to the ceiling block (4) in a rotating mode, and the locking piece drives the gear (451) to rotate.

4. A suspended ceiling structure of a data center according to claim 3, wherein: one side of the ceiling block (4) facing the ceiling (1) is provided with a fixed plate (41), an interval exists between the fixed plate (41) and the ceiling block (4), the locking piece comprises a rotating column (412) which is connected to the fixed plate (41) in a rotating mode, one end of the rotating column penetrates out of the ceiling block (4), the gear (451) is fixedly connected with a rotating shaft (45) which is coaxial, two ends of the rotating shaft are respectively rotated on the fixed plate (41) and the ceiling block (4), and a straight belt (46) is sleeved on the rotating shaft (45) and the rotating column (412).

5. The suspended ceiling structure of a data center according to claim 1, wherein: the first driving assembly comprises a pushing block (31) which is connected in the mounting seat (3) in a sliding mode and used for driving the sliding rod (25) to move, a connecting hole (251) is formed in one end, located in the mounting seat (3), of the driving rod (24), one end of the pushing block (31) is fixedly connected with a connecting rod (311) which is connected to the connecting hole (251) in an inserting mode, and operation holes (33) used for operating the pushing block (31) are formed in the bottom of the mounting seat (3) at equal intervals.

6. The suspended ceiling structure of a data center according to claim 5, wherein: the push block (31) is adapted to vertically slide in the operation hole (33), the mounting seat (3) is internally and slidably connected with a supporting block (32) attached to the inner top wall of the mounting seat (3), the supporting block (32) is fixedly connected with a guide rod (321), a guide groove (312) for the guide rod (321) to move is formed in the push block (31), a first spring (322) with two ends fixed to the supporting block (32) and the push block (31) is sleeved outside the guide rod (321), and when the push block (31) is located in the operation hole (33), the surface of the push block (31) far away from the supporting block (32) is flush with the lower surface of the mounting seat (3).

7. The suspended ceiling structure of a data center according to claim 1, wherein: the second driving assembly comprises a rotating strip (243) fixedly connected to one end of the driving rod (24), the rotating strip (243) is located in the mounting seat (3), a long hole (34) for the rotating strip (243) to rotate out is formed in the mounting seat (3), and a connecting piece for locking the position of the rotating strip (243) when the rotating strip (243) closes the long hole (34) is arranged on the rotating strip (243).

8. The suspended ceiling structure of a data center according to claim 7, wherein: the rotating strip (243) is provided with a sliding hole (244) along the length direction, the connecting piece comprises a fixing strip (245) sliding in the sliding hole (244), the fixing strip (245) comprises a supporting section (2451) located in the installation seat (3) and abutted to the bottom wall of the installation seat (3), the rotating strip (243) is located on the surface inside the installation seat (3) and fixedly connected with a bump (246), a second spring (247) is arranged between the bump (246) and the supporting section (2451), and when the second spring (247) is located in the installation seat (3) and is in a natural state, the supporting section (2451) is abutted to the bottom wall of the installation seat (3).

9. The suspended ceiling structure of a data center according to claim 1, wherein: hang on the surperficial fixedly connected with two parallel grafting edges (47) of kicking block (4) towards ceiling (1), set up on main joist (22) and supply grafting groove (221) of grafting along (47) grafting, grafting is kept away from along (47) hang on the surface fixedly connected with magnetic stripe (471) of kicking block (4), fixedly connected with be used for with iron sheet (222) of magnetic stripe (471) actuation in grafting groove (221).

10. The suspended ceiling structure of a data center according to claim 6, wherein: a lifting ring (313) is fixedly connected to the surface, far away from the mounting seat (3), of the push block (31), the lifting ring (313) is located on one side, far away from the auxiliary keel (23), of the push block (31), and when the lifting ring (313) abuts against the inner wall of the operation hole (33), the insertion rod (252) is separated from the insertion ring (423).

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