CN114319683B - 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 a mounting 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 to the main keel and the auxiliary keel, a sliding rod is connected to the auxiliary keel in a sliding manner and is rotationally connected with a driving rod, an inserting rod is connected to the sliding rod, the suspended ceiling block is connected to 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 to 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 hanging top block is rotationally connected with a locking piece; install the mount pad on the house lateral wall, the mount pad is inside to be provided with second drive assembly and first drive assembly. The application can enable the suspended ceiling of the data center to more conveniently conduct line problem investigation.

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 room top more aesthetically pleasing, a ceiling is often installed in the room ceiling location, and some of the plumbing lines may also be hidden by being placed between the ceiling and the ceiling. The data center also can install the furred ceiling generally, because data center electric wire and cable quantity are more, and need install air conditioning system, ventilation system etc. and cool down the data center, so can arrange more electric wire, cable and pipeline etc. on the furred ceiling generally.

In the related art, a plurality of rows of vertical mounting rods are usually fixed on the ceiling, main keels are fixedly connected between the mounting rods, a plurality of main keels are arranged in parallel, a plurality of auxiliary keels are connected under the main keels, the main keels and the auxiliary keels are vertical and form a grid shape, and finally, a hanging top block is connected with the main keels and the auxiliary keels in a clamping, bolt connection or gun nail connection mode, so that a complete suspended ceiling is formed. The line pipeline can be arranged on the main joist or the auxiliary joist, and is shielded by the suspended ceiling block and plays a role in increasing support.

In carrying out the present application, the inventors have found that at least the following problems exist in this technology: the data center can appear the condition emergence of circuit trouble when the operation, and operating personnel is when troubleshooting the circuit problem, and when troubleshooting a circuit, often need to dismantle the polylith furred ceiling piece that probably appears problem part, need install polylith furred ceiling piece back again after the maintenance is accomplished, and the operation process is comparatively loaded down with trivial details.

Disclosure of Invention

In order to enable the suspended ceiling of the data center to be more convenient for checking line problems, the application provides a suspended ceiling structure of the data center.

The application provides a suspended ceiling structure of a data center, which adopts the following technical scheme:

the utility model provides a data center's furred ceiling structure, sets up in the house, includes the furred ceiling frame, the furred ceiling frame includes the vertical installation pole of multirow, installation pole one end fixed connection is on the ceiling, the furred ceiling frame includes many mutual parallels and keep away from the main joist of ceiling one end fixed connection with the installation pole, and mutual parallels and with main joist fixed connection's auxiliary joist, main joist and auxiliary joist mutually perpendicular just form rectangular grid, detachable connection is used for covering rectangular grid's furred ceiling piece on main joist and the auxiliary joist, sliding connection has the slide bar on the auxiliary joist and rotates and be connected with the actuating lever, the actuating lever with the slide bar is parallel, actuating lever axis of rotation direction is followed auxiliary joist length direction, the slide bar direction of movement is followed auxiliary joist length direction.

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

the hanging top block is rotationally connected with a locking piece which drives the movable pin and the plug-in ring to move, so that the plug-in rod enters or leaves the plug-in ring and the movable pin enters or leaves the locking groove;

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

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

when the hanging top block is installed, after the hanging top block is positioned, the locking piece is rotated to enable the inserting rod to be inserted into the inserting ring, the moving pin is inserted into the locking groove to lock the hanging top block, and likewise, the inserting rod can be separated from the inserting ring when the locking piece is rotated, the moving pin is separated from the locking groove to unlock the hanging top block, and the hanging top block can be detached;

when arranging electric wire and pipeline, can arrange along auxiliary joist length direction for lines and pipeline can be arranged on a row of furred ceiling piece, when needs overhauld circuit or pipeline, can slide through the slide bar that first drive assembly drive corresponds, make the spliced pole break away from the jack-in ring, because the removal round pin still peg graft in the locking inslot, and remove the round pin and be difficult for rotating, so the difficult of furred ceiling piece drops, through the angle that first drive assembly drive actuating lever rotated to be less than ninety degrees for the furred ceiling piece that supports same row of circuit and pipeline rotates, whole row overturns down together, the operation can overhaul the circuit of a whole row.

Optionally, two parallel and confession respectively have been seted up on the furred ceiling piece first sliding seat with the gliding spout of second sliding seat, first sliding seat includes sliding connection is in first slider in the spout, the second sliding seat includes sliding connection is in second slider in the spout, be provided with the restriction on the furred ceiling piece first slider with the second slider breaks away from along vertical direction the spacing edge of spout.

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

Optionally, the opposite surfaces of the first sliding seat and the second sliding seat are provided with racks, the lifting block is rotatably connected with gears meshed with the racks, and the locking piece drives the gears to rotate.

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

Optionally, one side of furred ceiling piece towards the ceiling is provided with the fixed plate, the fixed plate with there is the interval between the furred ceiling piece, the locking piece includes swivelling joint be in on the fixed plate, and one end is followed the column spinner that the furred ceiling piece was worn out, fixedly connected with is coaxial and both ends rotate respectively at the fixed plate with the axis of rotation on the furred ceiling piece on the gear, the axis of rotation with the cover is equipped with the straight belt on the column spinner.

Through adopting above-mentioned technical scheme, set up the fixed plate and can supply axis of rotation and column spinner to rotate for column spinner and axis of rotation position are more stable, and can protect gear, column spinner and axis of rotation through the fixed plate, and the fixed plate can provide support to electric wire and pipeline; 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 rotation.

Optionally, the first drive assembly includes sliding connection is in be used for the drive in the mount pad the ejector pad that the slide bar removed, the connecting hole has been seted up to the one end that the actuating lever is located the mount pad, ejector pad one end fixedly connected with peg graft to the connecting rod in the connecting hole, the mount pad bottom equidistant operation hole of seting up and being used for operating the ejector pad.

Through adopting above-mentioned technical scheme, the connecting rod is pegged graft in the connecting hole so that can promote or the slip of pulling slide bar when the ejector pad removes.

Optionally, the ejector pad adaptation is vertical to be slided in the operation hole, the inside sliding connection of mount pad has the laminating to be in supporting shoe on the mount pad inner top wall, supporting shoe fixedly connected with guide bar, offer on the ejector pad supplies the guide slot that the guide bar removed, the guide bar overcoat be equipped with both ends respectively with the first spring that supporting shoe and ejector pad are fixed, works as the ejector pad is located when in the operation hole, the ejector pad keep away from the surface of supporting shoe with mount pad lower surface parallel and level.

Through adopting above-mentioned technical scheme, the ejector pad is located the operation hole and seals the operation hole when not using for furred ceiling frame bottom keeps parallel and level and complete, when needs drive slide bar removes, through promoting the ejector pad, makes the ejector pad leave the operation 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 supports tightly on the mount pad bottom plate or when first spring resets and makes the ejector pad grafting operation downthehole through the elasticity of first spring, the position of ejector pad is difficult for removing, makes the slide bar difficult slip.

Optionally, the second driving assembly includes fixed connection in the rotation strip of actuating lever one end, the rotation strip is located the mount pad, offer on the mount pad and supply the slot hole that the rotation strip rotated out, be provided with on the rotation strip and be in the connecting piece of locking rotation strip position when the rotation strip seals the slot hole.

Through adopting above-mentioned technical scheme, when the strip is rotated and is sealed through the connecting piece in general closed slot hole, the furred ceiling frame lower surface keeps the parallel and level and the breach is less, and because the effect of connecting piece, when installing the furred ceiling piece, the actuating lever is difficult for rotating, when needs rotate the actuating lever, rotates the strip through unblock connecting piece, can rotate down a row of furred ceiling piece.

Optionally, the sliding hole has been seted up along length direction to the strip that rotates, the connecting piece is including sliding the downthehole fixed strip of sliding, the fixed strip including be located in the mount pad and with the supporting section of mount pad diapire butt, the strip that rotates is located the inside fixedly connected with lug on the surface of mount pad, the lug with be provided with the second spring between the supporting section, works as the second spring is located the mount pad and is in when nature state, the supporting section butt is in on the mount pad diapire.

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

Optionally, two parallel grafting edges are fixedly connected with on the surface of furred ceiling piece towards the ceiling, offer on the main joist confession the grafting groove of grafting along grafting, the grafting is followed keeping away from fixedly connected with magnetic stripe on the surface of furred ceiling piece, fixedly connected with in the grafting groove be used for with the iron sheet of magnetic stripe actuation.

Through adopting above-mentioned technical scheme, the furred ceiling piece is pegged graft to the grafting inslot through pegging graft along, plays the effect that increases the steadiness through magnetic stripe and iron sheet actuation, and magnetic stripe and iron sheet actuation can play the effect of prepositioning.

Optionally, the ejector pad is kept away from fixedly connected with pull ring on the surface of mount pad, the pull ring is located the ejector pad is kept away from one side of auxiliary joist, when the pull ring butt is at the operation hole inner wall, the spliced pole breaks away from the spliced pole.

Through adopting above-mentioned technical scheme, set up the pull ring and conveniently operate the ejector pad, when the pull ring butt is at the downthehole wall of operation, the ejector pad horizontal slip is ended, plays the effect of location.

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

1. the sliding rod is driven to slide through the first driving component, so that the inserting rod is separated from the inserting ring, the moving pin is inserted into the locking groove, and the moving pin is not easy to rotate, so that the suspended ceiling block is not easy to fall off, the driving rod is driven to rotate by an angle smaller than ninety degrees through the first driving component, the suspended ceiling block for supporting the same line and pipeline rotates, the whole line is overturned together, and an operator can overhaul the line of the whole line;

2. the rotary column is rotated, the rotary 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 connection 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 suspended ceiling block is convenient to install and detach;

3. the suspended ceiling block is inserted into the inserting groove through the inserting edge, the effect of increasing the stability is achieved through the magnetic strip and the iron sheet in a sucking mode, and the magnetic strip and the iron sheet in a sucking mode can achieve the effect of pre-positioning.

Drawings

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

FIG. 2 is a schematic view of the construction of an embodiment of the application without a ceiling block installed;

FIG. 3 is a partial schematic view of an embodiment of the present application showing the cross runner construction;

FIG. 4 is an exploded view of a ceiling tile structure in accordance with an embodiment of the present application;

FIG. 5 is a schematic view of the overall structure of a row of ceiling tiles rotated downward in accordance with an 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 of a first drive assembly structure according to an embodiment of the present application;

FIG. 8 is a schematic partial cross-sectional view of a second drive assembly mechanism according to an embodiment of the present application;

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

Reference numerals illustrate: 1. a ceiling; 2. a ceiling frame; 21. a mounting rod; 22. a main keel; 221. a plug-in groove; 222. iron sheet; 23. a secondary keel; 231. a first accommodation groove; 232. a second accommodation groove; 24. a driving 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. a connection hole; 252. inserting a connecting rod; 26. a rectangular grid; 3. a mounting base; 31. a pushing block; 311. a connecting rod; 312. a guide groove; 313. a pull ring is lifted; 32. a support block; 321. a guide rod; 322. a first spring; 33. an operation hole; 34. a long hole; 35. a limiting block; 4. a hanging top block; 41. a fixing plate; 411. fixing the column; 412. a spin column; 42. a first sliding seat; 421. a first slider; 422. a rack; 423. a plug ring; 43. a second sliding seat; 431. a second slider; 432. a moving pin; 44. a chute; 441. a limit edge; 45. a rotating shaft; 451. a gear; 46. a belt; 47. a plug edge; 471. a magnetic stripe.

Detailed Description

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

The embodiment of the application discloses a suspended ceiling structure of a data center. Referring to fig. 1 and 2, a suspended ceiling structure of a data center includes a suspended ceiling frame 2 mounted on a ceiling 1 of a house, the suspended ceiling frame 2 includes a plurality of mounting bars 21 fixedly connected with the ceiling 1, and a plurality of main runners 22 fixedly connected with one ends of the mounting bars 21 away from the ceiling 1, the main runners 22 are parallel to each other and the distances between adjacent main runners 22 are equal, one ends of the main runners 22 away from the ceiling 1 are fixedly connected with auxiliary runners 23, the auxiliary runners 23 can be fixed with the main runners 22 by means of bolts, nuts, gun nails and the like, the auxiliary runners 23 are provided with a plurality of main runners 22 and are perpendicular to the main runners 22, and the distances between the adjacent auxiliary runners 23 are consistent. The main runners 22 and the cross runners 23 are spliced to form rectangular grids 26 of uniform size. The ceiling framework 2 further includes ceiling tiles 4 removably connected to the main runners 22 and the cross runners 23 and adapted to close the rectangular grid 26.

Referring to fig. 2 and 3, the auxiliary keel 23 is provided with a first accommodating groove 231 and a second accommodating groove 232 which are parallel along the length direction, the sliding rod 25 is slidably connected in the first accommodating groove 231, the driving rod 24 is rotatably connected in the second accommodating groove 232, the mounting seat 3 is fixedly connected to one side wall of a room through bolts, the mounting seat 3 is hollow, the bottom is flush with the bottom surface of the ceiling block 4 after being mounted, one end of the auxiliary keel 23 is fixedly connected to the side wall of the mounting seat 3, and one end of the sliding rod 25 and one end of the driving rod 24 are positioned in the mounting 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, has the functions of stability and small weight, and is provided with tiny air holes (not shown in the figure) arranged on the ceiling block 4, so that a good ventilation effect can be achieved when the ceiling block is installed on a machine room or a data center. The surface of the ceiling block 4 facing the ceiling 1 is slidably connected with a first sliding seat 42 and a second sliding seat 43. The surface of the ceiling block 4 facing the ceiling 1 is provided with two parallel sliding grooves 44, 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 which is slidably connected in one sliding groove 44, and the second sliding seat 43 comprises a second sliding block 431 which is slidably connected in the other sliding groove 44. The suspended 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 chute 44 and is abutted against the surface of the first slide block 421 or the second slide block 431, so that the first slide block 421 and the second slide block 431 are limited to be separated from the chute 44, and the limiting edge 441 can also play a role in providing support after the suspended ceiling block 4 is installed.

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 direction of the racks 422 is parallel to the length direction of the runner 44 and both along the length direction of the cross runner 23. The center of the surface of the ceiling block 4 facing the ceiling 1 is provided with a fixing plate 41 parallel to the ceiling block 4, a space exists between the fixing plate 41 and the ceiling block 4, and the fixing plate 41 is rectangular and is fixedly connected with fixing columns 411 between four corners and the ceiling block 4. Two opposite edges of the fixed plate 41 are close to the rack 422, two rotating shafts 45 are rotatably connected between the fixed plate 41 and the suspended ceiling block 4, and gears 451 which are coaxial and meshed with the rack 422 are fixedly connected to the rotating shafts 45. The rotation axis 45 both ends are through pegging graft and can rotate in seting up the circular groove on fixed plate 41 and furred ceiling piece 4, and fixed plate 41 is connected with column spinner 412 through the bearing rotation towards the middle part on furred ceiling piece 4 surface, has seted up the through-hole that supplies column spinner 412 to wear out on the furred ceiling piece 4. A tightening belt 46 is sleeved between the rotary column 412 and the rotary shaft 45. When the rotary column 412 is mounted, the operator can rotate the gear 451 and slide the first and second slide holders 42 and 43 by rotating the rotary column via the belt 46. When the ceiling block 4 is installed, the fixing plate 41 is slightly lower than the main runner 22 or flush with the main runner 22, the fixing plate 41 is provided to protect the components between the ceiling block 4 and the fixing plate 41, and the fixing plate 41 can be used to support lines and pipes.

Referring to fig. 3 and 4, the first sliding seat 42 includes two insertion rings 423 at one end far from the jack block 4, and the sliding rod 25 is fixedly connected with insertion rods 252 at equal intervals in the length direction for insertion into the insertion rings 423. The second sliding seat 43 includes a top moving pin 432, the moving pin 432 is longitudinally along the sliding groove 44, the driving rod 24 is longitudinally and equally spaced apart to form a moving groove 241 for accommodating the moving pin 432, a locking groove 242 for inserting the moving pin 432 is formed in a side wall of the moving groove 241, and the locking groove 242 is a square groove adapted to the moving pin 432. When the rotary column 412 is rotated, the first sliding seat 42 and the second sliding seat 43 move along the sliding groove 44, the plugging rod 252 can be plugged into the plugging ring 423, and the moving pin 432 can be plugged into the locking groove 242, so that the position of the hanging top block 4 is locked, and similarly, the hanging top block 4 can be detached by rotating the rotary column 412, and the installation and detachment processes are convenient.

Referring to fig. 3 and 5, when the sliding rod 25 is driven to slide by the first driving assembly, the inserting rod 252 is separated from the inserting ring 423, and the locking groove 242 is a square groove and the moving pin 432 is adapted to be inserted into the locking groove 242, so that the position of the lifting block 4 is kept fixed and not easy to rotate; when the driving rods 24 on the adjacent auxiliary keels 23 are driven to rotate by the second driving assembly, the same row of suspended ceiling blocks 4 between the two auxiliary keels 23 can be turned towards one side at the same time, so that the maintenance of a whole section of lines and pipelines can be carried out. The corresponding groove of stepping down has been seted up on the false keel 23 for when the actuating lever 24 rotated, first sliding seat 42 is difficult for interfering with first holding tank 231 cell wall, second sliding seat 43 is difficult for interfering with second holding tank 232 cell wall, and furred ceiling piece 4 border department is provided with the fillet, and when rotating furred ceiling piece 4, furred ceiling piece 4 is difficult for interfering with adjacent furred ceiling piece 4.

Referring to fig. 6 and 7, the bottom plate of the mounting seat 3 is provided with long holes 34 and operation holes 33 at equal intervals along the length direction, the positions of the long holes 34 and the operation holes 33 are staggered, one end of the sliding rod 25 is provided with a vertical connection hole 251, the first driving assembly comprises a push block 31 which is adapted to slide in the operation holes 33, the push block 31 comprises a connecting rod 311 with one end inserted into the connection hole 251, a supporting block 32 is horizontally and dynamically connected in the mounting seat 3, the supporting block 32 is abutted on the inner top wall of the mounting seat 3, one end of the supporting block 32, far away from the inner top wall of the mounting seat 3, is fixedly connected with a guide rod 321, the push block 31 is provided with a guide groove 312 for the guide rod 321 to move, and a first spring 322 sleeved outside the guide rod 321 is fixedly connected between the supporting block 32 and the push block 31. In normal use, the push block 31 is positioned in the operation hole 33, and the bottom surface is flush with the bottom surface of the mounting seat 3, so that the bottom surface of the overhead crane 2 is flush and complete, and the sliding rod 25 is not easy to move at the moment; when the sliding rod 25 needs to be moved, the pushing block 31 is pushed, the pushing block 31 enters the installation 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, and at the moment, the first spring 322 releases elasticity to enable the pushing block 31 to abut against the inner bottom wall of the installation seat 3, and the sliding rod 25 is not easy to move. The push block 31 is kept away from the one end fixedly connected with pull ring 313 of supporting shoe 32, and convenient operation push block 31, and pull ring 313 can the butt at the operation hole 33 inner wall after push block 31 horizontal migration, plays spacing effect.

Referring to fig. 8 and 9, the second driving assembly includes a rotating bar 243 fixedly connected to one end of the driving rod 24 located inside the mounting base 3, a portion of the driving rod 24 located inside the mounting base 3 has a larger diameter to reduce the swing range of the rotating bar 243, the rotating bar 243 rotates along with the driving rod 24, and when in normal use, the rotating bar 243 substantially covers the long hole 34 and makes the bottom surface of the mounting base 3 flush and complete. The sliding hole 244 is formed in the rotating strip 243 along the length direction, an L-shaped fixing strip 245 is connected in the sliding hole 244 in a sliding mode, the fixing strip 245 comprises a horizontal supporting section 2451 located in the mounting seat 3, a limiting block 35 is fixedly connected to the side wall of the mounting seat 3, and when the supporting section 2451 is inserted between the limiting block 35 and the inner bottom wall of the mounting seat 3, the rotating strip 243 is not easy to rotate. The fixing strip 245 is fixedly connected with a bump 246 on the surface in the mounting seat 3, a second spring 247 is fixedly connected between the bump 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 fixing bar 245 is slid first so that the supporting section 2451 is located above the long hole 34 and then the rotating bar 243 can be rotated.

Referring to fig. 3 and 4, two plugging edges 47 are fixedly connected to the surface of the suspended ceiling block 4 facing the ceiling 1, and the two plugging edges 47 are parallel and close to the edge of the suspended ceiling block 4. The main joist 22 is provided with a plurality of inserting grooves 221 which are used for inserting the inserting edges 47 at equal intervals along the length direction and do not affect the rotation of the inserting edges 47, one side, away from the hanging top block 4, of the inserting edges 47 is fixedly connected with a magnetic strip 471, an iron sheet 222 used for the magnetic strip 471 to be attracted is fixedly connected in the inserting grooves 221, and when the hanging top block 4 is installed, the inserting grooves 221 and the inserting edges 47 play a role in pre-positioning and a role in increasing stability.

The implementation principle of the suspended ceiling structure of the data center in the embodiment of the application is as follows: during installation, the main keel 22, the auxiliary keel 23 and the installation seat 3 are installed firstly, 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 moving pin 432 is inserted into the locking groove 242, and the installation is convenient, the disassembly and the disassembly are convenient;

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

during maintenance, the push block 31 is pushed to rise, so that the first spring 322 is contracted, the guide rod 321 moves along the guide groove 312, the push block 31 is pushed to move horizontally through the lifting ring 313 to drive the sliding rod 25 to move, and the plug rod 252 is separated from the plug ring 423; the sliding fixing strip 245 and the second spring 247 are compressed, the supporting section 2451 can rotate the rotating strip 243 after moving to the upper side of the long hole 34, at this time, the inserting edge 47 rotates away from the inserting groove 221, and the plurality of hanging top blocks 4 connected with the same driving rod 24 can rotate downwards, so that the line and the pipeline can be overhauled, the operation process is convenient, and the hanging top frame 2 can be restored after being overhauled.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the 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) are including 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 keep away from ceiling (1) one end fixed connection's main joist (22) with installation pole (21), and be parallel to each other and with main joist (22) fixed connection's auxiliary joist (23), main joist (22) and auxiliary joist (23) mutually perpendicular and form rectangle net (26), detachable connection is used for covering furred ceiling piece (4) of rectangle net (26) on main joist (22) and auxiliary joist (23), its characterized in that: the auxiliary keel (23) is connected with a sliding rod (25) in a sliding manner and a driving rod (24) in a rotating manner, the driving rod (24) is parallel to the sliding rod (25), the rotation axis direction of the driving rod (24) is along the length direction of the auxiliary keel (23), and the movement direction of the sliding rod (25) is along the length direction of the auxiliary keel (23);

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

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

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

2. The data center ceiling structure of claim 1, wherein: two parallel sliding grooves (44) for sliding the first sliding seat (42) and the second sliding seat (43) are formed in the suspended ceiling block (4), the first sliding seat (42) comprises a first sliding block (421) which is slidably connected in the sliding groove (44), the second sliding seat (43) comprises a second sliding block (431) which is slidably connected in the sliding groove (44), and the suspended ceiling block (4) is provided with limiting edges (441) for limiting the first sliding block (421) and the second sliding block (431) to separate from the sliding groove (44) along the vertical direction.

3. The data center ceiling structure of claim 2, wherein: the surface opposite to the first sliding seat (42) and the second sliding seat (43) is provided with a rack (422), a gear (451) meshed with the rack (422) is rotatably connected to the hanging top block (4), and the locking piece drives the gear (451) to rotate.

4. A suspended ceiling structure of a data center as set forth in claim 3, wherein: the utility model discloses a ceiling, including ceiling block (4), locking piece, gear (451) and cover, ceiling block (4) are provided with fixed plate (41) towards one side of ceiling (1), fixed plate (41) with there is the interval between ceiling block (4), locking piece includes swivelling joint is in on fixed plate (41), and one end is followed swivel post (412) that ceiling block (4) were worn out, fixedly connected with is coaxial and both ends rotate respectively on gear (451) fixed plate (41) with axis of rotation (45) on ceiling block (4), axis of rotation (45) with the cover is equipped with straight belt (46) on swivel post (412).

5. The data center ceiling structure of claim 1, wherein: the first driving assembly comprises a pushing block (31) which is slidably connected in the mounting seat (3) and used for driving the sliding rod (25) to move, a connecting hole (251) is formed in one end of the driving rod (24) located in the mounting seat (3), a connecting rod (311) which is inserted into the connecting hole (251) is fixedly connected to one end of the pushing block (31), 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 data center ceiling structure of claim 5, wherein: the utility model discloses a push rod, including supporting shoe (32), supporting shoe (31), ejector pad (31) adaptation vertical slip is in operation hole (33), inside sliding connection of mount pad (3) has the laminating to be in supporting shoe (32) on the roof in mount pad (3), supporting shoe (32) fixedly connected with guide bar (321), offer on ejector pad (31) confession guide slot (312) that guide bar (321) removed, guide bar (321) overcoat be equipped with both ends respectively with first spring (322) that supporting shoe (32) and ejector pad (31) are fixed, works as ejector pad (31) are located when operation hole (33), ejector pad (31) are kept away from the surface of supporting shoe (32) with mount pad (3) lower surface parallel and level.

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

8. The data center ceiling structure of claim 7, wherein: the utility model provides a sliding hole (244) has been seted up along length direction to rotation strip (243), the connecting piece is including sliding fixed strip (245) in slide hole (244), fixed strip (245) including be located in mount pad (3) and with support section (2451) of mount pad (3) diapire butt, rotation strip (243) are located fixedly connected with lug (246) on the inside surface of mount pad (3), lug (246) with be provided with second spring (247) between support section (2451), works as second spring (247) are located in mount pad (3) and are in when nature, support section (2451) butt is in on the mount pad (3) diapire.

9. The data center ceiling structure of claim 1, wherein: the utility model discloses a ceiling, including ceiling piece (4), main joist (22), furred ceiling piece (4), main joist (22) are connected with two parallel grafting edges (47) on the surface of ceiling piece (4) towards ceiling (1), offer confession on main joist (22) grafting grooves (221) of grafting edge (47) grafting, grafting edge (47) keep away from fixedly connected with magnetic stripe (471) on the surface of furred ceiling piece (4), fixedly connected with in grafting grooves (221) be used for with iron sheet (222) of magnetic stripe (471) actuation.

10. The data center ceiling structure of claim 6, wherein: the push block (31) is far away from the surface of the mounting seat (3) and is fixedly connected with a lifting ring (313), the lifting ring (313) is positioned 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 inserting rod (252) is separated from the inserting ring (423).