CN114427279A - Adjustable data center wallboard structure and construction method thereof - Google Patents

Abstract

The invention discloses an adjustable data center wallboard structure and a construction method thereof, relating to the technical field of wallboard structure construction; the movable wallboard is positioned between the first fixed wallboard and the second fixed wallboard, a hole positioned on the movable wallboard, a frame structure matched with the hole, a first connecting structure used for connecting the frame structure to the steel column and a second connecting structure used for fixing the movable wallboard to the steel column; the steel column is fixedly connected with a wall purlin, and the first fixed wallboard and the second fixed wallboard are fixedly connected to the wall purlin. When the main body structure is manufactured, the whole movable wallboard is installed firstly, then when the equipment is installed, the movable wallboard is disassembled, the hole is formed in the movable wallboard, the position size of the frame structure is adjusted, and then the movable wallboard is installed on the steel column again, so that the installation is flexible.

Description

Adjustable data center wallboard structure and construction method thereof

Technical Field

The invention belongs to the technical field of wallboard structure construction, and particularly relates to an adjustable data center wallboard structure and a construction method thereof.

Background

At present, when the wall plate of the data center is constructed, holes prepared for air outlets of the air conditioner at the later stage are directly reserved, the installation of the air conditioner at the later stage is inconvenient, the positions of the holes are fixed, and if the air outlets of the air conditioner cannot be matched with the holes completely due to objective factors, the holes are troublesome to change.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides an adjustable data center wallboard structure.

In order to achieve the purpose, the invention adopts the following technical scheme:

an adjustable data center wallboard structure comprises a plurality of steel columns, a first fixed wallboard, a second fixed wallboard, a movable wallboard positioned between the first fixed wallboard and the second fixed wallboard, a hole positioned on the movable wallboard, a frame structure matched with the hole, a first connecting structure used for connecting the frame structure to the steel columns, and a second connecting structure used for fixing the movable wallboard to the steel columns; the steel column is fixedly connected with a wall purlin, and the first fixed wallboard and the second fixed wallboard are fixedly connected to the wall purlin.

Preferably, the steel columns are fixedly connected with adjusting seats, and the adjusting seats are provided with a plurality of bolt holes; the frame structure comprises two secondary wall purlins and two adjusting wall purlins positioned between the secondary wall purlins; the adjusting wall purlins are perpendicular to the secondary wall purlins, the upper ends and the lower ends of the adjusting wall purlins are connected with the corresponding secondary wall purlins, the adjusting wall purlins and the secondary wall purlins enclose the frame structure, the secondary wall purlins are located between the steel columns, the secondary wall purlins are perpendicular to the steel columns, and the two ends of each secondary wall purlin are connected to the adjusting seats of the corresponding steel columns; the first connecting structure is a bolt for connecting the secondary wall purlin to the adjusting seat; the second connecting structure is a bolt for connecting the secondary wall purlin and the movable wall plate together.

Preferably, the movable wall board comprises a board and keels positioned at two opposite ends of the board; the keel is connected with the secondary wall purlin.

Preferably, the adjusting wall purlin comprises an upper section with the upper end connected with the corresponding secondary wall purlin, a lower section with the lower end connected with the corresponding secondary wall purlin, and a middle section positioned between the upper section and the lower section; the upper section and the middle section are connected through bolts, the lower section and the middle section are connected through bolts, and a plurality of bolt holes used for being connected with the adjusting wall purlin are formed in the secondary wall purlin.

Preferably, a sealing strip is arranged between the first fixed wallboard and the movable wallboard, and a sealing strip is arranged between the second fixed wallboard and the movable wallboard.

Preferably, the frame structure comprises two mutually parallel lifting beams, two connecting pieces between the lifting beams; the upper end and the lower end of the connecting piece are connected with the corresponding lifting beams in a sliding way, and the lifting beams are parallel to each other; the first connecting structure comprises an adjusting mechanism positioned between the frame structure and the upper wall purlin and an adjusting mechanism positioned between the frame structure and the lower wall purlin; the adjusting mechanism is used for adjusting the height of the corresponding lifting beam, and the lifting beam is ensured to be parallel to the wall purlin during adjustment; the connecting piece comprises a first guide sleeve, a second guide sleeve and a sliding rod, wherein the upper end of the first guide sleeve is connected with the corresponding lifting beam in a sliding mode, the lower end of the second guide sleeve is connected with the corresponding lifting beam in a sliding mode, and the sliding rod is positioned between the first guide sleeve and the second guide sleeve; the upper end of the sliding rod is inserted into the first guide sleeve, and the lower end of the sliding rod is inserted into the second guide sleeve; the sliding rod is provided with a plurality of bolt holes, the first guide sleeve and the second guide sleeve are fixedly connected with connecting plates, and the connecting plates are provided with bolt holes; the adjusting mechanism comprises a first rotating rod, a second rotating rod and a telescopic rod; the second rotating rod is positioned between the first rotating rod and the telescopic rod; one end of the wall purlin is hinged with the first rotating rod, and the other end of the wall purlin is hinged with the telescopic rod; first dwang and second dwang are parallel to each other, and the one end and the lifter beam of wall purlin are kept away from to first dwang are articulated, are equipped with a plurality of bolt holes on the first dwang, and the one end and the lifter beam that the wall purlin was kept away from to the telescopic link are articulated, are equipped with the bolt hole on the telescopic link.

Preferably, the telescopic rod comprises a third guide sleeve hinged with the wall purlin, an adjusting rod with one end inserted in the third guide sleeve, an internal thread hole positioned in the adjusting rod, a screw rod rotationally connected in the third guide sleeve, a driven bevel gear fixedly connected on the screw rod, a rotating shaft penetrating through the wall of the third guide sleeve and a driving bevel gear fixedly connected with the rotating shaft; the driving bevel gear is matched with the driven bevel gear, the screw rod is matched with the internal thread hole, the adjusting rod is provided with a threaded hole, and the third guide sleeve is provided with a threaded hole.

Preferably, the construction method of the wallboard structure comprises the following specific steps:

step a: firstly, building a steel column, then welding a wall purlin on the steel column, and manufacturing a first fixed wallboard and a second fixed wallboard on the wall purlin;

step b: the secondary wall purlin is installed on the adjusting seat through bolts, and the adjusting wall purlin is installed on the secondary wall purlin through bolts;

step c: the movable wall plate is arranged on the secondary wall purlin through bolts;

step d: after the main structure is completed, an air conditioner is ready to be installed, the movable wall plate is detached from the steel column, holes are formed in the movable wall plate according to the requirement of an air outlet of the air conditioner, then bolts on the secondary wall purlin and the adjusting wall purlin are detached, the position of the adjusting secondary wall purlin on the adjusting seat is adjusted according to the position of the holes and is fixed again through the bolts, then the length of the adjusting wall purlin is adjusted according to the distance between the secondary wall purlins, the position of the adjusting wall purlin on the secondary wall purlin is adjusted according to the position of the holes and is fixed again through the bolts, and then the movable wall plate is fixed on the steel column through the bolts again.

The invention has the beneficial effects that: when the main body structure is manufactured, the whole movable wallboard is installed firstly, then when the equipment is installed, the movable wallboard is disassembled, the hole is formed in the movable wallboard, the position size of the frame structure is adjusted, and then the movable wallboard is installed on the steel column again, so that the installation is flexible.

Drawings

FIG. 1 is a sectional view of example 1;

FIG. 2 is a schematic view of example 1;

FIG. 3 is a schematic view of a movable wall panel;

FIG. 4 is a schematic view of the connection of a secondary wall purlin and an adjustment wall purlin;

FIG. 5 is a schematic view of the connection of an adjustment wall purlin and a secondary wall purlin;

FIG. 6 is a schematic illustration of the main structure as constructed;

FIG. 7 is a schematic view after the movable wall panel is removed;

FIG. 8 is a schematic view of a wall panel structure in construction;

FIG. 9 is a schematic view of example 2;

FIG. 10 is a schematic view of a telescoping wand;

fig. 11 is a schematic view of a connector.

In the figure: the wall structure comprises a steel column 1, a first fixed wall plate 2, a second fixed wall plate 3, a wall purlin 4, a movable wall plate 5, a hole 6, an adjusting seat 7, a secondary wall purlin 8, an adjusting wall purlin 9, a plate 10, a keel 11, an upper section 12, a lower section 13, a middle section 14, a sealing strip 15, a lifting beam 16, a first guide sleeve 17, a second guide sleeve 18, a sliding rod 19, a first rotating rod 20, a second rotating rod 21, an expansion rod 22, a third guide sleeve 23, an adjusting rod 24, a screw rod 25, a driven bevel gear 26 and a driving bevel gear 27.

Detailed Description

The invention is explained in further detail below with reference to the figures and the detailed description:

example 1:

see fig. 1 to 8; an adjustable data center wallboard structure comprises a plurality of steel columns 1, a first fixed wallboard 2, a second fixed wallboard 3, a movable wallboard 5 positioned between the first fixed wallboard 2 and the second fixed wallboard 3, a hole 6 positioned on the movable wallboard 5, a frame structure matched with the hole 6, a first connecting structure used for connecting the frame structure to the steel columns 1, and a second connecting structure used for fixing the movable wallboard 5 to the steel columns 1;

the steel column 1 is fixedly connected with a wall purlin 4, and the first fixed wall plate 2 and the second fixed wall plate 3 are fixedly connected to the wall purlin 4.

The steel columns 1 are fixedly connected with adjusting seats 7, and the adjusting seats 7 are provided with a plurality of bolt holes;

the frame structure comprises two secondary wall purlins 8 and two adjusting wall purlins 9 positioned between the secondary wall purlins 8;

the adjusting wall purlin 9 is perpendicular to the secondary wall purlin 8, the upper end and the lower end of the adjusting wall purlin 9 are connected with the corresponding secondary wall purlin 8, the adjusting wall purlin 9 and the secondary wall purlin 8 enclose the frame structure, the secondary wall purlin 8 is located between the steel columns 1, the secondary wall purlin 8 is perpendicular to the steel columns 1, and two ends of the secondary wall purlin 8 are connected to the adjusting seats 7 of the corresponding steel columns 1;

the first connecting structure is a bolt for connecting the secondary wall purlin 8 to the adjusting seat 7;

the second connecting structure is a bolt for connecting the secondary wall purlin 8 and the movable wall panel 5 together.

The movable wall plate 5 comprises a plate 10 and keels 11 positioned at two opposite ends of the plate 10;

the keel 11 is connected with the secondary wall purlin 8.

The adjusting wall purlin 9 comprises an upper section 12 with the upper end connected with the corresponding secondary wall purlin 8, a lower section 13 with the lower end connected with the corresponding secondary wall purlin 8, and a middle section 14 positioned between the upper section 12 and the lower section 13;

the upper section 12 is connected with the middle section 14 through bolts, the lower section 13 is connected with the middle section 14 through bolts, and a plurality of bolt holes used for being connected with the adjusting wall purlin 9 are formed in the secondary wall purlin 8.

Be equipped with sealing strip 15 between first fixed wallboard 2 and the activity wallboard 5, be equipped with sealing strip 15 between second fixed wallboard 3 and the activity wallboard 5.

The construction method comprises the following specific steps:

step a: firstly, a steel column 1 is built, then a wall purlin 4 is welded on the steel column 1, and a first fixed wallboard 2 and a second fixed wallboard 3 are manufactured on the wall purlin 4;

step b: the secondary wall purlin 8 is installed on the adjusting seat 7 through bolts, and the adjusting wall purlin 9 is installed on the secondary wall purlin 8 through bolts; see fig. 4;

step c: the movable wall plate 5 is arranged on the secondary wall purlin 8 through bolts; see fig. 5 and 6;

step d: after the main structure is completed, preparing to install an air conditioner, detaching the movable wall plate 5 from the steel column 1, opening a hole 6 in the movable wall plate 5 according to the requirement of an air outlet of the air conditioner, detaching bolts on the secondary wall purlin 8 and the adjusting wall purlin 9, adjusting the position of the secondary wall purlin 8 on the adjusting seat 7 according to the position of the hole 6, fixing the secondary wall purlin 8 on the adjusting seat 7 again by using the bolts, adjusting the length of the adjusting wall purlin 9 according to the distance between the secondary wall purlins 8, adjusting the position of the adjusting wall purlin 9 on the secondary wall purlin 8 according to the position of the hole 6, and fixing the adjusting wall purlin 9 on the secondary wall purlin 8 again by using the bolts, see fig. 7; the movable wall panel 5 is then re-bolted to the steel column 1, see fig. 8.

Example 2:

see fig. 9 to 11; an adjustable data center wallboard structure comprises a plurality of steel columns 1, a first fixed wallboard 2, a second fixed wallboard 3, a movable wallboard 5 positioned between the first fixed wallboard 2 and the second fixed wallboard 3, a hole 6 positioned on the movable wallboard 5, a frame structure matched with the hole 6, a first connecting structure used for connecting the frame structure to the steel columns 1, and a second connecting structure used for fixing the movable wallboard 5 to the steel columns 1;

the steel column 1 is fixedly connected with a wall purlin 4, and the first fixed wallboard 2 and the second fixed wallboard 3 are fixedly connected to the wall purlin 4.

The frame structure comprises two mutually parallel lifting beams 16 and two connecting pieces between the lifting beams 16;

the upper end and the lower end of the connecting piece are connected with the corresponding lifting beams 16 in a sliding way, and the lifting beams 16 are parallel to each other;

the first connecting structure comprises an adjusting mechanism positioned between the frame structure and the upper wall purlin and an adjusting mechanism positioned between the frame structure and the lower wall purlin;

the adjusting mechanism is used for adjusting the height of the corresponding lifting beam 16, and the lifting beam 16 is ensured to be parallel to the wall purlin 4 during adjustment;

the connecting piece comprises a first guide sleeve 17 with the upper end connected with the corresponding lifting beam 16 in a sliding way, a second guide sleeve 18 with the lower end connected with the corresponding lifting beam 16 in a sliding way, and a sliding rod 19 positioned between the first guide sleeve 17 and the second guide sleeve 18;

the upper end of the sliding rod 19 is inserted into the first guide sleeve 17, and the lower end is inserted into the second guide sleeve 18;

a plurality of bolt holes are formed in the sliding rod 19, connecting plates are fixedly connected to the first guide sleeve 17 and the second guide sleeve 18, and bolt holes are formed in the connecting plates;

the adjusting mechanism comprises a first rotating rod 20, a second rotating rod 21 and an expansion rod 22;

the second rotating rod 21 is positioned between the first rotating rod 20 and the telescopic rod 22;

one end of the wall purlin 4 is hinged with the first rotating rod 20, and the other end of the wall purlin is hinged with the telescopic rod 22;

first dwang 20 and second dwang 21 are parallel to each other, and the one end and the lifting beam 16 of wall purlin 4 are kept away from to first dwang 20 are articulated, are equipped with a plurality of bolt holes on the first dwang 20, and the one end and the lifting beam 16 that the wall purlin 4 was kept away from to telescopic link 22 are articulated, are equipped with the bolt hole on the telescopic link 22.

The telescopic rod 22 comprises a third guide sleeve 23 hinged with the wall purlin 4, an adjusting rod 24 with one end inserted in the third guide sleeve 23, an internal thread hole positioned in the adjusting rod 24, a screw rod 25 rotationally connected in the third guide sleeve 23, a driven bevel gear 26 fixedly connected on the screw rod 25, a rotating shaft penetrating through the wall of the third guide sleeve 23 and a driving bevel gear 27 fixedly connected with the rotating shaft;

the driving bevel gear 27 is matched with the driven bevel gear 26, the screw rod 25 is matched with the internal threaded hole, the adjusting rod 24 is provided with a threaded hole, and the third guide sleeve 23 is provided with a threaded hole.

The construction method of the embodiment comprises the following steps:

firstly establishing a steel column, welding an upper wall purlin 4, then installing an adjusting mechanism and a frame structure on the wall purlin 4, then manufacturing a first fixed wall plate 2 and a second fixed wall plate 3 on the wall purlin 4, then fixing a movable wall plate 5 on the steel column through bolts, when a main structure is manufactured, firstly taking the movable wall plate 5 down, then opening holes in the movable wall plate 5 according to the requirement of an air conditioner air port, then rotating a rotating shaft by using an electric screwdriver so as to change the length of an expansion link 22 and further change the height of a lifting beam 16, wherein the lifting beam 16 is always parallel to the wall purlin 4, after the distance between the lifting beam 16 is adjusted, adjusting the position and the distance of a connecting piece so that the interval surrounded by the connecting piece and the lifting beam 16 is matched with the holes, then fixing the movable wall plate 5 on the steel column through bolts, and then fixing a sliding rod 19, a first guide sleeve 17 and a second guide sleeve 18 on the steel column through bolts, The first rotating rod 20 and the telescopic rod 22 are fixed on the movable wall plate 5.

Claims (8)

1. An adjustable data center wallboard structure is characterized by comprising a plurality of steel columns, a first fixed wallboard, a second fixed wallboard, a movable wallboard positioned between the first fixed wallboard and the second fixed wallboard, a hole positioned on the movable wallboard, a frame structure matched with the hole, a first connecting structure used for connecting the frame structure to the steel columns, and a second connecting structure used for fixing the movable wallboard to the steel columns;

the steel column is fixedly connected with a wall purlin, and the first fixed wallboard and the second fixed wallboard are fixedly connected to the wall purlin.

2. The adjustable data center wall panel structure of claim 1, wherein the steel columns are each fixedly connected with an adjusting seat, and the adjusting seats are provided with a plurality of bolt holes;

the frame structure comprises two secondary wall purlins and two adjusting wall purlins positioned between the secondary wall purlins;

the adjusting wall purlins are perpendicular to the secondary wall purlins, the upper ends and the lower ends of the adjusting wall purlins are connected with the corresponding secondary wall purlins, the adjusting wall purlins and the secondary wall purlins enclose the frame structure, the secondary wall purlins are located between the steel columns, the secondary wall purlins are perpendicular to the steel columns, and the two ends of each secondary wall purlin are connected to the adjusting seats of the corresponding steel columns;

the first connecting structure is a bolt for connecting the secondary wall purlin to the adjusting seat;

the second connecting structure is a bolt for connecting the secondary wall purlin and the movable wall plate together.

3. The adjustable data center wall panel structure of claim 2, wherein the movable wall panel comprises a panel, keels at opposite ends of the panel;

the keel is connected with the secondary wall purlin.

4. The adjustable data center wall panel structure of claim 3, wherein the adjustment wall purlin includes an upper section connected to the corresponding secondary wall purlin at an upper end, a lower section connected to the corresponding secondary wall purlin at a lower end, and a middle section located between the upper section and the lower section;

the upper section and the middle section are connected through bolts, the lower section and the middle section are connected through bolts, and a plurality of bolt holes used for being connected with the adjusting wall purlin are formed in the secondary wall purlin.

5. The adjustable data center wall panel structure of claim 4, wherein a sealing strip is disposed between the first fixed wall panel and the movable wall panel, and a sealing strip is disposed between the second fixed wall panel and the movable wall panel.

6. An adjustable data center wall panel structure according to claim 1, wherein the frame structure comprises two lifting beams parallel to each other, two connecting members between the lifting beams;

the upper end and the lower end of the connecting piece are connected with the corresponding lifting beams in a sliding way, and the lifting beams are parallel to each other;

the first connecting structure comprises an adjusting mechanism positioned between the frame structure and the upper wall purlin and an adjusting mechanism positioned between the frame structure and the lower wall purlin;

the adjusting mechanism is used for adjusting the height of the corresponding lifting beam, and the lifting beam is ensured to be parallel to the wall purlin during adjustment;

the connecting piece comprises a first guide sleeve, a second guide sleeve and a sliding rod, wherein the upper end of the first guide sleeve is connected with the corresponding lifting beam in a sliding mode, the lower end of the second guide sleeve is connected with the corresponding lifting beam in a sliding mode, and the sliding rod is positioned between the first guide sleeve and the second guide sleeve;

the upper end of the sliding rod is inserted into the first guide sleeve, and the lower end of the sliding rod is inserted into the second guide sleeve;

the sliding rod is provided with a plurality of bolt holes, the first guide sleeve and the second guide sleeve are fixedly connected with connecting plates, and the connecting plates are provided with bolt holes;

the adjusting mechanism comprises a first rotating rod, a second rotating rod and a telescopic rod;

the second rotating rod is positioned between the first rotating rod and the telescopic rod;

one end of the wall purlin is hinged with the first rotating rod, and the other end of the wall purlin is hinged with the telescopic rod;

first dwang and second dwang are parallel to each other, and the one end and the lifter beam of wall purlin are kept away from to first dwang are articulated, are equipped with a plurality of bolt holes on the first dwang, and the one end and the lifter beam that the wall purlin was kept away from to the telescopic link are articulated, are equipped with the bolt hole on the telescopic link.

7. The adjustable data center wallboard structure of claim 6, wherein the telescopic rod comprises a third guide sleeve hinged with the wall purlin, an adjusting rod with one end inserted in the third guide sleeve, an internal thread hole positioned in the adjusting rod, a screw rod rotationally connected in the third guide sleeve, a driven bevel gear fixedly connected on the screw rod, a rotating shaft penetrating through the wall of the third guide sleeve and a driving bevel gear fixedly connected with the rotating shaft;

the driving bevel gear is matched with the driven bevel gear, the screw rod is matched with the internal thread hole, the adjusting rod is provided with a threaded hole, and the third guide sleeve is provided with a threaded hole.

8. A method of constructing a wall panel structure according to claim 5, comprising the steps of:

step a: firstly, building a steel column, then welding a wall purlin on the steel column, and manufacturing a first fixed wallboard and a second fixed wallboard on the wall purlin;

step b: the secondary wall purlin is installed on the adjusting seat through bolts, and the adjusting wall purlin is installed on the secondary wall purlin through bolts;

step c: the movable wall plate is arranged on the secondary wall purlin through bolts;

step d: after the main structure is completed, an air conditioner is ready to be installed, the movable wall plate is detached from the steel column, holes are formed in the movable wall plate according to the requirement of an air outlet of the air conditioner, then bolts on the secondary wall purlin and the adjusting wall purlin are detached, the position of the adjusting secondary wall purlin on the adjusting seat is adjusted according to the position of the holes and is fixed again through the bolts, then the length of the adjusting wall purlin is adjusted according to the distance between the secondary wall purlins, the position of the adjusting wall purlin on the secondary wall purlin is adjusted according to the position of the holes and is fixed again through the bolts, and then the movable wall plate is fixed on the steel column through the bolts again.

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