CN209958846U - Assembled computer lab - Google Patents

Abstract

The utility model discloses an assembled computer lab belongs to computer lab design technical field, and its technical scheme main points are assembled computer lab, wall body including the concatenation formula, set up in the roof at wall body top and set up in subaerial floor, the wall body is formed by a plurality of wallboards through the connecting piece concatenation, the connecting piece comprises the first plugboard that has the U-shaped groove and the second plugboard that has the lug, one side of wallboard is fixed with first plugboard, its opposite side is fixed with the second plugboard, double-phase adjacent wallboard flushes and splices until the up end of the two on second plugboard slides along vertical direction and imbeds first plugboard through the second plugboard. The wall body is spliced, so that the length of the wall plate can be controlled, three or five persons can install the wall plate, and the wall plate is very convenient to install; a ventilation device is arranged in the machine room, hot air in the machine room flows into the auxiliary ventilation pipe from the filter cover under the action of the ventilator, then flows into the main ventilation pipe, and is finally discharged out of the machine room by the ventilator, so that the ventilation and heat dissipation effects are achieved.

Description

Assembled computer lab

Technical Field

The utility model belongs to the technical field of the computer lab design, refer in particular to an assembled computer lab.

Background

The computer lab is the place that is generally used for depositing server, equipment, because a large amount of equipment operation can produce more heat, and many equipment can make electronic equipment malfunctioning when the temperature is too high, consequently can be higher to the requirement of computer lab, need have characteristics such as ventilation cooling, dampproofing, waterproof, fire prevention.

To the construction of computer lab, the tradition mode is through civil engineering excavation, pour maintenance etc, there is the construction cycle length, shortcoming with high costs, consequently, an assembled computer lab has just appeared on the market at present, adopt the form installation of concatenation wallboard, not only have the characteristics of quick installation, and the cost is still lower, but its shortcoming is also comparatively obvious, the specification requirement to prefabricated wallboard is higher, if the error is great, just there is the gap when two walls splice, and then lead to its waterproof, moisture proof ability is relatively weak, consequently, it is necessary to provide an installation compactness strong, and can carry out the assembled computer lab of adjusting to the error of prefabricated wall body.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a have performance such as high inseparability type nature, ventilation cooling, dampproofing, waterproof, fire prevention assembled computer lab.

The purpose of the utility model is realized like this: an assembly machine room comprises a splicing wall body, a roof arranged at the top of the wall body and a floor arranged on the ground, wherein, the wall body is formed by splicing a plurality of wallboards through connecting pieces, each connecting piece is composed of a first plugboard with a U-shaped groove and a second plugboard with a lug, the length of the first plugboard and the second plugboard is the same as the height of the wallboard, the U-shaped groove is provided with two inner side walls, the two inner side walls are both provided with bulges, the upper ends of the bulges are flush with the upper end surfaces of the U-shaped grooves, the lower end of the wall plate is positioned at the upper middle position of the inner side wall of the U-shaped groove, the section of the lug is I-shaped, the length of the bulge, the U-shaped groove and the lug is consistent, one side of the wall plate is fixed with a first plugboard, and a second plug board is fixed on the other side of the wall panel, and the two adjacent wall panels are embedded into the first plug board through the second plug board in a sliding manner along the vertical direction until the upper end faces of the two wall panels are flush for splicing.

Through adopting above-mentioned technical scheme, because the wall body is the concatenation formula, consequently, the length of steerable wallboard, three five people can install, install first plugboard and second plugboard respectively in the both sides of prefabricated wallboard, accomplish the concatenation on embedding first plugboard through the second plugboard between the double-phase adjacent wallboard, and peg graft along vertical direction, make the comparatively inseparable of adjacent wall concatenation, the problem of infiltration can not appear, and the installation rate is fast, efficient.

The utility model discloses further set up to: the wall body is characterized by further comprising a supporting frame which is arranged on the ground and is of a steel structure, the periphery of the supporting frame is tightly attached to the four walls of the wall body, embedded bolts are arranged on the inner wall of each wall plate, mounting grooves for embedding the embedded bolts are formed in the supporting frame, and the floor covers the supporting frame.

Through adopting above-mentioned technical scheme, set up braced frame, be connected fixedly with the lower part of wall body through bolt and support frame, not only can improve the intensity of whole wall body, owing to increased the height on ground, make it still have good dampproofing ability.

The utility model discloses further set up to: still including setting up the ventilation unit in braced frame, ventilation unit includes the ventilation blower, main ventilation pipe and auxiliary ventilation pipe, main ventilation pipe has many and even tiling in braced frame's bottom, the vertical direction setting of auxiliary ventilation pipe, its lower extreme communicates in main ventilation pipe, its upper end accesss to the bottom on floor, be provided with on the floor just to auxiliary ventilation pipe upper shed's vent and lid cover fit the filter lid of vent, the ventilation blower has a plurality ofly and distributes around braced frame, the air intake of ventilation blower is located the port department of main ventilation pipe, the wall body below is provided with just to the gas vent of ventilation blower air outlet, still install the dust screen on the gas vent.

Through adopting above-mentioned technical scheme, though there is door and window in the computer lab, can ventilate the heat dissipation, actually, the produced heat of more equipment and server during operation is not enough dispels the heat through natural wind, consequently installs ventilation unit to ventilation unit sets up in braced frame, can not influence the area of computer lab.

The ventilator is a driven fluid machine, this scheme adopts centrifugal ventilator, its essential element is casing, impeller, crankshaft, bearing, base and the gas vent of breathing in etc., the principle is that after the motor drives the impeller and rotates, the centrifugal force that the impeller produced throws the air into to the casing from the impeller, because speed is slow, pressure is high, after the air is discharged from the gas vent, formed the negative pressure, make the air of gas vent department under the effect of atmospheric pressure, pressed into the impeller, so relapse, reach the purpose of induced drafting, ventilating.

The hot air in the machine room flows into the auxiliary ventilating pipe from the filter cover under the action of the ventilator, then flows into the main ventilating pipe, and is finally discharged out of the machine room from the air outlet of the ventilator, so that the ventilating and radiating effects are achieved.

The utility model discloses further set up to: the side walls of the two wallboards forming the wall corner are set to be inclined planes which incline towards the inner wall of the wallboard.

Through adopting above-mentioned technical scheme, with the lateral wall slope 45 degrees settings of wallboard, the corner that the concatenation formed is not only pleasing to the eye, and more scientific moreover, the compactness of corner is also better.

The utility model discloses further set up to: the wallboard includes the main part, sets up the puigging on the main part inner wall and sets up in the waterproof layer of main part outer wall, and the puigging is the acoustic celotex board of making with nanometer multilayer structure material as the raw materials, and the waterproof layer is formed with the water proof coating that polyvinyl chloride made as the raw materials coating.

By adopting the technical scheme, the sound insulation layer is made of the nano multilayer structure material, has good sound insulation effect, can absorb and isolate the sound emitted by equipment in the machine room, and avoids influencing the outside; the waterproof layer is a polyvinyl chloride waterproof coating layer, so that the price is low, and the waterproof effect is excellent.

The utility model discloses further set up to: the connecting piece is a stainless steel casting piece.

Through adopting above-mentioned technical scheme, first plugboard and second plugboard are stainless steel casting, have ensured its toughness, because the connecting piece specification error of production is very little, consequently can ensure normal installation. Imbed the connecting piece on the lateral wall of wallboard to squeeze into the foamer in space department, make the firm installation of connecting piece on the wallboard, even the lateral wall thickness of prefabricated wallboard slightly differs, also not have big problem, can not influence the concatenation of wallboard yet.

The utility model discloses further set up to: the main body is formed by pouring concrete through a double-layer steel wire mesh and a heat-insulating material.

Through adopting above-mentioned technical scheme, cement wallboard structural strength is high, but also has the thermal-insulated characteristics of heat preservation.

The utility model discloses further set up to: the main body is made of a sandwich panel, and the sandwich panel is an EPS sandwich panel.

By adopting the technical scheme, the EPS sandwich board has the characteristics of excellent optical property, no color change, corrosion resistance, light and sun protection, ageing resistance and the like, and can be applied to the wall surface.

The utility model has the advantages that: the wall body is spliced, so that the length of the wall plate can be controlled, three or five persons can install the wall plate, and the wall plate is very convenient to install; a ventilation device is arranged in the machine room, hot air in the machine room flows into the auxiliary ventilation pipe from the filter cover under the action of the ventilator, then flows into the main ventilation pipe, and is finally discharged out of the machine room from an air outlet of the ventilator, so that the ventilation and heat dissipation effects are achieved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic diagram of the splicing structure of two adjacent wallboards of the utility model;

fig. 3 is a schematic view of the internal structure of the present invention;

fig. 4 is a schematic view of the installation structure of the ventilation device of the present invention;

the reference numbers in the figures are: 1. a wall body; 11. a wallboard; 111. a main body; 112. a sound insulating board; 113. a waterproof layer; 114. embedding bolts in advance; 115. an exhaust port; 12. a connecting member; 121. a first patch panel; 1211. a U-shaped groove; 1212. a protrusion; 122. a second patch panel; 1221. a bump; 2. a roof; 3. a floor; 31. a filter cover; 4. a support frame; 5. a ventilation device; 51. a ventilator; 52. a primary vent pipe; 53. and a secondary vent pipe.

Detailed Description

In order to make the technical solutions in the present invention better understood by those skilled in the art, the technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the accompanying drawings:

as shown in fig. 1 and 3, an assembly machine room includes a splicing wall 1, a roof 2 disposed on the top of the wall 1, a support frame 4 disposed on the ground, and a floor 3 covering the support frame 4, wherein the wall 1 is formed by splicing a plurality of wall boards 11 by connecting members 12. The machine room is assembled in a splicing mode, and the machine room has the advantages of being high in installation efficiency and low in manufacturing cost.

The wall panel 11 includes a main body 111, a soundproof layer provided on an inner wall of the main body 111, and a waterproof layer 113 provided on an outer wall of the main body 111. The main body 111 can be formed by pouring concrete through a double-layer steel wire mesh and a heat-insulating material, the structural strength of the cement wallboard 11 is high, and the cement wallboard also has the characteristics of heat insulation, or an EPS sandwich board is adopted, so that the cement wallboard has the characteristics of corrosion resistance, sun protection, ageing resistance and the like; the sound insulation layer is a sound insulation plate 112 made of a nano multilayer structure material, has a good sound insulation effect, and can absorb and isolate sound emitted by equipment in a machine room; the waterproof layer 113 is a polyvinyl chloride waterproof coating layer, and is not only inexpensive, but also excellent in waterproof effect.

As shown in fig. 2, the connecting member 12 is a cast member made of stainless steel, and is composed of a first socket plate 121 having a U-shaped slot 1211U and a second socket plate 122 having a projection 1221, the first socket plate 121 is fixed to one side wall of the wall plate 11, the second socket plate 122 is fixed to the other side wall of the wall plate 11, and the lengths of the first socket plate 121 and the second socket plate 122 are the same as the height of the wall plate 11. The U-shaped groove 1211U has two inner side walls, that is, two ends of the U-shaped groove 1211U penetrate through the first plugboard 121, protrusions 1212 are disposed on the two inner side walls of the U-shaped groove 1211U, the upper end of the protrusion 1212 is flush with the upper end face of the U-shaped groove 1211U, and the lower end is located at the upper middle position of the inner side walls of the U-shaped groove 1211U; the cross section of lug 1221 is the worker's shape, protruding 1212, the length of U-shaped groove 1211U is unanimous with lug 1221, lug 1221 is in embedding the U-shaped groove 1211U along vertical direction back, the surface of protruding 1212 hugs closely on lug 1221, and then second plugboard 122 can be closely laminated on first plugboard 121, thereby has ensured the compactness between two adjacent wallboards 11, make the rainwater can not permeate into wall 1, for preventing the thermal barrier shrinkage, lead to appearing tiny gap between first plugboard 121 and the second plugboard 122, can add the rubber layer at the position that first plugboard 121 and second plugboard 122 contact, can play the buffering and improve the effect of compactness.

The side walls of the two wall panels 11 forming the corner are provided with inclined surfaces inclined at 45 degrees, and the inclined surfaces are inclined towards the inner wall of the wall panels 11 to improve the tightness of the corner.

As shown in fig. 3, the supporting frame 4 is a steel structure, the periphery of the supporting frame 4 is tightly attached to the four walls of the wall 1, the floor 3 covers the supporting frame 4, the embedded bolt 114 is arranged below the inner wall of each wall plate 11, and the supporting frame 4 is provided with a mounting groove for embedding the embedded bolt 114. The supporting frame 4 can be fixed on the ground in a semi-embedded mode or fixed on the ground by bolts, each wallboard 11 is locked on the supporting frame 4 by the embedded bolts 114, the structure of the whole wall body 1 can be further strengthened, and the height of the ground is increased, so that the supporting frame has good moisture-proof capacity.

Further optimization, although there are doors and windows in the machine room, ventilation and heat dissipation can be performed, in practice, the heat generated by many devices and servers during operation is not enough to be dissipated through natural wind, and therefore, in order to increase the ventilation effect of the machine room, the ventilation device 5 is arranged in the support frame 4.

As shown in fig. 4, the ventilation device 5 includes a ventilation fan 51, a main ventilation pipe 52 and an auxiliary ventilation pipe 53, the main ventilation pipe 52 has a plurality of ventilation pipes 52 evenly laid at the bottom of the support frame 4, the auxiliary ventilation pipe 53 is vertically arranged, the lower end of the auxiliary ventilation pipe 53 is communicated with the main ventilation pipe 52, the upper end of the auxiliary ventilation pipe is communicated with the bottom of the floor 3, the floor 3 is provided with a ventilation opening facing the upper opening of the auxiliary ventilation pipe 53 and a filter cover 31 covering the ventilation opening, the ventilation fan 51 has a plurality of ventilation openings distributed around the support frame 4, the air inlet of the ventilation fan 51 is located at the port of the main ventilation pipe 52, an air outlet 115 facing the air outlet of the ventilation fan 51 is arranged. Under the action of the ventilator 51, the hot air in the machine room flows into the auxiliary ventilation pipe 53 from the filter cover 31, then flows into the main ventilation pipe 52, and is finally discharged out of the machine room from the air outlet of the ventilator 51, so that the effects of ventilation and heat dissipation are achieved.

The above embodiments are only preferred embodiments of the present invention, not all embodiments, and other embodiments obtained based on the above embodiments by those skilled in the art without any creative work shall belong to the protection scope of the present invention, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an assembled computer lab, includes wall body (1) of concatenation formula, sets up in roof (2) at wall body (1) top and sets up in subaerial floor (3), its characterized in that: the wall body (1) is formed by splicing a plurality of wall boards (11) through connecting pieces (12), each connecting piece (12) is composed of a first plug board (121) with a U-shaped groove (1211) and a second plug board (122) with a lug (1221), the lengths of the first plug board (121) and the second plug board (122) are the same as the height of each wall board (11), each U-shaped groove (1211) is provided with two inner side walls, each inner side wall is provided with a bulge (1212), the upper end of each bulge (1212) is flush with the upper end face of each U-shaped groove (1211), the lower end of each bulge is positioned on the upper middle of the inner side wall of each U-shaped groove (1211), the cross section of each lug (1221) is in an I shape, the lengths of the bulges (1212), the U-shaped grooves (1211) and the lugs (1221) are the same, the first plug board (121) is fixed on one side of each wall board (11), the other side of the wall plate is fixed with the second plug board (122), and two adjacent wall plates (11) are embedded into the first plug board (121) in a sliding mode along the vertical direction through the second plug board (122) until the upper end faces of the two are flush for splicing.

2. The assembly machine room of claim 1, wherein: the side walls of the two wall boards (11) forming the wall corners are inclined planes, and the inclined planes incline towards the inner walls of the wall boards (11).

3. The assembly machine room of claim 1, wherein: still including setting up in subaerial and braced frame (4) for the steel construction, hug closely all around braced frame (4) in the four walls of wall body (1), every all be provided with buried bolt (114) in advance on the inner wall of wallboard (11), be provided with the confession on braced frame (4) the mounting groove of buried bolt (114) embedding in advance, floor (3) cover in on braced frame (4).

4. A fabricated machine room according to claim 3, characterized in that: also comprises a ventilation device (5) arranged in the supporting frame (4), wherein the ventilation device (5) comprises a ventilator (51), a main ventilation pipe (52) and an auxiliary ventilation pipe (53), the main ventilation pipe (52) is provided with a plurality of auxiliary ventilation pipes (53) which are evenly paved at the bottom of the supporting frame (4), the lower end of the main ventilation pipe is communicated with the main ventilation pipe (52), the upper end of the main ventilation pipe is communicated with the bottom of the floor (3), a vent hole which is right opposite to the upper opening of the auxiliary ventilation pipe (53) and a filter cover (31) which covers the vent hole are arranged on the floor (3), the ventilator (51) is provided with a plurality of ventilators distributed on the periphery of the supporting frame (4), the air inlet of the ventilator (51) is positioned at the port of the main ventilation pipe (52), an exhaust port (115) for exhausting air from an air outlet of the ventilator (51) is further arranged below the wall body (1).

5. The assembly machine room of claim 1, wherein: wallboard (11) include main part (111), set up puigging on main part (111) inner wall and set up in waterproof layer (113) of main part (111) outer wall, the puigging is acoustic celotex board (112) of making with nanometer multilayer structure material as the raw materials, waterproof layer (113) are formed with the waterproof coating that polyvinyl chloride made as the raw materials.

6. The assembly machine room of claim 1, wherein: the connecting piece (12) is a stainless steel casting piece.

7. The assembly machine room of claim 5, wherein: the main body (111) is formed by pouring concrete through a double-layer steel wire mesh and a heat-insulating material.

8. The assembly machine room of claim 5, wherein: the main body (111) is made of a sandwich panel, and the sandwich panel is an EPS sandwich panel.

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