CN210264073U - High-efficient space utilization's wisdom computer lab layout structure - Google Patents

Abstract

The utility model discloses a high-efficient space utilization's wisdom computer lab overall arrangement structure, including the rack, the rack includes cabinet body subassembly, cabinet door subassembly, central air conditioning air intake, central air conditioning air outlet, installation department and chipset mount, cabinet door subassembly activity is pegged graft in cabinet body subassembly front end face, central air conditioning air intake and central air conditioning air outlet have been seted up respectively to cabinet body subassembly top both ends, the rear end face of the cabinet body subassembly of adjacent rack is closely laminated and is installed, or the cabinet door subassembly of adjacent rack is installed face to face and cabinet door subassembly is kept away from each other, the distance between the adjacent rack that cabinet door subassembly was installed face to face is greater than the width of; by arranging the cabinet body assembly to be integral, on one hand, the occupied space area of the frame and the panel is reduced as much as possible, and the utilization rate of unit space is greatly improved; on the other hand, the cabinet body assembly is internally provided with an integral space, so that the internal airflow circulation is not hindered as much as possible, and the heat dissipation and internal circulation effects of the cabinet are further improved.

Description

High-efficient space utilization's wisdom computer lab layout structure

Technical Field

The utility model relates to a building structure design technical field, concretely relates to high-efficient space utilization's wisdom computer lab layout structure.

Background

In the IT field, a machine room generally refers to telecommunications, internet, mobile, two-wire, electric power, government or enterprise, and the like, and a place where a server is stored and which provides IT services for users and employees is an internet data center, abbreviated as IDC. Dozens of square meters with small area in the machine room are generally placed with twenty or thirty cabinets, and thousands or even more cabinets are placed with tens of thousands of square meters; various servers and small machines such as IBM small machines, HP small machines, SUN small machines and the like are usually placed in a machine room, the temperature and humidity and antistatic measures of the machine room are strict requirements, non-professional project personnel cannot generally enter the machine room, and the servers in the machine room run a plurality of services such as mobile multimedia messages, short messages, conversation services and the like. The computer lab is very important, has not had the computer lab, and work, life all can receive very big influence.

With the progress of science and technology and the development of society, the application of internet data centers has deepened into the aspect of our lives, and then the use of machine rooms is more and more extensive, and the current machine rooms are combined with an automatic control system and the internet of things to form an intelligent machine room. Wisdom computer lab can independently manage the air cycle of computer lab internal environment, a series of maintenance work such as fire control management and control, compare old-fashioned computer lab only need set up a small amount of professionals and maintain can. However, compared with the existing method, the renting cost and the maintenance cost of the machine room are higher due to the rising of water, so that the improvement of the layout structure of the machine room to improve the unit space utilization rate of the machine room is imperative, but the manual maintenance of the machine room is not influenced.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a high-efficient space utilization's wisdom computer lab layout structure, this design possess layout structure closely, and space utilization is high, does not hinder the advantage of manual maintenance operation simultaneously yet, has solved current computer lab space utilization and has generally not high, perhaps the overall arrangement leads to the inconvenient problem of manual maintenance operation too closely.

The utility model discloses a high-efficient space utilization's wisdom computer lab overall arrangement structure, including the rack, the rack includes cabinet body subassembly, cabinet door subassembly, central air conditioning air intake, central air conditioning air outlet, installation department and chipset mount, cabinet body subassembly is hollow cuboid form, cabinet body subassembly both ends are fixed in between the relative wall of computer lab through the installation department, cabinet body subassembly front end face is the opening, cabinet door subassembly activity is pegged graft in cabinet body subassembly front end face, the chipset mount is fixed to be installed in cabinet door subassembly rear end face, central air conditioning air intake and central air conditioning air outlet have been seted up respectively at cabinet body subassembly top both ends, central air conditioning air intake and central air conditioning air outlet all connect outside central air; the rear end face of the cabinet body assembly of the adjacent cabinet is tightly attached to be installed, or the cabinet door assemblies of the adjacent cabinets are installed face to face and the cabinet door assemblies are far away from each other, and the distance between the adjacent cabinets where the cabinet door assemblies are installed face to face is larger than the width of the cabinet body assembly.

The utility model discloses a high-efficient space utilization's wisdom computer lab layout structure, wherein cabinet body subassembly includes preceding frame, back plate, stand, roof and underframe frame, and preceding frame and underframe frame are the rectangle framework, and back plate and roof are the rectangular plate, and preceding frame, back plate, roof and underframe frame weld in proper order and enclose into about both ends open-ended cavity strip cuboid, and central air conditioning air intake and central air conditioning air outlet set in the roof both ends, and both ends welding has the installation department about the preceding frame, and the stand equidistance is arranged and is welded in the preceding frame.

The utility model discloses a high-efficient space utilization's wisdom computer lab layout structure, wherein cabinet door unit spare includes the door plant, sliding tray and guide rail, cabinet body subassembly still includes fixed draw runner, fixed pulley, the door plant closely agrees with in the space that two adjacent stands and front frame entablature enclose, chipset mount fixed mounting is in door plant rear end face, the sliding tray has four and fixes respectively in pairs and install in the top and the middle part of side about the chipset mount, it has fixed draw runner to correspond the position welding between stand and the back plate, the guide rail has two and fixes in pairs and installs in chipset mount bottom, the underframe frame corresponds the rigidity and has fixed pulley, fixed draw runner agrees with in the sliding tray, fixed pulley agrees with in the guide rail.

The utility model discloses a high-efficient space utilization's wisdom computer lab layout structure, wherein preceding frame preceding terminal surface left and right sides's inner wall indent forms the step, and the terminal surface flushes before terminal surface and the step before the stand, and the outside extension of side direction forms the flange about the terminal surface before the door plant, and the flange closely agrees with the step.

The utility model discloses a high-efficient space utilization's wisdom computer lab layout structure, wherein the welding in pairs of terminal surface middle part has the handle before the door plant.

The utility model discloses a high-efficient space utilization's wisdom computer lab layout structure, wherein the dust screen has all been installed to door plant and back plate.

The utility model discloses a high-efficient space utilization's wisdom computer lab layout structure, wherein about the chipset mount the bottom front end of side movable mounting have the stabilizer blade in pairs.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. according to the scheme, the cabinet body assembly, the cabinet door assembly, the central air conditioner air inlet and the central air conditioner air outlet are arranged, and the cabinet body assembly is in an integral hollow cuboid shape, so that on one hand, the space area occupied by the frame and the panel is reduced as much as possible, and the utilization rate of a unit space is greatly improved; on the other hand, the cabinet body assembly is internally provided with an integral space, so that the internal airflow circulation is not hindered as much as possible, and the heat dissipation and internal circulation effects of the cabinet are further improved.

2. According to the scheme, the cabinet body assembly is enclosed into a cabinet body whole by arranging the front frame, the rear plate, the stand column, the top plate and the bottom frame, so that compared with the existing independent cabinet, the occupied space area of the frame and the panel is reduced as much as possible, and the utilization rate of unit space is greatly improved; set up cabinet door subassembly, can be through outside pulling out cabinet body subassembly with cabinet door subassembly, make things convenient for maintainer to maintain, set up a plurality of cabinet door subassembly movable mounting simultaneously in holistic cabinet body subassembly, when making to single chipset maintain, can not lead to the fact the influence to other chipsets.

3. According to the scheme, the steps and the flanges are arranged, so that the door plate can be more tightly fit in the front frame, and meanwhile, the door plate and the rear plate are both provided with the dust screens, so that external dust is prevented from entering to the maximum extent, and the use efficiency of the device is effectively ensured; set up the handle, conveniently pull out cabinet door subassembly outside the cabinet body subassembly.

4. This scheme can support the front end of cabinet door assembly with the stabilizer blade after pulling out cabinet door assembly outside cabinet body assembly through setting up the stabilizer blade, has avoided cabinet door assembly to use the back for a long time, may also alleviate the bearing capacity of fixed draw runner because the risk that the action of gravity takes place to subside, the effectual life who prolongs the device.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic left side view structural view of a cabinet assembly and a cabinet door assembly;

FIG. 2 is a schematic front view of the cabinet assembly and the cabinet door assembly;

FIG. 3 is a schematic structural view of the rear end face of the cabinet assembly;

fig. 4 is a schematic top view of the layout structure.

In the figure: 1. a cabinet assembly; 2. a cabinet door assembly; 3. an air inlet of the central air conditioner; 4. a central air-conditioning air outlet; 5. an installation part; 6. a chipset fixing frame; 11. a front frame; 111. a step; 12. a back plate; 13. a column; 14. a top plate; 15. a bottom frame; 16. fixing a slide bar; 17. fixing the pulley; 21. a door panel; 22. a sliding groove; 23. a guide rail; 211. a flange; 212. a handle; 61. and (3) a support leg.

Detailed Description

In the following description, numerous implementation details are set forth in order to provide a more thorough understanding of the present invention. It should be understood, however, that these implementation details should not be used to limit the invention. That is, in some embodiments of the invention, details of these implementations are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for description purposes, not specifically referring to the order or sequence, and are not intended to limit the present invention, but only to distinguish the components or operations described in the same technical terms, and are not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1-4, an intelligent machine room layout structure with high efficiency and space utilization rate comprises a machine cabinet, wherein the machine cabinet comprises a cabinet body assembly 1, a cabinet door assembly 2, a central air conditioner air inlet 3, a central air conditioner air outlet 4, an installation part 5 and a chipset fixing frame 6, the cabinet body assembly 1 is in a hollow cuboid shape, two ends of the cabinet body assembly 1 are fixed between opposite wall surfaces of a machine room through the installation part 5, the front end surface of the cabinet body assembly 1 is open, the cabinet door assembly 2 is movably inserted into the front end surface of the cabinet body assembly 1, the chipset fixing frame 6 is fixedly arranged on the rear end surface of the cabinet door assembly 2, the central air conditioner air inlet 3 and the central air conditioner air outlet 4 are respectively arranged at two ends of the top of the; the rear end face of the cabinet body assembly 1 of the adjacent cabinet is tightly attached to be installed, or the cabinet door assemblies 2 of the adjacent cabinet are installed face to face and the cabinet door assemblies 2 are far away from each other, and the distance between the adjacent cabinets where the cabinet door assemblies 2 are installed face to face is larger than the width of the cabinet body assembly 1. According to the scheme, the cabinet body assembly 1, the cabinet door assembly 2, the central air conditioner air inlet 3 and the central air conditioner air outlet 4 are arranged, and the cabinet body assembly 1 is in an integral hollow cuboid shape, so that on one hand, the space area occupied by a frame and a panel is reduced as much as possible, and the utilization rate of unit space is greatly improved; on the other hand, the cabinet body assembly 1 is internally provided with an integral space, so that the internal airflow circulation is not hindered as much as possible, and the heat dissipation and internal circulation effects of the cabinet are further improved.

Further, cabinet body subassembly 1 includes front frame 11, back plate 12, stand 13, roof 14 and underframe 15, front frame 11 and underframe 15 are the rectangle framework, back plate 12 and roof 14 are the rectangular plate, front frame 11, back plate 12, roof 14 and underframe 15 weld in proper order and enclose into the hollow strip cuboid of both ends open-ended about, central air conditioning air intake 3 and central air conditioning air outlet 4 set up in roof 14 both ends, both ends welding has installation department 5 about front frame 11, stand 13 equidistance range welds in front frame 11. This scheme is through setting up preceding frame 11, back plate 12, stand 13, roof 14 and underframe 15 and enclose cabinet body subassembly 1 into a rack wholly, compare in current independent rack, reduced the shared space area of frame and panel as far as, improved unit space utilization by a wide margin.

Further, cabinet door subassembly 2 includes door plant 21, sliding tray 22 and guide rail 23, cabinet body subassembly 1 still includes fixed draw runner 16, fixed pulley 17, door plant 21 closely agrees with in the space that two adjacent stands 13 and front frame 11 upper and lower crossbeams enclose, 6 fixed mounting in door plant 21 rear end faces of chipset mount, sliding tray 22 has four and fixes respectively in pairs and install in the top and the middle part of side about chipset mount 6, it has fixed draw runner 16 to correspond the position welding between stand 13 and back plate 12, guide rail 23 has two and fixes in pairs and installs in 6 bottoms of chipset mount, underframe 15 corresponds the position and is fixed with fixed pulley 17, fixed draw runner 16 agrees with in sliding tray 22, fixed pulley 17 agrees with in guide rail 23. This scheme can be through pulling out cabinet body subassembly 1 with cabinet door subassembly 2 outside, makes things convenient for maintainer to maintain through setting up cabinet door subassembly 2, sets up a plurality of cabinet door subassembly 2 movable mounting simultaneously in holistic cabinet body subassembly 1, when making to maintain single chipset, can not lead to the fact the influence to other chipsets.

Furthermore, the inner walls of the left side and the right side of the front end surface of the front frame 11 are recessed to form steps 111, the front end surface of the upright post 13 is flush with the front end surface of the steps 111, the left side and the right side of the front end surface of the door panel 21 extend outwards to form flanges 211, and the flanges 211 are tightly matched with the steps 111. This scheme makes door plant 21 can be inseparabler agree with in preceding frame 11 through setting up step 111 and flange 211, and the entering of outside dust is avoided to the at utmost, the effectual availability factor who guarantees the device.

Further, handles 212 are welded in pairs in the middle of the front end face of the door panel 21. This scheme is through setting up handle 212, conveniently pulls out cabinet body subassembly 1 with cabinet door subassembly 2 outside.

Further, the door panel 21 and the back panel 12 are both provided with dust screens. This scheme all has installed the dust screen through setting up door plant 21 and back plate 12, can effectual entering that prevents outside dust.

Furthermore, the front ends of the bottoms of the left and right side surfaces of the chipset fixing frame 6 are movably provided with supporting feet 61 in pairs. This scheme is through setting up stabilizer blade 61, can pull out cabinet body subassembly 2 cabinet body subassembly 1 outer back, live cabinet body subassembly 2's front end with stabilizer blade 61 support, has avoided cabinet door subassembly 2 to use the back for a long time, probably because the risk that the action of gravity takes place to subside, has also alleviateed the bearing capacity of fixed draw runner 16, the effectual life who prolongs the device.

The utility model discloses when using:

the computer lab generally is rectangle, and the rack equidistance is on a parallel with the long limit installation of computer lab in this design, makes rack one end be fixed in computer lab one side wall through installation department 5, and adjacent rack can be closely laminated with the rear end face, perhaps the rack is installed face to face. When adjacent cabinets are installed face to face, a passageway is formed between the adjacent cabinets, and the width of the passageway is larger than that of the cabinet. The cabinets can be all arranged on the wall surface on one side of the machine room, so that the passageways are in a comb shape; or the canines can be arranged on the wall surfaces at two sides of the machine room in a staggered manner, so that the passageway is in a snake shape. The inlet of the machine room is arranged in the passageway on the wall side of the machine room. The machine room with the layout structure can utilize the inner space of the machine room to the maximum extent, and the arranged passage is reserved with enough space for manual maintenance.

One end of the cabinet body assembly 1 is fixed to a wall surface on one side of a machine room through the mounting portion 5, when manual maintenance is needed, the handle 212 can be pulled by two hands, the fixed sliding strip 16 slides in the sliding groove 22, the guide rail 23 moves on the fixed pulley 17, the cabinet door assembly 2 is further pulled out of the cabinet body assembly 1, and at the moment, a maintainer can perform maintenance operation on a chipset mounted on the chipset fixing frame 6.

It should be noted that the cabinet assembly 1 is enclosed into a cabinet by the front frame 11, the rear plate 12, the upright posts 13, the top plate 14 and the bottom frame 15. In the existing machine room, each independent cabinet consists of a frame and six panels, the frame and the panels occupy a large space area, and the integral cabinet structure of the design reduces the space area occupied by the frame and the panels as much as possible and greatly improves the utilization rate of unit space. Meanwhile, the central air conditioner air inlet 3 and the central air conditioner air outlet 4 are arranged in the single-group cabinet body assembly 1, and the cabinet body assembly 1 is internally provided with an integral space, so that the air flow circulation in the cabinet body assembly 1 is not hindered as much as possible, and the heat dissipation and internal circulation effects of the cabinet are further improved.

The stabilizer blade 61 of 6 bottoms of chipset mount can be in pulling out cabinet body subassembly 2 cabinet body subassembly 1 outer back, live cabinet body subassembly 2's front end with stabilizer blade 61 support, has avoided cabinet door subassembly 2 to use the back for a long time, may also alleviate the bearing capacity of fixed draw runner 16 because the risk that the action of gravity takes place to subside, the effectual life who prolongs the device.

The flange 211 on the door panel 21 is fit with the step 111 of the front frame 11 and the upright post 13 flush with the front end surface of the step 111, so that the door panel 21 can be more tightly fit with the front frame 11, external dust is prevented from entering to the maximum extent, and the use efficiency of the device is effectively ensured.

The door panel 21 and the back panel 12 are both provided with dust screens, so that external dust can be effectively prevented from entering.

The utility model discloses it is inseparable to possess layout structure, and space utilization is high, does not hinder the advantage of manual maintenance operation simultaneously yet, has solved current computer lab space utilization and has generally not high, perhaps the overall arrangement leads to the inconvenient problem of manual maintenance operation too closely.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a high-efficient space utilization's wisdom computer lab layout structure which characterized in that: comprises a cabinet, wherein the cabinet comprises a cabinet body component (1), a cabinet door component (2), a central air-conditioning air inlet (3), a central air-conditioning air outlet (4), an installation part (5) and a chipset fixing frame (6), the cabinet body assembly (1) is cuboid, two ends of the cabinet body assembly (1) are fixed between opposite wall surfaces of the machine room through the mounting parts (5), the front end surface of the cabinet body component (1) is provided with an opening, the cabinet door component (2) is movably inserted into the front end surface of the cabinet body component (1), the chipset fixing frame (6) is fixedly arranged on the rear end face of the cabinet door component (2), the two ends of the top of the cabinet body component (1) are respectively provided with a central air-conditioning air inlet (3) and a central air-conditioning air outlet (4), the central air-conditioning air inlet (3) and the central air-conditioning air outlet (4) are both connected with an external central air-conditioning circulating system; the rear end face of the cabinet body assembly (1) of the adjacent cabinet is tightly attached to be installed, or the cabinet door assemblies (2) of the adjacent cabinet are installed face to face and the cabinet door assemblies (2) are far away from each other, and the distance between the adjacent cabinets installed face to face of the cabinet door assemblies (2) is larger than the width of the cabinet body assembly (1).

2. The intelligent machine room layout structure with efficient space utilization as claimed in claim 1, wherein: cabinet body subassembly (1) is including preceding frame (11), back plate (12), stand (13), roof (14) and underframe frame (15), preceding frame (11) and underframe frame (15) are the rectangular frame body, back plate (12) and roof (14) are the rectangular frame body, preceding frame (11), back plate (12), roof (14) and underframe frame (15) weld in proper order and enclose into about both ends open-ended cavity strip cuboid, central air conditioning air intake (3) and central air conditioning air outlet (4) are seted up in roof (14) both ends, both ends welding has installation department (5) about preceding frame (11), stand (13) equidistance range is welded in preceding frame (11).

3. The intelligent machine room layout structure with efficient space utilization as claimed in claim 2, wherein: the cabinet door assembly (2) comprises a door panel (21), a sliding groove (22) and a guide rail (23), the cabinet body assembly (1) further comprises fixed sliding strips (16) and fixed pulleys (17), the door panel (21) is tightly fit in a space enclosed by two adjacent upright columns (13) and upper and lower cross beams of the front frame (11), the chipset fixing frame (6) is fixedly installed on the rear end face of the door panel (21), four sliding grooves (22) are respectively and fixedly installed on the top and the middle of the left and right side faces of the chipset fixing frame (6) in pairs, the fixed sliding strips (16) are welded between the upright columns (13) and the rear plate (12) at corresponding positions, two guide rails (23) are fixedly installed at the bottom of the chipset fixing frame (6) in pairs, the fixed pulleys (17) are fixed at corresponding positions of the bottom frame (15), and the fixed sliding strips (16) are fit in the sliding grooves (22), the fixed pulley (17) is matched in the guide rail (23).

4. The intelligent machine room layout structure with efficient space utilization as claimed in claim 3, wherein: the inner walls of the left side and the right side of the front end face of the front frame (11) are recessed inwards to form steps (111), the front end face of the upright post (13) is flush with the front end face of the steps (111), the left side and the right side of the front end face of the door panel (21) extend outwards to form flanges (211), and the flanges (211) are tightly matched with the steps (111).

5. The intelligent machine room layout structure with efficient space utilization as claimed in claim 3, wherein: the middle part of the front end surface of the door panel (21) is welded with handles (212) in pairs.

6. The intelligent machine room layout structure with efficient space utilization as claimed in claim 3, wherein: the door plate (21) and the rear plate (12) are both provided with dust screens.

7. The intelligent machine room layout structure with efficient space utilization as claimed in claim 1, wherein: the front ends of the bottoms of the left side surface and the right side surface of the chipset fixing frame (6) are movably provided with supporting legs (61) in pairs.

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