CN114650680A - Tooling structure for data cabin and auxiliary installation system for data cabin - Google Patents

Abstract

The invention relates to the technical field of data centers, in particular to a tooling structure for a data cabin and an auxiliary mounting system for the data cabin. A tooling structure for a data pod comprising: a first stage on which the cabinet is adapted to be placed; and the second carrying platform is arranged on the first carrying platform, a jig is arranged on the second carrying platform, the jig is provided with a mounting surface suitable for mounting an end cover of the data cabin, and an included angle is formed between the mounting surface and the horizontal plane. According to the tooling structure for the data cabin, the cabinet is placed on the first carrying platform, and the end cover of the data cabin is arranged on the second carrying platform, so that when the cabinet does not enter the tank body of the data cabin, the preassembly of the circuit is completed on the tooling, the problem that the circuit is connected in the tank body when an operator enters the tank body after the end cover is installed on the tank body subsequently is avoided, and the problem that the circuit connection operation at the end cover is inconvenient is solved.

Description

Tooling structure for data cabin and auxiliary installation system for data cabin

Technical Field

The invention relates to the technical field of data centers, in particular to a tooling structure for a data cabin and an auxiliary mounting system for the data cabin.

Background

A data center is a globally collaborative network of devices that is used to communicate, accelerate, present, compute, store data information over the internet infrastructure. Most of the common data centers are large numbers of servers which are arranged together to provide running applications to process business and operational organization data. However, the server may emit a large amount of heat during operation, and the heat needs to be emitted to ensure the normal operating temperature of the server.

The prior art provides an underwater data center, which places a server in a specially-made data cabin, fills cooling fluid in the data cabin, sinks the data cabin into the sea bottom, and utilizes low-temperature seawater to realize heat dissipation of the server in the data cabin.

The structure of data cabin is mostly cylindricly, and its both ends are provided with the blanking cover, when installing the data cabin with the server, for the convenience of installation, install a plurality of servers in the rack is concentrated, then with the rack push into the data cabin in, sealing up the port department at the data cabin with the blanking cover. Wherein, multiple power supply and control scheme in the rack need be connected in order to realize with external communication on the stifled cover, need the operation workman to enter into the cabin body through the herringbone hole this moment in, accomplish the connection of circuit, the internal operating space in cabin is limited, leads to the connection degree of difficulty of circuit to promote, wastes time and energy.

Disclosure of Invention

Therefore, the technical problem to be solved by the invention is to overcome the defect of difficult line connection at the end cover of the data cabin in the prior art, so as to provide the tooling structure for the data cabin and the auxiliary mounting system for the data cabin.

In order to solve the above problems, the present invention provides a tooling structure for a data bay, comprising:

a first stage on which the cabinet is adapted to be placed;

the second carrying platform is arranged on the first carrying platform, a jig is arranged on the second carrying platform, the jig is provided with a mounting surface suitable for mounting an end cover of the data cabin, and an included angle is formed between the mounting surface and the horizontal plane.

Optionally, the tool has the installation department, the installation face shaping is in the installation department deviates from on one side of rack.

Optionally, the end cap has a flange thereon adapted to be mounted on the tank of the data pod, the mounting portion being adapted to the shape of the flange.

Alternatively, the mounting portion is configured in a circular arc shape, and a plurality of mounting holes are provided along a circumferential direction thereof.

Optionally, an included angle between the mounting surface and the horizontal plane is 90 degrees.

Optionally, the second carrier further includes a support, one end of the support is disposed on the first carrier, and the other end of the support is disposed on an end surface of the jig close to the cabinet.

Optionally, the stent comprises:

a plurality of horizontal beams which are sequentially arranged at intervals along the horizontal direction;

and the connecting beams are distributed at two ends of the horizontal beam, one end of each connecting beam is arranged on the horizontal beam, and the other end of each connecting beam is arranged on the jig.

Optionally, a first reinforcing member is disposed at a joint of the connecting beam and the jig.

Optionally, the jig is provided with a plurality of second reinforcing members on the end face close to the cabinet.

Optionally, the first stage includes:

and the end surfaces of the supporting beams in the length direction are abutted against the end surfaces of the jigs, which are close to the cabinet.

Optionally, the support beams are provided with via holes, and the horizontal beam passes through the via holes and is connected to the support beams in a penetrating manner.

Optionally, the first stage further includes:

and the two ends of the cross beam are respectively connected to the opposite side surfaces of the two supporting beams.

Optionally, the height of the center of the cabinet is equal to the height from the upper end surface of the support beam to the center of the mounting portion.

The invention also provides an auxiliary data cabin installation system which comprises the tool structure for the data cabin.

The technical scheme of the invention has the following advantages:

1. the tooling structure for the data cabin comprises the following components: a first stage on which the cabinet is adapted to be placed; and the second carrying platform is arranged on the first carrying platform, a jig is arranged on the second carrying platform, the jig is provided with a mounting surface suitable for mounting an end cover of the data cabin, and an included angle is formed between the mounting surface and the horizontal plane.

In the tooling structure for the data cabin, the cabinet is placed on the first carrying platform, the end cover of the data cabin is arranged on the second carrying platform, and in order to facilitate the installation of the end cover, the jig is arranged on the second carrying platform, and an included angle exists between the installation surface for installing the end cover on the jig and the horizontal plane, so that enough operation space is reserved for operating workers, the circuit is conveniently installed between the cabinet and the end cover, and the circuit connection is realized.

2. The jig in the tooling structure for the data cabin is provided with an installation part, and the installation surface is formed on one side of the installation part, which is far away from the cabinet. The installation face shaping makes the end cover when installing the tool on the one side that the installation department deviates from the rack, and the medial surface of end cover is towards the rack to make things convenient for the connection of circuit between the two, and follow-up when the installation of end cover is on the jar body, need not adjust the direction of end cover, can the jar mouth department of the direct mount jar body, improved subsequent installation effectiveness, reduce the adjustment to the end cover operation.

3. The end cover of the tooling structure for the data cabin is provided with the flange suitable for being installed on the tank body of the data cabin, the installation part is matched with the shape of the flange, and due to the fact that the weight and the volume of the end cover are large, the design mode can better help installation workers to find the installation reference in the installation process of the end cover, namely the end cover and the data cabin are in butt joint in shape, and the efficiency of installing the end cover on the tooling can be improved.

4. The included angle between the mounting surface and the horizontal plane in the tool structure for the data cabin is 90 degrees, so that the end cover is vertically mounted on the tool, most of lines are connected to the end surface of the end cover, the vertical mode of the end cover can provide mounting space for the lines to the maximum extent, most of the tank bodies of the data cabin are horizontally placed, the vertically placed end cover can better correspond to the position of the tank opening, and the subsequent butt joint with the tank opening is facilitated.

5. According to the tooling structure for the data cabin, the first reinforcing piece is arranged at the connecting part of the connecting beam and the fixture, so that the end face of the fixture can be prevented from being deformed due to stress concentration on the fixture caused by the end face of the connecting beam. The end face deformation of the jig can cause that the flange of the end cover cannot be attached to the mounting surface, and further the jig cannot be used. The first reinforcing member enhances the structural strength of the jig, and can prevent the above problems.

6. According to the tooling structure for the data cabin, the supporting beams are provided with the through holes, the horizontal beams are connected on the supporting beams in a penetrating manner through the through holes, the horizontal beams are directly connected on the supporting beams in a penetrating manner, the movement among the horizontal beams can be limited through the supporting beams, the restriction on the horizontal beams is increased, and the bearing stability of the second loading platform is further improved.

7. The center height of the cabinet in the tooling structure for the data cabin is equal to the height from the upper end surface of the supporting beam to the center of the mounting part, and the equal center height ensures that the state when the cabinet and the end cover are both mounted in the data cabin is consistent with the state on the tooling as far as possible, so that the length of the original line is ensured, the tooling structure is also suitable for the tooling, and the design change problem of subsequent assembly is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural diagram of a tooling structure for a data bay in example 1 according to the present invention;

FIG. 2 is a side view of a tooling structure for a data bay according to example 1 of the present invention;

FIG. 3 is a diagram illustrating a state of use of the tooling structure for a data bay according to example 1 of the present invention;

fig. 4 is an assembly state diagram of the tooling structure for a data bay and an end cover in example 1 according to the present invention.

Description of reference numerals:

1-a first stage; 11-a support beam; 12-a cross beam;

2-a second stage; 21-a jig; 22-a scaffold; 23-a first stiffener; 24-a second stiffener; 211-a mounting portion; 212-mounting holes; 221-horizontal beam; 222-a connecting beam;

3, a cabinet;

4-end cover.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Example 1

As shown in fig. 1 to fig. 4, the tooling structure for a data bay provided for this embodiment includes: a first carrier 1 on which a cabinet 3 is adapted to be placed; and the second carrying platform 2 is arranged on the first carrying platform 1, a jig 21 is arranged on the second carrying platform 2, the jig 21 is provided with a mounting surface suitable for mounting the end cover 4 of the data cabin, and an included angle exists between the mounting surface and the horizontal plane.

In the present embodiment, the data compartment is cylindrical, the end caps 4 attached to both ends of the tank body of the data compartment are formed in an approximately circular structure, the edge of the end cap 4 is formed with a flange, and a flange structure that is fitted to the flange is similarly formed at the position of the tank opening of the corresponding tank body, and the two are abutted and attached to each other and locked together by a screw. Of course, other types of data pod end cap configurations are equally applicable to the tooling structure of the present invention.

It should be noted that the first stage 1 and the second stage 2 in this embodiment are mostly made of steel structures, such as common i-beams, angle steels, channel steels, etc., which have good structural strength and simple assembly methods.

The jig 21 in this embodiment is prepared to adapt to the shape of the end cover, so as to facilitate the installation of the end cover 4, and the jig 21 in this embodiment is a common supporting plate structure, but of course, in some other embodiments, some common supporting blocks, frames, box structures, and the like are also applicable to the support of the end cover.

When the tooling structure in the embodiment is used, the cabinet can be installed on the first carrying platform 1 firstly to ensure the stability of the whole tooling, the end cover is installed on the second carrying platform 2, when the end cover 4 is installed on the second carrying platform 2, the distance from the end cover 4 to the cabinet 3 can be properly adjusted according to the requirement of line arrangement connection, and the space for operation of enough workers is reserved while the line connection is facilitated.

The angle between the mounting surface and the horizontal plane in this embodiment is preferably in a range of 45 degrees to 90 degrees to ensure sufficient operation space, but in other embodiments, the angle may be adjusted adaptively according to the size of the end cover and the assembly requirements of the line, such as the height of the assembly, the length of the line, etc.

Therefore, in the tooling structure for a data cabin in this embodiment, the cabinet 3 is placed on the first carrier 1, the end cover 4 of the data cabin is arranged on the second carrier 2, and in order to facilitate the installation of the end cover 4, the jig 21 is arranged on the second carrier 2, and an included angle exists between the installation surface for installing the end cover 4 on the jig 21 and a horizontal plane, so that a sufficient operation space is reserved for an operating worker, the circuit is conveniently installed between the cabinet 3 and the end cover 4, and the connection of the circuit is realized.

On the basis of the above-described embodiment, as a further limitation, the jig 21 has a mounting portion 211, and the mounting surface is molded on a side of the mounting portion 211 facing away from the cabinet 3. The installation face shaping makes end cover 4 when installing tool 21 on the one side that installation department 211 deviates from rack 3, and the medial surface of end cover 4 is towards rack 3 to make things convenient for the connection of the circuit between the two, and follow-up when the installation of end cover 4 is on the jar body, need not adjust end cover 4's direction, can directly install jar mouthful department of the jar body, improved subsequent installation effectiveness, reduce the adjustment to end cover 4 operation. Of course, as a modified embodiment, the mounting surface may be provided on the side of the mounting portion 211 closer to the cabinet 3. Further, as shown in fig. 1 and 4, the end cap 4 has a flange adapted to be mounted on the tank of the data compartment, and the mounting portion 21 is adapted to the shape of the flange. Because of the weight and the volume of the end cover 4 are both large, the design method can better help the installation worker to find the installation reference in the installation process of the end cover 4, namely, the butt joint of the end cover and the installation worker in the shape can be realized, and the efficiency of installing the end cover 4 on the jig 21 can be improved. As a modification, when the mounting structure of the end cap 4 at the tank opening is changed, the structural shape of the mounting portion 211 in the above-mentioned embodiment may be changed adaptively, for example, by using a flange mounting structure or the like that matches each other. Further, the mounting portion 211 in the present embodiment is configured in an arc shape, and several mounting holes 212 are provided along a circumferential direction thereof. The arc hollow position of the arc-shaped mounting part 211 can be used for arranging a connecting line for the operation of workers, and the mounting holes 212 arranged in the circumferential direction can facilitate the mounting of the end cover 4.

On the basis of the embodiment, as further injectting, the contained angle between installation face and the horizontal plane is 90 degrees, has guaranteed that end cover 4 is vertical to be installed on tool 21, and the circuit is connected in end face department of end cover 4 more, the vertical mode of end cover, can maximize for the workman provides the installation space of circuit, and the jar body of data cabin is horizontal placing more, the vertical end cover 4 of placing can be better correspond with the position of jar mouth, make things convenient for follow-up butt joint with jar mouth.

On the basis of the above embodiment, as a further limitation, the second stage 2 further includes a support 22, one end of the support 22 is disposed on the first stage 1, and the other end is disposed on the end surface of the jig 21 close to the cabinet 3. The support 22 has a simple structure and a low construction cost. Further, the bracket 22 includes: the number of the horizontal beams 221 is three, and the horizontal beams are sequentially arranged at intervals along the horizontal direction and are sequentially arranged at intervals along the direction away from the end face of the jig 21, one of the horizontal beams is directly welded on the end face of the jig 21 and is used as deformation, and the number of the horizontal beams is adaptively arranged according to the bearing requirement. As shown in fig. 1, the connecting beams 222 are distributed at two end portions of the horizontal beam 221, one end of the connecting beam 222 is disposed on the horizontal beam 221, the other end of the connecting beam 222 is disposed on the jig 21, and the horizontal beam and the jig are connected into a whole by the connecting beams 222, so that the stress strength of the whole second carrier is enhanced.

On the basis of the above embodiment, as a further limitation, the first reinforcing member 23 is disposed at the connection position of the connecting beam 222 and the jig 21, specifically, the first reinforcing member 23 is a square steel structure, and is disposed along the height direction of the jig 21, so as to prevent the end surface of the connecting beam 222 from causing stress concentration on the jig 21, which leads to deformation of the end surface of the jig 21. The end face deformation of the jig 21 may cause the flange of the end cover 4 to be unable to fit with the mounting surface, thereby causing the jig 21 to be unable to be used. The first reinforcing member 222 reinforces the structural strength of the jig 21, thereby preventing the above-mentioned problems.

On the basis of the above embodiment, as a further limitation, the jig 21 is further provided with a plurality of second reinforcing members 24 on the end surface close to the cabinet 3. Because of the installation plate structure of the jig 21 in this embodiment, in order to ensure that the installation position has sufficient supporting strength, the second reinforcement member 24 is provided, and the second reinforcement member 24 is also a common square steel structure or angle steel, and can also be a reinforcement plate welded on the end face of the jig 21.

In addition to the above embodiments, as a further limitation, the first stage 1 includes: at least two parallel supporting beams 11, the end surfaces of the supporting beams in the length direction are abutted against the end surfaces of the jigs 21 close to the cabinet 3. As shown in fig. 3, the cabinet frame is installed between the two support beams 11, and after the cabinet is installed, when the end cover is installed, the problem of one end of the tool tilting up can be prevented by using the weight of the cabinet and the beam. As a variation, the number of the support beams 11 may be adaptively set according to the support requirements of the cabinet.

On the basis of the above embodiment, as a further limitation, the support beam 11 is provided with a through hole, and the horizontal beam 221 passes through the through hole and is connected to a plurality of support beams 11. The horizontal beam is directly connected on the supporting beam in a penetrating mode, movement between the horizontal beams can be limited through the supporting beam, restraint on the horizontal beams is increased, and bearing stability of the second carrying platform is further improved.

In addition to the above embodiments, as a further limitation, the first stage 1 further includes: the two ends of the beam 12 are connected to the opposite sides of the two support beams 11, respectively. As shown in fig. 4, the number of the cross beams 12 is three, and the cross beams are sandwiched between two support beams to ensure a constant distance between the two support beams 11, so as to prevent the deformation thereof and the installation failure.

On the basis of the above embodiment, as a further limitation, the height of the center of the cabinet 3 is equal to the height h from the upper end face of the support beam 11 to the center of the mounting portion. The equal central height ensures that the state when the cabinet 3 and the end cover 4 are installed in the data cabin is consistent with the state on the tool as far as possible, so that the length of the original line is ensured, the equal central height is also suitable for the tool, and the design change problem of subsequent assembly is reduced.

Example 2

The embodiment provides a data cabin auxiliary installation system, which comprises any one of the above-mentioned tooling structures for data cabins, and has all the technical advantages thereof, and the details are not repeated herein.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (14)

1. A tooling structure for a data compartment, comprising:

a first carrier (1) on which a cabinet (3) is suitable to be placed;

the second carrying platform (2) is arranged on the first carrying platform (1), a jig (21) is arranged on the second carrying platform (2), the jig (21) is provided with a mounting surface suitable for mounting an end cover (4) of the data cabin, and an included angle is formed between the mounting surface and the horizontal plane.

2. Tool arrangement for a data pod according to claim 1, characterized in that the tool (21) has a mounting portion (211) which is shaped on a side of the mounting portion (211) facing away from the cabinet (3).

3. A tooling structure for a data pod according to claim 2 wherein the end cap (4) has a flange adapted to fit over the body of the data pod, the mounting portion (21) conforming to the shape of the flange.

4. The tooling structure for data bays as claimed in claim 3, wherein the mounting portion (211) is configured in a circular arc shape, and is provided with a plurality of mounting holes (212) along its circumferential direction.

5. A tooling structure for a data pod according to any of claims 1-4 wherein the angle between the mounting surface and the horizontal plane is 90 degrees.

6. The tooling structure for data bays as claimed in claim 5, wherein the second carrier (2) further comprises a support (22), one end of the support (22) is arranged on the first carrier (1), and the other end is arranged on the end face of the fixture (21) close to the cabinet (3).

7. A tooling structure for data capsules according to claim 6, characterized in that said support (22) comprises:

a plurality of horizontal beams (221) which are arranged at intervals in sequence along the horizontal direction;

the connecting beams (222) are distributed at two end parts of the horizontal beam (221), one end of each connecting beam (222) is arranged on the horizontal beam (221), and the other end of each connecting beam is arranged on the jig (21).

8. The tooling structure for a data bay according to claim 7, wherein a first stiffener (23) is provided at the junction of the connection beam (222) and the jig (21).

9. A tooling structure for data cabins according to claim 5, characterized in that the jig (21) is further provided with a plurality of second stiffeners (24) on the end surface close to the cabinet (3).

10. Tool arrangement for a data pod according to claim 7, characterized in that the first carrier (1) comprises:

the support beam structure comprises at least two support beams (11) which are arranged in parallel, and the end faces of the support beams in the length direction abut against the end faces, close to the cabinet (3), of the jigs (21).

11. A tooling structure for data cabins according to claim 10, characterized in that the supporting beams (11) are provided with through holes, through which the horizontal beams (221) are threaded onto several supporting beams (11).

12. The tooling structure for data bays according to claim 10, characterized in that said first stage (1) further comprises:

and the two ends of the cross beam (12) are respectively connected to the opposite side surfaces of the two supporting beams (11).

13. A tooling structure for a data compartment according to any one of claims 6 to 12, wherein the height of the center of the cabinet (3) is equal to the height from the upper end face of the support beam (11) to the center of the mounting portion.

14. A data compartment auxiliary mounting system, comprising:

the tooling structure for data bays of any one of claims 1-13.

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