CN216783799U - Seabed data center platform and seabed data center platform system - Google Patents

Abstract

The utility model discloses a submarine data center platform and a submarine data center platform system, wherein the submarine data center platform comprises a platform body, a submarine I DC component and a communication component, the platform body is provided with a plurality of platform cabins, and the platform body is suitable for floating on the sea; the subsea icdc assembly is adapted to be disposed below a sea surface, the subsea icdc assembly having a number of subsea compartments adapted to house equipment servers; the communicating component comprises at least one communicating channel, the communicating channel is arranged between the platform body and the seabed I DC component and is communicated with the platform cabin and the seabed cabin, and a maintainer can conveniently overhaul the server from the platform cabin to the seabed cabin, so that the operation that the server floats up from the seabed during overhaul is avoided, the overhaul period is effectively prolonged, and the overhaul difficulty is correspondingly reduced.

Description

Submarine data center platform and submarine data center platform system

Technical Field

The utility model relates to the technical field of underwater structures and data centers, in particular to a submarine data center platform and a submarine data center platform system.

Background

With the rapid development of world information technology, people have quickly stepped into the cloud era, the demand on data storage and computing resources is larger and larger, the scale of a data center is larger and larger, the energy consumption of the data center is increased rapidly at an astonishing speed, besides a small part of electric energy consumed by IT equipment is dissipated in an electromagnetic radiation mode, most of electric energy is finally converted into heat energy, and the power consumption of cooling equipment of the data center accounts for more than 40% of the total power consumption due to the huge heat dissipation demand.

The small data platform comprises a platform and a seabed IDC module, wherein an auxiliary module of the seabed data center is arranged on a deck of the platform, the seabed IDC module is fixed below the platform and is detachably connected with a conduit frame on the platform, the auxiliary module comprises a service cabin, equipment such as a transformer, a distribution board, a diesel generator, a monitoring system and the like are arranged in the service cabin, the auxiliary module also comprises a life auxiliary module, the IDC seabed module comprises a frame type pressure-resistant cabin array consisting of the pressure-resistant cabin array and a support frame, and a cooling system, an equipment cabin and a ballast water cabin are arranged in the IDC seabed module.

However, the small data platform needs to adopt the hoisting device to hoist the seabed IDC module onto the platform for maintenance, the maintenance difficulty is high, and the maintenance period is long.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to solve the technical problems that in the prior art, the seabed IDC module needs to be hoisted to the platform for maintenance, so that the maintenance period is long and the maintenance difficulty is high.

To this end, the present invention provides a subsea data center platform comprising:

a platform body having a plurality of platform compartments, the platform body adapted to float on the sea surface;

a subsea IDC assembly adapted to be disposed below a sea surface, the subsea IDC assembly having a number of subsea compartments adapted to house equipment servers;

a communication assembly including at least one communication channel disposed between the platform body and the subsea IDC assembly and in communication with the platform chamber and the subsea chamber.

Optionally, in the above subsea data center platform, the communication assembly further includes a lifting transmission member, the lifting transmission member is disposed in the communication channel, and the lifting transmission member reciprocates between the platform body and the subsea IDC assembly.

Optionally, in the above-mentioned offshore data center platform, the communication assembly further includes a storage chamber, and the storage chamber is disposed in the communication channel.

Optionally, in the above subsea data center platform, the subsea IDC assembly further comprises a first peripheral tank body disposed outside the subsea compartment, and a subsea ballast tank cavity is formed between the first peripheral tank body and the subsea compartment, the subsea ballast tank cavity being adapted to store or discharge seawater.

Optionally, in the above subsea data center platform, the subsea IDC assembly further includes a traveling channel, and two ends of the traveling channel are connected to the two subsea cabinets.

Optionally, in the above subsea data center platform, the subsea IDC assembly further comprises a cooling chamber disposed within the subsea ballast compartment cavity, the cooling chamber being adjacent to the subsea compartment, the cooling chamber being adapted to cool the subsea compartment.

Optionally, in the above subsea data center platform, a pump body and a heat exchanger are arranged in the cooling compartment, and the pump body is communicated with the heat exchanger and external seawater.

A submarine data center platform system comprises the submarine data center platform.

Optionally, the above-mentioned subsea data center platform system, further comprising an energy device,

the energy source device includes: a wind power generation mechanism (61), a photovoltaic power generation mechanism (62), and a wave power generation mechanism (62); the wind power generation mechanism is arranged on the platform body, the photovoltaic power generation mechanism is arranged on the platform body, and the wind wave power generation mechanism is arranged on the seabed IDC component.

Optionally, the above-mentioned subsea data center platform system, further comprises a climbing life saving device (71), comprising: the rescue boat comprises a truss mechanism and a rescue boat, wherein the truss mechanism is arranged on the platform body, and the rescue boat is suitable for being hung on the truss mechanism.

The technical scheme provided by the utility model has the following advantages:

1. the utility model provides a seabed data center platform which comprises a platform body, a seabed IDC assembly and a communication assembly, wherein the platform body is provided with a plurality of platform cabins, and the platform body is suitable for floating on the sea; the subsea IDC assembly adapted to be disposed below a sea surface, the subsea IDC assembly having a number of subsea compartments adapted to house equipment servers; the communication assembly includes at least one communication channel disposed between the platform body and the subsea IDC assembly and in communication with the platform chamber and the subsea chamber.

The submarine data center platform of this structure, intercommunication passageway set up between platform body and seabed IDC subassembly, and with platform cabin and seabed cabin intercommunication, make things convenient for maintainer to overhaul the server in going to the seabed cabin from the platform cabin to the operation that need go up the server from the seabed when having avoided overhauing has effectively improved the cycle of overhauing, has also correspondingly reduced the degree of difficulty of overhauing.

2. The seabed data center platform system comprises the seabed data center.

According to the seabed data center platform system with the structure, after seawater is discharged from the seabed IDC assembly, the facility can freely sail on the sea surface with the help of the tug, scientific researchers can be arranged on the platform body, the facility can be deployed in different sea areas, and the research of the scientific researchers on the different sea areas is facilitated.

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 subsea data center platform system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a subsea IDC assembly in a subsea data center platform system according to an embodiment of the present invention;

fig. 3 is a schematic distribution diagram of platform cabins in a subsea data center platform system according to an embodiment of the present invention.

Description of reference numerals:

1-a platform body; 11-a distribution equipment bay; 12-a central control room; 13-air conditioning equipment room; 14-a fire-fighting equipment room; 15-emergency diesel generator cabin; 16-a second peripheral cabin;

2-a subsea IDC assembly; 21-a subsea compartment; 22-a first peripheral compartment; 23-a walking channel; 24-a cooling chamber;

31-a communication channel; 32-a lifting transmission member; 33-a storage chamber;

41-a wind power generation mechanism; 42-a photovoltaic power generation mechanism; 43-wave power generation mechanism;

51-a truss mechanism; 52-lifeboat.

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.

Furthermore, 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

The present embodiment provides a subsea data center platform, as shown in fig. 1 to 3, including: platform body 1, seabed IDC subassembly 2 and intercommunication subassembly, platform body 1 floats on the sea, platform body 1 has a plurality of platform cabins, the platform cabin on the platform body 1 includes distribution equipment cabin 11, central control room 12, air conditioning equipment room 13, fire-fighting equipment room 14 and emergent diesel generator cabin 15 etc. distribution equipment cabin 11 is used for providing the electric energy for seabed IDC subassembly 2, central control room 12 is responsible for regulating and control seabed IDC subassembly 2, air conditioning equipment room 13 is used for adjusting the temperature of seabed IDC subassembly 2, fire-fighting equipment room 14 is used for preventing the emergence of conflagration, set up diesel generator in emergent diesel generator cabin 15, be used for preventing the condition that the server appears the outage because of having a power failure. Auxiliary facilities such as power distribution, central control and the like are arranged above the sea surface, so that the expensive and limited space of the seabed is not occupied, and the space value utilization rate of the seabed is maximized; the subsea IDC assembly 2 is adapted to be positioned below the sea surface, the subsea IDC assembly 2 having a number of subsea compartments 21, the subsea compartments 21 being adapted to house equipment servers; the communication assembly comprises at least one communication channel 31, the communication channel 31 being arranged between the platform body 1 and the subsea IDC assembly 2 and communicating with the platform chamber and the subsea chamber 21.

As shown in fig. 1 and 2, in the subsea data center platform provided in this embodiment, the communication assembly further includes a lifting transmission member 32 and a storage chamber 33, the lifting transmission member 32 is disposed in the communication channel 31, the lifting transmission member 32 reciprocates between the platform body 1 and the subsea IDC assembly 2, and the lifting transmission member 32 is an elevator; the seabed data center comprises two maintenance modes of being incapable of entering a cabin or being capable of entering the cabin, wherein personnel safety risks are high or the cost is high, however, operation and maintenance personnel of the device can conveniently maintain the server from the platform cabin to the seabed cabin, the problem of pain points of the seabed data center which are inconvenient to maintain is solved, the storage chamber 33 is arranged in the communicating channel 31, the diesel storage chamber is arranged in the storage chamber, the space is fully and effectively utilized, and the self-service time of the device is greatly prolonged.

As shown in fig. 1 and 2, the subsea IDC assembly 2 of the subsea data center platform of the present embodiment further includes a first peripheral tank 22, the first peripheral tank 22 is disposed outside the subsea compartment 21, and a subsea ballast tank cavity is formed between the first peripheral tank and the subsea compartment 21, and is adapted to store or discharge seawater.

As shown in fig. 1 and 2, in the present embodiment, the subsea IDC assembly 2 further includes a traveling channel 23 and a cooling chamber 24, and both ends of the traveling channel 23 are connected to the two subsea chambers 21. A cooling compartment 24 chamber is disposed within the subsea ballast tank cavity, the cooling compartment 24 chamber being adjacent to the subsea compartment 21, the cooling compartment 24 chamber being adapted to cool the subsea compartment 21. A pump body and a heat exchanger are arranged in the cooling cabin 24, and the pump body is communicated with the heat exchanger and external seawater; the server on the seabed utilizes the cold energy of the seawater to dissipate heat, has extremely low PUE, and also effectively reduces the energy consumed by utilizing the refrigeration of the air conditioner.

As shown in fig. 3, the seabed data center platform provided in this embodiment further includes a second peripheral cabin 16, the second peripheral cabin 16 is disposed outside the platform body 1, a platform ballast tank cavity is formed between the second peripheral cabin 16 and the seabed cabin 21, and the platform ballast tank cavity can store or discharge seawater. The platform body 1 and the submarine cabin 21 adopt a double-layer cabin wall structure, so that the capacity of the facility for dealing with extreme weather at sea is increased, expensive server equipment in the facility is well protected by the double-layer cabin wall, and the risk of accidental rupture of the cabin body is reduced, so that the facility can better ensure the safety of data center user server equipment and digital assets; the first peripheral cabin body 22 and the second peripheral cabin body 16 also adopt a double-layer cabin wall structure, the facility can automatically float upwards and sink by adjusting the seawater amount in the platform ballast cabin cavity and the seabed ballast cabin cavity, and when the facility is installed, distributed or overhauled and recycled, a large floating crane engineering ship is not needed, so that the expensive offshore construction cost is saved; the gravity center of the facility can be adjusted by adjusting the seawater volume of each ballast tank cavity, when the platform is dragged to a preset laying sea area, the seawater volume in the ballast tank cavities is increased, so that the seabed IDC assembly 2 is laid to the seabed, stable laying is realized, and an environment is provided for stable operation of the seabed server.

The seabed data center platform that this embodiment provided, intercommunication channel 31 sets up between platform body 1 and seabed IDC subassembly 2, and with platform cabin and seabed cabin 21 intercommunication, makes things convenient for the maintainer to overhaul the server in going down seabed cabin 21 to need the operation of server from seabed come-up when having avoided overhauing, effectively improved the cycle of overhauing, also correspondingly reduced the degree of difficulty of overhauing.

Example 2

The present embodiment provides a subsea data center platform system, as shown in fig. 1 to 3, including the subsea data center platform of embodiment 1.

As shown in fig. 1, the seabed data center platform system provided by the present embodiment further includes an energy device, where the energy device includes a wind power generation mechanism 41, a photovoltaic power generation mechanism 42, and a wave power generation mechanism 43; the wind power generation mechanism 41 is arranged on the platform body 1, the photovoltaic power generation mechanism 42 is arranged on the platform body 1, and the wave power generation mechanism 43 is arranged on the seabed IDC component 2.

As shown in fig. 1, the seabed data center platform system provided by the present embodiment further includes a climbing life saving device, which includes: a truss mechanism 51 and a lifeboat 52, the truss mechanism 51 being arranged on the platform body 1, the lifeboat 52 being adapted to be suspended from the truss mechanism 51.

When the server at the seabed needs to be overhauled, the maintainer finds the communicating channel 31 from the cabin of the platform body 1, then takes the elevator to go down to the seabed cabin 21, overhauls the server, and the maintainer does not need to contact seawater in the whole course and does not need to wear diving equipment, thereby reducing the overhauling difficulty and the overhauling period.

According to the seabed data center platform system provided by the embodiment, after seawater is discharged from the seabed IDC assembly 2, the facility can freely sail on the sea with the help of the tug, scientific researchers can be arranged on the platform body 1, the facility can be deployed in different sea areas, and the research of the scientific researchers on the different sea areas is facilitated.

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 utility model.

Claims (10)

1. A subsea data center platform, comprising:

a platform body (1) having a plurality of platform compartments, the platform body (1) being adapted to float on the sea surface;

a subsea IDC assembly (2) adapted to be disposed below the sea surface, the subsea IDC assembly (2) having a number of subsea compartments (21), the subsea compartments (21) adapted to house equipment servers;

a communication assembly comprising at least one communication channel (31), the communication channel (31) being arranged between the platform body (1) and the subsea IDC assembly (2) and communicating with the platform compartment and the subsea compartment (21).

2. Subsea data center platform according to claim 1, characterized in that the connectivity assembly further comprises a lifting transport (32), the lifting transport (32) being arranged within the connectivity channel (31), the lifting transport (32) being reciprocating between the platform body (1) and the subsea IDC assembly (2).

3. The subsea data center platform of claim 2, wherein the communication assembly further comprises a storage compartment (33), the storage compartment (33) being disposed within the communication channel (31).

4. Subsea data center platform according to any of claims 1-3, characterized in that the subsea IDC assembly (2) further comprises a first peripheral tank body (22), the first peripheral tank body (22) being arranged outside the subsea compartment (21), the first peripheral tank body (22) and the subsea compartment (21) forming a subsea ballast tank cavity therebetween, the subsea ballast tank cavity being adapted to hold or expel seawater.

5. Subsea data center platform according to claim 4, characterized in that the subsea IDC assembly (2) further comprises a walking channel (23), both ends of the walking channel (23) being connected to both of the subsea compartments (21).

6. The subsea data center platform of claim 5, wherein the subsea IDC assembly (2) further comprises a cooling compartment (24) chamber, the cooling compartment (24) chamber being disposed within the subsea ballast compartment cavity, the cooling compartment (24) chamber being adjacent to the subsea compartment (21), the cooling compartment (24) chamber being adapted to cool the subsea compartment (21).

7. The subsea data center platform of claim 6, wherein the cooling pod (24) chamber has a pump body and a heat exchanger, the pump body in communication with the heat exchanger and ambient seawater.

8. A subsea data center platform system comprising the subsea data center platform of any of claims 1-7.

9. The subsea data center platform system of claim 8, further comprising an energy device,

the energy source device includes: a wind power generation mechanism (41), a photovoltaic power generation mechanism (42), and a wave power generation mechanism (43); the wind power generation mechanism (41) is arranged on the platform body (1), the photovoltaic power generation mechanism (42) is arranged on the platform body (1), and the wave power generation mechanism (43) is arranged on the seabed IDC assembly (2).

10. The subsea data center platform system of claim 9, further comprising a climbing life saving device (71) comprising: a truss mechanism (51) and a lifeboat (52), wherein the truss mechanism (51) is arranged on the platform body (1), and the lifeboat (52) is suitable for being hung on the truss mechanism (51).

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