CN219082224U - Saddle structure installed at top of underwater data center tank body - Google Patents

Abstract

The utility model relates to a saddle structure arranged at the top of a tank body of an underwater data center, which comprises a tank body, cabin external auxiliary equipment and a saddle main body, wherein a sealed cabin is arranged in the tank body, the cabin external auxiliary equipment is arranged outside the tank body, the saddle main body is fixedly arranged outside the peripheral wall of the top of the tank body, the cabin external auxiliary equipment is fixedly arranged above the saddle main body, and the saddle main body is positioned between the tank body and the cabin external auxiliary equipment. According to the method, the saddle main body is arranged above the tank body, and the outdoor auxiliary equipment is arranged above the saddle main body, so that the arrangement is concise and compact, and the space utilization rate of the underwater data center to the sea area is higher; the combined force of the cabin external auxiliary equipment and the saddle main body is utilized to offset the upward part of buoyancy of the tank body in water, so that the stress state of the tank body is reduced, and the underwater data center is safer; the saddle is simple in structure and easy to construct, effectively saves the construction period of the underwater data center, and improves the overall cost performance.

Description

Saddle structure installed at top of underwater data center tank body

Technical Field

The utility model relates to the technical field of underwater data centers, in particular to a saddle structure arranged at the top of a tank body of an underwater data center.

Background

The underwater data center is generally composed of a tank body and corresponding auxiliary equipment, wherein the auxiliary equipment comprises, but is not limited to, a pump system, a cooling water system and the like; the equipment bears gravity, buoyancy, wave force and the like in water, and meanwhile, pipelines such as cables/liquid pipelines and the like are often connected with equipment in the tank body of the underwater data center, so that a firm and stable base structure is fixed, and the stability of the position of the equipment and the tank body of the underwater data center is ensured. The auxiliary equipment support base can be distributed in the water area around the tank body, and the support base and the tank body can be connected into a whole by utilizing the structural strength of the tank body. The former requires more sea area plane projection space, and the latter can effectively reduce the required sea area.

In addition, the existing underwater data center tank body generally adopts a pressure container tank body, the pressure container tank body is often provided with a saddle at the bottom, the saddle at the bottom is used for overcoming the gravity of the tank body and the buoyancy of the tank body in water, and the top of the traditional tank body is not provided with the saddle; as shown in FIG. 1, because the water displacement of the underwater data center tank body in water is large, in general, the buoyancy F1 of the underwater data center tank body is far greater than the gravity G1, the whole underwater data center is stressed upwards, and the tank body usually uses the working condition in water as an extremely dangerous working condition relative to the working condition in air, so that the external load resistance of the structure is higher.

Disclosure of Invention

Therefore, the technical problem to be solved by the utility model is to overcome the defects that the tank body of the underwater data center is placed in water, the area occupied by auxiliary equipment is too large, the whole stress of the traditional tank body is upward, and the external load resistance requirement on the structure is stronger, so that the saddle structure arranged at the top of the tank body of the underwater data center is provided.

In order to solve the problems, the utility model provides a saddle structure installed on the top of a tank body of an underwater data center, wherein a sealed cabin is arranged in the tank body, the saddle structure comprises a saddle main body fixedly arranged on the outer side of the top of the tank body, and the saddle main body is suitable for supporting and installing auxiliary equipment outside the cabin.

Optionally, the saddle body comprises:

the cabin exterior auxiliary equipment is fixed on the bearing top plate;

the support web is fixedly arranged below the bearing top plate, the lower edge of the support web is concavely arranged to form an arc connecting edge matched with the periphery of the tank body, and the arc connecting edge is fixedly connected with the peripheral wall of the tank body.

Optionally, the radian of the arc-shaped connecting edge is 180 degrees, and the arc-shaped connecting edge is fixedly connected to the peripheral wall of the upper half part of the tank body.

Optionally, the saddle body further comprises:

reinforcing rib plates are fixedly arranged on two sides of the supporting web plate, and are fixedly connected between the bearing top plate and the supporting web plate.

Optionally, a plurality of reinforcing rib plates are respectively arranged on two sides of the supporting web along the length direction of the supporting web.

Optionally, the saddle body comprises a first saddle body and a second saddle body which are arranged at intervals along the axial direction of the tank body, and the first saddle body and the second saddle body are suitable for supporting and fixing two ends of the auxiliary equipment outside the cabin.

Optionally, the bearing roof is the level setting, the supporting web is vertical setting, just bearing roof and supporting web are all followed the radial direction extension setting of jar body.

Optionally, the off-board auxiliary device is fixed to the saddle body by welding.

Optionally, the saddle body is fixed to the tank by welding and/or bolts.

Optionally, the off-board auxiliary equipment comprises a pump module and/or a condenser module.

The utility model has the following advantages:

1. according to the saddle structure arranged at the top of the tank body of the underwater data center, the auxiliary equipment outside the cabin is arranged above the saddle main body, so that the structure is simple and compact, the stability of the relative position of the auxiliary equipment and the tank body of the data center is ensured, the sea demand of the whole data cabin is effectively saved, and the cost of the underwater data center is lower.

2. According to the saddle structure arranged at the top of the tank body of the underwater data center, the saddle main body is arranged above the tank body, so that the outdoor auxiliary equipment is arranged above the saddle main body, and the combined force of the outdoor auxiliary equipment and the saddle main body, which is downward, can effectively offset the combined force of the tank body in water, improves the stress state of the tank body, and ensures that the combined force of the underwater data center is safer.

3. According to the saddle structure arranged at the top of the tank body of the underwater data center, the auxiliary equipment outside the cabin is stressed and transferred to the bearing top plate of the saddle main body below, and then transferred to the supporting web plate and the reinforcing rib plate below by the bearing top plate; the supporting webs are kept continuous and serve as main stress structures for bearing vertical loads of auxiliary equipment outside the cabin and stress and moment along the lateral direction of the tank body; the reinforcing rib plates are distributed on two sides of the supporting web plate, so that on one hand, the integral rigidity of the supporting top plate and the supporting web plate is improved, buckling of the supporting web plate in a stressed state is avoided, and meanwhile, vertical load of the equipment and stress and moment of the equipment along the axis direction of the tank body are borne.

4. According to the saddle structure arranged at the top of the tank body of the underwater data center, when the tank body is placed in water, the tank body is subjected to water pressure along the axial direction, the limiting condition of the structural strength of the saddle structure is buckling, the saddle body is welded on the tank body and can be in butt joint with the circumferential reinforcing ribs of the tank body, so that the buckling resistance of the tank body is improved, and the underwater data center is safer.

5. The saddle structure arranged at the top of the tank body of the underwater data center is simple in structure, convenient to manufacture, process, examine and maintain, simple in saddle main body, capable of realizing stability of the auxiliary equipment outside the cabin relative to the position of the tank body, guaranteeing structural strength of the equipment base, improving the overall external force resistant state of the tank body, easy to understand, manufacture, process, examine and maintain, simple, convenient and feasible, and high in cost performance.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the stress of a tank in water in the prior art;

FIG. 2 is a schematic diagram of the forces exerted by the extravehicular auxiliary apparatus and saddle body in water in an embodiment of the present application;

FIG. 3 is a side view of a saddle structure mounted to the top of an underwater data center tank according to one embodiment of the present application;

FIG. 4 is a schematic view of the structure in the V-V direction in FIG. 3;

FIG. 5 is a front view of a saddle structure mounted to the top of an underwater data center tank according to one embodiment of the present application;

FIG. 6 is a side view of the saddle body in an embodiment of the present application;

FIG. 7 is a schematic structural view of the saddle body shown in the direction A in FIG. 6;

FIG. 8 is a cross-sectional view of the saddle body B-B in FIG. 6;

reference numerals illustrate:

1. a tank body; 2. an off-board auxiliary device; 3. a saddle body; 31. supporting a top plate; 32. a support web; 33. reinforcing rib plates; 3a, a first saddle body; 3b, a second saddle body.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. 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 utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

As shown in fig. 1 to 8, the embodiment of the application provides a saddle structure installed at the top of a tank body of an underwater data center, a sealed cabin is arranged in the tank body 1 and is in cylindrical arrangement, the saddle structure comprises a saddle main body 3 fixedly arranged at the outer side of the top of the tank body 1, the saddle main body 3 is suitable for supporting and installing an external auxiliary device 2, the external auxiliary device 2 is located outside the tank body 1, the saddle main body 3 is fixedly arranged at the outer side of the top of the tank body 1 and is located at the outer side of the peripheral wall of the tank body 1, the external auxiliary device 2 is fixedly arranged above the saddle main body 3, and the saddle main body 3 is located between the tank body 1 and the external auxiliary device 2.

Because the water displacement of the tank body 1 of the underwater data center in water is large, as shown in fig. 1, in general, the buoyancy force F1 of the tank body is far greater than the gravity force G1, and the tank body usually takes the working condition in water as an extremely dangerous working condition relative to the working condition in air (only by G1), and the resultant force is generally upward when the tank body is placed in water; as shown in fig. 2, the gravity G2 of the auxiliary equipment 2 and saddle body 3 in the water is generally G2> F2, and the resultant force is downward, compared to the buoyancy force F2.

Because the extreme working condition of the tank body 1 is upward resultant force, obviously, the utility model places the cabin external auxiliary equipment 2 and the saddle main body 3 above the tank body 1, and the upward resultant force of the tank body 1 in water can be effectively counteracted by utilizing the downward resultant force of the cabin external auxiliary equipment 2 and the saddle main body 3 in water, so that the stressed state of the tank body 1 is improved.

According to the saddle body 3 additionally arranged above the tank body 1, the cabin external auxiliary equipment 2 can be installed above the saddle body 3, the downward resultant force of the cabin external auxiliary equipment 2 and the saddle body 3 can be utilized, the upward resultant force of the tank body 1 in water can be effectively counteracted, the stress state of the tank body 1 is improved, and the resultant force of an underwater data center is safer.

Optionally, in this embodiment, the bottom of jar body 1 still is provided with the bottom saddle, the bottom saddle can realize jar body 1 and foundation structure's connection, and this application is through setting up saddle main part 3 at jar body 1 top, as the base of cabin external auxiliary assembly 2, bears the weight of cabin external auxiliary assembly 2, various external forces such as buoyancy to on will this force transfer to jar body 1, then by jar body 1's bottom saddle transfer to foundation structure on, stability and security are higher.

In this embodiment, the saddle body 3 is made of a metal or alloy material with a relatively high density, and preferably, the saddle body 3 is made of steel.

As shown in fig. 2 to 7, the saddle body 3 comprises a bearing top plate 31 and a supporting web 32, and the outdoor auxiliary equipment 2 is fixed on the bearing top plate 31; the support web 32 is fixedly arranged between the lower part of the bearing top plate 31 and the tank body 1, the lower edge of the support web 32 is concavely arranged to form an arc connecting edge matched with the periphery of the tank body 1, and the arc connecting edge is fixedly connected with the peripheral wall of the tank body 1.

In this embodiment, the arc of the arc-shaped connecting edge is not less than 60 °, and is symmetrically connected to the tank 1 about a vertical bisector of the tank 1. Preferably, the arc connecting edge has an arc of 180 degrees and is fixedly connected to the peripheral wall of the upper half part of the tank body 1, so as to improve the stability of the connection between the saddle body 3 and the tank body 1.

Optionally, the supporting top plate 31 is horizontally arranged, the supporting web 32 is vertically arranged, and the supporting top plate 31 and the supporting web 32 are both arranged along the radial direction of the tank body 1 in an extending manner. The upper end of the supporting web 32 is fixedly connected to the middle position of the bottom wall of the bearing top plate 31, and the arc-shaped connecting edge of the lower end is fixedly connected to the top peripheral wall of the tank body 1.

Optionally, the width of the bearing top plate 31 in the radial direction of the tank body 1 is smaller than the diameter of the tank body 1, and two ends of the supporting webs 32 are both close to the central axis of the tank body 1.

Optionally, the width of the supporting web 32 in the radial direction of the tank body 1 is gradually increased from the top bearing plate 31 to the tank body 1, opposite edges of the supporting web 32 are gradually widened away from the top bearing plate 31 to the tank body 1 of the pressure vessel, the supporting web 3 is in a plate-like structure resembling an isosceles trapezoid, and the lower bottom edge of the supporting web is set to be arc-shaped to form the arc-shaped connecting edge.

As shown in fig. 1 to 7, the saddle body 3 further includes reinforcing ribs 33, the reinforcing ribs 33 are fixedly disposed on two sides of the supporting web 32, the reinforcing ribs 33 are fixedly connected between the bearing top plate 31 and the supporting web 32, the reinforcing ribs 33 are provided with a plurality of reinforcing ribs 33, and the reinforcing ribs 33 are disposed at intervals along the length direction of the supporting web 32 so as to ensure the overall structural strength of the bearing top plate 31 and the supporting web 32, and optionally, the reinforcing ribs 33 are symmetrically distributed on two sides of the supporting web 32.

The external auxiliary equipment 2 is stressed and transferred to the bearing top plate 31 of the lower saddle body 3, and then transferred to the lower supporting web plate 32 and the reinforcing rib plate 33 by the bearing top plate 31; the support web 32 is kept continuous and serves as a main stress structure for bearing the vertical load of the auxiliary equipment 2 outside the cabin and the stress and moment along the lateral direction of the tank body 1; the reinforcing rib plates 33 are distributed on two sides of the supporting web plates 32, so that on one hand, the overall rigidity of the supporting top plate 31 and the supporting web plates 32 is improved, buckling of the supporting top plate 31 and the supporting web plates 32 in a stressed state is avoided, and meanwhile, vertical load of the equipment and stress and moment of the equipment along the axial direction of the tank body 1 are borne.

As shown in fig. 4, the saddle body 3 comprises a first saddle body 3a and a second saddle body 3b which are arranged at intervals along the axial direction of the tank body 1, and the first saddle body 3a and the second saddle body 3b are suitable for supporting and fixing at two ends of the cabin exterior auxiliary equipment 2 and the tank body 1; the first saddle main body 3a and the second saddle main body 3b which are respectively arranged at the two ends of the cabin outer auxiliary equipment 2 and the tank body 1 balance the overall stress of the underwater data center, so that the resultant force is kept at the central position, and the stress stability of the underwater data center is improved.

The saddle main body 3 has a simple structure, is very convenient from manufacturing, processing, checking and maintaining, realizes the stability of the outdoor auxiliary equipment 2 relative to the position of the tank body 1 by using the simple saddle main body 3, ensures the structural strength of the equipment base, improves the integral external force resistant state of the tank body 1, is easy to understand, manufacture, process, check and maintain, is simple and easy to implement, and has high cost performance.

As shown in fig. 2 to 6, the auxiliary equipment 2 is fixed to the saddle body 3 by welding and/or bolts; the saddle body 3 is fixed on the tank body 1 by welding; the saddle main body 3 is welded on the tank body 1 and can be in butt joint with the annular reinforcing ribs of the tank body 1, so that the boundary size of the cabin body wall plate unit is effectively reduced, the buckling resistance of the tank body 1 is improved, and the whole structural system is safer.

As shown in fig. 2 and 3, the off-board auxiliary equipment 2 includes, but is not limited to, a pump module and/or a condenser module.

In this embodiment, the working principle of the saddle structure mounted on the top of the tank body of the underwater data center is as follows:

the outdoor auxiliary equipment 2, such as a pump module, a condenser module and the like, bears gravity in the air, bears gravity, buoyancy and wind wave force in the water, maintains the relative position with the underwater data center tank 1 for effectively fixing various auxiliary equipment, ensures the stable implementation of the functions, and connects the lower part of the outdoor auxiliary equipment 2 with the bearing top plate 31 of the saddle main body 3 in a welding or bolt connection mode. The stress of the auxiliary equipment 2 outside the cabin is transferred to the bearing top plate 31 of the saddle main body 3 below through a welding line or a bolt structure, and then transferred to the supporting web plate 32 and the reinforcing rib plate 33 below through the bearing top plate 31. The supporting web 32 is used as a main force transmission structure for bearing the vertical load of the equipment and the stress and moment along the lateral direction of the tank body 1, the reinforcing rib plates 33 are distributed on two sides of the supporting web 32 for bearing the vertical load of the equipment and the stress and moment of the equipment along the axial direction of the tank body 1, and the external force and the external moment born by the two are transmitted to the tank body 1 and then transmitted to an underwater foundation by the tank body 1.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (9)

1. The saddle structure is arranged at the top of a tank body of an underwater data center, and a sealed cabin is arranged in the tank body (1), and is characterized by comprising a saddle main body (3) fixedly arranged at the outer side of the top of the tank body (1), wherein the saddle main body (3) is suitable for supporting and installing auxiliary equipment (2) outside the cabin; the saddle body (3) comprises:

a bearing top plate (31), wherein the outdoor auxiliary equipment (2) is fixed on the bearing top plate (31);

the support web (32) is fixedly arranged below the bearing top plate (31), the lower edge of the support web (32) is concavely arranged to form an arc-shaped connecting edge matched with the periphery of the tank body (1), and the arc-shaped connecting edge is fixedly connected with the peripheral wall of the tank body (1).

2. Saddle structure mounted on top of an underwater data centre tank according to claim 1, characterized in that the arc of the arc connecting edge is 180 ° and is fixedly connected to the peripheral wall of the upper half of the tank (1).

3. Saddle structure mounted on top of an underwater data centre tank according to claim 1, characterized in that the saddle body (3) further comprises:

reinforcing rib plates (33) are fixedly arranged on two sides of the supporting web plates (32), and the reinforcing rib plates (33) are fixedly connected between the bearing top plate (31) and the supporting web plates (32).

4. A saddle structure for installation on top of an underwater data center tank according to claim 3, characterized in that a plurality of reinforcing ribs (33) are provided on both sides of the supporting web (32) along the length direction of the supporting web (32).

5. Saddle structure mounted on top of a tank of an underwater data centre according to any of the claims 1-4, characterized in that the saddle body (3) comprises a first saddle body (3 a) and a second saddle body (3 b) arranged at intervals along the axial direction of the tank (1), the first saddle body (3 a) and the second saddle body (3 b) being adapted to be supported and fixed at both ends of the extravehicular auxiliary equipment (2).

6. Saddle structure mounted on top of a tank of an underwater data centre according to any of the claims 1-4, characterized in that the bearing roof (31) is arranged horizontally, the supporting web (32) is arranged vertically, and both the bearing roof (31) and the supporting web (32) are arranged extending in the radial direction of the tank (1).

7. Saddle structure mounted on top of a tank of an underwater data centre according to any of the claims 1-4, characterized in that the extra-cabin auxiliary equipment (2) is fixed to the saddle body (3) by welding and/or bolts.

8. Saddle structure mounted on top of a tank of an underwater data centre according to any of the claims 1-4, characterized in that the saddle body (3) is fixed to the tank (1) by welding.

9. Saddle structure mounted on top of a tank of an underwater data centre according to any of the claims 1-4, characterized in that the off-board auxiliary equipment (2) comprises a pump module and/or a condenser module.

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