CN114164855B - But angle regulation's data center suction bucket basis under water - Google Patents

Abstract

The invention discloses an angle-adjustable underwater data center suction barrel foundation, which comprises a data center body, a bearing foundation, a supporting mechanism, a lifting mechanism and a control mechanism, wherein the data center body is arranged on the bearing foundation through the supporting mechanism and the lifting mechanism; the supporting mechanism comprises a bearing bracket and a supporting bracket, the bearing bracket is connected with the bearing foundation through the supporting bracket, the data center body is arranged on the bearing bracket, and the supporting bracket can be lifted along the vertical direction; the control mechanism is connected with the lifting mechanism, so that the lifting mechanism drives the supporting bracket. The invention has the advantages of adjustable angle and stability.

Description

But angle regulation's data center suction bucket basis under water

Technical Field

The invention relates to the technical field of underwater structures and data centers, in particular to an angle-adjustable underwater data center suction barrel foundation.

Background

With the advent of the big data age, people have transferred and stored data exponentially, and accordingly, the number of data centers, which are carriers for storing and calculating such data, has also rapidly increased. Although underwater data centers have many advantages over traditional indoor data centers, such as low energy consumption, high security, etc., the relative underwater data centers have high requirements for stability (the bevel angle relative to the horizontal cannot exceed 5 °). Therefore, how to improve the stability of the underwater data center is one of the technical difficulties that people pay attention to today.

Further, the method comprises the steps of,

due to the intricate and complex marine environment, the seabed sludge has poor bearing capacity, and the underwater data center has the risk of overturning along with the scouring action of ocean waves and ocean currents. Therefore, the underwater data center must also have an angle adjustment capability so that it can adjust the support angle as the seabed sludge fluctuates, prevent capsizing, and ensure that its inclination angle with respect to the horizontal plane does not exceed 5 ° all the time.

Disclosure of Invention

The invention aims to solve the technical problem of providing an angle-adjustable underwater data center suction barrel foundation which can have an angle adjusting function and stability.

In order to solve the technical problems, the invention provides an angle-adjustable underwater data center suction barrel foundation, which comprises a data center body,

the data center body is arranged on the bearing foundation through the supporting mechanism and the lifting mechanism;

the supporting mechanism comprises a bearing bracket and a supporting bracket, the bearing bracket is connected with the bearing foundation through the supporting bracket, the data center body is arranged on the bearing bracket, and the supporting bracket can be lifted along the vertical direction;

the control mechanism is connected with the lifting mechanism, so that the lifting mechanism drives the supporting bracket.

Preferably, the support bracket comprises a first support rod and a second support rod, and the first support rod and the second support rod are arranged in a mutually crossed and hinged mode.

Preferably, the bearing foundation is provided with a sliding rail, the first supporting rod and the second supporting rod are installed on the sliding rail, and the first supporting rod and the second supporting rod can be mutually close to or far away from each other along the sliding rail.

Preferably, the bearing bracket is a polygonal bracket arranged transversely, and the bearing foundation, the supporting bracket and the lifting mechanism are all positioned at each corner of the bearing bracket so that the bearing bracket can incline relative to the horizontal plane.

Preferably, the bearing support is further provided with a support column, the support column is connected with the data center body, and the support column is obliquely arranged.

Preferably, the lifting mechanism comprises a hydraulic rod and a hydraulic cylinder, the hydraulic cylinder is connected with the hydraulic rod, one end of the hydraulic rod is installed on the bearing foundation, and the other end of the hydraulic rod is installed on the supporting bracket.

Preferably, the support brackets are arranged on the bearing foundation in parallel, a connecting cross rod is arranged between the support brackets, and the other end of the hydraulic rod is arranged on the connecting cross rod.

Preferably, the control mechanism comprises a motor and a controller, wherein the controller is connected with the motor, and the motor is connected with the hydraulic cylinder.

Preferably, the load bearing foundation comprises a suction type foundation, which is a cylindrical structure.

Preferably, the data center body is provided with an input cable and a power output line, and the power output line is connected with the control mechanism.

The implementation of the invention has the following beneficial effects:

the invention sets the bearing foundation, the supporting mechanism, the lifting mechanism and the control mechanism; the supporting mechanism comprises a bearing support and a supporting support, the bearing support is connected with the bearing foundation through the supporting support, the data center body is installed on the bearing support, the supporting support can be lifted along the vertical direction, each part of the bearing support can be lifted or lowered along with the fluctuation of the sludge of the seabed, the supporting angle is adjusted, so that the inclination angle of the data center body relative to the horizontal plane is not more than 5 degrees, and the angle adjusting function of the data center body is realized.

Meanwhile, the control mechanism is connected with the lifting mechanism to drive the supporting bracket to lift so as to provide power for the lifting mechanism to drive the supporting bracket to lift, and the control mechanism is used for sending an adjusting signal to enable the lifting mechanism to continuously drive the supporting bracket to lift according to the seabed fluctuation so as to enable the data center body to be always kept in a horizontal state and promote the stability of the data center body.

Drawings

FIG. 1 is a block diagram of an angle adjustable underwater data center suction bucket foundation in accordance with the present invention;

FIG. 2 is a partial block diagram of the angle adjustable underwater data center suction bucket foundation A of FIG. 1;

FIG. 3 is a side view of the base of the angle adjustable underwater data center suction bucket of FIG. 1;

fig. 4 is a top view of the adjustable angle underwater data center suction bucket foundation of fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present invention, are used only with reference to the drawings of the present invention, and are not meant to be limiting in any way.

Referring to fig. 1 to 4, the invention provides an angle-adjustable underwater data center suction barrel foundation, which comprises a data center body 1.

Regarding the data center body 1, since it needs to collect data effectively in a relatively stable environment, most of the installation modes are submerged, the data center body 1 is submerged in water to collect data, the data center body 1 is arranged in a marine vessel cabin to collect data, the seabed is treated first, an installation platform is arranged, and then the data center body 1 is installed. Although the above-mentioned method can make the data center body 1 collect data effectively, it is relatively high in cost and can only be applied to specific submarine environments.

Therefore, the invention adopts the mode that the bearing foundation 2 is buried in the seabed sludge to realize the installation of the data center body 1, so as to reduce the installation cost and enable the data center body 1 to be installed in different seabed environments (only the seabed has sludge with a certain depth, so that the bearing foundation 2 can be buried in the sludge). However, this also results in the load-bearing foundation 2 being susceptible to the influence of the seabed sludge, so that the load-bearing foundation 2 may be inclined with the depth change of the seabed sludge, and the stability of data acquisition of the data center body 1 is seriously affected.

In order to solve the problems, the invention provides a bearing foundation 2, a supporting mechanism 3, a lifting mechanism 4 and a control mechanism 5, wherein the data center body 1 is arranged on the bearing foundation 2 through the supporting mechanism 3 and the lifting mechanism 4; the supporting mechanism 3 comprises a bearing bracket 31 and a supporting bracket 32, the bearing bracket 31 is connected with the bearing foundation 2 through the supporting bracket 32, the data center body 1 is installed on the bearing bracket 31, the supporting bracket 32 can be lifted along the vertical direction, each part of the bearing bracket 31 can be respectively lifted or lowered along with the fluctuation of the sludge of the seabed, and the supporting angle is adjusted, so that the data center body 1 is always in a stable horizontal state, and the inclination angle of the data center body relative to the horizontal plane is not more than 5 degrees, thereby realizing the angle adjusting function of the data center body 1.

Meanwhile, the control mechanism 5 is connected with the lifting mechanism 4 to drive the supporting bracket 32 to lift and provide power for the lifting mechanism 4, and an adjusting signal is sent through the control mechanism 5 to enable the lifting mechanism 4 to continuously drive the supporting bracket 32 to lift according to the seabed fluctuation, and the supporting angle is adjusted at any time, so that the data center body 1 can always keep a horizontal state, and the stability of the data center body is improved.

Specifically, in connection with fig. 1 to 3, in order to enable the support bracket 32 to be liftable along the vertical direction, the support bracket 32 includes a first support rod 321 and a second support rod 322, and the first support rod 321 and the second support rod 322 are arranged in a mutually crossed and hinged manner, so that the support bracket 32 can be compressed or stretched, and the lifting function is realized. Further, a sliding rail 6 is provided on the bearing foundation 2, one end of the first supporting rod 321 and one end of the second supporting rod 322 are installed on the sliding rail 6, and the other ends of the first supporting rod 321 and the second supporting rod 322 are installed on the bearing bracket 31; when the support bracket 32 needs to be lifted, the first support rod 321 and the second support rod 322 can approach each other along the sliding rail 6, so that the support bracket 32 is in a stretched state; when the support bracket 32 needs to be lowered, the first support bar 321 and the second support bar 322 can be far away from each other along the sliding rail 6, so that the support bracket 32 is in a compressed state.

In order to drive the support bracket 32 to lift, the lifting mechanism 4 includes a hydraulic rod 41 and a hydraulic cylinder 42, wherein one end of the hydraulic rod 41 is installed on the bearing foundation 2, and the other end is installed on the support bracket 32 to drive the support bracket 32 to lift; the hydraulic cylinder 42 is connected to the hydraulic rod 41, and the piston inside the hydraulic rod 41 moves up and down with the pressure by the pressure change in the hydraulic cylinder 42, thereby realizing the expansion and contraction of the hydraulic rod 41. Further, the control mechanism 5 includes a motor 51 and a controller 52, the controller 52 is connected to the motor 51, and the motor 51 is connected to the hydraulic cylinder 42, so that the controller 52 can drive the motor 51 to increase or decrease the pressure in the hydraulic cylinder 42. The controller 52 may be provided with a sensor for sensing a change of the seabed sludge and feeding back the change to the controller 52, so that the controller 52 drives the motor 51 to adjust the expansion and contraction of the hydraulic rod 41, so that the data center body 1 can always maintain a horizontal state.

Preferably, in order to further enhance the supporting capability of the supporting brackets 32, in combination with fig. 1 to 3, the supporting brackets 32 are juxtaposed on the carrying foundation 2, and in order to enable the supporting brackets 32 on the same carrying foundation 2 to be lifted synchronously, connecting cross bars 33 are provided between the supporting brackets 32. As one embodiment, the first support rod 321 is connected to another first support rod 321 through a connecting cross rod 33, and the second support rod 322 is connected to another second support rod 322 through a connecting cross rod 33, so that the support bracket 32 can be lifted and lowered synchronously, and meanwhile, each part is stable in structure. Preferably, the other end of the hydraulic rod 41 is mounted on the connecting cross bar 33 to synchronously drive the support brackets 32 on the same load-bearing foundation 2.

On the other hand, in order to make the support bracket 32 raise or lower each part of the support bracket 31 respectively, and to accurately adjust the support angle, the support bracket 31 is a polygonal bracket that is transversely disposed, and the load-bearing base 2, the support bracket 32 and the lifting mechanism 4 are all located at each corner of the support bracket 31, so that the support bracket 31 can tilt relative to the horizontal plane, thereby realizing the angle adjusting function. Specifically, when the silt of the seabed changes to cause the data center body 1 to incline along with the bearing bracket 31, each supporting bracket 32 can be adjusted to respectively rise or fall according to the inclination amplitude of the bearing bracket 31, so that the bearing bracket 31 is reset towards the horizontal direction. Preferably, the bearing bracket 31 is further provided with a supporting column 311, and the supporting column 311 is connected with the data center body 1 to provide a supporting function for the data center body 1, so that the data center body 1 is not easy to separate from the bearing bracket 31. The support columns 311 may be disposed obliquely to better support the data center body 1.

It should be noted that, the control mechanism 5 is separately and independently disposed, so that the hydraulic rods 41 on each carrying base 2 can be respectively adjusted, so that the supporting bracket 32 can be respectively lifted or lowered.

Furthermore, the load-bearing foundation 2 comprises a suction-type foundation, which is of a cylindrical structure so that it can sink into the seabed sludge by its own weight; moreover, the staff can pump out the seawater in the bearing foundation 2 through the vacuum pump, so that pressure difference is generated between the inside and the outside of the bearing foundation 2, the bearing foundation 2 is pressed into the seabed silt through the pressure difference, the suction type foundation and the seabed are integrated into a whole, and the influence of the seabed movement on the data center body 1 can be effectively reduced. Preferably, the data center body 1 is provided with an input cable for connecting with an external power source, and a power output line, and the power output line is connected with the control mechanism 5, so that each component in the control mechanism 5 is charged and can continuously operate.

The working principle of the invention is as follows:

when the silt of the seabed changes to cause the data center body 1 to incline along with the bearing bracket 31, the control mechanism 5 drives the lifting mechanism 4 to drive the supporting brackets 32 positioned at each part of the bearing bracket 31, so that each supporting bracket 32 correspondingly lifts or descends according to the inclination condition of the bearing bracket 31, the supporting angle is adjusted, the bearing bracket 31 is reset towards the horizontal direction, and the inclination angle of the data center body 1 relative to the horizontal plane is ensured not to exceed 5 degrees.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the invention, such changes and modifications are also intended to be within the scope of the invention.

Claims (6)

1. An angle-adjustable underwater data center suction barrel foundation comprises a data center body, and is characterized in that,

the data center body is arranged on the bearing foundation through the supporting mechanism and the lifting mechanism;

the supporting mechanism comprises a bearing bracket and a supporting bracket, the bearing bracket is connected with the bearing foundation through the supporting bracket, the data center body is arranged on the bearing bracket, and the supporting bracket can be lifted along the vertical direction;

the control mechanism is connected with the lifting mechanism so that the lifting mechanism drives the supporting bracket;

the support bracket comprises a first support rod and a second support rod, and the first support rod and the second support rod are arranged in a mutually crossed and hinged mode;

the lifting mechanism comprises a hydraulic rod and a hydraulic cylinder, the hydraulic cylinder is connected with the hydraulic rod, one end of the hydraulic rod is arranged on the bearing foundation, and the other end of the hydraulic rod is arranged on the supporting bracket;

the support brackets are arranged on the bearing foundation in parallel, a connecting cross rod is arranged between the support brackets, and the other end of the hydraulic rod is arranged on the connecting cross rod;

the control mechanism comprises a motor and a controller, wherein the controller is connected with the motor, and the motor is connected with the hydraulic cylinder.

2. The angle-adjustable underwater data center suction bucket foundation of claim 1, wherein the load bearing foundation is provided with a slide rail, the first support bar and the second support bar are mounted on the slide rail, and the first support bar and the second support bar can be moved toward or away from each other along the slide rail.

3. The angle-adjustable underwater data center suction bucket foundation of claim 1, wherein the load bearing support is a laterally disposed polygonal support, the load bearing foundation, support and lifting mechanism being located at each corner of the load bearing support such that the load bearing support is tiltable relative to a horizontal plane.

4. The angle-adjustable underwater data center suction bucket foundation of claim 1, wherein the bearing support is further provided with a support column, the support column is connected with the data center body, and the support column is arranged in an inclined manner.

5. The angle adjustable underwater data center suction bucket foundation of claim 1 wherein the load bearing foundation comprises a suction type foundation that is a cylindrical structure.

6. The angle adjustable underwater data center suction bucket foundation of claim 1 wherein the data center body is provided with an input cable and a power output line, the power output line being connected to the control mechanism.