CN114390824A

CN114390824A - Big data transmission storage device of computer

Info

Publication number: CN114390824A
Application number: CN202210012511.XA
Authority: CN
Inventors: 常亮; 郭宇飞; 闫文刚
Original assignee: Jiamusi University
Current assignee: Jiamusi University
Priority date: 2022-01-05
Filing date: 2022-01-05
Publication date: 2022-04-22
Anticipated expiration: 2042-01-05
Also published as: CN114390824B

Abstract

The invention discloses a large data transmission storage device of a computer, which comprises a supporting framework, wherein protective sealing plates are fixedly arranged on six lateral surfaces of the outer side of the supporting framework, the supporting framework and the protective sealing plates form a machine room together, a lifting underframe is connected to the inner side of the supporting framework in a sliding manner, the inner sides of four corners of the lifting underframe are tightly and slidably attached to the outer sides of vertical shafts of the supporting framework, and a supporting bottom plate is fixedly arranged at the top end of the lifting underframe. The protection capability of the server room is improved.

Description

Big data transmission storage device of computer

Technical Field

The invention relates to the technical field of computers, in particular to a large data transmission and storage device of a computer.

Background

Server rooms, rooms designed for continuous operation of computer servers, are usually air conditioned, buildings or sites dedicated for this purpose are called data centers, and the computers in the server room are usually operated remotely using headless computers through remote management software such as KVM switches or Secure shells, VNCs, remote desktops, etc.;

however, the existing server cannot be moved after being installed in the server room, and in the normal use process of the server room, when water pipes are broken or other emergencies occur in the building, once water flows into the server room, the server is immersed by water without resistance, so that the server is damaged, and the protection capability of the server room is reduced.

Disclosure of Invention

The invention provides a large data transmission and storage device of a computer, which can effectively solve the problems that a server provided in the background technology cannot move after being installed in a machine room, and in the normal use process of the server machine room, once water floods into the server machine room due to the fact that a water pipe is broken or other emergencies happen in the building, the server is immersed in the water without resistance, so that the server is damaged, and the protection capability of the server machine room is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: the large data transmission and storage device of the computer comprises a supporting framework, wherein protective sealing plates are fixedly mounted on six lateral surfaces of the outer side of the supporting framework, the supporting framework and the protective sealing plates jointly form a machine room, a lifting underframe is connected to the inner side of the supporting framework in a sliding mode, the inner sides of four corners of the lifting underframe are closely attached to the outer side of a vertical shaft of the supporting framework in a sliding mode, and a supporting bottom plate is fixedly mounted at the top end of the lifting underframe;

the inner side of the protective sealing plate is provided with a floating lifting balance protective mechanism which is used for driving the bottom plate of the machine room to wholly ascend through the combined action of buoyancy and the balance weight transverse block when a large amount of external water flows into the machine room, so that the server case can be always positioned above the water surface to prevent the server case from being damaged due to soaking;

the top of the supporting bottom plate is provided with a double-position internal circulation mechanism, the flow of air in the machine room is actively promoted, a small amount of residual dust and moisture in the machine room are collected and isolated in the circulation process of air flow, and the temperature in the machine room is simply adjusted;

the cable lifting supporting mechanism is arranged at the top of the inner side of the supporting framework, the cable in the machine room is arranged at the top through the lifting cable supporting structure, and the extra cables are supported in an auxiliary mode in the lifting process of the server case, so that the cables in the machine room are kept orderly all the time.

Preferably, the floating lifting balance protection mechanism comprises an installation lattice frame, a porous support plate, a placing convex plate, a guide corner block, a floating square plate, a guide vertical box, a sliding vertical block, a counterweight sliding box, a counterweight transverse block, a connecting end block, a guide pulley, a driving rope, a support oblique column, a floating bottom box and a connecting side claw;

the middle part of the inner side of the supporting bottom plate is fixedly connected with an installation grid frame, the middle part of the top end of the installation grid frame and two corners at one end of the installation grid frame are symmetrically embedded with porous supporting plates, the two sides of the top end of the installation grid frame corresponding to the side positions of the porous supporting plates are embedded with placing convex plates, the four corners at the bottom end of the inner side of the placing convex plates are fixedly connected with guide corner blocks, and the positions corresponding to the positioning positions of the guide corner blocks on the inner side of the placing convex plates are movably connected with floating square plates;

the middle parts of the protective sealing plates positioned on three sides of the top of the mounting grid frame are symmetrically embedded with vertical guiding boxes, the middle part of the inner side of each vertical guiding box is connected with vertical sliding blocks in a sliding manner, one side of each two adjacent vertical sliding blocks is fixedly connected with a counterweight sliding box at a position corresponding to the side surface of each vertical guiding box, counterweight transverse blocks are uniformly arranged on the inner side of each counterweight sliding box, and two ends of the top of the outer side of each counterweight sliding box are fixedly connected with connecting end blocks;

the positions of the edge part of the top of the inner side of the supporting framework, which correspond to the two ends of the counterweight sliding box, are rotatably connected with guide pulleys through connecting seats, the middle part of the top end of the connecting end block is fixedly connected with a driving cable, and the tail end of the driving cable penetrates through the supporting bottom plate and is fixedly connected with the lifting underframe;

supporting oblique columns are uniformly and fixedly connected to the bottom end of the mounting grid frame through the partition plate, a floating bottom box is arranged at the position, corresponding to the middle of the bottom end of the porous supporting plate, of the bottom end of the mounting grid frame, and connecting side claws are uniformly and fixedly connected to the top end of the floating bottom box along the circumferential direction;

the middle of the top end of the placing convex plate is provided with a server case.

Preferably, liquid guide rectangular grooves are uniformly formed in the tops of the four side surfaces of the placing convex plate, the four side surfaces of the floating square plate are tightly attached to the inner wall of the placing convex plate in a sliding manner, the four side surfaces of the top of the floating square plate are uniformly provided with the liquid guide rectangular grooves, and the material density of the floating square plate is smaller than that of water;

the top surface of placing the convex plate is positioned on the top surface of the installation frame, and the top surface of the porous supporting plate and the top surface of the installation frame are mutually flush.

Preferably, the side face of the counterweight sliding box is closely attached to the side face of the guide vertical box in a sliding manner, a tapered strip is arranged in the middle of the top end of the counterweight transverse block, a tapered groove is formed in the middle of the bottom end of the counterweight transverse block, and the driving cable is sequentially coated on the outer sides of the two guide pulleys;

the buoyancy of the floating bottom box can be transferred to act on the lifting underframe, supporting small columns are evenly arranged at the top end of the floating bottom box, a gap is reserved between the top surface of the floating bottom box and the bottom surface of the porous supporting plate, and drain holes are formed in the bottom of the protective sealing plate.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the floating lifting balance protection mechanism is arranged, and through the mutual matching of all components in the floating lifting balance protection mechanism, when the server room is invaded by water, the height drop design of the porous supporting plate and the convex plate effectively prevents the water from contacting the bottom of the server at the initial stage of rushing into the server room, after a large amount of outside water floods into the server room, the bottom of the server room can be integrally lifted through the traction force generated by the prefabricated balance weight in the server room and the buoyancy generated by the floating bottom box, meanwhile, due to the participation of buoyancy, the bottom layer of the server room can not be immersed to the upper layer of the supporting bottom plate, the server case is ensured to be always positioned above the water surface, the phenomenon that the server case is damaged due to being immersed in water in the using process is effectively avoided, and the protection capability of the server room is improved;

simultaneously through the floating design of the movable of the square board that floats, make and place the flange and can assist water infiltration downwards at the initial stage that the water gushes into the server computer lab, and at the ascending stage of server machine case, then increase the overall structure intensity of placing the flange through the square board that floats to the packing of placing the flange inside, the buoyancy of the square board that floats simultaneously also can effectual balance place the gravity that the flange received, and then some improvement server machine case lifting stability.

2. The double-station internal circulation mechanism is arranged, through mutual matching of all components in the double-station internal circulation mechanism, in the normal operation process of the server, the fan at double stations continuously operates to drive airflow at upper and lower layers in the server room to synchronously circulate, dust at the bottom of the server room is collected and adsorbed in the airflow circulation process, and the dust in the airflow is adsorbed by using the characteristic of an adsorption cotton thread after absorbing water, so that the air cleanliness in the server room is effectively improved, meanwhile, the continuous adsorption airflow at the lower layer of the server room is used, the dust raised by workers when the workers walk in the server room is effectively prevented from being randomly diffused, and the cleanliness of the air in the server room is kept for a long time;

simultaneously, through the mixed processing of the upper-layer airflow and the lower-layer airflow inside the server room, the hot air on the upper layer and the cold air on the lower layer are fully mixed in the processing process, so that the processed air can keep a lower temperature, the heat distribution inside the server room is balanced, the faults caused by uneven heat distribution inside the server room are effectively avoided, and the use safety of the server room is effectively improved.

3. The cable lifting supporting mechanism is arranged, and through mutual matching among components in the cable lifting supporting mechanism, the wire box is lowered to the lowest position in the wiring process of the server case in the server room, so that the process of bundling and orderly arranging cables is more convenient, the convenience in the process of building the server room is effectively improved, and meanwhile, the tension of the cables is adjusted in the process of lifting the wire box through the telescopic design of the thin waist guide wheels, so that the cables are always kept tight;

simultaneously through the design of spacing cable, fixed standpipe and the combination of butt joint card post rigid-flexible, utilize the flexibility characteristic of spacing cable, simple rotation through the driving-disc alright realize the synchronous design of multiunit butt joint card post, fix the wire box through the restraint that produces behind fixed standpipe and the butt joint card post lock, further improved the convenience that the server computer lab found.

In conclusion, through the mutual cooperation among the components in the floating lifting balance protection mechanism, the two-position internal circulation mechanism and the cable lifting support mechanism, the flexibility of the server room in the use process is effectively improved through the lifting design of the bottom of the server room, so that the influence of external water on the server after invading the server room is effectively prevented, a small amount of moisture at the bottom of the server room can be air-dried through circulating airflow, meanwhile, the ground drying process after accumulated water at the bottom of the server room is discharged can be accelerated, the functions of the server room are further expanded, meanwhile, through the telescopic design of the thin waist guide wheel, the cable is supported through the cooperation between the elastic force accumulated by the support spring and the thin waist guide wheel in the lifting process of the server room, so that the cable can also be kept in a tight state in the lifting process of the server room, the service performance of the server room is further improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the floating bottom box installation of the present invention;

FIG. 3 is a schematic diagram of the structure of the present invention handling vertical box installation;

FIG. 4 is a schematic structural diagram of the floating lift balance protection mechanism of the present invention;

FIG. 5 is a schematic view of the construction of the pilot horn installation of the present invention;

FIG. 6 is a schematic structural view of the dual position internal circulation mechanism of the present invention;

FIG. 7 is a schematic view of the internal structure of the treatment shaft of the present invention;

FIG. 8 is a schematic view of the construction of the attachment of the connecting metal strips of the present invention;

FIG. 9 is a schematic structural view of the cable lift support mechanism of the present invention;

FIG. 10 is a schematic view of the slip cross block mounting configuration of the present invention;

reference numbers in the figures: 1. a support framework; 2. a protective sealing plate; 3. lifting the underframe; 4. a support base plate;

5. a floating lifting balance protection mechanism; 501. installing a lattice frame; 502. a porous support plate; 503. placing the convex plate; 504. a guide corner block; 505. a floating square plate; 506. a vertical guiding box; 507. sliding the vertical block; 508. a counterweight slide box; 509. a counterweight transverse block; 510. connecting the end block; 511. a guide pulley; 512. a drive cable; 513. supporting the batter post; 514. a floating bottom box; 515. connecting the side claws;

6. a dual-position internal circulation mechanism; 601. processing the vertical box; 602. a liquid guide frame; 603. a collection box; 604. installing a bottom frame; 605. a support chassis; 606. installing a vertical column; 607. adsorbing the middle frame; 608. adsorbing cotton threads; 609. connecting the metal strips; 610. isolating the top frame; 611. a waterproof breathable net; 612. lifting a pull rod; 613. a protective top net; 614. a lower adsorption fan; 615. a suction elbow; 616. a suction bottom box; 617. an upper circulating fan; 618. an air guide square box; 619. a long air suction pipe; 620. a suction top frame;

7. a cable lifting support mechanism; 701. installing a transverse plate; 702. installing a top box; 703. supporting the top wheel; 704. fixing the vertical pipe; 705. butting the clamping columns; 706. a guide bottom wheel; 707. a wire box; 708. connecting the arc-shaped blocks; 709. a limiting cable; 710. mounting a suspension; 711. a drive wheel; 712. a drive disc; 713. a limiting hole; 714. a limit bolt; 715. a guiding long box; 716. a sliding transverse block; 717. a guide post; 718. a support spring; 719. a connecting frame; 720. a thin waist guide wheel;

8. a server chassis.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-10, the invention provides a technical scheme, a large data transmission storage device of a computer, which comprises a supporting framework 1, wherein protective sealing plates 2 are fixedly mounted on six lateral surfaces of the outer side of the supporting framework 1, the supporting framework 1 and the protective sealing plates 2 jointly form a machine room, the inner side of the supporting framework 1 is slidably connected with a lifting underframe 3, the inner sides of four corners of the lifting underframe 3 are closely and slidably attached to the outer sides of vertical shafts of the supporting framework 1, and a supporting bottom plate 4 is fixedly mounted at the top end of the lifting underframe 3;

the floating lifting balance protection mechanism 5 is arranged on the inner side of the protection sealing plate 2 and is used for driving the machine room bottom plate to integrally lift up under the combined action of buoyancy and the balance weight transverse block 509 when a large amount of external water flows into the machine room, so that the server case 8 can be always positioned above the water surface to prevent the server case 8 from being damaged due to soaking;

the top of the supporting bottom plate 4 is provided with a double-position internal circulation mechanism 6, and by actively promoting the flow of air in the machine room, a small amount of residual dust and moisture in the machine room are collected and isolated in the circulation process of air flow, and the temperature in the machine room is simply adjusted;

the cable lifting supporting mechanism 7 is arranged at the top of the inner side of the supporting framework 1, cables in the machine room are arranged at the top through the lifting cable supporting structure, and the extra cables are supported in an auxiliary mode in the ascending process of the server case 8, so that the cables in the machine room are kept orderly all the time.

The floating lifting balance protection mechanism 5 comprises a mounting lattice frame 501, a porous support plate 502, a placing convex plate 503, a guide corner block 504, a floating square plate 505, a guide vertical box 506, a sliding vertical block 507, a counterweight sliding box 508, a counterweight transverse block 509, a connecting end block 510, a guide pulley 511, a driving rope 512, a support oblique column 513, a floating bottom box 514 and a connecting side claw 515;

the middle part of the inner side of the supporting bottom plate 4 is fixedly connected with a mounting grid frame 501, the middle part of the top end and two corners of one end of the mounting grid frame 501 are symmetrically embedded with a porous supporting plate 502, the positions of two sides of the top end of the mounting grid frame 501, which correspond to the side surfaces of the porous supporting plate 502, are embedded with placing convex plates 503, the four corners of the bottom end of the inner side of the placing convex plates 503 are fixedly connected with guide corner blocks 504, the positions, which correspond to the positioning positions of the guide corner blocks 504, of the inner side of the placing convex plates 503 are movably connected with floating square plates 505, the tops of the four side surfaces of the placing convex plates 503 are uniformly provided with liquid guide rectangular grooves, the four side surfaces of the floating square plates 505 are tightly attached to the inner walls of the placing convex plates 503 in a sliding manner, the four side surfaces of the tops of the floating square plates 505 are uniformly provided with liquid guide rectangular grooves, and the material density of the floating square plates 505 is less than that of water;

the top surface of the placing convex plate 503 is positioned on the top surface of the installation frame 501, and the top surface of the porous support plate 502 and the top surface of the installation frame 501 are mutually flush;

the middle parts of the protective sealing plates 2 positioned on three sides of the top of the mounting grid frame 501 are symmetrically embedded with vertical guide boxes 506, the middle parts of the inner sides of the vertical guide boxes 506 are slidably connected with vertical sliding blocks 507, one side of each two adjacent vertical sliding blocks 507 is fixedly connected with a counterweight sliding box 508 corresponding to the side position of the vertical guide box 506, counterweight transverse blocks 509 are uniformly placed on the inner sides of the counterweight sliding boxes 508, and two ends of the top of the outer sides of the counterweight sliding boxes 508 are fixedly connected with connecting end blocks 510;

the positions of the edge part of the top of the inner side of the support framework 1, which correspond to the two ends of the counterweight sliding box 508, are rotatably connected with guide pulleys 511 through connecting seats, the middle part of the top end of the connecting end block 510 is fixedly connected with a driving cable 512, and the tail end of the driving cable 512 penetrates through the support base plate 4 and is fixedly connected with the lifting underframe 3;

the bottom end of the installation lattice frame 501 is uniformly and fixedly connected with a support oblique column 513 at a clapboard, the bottom end of the installation lattice frame 501 corresponding to the middle position of the bottom end of the porous support plate 502 is provided with a floating bottom box 514, the top end of the floating bottom box 514 is uniformly and fixedly connected with a connecting side claw 515 along the circumferential direction, the side surface of the counterweight sliding box 508 is tightly attached to the side surface of the guide vertical box 506 in a sliding manner, the middle part of the top end of the counterweight transverse block 509 is provided with a tapered strip, the middle part of the bottom end of the counterweight transverse block 509 is provided with a tapered groove, and a driving cable 512 is sequentially coated outside the two guide pulleys 511;

the buoyancy of the floating bottom box 514 can be transmitted to act on the lifting underframe 3, the top end of the floating bottom box 514 is uniformly provided with supporting small columns, a gap is reserved between the top surface of the floating bottom box 514 and the bottom surface of the porous supporting plate 502, the bottom of the protective sealing plate 2 is provided with a drain hole, through the mutual matching of all components in the floating lifting balance protection mechanism 5, when the server room is invaded by water, the height difference design of the porous supporting plate 502 and the placing convex plate 503 effectively prevents the water from contacting the bottom of the server at the initial stage of invading the server room, and after a large amount of outside water invades the server room, the bottom of the server room can be integrally lifted through the traction force generated by the prefabricated counterweight in the server room and the buoyancy generated by the floating bottom box 514, and simultaneously, the bottom of the server can not be immersed into the upper layer of the supporting bottom plate 4 due to the participation of the buoyancy, further, the server case 8 is ensured to be always positioned above the water surface, the phenomenon that the server case 8 is not damaged due to water immersion in the use process is effectively avoided, and the protection capability of the server room is improved;

meanwhile, through the movable floating design of the floating square plate 505, the placing convex plate 503 can assist water to permeate downwards at the initial stage of water rushing into the server room, and at the stage of upward lifting of the server case 8, the whole structural strength of the placing convex plate 503 is increased by filling the floating square plate 505 into the placing convex plate 503, meanwhile, the buoyancy of the floating square plate 505 can also effectively balance the gravity borne by the placing convex plate 503, and further the lifting stability of the server case 8 is improved;

the middle of the top end of the placing convex plate 503 is provided with a server case 8;

the double-position internal circulation mechanism 6 comprises a processing vertical box 601, a liquid guide frame 602, a collection box 603, a mounting bottom frame 604, a supporting bottom frame 605, a mounting vertical column 606, an adsorption middle frame 607, an adsorption cotton line 608, a connecting metal strip 609, an isolation top frame 610, a waterproof breathable net 611, a lifting rod 612, a protective top net 613, a lower adsorption fan 614, an air suction bent pipe 615, an air suction bottom box 616, an upper circulating fan 617, an air guide square box 618, an air suction long pipe 619 and an air suction top frame 620;

the two corners of the top of the supporting bottom plate 4 are respectively provided with a processing vertical box 601, the bottom of the inner side of the processing vertical box 601 is fixedly connected with a liquid guide frame 602, the inner side of the processing vertical box 601 is slidably connected with a collecting box 603 corresponding to the bottom of the liquid guide frame 602, the middle part of the inner part of the processing vertical box 601 is fixedly connected with an installation bottom frame 604, the inner part of the processing vertical box 601 corresponding to the top of the installation bottom frame 604 is provided with a supporting bottom frame 605, the four corners of the top end of the supporting bottom frame 605 are respectively fixedly connected with an installation vertical column 606, the outer side of the installation vertical column 606 corresponding to the top of the supporting bottom frame 605 is uniformly and fixedly connected with an adsorption middle frame 607 at equal intervals, the inner side of the adsorption middle frame 607 is uniformly connected with adsorption cotton lines 608, the middle parts of the bottom ends of the adsorption cotton lines 608 are respectively connected to the tops of the connecting metal strips 609, the top surface of the collecting box 603 is tightly jointed with the top surface of the liquid guide frame 602, the outer side surface of the collecting box 603 is tightly jointed with the inner wall of the processing vertical box 601, a pull handle is arranged at the top of one side of the collecting box 603;

both ends of the adsorption cotton thread 608 incline to the connecting metal strip 609, and the adsorption cotton thread 608 keeps a wet state in the using process;

an isolation top frame 610 is sleeved at the position, corresponding to the top of the processing vertical box 601, of the top of the outer side of the installation vertical column 606, a waterproof breathable net 611 is embedded in the middle of the inner side of the isolation top frame 610, a lifting rod 612 is fixedly installed at the top end of the isolation top frame 610 through screws, and a protective top net 613 is fixedly installed at the top end of the processing vertical box 601;

a lower-layer adsorption fan 614 is fixedly connected to one side of the outer portion of the processing vertical box 601, which corresponds to the top of the liquid guide frame 602, the input end of the lower-layer adsorption fan 614 is electrically connected with the output end of an external power supply, the middle portion of one end of the lower-layer adsorption fan 614 is fixedly connected with an air suction bent pipe 615, the tail end of the air suction bent pipe 615 corresponds to four corners of the inner side of the lifting bottom frame 3 and is fixedly connected with air suction bottom boxes 616, the air suction bottom boxes 616 are communicated with each other through pipelines, and the side surfaces of the air guide square boxes 618 are tightly attached to the mounting bottom frame 604, the supporting bottom frame 605, the adsorption middle frame 607 and the isolation top frame 610;

an upper circulating fan 617 is fixedly connected to the top of the other side outside the processing vertical box 601, the input end of the upper circulating fan 617 is electrically connected to the output end of an external power supply, an air guide square box 618 is fixedly connected to the position of the inner side of the processing vertical box 601 corresponding to the outer side of the outlet end of the upper circulating fan 617, an air suction long pipe 619 is fixedly connected to the middle of one end of the upper circulating fan 617, an air suction top frame 620 is fixedly connected to the position of the tail end of the air suction long pipe 619 corresponding to the inner side of the support frame 1, through the mutual cooperation of the components inside the dual-position internal circulating mechanism 6, in the normal operation process of the server, the air flow of the upper layer and the lower layer inside the server room is driven to synchronously circulate through the continuous operation of the fan of the dual-station, the dust at the bottom of the server room is collected and adsorbed in the air flow circulation process, and the dust in the air flow is adsorbed by the characteristic of the adsorbed cotton thread 608, the air cleanliness in the server room is effectively improved, meanwhile, the dust raised by workers when walking in the server room is effectively prevented from diffusing randomly by utilizing the continuous adsorption airflow of the lower layer of the server room, and the air cleanliness in the server room is kept for a long time;

meanwhile, through the mixing treatment of the upper-layer airflow and the lower-layer airflow in the server room, the hot air on the upper layer and the cold air on the lower layer are fully mixed in the treatment process, so that the treated air can keep a lower temperature, and the heat distribution in the server room is balanced, thereby effectively avoiding the fault caused by uneven heat distribution in the server room, and further effectively improving the use safety of the server room;

the cable lifting supporting mechanism 7 comprises a mounting transverse plate 701, a mounting top box 702, a supporting top wheel 703, a fixing vertical pipe 704, a butt joint clamping column 705, a guiding bottom wheel 706, a wire guiding box 707, a connecting arc block 708, a limiting cable 709, a mounting suspension 710, a driving wheel 711, a driving disc 712, a limiting hole 713, a limiting bolt 714, a guiding long box 715, a sliding transverse block 716, a guiding column 717, a supporting spring 718, a connecting frame 719 and a thin waist guide wheel 720;

mounting transverse plates 701 are symmetrically and fixedly mounted on two sides of the bottom surface of a protective sealing plate 2 positioned at the top of a supporting framework 1, a mounting top box 702 is uniformly and fixedly connected to the middle of the bottom end of the mounting transverse plates 701, supporting top wheels 703 are rotatably connected to two ends of the top end of the inner side of the mounting top box 702 through rotating shafts, a fixed vertical pipe 704 is welded to the middle of the bottom end of the mounting top box 702, a butt-joint clamping column 705 is arranged at the bottom of the fixed vertical pipe 704, a guide bottom wheel 706 is rotatably connected to the middle of the top end of the butt-joint clamping column 705 through a rotating shaft, a wire box 707 is fixedly connected to the bottom end of the butt-joint clamping column 705 through a connecting frame, a connecting arc block 708 is fixedly connected to the middle of one end of the bottom surface of the mounting transverse plates 701, and a limiting cable 709 is fixedly connected to the middle of one side of the connecting arc block 708;

a mounting suspension 710 is fixedly mounted at the bottom position of one end of one protective sealing plate 2 corresponding to the mounting transverse plate 701, one end of the inner side of the mounting suspension 710 is rotatably connected with a driving wheel 711, one end of the driving wheel 711 is fixedly connected with a driving disc 712 at the position corresponding to the end face of the mounting suspension 710, a limiting hole 713 is uniformly formed in the position of one side of the mounting suspension 710 corresponding to the edge of the driving disc 712 along the circumferential direction, a limiting bolt 714 is connected at the position of the inner side of the limiting hole 713 corresponding to the edge of the driving disc 712 through threads, the outer diameter of the butt-joint clamping column 705 is the same as the inner diameter of the fixed vertical pipe 704, and the butt-joint clamping column 705 corresponds to the fixed vertical pipe 704;

the limiting cable 709 is sequentially coated on the outer sides of the supporting top wheel 703 and the guiding bottom wheel 706, the limiting cable 709 penetrates through the inside of the fixed vertical pipe 704, and the tail end of the limiting cable 709 is wound on the outer side of the driving wheel 711;

the long guide box 715 is fixedly connected with one end of the bottom of the wire box 707, one end of the inner side of the long guide box 715 is slidably connected with a sliding cross block 716, one side of the sliding cross block 716 is symmetrically and fixedly connected with guide posts 717 corresponding to the inner side of the long guide box 715, the inner side of the guide posts 717 is fixedly connected with a supporting spring 718, the end part of the guide posts 717 corresponding to one end of the outer side of the long guide box 715 is fixedly connected with a connecting frame 719, one end of the inner side of the connecting frame 719 is rotatably connected with a thin waist guide wheel 720 through a rotating shaft, the outer side of the sliding cross block 716 is closely and slidably attached to the inner wall of the long guide box 715, the tail end of the supporting spring 718 is closely attached to the inner wall of the long guide box 715, through mutual matching among components in the cable lifting supporting mechanism 7, the wire box 707 is lowered to the lowest part in the wiring process of the server case 8 in the server room, and the process of collecting and arranging cables is more convenient, the convenience of the server room construction process is effectively improved, and meanwhile, the tension of the cable is adjusted in the rising process of the wire box 707 through the telescopic design of the thin waist guide wheel 720, so that the cable is kept tight all the time;

meanwhile, the design of rigid-flexible combination of the limit cable 709, the fixed vertical tube 704 and the docking clamping columns 705 is adopted, the flexible characteristic of the limit cable 709 is utilized, the synchronous design of a plurality of groups of docking clamping columns 705 can be realized through simple rotation of the driving disc 712, the wire box 707 is fixed through the restraint generated after the fixed vertical tube 704 and the docking clamping columns 705 are buckled, and the convenience of server room construction is further improved.

The working principle and the using process of the invention are as follows: in the practical application process of the invention, in the normal use process of the server room, the inside of the server room needs to be cleaned circularly, the air in the air suction elbow 615 is sucked by the lower adsorption fan 614, so that continuous negative pressure is formed around the outer side of the air suction bottom box 616, further continuous downward flowing air flow is formed at the bottom of the air suction bottom box 616, the air flow generated by the air suction bottom box 616 collects the dust at the top of the support bottom plate 4 and the water vapor evaporated from the ground in the machine room and is discharged into the processing vertical box 601 from the bottom, meanwhile, continuous negative pressure is generated in the air suction long pipe 619 by the upper circulation fan 617, further, the hot air at the top of the machine room is collected by the air suction top frame 620, further the upper circulation fan 617 is discharged into the processing vertical box 601, and the upper circulation fan 617 is guided into the processing vertical box 601 by the air guide square box 618, the hot air introduced by the upper circulating fan 617 can also flow into the bottom of the vertical treatment box 601;

after the air of the upper layer and the lower layer of the machine room is synchronously guided into the processing vertical box 601 by the lower layer adsorption fan 614 and the upper layer circulating fan 617, the water vapor in the air flow is intercepted by the adsorption cotton thread 608, and a small amount of dust contained in the air flow is adsorbed after the adsorption cotton thread 608 is wetted, so that the impurities and moisture in the air flow are adsorbed, the moisture on the adsorption cotton thread 608 is guided by the connecting metal strip 609, so that the adsorbed and condensed moisture can smoothly drip into the collection box 603 for storage, the air flow adsorbed by the adsorption cotton thread 608 passes through the protective top net 613 from the top of the processing vertical box 601 after being finally filtered by the waterproof breathable net 611 and is discharged back into the machine room, and the air flow circulation in the machine room is completed;

when a large amount of water is gushed from the outside in the normal use process of the server room, the gushed water rapidly penetrates through the installation grid frame 501 to enter the lower layer of the server room through the design of the porous support plate 502 and the leak holes for placing the convex plates 503, and the water is discharged out of the server room through the drain holes at the bottom of the protection sealing plate 2;

the drive cable 512 generates continuous traction force through the combined action of the counterweight sliding box 508 and the counterweight transverse block 509, the drive cable 512 generates upward tension force on the lifting underframe 3 through the guide of the guide pulley 511, so as to generate upward traction force on each component installed on the lifting underframe 3, the buoyancy force borne by the floating bottom box 514 is continuously increased along with the rising of the water surface at the bottom of the server room, before the water surface submerges and installs the top of the lattice frame 501, the buoyancy force generated by the floating bottom box 514 and the traction force generated by the drive cable 512 exceed the sum of the gravity borne by each component of the lifting underframe 3, so that the lifting underframe 3 drives each component installed thereon to move upward under the guide of the support framework 1, the server case 8 is always positioned above the water surface, and the phenomenon that the server case 8 is damaged due to submerging is effectively prevented;

in the process of wiring the servers in the server room, cables need to be bundled and integrated, in the initial stage of wiring, after the limit bolt 714 is screwed out from the limit hole 713, the limit cable 709 wound on the limit bolt is lengthened through the rotating driving disc 712, so that the butt joint clamping column 705, the guide bottom wheel 706 and the wire box 707 descend to a proper height under the action of gravity, and all the cables used in the process of connecting the servers are regularly arranged in the wire box 707 and are covered on the outer side of the thin waist guide wheel 720;

when the wire box 707 rises upwards, the driving disc 712 drives the driving wheel 711 to rotate reversely, so that the limiting cable 709 is wound, the limiting cable 709 is guided by the supporting top wheel 703 in the winding process, the limiting cable 709 drives the butt joint clamping column 705 and the wire box 707 to rise by the guide of the guiding bottom wheel 706, after the butt joint clamping column 705 is completely inserted into the fixed vertical pipe 704, the limiting bolt 714 is screwed into the limiting hole 713, and the limiting cable 709 is restrained and fixed on the outer side;

in the process that the wire box 707 rises, along with the pressure from the cable gradually increasing that the thin lumbar roller 720 is tightened by the cable, the thin lumbar roller 720 drives the sliding cross block 716 and the guide post 717 to slide along the inner wall of the guide long box 715 through the connecting frame 719, and compresses the supporting spring 718 in the sliding process.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a big data transmission storage device of computer, includes support skeleton (1), its characterized in that: protective sealing plates (2) are fixedly mounted on six lateral surfaces of the outer side of the supporting framework (1), the supporting framework (1) and the protective sealing plates (2) jointly form a machine room, a lifting chassis (3) is connected to the inner side of the supporting framework (1) in a sliding mode, the inner sides of four corners of the lifting chassis (3) are tightly attached to the outer side of a vertical shaft of the supporting framework (1) in a sliding mode, and a supporting bottom plate (4) is fixedly mounted at the top end of the lifting chassis (3);

the inner side of the protective sealing plate (2) is provided with a floating lifting balance protective mechanism (5) which is used for driving the whole machine room bottom plate to ascend through the combined action of buoyancy and the counterweight transverse block (509) when a large amount of external water flows into the machine room, so that the server case (8) can be always positioned above the water surface to prevent the server case (8) from being damaged due to soaking;

a double-position internal circulation mechanism (6) is arranged at the top of the supporting bottom plate (4), and is used for actively promoting the flow of air in the machine room, collecting and isolating a small amount of residual dust and moisture in the machine room in the circulation process of airflow, and simply adjusting the temperature in the machine room;

the cable lifting supporting mechanism (7) is arranged at the top of the inner side of the supporting framework (1), the cable in the machine room is arranged at the top through the liftable cable supporting structure, and the extra cables are supported in an auxiliary mode in the ascending process of the server case (8), so that the cables in the machine room are kept orderly all the time.

2. The large data transmission storage device of a computer according to claim 1, wherein the floating lifting balance protection mechanism (5) comprises a mounting grid frame (501), a porous support plate (502), a placing convex plate (503), a guide corner block (504), a floating square plate (505), a guide vertical box (506), a sliding vertical block (507), a counterweight sliding box (508), a counterweight transverse block (509), a connecting end block (510), a guide pulley (511), a driving rope (512), a support oblique column (513), a floating bottom box (514) and a connecting side claw (515);

the middle part of the inner side of the supporting bottom plate (4) is fixedly connected with an installation grid frame (501), the middle part of the top end and two corners at one end of the installation grid frame (501) are symmetrically embedded with porous supporting plates (502), the positions of the two sides of the top end of the installation grid frame (501), which correspond to the lateral surfaces of the porous supporting plates (502), are embedded with placing convex plates (503), the four corners of the inner side bottom end of the placing convex plates (503) are fixedly connected with guide angle blocks (504), and the positions, which correspond to the positioning positions of the guide angle blocks (504), of the inner side of the placing convex plates (503) are movably connected with floating square plates (505);

the middle parts of the protective sealing plates (2) positioned on three sides of the top of the mounting grid frame (501) are symmetrically embedded with vertical guide boxes (506), the middle part of the inner side of each vertical guide box (506) is connected with a vertical sliding block (507) in a sliding manner, one side of each two adjacent vertical sliding blocks (507) is fixedly connected with a counterweight sliding box (508) corresponding to the side position of the vertical guide box (506), counterweight transverse blocks (509) are uniformly arranged on the inner side of each counterweight sliding box (508), and two ends of the top of the outer side of each counterweight sliding box (508) are fixedly connected with connecting end blocks (510);

the positions of the edge part of the inner top of the support framework (1) corresponding to the two ends of the counterweight sliding box (508) are rotatably connected with guide pulleys (511) through connecting seats, the middle part of the top end of the connecting end block (510) is fixedly connected with a driving cable (512), and the tail end of the driving cable (512) penetrates through the support bottom plate (4) and is fixedly connected with the lifting underframe (3);

supporting inclined columns (513) are uniformly and fixedly connected to a partition plate at the bottom end of the installation lattice frame (501), a floating bottom box (514) is arranged at the position, corresponding to the middle of the bottom end of the porous supporting plate (502), of the bottom end of the installation lattice frame (501), and connecting side claws (515) are uniformly and fixedly connected to the top end of the floating bottom box (514) along the circumferential direction;

the middle of the top end of the placing convex plate (503) is provided with a server case (8).

3. The large data transmission and storage device of the computer according to claim 2, wherein liquid-guiding rectangular grooves are uniformly formed in the tops of four side surfaces of the placing convex plate (503), four side surfaces of the floating square plate (505) are tightly and slidably attached to the inner wall of the placing convex plate (503), liquid-guiding rectangular grooves are uniformly formed in four side surfaces of the top of the floating square plate (505), and the material density of the floating square plate (505) is less than that of water;

the top surface of the placing convex plate (503) is positioned above the top surface of the installation frame (501), and the top surface of the porous support plate (502) and the top surface of the installation frame (501) are mutually flush.

4. The big data transmission and storage device of the computer according to claim 2, wherein the side surface of the counterweight sliding box (508) is closely attached to the side surface of the guide vertical box (506) in a sliding manner, a tapered strip is arranged in the middle of the top end of the counterweight transverse block (509), a tapered groove is formed in the middle of the bottom end of the counterweight transverse block (509), and the driving rope (512) is sequentially wrapped outside the two guide pulleys (511);

the buoyancy of the floating bottom box (514) can be transferred to act on the lifting underframe (3), supporting small columns are uniformly arranged at the top end of the floating bottom box (514), a gap is reserved between the top surface of the floating bottom box (514) and the bottom surface of the porous supporting plate (502), and drain holes are formed in the bottom of the protective sealing plate (2).

5. The big data transmission and storage device of a computer according to claim 1, wherein the double-position internal circulation mechanism (6) comprises a processing vertical box (601), a liquid guide frame (602), a collection box (603), a mounting bottom frame (604), a supporting bottom frame (605), a mounting vertical column (606), a middle adsorption frame (607), an adsorption cotton thread (608), a connecting metal strip (609), an isolation top frame (610), a waterproof air-permeable net (611), a lifting rod (612), a protective top net (613), a lower adsorption fan (614), an air suction bent pipe (615), an air suction bottom box (616), an upper circulation fan (617), an air guide square box (618), an air suction long pipe (619) and an air suction top frame (620);

the two corners of the top of the supporting bottom plate (4) are respectively provided with a processing vertical box (601), the bottom of the inner side of the processing vertical box (601) is fixedly connected with a liquid guide frame (602), a collecting box (603) is connected with the inner side of the processing vertical box (601) in a sliding way at the position corresponding to the bottom of the liquid guide frame (602), the middle part inside the vertical treatment box (601) is fixedly connected with an installation bottom frame (604), a supporting bottom frame (605) is arranged at the position corresponding to the top part of the installation bottom frame (604) inside the vertical treatment box (601), the four corners of the top end of the supporting underframe (605) are fixedly connected with mounting vertical posts (606), the outer side of the mounting vertical column (606) is evenly and fixedly connected with an adsorption middle frame (607) at equal intervals corresponding to the top end of the supporting underframe (605), the inner side of the adsorption middle frame (607) is uniformly connected with adsorption cotton threads (608), and the middle parts of the bottom ends of the adsorption cotton threads (608) are connected to the top of a connecting metal strip (609);

an isolation top frame (610) is sleeved at the position, corresponding to the top of the treatment vertical box (601), of the top of the outer side of the installation vertical column (606), a waterproof breathable net (611) is embedded in the middle of the inner side of the isolation top frame (610), a lifting rod (612) is fixedly installed at the top end of the isolation top frame (610) through screws, and a protection top net (613) is fixedly installed at the top end of the treatment vertical box (601);

a lower-layer adsorption fan (614) is fixedly connected to one side of the outer portion of the treatment vertical box (601) corresponding to the top of the liquid guide frame (602), the input end of the lower-layer adsorption fan (614) is electrically connected with the output end of an external power supply, the middle of one end of the lower-layer adsorption fan (614) is fixedly connected with an air suction bent pipe (615), and the tail end of the air suction bent pipe (615) corresponding to four inner corners of the lifting chassis (3) is fixedly connected with an air suction bottom box (616);

handle outside opposite side top position department fixedly connected with upper circulating fan (617) of erecting case (601), the input of upper circulating fan (617) and external power source's output electric connection, handle that erect case (601) inboard corresponds upper circulating fan (617) exit end outside position department fixedly connected with air guide square box (618), long tube (619) are breathed in to upper circulating fan (617) one end middle part fixedly connected with, breathe in long tube (619) end correspondence support skeleton (1) inboard position department fixedly connected with and breathe in top frame (620).

6. The big data transmission and storage device of the computer, according to claim 5, characterized in that the top surface of the collection box (603) is closely attached to the top surface of the liquid guide frame (602), the outer side surface of the collection box (603) is closely attached to the inner wall of the processing vertical box (601), and a pull handle is arranged on the top of one side of the collection box (603);

both ends of the adsorption cotton thread (608) incline towards the connecting metal strip (609), and the adsorption cotton thread (608) keeps a wet state in the using process.

7. The big data transmission and storage device of a computer as claimed in claim 5, wherein the air suction bottom boxes (616) are communicated with each other through a pipeline, and the side surfaces of the air guide square boxes (618) are tightly attached to the installation bottom frame (604), the support bottom frame (605), the adsorption middle frame (607) and the isolation top frame (610).

8. The big data transmission storage device of a computer according to claim 1, wherein the cable lifting support mechanism (7) comprises a mounting transverse plate (701), a mounting top box (702), a support top wheel (703), a fixing vertical tube (704), a butt joint clamping column (705), a guide bottom wheel (706), a wire guide box (707), a connecting arc block (708), a limiting cable (709), a mounting suspension (710), a driving wheel (711), a driving disk (712), a limiting hole (713), a limiting bolt (714), a guide long box (715), a sliding transverse block (716), a guide column (717), a support spring (718), a connecting frame (719) and a thin waist guide wheel (720);

the two sides of the bottom surface of the protective sealing plate (2) positioned at the top of the supporting framework (1) are symmetrically and fixedly provided with mounting transverse plates (701), the middle part of the bottom end of the mounting transverse plate (701) is uniformly and fixedly connected with a mounting top box (702), the two ends of the top end of the inner side of the mounting top box (702) are rotatably connected with supporting top wheels (703) through rotating shafts, a fixed vertical pipe (704) is welded in the middle of the bottom end of the mounting top box (702), a butt joint clamping column (705) is arranged at the bottom of the fixed vertical pipe (704), the middle part of the top end of the butt joint clamping column (705) is rotatably connected with a guide bottom wheel (706) through a rotating shaft, the bottom end of the butt joint clamping column (705) is fixedly connected with a wire box (707) through a connecting frame, the middle part of one end of the bottom surface of the mounting transverse plate (701) is fixedly connected with a connecting arc-shaped block (708), the middle part of one side of the connecting arc-shaped block (708) is fixedly connected with a limiting cable (709);

a mounting suspension (710) is fixedly mounted at the bottom position of one end, corresponding to the mounting transverse plate (701), of one side of the protective sealing plate (2), a driving wheel (711) is rotatably connected to one end of the inner side of the mounting suspension (710), a driving disc (712) is fixedly connected to one end of the driving wheel (711) corresponding to the end face position of the mounting suspension (710), limiting holes (713) are uniformly formed in one side of the mounting suspension (710) corresponding to the edge position of the driving disc (712) along the circumferential direction, and limiting bolts (714) are connected to the edge position of the driving disc (712) corresponding to the inner side of the limiting holes (713) through threads;

wire box (707) bottom one end fixedly connected with direction long box (715), the inboard one end sliding connection of direction long box (715) has the horizontal piece of sliding (716), horizontal piece of sliding (716) one side corresponds the inboard position department symmetry fixedly connected with guide post (717) of direction long box (715), the inboard fixedly connected with supporting spring (718) of guide post (717), guide post (717) tip is to the outside one end position department fixedly connected with link frame (719) of direction long box (715), link frame (719) inboard one end is rotated through the pivot and is connected with thin lumbar guide wheel (720).

9. The large data transmission and storage device of a computer according to claim 8, wherein the external diameter of the docking pin (705) is the same as the internal diameter of the fixed vertical pipe (704), and the docking pin (705) and the fixed vertical pipe (704) correspond to each other in position;

the limiting cable (709) is sequentially wrapped on the outer sides of the supporting top wheel (703) and the guiding bottom wheel (706), the limiting cable (709) penetrates through the inside of the fixed vertical pipe (704), and the tail end of the limiting cable (709) is wound on the outer side of the driving wheel (711).

10. The large data transmission and storage device of the computer as claimed in claim 8, wherein the outside of the sliding cross piece (716) is closely and slidably engaged with the inner wall of the guide long box (715), and the end of the support spring (718) is closely engaged with the inner wall of the guide long box (715).