CN113277412A - Based on network security big data wisdom computer lab - Google Patents

Abstract

The invention discloses a network security big data based intelligent machine room which comprises a machine room main body and a hoisting mechanism, wherein the hoisting mechanism comprises a main body component, a trigger component and a pulling component, the main body component comprises a base, four upright posts vertically arranged at four corner positions at the top of the base, an inclined post obliquely arranged at the top of the upright post and pointing to the central axis of the base, and a steel wire rope guide component fixed between the top ends of the four inclined posts, wherein the upright posts and the inclined posts are hollow, an overflow cavity is arranged in the base, the machine room main body is arranged at the top of the base, and the four corners of the machine room main body are respectively connected with the four upright posts in a sliding manner; the trigger assembly comprises a water storage tank which is arranged in the overflow cavity in a sliding mode and is provided with an opening at the top and a water inlet which is arranged on the side wall of the base above the water storage tank. When water rises, the machine room main body is automatically pulled up and separated from the base, so that water is prevented from entering the machine room main body, and when water is removed, the machine room main body is automatically put down without electric energy, so that the machine room is energy-saving and environment-friendly.

Description

Based on network security big data wisdom computer lab

Technical Field

The invention relates to the technical field of intelligent machine rooms, in particular to an intelligent machine room based on network security big data.

Background

Big data refers to a data set which cannot be captured, managed and processed by a conventional software tool within a certain time range, and is information assets which can be adapted to mass, high growth rate and diversification by having stronger decision making power, insight discovery power and flow optimization capability only through a new processing mode.

The machine room generally refers to a place for storing servers, providing IT services for users and employees, such as telecommunications, internet communications, mobile, two-wire, electric power, government or enterprise, and also refers to a place where more devices are concentrated or a place where more electric cabinets are concentrated.

In some coastal areas, flood disasters often occur, or water enters a machine room when rainwater is more, and if water enters the machine room, some important equipment can be soaked in water, so that equipment is damaged and economic loss is caused.

Disclosure of Invention

The invention aims to provide an intelligent machine room based on network security big data to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent machine room based on network security big data comprises a machine room main body and a hoisting mechanism, wherein the hoisting mechanism is used for automatically lifting the machine room main body when water rises and automatically lowering the machine room main body when water falls, the hoisting mechanism comprises a main body component, a triggering component and a pulling component, the main body component is used for positioning the machine room main body, the triggering component is used for automatically triggering the pulling component when the water level rises or falls, the pulling component is used for pulling the machine room main body when the water level rises and lowering the machine room main body when the water level falls;

the main body component comprises a base, four stand columns vertically arranged at four corners of the top of the base, an inclined column obliquely arranged at the top of the stand columns and pointing to the central axis of the base, and steel wire rope guide members fixed between the top ends of the four inclined columns, wherein the stand columns and the inclined columns are hollow, an overflow cavity is arranged in the base, the machine room main body is arranged at the top of the base, and the four corners of the machine room main body are respectively connected with the four stand columns in a sliding manner;

the trigger assembly comprises a water storage tank, a water inlet, a water outlet and a hose, wherein the water storage tank is arranged in the overflow cavity in a sliding mode, the top of the water storage tank is open, the water inlet is formed in the side wall of the base above the water storage tank, the water outlet is formed in the side wall of the base below the water storage tank, the hose is arranged between the bottom of the water storage tank and the water outlet, the side wall of the base at the positions of the water inlet and the water outlet is respectively provided with a plugging switch and a buoyancy switch, the plugging switch is used for closing the water inlet when the water storage tank moves to the bottom of the overflow cavity, the buoyancy switch is used for plugging the water outlet when the water level is higher than the position of the water outlet, and the water outlet is opened when the water level is lower than the position of the water outlet;

the lifting assembly comprises two rotating shafts arranged at two ends of the top of the overflow cavity, winding drums fixed at two ends of the rotating shafts, a first steel wire rope wound in the middle of the rotating shafts and fixed at the end of the water storage tank, and a second steel wire rope fixed on the winding drums, wherein the other end of the second steel wire rope penetrates through the stand column and the inclined column to be guided and fixed at the top of the machine room main body through a steel wire rope guide member, and a balancing weight is arranged on the second steel wire rope inside the stand column.

Preferably, the wire rope guide member comprises a circular shell, a wire inlet hole formed in the bottom of the circular shell, and first guide wheels uniformly arranged at the position of the wire inlet hole and perpendicular to the four inclined columns, wherein the circular shell is communicated with the inner parts of the inclined columns.

Preferably, two guide wheels are arranged at two ends of the inner part of the inclined column.

Preferably, the plugging switch comprises a first fixed box arranged on the side wall of the base outside the water inlet, a piston cavity and a plugging cavity which are arranged inside the first fixed box from top to bottom in sequence, a first piston which is arranged inside the piston cavity in a sliding mode, a first plugging block which is arranged inside the plugging cavity in a sliding mode and a connecting rod which is arranged between the first piston and the first plugging block, wherein a reset spring is arranged between the bottom of the first piston outside the connecting rod and the bottom of the piston cavity, the plugging cavity is located on one side of the water inlet, a water permeable hole is uniformly formed in one side, away from the water inlet, of the plugging cavity, a piston barrel is arranged at the bottom of the water overflowing cavity, a second piston is arranged inside the piston barrel in a sliding mode, a movable column is arranged at the top of the second piston, the movable column extends to the top of the piston barrel, a connecting pipe is arranged at the bottom of the piston barrel, and the other end of the connecting pipe extends to be communicated with the top of the piston cavity.

Preferably, the buoyancy switch comprises a second fixing box arranged on the side wall of the base outside the water outlet, a second blocking block arranged inside the second fixing box in a sliding mode and a floating block arranged at the bottom of the second blocking block, wherein a second water outlet hole is uniformly formed in one side, far away from the water outlet, of the second fixing box.

Preferably, a water collecting cover is arranged on the side wall of the overflow cavity between the water outlet and the water storage tank.

Preferably, four corners of the machine room main body are provided with sleeves, and the sleeves are slidably sleeved on the outer sides of the corresponding stand columns.

Compared with the prior art, the invention has the beneficial effects that:

(1) when the water storage tank is applied, when the water level reaches the position of the water inlet, water enters the first fixing box through the water permeable holes, then enters the overflow cavity through the water inlet and flows into the water storage tank, the gravity of the water storage tank is increased along with the continuous entering of the water into the water storage tank, the water storage tank moves downwards, the first steel wire rope pulls the rotating shaft to rotate, the rotating shaft drives the winding drum to rotate to wind the second steel wire rope, the machine room main body is pulled up through the second steel wire rope and separated from the base, the water is prevented from entering the machine room main body, when the water storage tank moves to the bottom of the overflow cavity, the water storage tank compresses the second piston through the movable column to guide hydraulic oil in the piston cylinder into the piston cavity through the connecting pipe, the first piston moves downwards, and the first piston moves downwards to push the first blocking block to block the molten metal port, the realization is when rising water, automatic with the computer lab main part pull-up, break away from the base, it is inside to prevent that water from getting into the computer lab main part, when the water level is higher than the delivery port position (when rising water promptly), water gets into two inside floating blocks of fixed box and floats and with two jack-ups of shutoff piece, make two with the delivery port shutoff of shutoff piece, avoid the water storage box rivers to go out, when the water level is less than the delivery port position (when retiring water promptly), under two self weight effects of shutoff piece, the shutoff piece moves down and can open the delivery port and be convenient for the inside water of water storage box and discharge, make the computer lab main part can resume the normal position, realize when retiring water, put down the computer lab main part automatically, need not the electric energy, and is energy-saving and environment-friendly.

(2) The first steel wire rope and the second steel wire rope are wound on the rotating shaft and the winding drum which are different in diameter, so that after the water storage tank moves downwards for a certain distance, the machine room main body rises for a large displacement, and the counterweight block is arranged on the second steel wire rope, so that the influence of gravity on the machine room main body when the machine room main body rises can be reduced, namely when the weight of water in the water storage tank and the weight of the counterweight block are larger than that of the machine room main body, the machine room main body can be pulled up.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the base of the present invention;

FIG. 3 is a schematic view of a portion of the structure of FIG. 2 at A;

FIG. 4 is a schematic view of a portion of the structure of FIG. 2 at B;

FIG. 5 is a schematic view of a wire rope guide member according to the present invention;

FIG. 6 is a schematic view of the internal structure of the vertical column and the oblique column of the present invention.

In the figure: 1. a machine room main body; 2. a hoisting mechanism; 3. a body assembly; 31. a base; 32. A column; 33. an oblique column; 34. a wire rope guide member; 341. a circular housing; 342. a wire inlet hole; 343. a first guide wheel; 35. an overflow cavity; 4. a trigger component; 41. a water storage tank; 42. A water inlet; 43. a water outlet; 44. a hose; 45. a plugging switch; 451. a first fixing box; 452. a piston cavity; 453. plugging the cavity; 454. a first piston; 455. a first blocking block; 456. a connecting rod; 457. a return spring; 458. water permeable holes; 459. a piston cylinder; 4510. a second piston; 4511. a movable post; 4512. a connecting pipe; 46. a buoyancy switch; 461. a second fixing box; 462. A second plugging block; 463. floating blocks; 464. a water outlet hole II; 5. a pulling-up assembly; 51. a rotating shaft; 52. winding the roll; 53. a first steel wire rope; 54. a second steel wire rope; 55. a balancing weight; 6. a second guide wheel; 7. a water collection cover; 8. a sleeve.

Detailed Description

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

Referring to fig. 1-6, an embodiment of the present invention is shown: a smart machine room based on network security big data comprises a machine room main body 1 and a hoisting mechanism 2, wherein the hoisting mechanism 2 is used for automatically lifting the machine room main body 1 when water rises and automatically lowering the machine room main body 1 when water falls, the hoisting mechanism 2 comprises a main body component 3, a trigger component 4 and a pulling component 5, the main body component 3 is used for positioning the machine room main body 1, the trigger component 4 is used for automatically triggering the pulling component 5 when the water level rises or falls, the pulling component 5 is used for pulling the machine room main body 1 when the water level rises and lowering the machine room main body 1 when the water level falls;

referring to fig. 1 and 2, the main body assembly 3 includes a base 31, four upright posts 32 vertically disposed at four corners of the top of the base 31, an inclined post 33 obliquely disposed at the top of the upright post 32 and pointing to the central axis of the base 31, and a wire rope guide member 34 fixed between the top ends of the four inclined posts 33, wherein the upright posts 32 and the inclined post 33 are hollow, an overflow cavity 35 is disposed inside the base 31, the machine room main body 1 is disposed at the top of the base 31, and the four corners of the machine room main body 1 are slidably connected with the four upright posts 32 respectively;

referring to fig. 2 in detail, the triggering assembly 4 includes a water storage tank 41 slidably disposed inside the overflow cavity 35 and having an open top, a water inlet 42 disposed on the sidewall of the base 31 above the water storage tank 41, a water outlet 43 disposed on the sidewall of the base 31 below the water storage tank 41, and a hose 44 disposed between the bottom of the water storage tank 41 and the water outlet 43, wherein the sidewall of the base 31 at the positions of the water inlet 42 and the water outlet 43 is respectively provided with a blocking switch 45 and a buoyancy switch 46, the blocking switch 45 is used for closing the water inlet 42 when the water storage tank 41 moves to the bottom of the overflow cavity 35, the buoyancy switch 46 is used for blocking the water outlet 43 when the water level is higher than the water outlet 43, and opening the water outlet 43 when the water level is lower than the water outlet 43;

referring to fig. 2, the lifting assembly 5 includes two rotating shafts 51 disposed at two ends of the top of the overflow chamber 35, two winding drums 52 fixed at two ends of the rotating shafts 51, a first steel wire rope 53 wound around the middle of the rotating shafts 51 and having an end fixed to the water storage tank 41, and a second steel wire rope 54 fixed to the winding drums 52, wherein the other end of the second steel wire rope 54 passes through the vertical column 32 and the inclined column 33 and is guided and fixed to the top of the machine room main body 1 through the steel wire rope guide member 34, and a counterweight 55 is disposed on the second steel wire rope 54 inside the vertical column 32, and by the above, the first steel wire rope 53 and the second steel wire rope 54 are wound around the rotating shafts 51 and the winding drums 52 having different diameters, so that after the water storage tank 41 moves down by a distance, the machine room main body 1 rises a large distance and is displaced, and by disposing the counterweight 55 on the second steel wire rope 51, the influence of gravity when the machine room main body 1 rises can be reduced, that is, when the weight of the water in the water storage tank 41 plus the weight of the counter weight 55 is greater than the weight of the machine room main body 1, the machine room main body 1 can be pulled up.

In this embodiment, as shown in fig. 5, the wire rope guide member 34 includes a circular housing 341, a wire inlet hole 342 disposed at the bottom of the circular housing 341, and a first guide wheel 343 uniformly disposed at the position of the wire inlet hole 342 and perpendicular to the four batter posts 33, wherein the circular housing 341 is communicated with the interior of the batter posts 33, and the wire rope 54 is conveniently guided by the above structure.

In this embodiment, as shown in fig. 6, two guide wheels 6 are provided at both ends of the interior of the inclined column 33, and the two steel cables 54 are located at the center of the interior of the inclined column 33 and the upright column 32.

In this embodiment, as shown in fig. 3, the plugging switch 45 includes a first fixed box 451 disposed on the side wall of the base 31 outside the water inlet 42, a piston cavity 452 and a plugging cavity 453 disposed inside the first fixed box 451 in sequence from top to bottom, a first piston 454 disposed inside the piston cavity 452, a first plugging block 455 disposed inside the plugging cavity 453, and a connecting rod 456 disposed between the first piston 454 and the first plugging block 455, wherein a return spring 457 is disposed between the bottom of the first piston 454 outside the connecting rod 456 and the bottom of the piston cavity 452, the plugging cavity 453 is located on the side of the water inlet 42, water permeable holes 458 are uniformly disposed on the side of the plugging cavity 453 away from the water inlet 42, a piston cylinder 459 is disposed at the bottom of the overflow cavity 35, a second piston 4510 is slidably disposed inside the piston cylinder 459, a movable post 4511 is disposed on the top of the piston cylinder 4510, and the movable post 4511 extends to the top of the piston cylinder 459, by the structure, when the water level reaches the position of the water inlet 42, water enters the first fixing box 451 through the water permeable hole 458 and then enters the overflow cavity 35 through the water inlet 42 to flow into the water storage tank 41, the gravity of the water storage tank 41 is increased along with the continuous entering of the water into the water storage tank 41, so that the water storage tank 41 moves downwards, the rotating shaft 51 is pulled to rotate through the first steel wire rope 53, the rotating shaft 51 rotates to drive the winding drum 52 to rotate to wind the second steel wire rope 54, the machine room main body 1 is pulled up through the second steel wire rope 54 to be separated from the base, the water is prevented from entering the machine room main body 1, and when the water storage tank 41 moves to the bottom of the overflow cavity, the water storage tank 41 compresses the second piston 4510 through the movable column 5411 to guide the interior of the piston tube 459 into the interior of the piston cavity 452 through the connecting pipe 5412, so that the first piston 454 moves downwards, and the first piston 454 moves downwards to push the first blocking block 455 to block the molten metal opening through the connecting rod 456.

In this embodiment, as shown in fig. 4, the buoyancy switch 46 includes a second fixed box 461 disposed on the outer side of the water outlet 43 and on the side wall of the base 31, a second blocking block 462 slidably disposed inside the second fixed box 461, and a floating block 463 disposed at the bottom of the second blocking block 462, wherein a second water outlet 464 is uniformly disposed on the side of the second fixed box 461 away from the water outlet 43, and through the above structure, when the water level is higher than the water outlet position (i.e., when water is rising), water enters the second fixed box 461 and the floating block 463 floats to jack the second blocking block 462, so that the second blocking block 462 blocks the water outlet 43, thereby preventing the water in the water storage tank 41 from flowing out, and when the water level is lower than the water outlet position (i.e., when water is withdrawing), under the action of the self weight of the second blocking block 462, the downward movement of the blocking block 462 can open the water outlet to facilitate the water in the water storage tank 41 to be discharged, so that the machine room main body can be recovered to the original position.

In this embodiment, as shown in fig. 2, the water collecting cover 7 is disposed on the sidewall of the overflow chamber 35 between the water outlet 43 and the water storage tank 41, so that water can enter the water storage tank 41.

In this embodiment, as shown in fig. 1, the sleeves 8 are disposed at four corners of the machine room main body 1, and the sleeves 8 are slidably sleeved outside the corresponding columns 32, so that the machine room main body 41 can stably rise through the above structure.

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 various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (7)

1. The intelligent machine room based on the network safety big data comprises a machine room main body (1) and is characterized by further comprising a hoisting mechanism (2) used for automatically lifting the machine room main body (1) when water rises and automatically lowering the machine room main body (1) when water falls, wherein the hoisting mechanism (2) comprises a main body component (3), a trigger component (4) and a pulling component (5), the main body component (3) is used for positioning the machine room main body (1), the trigger component (4) is used for automatically triggering the pulling component (5) when the water level rises or falls, the pulling component (5) is used for pulling the machine room main body (1) when the water level rises and lowering the machine room main body (1) when the water level falls;

the machine room main body assembly (3) comprises a base (31), four upright columns (32) vertically arranged at four corner positions at the top of the base (31), inclined columns (33) obliquely arranged at the tops of the upright columns (32) and pointing to the central axis of the base (31), and steel wire rope guide members (34) fixed between the top ends of the four inclined columns (33), wherein the upright columns (32) and the inclined columns (33) are hollow, an overflow cavity (35) is arranged in the base (31), the machine room main body (1) is placed at the top of the base (31), and the four corners of the machine room main body (1) are respectively connected with the four upright columns (32) in a sliding manner;

the trigger component (4) comprises a water storage tank (41) which is arranged in the overflow cavity (35) in a sliding way and has an open top, a water inlet (42) which is arranged on the side wall of the base (31) above the water storage tank (41), a water outlet (43) which is arranged on the side wall of the base (31) below the water storage tank (41) and a hose (44) which is arranged between the bottom of the water storage tank (41) and the water outlet (43), wherein the side walls of the base (31) at the positions of the water inlet (42) and the water outlet (43) are respectively provided with a plugging switch (45) and a buoyancy switch (46), the blocking switch (45) is used for closing the water inlet (42) when the water storage tank (41) moves to the bottom of the overflow cavity (35), the buoyancy switch (46) is used for blocking the water outlet (43) when the water level is higher than the position of the water outlet (43) and opening the water outlet (43) when the water level is lower than the position of the water outlet (43);

the lifting assembly (5) comprises two rotating shafts (51) arranged at two ends of the top of the overflow cavity (35), winding drums (52) fixed at two ends of the rotating shafts (51), a first steel wire rope (53) wound in the middle of the rotating shafts (51) and fixed to the water storage tank (41) at the end part of the rotating shafts, and a second steel wire rope (54) fixed to the winding drums (52), wherein the other end of the second steel wire rope (54) penetrates through the vertical column (32) and the inclined column (33) to be guided and fixed to the top of the machine room main body (1) through a steel wire rope guide member (34), and a balancing weight (55) is arranged on the second steel wire rope (54) inside the vertical column (32).

2. The intelligent machine room based on the network security big data as claimed in claim 1, wherein: the steel wire rope guide member (34) comprises a circular shell (341), a wire inlet hole (342) formed in the bottom of the circular shell (341), and guide wheels I (343) which are uniformly arranged at the position of the wire inlet hole (342) and perpendicular to four inclined columns (33), wherein the circular shell (341) is communicated with the inner parts of the inclined columns (33).

3. The intelligent machine room based on the network security big data as claimed in claim 1, wherein: and two guide wheels (6) are arranged at two ends of the inner part of the inclined column (33).

4. The intelligent machine room based on the network security big data as claimed in claim 1, wherein: the blocking switch (45) comprises a first fixed box (451) arranged on the side wall of a base (31) outside a water inlet (42), a piston cavity (452) and a blocking cavity (453) which are sequentially arranged inside the first fixed box (451) from top to bottom, a first piston (454) arranged inside the piston cavity (452) in a sliding manner, a first blocking block (455) arranged inside the blocking cavity (453) in a sliding manner, and a connecting rod (456) arranged between the first piston (454) and the first blocking block (455), wherein a return spring (457) is arranged between the bottom of the first piston (454) outside the connecting rod (456) and the bottom of the piston cavity (452), the blocking cavity (453) is positioned on one side of the water inlet (42), water permeable holes (458) are uniformly arranged on one side of the blocking cavity (453) far away from the water inlet (42), a piston barrel (459) is arranged at the bottom of the overflow cavity (35), and a second piston (4510) is arranged inside the piston barrel (459) in a sliding manner, the top of the second piston (4510) is provided with a movable column (4511), the movable column (4511) extends to the top of the piston cylinder (459), the bottom of the piston cylinder (459) is provided with a connecting pipe (4512), and the other end of the connecting pipe (4512) extends to be communicated with the top of the piston cavity (452).

5. The intelligent machine room based on the network security big data as claimed in claim 1, wherein: the buoyancy switch (46) comprises a second fixing box (461) arranged on the side wall of the base (31) on the outer side of the water outlet (43), a second blocking block (462) arranged inside the second fixing box (461) in a sliding mode and a floating block (463) arranged at the bottom of the second blocking block (462), wherein a second water outlet hole (464) is uniformly formed in one side, far away from the water outlet (43), of the second fixing box (461).

6. The intelligent machine room based on the network security big data as claimed in claim 1, wherein: and a water collecting cover (7) is arranged on the side wall of the overflow cavity (35) between the water outlet (43) and the water storage tank (41).

7. The intelligent machine room based on the network security big data as claimed in claim 1, wherein: four corners of the machine room main body (1) are provided with sleeves (8), and the sleeves (8) are sleeved on the outer sides of the corresponding stand columns (32) in a sliding manner.

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