CN114796927A

CN114796927A - Remote inspection system for data center

Info

Publication number: CN114796927A
Application number: CN202210468009.XA
Authority: CN
Inventors: 袁潇; 屈智明; 闫立雅; 姜长波; 李卫平; 张博
Original assignee: Beijing Taihejia Technology Co ltd
Current assignee: Beijing Taihejia Technology Co ltd
Priority date: 2022-04-29
Filing date: 2022-04-29
Publication date: 2022-07-29
Anticipated expiration: 2042-04-29
Also published as: CN114796927B

Abstract

The invention relates to the technical field of fire fighting, and discloses a remote data center inspection system which comprises a base box body, an inspection box body, a spraying mechanism and a panoramic camera, wherein the inspection box body rotates on the top surface of the base box body, the spraying mechanism is arranged in the inspection box body and used for spraying water flow, the panoramic camera is connected with a data center as a trigger unit, the spraying mechanism comprises spraying guide pipes and inspection nozzles, the spraying guide pipes are horizontally arranged on the inner side wall of the periphery of the inspection box body, the inspection nozzles are arranged on the periphery of the spraying guide pipes, a plurality of groups of the inspection nozzles are arranged in the length direction of the spraying guide pipes, the inspection nozzles leak out of the surface of the inspection box body, a driving mechanism used for driving the inspection box body to rotate and a water supply mechanism used for supplying water sources in the spraying guide pipes are arranged in the base box body. This application has extinguishing device and can only carry out the jet stream to the assigned position, and the operation of putting out a fire has the effect at dead angle.

Description

Remote inspection system for data center

Technical Field

The invention relates to the technical field of fire fighting, in particular to a data center remote inspection system.

Background

Need use fire control unit when the conflagration takes place in gardens, the great bulky can not remove of most volume of current fire-fighting equipment or fire control cabinet, can only wait for the arrival of rescue personnel, but the gardens tree cultivated in a pot today, and the visitor is numerous, and the rescue car is than longer to the time on scene.

The utility model discloses a chinese utility model patent of No. CN210970506U discloses a view device for landscape gardens like grant bulletin, including artificial ornamental tree, artificial ornamental tree comprises upper portion main part and lower part main part two parts, the lower part main part runs through inside and extend to upper portion main part top in the upper portion main part, lower part main part lower extreme buries the fixed block with being provided with, bury the fixed block bottom and seted up a plurality of rag bolt holes, be provided with a plurality of decoration devices in the upper portion main part, still be provided with energy supply device in the lower part main part, be provided with fire control unit in the lower part main part, fire control unit includes the fire control main part, fire control main part lower extreme buries fixed connection with ground, be provided with fire control pipe and fire hydrant in the fire control main part, the bottom of fire hydrant is provided with the hickey.

In view of the above-mentioned related art, the inventor believes that the landscape device of landscape architecture can only spray water flow to the designated position when the fire breaks out in the garden, and the fire extinguishing operation has the problem of dead angle.

Disclosure of Invention

In order that extinguishing device can only carry out the jet stream to the assigned position, there is the problem at dead angle in the operation of putting out a fire, this application provides a data center long-range system of patrolling.

The application provides a long-range system of patrolling of data center adopts following technical scheme:

the utility model provides a long-range system of patrolling of data center, include the base box, rotate install in the box of patrolling of base box top surface, set up in the inside spraying mechanism who is used for spraying the water source of box of patrolling and the panorama camera that is connected with data center as trigger element, its characterized in that: spraying mechanism including the level set up in patrol the box spraying pipe of inside wall all around and install in spray the nozzle of patrolling of pipe week side, it follows to patrol the nozzle spray pipe length direction and be provided with a plurality of groups, it spills to patrol the nozzle patrol the box surface, base box inside is provided with and is used for the drive patrol box pivoted actuating mechanism and be used for the supply spray the water supply mechanism at the inside water source of pipe.

By adopting the technical scheme, when the panoramic camera detects that a fire disaster happens to a certain area of a garden, the data center triggers the water supply mechanism to start through a signal, water flow in the water supply mechanism can flow to the spraying guide pipe, and the water flow in the spraying guide pipe is sprayed to a firing point of the garden through the patrol nozzle; data center passes through signal trigger actuating mechanism and starts for patrol the rivers of nozzle injection and distribute in each region in gardens uniformly, improved and patrol the problem that there is the dead angle in the rivers of nozzle injection.

Optionally, water supply mechanism including install in booster pump, the vertical setting in the base box outside patrol the inside main shaft drum of box main shaft drum axle center is fixed in for the axial four components axle pipes and the vertical setting of main shaft drum periphery in patrol the water supply pipe that the box is located four inside turning positions of self, booster pump is linked together, four water supply pipe and four branch axle pipe one-to-one and be linked together, patrol box inside wall all around spray the pipe all with water supply pipe is linked together, booster pump and water supply terminal all are connected with data center as the receiving element, actuating mechanism set up in booster pump with between the main shaft drum.

Through adopting above-mentioned technical scheme, data center passes through signal trigger water supply terminal and booster pump starts, the inside rivers that flow out in water supply terminal pass through booster pump's pressure boost flow direction pipe of intaking, the inside rivers of pipe of intaking can flow into inside the drive drum, the inside rivers of drive drum pass through drainage pipe flow direction main shaft drum, the inside rivers of main shaft drum pass through the branch flow direction water supply pipe of four minute axle pipes, the inside rivers of water supply pipe can flow to spraying the pipe this moment, spray the inside rivers of pipe and spray the ignition point in gardens through patrolling the nozzle.

Optionally, actuating mechanism including be fixed in the base box in the drive drum of bottom surface, rotate install in drive drum inside rotating turbine, coaxial being fixed in the drive gear at rotating turbine top, coaxial being fixed in drive ring gear, fixed connection of base ring week side drive drum with inlet conduit between the booster pump and through rotary joint rotate install in the drainage pipe of main shaft drum tip, drive gear with drive ring gear meshes mutually, the drainage pipe is kept away from the tip of main shaft drum with the drive drum is linked together.

Through adopting above-mentioned technical scheme, the inside rotatory turbine of drive drum is rotatory through the rivers impact after the pressure boost, and rotatory turbine drives drive gear through the drive straight-bar and rotates, and drive gear drives the base ring through the drive ring gear and rotates, and the base ring drives the inspection box and rotates.

Optionally, the inlet conduit is arranged at a position close to the front side face of the base box body, the drainage conduit is arranged at a position close to the rear side face of the base box body, and the inlet conduit and the drainage conduit are arranged in a staggered mode.

Through adopting above-mentioned technical scheme, through the mutual dislocation set of pipe of intaking and drainage pipe for the inside rotatory turbine of drive drum rotates through the rivers impact after the pressure boost.

Optionally, the lateral wall all around of inspection box all is provided with and is used for covering the apron mechanism of inspection nozzle, apron mechanism including vertical set up in the drive box of inspection box lateral wall and set up in the apron subassembly of inspection box lateral wall, the apron subassembly include along vertical slide set up in the apron and No. two apron of inspection box lateral wall, an apron with the side looks butt that No. two apron are close to each other, inspection box top surface is provided with and is used for the drive the apron with the sliding mechanism that the relative reverse slip of No. two apron.

Through adopting above-mentioned technical scheme, the box of patrolling is installed in the open air, if will patrol the nozzle and expose in the open air, outdoor dust and debris can block up the spout of patrolling the nozzle, and the unable blowout rivers of nozzle are put out a fire when leading to the conflagration to cause the great loss. The cover plate mechanism can cover the inspection nozzle, so that the nozzle of the inspection nozzle is prevented from being blocked by dust and sundries as much as possible. When a garden fire happens, the sliding mechanism can open the cover plate mechanism, so that the patrol nozzle is exposed to carry out fire extinguishing operation.

Optionally, slide mechanism including install in an apron with a plurality of groups expansion airbag between the second number apron, be fixed in patrol the drive gasbag of box top surface, be fixed in patrol the pneumatic cylinder of box top surface and be fixed in the plectane is pressed in the support on the piston rod top of pneumatic cylinder, support press plectane horizontal butt in drive gasbag top surface, a plurality of groups expansion airbag all with the drive gasbag is linked together, and the pneumatic cylinder all is connected with data center as the receiving element.

Through adopting above-mentioned technical scheme, the panorama camera can feed back the information feedback of conflagration to data center, data center triggers the pneumatic cylinder through the signal of feedback and starts, the piston rod of pneumatic cylinder drives to pressing the plectane and extrudees the drive gasbag along vertical direction down, the drive gasbag passes through the pipe of ventilating and the inside air feed of the inflation gasbag that the gasbag pipe orientation set up in tour box lateral wall all around, the inflation gasbag promotes through the air feed of drive gasbag and is located the apron of tour box top and No. two apron alternate segregation, thereby spill the tour nozzle under apron and No. two apron.

It is optional, each lateral wall of inspection box spray the pipe and the equal vertical a plurality of groups that are provided with of apron subassembly, the inside confession a plurality of groups that is provided with of drive box the synchronous lazytongs of opening of apron subassembly, lazytongs includes vertical being fixed in a rack, the vertical being fixed in of apron side No. two racks of apron side, rotate install in the inside rotating gear of drive box and set up in it is adjacent two sets of to be used for driving inside the drive box the synchronous pivoted lazytongs of rotating gear, rotating gear is located a rack with between No. two racks, a rack and No. two racks all with rotating gear meshes mutually.

By adopting the technical scheme, the expansion air bag pushes the first cover plate and the second cover plate positioned at the uppermost side of the inspection box body to be separated from each other by driving the air supply of the air bag, so that inspection nozzles below the first cover plate and the second cover plate are leaked out; the first rack and the second rack which are positioned on the uppermost side of the inspection box body move along opposite directions, the driving gear which is positioned on the uppermost side of the inspection box body rotates through the movement of the first rack and the second rack, the driving gear drives the adjacent driving gears to rotate through the synchronizing assembly, the adjacent driving gears drive the first rack and the second rack to move along opposite directions, the first rack and the second rack drive the first cover plate and the second cover plate to be separated from each other, and therefore the cover plate parts on the peripheral outer side walls of the inspection box body are opened synchronously.

Optionally, the synchronizing assembly comprises belt rollers coaxially fixed on the side surfaces of the rotating gear far away from the first cover plate or the second cover plate and a transmission belt sleeved on the peripheral surfaces of the adjacent two groups of belt rollers, and the belt rollers are rotatably installed inside the driving box body.

Through adopting above-mentioned technical scheme, drive gear drives adjacent drive gear through belt gyro wheel and driving belt's cooperation and rotates to this piston rod drive that realizes passing through the pneumatic cylinder supports presses the plectane extrusion drive gasbag, can make the cover plate part of patrolling box lateral wall all around open in step, thereby makes to install and to patrol the whole exposures of nozzle all around in the box of patrolling.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the panoramic camera detects that a fire disaster happens to a certain area of a garden, the data center triggers the water supply mechanism to start through signals, water flow in the water supply mechanism flows to the spraying guide pipe, and the water flow in the spraying guide pipe is sprayed to a firing point of the garden through the tour nozzle; the data center triggers the driving mechanism to start through signals, so that the water flow sprayed by the patrol nozzle is uniformly distributed in each area of the garden, and the problem that the water flow sprayed by the patrol nozzle has dead angles is solved;

2. the data center triggers a water supply terminal and a booster water pump to start through signals, water flowing out of the water supply terminal flows to a water inlet guide pipe through the booster water pump, water in the water inlet guide pipe flows to the inside of a driving cylinder, water in the driving cylinder flows to a main shaft cylinder through a drainage guide pipe, water in the main shaft cylinder flows to a water supply guide pipe through branches of four split shaft guide pipes, at the moment, the water in the water supply guide pipe flows to a spraying guide pipe, and the water in the spraying guide pipe is sprayed to an ignition point of a garden through a tour nozzle;

3. the inspection box is installed in the open air, and if the inspection nozzle is exposed to the open air, the outdoor dust and sundries can block the nozzle of the inspection nozzle, so that the inspection nozzle cannot spray water flow to extinguish fire when a fire disaster occurs, and therefore, great loss is caused. The cover plate mechanism can cover the inspection nozzle, so that the nozzle of the inspection nozzle is prevented from being blocked by dust and sundries as much as possible. When a garden fire happens, the sliding mechanism can open the cover plate mechanism, so that the patrol nozzle is exposed to carry out fire extinguishing operation.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a panoramic camera in an embodiment of the present application.

Fig. 3 is a schematic cross-sectional view of a base housing and a drive cylinder in an embodiment of the present application.

Fig. 4 is an exploded view of an embodiment of the present application.

Fig. 5 is a partial structural schematic diagram of fig. 4.

FIG. 6 is a schematic structural diagram of the embodiment of the present application with the drive case removed.

Description of reference numerals: 11. a panoramic camera; 12. a base box body; 13. a base circular groove; 14. a base ring; 15. inspecting the box body; 16. a drive cylinder; 17. a water inlet conduit; 18. a drain conduit; 19. a booster water pump; 20. a cylindrical through hole; 21. a driving straight rod; 22. a waterproof sealing ring; 23. a drive gear ring; 24. a drive gear; 25. a rotating turbine; 27. a main shaft cylinder; 28. a rotary joint; 29. a split shaft conduit; 30. a water supply conduit; 31. a spraying device; 32. a spray assembly; 33. a spray conduit; 34. inspecting the nozzle; 35. a nozzle through hole; 36. a cover plate device; 37. a driving box body; 38. a cover member; 39. a first cover plate; 40. a second cover plate; 41. a first sliding rod; 42. a second sliding rod; 43. a box body chute; 44. a first rack; 45. a second rack; 46. rotating the straight rod; 47. a rotating gear; 48. a synchronization device; 49. a belt roller; 50. a drive belt; 51. arranging a groove; 52. inflating the air bag; 53. a balloon catheter; 54. driving the air bag; 55. a hydraulic cylinder; 56. pressing the circular plate; 57. an air hose.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a data center remote inspection system. Referring to fig. 1-3, the remote data center patrol system includes a panoramic camera 11 installed inside a garden for patrol of garden environment and a base box 12 buried on the ground, wherein the panoramic camera 11 is connected with the data center as a trigger unit. The base box 12 is the box structure that the shape is the cuboid, and base circular slot 13 has been seted up to the position that base box 12 is located self top surface, and base box 12 wears to be equipped with base ring 14 through base circular slot 13, installs the bearing between base ring 14 outer peripheral face and the 13 inside walls of base circular slot to this realizes that base ring 14 passes through the bearing and rotates and install in base box 12 top. The top end of the base ring 14 exceeds the top surface of the base box body 12 and is coaxially fixed with a patrol box body 15, and the patrol box body 15 is of a box body structure with a cuboid shape.

Referring to fig. 3 and 4, a driving cylinder 16 is fixed on the inner bottom surface of the base housing 12, a water inlet conduit 17 is fixed on the driving cylinder 16 at a position close to the right side surface of the base housing 12 on the outer peripheral surface thereof, the water inlet conduit 17 is arranged at a position close to the front side surface of the base housing 12, and the end of the water inlet conduit 17 far away from the driving cylinder 16 penetrates through the base housing 12 and is connected with a water supply terminal. A drainage pipe 18 is fixed on the driving cylinder 16 at the position close to the left side surface of the base box body 12 on the outer peripheral surface of the driving cylinder, the drainage pipe 18 is arranged at the position close to the rear side surface of the base box body 12, and the water inlet pipe 17 and the drainage pipe 18 are communicated with the inside of the driving cylinder 16. A booster water pump 19 for increasing water pressure is installed between the water inlet guide pipe 17 and the water supply terminal, a water outlet port of the booster water pump 19 is communicated with the water inlet guide pipe 17, a water inlet port of the booster water pump 19 is communicated with the water supply terminal, and the booster water pump 19 and the water supply terminal which serve as receiving units are connected with the data center.

Referring to fig. 3 and 4, a cylinder through hole 20 penetrating through the top surface of the driving cylinder 16 is formed in the driving cylinder 16, a driving straight rod 21 penetrates through the cylinder through hole 20 in the driving cylinder 16, and a bearing is installed between the outer peripheral surface of the driving straight rod 21 and the inner peripheral surface of the cylinder through hole 20, so that the driving straight rod 21 is rotatably installed on the top of the driving cylinder 16. A waterproof sealing ring 22 is fixed on the top surface of the driving cylinder 16, and the waterproof sealing ring 22 is coaxially sleeved on the periphery of the driving straight rod 21, so that water flow is prevented from flowing out of the driving cylinder 16 through a gap between the driving straight rod 21 and the driving cylinder 16 as much as possible. The circumferential surface of the base ring 14 at the bottom of the base ring is coaxially fixed with a driving gear ring 23, the top end of the driving straight rod 21 is coaxially fixed with a driving gear 24, and the driving gear ring 23 is meshed with the driving gear 24. The bottom end of the driving straight rod 21 penetrates through the driving cylinder 16 through the cylinder through hole 20, and the rotating turbine 25 is coaxially fixed at the bottom end of the driving straight rod 21.

Referring to fig. 4 and 5, the inside of the patrol box 15 communicates with the inside of the base ring 14. The drainage conduit 18 penetrates through the inspection box body 15, a main shaft cylinder 27 is vertically arranged in the inspection box body 15, a rotary joint 28 is arranged between the end parts, close to each other, of the main shaft cylinder 27 and the drainage conduit 18, the main shaft cylinder 27 is communicated with the drainage conduit 18 through the rotary joint 28, and therefore the main shaft cylinder 27 is rotatably arranged at the end part, far away from the driving cylinder 16, of the drainage conduit 18. A four-component shaft guide 29 is fixed around the main shaft cylinder 27 at the position of the circumferential surface of the main shaft cylinder with the axis of the main shaft cylinder as the axial direction, and the four-component shaft guide 29 is communicated with the inside of the main shaft cylinder 27. The inspection box body 15 is vertically fixed with water supply conduits 30 at four corners inside the inspection box body 15, and at the moment, the four water supply conduits 30 correspond to and are communicated with the four sub-shaft conduits 29 one by one. Be provided with three sprinkler 31 of group along vertical equidistant between two sets of adjacent water supply pipe 30, sprinkler 31 includes three spray assembly 32 of group along vertical equidistant setting, spray assembly 32 includes that level setting and fixed connection are in spray pipe 33 between two sets of adjacent water supply pipe 30, adjacent two sets of water supply pipe 30 are inside all to be linked together with spray pipe 33, spray pipe 33 is located self outer peripheral face and patrols the position fixation in the box 15 outside towards patrolling and has tour nozzle 34, tour nozzle 34 is provided with threely along spray pipe 33 length direction, tour box 15 lateral wall all around has all seted up a plurality of nozzle through-hole 35, tour nozzle 34 spills through nozzle through-hole 35 and tours box 15 surface.

Referring to fig. 4 and 6, the outer side walls of the periphery of the inspection box 15 are provided with cover plate devices 36 for covering the inspection nozzles 34, and each cover plate device 36 comprises a driving box 37 vertically arranged and fixed on the side wall of the inspection box 15 and a cover plate part 38 arranged on the outer side wall of the inspection box 15. The two sets of driving boxes 37 are horizontally arranged, the two sets of driving boxes 37 are oppositely arranged, and the driving boxes 37 are in a long-strip-shaped box structure. Three groups of cover plate parts 38 are vertically arranged between the two groups of driving box bodies 37, each cover plate part 38 comprises a first cover plate 39 and a second cover plate 40 positioned below the first cover plate 39, the side surfaces, close to each other, of the first cover plate 39 are abutted with the side surfaces, close to the second cover plate 40, of the second cover plate 40, a first sliding rod 41 is fixed on the left side surface and the right side surface of the first cover plate 39, and the first sliding rod 41 is arranged along the height direction of the second cover plate 40 and is attached to the side wall of the second cover plate 40; a second sliding rod 42 is fixed on the left side and the right side of the second cover plate 40 close to the first cover plate 39, and the second sliding rod 42 is arranged along the height direction of the first cover plate 39 and is attached to the side wall of the first cover plate 39.

Referring to fig. 4 and 6, the side surfaces of the two sets of driving boxes 37, which are close to each other, are provided with box sliding grooves 43 along the height direction of the driving boxes 37, and the box sliding grooves 43 are located on the side surfaces of the driving boxes 37 and provided with two sets. The first sliding rod 41 and the second sliding rod 42 on the same side penetrate through the driving box body 37 through the box body sliding groove 43, so that the first cover plate 39 and the second cover plate 40 are arranged between the two groups of driving box bodies 37 in a sliding manner along the height direction of the driving box body 37. A first rack 44 is fixedly mounted on the side face, close to the second slide bar 42, of the first slide bar 41, a second rack 45 is fixedly mounted on the side face, close to the first slide bar 41, of the second slide bar 42, a rotating straight bar 46 is mounted between the first rack 44 and the second rack 45, and the end portion of the rotating straight bar 46 is rotatably mounted on the inner side wall of the driving box body 37 through a bearing. The rotating gear 47 is coaxially fixed on the rotating straight rod 46, and the first rack 44 and the second rack 45 are both meshed with the rotating gear 47. The driving box body 37 is internally provided with a synchronizer 48 for driving the rotating straight rods 46 in the two adjacent groups of cover plate devices 36 to synchronously rotate, the synchronizer 48 comprises belt rollers 49 coaxially fixed on the peripheral sides of the rotating straight rods 46, and the peripheral surfaces of the belt rollers 49 in the two adjacent groups of cover plate devices 36 are jointly sleeved with a group of transmission belts 50.

Referring to fig. 4 and 6, the first cover plate 39 and the second cover plate 40 of the cover plate component 38 located at the uppermost side of the inspection box 15 are provided with two sets of mounting grooves 51 on the side surfaces close to each other, the mounting grooves 51 are located on the side surfaces close to each other of the first cover plate 39 and the second cover plate 40, the first cover plate 39 and the second cover plate 40 are provided with two sets of expansion airbags 52 through the mounting grooves 51, and when the expansion airbags 52 are inflated for expansion, the expansion airbags 52 expand along the height direction of the inspection box 15. A balloon catheter 53 is fixedly connected between the top ends of the two inflatable balloons 52 of the same cover plate component 38, and the balloon catheter 53 is positioned inside the first cover plate 39. The driving air bag 54 is fixed on the top surface of the patrol box body 15, and the driving air bag 54 is of an annular air bag structure. The hydraulic cylinder 55 is fixedly installed on the top surface of the patrol box body 15, the hydraulic cylinder 55 is located on the inner side of the driving air bag 54, and the hydraulic cylinders 55 are used as receiving units and are all connected with a data center. A pressing circular plate 56 is vertically fixed to the top end of the piston rod of the hydraulic cylinder 55, and the pressing circular plate 56 abuts against the top surface of the driving airbag 54. Four air hoses 57 are fixed around the driving air bag 54 at the position of the outer peripheral surface of the driving air bag by taking the axis of the driving air bag as the axial direction, the four air hoses 57 correspond to the four air bag conduits 53 one by one, and the air hoses 57 are communicated with the corresponding air bag conduits 53.

The implementation principle of the remote data center inspection system in the embodiment of the application is as follows: when the panoramic camera 11 detects that a fire disaster occurs in a certain area of a garden, the panoramic camera 11 feeds information of the fire disaster back to a data center, the data center triggers a hydraulic cylinder 55 to start through a fed-back signal, a piston rod of the hydraulic cylinder 55 drives a pressing circular plate 56 to extrude and drive an air bag 54 along a vertical downward direction, the air bag 54 is driven to supply air towards the inside of an expansion air bag 52 arranged on the peripheral side wall of the patrol box body 15 through a ventilation guide pipe and an air bag guide pipe 53, the expansion air bag 52 pushes a first cover plate 39 and a second cover plate 40 which are positioned at the uppermost side of the patrol box body 15 to be separated from each other through the air supply of the driving air bag 54, and accordingly, the patrol nozzles 34 below the first cover plate 39 and the second cover plate 40 are leaked; meanwhile, the first rack 44 and the second rack 45 positioned at the uppermost side of the inspection box 15 move in opposite directions, the driving gear 24 positioned at the uppermost side of the inspection box 15 rotates through the movement of the first rack 44 and the second rack 45, the driving gear 24 drives the adjacent driving gear 24 to rotate through the matching of the belt roller 49 and the transmission belt 50, the adjacent driving gear 24 drives the first rack 44 and the second rack 45 to move in opposite directions, the first rack 44 and the second rack 45 drive the first cover plate 39 and the second cover plate 40 to be separated from each other, so that the piston rod of the hydraulic cylinder 55 drives the pressing circular plate 56 to extrude and drive the air bag 54, the cover plate parts 38 on the outer side walls around the inspection box 15 can be synchronously opened, and all the inspection nozzles 34 installed around the inspection box 15 are exposed.

The data center triggers the water supply terminal and the booster water pump 19 to start through signals, water flowing out of the water supply terminal flows to the water inlet guide pipe 17 through the boosting of the booster water pump 19, water flowing out of the water inlet guide pipe 17 flows to the inside of the driving cylinder 16, water flowing out of the inside of the driving cylinder 16 flows to the main shaft cylinder 27 through the drainage guide pipe 18, water flowing out of the inside of the main shaft cylinder 27 flows to the water supply guide pipe 30 through the branches of the four branch shaft guide pipes 29, at the moment, water flowing out of the inside of the water supply guide pipe 30 flows to the spraying guide pipe 33, and water flowing out of the spraying guide pipe 33 is sprayed to a firing point of a garden through the tour nozzle 34. Meanwhile, the rotating turbine 25 inside the driving cylinder 16 rotates through the water flow impact after pressurization, the rotating turbine 25 drives the driving gear 24 to rotate through the driving straight rod 21, the driving gear 24 drives the base ring 14 to rotate through the driving gear ring 23, and the base ring 14 drives the inspection box body 15 to rotate, so that the water flow sprayed by the inspection nozzle 34 is uniformly distributed in each area of the garden, and the problem that the water flow sprayed by the inspection nozzle 34 has dead angles is solved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a long-range system of patrolling of data center, include base box (12), rotate install in patrol box (15) of base box (12) top surface, set up in patrol inside spraying mechanism who is used for spraying the water source of box (15) and as panorama camera (11) that trigger element is connected with data center, its characterized in that: spray mechanism including the level set up in patrol spraying pipe (33) of box (15) inside wall all around and install in spray pipe (33) week side patrol nozzle (34), patrol nozzle (34) and follow it is provided with a plurality of groups to spray pipe (33) length direction, it leaks to patrol nozzle (34) patrol box (15) surface, base box (12) inside is provided with and is used for the drive patrol box (15) pivoted actuating mechanism and be used for the supply spray the water supply mechanism at the inside water source of pipe (33).

2. The data center remote patrol system according to claim 1, wherein: the water supply mechanism comprises a booster pump (19) arranged outside the base box body (12), a main shaft cylinder (27) vertically arranged inside the patrol box body (15), four component shaft conduits (29) of the main shaft cylinder (27) axis fixed on the circumference surface of the main shaft cylinder (27) for the axial direction and water supply conduits (30) vertically arranged at four corner positions inside the patrol box body (15), the booster water pump (19) is communicated with a water supply terminal, the four water supply guide pipes (30) are in one-to-one correspondence with and communicated with the four split-shaft guide pipes (29), the spraying conduits (33) on the inner side wall of the periphery of the inspection box body (15) are communicated with the water supply conduit (30), the booster water pump (19) and the water supply terminal are connected with the data center as receiving units, the drive mechanism is provided between the booster water pump (19) and the main shaft cylinder (27).

3. The data center remote patrol system according to claim 2, wherein: the driving mechanism comprises a driving cylinder (16) fixed on the inner bottom surface of the base box body (12), a rotating turbine (25) installed inside the driving cylinder (16) in a rotating mode, a driving gear (24) coaxially fixed at the top of the rotating turbine (25), a driving gear ring (23) coaxially fixed on the bottom surface of the base box body (12), a water inlet guide pipe (17) fixedly connected between the driving cylinder (16) and the booster water pump (19) and a drainage guide pipe (18) installed at the end part of the main shaft cylinder (27) in a rotating mode through a rotating joint (28), the driving gear (24) is meshed with the driving gear ring (23), and the end part, far away from the main shaft cylinder (27), of the drainage guide pipe (18) is communicated with the driving cylinder (16).

4. The data center remote patrol system according to claim 3, wherein: the water inlet guide pipe (17) is arranged at a position close to the front side surface of the base box body (12), the water discharge guide pipe (18) is arranged at a position close to the rear side surface of the base box body (12), and the water inlet guide pipe (17) and the water discharge guide pipe (18) are arranged in a staggered mode.

5. The data center remote patrol system according to claim 1, wherein: patrol box (15) lateral wall all around and all be provided with and be used for covering the apron mechanism of patrol nozzle (34), apron mechanism including vertical set up in drive box (37) of patrol box (15) lateral wall and set up in the apron subassembly of patrol box (15) lateral wall, the apron subassembly include along vertical slide set up in No. one apron (39) and No. two apron (40) of patrol box (15) lateral wall, No. one apron (39) with the side looks butt that No. two apron (40) are close to each other, patrol box (15) top surface is provided with and is used for the drive No. one apron (39) with the slide mechanism of No. two apron (40) relative reverse slip.

6. The data center remote patrol system according to claim 5, wherein: slide mechanism including install in No. one apron (39) with a plurality of groups inflation gasbag (52) between No. two apron (40), be fixed in drive gasbag (54) of inspection box (15) top surface, be fixed in hydraulic cylinder (55) of inspection box (15) top surface and be fixed in pressing plectane (56) of the piston rod top of hydraulic cylinder (55), press plectane (56) level butt in drive gasbag (54) top surface, a plurality of groups inflation gasbag (52) all with drive gasbag (54) are linked together, and pneumatic cylinder (55) are all connected with data center as the receiving element.

7. The data center remote patrol system according to claim 6, wherein: the spraying guide pipes (33) and the cover plate component on each side wall of the inspection box body (15) are vertically provided with a plurality of groups, a synchronizing mechanism for synchronously opening a plurality of groups of cover plate components is arranged in the driving box body (37), the synchronizing mechanism comprises a first rack (44) vertically fixed on the side surface of the first cover plate (39), a second rack (45) vertically fixed on the side surface of the second cover plate (40), a rotating gear (47) rotatably installed in the driving box body (37) and a synchronizing assembly arranged in the driving box body (37) and used for driving two adjacent groups of rotating gears (47) to synchronously rotate, the rotating gear (47) is positioned between the first rack (44) and the second rack (45), the first rack (44) and the second rack (45) are meshed with the rotating gear (47).

8. The system according to claim 7, wherein: the synchronizing assembly comprises belt rollers (49) which are coaxially fixed on the side faces of the rotating gear (47) far away from the first cover plate (39) or the second cover plate (40) and a transmission belt (50) which is sleeved on the peripheral faces of the adjacent two groups of belt rollers (49), and the belt rollers (49) are rotatably installed inside the driving box body (37).