CN114976936A - Intelligent electric power cabinet system based on cloud computing - Google Patents

Abstract

The invention provides an intelligent electric power cabinet system based on cloud computing, which comprises an installation rack, a sliding block, a cabinet body, a water collecting tank, a height adjusting component, an installation component, two sliding rails and two heat dissipation components, wherein the two sliding rails are symmetrically arranged on the outer side wall of the installation rack, the sliding blocks are arranged on the two sliding rails in a sliding manner, the outer wall of the back surface of the cabinet body is connected with the sliding blocks, two sliding doors are hinged on the outer wall of the front side of the cabinet body, the water collecting tank is arranged at the top of the cabinet body, the height adjusting component is arranged at the top of the mounting rack, the bottom end of the height adjusting component is connected with the sliding block, the mounting component is arranged inside the cabinet body, the two heat dissipation components are respectively arranged on the outer walls at the two sides of the cabinet body, a herringbone guide plate is arranged inside the water collecting tank, a liquid level sensor is arranged at the bottom end of the mounting frame, and four ground cones which are distributed in a rectangular shape are arranged at the bottom of the mounting frame.

Description

Intelligent electric power cabinet system based on cloud computing

Technical Field

The invention relates to the technical field of electric power cabinets, in particular to an intelligent electric power cabinet system based on cloud computing.

Background

Cloud computing is one of distributed computing, and means that a huge data computing processing program is decomposed into countless small programs through a network cloud, and then the small programs are processed and analyzed through a system consisting of a plurality of servers to obtain results and are returned to a user. In the early stage of cloud computing, simple distributed computing is adopted, task distribution is solved, and computing results are merged. Thus, cloud computing is also known as grid computing. By the technology, tens of thousands of data can be processed in a short time (several seconds), so that strong network service is achieved.

The vent has generally been seted up on its outer wall to current electric power cabinet, and the convenience is discharged the heat in the electric power cabinet, but, under rainwater weather, the rainwater enters into electric power cabinet through the vent easily in, and electric components in the electric power cabinet meets water and causes the short circuit and burn out, influences electric power cabinet's normal operating.

Disclosure of Invention

The invention provides an intelligent electric power cabinet system based on cloud computing, which aims to solve the problems.

The invention is particularly such that:

an intelligent electric power cabinet system based on cloud computing comprises a mounting rack, a sliding block, a cabinet body, a water collecting tank, a height adjusting assembly, a mounting assembly, two sliding rails and two heat dissipation assemblies, wherein the two sliding rails are symmetrically arranged on the outer side wall of the mounting rack, the sliding blocks are arranged on the two sliding rails in a sliding manner, the outer wall of the back surface of the cabinet body is connected with the sliding blocks, two sliding doors are hinged on the outer wall of the front side of the cabinet body, the water collecting tank is arranged at the top of the cabinet body, the height adjusting component is arranged at the top of the mounting rack, the bottom end of the height adjusting component is connected with the sliding block, the mounting component is arranged inside the cabinet body, the two heat dissipation components are respectively arranged on the outer walls at the two sides of the cabinet body, a herringbone guide plate is arranged inside the water collecting tank, a liquid level sensor is arranged at the bottom end of the mounting frame, and four ground cones which are distributed in a rectangular shape are arranged at the bottom of the mounting frame.

Further, every radiator unit all includes heat dissipation case, drive disk assembly, driver part and a plurality of rotating part, the heat dissipation case is installed on the outer wall of the cabinet body to the inside of heat dissipation case is linked together, a plurality of the rotating part is equidistant setting at the heat dissipation incasement, and the top of a plurality of rotating part extends to the outside of heat dissipation case, the driver part is installed on the top outer wall of heat dissipation case, the driver part is installed on the outer wall of heat dissipation case and the cabinet body, and the driver part is used for driving the drive disk assembly and rotates.

Furthermore, each rotating part comprises a first rotating shaft, a second rotating shaft, a heat dissipation cylinder, a driven sprocket, an arc-shaped chute, a sliding block, a rotating plate and a connecting column, the first rotating shaft is rotatably arranged at the top end inside the heat dissipation box, the top end of the first rotating shaft extends to the outside of the heat dissipation box, the second rotating shaft is rotatably arranged at the bottom end inside the heat dissipation box, the heat dissipation cylinder is arranged inside the heat dissipation box, the upper end and the lower end of the heat dissipation cylinder are respectively connected with the first rotating shaft and the second rotating shaft, the heat dissipation cylinder is provided with the heat dissipation groove, the driven sprocket is arranged at the top of the first rotating shaft, the arc-shaped chute is arranged at the top of the heat dissipation box and is provided with an included angle of 90 degrees, the sliding block is slidably arranged in the arc-shaped chute, the rotating plate is arranged on the outer wall of the top end of the first rotating shaft, and the two ends of the connecting column are respectively connected with the rotating plate and the sliding block, the outer wall of the heat dissipation box is provided with a through groove corresponding to the heat dissipation groove, and a filter screen is installed in the through groove.

Further, drive disk assembly includes drive seat, drive shaft, drive sprocket, first toper tooth and chain, the drive seat is installed on the top outer wall of heat dissipation case, the drive shaft rotates and installs on the drive seat to the upper and lower both ends of drive shaft all extend to the outside of drive seat, drive sprocket installs the top at the drive shaft, the bottom at the drive shaft is installed to first toper tooth, the outside of the driven sprocket in drive sprocket and a plurality of rotating member is established to the chain cover.

Further, the driving component comprises a bearing seat, a rotating shaft, a second conical tooth, a rotating sleeve, a fixing frame, a drainage box, a drainage pipe, a limiting part and a plurality of blades, the bearing seat is installed on the outer wall of the top end of the heat dissipation box, the rotating shaft is rotatably installed on the bearing seat, the front end and the rear end of the rotating shaft extend to the outside of the bearing seat, the second conical tooth is installed at the front end part of the rotating shaft and meshed with the first conical tooth, the rotating sleeve is installed at the rear end part of the rotating shaft, the plurality of blades are arranged on the outer wall of the rotating sleeve at equal intervals around the circle center of the rotating shaft, the fixing frame is installed on the outer wall of the cabinet body, the drainage box is installed on the fixing frame, a drainage groove communicated with the inside of the drainage box is arranged at the bottom of the drainage box, the top end of the drainage pipe is communicated with the bottom end of the inside of the water collection box, and the bottom end of the drainage pipe extends to the top of the drainage box, the locating part is installed in the drain tank to the bottom of locating part passes the water drainage tank and extends to between two adjacent blades.

Further, the locating part includes kickboard, limiting plate and two guide slots, two the guide slot symmetry sets up on the both sides inner wall of water drainage box, the kickboard sets up in the water drainage box to the both sides of kickboard respectively with two guide slot sliding fit, the limiting plate is installed in the bottom of kickboard, and the bottom of kickboard passes the water drainage tank and extends to between two adjacent blades.

Further, the installation component includes installation axle, carousel, regulating spindle, regulating handle, action wheel, follows driving wheel, belt and installing component, the installation axle rotates the inside bottom of installing at the cabinet body, the top at the installation axle is installed to the carousel, the regulating spindle rotates the inside bottom of installing at the cabinet body, the top at the regulating spindle is installed to the regulating handle, the action wheel is installed on the regulating spindle, install epaxially from the driving wheel, the belt cover is established at the action wheel and the outside from the driving wheel, the installing component is the top of vertical setting at the carousel.

Further, the installation part includes the installing frame, the installing frame is vertical setting at the top of carousel, all be equipped with the installation cavity on the four sides outer wall of installing frame, be equipped with the equidistant carrier that sets up of a plurality of in the installation cavity, be equipped with the water conservancy diversion chamber in the installing frame, the water conservancy diversion chamber is linked together with the installation cavity.

Further, every hold carrier and all include loading board and two spacing rails, two spacing rail symmetry sets up in the installation cavity, the both sides of loading board respectively with two spacing rail sliding fit, be equipped with the kerve on the lateral wall of loading board.

Further, the altitude mixture control subassembly includes first mount pad, second mount pad, pulley, rolling wheel, elevator motor, stay cord, weather shield and four pillars, first mount pad and second mount pad are the interval and set up the top at the mounting bracket, the pulley rotates to be installed in first mount pad, the rolling wheel rotates to be installed in the second mount pad, the elevator motor level sets up the top at the mounting bracket to elevator motor's output shaft is connected with the rolling wheel, the top and the rolling wheel of stay cord are connected, the bottom of stay cord is passed and is connected with the top of sliding block behind the pulley, four the pillar is the top of rectangular distribution at the mounting bracket, the top at four pillars is installed to the weather shield.

The beneficial effects of the invention are:

one is as follows: the invention dissipates heat in the cabinet body through two heat dissipating components, the water collecting tank collects rainwater in rainy days, the rainwater collected in the water collecting tank finally falls into the two heat dissipating components, the herringbone guide plate facilitates the rainwater collected in the water collecting tank to quickly flow into the water draining pipe, the force of the rainwater falling vertically drives the two heat dissipating components to work, the two heat dissipating components work to drive the heat dissipating cylinder therein to rotate 90 degrees, the heat dissipating cylinder drives the heat dissipating grooves to rotate 90 degrees, the heat dissipating grooves are completely separated from the through grooves, the rainwater is prevented from entering the cabinet body through the through grooves and the heat dissipating grooves, short circuit and burning of electrical components in the cabinet body when meeting water are avoided, the normal operation of the whole electric power cabinet is not influenced, the liquid level sensor is used for sensing the liquid level of the rainwater accumulated on the ground, when the depth of the rainwater accumulated on the ground is too high, the height adjusting component works to drive the sliding block to move upwards on the two sliding rails, the sliding block drives the cabinet body rebound, avoids subaerial rainwater to get into to the internal, and the installation component is used for holding the installation to electrical components, and four cones make things convenient for the bottom of mounting bracket to stably fix subaerial, prevent that the mounting bracket from taking place to empty.

Secondly, the method comprises the following steps: rainwater collected in the water collecting tank enters the drainage tank through the drainage pipe, the drainage tank is quickly filled with the rainwater, at the moment, the limiting piece moves upwards in the drainage tank by utilizing buoyancy of the rainwater, the bottom end of the limiting piece moves upwards to be separated from two adjacent blades, the rainwater in the drainage tank flows onto the plurality of blades through the drainage groove, the rainwater vertically falls down to drive the plurality of blades to rotate, the plurality of blades drive the rotating sleeve and the rotating shaft to rotate, the rotating shaft drives the second conical tooth to rotate, and the second conical tooth finally drives the first conical tooth to rotate, so that the aim of driving the first conical tooth to rotate is fulfilled.

And thirdly: when the drainage box is filled with rainwater, the floating plate moves upwards on the two guide grooves by utilizing buoyancy, the floating plate drives the limiting plate to move upwards, the bottom end of the limiting plate moves upwards to be separated from the two adjacent blades, and the rainwater can drive the blades to rotate conveniently.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a third schematic perspective view of the present invention;

FIG. 4 is a fourth schematic perspective view of the present invention;

FIG. 5 is a partial perspective view of the first embodiment of the present invention;

FIG. 6 is a partial perspective view of the second embodiment of the present invention;

FIG. 7 is a first schematic perspective view of a heat dissipation assembly according to the present invention;

FIG. 8 is a second schematic perspective view of a heat dissipation assembly according to the present invention;

FIG. 9 is an enlarged view taken at A in FIG. 8;

FIG. 10 is a partial perspective view of a first heat dissipation assembly according to the present invention;

fig. 11 is a partial perspective view of a second heat dissipation assembly of the present invention;

fig. 12 is a schematic partial perspective view of a heat dissipation assembly according to a third embodiment of the present invention;

fig. 13 is a schematic partial perspective view of a heat dissipation assembly according to the present invention;

FIG. 14 is a first perspective view of the mounting assembly of the present invention;

FIG. 15 is a second perspective view of the mounting assembly of the present invention;

fig. 16 is an enlarged view at B in fig. 15.

Icon: mounting frame 1, liquid level sensor 11, ground cone 12, sliding block 2, cabinet 3, sliding door 31, water collecting tank 4, chevron-shaped guide plate 41, height adjusting component 5, first mounting seat 51, second mounting seat 52, pulley 53, winding wheel 54, lifting motor 55, pull rope 56, rain baffle 57, pillar 58, mounting component 6, mounting shaft 61, turntable 62, adjusting shaft 63, adjusting handle 64, driving wheel 65, driven wheel 66, belt 67, mounting part 68, mounting frame 681, mounting cavity 682, bearing member 683, guide cavity 684, bearing plate 685, limit rail 686, pull groove 687, slide rail 7, heat radiating component 8, heat radiating box 81, through groove 811, filter screen 812, transmission part 82, driving seat 821, driving shaft 822, driving sprocket 823, first conical tooth 824, chain 825, driving part 83, bearing seat 831, rotating shaft, second conical tooth 833, rotating sleeve 834 and fixing frame 835, drainage box 836, drainage groove 8361, drainage pipe 837, limiting piece 838, floating plate 8381, limiting plate 8382, guide slot 8383, blade 839, rotating component 84, first rotating shaft 841, second rotating shaft 842, heat dissipation cylinder 843, driven sprocket 844, arc chute 845, slider 846, rotating plate 847, connecting column 848, and heat dissipation groove 849.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. 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.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present invention, it should be noted that the indication of the orientation or the positional relationship is based on the orientation or the positional relationship shown in the drawings, or the orientation or the positional relationship which is usually placed when the product of the present invention is used, or the orientation or the positional relationship which is usually understood by those skilled in the art, or the orientation or the positional relationship which is usually placed when the product of the present invention is used, and is only for the convenience of describing the present invention and simplifying the description, but does not indicate or imply that the indicated device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, cannot be understood as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present invention, it should be further noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-16, the invention provides an intelligent power cabinet system based on cloud computing by improvement, which includes a mounting frame 1, a sliding block 2, a cabinet body 3, a water collection tank 4, a height adjustment assembly 5, a mounting assembly 6, two sliding rails 7 and two heat dissipation assemblies 8, wherein the two sliding rails 7 are symmetrically arranged on the outer side wall of the mounting frame 1, the sliding block 2 is slidably mounted on the two sliding rails 7, the outer wall of the back side of the cabinet body 3 is connected with the sliding block 2, the outer wall of the front side of the cabinet body 3 is hinged with two sliding doors 31, the water collection tank 4 is arranged at the top of the cabinet body 3, the height adjustment assembly 5 is arranged at the top of the mounting frame 1, the bottom end of the height adjustment assembly 5 is connected with the sliding block 2, the mounting assembly 6 is arranged inside the cabinet body 3, and the two heat dissipation assemblies 8 are respectively arranged on the outer walls of the two sides of the cabinet body 3, a herringbone guide plate 41 is arranged inside the water collecting tank 4, a liquid level sensor 11 is arranged at the bottom end of the mounting rack 1, and four ground cones 12 which are distributed in a rectangular shape are arranged at the bottom of the mounting rack 1; heat inside the cabinet body 3 is radiated through the two radiating assemblies 8, the water collecting tank 4 collects rainwater in the rainwater weather, the rainwater collected in the water collecting tank 4 finally falls into the two radiating assemblies 8, the herringbone guide plate 41 facilitates the rainwater collected in the water collecting tank 4 to quickly flow into the drain pipe 837, the force of the rainwater falling vertically drives the two radiating assemblies 8 to work, the two radiating assemblies 8 work to drive the radiating cylinder 843 therein to rotate 90 degrees, the radiating cylinder 843 drives the radiating groove 849 to rotate 90 degrees, the radiating groove 849 is completely separated from the through groove 811, the rainwater is prevented from entering the cabinet body 3 through the through groove 811 and the radiating groove 849, short circuit and burnout caused by water contact of electrical components inside the cabinet body 3 are avoided, the normal operation of the whole electric power cabinet cannot be influenced, the liquid level sensor 11 is used for sensing the liquid level of rainwater accumulated on the ground, and when the depth of the rainwater accumulated on the ground is too high, height adjusting assembly 5 work drives sliding block 2 rebound on two slide rails 7, and sliding block 2 drives the cabinet body 3 rebound, avoids subaerial rainwater to get into to the cabinet body 3 in, and installation component 6 is used for holding the installation to electrical components, and four ground awl 12 make things convenient for the bottom of mounting bracket 1 to stabilize fixedly subaerial, prevent that mounting bracket 1 from taking place to empty.

Specifically, each heat dissipation assembly 8 comprises a heat dissipation box 81, a transmission component 82, a driving component 83 and a plurality of rotating components 84, the heat dissipation box 81 is installed on the outer wall of the cabinet body 3, the inside of the heat dissipation box 81 is communicated with the inside of the cabinet body 3, the plurality of rotating components 84 are arranged in the heat dissipation box 81 at equal intervals, the top ends of the plurality of rotating components 84 extend to the outside of the heat dissipation box 81, the transmission component 82 is installed on the outer wall of the top end of the heat dissipation box 81, the driving component 83 is installed on the outer walls of the heat dissipation box 81 and the cabinet body 3, and the driving component 83 is used for driving the transmission component 82 to rotate; the driving part 83 is driven to rotate by the force of rainwater falling vertically, the driving part 83 drives the plurality of rotating parts 84 to rotate 90 degrees by the aid of the transmission part 82, the heat dissipation cylinder 843 rotates 90 degrees, the heat dissipation cylinder 843 drives the heat dissipation groove 849 to rotate 90 degrees, the heat dissipation groove 849 is completely separated from the through groove 811, and rainwater is prevented from entering the cabinet body 3 through the through groove 811 and the heat dissipation groove 849.

Specifically, each rotating member 84 includes a first rotating shaft 841, a second rotating shaft 842, a heat dissipating cylinder 843, a driven sprocket 844, an arc-shaped chute 845, a slider 846, a rotating plate 847 and a connecting column 848, the first rotating shaft 841 is rotatably installed at the top end of the inside of the heat dissipating box 81, the top end of the first rotating shaft 841 extends to the outside of the heat dissipating box 81, the second rotating shaft 842 is rotatably installed at the bottom end of the inside of the heat dissipating box 81, the heat dissipating cylinder 843 is arranged in the heat dissipating box 81, the upper end and the lower end of the heat dissipating cylinder 843 are respectively connected with the first rotating shaft 841 and the second rotating shaft 842, a heat dissipating groove 849 is formed in the heat dissipating cylinder 843, the driven sprocket 844 is installed at the top of the first rotating shaft 841, the arc-shaped chute 845 is formed at the top of the heat dissipating box 81, the arc-shaped chute 845 is provided at an included angle of 90 °, the slider 846 is slidably installed in the arc-shaped chute 845, the rotating plate 845 is installed on the outer wall of the top end of the first rotating shaft 841, two ends of the connecting column 848 are respectively connected with the rotating plate 847 and the sliding block 846, a through groove 811 corresponding to the heat dissipation groove 849 is arranged on the outer wall of the heat dissipation box 81, and a filter screen 812 is arranged in the through groove 811; correspond with radiating groove 849 through logical groove 811, external gas enters into to radiating box 81 through logical groove 811 and radiating groove 849, the gas in radiating box 81 gets into to dispel the heat in the cabinet body 3 afterwards, filter screen 812 prevents impurity such as dust in the gas from entering into the cabinet body 3, under rainwater weather, header tank 4 collects the rainwater, the rainwater collected in header tank 4 falls into drive component 83 at last, the force that the rainwater falls down vertically drives drive component 83 to rotate, drive component 83 drives drive component 82 to rotate, drive component 82 drives driven sprocket 844 to rotate, driven sprocket 844 drives first pivot 841, second pivot 842 and radiating cylinder 843 to rotate, first pivot 841 utilizes rotor plate 847 and spliced pole 848 to drive slider 846 to slide in arc spout 845, because arc spout 845 is 90 contained angles, so slider 846 can only rotate 90 °, and then first pivot 841, Second pivot 842 and heat dissipation cylinder 843 rotate 90, and heat dissipation cylinder 843 drives radiating groove 849 and rotates 90, and radiating groove 849 and logical groove 811 completely separate, prevent that the rainwater from getting into to cabinet 3 through logical groove 811 and radiating groove 849 in, avoided the electrical components in the cabinet 3 to meet the water and cause the short circuit and burn out.

Specifically, the transmission member 82 includes a driving seat 821, a driving shaft 822, a driving sprocket 823, a first tapered tooth 824, and a chain 825, wherein the driving seat 821 is installed on an outer wall of a top end of the heat dissipation box 81, the driving shaft 822 is rotatably installed on the driving seat 821, both upper and lower ends of the driving shaft 822 extend to an outside of the driving seat 821, the driving sprocket 823 is installed on a top of the driving shaft 822, the first tapered tooth 824 is installed on a bottom of the driving shaft 822, and the chain 825 is sleeved outside the driving sprocket 823 and a driven sprocket 844 of the plurality of rotation members 84; the driving part 83 drives the first conical tooth 824 to rotate, the first conical tooth 824 drives the driving shaft 822 and the driving chain wheel 823 to rotate, the driving chain wheel 823 drives the driven chain wheel 844 of the plurality of rotating parts 84 to rotate through the chain 825, the driven chain wheel 844 finally drives the heat dissipation cylinder 843 to rotate 90 degrees, the heat dissipation cylinder 843 drives the heat dissipation groove 849 to rotate 90 degrees, and the heat dissipation groove 849 is completely separated from the through groove 811.

Specifically, the driving member 83 includes a bearing seat 831, a rotating shaft 832, a second tapered tooth 833, a rotating sleeve 834, a fixing frame 835, a drain tank 836, a drain pipe 837, a limiting member 838 and a plurality of blades 839, the bearing seat 831 is installed on the top outer wall of the heat dissipation box 81, the rotating shaft 832 is rotatably installed on the bearing seat 831, the front end and the rear end of the rotating shaft 832 extend to the outside of the bearing seat 831, the second tapered tooth 833 is installed at the front end of the rotating shaft 832, the second tapered tooth 833 is engaged with the first tapered tooth 824, the rotating sleeve 834 is installed at the rear end of the rotating shaft 832, the plurality of blades 839 are arranged on the outer wall of the rotating sleeve 834 at equal intervals around the center of the rotating shaft 832, the fixing frame 835 is installed on the outer wall of the cabinet body 3, the drain tank 836 is installed on the fixing frame 835, the drain tank 836 is provided at the bottom thereof with a drain groove 8361 communicated with the inside thereof, the top end of the drain pipe 837 is communicated with the bottom end of the interior of the water collecting tank 4, the bottom end of the drain pipe 837 extends to the upper part of the drain tank 836, the limiting piece 838 is installed in the drain tank 836, and the bottom end of the limiting piece 838 passes through the drain groove 8361 and extends to the position between two adjacent blades 839; rainwater collected in the water collecting tank 4 enters the water draining tank 836 through the water draining pipe 837, the water draining tank 836 is filled with rainwater rapidly, the limiting piece 838 utilizes the buoyancy of the rainwater to move upwards in the water draining tank 836, the bottom end of the limiting piece 838 moves upwards to be separated from two adjacent blades 839, the rainwater in the water draining tank 836 flows into a plurality of blades 839 through the water draining groove 8361, the rainwater vertically falls down to drive the plurality of blades 839 to rotate, the plurality of blades 839 drive the rotating sleeve 834 and the rotating shaft 832 to rotate, the rotating shaft 832 drives the second conical tooth 833 to rotate, the second conical tooth 833 finally drives the first conical tooth 824 to rotate, and the purpose of driving the first conical tooth 824 to rotate is achieved.

Specifically, the limiting member 838 includes a floating plate 8381, a limiting plate 8382 and two guide grooves 8383, the two guide grooves 8383 are symmetrically disposed on inner walls of two sides of the drain tank 836, the floating plate 8381 is disposed in the drain tank 836, two sides of the floating plate 8381 are respectively in sliding fit with the two guide grooves 8383, the limiting plate 8382 is mounted at the bottom of the floating plate 8381, and the bottom end of the floating plate 8381 passes through the drain groove 8361 and extends to between two adjacent blades 839; when the rainwater fills up drain tank 836, floating plate 8381 utilizes buoyancy to move up on two guide slots 8383, and floating plate 8381 drives limiting plate 8382 rebound, and the bottom rebound of limiting plate 8382 separates to two adjacent blades 839, makes things convenient for a plurality of blade 839 of rainwater drive to rotate.

Specifically, the mounting assembly 6 includes a mounting shaft 61, a rotating disc 62, an adjusting shaft 63, an adjusting handle 64, a driving wheel 65, a driven wheel 66, a belt 67 and a mounting part 68, the mounting shaft 61 is rotatably mounted at the bottom end of the inside of the cabinet body 3, the rotating disc 62 is mounted at the top of the mounting shaft 61, the adjusting shaft 63 is rotatably mounted at the bottom end of the inside of the cabinet body 3, the adjusting handle 64 is mounted at the top of the adjusting shaft 63, the driving wheel 65 is mounted on the adjusting shaft 63, the driven wheel 66 is mounted on the mounting shaft 61, the belt 67 is sleeved outside the driving wheel 65 and the driven wheel 66, and the mounting part 68 is vertically arranged at the top of the rotating disc 62; hold the installation to electrical components through installing component 68, the manual work uses adjustment handle 64 to drive regulating spindle 63 and action wheel 65 and rotates, and action wheel 65 utilizes belt 67 to drive from driving wheel 66 and installation axle 61 to rotate, and installation axle 61 drives the carousel 62 and rotates, and carousel 62 drives installing component 68 and rotates, makes things convenient for the manual work to install electrical components in installing component 68.

Specifically, the mounting component 68 includes a mounting frame 681, the mounting frame 681 is vertically disposed at the top of the turntable 62, mounting cavities 682 are disposed on four outer walls of the mounting frame 681, a plurality of equally spaced bearing pieces 683 are disposed in the mounting cavities 682, flow guide cavities 684 are disposed in the mounting frame 681, and the flow guide cavities 684 are communicated with the mounting cavities 682; the diversion cavity 684 and the installation cavity 682 facilitate rapid heat removal from the electrical components, and the plurality of carriers 683 are used for placing the electrical components.

Specifically, each bearing member 683 comprises a bearing plate 685 and two limit rails 686, the two limit rails 686 are symmetrically arranged in the installation cavity 682, two sides of the bearing plate 685 are respectively in sliding fit with the two limit rails 686, and a pull groove 687 is arranged on the outer side wall of the bearing plate 685; the draw groove 687 is pulled manually to drive the bearing plate 685 to be drawn out from the two limit rails 686, so that the electrical elements on the bearing plate 685 can be maintained and replaced conveniently.

Specifically, the height adjusting assembly 5 comprises a first mounting seat 51, a second mounting seat 52, a pulley 53, a winding wheel 54, a lifting motor 55, a pulling rope 56, a rain baffle 57 and four supporting columns 58, wherein the first mounting seat 51 and the second mounting seat 52 are arranged at the top of the mounting frame 1 at intervals, the pulley 53 is rotatably arranged in the first mounting seat 51, the winding wheel 54 is rotatably arranged in the second mounting seat 52, the lifting motor 55 is horizontally arranged at the top of the mounting frame 1, an output shaft of the lifting motor 55 is connected with the winding wheel 54, the top end of the pulling rope 56 is connected with the winding wheel 54, the bottom end of the pulling rope 56 passes through the pulley 53 and is connected with the top of the sliding block 2, the four supporting columns 58 are distributed at the top of the mounting frame 1 in a rectangular shape, and the rain baffle 57 is arranged at the tops of the four supporting columns 58; when the degree of depth of the rainwater of accumulation on the ground is too high, elevator motor 55 work drives rolling wheel 54 and rotates, and rolling wheel 54 drives the top of stay cord 56 and twines on its surface, and stay cord 56 utilizes pulley 53 to stimulate sliding block 2 rebound on two slide rails 7, and sliding block 2 drives the cabinet body 3 rebound, avoids subaerial rainwater to get into to the cabinet body 3 in, and weather shield 57 prevents rain to elevator motor 55, avoids the rainwater to damage elevator motor 55.

The present invention has been described in terms of the preferred embodiment, and it is not intended to be limited to the embodiment. 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 (10)

1. The intelligent electric power cabinet system based on cloud computing is characterized by comprising an installation frame (1), a sliding block (2), a cabinet body (3), a water collecting tank (4), a height adjusting assembly (5), an installation assembly (6), two sliding rails (7) and two heat dissipation assemblies (8), wherein the two sliding rails (7) are symmetrically arranged on the outer side wall of the installation frame (1), the sliding block (2) is slidably installed on the two sliding rails (7), the outer wall of the back face of the cabinet body (3) is connected with the sliding block (2), the outer wall of the front face of the cabinet body (3) is hinged with two sliding doors (31), the water collecting tank (4) is arranged at the top of the cabinet body (3), the height adjusting assembly (5) is arranged at the top of the installation frame (1), the bottom end of the height adjusting assembly (5) is connected with the sliding block (2), the installation assembly (6) is arranged inside the cabinet body (3), the two heat dissipation assemblies (8) are respectively arranged on the outer walls of the two sides of the cabinet body (3), the water collection tank (4) is internally provided with a herringbone guide plate (41), the bottom end of the mounting frame (1) is provided with a liquid level sensor (11), and the bottom of the mounting frame (1) is provided with four ground cones (12) which are distributed in a rectangular shape.

2. The intelligent cloud-computing-based power cabinet system according to claim 1, wherein each heat dissipation assembly (8) comprises a heat dissipation box (81), a transmission component (82), a driving component (83) and a plurality of rotating components (84), the heat dissipation box (81) is installed on the outer wall of the cabinet body (3), the inside of the heat dissipation box (81) is communicated with the inside of the cabinet body (3), a plurality of rotating parts (84) are arranged in the heat dissipation box (81) at equal intervals, and the top ends of the plurality of rotating members (84) extend to the outside of the heat dissipation box (81), the transmission part (82) is arranged on the outer wall of the top end of the heat dissipation box (81), the driving part (83) is arranged on the outer walls of the heat dissipation box (81) and the cabinet body (3), and the driving component (83) is used for driving the transmission component (82) to rotate.

3. The cloud computing-based intelligent power cabinet system according to claim 2, wherein each rotating part (84) comprises a first rotating shaft (841), a second rotating shaft (842), a heat dissipation barrel (843), a driven sprocket (844), an arc-shaped chute (845), a slider (846), a rotating plate (847) and a connecting column (848), the first rotating shaft (841) is rotatably installed at the top end of the inside of the heat dissipation box (81), the top end of the first rotating shaft (841) extends to the outside of the heat dissipation box (81), the second rotating shaft (842) is rotatably installed at the bottom end of the inside of the heat dissipation box (81), the heat dissipation barrel (843) is arranged in the heat dissipation box (81), the upper end and the lower end of the heat dissipation barrel (843) are respectively connected with the first rotating shaft (841) and the second rotating shaft (842), a heat dissipation groove (849) is formed in the heat dissipation barrel (843), the driven sprocket (844) is installed at the top of the first rotating shaft (841), set up at the top of heat dissipation case (81) arc spout (845), arc spout (845) are 90 contained angles and set up, slider (846) slidable mounting is in arc spout (845), install on the top outer wall of first pivot (841) rotor plate (847), the both ends of spliced pole (848) are connected with rotor plate (847) and slider (846) respectively, be equipped with on the outer wall of heat dissipation case (81) and lead to groove (811) corresponding with heat dissipation groove (849), it installs filter screen (812) in leading to groove (811).

4. The intelligent cloud computing-based power cabinet system according to claim 3, wherein the transmission component (82) comprises a driving seat (821), a driving shaft (822), a driving sprocket (823), a first tapered tooth (824) and a chain (825), the driving seat (821) is installed on an outer wall of the top end of the heat dissipation box (81), the driving shaft (822) is rotatably installed on the driving seat (821), the upper end and the lower end of the driving shaft (822) extend to the outside of the driving seat (821), the driving sprocket (823) is installed on the top of the driving shaft (822), the first tapered tooth (824) is installed on the bottom of the driving shaft (822), and the chain (825) is sleeved on the outside of the driving sprocket (823) and a driven sprocket (844) in the plurality of rotating components (84).

5. A cloud computing-based intelligent power cabinet system according to claim 4, wherein the driving component (83) comprises a bearing seat (831), a rotating shaft (832), a second tapered tooth (833), a rotating sleeve (834), a fixing frame (835), a drainage box (836), a drainage pipe (837), a limiting component (838) and a plurality of blades (839), the bearing seat (831) is installed on the top outer wall of the heat dissipation box (81), the rotating shaft (832) is rotatably installed on the bearing seat (831), the front end and the rear end of the rotating shaft (832) both extend to the outside of the bearing seat (831), the second tapered tooth (833) is installed at the front end of the rotating shaft (832), the rotating sleeve (834) is installed at the rear end of the rotating shaft (832), the plurality of blades (839) are arranged on the outer wall of the rotating sleeve (832) at equal intervals around the center of the rotating shaft (832), the utility model discloses a cabinet, including the cabinet body, mount (835), drain tank (836), the bottom of drain tank (836) is equipped with water drainage tank (8361) rather than inside being linked together, the top of drain pipe (837) is linked together with the inside bottom of header tank (4), the bottom of drain pipe (837) extends to the top of drain tank (836), locating part (838) are installed in drain tank (836) to the bottom of locating part (838) is passed water drainage tank (8361) and is extended to between two adjacent blades (839).

6. The cloud computing-based intelligent power cabinet system according to claim 5, wherein the limiting member (838) comprises a floating plate (8381), a limiting plate (8382) and two guide slots (8383), the two guide slots (8383) are symmetrically arranged on two side inner walls of the drainage tank (836), the floating plate (8381) is arranged in the drainage tank (836), two sides of the floating plate (8381) are respectively in sliding fit with the two guide slots (8383), the limiting plate (8382) is installed at the bottom of the floating plate (8381), and the bottom end of the floating plate (8381) passes through the drainage tank (8361) and extends to between two adjacent blades (839).

7. The intelligent cloud-computing-based power cabinet system according to claim 1, the mounting assembly (6) comprises a mounting shaft (61), a turntable (62), an adjusting shaft (63), an adjusting handle (64), a driving wheel (65), a driven wheel (66), a belt (67) and a mounting part (68), the mounting shaft (61) is rotatably mounted at the bottom end of the inner part of the cabinet body (3), the turntable (62) is mounted at the top of the mounting shaft (61), the adjusting shaft (63) is rotatably arranged at the bottom end of the inner part of the cabinet body (3), the adjusting handle (64) is arranged at the top of the adjusting shaft (63), the driving wheel (65) is arranged on the adjusting shaft (63), the driven wheel (66) is arranged on the mounting shaft (61), the belt (67) is sleeved outside the driving wheel (65) and the driven wheel (66), the mounting part (68) is vertically arranged on the top of the rotary disc (62).

8. The intelligent power cabinet system based on cloud computing of claim 7, characterized in that, installation component (68) includes installing frame (681), installing frame (681) is vertical setting at the top of carousel (62), all be equipped with installation cavity (682) on the four sides outer wall of installing frame (681), be equipped with the carrier (683) that a plurality of equidistant setting in installation cavity (682), be equipped with water conservancy diversion chamber (684) in installation frame (681), water conservancy diversion chamber (684) is linked together with installation cavity (682).

9. The cloud computing-based intelligent power cabinet system according to claim 8, wherein each bearing member (683) comprises a bearing plate (685) and two limit rails (686), the two limit rails (686) are symmetrically arranged in a mounting cavity (682), two sides of the bearing plate (685) are respectively in sliding fit with the two limit rails (686), and a pull groove (687) is arranged on an outer side wall of the bearing plate (685).

10. The intelligent cloud computing-based power cabinet system according to claim 1, wherein the height adjusting assembly (5) comprises a first mounting seat (51), a second mounting seat (52), a pulley (53), a winding wheel (54), a lifting motor (55), a pulling rope (56), a rain baffle (57) and four pillars (58), the first mounting seat (51) and the second mounting seat (52) are arranged on the top of the mounting frame (1) at intervals, the pulley (53) is rotatably arranged in the first mounting seat (51), the winding wheel (54) is rotatably arranged in the second mounting seat (52), the lifting motor (55) is horizontally arranged on the top of the mounting frame (1), an output shaft of the lifting motor (55) is connected with the winding wheel (54), the top end of the pulling rope (56) is connected with the winding wheel (54), and the bottom end of the sliding block (56) passes through the pulley (53) and then is connected with the top of the pulling rope (2), the four pillars (58) are distributed at the top of the mounting rack (1) in a rectangular mode, and the rain baffles (57) are mounted at the tops of the four pillars (58).

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