CN112952622A - Intelligent switch cabinet and use method thereof - Google Patents

Abstract

The invention relates to the technical field of switch cabinets, and discloses an intelligent switch cabinet which comprises a cabinet body, wherein a base is welded at the bottom of the cabinet body, side seats are welded at two sides of the cabinet body, a cabinet door is fixedly installed at the front part of the cabinet body, an installation bottom box is connected in the cabinet body through bolts, a dehumidification and heat dissipation mechanism is arranged in the installation bottom box, a dust collection box is clamped on the inner wall of the cabinet body, an isolation net is fixedly connected above the dust collection box through bolts, and a dust removal and heat dissipation mechanism is arranged in the cabinet body. According to the intelligent switch cabinet and the use method thereof, the dehumidification and heat dissipation effect on the interior of the cabinet body is achieved by utilizing the mutual operation between the structures in the dehumidification and heat dissipation mechanism and the dust removal and heat dissipation mechanism, and the moisture and the hot gas in the interior of the cabinet body are absorbed and dissipated, so that the effect of ensuring the operation environment safety of internal elements is achieved, and the service life of electrical elements is prolonged.

Description

Intelligent switch cabinet and use method thereof

Technical Field

The invention relates to the technical field of switch cabinets, in particular to an intelligent switch cabinet and a using method thereof.

Background

The switch cabinet is an electrical device, the external line of the switch cabinet is firstly connected with a main control switch in the cabinet, then connected with branch control switches, and each branch is arranged according to the requirements, such as an instrument, an automatic control, various alternating current contactors and the like. The main function of the switch cabinet is to open and close, control and protect the electric equipment in the process of generating, transmitting, distributing and converting electric energy of the power system. The device in the switch cabinet mainly has circuit breaker, isolator, load switch, operating device, mutual-inductor and various protection device etc. there is certain contact resistance between the moving contact of current cubical switchboard inside and the static contact to because the cubical switchboard of electric power system is located the environment probably more abominable, air humidity is great, and air temperature is higher, leads to the moving contact to have great humidity between the static contact, can appear the electric leakage phenomenon in serious time, causes electrical components to burn out, causes the circular telegram trouble partially in serious time, even on a large scale.

At present, inside dehumidification and the dust removal mechanism of lacking of present cubical switchboard to the radiating effect is relatively poor, because cubical switchboard internal work's electrical components is more, the heat of production is also great, electrical components work for a long time in the higher environment of temperature, will shorten life, and traditional cubical switchboard is for guaranteeing that inside does not intake and sets up to encapsulated situation, and this has just led to its inside heat to pile up, so proposes an intelligent switch cabinet and application method thereof and solves the above-mentioned problem that proposes.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent switch cabinet and a using method thereof aiming at the defects in the prior art.

In order to solve the technical problems, the invention adopts the technical scheme that: the utility model provides an intelligent switch cabinet, includes the cabinet body, the bottom welding of the cabinet body has the base, the both sides welding of the cabinet body has the side seat, the anterior fixed mounting of the cabinet body has the cabinet door, there is the installation under casing the internal bolted connection of cabinet, the inside of installing the under casing is provided with dehumidification heat dissipation mechanism, the inner wall joint of the cabinet body has miscellaneous dirt collecting box, the cabinet body is located the top of miscellaneous dirt collecting box and passes through bolt fixedly connected with separation net, the inside of the cabinet body is provided with dust removal heat dissipation mechanism, the cabinet body is located the below of miscellaneous dirt collecting box and installs intelligent control box, there is display panel on the left side of intelligent control box through bolted connection, the front portion that intelligent control box is located display panel is provided with the control button, through setting up miscellaneous dirt collecting box, reaches the effect of carrying out collection.

Preferably, the dehumidification and heat dissipation mechanism comprises a motor, a first auxiliary moving roller and a dehumidification device, the surface of the motor is fixedly connected with the inner wall of the installation bottom box through bolts, a first driving roller is clamped on an output shaft of the motor, a first horizontal bevel gear is welded at the top of the first driving roller, a vertical bevel gear is meshed with the surface of the horizontal bevel gear, a double-fan shaft rod is welded inside the vertical bevel gear, a driving pinion is welded at the bottom of the first auxiliary moving roller, a driven large gear is meshed with the surface of the driving pinion, a connecting shaft rod is welded inside the driven large gear, a radius plate is welded at the bottom of the connecting shaft rod, a linkage sliding column is welded at the bottom of the radius plate, a hollow sliding strip is connected to the surface of the linkage sliding column in a sliding manner, a long rack is welded at the right side of the hollow sliding strip, and a driven pinion is meshed with the, the inside welding of driven pinion has drive roll two, reaches the radiating effect of dehumidifying to the internal portion of cabinet, absorbs the dissipation to the moisture and the steam of the internal portion of cabinet to guarantee the effect of internal component operational environment safety, improved electrical components's life.

Preferably, the surface of the double-fan shaft rod is rotatably connected with the inside of the installation bottom box, the tops of the first auxiliary roller and the first connecting shaft rod are respectively rotatably connected with the inside of the installation bottom box, the surface of the first auxiliary roller is in transmission connection with the surface of the first driving roller through a belt, the bottoms of the hollow slide bar and the long rack are both in sliding connection with the inner wall of the installation bottom box, the two ends of the second driving roller are both rotatably connected with the inside of the installation bottom box, the double-fan shaft rod is composed of a connecting shaft and two fans, and the fans on the double-fan shaft rod are used for generating wind power to blow the inside of the cabinet body in the rotating process, so that the effect of accelerating the flow of air in the cabinet body is achieved, and further contact reaction of the air and calcium oxide is.

Preferably, the dehumidifying device comprises a dehumidifying box, the bottom of the dehumidifying box is fixedly connected with the upper surface of an installation bottom box through bolts, the inside of the dehumidifying box is respectively and slidably connected with a first agent releasing net cage, a second agent releasing net cage and a third agent releasing net cage, the first agent releasing net cage is located above the second agent releasing net cage, the second agent releasing net cage is located above the third agent releasing net cage, linkage arm columns are welded on two sides of the first agent releasing net cage, a threaded rod is connected to the internal threads of the linkage arm columns, and a second auxiliary roller is welded at the bottom of the threaded rod to achieve the dehumidifying effect in the air inside the cabinet body, so that the safety of the operating environment of internal elements of the dehumidifying device is guaranteed.

Preferably, the surface of the linkage arm column is in sliding connection with the inside of the dehumidification box, the bottom end of the secondary roller II is rotatably connected with the inside of the dehumidification box, and the surface of the secondary roller II is in transmission connection with the surface of the driving roller II through a belt, so that the effect of limiting the sliding track of the linkage arm column is achieved, and the effect of enabling the linkage arm column to only perform vertical sliding motion in the dehumidification box is achieved.

Preferably, the absorption hole has been seted up in the left side of dehumidification case, the chamber of catchmenting has been seted up to the inside of dehumidification case, the inside in chamber of catchmenting is provided with into water check valve and outlet valve, absorbs the effect that the calcium oxide in each of the agent net incasement of being convenient for dehumidify carries out adsorbed moisture through setting up to reach the purpose of being convenient for carry out dehumidification work to the cabinet body.

Preferably, dust removal heat dissipation mechanism is including electric putter, electric putter's the inside fixed connection that bolt and the cabinet body were passed through on the surface, electric putter's output shaft joint has short rack, the left side welding of short rack has the connecting block, the left side welding of connecting block has the dust removal brush-holder stud, the anterior meshing of short rack has the meshing pinion, the inside welding of meshing pinion has the scroll bar, the surface of scroll bar is provided with air breather, reaches the effect of ventilating the cabinet body according to required, is further convenient for dissipate the moisture and the steam of the internal portion of cabinet.

Preferably, the surface of short rack and connecting block respectively with the inner wall sliding connection of the cabinet body, the meshing pinion passes through the axle and is connected with the inside rotation of the cabinet body, the right side of dust removal brush-holder stud and the surface of isolation net contact each other, reach the effect that the breather operated at electric putter operation initial stage, the meshing of while short time drives and has further restricted its pivoted effect to the privacy of the internal portion of cabinet has been ensured.

Preferably, the breather is including connecting the bull stick, the surface of connecting the bull stick is connected with the inside rotation of side seat, the front end welding of connecting the bull stick has the turbine, the skin weld of connecting the bull stick has breather, the air vent has been seted up to breather's inside, the surface of turbine and the surperficial intermeshing of scroll pole, the operation of closing through the rotary type carries out the one-step problem of avoiding the external moisture entering of overcast and rainy weather.

An intelligent switch cabinet and a use method thereof are disclosed: the method comprises the following use methods:

the method comprises the following steps: the method comprises the following steps that a humidity sensor and a temperature sensor are arranged inside a cabinet body, the humidity sensor is used for sensing the humidity condition inside the cabinet body and controlling whether a mechanism is started or not, the temperature sensor is used for sensing the temperature condition inside the cabinet body and judging whether cooling and heat dissipation are carried out or not, and when a bottom box is assembled and installed, corresponding anhydrous calcium oxide particles are respectively placed in a first agent releasing net cage, a second agent releasing net cage and a third agent releasing net cage;

step two: when the internal elements of the cabinet body operate, the humidity sensor and the temperature sensor judge the internal environment, and meanwhile, the anhydrous calcium oxide particles in the agent releasing net box physically adsorb air moisture in the cabinet body, the anhydrous calcium oxide particles react with the anhydrous calcium oxide particles after absorbing the moisture to form liquid, the liquid flows into the dehumidifying box from holes in the agent releasing net box and flows into the water collecting cavity through a water inlet one-way valve arranged in the dehumidifying box, so that the effect of collecting the liquid after reaction is further achieved, the moisture in the air is adsorbed, and the effect of keeping the air in the cabinet from being damp is achieved;

step three: when the humidity sensor senses that moisture in the cabinet is too heavy, an instruction is sent to the motor, an output shaft of the motor drives the first driving roller to rotate, the first driving roller drives the double-fan shaft rods in the vertical bevel gears to rotate through the horizontal bevel gears, and the double-fan shaft rods generate wind power through the fans on the double-fan shaft rods in the rotating process to accelerate the air flow in the cabinet, so that the air and calcium oxide are promoted to further contact and react;

step four: the driving roller I drives a driving pinion on the auxiliary driving roller I to rotate through a belt, the driving pinion rotates for multiple circles to drive a connecting shaft rod in a driven large gear meshed with the surface of the driving roller I to rotate, the connecting shaft rod drives a hollow slide bar to slide in an installation bottom box through a linkage slide column on a radius plate, and the hollow slide bar drives a driving roller II on the driven pinion to rotate forwards and backwards through a long rack welded on the hollow slide bar;

step five: the driving roller II rotates forwards and backwards, meanwhile, the belt is used for driving the auxiliary roller II to rotate, the auxiliary roller II drives the linkage arm column to move up and down through the threaded rod welded and fixed in the auxiliary roller II, the linkage arm column drives the first agent releasing net cage to move up and down in the up and down moving process, meanwhile, the auxiliary roller II indirectly contacts with the side surfaces of the second agent releasing net cage and the third agent releasing net cage in sequence and drives the auxiliary roller to move up and down in the contacting process, each agent releasing box expands calcium oxide originally stacked in the up and down moving process, the effect of increasing the contact area of the calcium oxide with air is further achieved, meanwhile, the fan further quickly contacts the air with the surface of the calcium oxide, the dehumidification efficiency is improved, the fan blows the calcium oxide surface to a certain degree while generating wind power, and the effect of recycling of the calcium oxide is further facilitated;

step six: the temperature sensor and the humidity sensor jointly judge whether the dedusting and heat dissipation mechanism is started, when the dedusting and heat dissipation mechanism needs to be started, an output shaft of the electric push rod drives the short rack to slide up and down in the cabinet body, and drives the meshing pinion and the connecting block which are meshed with the surface of the short rack to perform corresponding operation in the up-and-down sliding process, the meshing pinion drives the turbine to rotate through the scroll rod in the meshing pinion while rotating, the turbine drives the ventilation device to rotate through the connecting rotating rod which is fixedly welded in the turbine, the maximum rotating angle of the ventilation device is limited, the short rack and the meshing pinion are not meshed after the ventilation device rotates, the angle of the ventilation device is fixed by the self-locking property of the turbine and the scroll rod, and hot and humid air in the cabinet body can be exchanged with external air through the;

step seven: the connecting block drives its left side welded fastening's dust removal brush-holder stud to remove when removing along with short rack, the dust removal brush-holder stud contacts with the surface of separation net at the removal in-process to strike off the effect to its surface, at the in-process of striking off, in the miscellaneous ash part of separation net drops the miscellaneous dirt collecting box, most receives the influence of wind-force to blow off to the outside of the cabinet body, further reach the effect of regularly removing dust to the separation net, further ensured that the cabinet body carries out radiating effect through the separation net.

By adopting the technical scheme, the invention can bring the following beneficial effects:

1. utilize the function of mutually between each inside structure of dehumidification heat dissipation mechanism and dust removal heat dissipation mechanism to reach the radiating effect of dehumidifying to the internal portion of cabinet, absorb the dissipation to the moisture of the internal portion of cabinet and steam to guarantee the effect of internal component operational environment safety, improved electrical components's life.

2. Set up dehydrating unit excessively, utilize the interoperable effect that dehumidifies among each its inside each structure to reach the internal portion air of cabinet in to guarantee its internal component operational environment's security, usable its moisture in the adsorption air of faster speed when internal portion moisture of cabinet is overweight simultaneously.

3. Utilize the function each other between each inside structure of dust removal heat dissipation mechanism, reach the effect of ventilating according to the needs to the cabinet body, further be convenient for dissipate the moisture and the steam of the internal portion of cabinet to guarantee the effect of inner member operational environment safety, regularly remove dust to the surface of separation net simultaneously, further guaranteed the cabinet body through the effect that the separation net dehumidifies that dispels the heat.

4. Through setting up ventilation unit, utilize the effect that the cabinet body was ventilated according to required to reach in the function of each inside structure, the moisture and the steam of the internal portion of cabinet of being convenient for further dissipate to guarantee the effect of internal element operational environment safety, the operation that the accessible rotary type was closed simultaneously carries out the one step and reaches the problem of avoiding the external moisture of overcast and rainy weather to get into.

5. Through setting up the miscellaneous dirt collecting box, reach the effect of carrying out collection processing to the miscellaneous dirt on the spacer screen, further reach the effect that the guarantee cabinet body dispels the heat and dehumidifies through the spacer screen, reach the effect inside the isolation cabinet and outside the cabinet through setting up the spacer screen simultaneously, avoided the foreign object to get into the problem that influences the operation of inner member.

6. Through setting up the double fan axostylus axostyle, the double fan axostylus axostyle comprises a connecting axle and two fans, utilizes the fan on it to produce wind-force and blows to cabinet body inside at the rotation in-process, reaches the effect that the internal air of cabinet carries out the flow with higher speed to promote air and calcium oxide further contact reaction.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent switch cabinet according to the present invention;

fig. 2 is a schematic structural diagram of an intelligent switch cabinet according to the present invention;

fig. 3 is a schematic structural diagram of an intelligent switch cabinet according to the present invention;

fig. 4 is a schematic structural diagram of an intelligent switch cabinet according to the present invention;

fig. 5 is a schematic structural diagram of an intelligent switch cabinet according to the present invention;

fig. 6 is a schematic structural diagram of an intelligent switch cabinet according to the present invention;

fig. 7 is a schematic structural diagram of an intelligent switch cabinet according to the present invention.

In the figure: 1. a cabinet body; 2. a base; 3. a side seat; 4. a cabinet door; 5. installing a bottom box; 6. a dehumidification heat dissipation mechanism; 61. a motor; 62. a first driving roller; 63. a flat bevel gear; 64. a vertical bevel gear; 65. a double fan shaft lever; 66. a first auxiliary moving roller; 67. a dehumidifying device; 671. a dehumidification box; 672. a first agent releasing net cage; 673. a second agent releasing net cage; 674. a third agent releasing net cage; 675. a linkage arm column; 676. a threaded rod; 677. a second auxiliary roller; 678. a water collection cavity; 68. a drive pinion; 69. a driven bull gear; 610. connecting the shaft lever; 611. a radius plate; 612. a linking slide post; 613. a hollow slide bar; 614. a long rack; 615. a driven pinion gear; 616. a second driving roller; 7. a dust collection box; 8. an isolation net; 9. a dust removal heat dissipation mechanism; 91. an electric push rod; 92. a short rack; 93. connecting blocks; 94. a dust removal brush bar; 95. a meshing pinion gear; 96. a scroll bar; 97. a breather device; 971. connecting the rotating rod; 972. a turbine; 973. a breather device; 10. an intelligent control box; 11. a display panel; 12. and controlling the keys.

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.

An intelligent switch cabinet, as shown in fig. 1-6, comprises a cabinet body 1, a base 2 welded at the bottom of the cabinet body 1, side seats 3 welded at both sides of the cabinet body 1, a cabinet door 4 fixedly installed at the front of the cabinet body 1, an installation bottom case 5 connected with the inside of the cabinet body 1 through bolts, a dehumidifying and heat dissipating mechanism 6 arranged inside the installation bottom case 5, a miscellaneous dust collecting box 7 clamped on the inner wall of the cabinet body 1, an isolation net 8 fixedly connected with the cabinet body 1 above the miscellaneous dust collecting box 7 through bolts, a dust removing and heat dissipating mechanism 9 arranged inside the cabinet body 1, an intelligent control box 10 installed below the miscellaneous dust collecting box 7 on the cabinet body 1, a display panel 11 connected with the left side of the intelligent control box 10 through bolts, a control button 12 arranged at the front of the display panel 11 on the intelligent control box 10, a safety monitoring module and a cutting module arranged inside the intelligent control box 10, when the intelligent control box 10 is connected with the elements in the cabinet body 1, the real-time information of each element is intelligently detected, when detecting the problems of component loss in the cabinet body 1, capacitor bank reignition, circuit burnout or excessive moisture content in the air in the cabinet body 1 caused by untimely dehumidification, the cutting-off module is started to forcibly cut off the component connection with loss in the cabinet body, thereby achieving the effect of automatic intelligent detection, simultaneously transmitting the related information to the general service desk after the detection, informing the related personnel to carry out maintenance, by arranging the dust collecting box 7, the effect of collecting and processing the dust on the separation net 8 is achieved, the effect of ensuring the cabinet body 1 to radiate and dehumidify through the separation net 8 is further achieved, meanwhile, the effect of isolating the inside and the outside of the cabinet is achieved by arranging the isolation net 8, and the problem that foreign objects enter to influence the operation of internal elements is avoided.

In this embodiment, the dehumidifying and heat dissipating mechanism 6 includes a motor 61, a first auxiliary roller 66 and a dehumidifying device 67, the surface of the motor 61 is fixedly connected with the inner wall of the installation bottom box 5 by bolts, the output shaft of the motor 61 is connected with a first driving roller 62 in a clamping manner, the top of the first driving roller 62 is welded with a horizontal bevel gear 63, the surface of the horizontal bevel gear 63 is engaged with a vertical bevel gear 64, the inside of the vertical bevel gear 64 is welded with a double-sector shaft rod 65, the bottom of the first auxiliary roller 66 is welded with a driving pinion 68, the surface of the driving pinion 68 is engaged with a driven gearwheel 69, the inside of the driven gearwheel 69 is welded with a connecting shaft 610, the bottom of the connecting shaft 610 is welded with a radius plate 611, the bottom of the radius plate 611 is welded with a linkage sliding column 612, the surface of the sliding column 612 is slidably connected with a hollow sliding strip 613, a sliding block is fixed below the hollow sliding strip 613, the right side of the hollow slide bar 613 is welded with a long rack 614, the surface of the long rack 614 is engaged with a driven pinion 615, the inside of the driven pinion 615 is welded with a second driving roller 616, and by arranging the dehumidifying and heat-dissipating mechanism 6, the dehumidifying and heat-dissipating effect on the inside of the cabinet body 1 is achieved by utilizing the mutual operation among all structures inside the dehumidifying and heat-dissipating mechanism 6, and moisture and hot air inside the cabinet body 1 are absorbed and dissipated, so that the safety effect of the operating environment of internal elements is ensured, and the service life of electrical elements is prolonged.

Further, the surface of the double-fan shaft rod 65 is rotatably connected with the inside of the installation bottom box 5, the tops of the first auxiliary roller 66 and the connecting shaft rod 610 are respectively rotatably connected with the inside of the installation bottom box 5, the surface of the first auxiliary roller 66 is in transmission connection with the surface of the first driving roller 62 through a belt, the bottoms of the hollow slide bar 613 and the long rack 614 are both in sliding connection with the inner wall of the installation bottom box 5, the two ends of the second driving roller 616 are both rotatably connected with the inside of the installation bottom box 5, the double-fan shaft rod 65 is formed by a connecting shaft and two fans, and the fans on the double-fan shaft rod 65 are used for generating wind power to blow the inside of the cabinet body 1 in the rotating process, so that the effect of accelerating the flow of the air in the cabinet body 1 is achieved, and further contact reaction of the air and calcium oxide is promoted.

Furthermore, the dehumidifier 67 comprises a dehumidifying tank 671, the bottom of the dehumidifying tank 671 is fixedly connected with the upper surface of the installation bottom box 5 through bolts, a first agent releasing net cage 672, a second agent releasing net cage 673 and a third agent releasing net cage 674 are respectively connected in the dehumidifying tank 671 in a sliding manner, the first agent placing net cage 672 is positioned above the second agent placing net cage 673, the second agent placing net cage 673 is positioned above the third agent placing net cage 674, the two sides of the first agent placing net cage 672 are respectively welded with a linkage arm column 675, the inner threads of the linkage arm columns 675 are connected with a threaded rod 676, the bottom of the threaded rod 676 is welded with a secondary roller 677, by arranging the dehumidifying device 67, the effect of dehumidifying the air in the cabinet body 1 is achieved by the mutual operation of the internal structures, thereby ensuring the safety of the operation environment of the internal components thereof, and simultaneously utilizing the moisture in the adsorbed air at a higher speed when the moisture in the cabinet 1 is too heavy.

It is worth noting that the surface of the linkage arm column 675 is in sliding connection with the inside of the dehumidification tank 671, the bottom end of the secondary roller 677 is in rotating connection with the inside of the dehumidification tank 671, the surface of the secondary roller 677 is in transmission connection with the surface of the driving roller 616 through a belt, the effect of limiting the sliding track of the linkage arm column 675 is achieved by arranging the surface of the linkage arm column 675 in sliding connection with the inside of the dehumidification tank 671, the effect of enabling the linkage arm column 675 to only slide up and down in the dehumidification tank 671 is achieved, the effect of driving the threaded rod 676 to rotate when the motor 61 rotates is further achieved by arranging the surface of the secondary roller 677 in transmission connection with the surface of the driving roller 616 through a belt.

It is worth to be noted that the absorption hole is formed in the left side of the dehumidification tank 671, the water collection cavity 678 is formed in the dehumidification tank 671, the water inlet check valve and the water outlet valve are arranged in the water collection cavity 678, and the effect that the calcium oxide in each agent discharge net cage in the dehumidification tank 671 can adsorb moisture conveniently is achieved by the absorption hole, so that the aim of dehumidifying the cabinet body 1 conveniently is achieved.

As shown in fig. 6-7, the dust removing and heat dissipating mechanism 9 includes an electric push rod 91, the surface of the electric push rod 91 is fixedly connected with the inside of the cabinet 1 through bolts, an output shaft of the electric push rod 91 is connected with a short rack 92 in a clamping manner, a connecting block 93 is welded on the left side of the short rack 92, a dust removing brush rod 94 is welded on the left side of the connecting block 93, a meshing pinion 95 is meshed with the front portion of the short rack 92, a scroll bar 96 is welded inside the meshing pinion 95, an air breather 97 is arranged on the surface of the scroll bar 96, by arranging the dust removal and heat dissipation mechanism 9, the effect of ventilating the cabinet body 1 according to the requirement is achieved by utilizing the mutual operation among all structures in the dust removal and heat dissipation mechanism 9, the dissipation of moisture and hot air in the cabinet body 1 is further facilitated, thereby the effect of guarantee interior component operational environment safety, regularly remove dust to the surface of separation net 8 simultaneously, further ensured the cabinet body 1 through the effect that the separation net 8 dispels the heat and dehumidifies.

In this embodiment, the surface of short rack 92 and connecting block 93 respectively with the inner wall sliding connection of the cabinet body 1, meshing pinion 95 is connected through the inside rotation of axle with the cabinet body 1, the right side of dust removal brush-holder stud 94 and the surface of separation net 8 contact each other, reach the effect of functioning at electric putter 91 initial stage breather 973 through setting up short rack 92, the meshing drive of while short time has further limited its pivoted effect, thereby the inside privacy of the cabinet body 1 has been ensured, reach the effect of auto-lock through setting up turbine 972 scroll bar 96, further reach the effect of fixed breather 973 angle.

Further, breather 97 is including connecting bull stick 971, the surface of connecting bull stick 971 is connected with the inside rotation of side seat 3, the front end welding of connecting bull stick 971 has turbine 972, the skin weld of connecting bull stick 971 has breather 973, the air vent has been seted up to breather 973's inside, the surface of turbine 972 and vortex pole 96's surface intermeshing, through setting up breather 97, utilize the function of each other between its inside each structure to reach the effect that the cabinet body 1 ventilates according to needs, further be convenient for dissipate the inside moisture of the cabinet body 1 and steam, thereby guarantee inner member function environmental safety's effect, the operation that accessible rotary type was closed simultaneously further reaches the problem of avoiding the external moisture entering of overcast and rainy weather.

An intelligent switch cabinet and a using method thereof comprise the following using methods:

the method comprises the following steps: a humidity sensor and a temperature sensor are arranged in the cabinet body 1, the humidity sensor is used for sensing the humidity condition in the cabinet body 1 and controlling whether a mechanism is started or not, the temperature sensor is used for sensing the temperature condition in the cabinet body 1 and judging whether cooling and heat dissipation are carried out or not, and when the bottom box 5 is assembled and installed, corresponding anhydrous calcium oxide particles are respectively placed in the first agent releasing net cage 672, the second agent releasing net cage 673 and the third agent releasing net cage 674;

step two: when the internal elements of the cabinet body 1 operate, the humidity sensor and the temperature sensor judge the internal environment, meanwhile, the anhydrous calcium oxide particles in the agent releasing net cage physically adsorb air moisture in the cabinet body 1, the anhydrous calcium oxide particles react with the anhydrous calcium oxide particles after absorbing the moisture to form liquid, the liquid flows to the inside of the dehumidification tank 671 from holes in the agent releasing net cage, and flows to the water collection cavity 678 through a water inlet one-way valve arranged in the water collection cavity 678, so that the effects of adsorbing the moisture in the air and ensuring the moisture-proof air in the cabinet are achieved;

step three: when the humidity sensor senses that the moisture in the cabinet body 1 is overweight, an instruction is sent to the motor 61, an output shaft of the motor 61 drives the first driving roller 62 to rotate, the first driving roller 62 drives the double-fan shaft rod 65 in the vertical bevel gear 64 to rotate through the horizontal bevel gear 63, and the double-fan shaft rod 65 generates wind power by using a fan on the double-fan shaft rod in the rotating process, so that the flowing of air is accelerated in the cabinet body 1, and further contact reaction between the air and calcium oxide is promoted;

step four: the driving roller I62 drives the driving pinion 68 on the auxiliary driving roller I66 to rotate through a belt, the driving pinion 68 rotates for multiple circles to drive the connecting shaft rod 610 in the driven gearwheel 69 meshed with the surface of the driving roller I to rotate, the connecting shaft rod 610 drives the hollow slide bar 613 to slide in the installation bottom box 5 through the linkage slide column 612 on the radius plate 611, and the hollow slide bar 613 drives the driving roller II 616 on the driven pinion 615 to rotate forwards and reversely through the long rack 614 welded on the hollow slide bar 613;

step five: the second driving roller 616 rotates positively and negatively and simultaneously drives the second driven roller 677 to rotate by utilizing the belt, the second driven roller 677 drives the linkage arm column 675 to move up and down by a threaded rod 676 fixed by welding in the second driven roller, the linkage arm column 675 drives the first agent releasing net 672 to move up and down in the process of moving up and down, simultaneously indirectly and sequentially contacts the side surfaces of the second agent-releasing net cage 673 and the third agent-releasing net cage 674, and drives the calcium oxide to move upwards in the contact process, each agent placing box moves up and down and simultaneously expands the calcium oxide originally piled up, the effect of increasing the contact area between the calcium oxide and air is further achieved, meanwhile, the fan further quickly contacts the air with the surface of the calcium oxide, the dehumidification efficiency is improved, the fan can generate wind power to blow and air-dry the surface of the calcium oxide to a certain degree, and the effect of recycling the calcium oxide is further facilitated;

step six: the temperature sensor and the humidity sensor jointly judge whether the dedusting and heat-dissipating mechanism 9 is started, when the dedusting and heat-dissipating mechanism needs to be started, the output shaft of the electric push rod 91 drives the short rack 92 to slide up and down in the cabinet body 1, and drives the engaging pinion 95 and the connecting block 93 which are engaged with each other with the surfaces thereof to perform corresponding operation in the process of sliding up and down, the engaging pinion 95 rotates and simultaneously drives the turbine 972 to rotate through the scroll bar 96 inside, the turbine 972 drives the ventilating device 973 to rotate through the connecting rotating rod 971 welded and fixed inside, the maximum rotating angle of the ventilating device 973 is limited, after the short rack 92 and the meshing pinion 95 are not meshed any more after the rotation, the angle of the ventilating device 973 is fixed by the self-locking property of the turbine 972 and the scroll bar 96, and the hot and humid air in the cabinet 1 can be exchanged with the external air through the hole in the ventilating device 973;

step seven: the connecting block 93 moves along with the short rack 92 and drives the dust removal brush rod 94 fixed by welding to move, the dust removal brush rod 94 is in contact with the surface of the isolation net 8 in the moving process and scrapes the surface of the isolation net, part of the impurity dust of the isolation net 8 falls into the impurity dust collecting box 7 in the scraping process, most of the impurity dust is blown away from the outside of the cabinet body 1 under the influence of wind power, the effect of removing dust of the isolation net 8 at regular time is further achieved, and the effect of radiating the cabinet body 1 through the isolation net 8 is further guaranteed.

The working principle is that a humidity sensor and a temperature sensor are arranged inside a cabinet body 1, the humidity sensor is used for sensing the humidity condition inside the cabinet body 1 and controlling whether a starting mechanism is started or not, the temperature sensor is used for sensing the temperature condition inside the cabinet body 1 and judging whether cooling and heat dissipation are carried out or not, when a bottom box 5 is assembled and installed, corresponding anhydrous calcium oxide particles are respectively placed in a first agent releasing net cage 672, a second agent releasing net cage 673 and a third agent releasing net cage 674, when elements inside the cabinet body 1 operate, the humidity sensor and the temperature sensor judge the internal environment, meanwhile, the anhydrous calcium oxide particles inside the agent releasing net cages carry out physical adsorption on air moisture inside the cabinet body 1, the anhydrous calcium oxide particles react with the anhydrous calcium oxide particles after absorbing the moisture to form liquid, the liquid flows from holes inside the agent releasing net cage to the dehumidifying box 671, and flows into a water collecting cavity 678 through a water inlet one-way valve arranged inside the agent releasing net cage, the effect of collecting the liquid after reaction is further achieved, so that the effects of adsorbing moisture in the air and guaranteeing the humidity resistance of the air in the cabinet are achieved, when the humidity sensor senses that the humidity in the cabinet body 1 is too heavy, an instruction is sent to the motor 61, an output shaft of the motor 61 drives the first driving roller 62 to rotate in the installation bottom box 5, the first driving roller 62 drives the horizontal bevel gear 63 fixedly welded on the first driving roller to rotate, the horizontal bevel gear 63 drives the vertical bevel gear 64 meshed with the surface of the vertical bevel gear to rotate in the rotating process, the vertical bevel gear 64 drives the double-fan shaft rod 65 fixedly welded inside the vertical bevel gear to rotate in the continuously rotating process, the double-fan shaft rod 65 is composed of a connecting shaft and two fans, the fans on the vertical bevel gear generate wind power to blow the inside of the cabinet body 1 in the rotating process, the air in the cabinet body 1 is accelerated to flow, and further contact reaction of the air and the calcium, meanwhile, the first driving roller 62 drives the first auxiliary driving roller 66 to rotate through a belt, the first auxiliary driving roller 66 drives a driving pinion 68 thereon to rotate in the rotating process, the driving pinion 68 drives a connecting shaft rod 610 in a driven gearwheel 69 engaged with the surface of the driving pinion 68 to rotate, due to the difference of diameters, the driving pinion 68 can drive the driven gearwheel 69 to rotate for a circle after rotating for a plurality of circles, the connecting shaft rod 610 drives a linking slide column 612 welded and fixed at the bottom of the radius plate 611 to move through a radius plate 611 welded and fixed thereon, the linking slide column 612 rotates by taking the axial point of the connecting shaft rod 610 as a round point, the hollow slide bar 613 is driven to slide in the installation bottom box 5 in the rotating process, the bottom of the hollow slide bar 613 is limited by the installation bottom box 5 to only perform sliding movement in the same horizontal line, and meanwhile, the hollow slide groove arranged in the driving slide column 612 is driven to move left and right by the hollow slide groove, the hollow slide bar 613 drives the long rack 614 welded thereon to slide left and right in the installation bottom box 5, the long rack 614 is utilized to drive the driven pinion 615 meshed with the surface of the long rack to rotate, the motion track of the driven pinion 615 is that the driven pinion 615 rotates a plurality of circles in a forward rotation way and then rotates a plurality of circles in a reverse rotation way, simultaneously the driving roller 616 on the driven pinion 615 rotates in a forward rotation way and a reverse rotation way, the driving roller 616 rotates in a forward rotation way and simultaneously drives the driven roller 677 in a belt way, the driven roller 677 drives the linkage arm column 675 to move up and down through the threaded rod 676 welded and fixed in the driven roller to realize threaded connection with the linkage arm column 675, meanwhile, the linkage arm column 675 is limited to only slide up and down in the dehumidification box 671, so that the linkage arm column 675 is driven to move up and down when the threaded rod 676 rotates, the linkage arm column 675 drives the first discharging agent net box 672 to move up and down in, at the same time, indirectly and sequentially contacts with the side surfaces of the second agent placing net cage 673 and the third agent placing net cage 674 and drives the second agent placing net cage and the third agent placing net cage to move upwards in the contact process, two convex plates are arranged at the rear part of the linkage arm column 675, when the linkage arm column 675 moves to a certain position, the convex plates are used for contacting with the corresponding net cages and driving the net cages to move, each agent placing box expands the calcium oxide originally piled up while moving up and down, the effect of increasing the contact area of the calcium oxide and air is further achieved, meanwhile, the fan further quickly contacts the air with the surface of the calcium oxide, the dehumidification efficiency is improved, the fan carries out air drying on the surface of the calcium oxide to a certain degree while generating wind power blowing, the effect of recycling of the calcium oxide is further facilitated, the temperature sensor and the humidity sensor jointly judge whether the dust removal and heat dissipation mechanism 9 is started, when the fan needs to be started, the output shaft of the electric push rod 91 drives the short rack 92 to slide up and down in the cabinet 1, and drives the meshing pinion 95 and the connecting block 93 which are meshed with the surfaces of the short rack to perform corresponding operations in the process of sliding up and down, the meshing pinion 95 rotates and simultaneously drives the turbine 972 to rotate through the scroll 96 in the meshing pinion, the turbine 972 drives the ventilating device 973 to rotate through the connecting scroll 971 which is welded and fixed in the turbine 972, the ventilating device 973 rotates by taking the shaft point of the connecting scroll 971 as a round point, the maximum rotating angle of the ventilating device 973 is limited, after the turbine 972 and the meshing pinion 95 are not meshed, the angle of the ventilating device 973 is fixed by the self-locking property of the turbine 972 and the scroll 96, hot and wet air in the cabinet 1 can be exchanged with the outside air through the hole in the ventilating device 973, the connecting block 93 drives the dedusting brush rod 94 which is welded and fixed on the left side to move along with the short rack 92, the dust removal brush rod 94 is in contact with the surface of the isolation net 8 in the moving process and has the scraping effect on the surface of the isolation net, part of the dust of the isolation net 8 falls into the dust collection box 7 in the scraping process, most of the dust is blown away from the outside of the cabinet body 1 under the influence of wind power, the effect of removing dust on the isolation net 8 at regular time is further achieved, the effect that the cabinet body 1 radiates heat through the isolation net 8 is further guaranteed, the hole formed in the ventilating device 973 is convenient for radiating heat and prevents foreign objects from entering, and the effect of isolating the inside and the outside of the cabinet body 1 is achieved through the isolation net 8 again.

The present invention provides an intelligent switch cabinet and a method for using the same, and a plurality of methods and ways for implementing the technical scheme, the above description is only a preferred embodiment of the present invention, it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. All the components not specified in the present embodiment can be realized by the prior art.

Claims (10)

1. The utility model provides an intelligent switch cabinet, includes the cabinet body (1), its characterized in that: a base (2) is welded at the bottom of the cabinet body (1), side seats (3) are welded at two sides of the cabinet body (1), a cabinet door (4) is fixedly arranged at the front part of the cabinet body (1), the interior of the cabinet body (1) is connected with an installation bottom box (5) through bolts, a dehumidifying and heat dissipating mechanism (6) is arranged inside the mounting bottom box (5), a dust collecting box (7) is clamped on the inner wall of the cabinet body (1), the cabinet body (1) is positioned above the dust collecting box (7) and is fixedly connected with an isolation net (8) through bolts, a dust removal and heat dissipation mechanism (9) is arranged inside the cabinet body (1), an intelligent control box (10) is arranged below the dust collection box (7) of the cabinet body (1), the left side of the intelligent control box (10) is connected with a display panel (11) through a bolt, the intelligent control box (10) is provided with a control key (12) at the front part of the display panel (11).

2. An intelligent switchgear, according to claim 1, wherein: the dehumidification and heat dissipation mechanism (6) comprises a motor (61), a first auxiliary moving roller (66) and a dehumidification device (67), the surface of the motor (61) is fixedly connected with the inner wall of the installation bottom box (5) through bolts, the first driving roller (62) is connected with an output shaft of the motor (61) in a clamping mode, a horizontal bevel gear (63) is welded at the top of the first driving roller (62), a vertical bevel gear (64) is meshed with the surface of the horizontal bevel gear (63), a double-fan shaft rod (65) is welded inside the vertical bevel gear (64), a driving pinion (68) is welded at the bottom of the first auxiliary moving roller (66), a driven gearwheel (69) is meshed with the surface of the driving pinion (68), a connecting shaft (610) is welded inside the driven gearwheel (69), a radius plate (611) is welded at the bottom of the connecting shaft rod (610), and a sliding column (612) is welded at the bottom of the radius plate (611), the surface of the linkage sliding column (612) is connected with a hollow sliding strip (613) in a sliding mode, a long rack (614) is welded to the right side of the hollow sliding strip (613), a driven pinion (615) is meshed to the surface of the long rack (614), and a driving roller II (616) is welded inside the driven pinion (615).

3. An intelligent switchgear, according to claim 2, wherein: the surface of the double-fan shaft rod (65) is rotatably connected with the inside of the installation bottom box (5), the tops of the first auxiliary driving roller (66) and the connecting shaft rod (610) are respectively rotatably connected with the inside of the installation bottom box (5), the surface of the first auxiliary driving roller (66) is in transmission connection with the surface of the first driving roller (62) through a belt, the bottoms of the hollow sliding strip (613) and the long rack (614) are both in sliding connection with the inner wall of the installation bottom box (5), and the two ends of the second driving roller (616) are both rotatably connected with the inside of the installation bottom box (5).

4. An intelligent switchgear, according to claim 2, wherein: the dehumidifying device (67) comprises a dehumidifying box (671), the bottom of the dehumidifying box (671) is fixedly connected with the upper surface of an installation bottom box (5) through bolts, the inside of the dehumidifying box (671) is respectively and slidably connected with a first agent releasing net cage (672), a second agent releasing net cage (673) and a third agent releasing net cage (674), the first agent releasing net cage (672) is located above the second agent releasing net cage (673), the second agent releasing net cage (673) is located above the third agent releasing net cage (674), linkage arm columns (675) are welded on the two sides of the first agent releasing net cage (672), threaded rods (676) are connected inside the linkage arm columns (675), and secondary moving rollers (677) are welded at the bottom of the threaded rods (676).

5. An intelligent switchgear, according to claim 4, wherein: the surface of the linkage arm column (675) is in sliding connection with the interior of the dehumidification tank (671), the bottom end of the secondary roller (677) is in rotating connection with the interior of the dehumidification tank (671), and the surface of the secondary roller (677) is in transmission connection with the surface of the driving roller (616) through a belt.

6. An intelligent switchgear, according to claim 4, wherein: the left side of dehumidification case (671) has seted up the absorption hole, dehumidification case (671) inside has seted up catchment chamber (678), the inside of catchment chamber (678) is provided with into water check valve and outlet valve.

7. An intelligent switchgear, according to claim 1, wherein: dust removal heat dissipation mechanism (9) are including electric putter (91), the inside fixed connection of bolt and the cabinet body (1) is passed through on the surface of electric putter (91), the output shaft joint of electric putter (91) has short rack (92), the left side welding of short rack (92) has connecting block (93), the left side welding of connecting block (93) has dust removal brush-holder stud (94), the anterior meshing of short rack (92) has meshing pinion (95), the inside welding of meshing pinion (95) has scroll bar (96), the surface of scroll bar (96) is provided with breather (97).

8. An intelligent switchgear, according to claim 7, wherein: the surfaces of the short rack (92) and the connecting block (93) are respectively in sliding connection with the inner wall of the cabinet body (1), the meshing pinion (95) is rotatably connected with the inside of the cabinet body (1) through a shaft, and the right side of the dust removal brush rod (94) is in contact with the surface of the isolation net (8).

9. An intelligent switchgear, according to claim 7, wherein: breather (97) including connecting bull stick (971), the surface of connecting bull stick (971) is connected with the inside rotation of side seat (3), the front end welding of connecting bull stick (971) has turbine (972), the skin weld of connecting bull stick (971) has breather (973), the air vent has been seted up to breather (973) inside, the surface intermeshing of turbine (972) and scroll bar (96).

10. An intelligent switch cabinet and a using method thereof are characterized in that: the method comprises the following use methods:

the method comprises the following steps: the intelligent control cabinet (10) is internally provided with a safety monitoring module and a cutting-off module, when the intelligent control cabinet (10) is connected with the internal elements of the cabinet body (1), the real-time information of each element is intelligently detected, when the problems of loss of the internal elements of the cabinet body (1), reignition of a capacitor bank, line burnout or excessive exceeding of the moisture content of the air in the cabinet body (1) caused by untimely dehumidification and the like are detected, the cutting-off module is started, the elements with loss in the intelligent control cabinet are connected and forcibly cut off, so that the effect of automatic intelligent detection is achieved, meanwhile, the related information is transmitted to a main service desk after detection, related personnel are informed to maintain, a display panel (11) is used for displaying the humidity and the temperature in the cabinet in real time, a humidity sensor and a temperature sensor are arranged in the cabinet body (1), the humidity sensor is used for sensing the humidity condition in the cabinet body (1) and, the temperature sensor is used for sensing the temperature condition in the cabinet body (1) and judging whether cooling and heat dissipation are carried out, and when the bottom box (5) is assembled and installed, corresponding anhydrous calcium oxide particles are respectively placed in the first agent releasing net cage (672), the second agent releasing net cage (673) and the third agent releasing net cage (674);

step two: when the internal elements of the cabinet body (1) operate, the humidity sensor and the temperature sensor judge the internal environment, meanwhile, anhydrous calcium oxide particles in the agent releasing net cage physically adsorb air moisture in the cabinet body (1), the anhydrous calcium oxide particles react with the anhydrous calcium oxide particles after absorbing the moisture to form liquid, the liquid flows to the interior of the dehumidification box (671) from holes in the agent releasing net cage, and flows to the water collection cavity (678) through a water inlet one-way valve arranged in the anhydrous calcium oxide particles, so that the effect of collecting the liquid after reaction is further achieved, the moisture in the air is adsorbed, and the effect of ensuring that the air in the cabinet is not humid is achieved;

step three: when the humidity sensor senses that moisture in the cabinet body (1) is overweight, an instruction is sent to the motor (61), an output shaft of the motor (61) drives the driving roller I (62) to rotate, the driving roller I (62) drives the double-fan shaft rod (65) in the vertical bevel gear (64) to rotate through the horizontal bevel gear (63), the double-fan shaft rod (65) generates wind power by using a fan on the double-fan shaft rod in the rotating process, the flowing of air is accelerated in the cabinet body (1), and therefore the air and calcium oxide are promoted to further contact and react;

step four: the driving roller I (62) drives a driving pinion (68) on a driven roller I (66) to rotate through a belt, the driving pinion (68) rotates for multiple circles to drive a connecting shaft rod (610) in a driven large gear (69) meshed with the surface of the driving roller I to rotate, the connecting shaft rod (610) drives a hollow slide bar (613) to slide in the mounting bottom box (5) through a linkage slide column (612) on a radius plate (611), and the hollow slide bar (613) drives a driving roller II (616) on the driven pinion (615) to rotate positively and reversely through a long rack (614) welded on the hollow slide bar (613);

step five: the driving roller II (616) rotates positively and negatively and simultaneously drives the driven roller II (677) to rotate by a belt, the driven roller II (677) drives the linkage arm column (675) to move up and down by a threaded rod (676) welded and fixed in the driven roller II (677), the linkage arm column (675) drives the first discharging net cage (672) to move up and down in the process of moving up and down, and simultaneously indirectly and sequentially contacts with the side surfaces of the second discharging net cage (673) and the third discharging net cage (674) and drives the second discharging net cage to move up and down in the contact process, each discharging box expands calcium oxide originally piled up and placed when moving up and down, the effect of increasing the contact area between the discharging boxes and air is further achieved, meanwhile, the fan further quickly contacts the air with the surface of the fan, so that the dehumidification efficiency is improved, and the fan blows the surface of the calcium oxide to a certain degree while generating wind force, further facilitating the effect of recycling the waste water;

step six: the temperature sensor and the humidity sensor jointly judge whether the dedusting and heat dissipation mechanism (9) is started, when the dedusting and heat dissipation mechanism needs to be started, an output shaft of the electric push rod (91) drives the short rack (92) to slide up and down in the cabinet body (1), and drives the meshing pinion (95) and the connecting block (93) which are meshed with the surfaces of the short rack and the connecting block to perform corresponding operation in the up-and-down sliding process, the meshing pinion (95) rotates and simultaneously drives the turbine (972) to rotate through the scroll rod (96) in the meshing pinion (95), the turbine (972) drives the ventilation device (973) to rotate through the connecting rotating rod (971) welded and fixed in the turbine (972), the maximum rotating angle of the ventilation device (973) is limited, the short rack (92) is not meshed with the meshing pinion (95) after the rotation, and the angle of the ventilation device (973) is fixed by the self-locking property of the turbine (972, the hot and humid air in the cabinet body (1) can exchange with the outside air through the holes in the ventilating device (973);

step seven: connecting block (93) move along with short rack (92) when moving, drive rather than welded fastening's dust removal brush-holder stud (94) and move, dust removal brush-holder stud (94) move in-process and keep apart the surface of net (8) and contact, and strike off the effect to its surface, at the in-process of striking off, in the miscellaneous ash part drop of net (8) miscellaneous dirt collecting box (7), most receive the influence of wind-force to blow off to the outside of cabinet body (1), further reach the effect of regularly removing dust to keeping apart net (8), further ensured that cabinet body (1) carries out radiating effect through keeping apart net (8).

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