CN114122944A

CN114122944A - Oil field apparatus has air filtering capability's intelligent power distribution cabinet

Info

Publication number: CN114122944A
Application number: CN202210076348.3A
Authority: CN
Inventors: 余国军; 刘庆华; 杨东亮; 李前伟; 王嵩; 朱勇; 孙彤彤
Original assignee: Plateau Shandong Electrical And Mechanical Equipment Co ltd
Current assignee: Plateau Shandong Electrical And Mechanical Equipment Co ltd
Priority date: 2022-01-24
Filing date: 2022-01-24
Publication date: 2022-03-01
Anticipated expiration: 2042-01-24
Also published as: CN114122944B

Abstract

The invention relates to the field of power distribution cabinets, in particular to an intelligent power distribution cabinet with an air filtering function for an oil field. The technical scheme is as follows: an intelligent power distribution cabinet with an air filtering function for an oil field comprises a bracket, a shell, an air filtering mechanism and an air drying mechanism; the upper end of the support is fixedly connected with a shell, the air filtering mechanism is arranged at the upper end of the shell, the top plate is arranged at the upper part of the air filtering mechanism, and the air drying mechanism is arranged at the rear part of the inner surface of the shell. According to the invention, the air filtering mechanism is arranged, so that a large amount of dust is prevented from entering the electric appliance elements and the electronic modules in the power distribution cabinet body to cause damage, the air drying mechanism is arranged, so that the moist air is prevented from condensing water drops on the power distribution cabinet and the electric elements, and the water drop removing mechanism is arranged, so that the water drops are prevented from dropping on the electric elements and the electronic modules, and the electric elements and the electronic modules are affected with damp and damaged.

Description

Oil field apparatus has air filtering capability's intelligent power distribution cabinet

Technical Field

The invention relates to the field of power distribution cabinets, in particular to an intelligent power distribution cabinet with an air filtering function for an oil field.

Background

The switch board is the equipment of concentrating, switching, distribution electric energy, and inside powerful switching device, protection electrical apparatus of being equipped with still is equipped with accurate electrical component and electronic module, need dispel the heat to the switch board is inside at electrical component during operation, and the switch board that the oil field was used is mostly open-air, and current device carries out the exchange of air through miniature exhaust fan when dispelling the heat to switch board inside.

Inside sand and dust in the sand and wind weather air directly got into the switch board through the louvre, adhere to on the inside electric elements and the electronic module of switch board, perhaps after air humidity reaches the saturation under the rainy condition, the inside temperature of switch board is higher, produce a large amount of water drops easily in the inside of electric elements and the switch board body, it contains a large amount of water in the switch board to cause, water and oxygen reaction are with switch board corrosion damage, electric elements and electronic module cause easily in being in moist environment for a long time and wet damage and short circuit.

Therefore, it is highly desirable to provide an intelligent power distribution cabinet with air filtering and air drying functions for oil field equipment.

Disclosure of Invention

The invention provides an intelligent power distribution cabinet with air filtering and air drying functions for an oil field, aiming at overcoming the defect that after sand and dust in the air and air with high humidity enter the power distribution cabinet, damage and short circuit are caused to electrical elements and electronic modules in the power distribution cabinet.

An intelligent power distribution cabinet with an air filtering function for an oil field comprises a support, a shell, a cabinet door, electric push rods, first fixing blocks, grids, fixing strips, an air filtering mechanism, a top plate, an air drying mechanism, a second supporting plate, a third supporting plate, a fourth supporting plate, a controller, hinges, a cover plate and a twisting block, wherein the shell is fixedly connected to the upper end of the support, the cabinet door is installed on the front side surface of the shell, square holes are respectively formed in the left side and the right side of the lower portion of the shell, two electric push rods are arranged in the square holes and are respectively fixedly connected to the lower portions of the inner left wall and the inner right wall of the shell, two first fixing blocks are arranged in total, the two first fixing blocks are respectively and fixedly connected to the upper ends of telescopic rods of the two electric push rods, the two grids are arranged in total, the two grids are respectively and slidably connected to the two square holes formed in the shell, and the inner surfaces of the two grids are respectively and fixedly connected to the adjacent first fixing blocks, a plurality of fixing strips are fixedly connected in two square holes formed in the shell, the grid is matched with the adjacent fixing strips, the air filtering mechanism is arranged at the upper end of the shell, a top plate is arranged at the upper part of the air filtering mechanism, the air drying mechanism is arranged at the rear part of the inner surface of the shell, a second supporting plate is fixedly connected at the rear part of the inner surface of the shell, a third supporting plate is fixedly connected between the upper end of the second supporting plate and the front side of the inner surface of the shell, a fourth supporting plate is fixedly connected at the upper surface of the front part of the third supporting plate, a controller is embedded in the middle part of the fourth supporting plate, square through holes are respectively formed in the left part and the right part of the rear side surface of the shell, a cover plate is hinged above the square through hole formed in the rear side surface of the shell through a hinge, the hinge is positioned at the upper side of the square through hole in the rear side surface of the shell, the cover plate is sealed with the square through hole formed in the rear side surface of the shell, two twisting blocks are respectively arranged on the rear side surface of the shell, the two twisting blocks are respectively positioned at the lower sides of the two cover plates, the twisting blocks are matched with the cover plates, and the electric push rod is electrically connected with the controller.

A further technical proposal is that the air filtering mechanism comprises a square frame, filter plates, support blocks, a first servo motor, belt wheels, a transmission belt, a first gear, a first rack, a second servo motor, a turbofan, a first support plate and a first conical shell, the square frame is fixedly connected with the upper end of the shell, a plurality of holes are arranged on the lower side surface of the square frame, rectangular chutes are respectively arranged on the four sides of the square frame, the inner edge wall of the rectangular chute of the square frame is lower than the outer edge wall, the four filter plates are respectively connected in the rectangular chute of the square frame in a sliding way, a plurality of filter holes are arranged on the filter plates, the four support blocks are respectively fixedly connected on the four corners of the inner side surface of the square frame, the upper part of one support block is fixedly connected with the first servo motor which is electrically connected with the controller, the four belt wheels are respectively connected on the four support blocks in a rotating way through rotating rods, four band pulleys pass through the driving belt transmission, four first gears are respectively and fixedly connected to the lower side surfaces of four band pulleys, the output shaft of a first servo motor is fixedly connected with the rotating rod on one band pulley, four first racks are respectively and fixedly connected to the inner side surfaces of four filter plates, the first racks are meshed with the first gears, four first racks respectively penetrate through the inner side surfaces of a square frame, a second servo motor is fixedly connected to the lower surface of the top plate, the second servo motor is electrically connected with a controller, the output shaft of the second servo motor is fixedly connected with a turbofan, the first supporting plate is fixedly connected to the lower portion of the inner side surface of the square frame, the first conical shell is embedded in the rear portion of the first supporting plate, and the first conical shell is arranged below the turbofan.

The further technical proposal is that the air drying mechanism comprises a three-way pipeline, a support bar, a humidity monitor, a third servo motor, a first baffle plate, a first conveying pipe, a water separation component, a third conical shell, a support frame, a sliding rod, a spring, a sealing plate, a second conveying pipe, a second baffle plate, a square box and a third conveying pipe, wherein the upper end of the three-way pipeline is communicated with the lower end of the first conical shell, the support bar is fixedly connected with the inner surface of the three-way pipeline, the upper surface of the support bar is fixedly connected with the humidity monitor which is electrically connected with a controller, the first baffle plate is rotatably connected in the three-way pipeline through a rotating rod, one side of the three-way pipeline is fixedly connected with the third servo motor which is electrically connected with the controller, the output shaft of the third servo motor is fixedly connected with the rotating rod at the lower end of the first baffle plate, the rear end of the three-way pipeline is communicated with the first conveying pipe, the lower end of the first conveying pipe is provided with the water separation component, the lower extreme rigid coupling of water-out subassembly has the third conical shell, third conical shell lower part rigid coupling has the support frame, sliding connection has the slide bar on the support frame, the upper end rigid coupling of slide bar has the closing plate, the closing plate is sealed with third conical shell lower extreme, the spring ring overlaps in the outside of slide bar, the both ends difference rigid coupling of spring is in support frame and closing plate, two second conveyer pipes communicate respectively in the left and right sides of water-out subassembly, the internal surface upper portion of second conveyer pipe connects a plurality of second baffle inherently, the upper end intercommunication of second conveyer pipe has square box, the living stone hawk has been placed to the inside of square box, the upper end intercommunication of square box has the third conveyer pipe, the front end of third conveyer pipe inlays in the upper surface of third backup pad.

According to a further technical scheme, the rear side of the upper portion of the first baffle is an inclined plane, rubber is arranged on the inclined plane of the rear side of the upper portion of the first baffle, and a square rubber strip is arranged on the front side face of the first baffle.

Further technical scheme, the elutriation subassembly is including the special-shaped box, hold the box, the baffle, the deflector, the triangle baffle, second toper shell and collection shell, special-shaped box communicates in the lower extreme of first conveyer pipe, the internal surface rigid coupling of special-shaped box has the box that holds, it has seted up the circular through-hole of a plurality of to hold the box lower part, a large amount of calcium chloride granule has been placed in holding the box, it has a plurality of baffle to hold the box internal rigid coupling, a plurality of baffle will hold the box and fall into a plurality of cavity, it has the deflector to hold the other rigid coupling of box downside left and right sides, a plurality of triangle baffle sets up between deflector and special-shaped box, both sides around the internal surface of a plurality of triangle baffle rigid coupling in special-shaped box, the lower extreme rigid coupling of special-shaped box has second toper shell, the lower part rigid coupling of second toper shell has the collection shell, collect shell and third toper shell rigid coupling.

According to a further technical scheme, the triangular baffles are arranged in a V-shaped mode, and a gap exists between the two triangular baffles.

Further technical scheme, still including the water droplet removal mechanism, the water droplet remove device is including first electronic slide rail, the electronic slide rail of second, strike off the subassembly, water-collecting plate and aqueduct, first electronic slide rail rigid coupling is on the upper portion of the internal surface left side of shell, the electronic slide rail rigid coupling of second is on the internal surface upper portion of shell, all be equipped with electronic slider on first electronic slide rail and the electronic slide rail of second, first electronic slide rail and the electronic slide rail of second all with controller electrical connection, strike off the subassembly and connect between the electronic slider of first electronic slide rail and the electronic slide rail of second, strike off subassembly and third backup pad cooperation, two water-collecting plate difference rigid couplings are in the shell internal surface lower part left and right sides, the outside rigid coupling of water-collecting plate has the aqueduct, aqueduct and shell intercommunication, the lower part of aqueduct is provided with the pressure valve.

According to a further technical scheme, the water collecting plate is matched with the shell to form a water collecting groove, and two sides of the water collecting plate are higher than the central part.

According to a further technical scheme, the scraping component comprises a bottom plate, a vertical plate, a second fixed block, a first sliding plate, a second rack, a fourth servo motor, a second gear, a sliding frame and a third fixed block, wherein the second fixed block is fixedly connected between one side of the vertical plate and an electric sliding block on a first electric sliding rail, the bottom plate is fixedly connected to the lower end of the vertical plate, the first sliding plate is slidably connected to the front side surface of the bottom plate, the second sliding plate is slidably connected to the rear side surface of the bottom plate, the two second racks are fixedly connected to the front side surface of the left part of the first sliding plate and the rear side surface of the left part of the second sliding plate, the fourth servo motor is electrically connected with a controller, the second gear is fixedly connected to an output shaft of the fourth servo motor, the second gear is respectively engaged with the two second racks, the sliding frame is slidably connected to the upper sides of the left parts of the first sliding plate and the second sliding plate, the third fixed block is fixedly connected to the right side surface of the sliding frame, the right end of the third fixed block is fixedly connected with an electric sliding block arranged on the second electric sliding rail.

The beneficial effects are that: the invention uses the first servo motor to drive the four filter plates to match with the square frame to filter large granular substances in the air by arranging the air filtering mechanism, when the heat dissipation is stopped, the filter plates and the square frame are matched again to form a closed space, thereby preventing a large amount of dust from entering into the power distribution cabinet body to cause the damage of electric elements and electronic modules, uses the air drying mechanism and the humidity monitor to induce by using the controller to start the third servo motor to lead the first baffle plate to swing forwards, uses the wet air to pass through the containing box containing calcium chloride and the square box containing the raw lime plate, uses the absorption of the calcium chloride and the raw lime plate to discharge the dry air into the cabinet body for heat dissipation to avoid the condensation of water drops of the wet air on the power distribution cabinet and the electric elements, uses the first sliding plate and the second sliding plate to work alternately by arranging the water drop removing mechanism, the water drops formed on the lower surface of the third supporting plate are removed, so that the situation that the water drops drop on the electric element and the electronic module in the device to cause damp damage to the electric element and the electronic module is avoided.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional left-side perspective view of the present invention.

Fig. 3 is a partial bottom view perspective structure of the present invention.

Fig. 4 is a schematic partial sectional perspective view of the present invention.

Fig. 5 is a schematic perspective view of an air filter according to the present invention.

Fig. 6 is an enlarged perspective view of a according to the present invention.

Fig. 7 is a rear perspective view of the present invention.

Fig. 8 is a schematic perspective view of the air drying mechanism of the present invention.

FIG. 9 is a schematic diagram of a left-side sectional three-dimensional structure of the tee pipe of the present invention.

Fig. 10 is a schematic perspective view of a water-precipitating assembly according to the present invention.

Fig. 11 is an enlarged perspective view of B of the present invention.

Fig. 12 is a partially sectional perspective view of the delivery tube of the present invention.

Fig. 13 is a schematic perspective view of a water droplet removing mechanism according to the present invention.

Fig. 14 is a left perspective view of the scraping assembly of the present invention.

Fig. 15 is a right perspective view of the scraping assembly of the present invention.

Fig. 16 is a partial perspective view of the water droplet removing mechanism of the present invention.

In the figure: 1-bracket, 2-shell, 3-cabinet door, 401-electric push rod, 402-first fixed block, 403-grating, 404-fixed strip, 501-square frame, 502-filter plate, 503-supporting block, 504-first servomotor, 505-belt wheel, 506-driving belt, 507-first gear, 508-first rack, 509-second servomotor, 510-turbofan, 511-first supporting plate, 512-first conical shell, 6-top plate, 701-three-way pipeline, 702-supporting plate, 703-humidity monitor, 704-third servomotor, 705-first baffle, 706-first conveying pipe, 7071-special-shaped box, 7072-holding box, 7073-baffle plate, 7074-guide plate, 7075-triangular baffle plate, 708-second conical shell, 709-collecting shell, 7101-third conical shell, 7102-supporting frame, 7103-sliding rod, 7104-spring, 7105-sealing plate, 711-guide groove block, 712-second delivery pipe, 713-second baffle plate, 714-square box, 715-third delivery pipe, 8-second supporting plate, 9-third supporting plate, 10-fourth supporting plate, 11-controller, 12-hinge, 13-cover plate, 14-twisting block, 1501-first electric sliding rail, 1502-second electric sliding rail, 1503-bottom plate, 1504-vertical plate, 1505-second fixing block 1506, first sliding plate, 1507-second sliding plate, 1508-second rack, 1509-fourth servo motor, 1510-second gear, 1511-sliding frame, 1512-third fixed block, 1513-water collecting plate, 1514-water conduit.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.

Example 1

An intelligent power distribution cabinet with an air filtering function for an oil field device is disclosed, as shown in fig. 1-16, and comprises a support 1, a shell 2, a cabinet door 3, electric push rods 401, a first fixing block 402, grilles 403, fixing strips 404, an air filtering mechanism, a top plate 6, an air drying mechanism, a second support plate 8, a third support plate 9, a fourth support plate 10, a controller 11, hinges 12, a cover plate 13 and a twisting block 14, wherein the shell 2 is fixedly connected to the upper end of the support 1, the cabinet door 3 is installed on the front side surface of the shell 2, square holes are respectively formed on the left side and the right side of the lower part of the shell 2, two electric push rods 401 are arranged in the square holes, the two electric push rods 401 are respectively fixedly connected to the lower parts of the inner left wall and the inner wall and the outer wall of the shell 2, two first fixing blocks 402 are respectively fixedly connected to the upper ends of telescopic rods of the two electric push rods 401, two grilles 403 are arranged, the two grilles 403 are respectively slidably connected to the two square holes formed in the shell 2, the inner surfaces of two grids 403 are respectively fixedly connected with adjacent first fixing blocks 402, a plurality of fixing strips 404 are fixedly connected in two square holes formed in the shell 2, the grids 403 are matched with the adjacent fixing strips 404, an air filtering mechanism for filtering air is arranged at the upper end of the shell 2, a top plate 6 is arranged at the upper part of the air filtering mechanism, an air drying mechanism for drying air is arranged at the rear part of the inner surface of the shell 2, a second supporting plate 8 is fixedly connected at the rear part of the inner surface of the shell 2, a third supporting plate 9 is fixedly connected between the upper end of the second supporting plate 8 and the front side of the inner surface of the shell 2, a fourth supporting plate 10 is fixedly connected on the upper surface of the front part of the third supporting plate 9, a controller 11 is embedded in the middle part of the fourth supporting plate 10, square through holes are respectively formed in the left part and the right part of the rear side surface of the shell 2, and a cover plate 13 is hinged above the square through hole formed in the rear side surface of the shell 2 through a hinge 12, hinge 12 is located the square through hole upside that the shell 2 trailing flank was established, and apron 13 is sealed with the square through hole that the trailing flank of shell 2 was established, is provided with two altogether and twists the piece 14, and two are twisted the piece 14 and are rotated respectively in shell 2 trailing flank, and two are twisted the piece 14 and are located the downside of two apron 13 respectively, twist the piece 14 and lap 13 cooperation, electric putter 401 and controller 11 electrical connection.

When the device is used, firstly, an operator installs the device on the ground, the operator opens the cabinet door 3 and connects a circuit with an electric element in the device, then, the operator sets a time period for cooling the device and starts the controller 11, then, the cabinet door 3 is closed, when the device is cooled, the controller 11 starts the electric push rod 401, the telescopic rod of the electric push rod 401 pushes the first fixing block 402 upwards, the first fixing block 402 drives the grating 403 to slide upwards, the grating 403 is not matched with the fixing strip 404, a ventilation gap is formed between the grating 403 and the fixing strip 404, at the moment, the controller 11 controls the air filtering mechanism, the air filtering mechanism filters air, the air enters the air drying mechanism after being filtered, the air drying component dries the moist air and then discharges the moist air into the shell 2, and then the air is discharged out of the device through the ventilation gap between the grating 403 and the fixing strip 404, through the processing of cooling down of circulation of air to the electric elements in this device, when meetting strong sand wind weather in this device use, air filter assembly is closed to controller 11, controller 11 starts electric putter 401 afterwards, make electric putter 401's telescopic link reset, electric putter 401's telescopic link drives grid 403 and resets, grid 403 cooperates with fixed strip 404 again, make this device form an airtight space, inside avoiding a large amount of sand and dust to enter into this device, make electric elements damage.

Example 2

Based on the embodiment 1, as shown in fig. 4-6, the air filtering mechanism includes a square frame 501, filter plates 502, support blocks 503, a first servo motor 504, a belt wheel 505, a driving belt 506, a first gear 507, a first rack 508, a second servo motor 509, a turbofan 510, a first support plate 511 and a first conical shell 512, the square frame 501 is fixedly connected to the upper end of the housing 2, a plurality of holes are opened on the lower side of the square frame 501, rectangular sliding grooves are respectively opened on four sides of the square frame 501, an inner edge wall of the rectangular sliding groove of the square frame 501 is lower than an outer edge wall, a total of four filter plates 502 are provided, the four filter plates 502 are respectively slidably connected to the rectangular sliding grooves of the square frame 501, a plurality of filtering holes are provided on the filter plates 502, a total of four support blocks 503 are provided, the four support blocks 503 are respectively fixedly connected to four corners of the inner side of the square frame 501, the upper portion of one support block 503 is fixedly connected to the first servo motor 504, the first servo motor 504 is electrically connected with the controller 11, four pulleys 505 are respectively rotatably connected with four supporting blocks 503 through rotating rods, the four pulleys 505 are driven through a driving belt 506 and are provided with four first gears 507, the four first gears 507 are respectively fixedly connected with the lower sides of the four pulleys 505, an output shaft of the first servo motor 504 is fixedly connected with the rotating rod on the pulley 505 at the right front side, four first racks 508 are respectively fixedly connected with the inner sides of the four filter plates 502, the adjacent first racks 508 are meshed with the first gears 507, the four first racks 508 respectively penetrate through the inner side of the square frame 501, the second servo motor 509 is fixedly connected with the lower surface of the top plate 6, the second servo motor 509 is electrically connected with the controller 11, an output shaft of the second servo motor 509 is fixedly connected with a turbofan 510, the first supporting plate 511 is fixedly connected with the lower part of the inner side of the square frame 501, the first conical shell 512 is embedded in the rear part of the first supporting plate 511, the first conical shell 512 is located below the turbofan 510.

When the heat dissipation is performed to the electric components inside the device, the controller 11 will start the first servo motor 504, the output shaft of the first servo motor 504 drives the belt wheel 505 to rotate counterclockwise, the belt wheel 505 drives the other three belt wheels 505 to rotate counterclockwise through the transmission belt 506, the belt wheel 505 drives the first gear 507 to rotate counterclockwise, the four first gears 507 respectively drive the four first racks 508 to move counterclockwise, the four first racks 508 respectively drive the four filter plates 502 to slide counterclockwise, the filter holes of the filter plates 502 are located above the holes formed in the square frame 501, at this time, the filter plates 502 are communicated with the square frame 501, then the controller 11 starts the second servo motor 509, the second servo motor 509 drives the turbofan 510 to rotate, the air is sucked into the first conical shell 512 after being filtered by the filter plates 502 when the turbofan 510 rotates, when the heat dissipation is stopped, the controller 11 will close the second servo motor 509, the controller 11 activates the first servo motor 504 and the clockwise rotation of the output shaft of the first servo motor 504 resets and shuts the filter board 502.

As shown in fig. 8-12, the air drying mechanism includes a three-way pipe 701, a support bar 702, a humidity monitor 703, a third servo motor 704, a first baffle 705, a first delivery pipe 706, a water precipitation assembly, a third conical shell 7101, a support frame 7102, a sliding rod 7103, a spring 7104, a sealing plate 7105, a second delivery pipe 712, a second baffle 713, a square box 714, and a third delivery pipe 715, wherein the upper end of the three-way pipe 701 is communicated with the lower end of the first conical shell 512, the support bar 702 is fixedly connected to the inner surface of the three-way pipe 701, the upper surface of the support bar 702 is fixedly connected with the humidity monitor 703, the humidity monitor 703 is electrically connected with the controller 11, one side of the three-way pipe 701 is fixedly connected with the third servo motor 704, the third servo motor 704 is electrically connected with the controller 11, the first baffle 705 is rotatably connected in the three-way pipe 701 through a rotating rod, the output shaft of the third rotating rod 704 is fixedly connected with the lower end of the first baffle 705, the rear end of the three-way pipeline 701 is communicated with a first conveying pipe 706, the lower end of the first conveying pipe 706 is provided with a water separation assembly, the lower end of the water separation assembly is fixedly connected with a third conical shell 7101, the lower portion of the third conical shell 7101 is fixedly connected with a supporting frame 7102, the supporting frame 7102 is connected with a sliding rod 7103 in a sliding mode, the upper end of the sliding rod 7103 is fixedly connected with a sealing plate 7105, the sealing plate 7105 and the lower end of the third conical shell 7101 are sealed, a spring 7104 is sleeved on the outer side of the sliding rod 7103 in a sleeved mode, two ends of the spring 7104 are fixedly connected to the supporting frame 7102 and the sealing plate 7105 respectively, two second conveying pipes 712 are communicated with the left side and the right side of the water separation assembly respectively, the upper portion of the inner surface of each second conveying pipe 712 is fixedly connected with a plurality of second baffles 713, the upper end of each second conveying pipe 712 is communicated with a square box 714, a raw lime plate is placed inside the square box 714, the upper end of the third conveying pipe 715 is communicated with a third conveying pipe 715, and the front end of the third conveying pipe 715 is embedded in the upper surface of a third supporting plate 9.

Air enters the tee pipe 701 through the first conical shell 512, the air enters the device from the front end of the tee pipe 701, when the humidity monitor 703 monitors that the humidity in the air is higher than a standard value, the humidity monitor transmits a generated electric signal to the controller 11, the controller 11 starts the third servo motor 704, the third servo motor 704 drives the first baffle 705 to rotate clockwise, the first baffle 705 is in contact with the front pipe wall of the tee pipe 701, the front part of the tee pipe 701 is closed, moist air enters the first conveying pipe 706 from the rear end of the tee pipe 701, the moist air then enters the water separation component to separate water in the air, then the air enters the square box 714 through the second conveying pipe 712, when the air passes through the gypsum board in the square box 714, residual water is completely drained through the gypsum board, the air is uniformly separated through the second baffle 713, pass through the raw lime board along different directions, make the absorptive more abundant of raw lime board, the air enters into this device through third conveyer pipe 715 afterwards and carries out the heat dissipation treatment to electrical element, after the heat dissipation is finished, controller 11 starts third servo motor 704, third servo motor 704 drives first baffle 705 and resets, make things convenient for next heat dissipation work, use after a period of time when the raw lime board in square box 714, the drying effect of raw lime board reduces, operating personnel twists block 14 with clockwise rotation, it loses the cooperation with apron 13 to twist block 14, operating personnel opens apron 13, take out the raw lime board of this device inside and change new raw lime board, operating personnel closes apron 13 afterwards, and anticlockwise rotation twists block 14, twist block 14 and apron 13 and cooperate again.

As shown in fig. 10 and 11, the elutriation assembly includes a special-shaped box 7071, a holding box 7072, a partition plate 7073, a guide plate 7074, a triangular baffle 7075, a second conical shell 708 and a collecting shell 709, wherein the special-shaped box 7071 is communicated with the lower end of the first conveying pipe 706, the holding box 7072 is fixedly connected to the inner surface of the special-shaped box 7071, a plurality of circular through holes are formed in the lower portion of the holding box 7072, a large number of calcium chloride particles are placed in the holding box 7072, a plurality of partition plates 7073 are arranged, the plurality of partition plates 7073 are fixedly connected to the inner surface of the holding box 7072, the holding box 7072 is divided into a plurality of cavities by the plurality of partition plates 7073, the guide plate 7074 is fixedly connected to the left and right portions of the lower side of the holding box 7072, a plurality of triangular baffle 7075 are arranged, the triangular baffle 7075 is arranged in a V-shaped manner, a gap is formed between the two triangular baffle 7075, the plurality of triangular baffles 7075 are arranged between the guide plate 7074 and the special-shaped box 7071, and the two ends of triangular baffle 7075 are fixedly connected to the front and rear sides of the inner surface of the special-shaped box 7071, the lower end of the special-shaped box 7071 is fixedly connected with a second conical shell 708, the lower part of the second conical shell 708 is fixedly connected with a collecting shell 709, and the collecting shell 709 is fixedly connected with a third conical shell 7101.

When moist air enters the containing box 7072 through the first delivery pipe 706, the moist air contacts calcium chloride particles in the containing box 7072, the calcium chloride particles react with the moist air to precipitate water of the moist air, the dried air passes through the triangular baffle 7075 and gaps between the triangular baffles 7075, when water drops contact the triangular baffles 7075 along with flowing air, the water drops flow to the lower part again under the blocking action of the triangular baffle 7075 due to the inclined surface of the triangular baffle 7075, the precipitated water drops are prevented from entering the second delivery pipe 712 along with the air, the precipitated water drops flow into the second conical shell 708 along the guide plate 7074, the water drops enter the collecting shell 709 along the second conical shell 708 and are collected in the collecting shell 709, when the water reaches a certain weight, the water presses the sealing plate 7105 and the sliding rod 7103 to move downwards, the spring 7104 is compressed, and the water is discharged from the collecting shell 709, after water flows out from the inclined groove formed in the guide groove block 711, the sealing plate 7105 and the sliding rod 7103 are reset under the elastic force of the spring 7104.

Example 3

On the basis of embodiment 2, as shown in fig. 13-16, the water drop removing device further includes a water drop removing mechanism, the water drop removing device includes a first electric slide rail 1501, a second electric slide rail 1502, a scraping component, a water collecting plate 1513 and a water guiding pipe 1514, the first electric slide rail 1501 is fixedly connected to the upper portion of the left side of the inner surface of the housing 2, the second electric slide rail 1502 is fixedly connected to the upper portion of the inner surface of the housing 2, electric sliders are respectively disposed on the first electric slide rail 1501 and the second electric slide rail 1502, the first electric slide rail 1501 and the second electric slide rail 1502 are electrically connected to the controller 11, the scraping component is connected between the electric sliders of the first electric slide rail 1501 and the second electric slide rail 1502, the scraping component is matched with the third supporting plate 9, two water collecting plates 1513 are disposed, the two water collecting plates 1513 are respectively fixedly connected to the left and right sides of the lower portion of the inner surface of the housing 2, the water guiding pipe 1514 is fixedly connected to the outer side of the water collecting plate 1513, the conduit 1514 communicates with the casing 2, and a pressure valve is provided at a lower portion of the conduit 1514.

Because of the change of the humidity and air of the damp weather, a large amount of water drops are condensed on the lower surface of the third support plate 9 of the device, when the water drops are condensed on the lower surface of the third support plate 9, the humidity monitor 703 generates an electric signal and transmits the electric signal to the controller 11, the controller 11 gives an alarm, then the controller 11 starts the first electric slide rail 1501 and the second electric slide rail 1502, the first electric slide rail 1501 and the second electric slide rail 1502 drive the scraping component to move back and forth through the electric slider, the water drops flow into the water collecting plate 1513 along the right side surface inside the housing 2 through the scraping component, the water collecting plate 1513 forms a groove with the inner surface of the housing 2, the front side and the rear side of the groove formed by the water collecting plate 1513 are higher than the middle position, when the water flows into the water collecting plate 1513, the water can be gathered at the middle part of the groove of the water collecting plate 1513, which is beneficial to discharge of the water, and the water drops formed on the left surface and the right surface inside the housing 2 slide backward, make the water droplet assemble inside it through water-collecting sheet 1513, when water obtains a quantitative, water will extrude the gravity valve, and the gravity valve is opened afterwards, and water is discharged along aqueduct 1514, overhauls at operating personnel and finishes the back, and controller 11 will start first electronic slide rail 1501 and the electronic slide rail 1502 of second, makes first electronic slide rail 1501 and the electronic slide rail 1502 of second drive to strike off the subassembly through electronic slider and resets, makes things convenient for next use.

As shown in fig. 14 and 15, the scraping assembly includes a bottom plate 1503, a vertical plate 1504, a second fixed block 1505, a first sliding plate 1506, a second sliding plate 1507, a second rack 1508, a fourth servo motor 1509, a second gear 1510, a sliding frame 1511 and a third fixed block 1512, the second fixed block 1505 is fixedly connected between one side of the vertical plate 1504 and the electric slider on the first electric sliding rail 1501, the bottom plate 1503 is fixedly connected to the lower end of the vertical plate 1504, the first sliding plate 1506 is slidably connected to the front side of the bottom plate 1503, the second sliding plate 1507 is slidably connected to the rear side of the bottom plate 1503 and is provided with two second racks 1508, the two second racks 1508 are fixedly connected to the left front side of the first sliding plate 1506 and the left rear side of the second sliding plate 1507, the fourth servo motor 1509 is fixedly connected to the lower surface of the bottom plate 1509, the fourth servo motor 1509 is electrically connected to the controller 11, the output shaft of the fourth servo motor 1509 is provided with the second gear 1510, the second gear 1510 is respectively engaged with the two second racks 1508, the sliding frame 1511 is slidably connected to the outer sides of the first sliding plate 1506 and the second sliding plate 1507, a third fixed block 1512 is fixedly connected to the right side surface of the sliding frame 1511, and the right end of the third fixed block 1512 is fixedly connected to the electric slider arranged on the second electric sliding rail 1502.

When the condensed water drops on the lower surface of the third support plate 9 are scraped, the controller 11 starts the fourth servomotor 1509, the fourth servomotor 1509 drives the second gear 1510 to rotate counterclockwise, the second gear 1510 drives the first sliding plate 1506 to move upward and the second sliding plate 1507 to move downward through the second rack 1508, respectively, the upper side surface of the first sliding plate 1506 contacts with the lower surface of the third support plate 9, then the scraping component is driven to slide to the rear side by the electric sliding blocks on the first electric sliding rail 1501 and the second electric sliding rail 1502, the water drops flow onto the bottom plate 1503 under the scraping action of the first sliding plate 1506, then the water flows out from the right end of the bottom plate 1503, the water drops flow down along the right surface inside the housing 2 and flow into the water collecting plate 1513 to be discharged through the water conduit 1514, when the scraping component moves to the rear part of the third support plate 9, the fourth servomotor 1509 starts the controller 11, the fourth servomotor 1509 drives the second gear 1510 to rotate clockwise, second gear 1510 drives first sliding plate 1506 to move downwards and second sliding plate 1507 to move upwards through second rack 1508 respectively, the upper side of second sliding plate 1507 contacts with the lower surface of third supporting plate 9, after a period of time, the electric sliding blocks on first electric sliding rail 1501 and second electric sliding rail 1502 drive the scraping component to move forwards, the water drops flow into bottom plate 1503 under the scraping action of second sliding plate 1507, then the water will flow out at the right end of bottom plate 1503, the water drops flow down along the inner right surface of housing 2 and flow into water collecting plate 1513 to be discharged, water collecting plate 1513 forms a water collecting tank with housing 2, the two sides of water collecting plate 1513 are higher than the central part, and the reciprocating operation avoids the water drops condensed on the lower surface of third supporting plate 9 from dropping onto electrical components and electronic modules to damage the electrical components and electronic modules.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides an oil field is with intelligent power distribution cabinet that has air filtering capability, including support (1), shell (2) and cabinet door (3), its characterized in that: the cabinet door drying device is characterized by further comprising electric push rods (401), first fixing blocks (402), grids (403), fixing strips (404), an air filtering mechanism, a top plate (6), an air drying mechanism, a second supporting plate (8), a third supporting plate (9), a fourth supporting plate (10), a controller (11), hinges (12), a cover plate (13) and a twisting block (14), wherein a shell (2) is fixedly connected to the upper end of the support (1), a cabinet door (3) is installed on the front side face of the shell (2), square holes are respectively formed in the left side and the right side of the lower portion of the shell (2), two electric push rods (401) are arranged in the square holes, the two electric push rods (401) are respectively and fixedly connected to the lower portions of the left wall and the right wall of the shell (2), the two first fixing blocks (402) are arranged in total, the two first fixing blocks (402) are respectively and fixedly connected to the upper ends of telescopic rods of the two electric push rods (401), and the two grids (403) are arranged in total, fixed block (402) rigid coupling, the rigid coupling has a plurality of fixed strip (404) in two square holes that shell (2) was seted up, grid (403) and a plurality of adjacent fixed strip (404) cooperation, the air filter mechanism sets up in the upper end of shell (2), air filter mechanism upper portion is provided with roof (6), the air drying mechanism sets up in the internal surface rear portion of shell (2), second backup pad (8) rigid coupling is in the internal surface rear portion of shell (2), the rigid coupling has third backup pad (9) between second backup pad (8) upper end and shell (2) internal surface front side, the upper surface rigid coupling of third backup pad (9) front portion has fourth backup pad (10), controller (11) has been inlayed at fourth backup pad (10) middle part, square through hole has respectively been seted up to the rear side left and right sides two parts of shell (2), it articulates apron (13) through hinge (12) to pass through the square through hole top that shell (2) rear side was seted up, hinge (12) are located the square through hole upside of shell (2) trailing flank, apron (13) are sealed with the square through hole that the trailing flank of shell (2) was established, are provided with two altogether and turn round piece (14), two are turned round piece (14) and are rotated respectively in shell (2) trailing flank, two are turned round piece (14) and are located the downside of two apron (13) respectively, turn round piece (14) and apron (13) cooperation, electric putter (401) and controller (11) electrical connection.

2. The intelligent power distribution cabinet with the air filtering function for the oilfield tool according to claim 1, wherein: the air filtering mechanism comprises a square frame (501), filter plates (502), supporting blocks (503), a first servo motor (504), a belt wheel (505), a transmission belt (506), a first gear (507), a first rack (508), a second servo motor (509), a turbofan (510), a first supporting plate (511) and a first conical shell (512), wherein the square frame (501) is fixedly connected with the upper end of the shell (2), the lower side surface of the square frame (501) is provided with a plurality of holes, the four sides of the square frame (501) are respectively provided with a rectangular sliding groove, the inner edge wall of the rectangular sliding groove of the square frame (501) is lower than the outer edge wall, the four filter plates (502) are respectively and slidably connected in the rectangular sliding groove of the square frame (501), the filter plates (502) are provided with a plurality of filtering holes, the four supporting blocks (503) are respectively and fixedly connected on the four corners of the inner side surface of the square frame (501), the upper part of one supporting block (503) is fixedly connected with the first servo motor (504), the first servo motor (504) is electrically connected with the controller (11), four belt wheels (505) are arranged, the four belt wheels (505) are respectively and rotatably connected to the four supporting blocks (503) through rotating rods, the four belt wheels (505) are driven through a driving belt (506), four first gears (507) are respectively and fixedly connected to the lower side surfaces of the four belt wheels (505), an output shaft of the first servo motor (504) is fixedly connected with the rotating rod on one belt wheel (505), four first racks (508) are arranged, the four first racks (508) are respectively and fixedly connected to the inner side surfaces of the four filter plates (502), the first racks (508) are meshed with the first gears (507), the four first racks (508) respectively penetrate through the inner side surface of the square frame (501), the second servo motor (509) is fixedly connected to the lower surface of the top plate (6), and the second servo motor (509) is electrically connected with the controller (11), the output shaft of second servo motor (509) is rigid coupling has turbofan (510), and first backup pad (511) rigid coupling is in square frame (501) medial surface lower part, and first conical shell (512) inlays in the rear portion of first backup pad (511), and first conical shell (512) are located the below of turbofan (510).

3. The intelligent power distribution cabinet with the air filtering function for the oilfield tool according to claim 1, wherein: the air drying mechanism comprises a three-way pipeline (701), a support bar (702), a humidity monitor (703), a third servo motor (704), a first baffle plate (705), a first delivery pipe (706), a water precipitation component, a third conical shell (7101), a support frame (7102), a sliding rod (7103), a spring (7104), a sealing plate (7105), a second delivery pipe (712), a second baffle plate (713), a square box (714) and a third delivery pipe (715), wherein the upper end of the three-way pipeline (701) is communicated with the lower end of the first conical shell (512), the support bar (702) is fixedly connected to the inner surface of the three-way pipeline (701), the humidity monitor (703) is fixedly connected to the upper surface of the support bar (702), the humidity monitor (703) is electrically connected to a controller (11), the third servo motor (704) is fixedly connected to one side of the three-way pipeline (701), and the third servo motor (704) is electrically connected to the controller (11), the first baffle plate (705) is rotatably connected in the three-way pipeline (701) through a rotating rod, an output shaft of a third servo motor (704) is fixedly connected with the rotating rod at the lower end of the first baffle plate (705), the rear end of the three-way pipeline (701) is communicated with a first conveying pipe (706), the lower end of the first conveying pipe (706) is provided with a water separation component, the lower end of the water separation component is fixedly connected with a third conical shell (7101), the lower part of the third conical shell (7101) is fixedly connected with a supporting frame (7102), the supporting frame (7102) is slidably connected with a sliding rod (7103), the upper end of the sliding rod (7103) is fixedly connected with a sealing plate (7105), the sealing plate (7105) and the lower end of the third conical shell (7101) are sealed, a spring (7104) is sleeved on the outer side of the sliding rod (7103), two ends of the spring (7104) are respectively fixedly connected with the supporting frame (7102) and the sealing plate (7105), two second conveying pipes (712) are respectively communicated with the left side and the right side of the water separation component, a plurality of second baffle plates (713) are connected to the upper portion of the inner surface of the second conveying pipe (712), a square box (714) is communicated with the upper end of the second conveying pipe (712), a raw lime board is placed inside the square box (714), a third conveying pipe (715) is communicated with the upper end of the square box (714), and the front end of the third conveying pipe (715) is embedded in the upper surface of the third supporting plate (9).

4. The intelligent power distribution cabinet with the air filtering function for the oilfield tool according to claim 3, wherein: the rear side of the upper part of the first baffle (705) is an inclined plane, rubber is arranged on the inclined plane of the rear side of the upper part of the first baffle (705), and a square rubber strip is arranged on the front side surface of the first baffle (705).

5. The intelligent power distribution cabinet with the air filtering function for the oilfield tool according to claim 3, wherein: the elutriation component comprises a special-shaped box (7071), a containing box (7072), partition plates (7073), guide plates (7074), triangular baffle plates (7075), a second conical shell (708) and a collecting shell (709), wherein the special-shaped box (7071) is communicated with the lower end of a first conveying pipe (706), the inner surface of the special-shaped box (7071) is fixedly connected with the containing box (7072), a plurality of circular through holes are formed in the lower part of the containing box (7072), a large number of calcium chloride particles are contained in the containing box (7072), a plurality of partition plates (7073) are fixedly connected in the containing box (7072), the containing box (7072) is divided into a plurality of cavities by the plurality of partition plates (7073), the guide plates (7074) are fixedly connected to the left part and the right part of the lower side of the containing box (7072), the plurality of triangular baffle plates (7075) are arranged between the guide plates (7074) and the special-shaped box (7071), and the plurality of triangular baffle plates (7075) are fixedly connected to the front side and the back side of the inner surface of the special-shaped box (7071), the lower end of the special-shaped box (7071) is fixedly connected with a second conical shell (708), the lower part of the second conical shell (708) is fixedly connected with a collecting shell (709), and the collecting shell (709) is fixedly connected with a third conical shell (7101).

6. The intelligent power distribution cabinet with the air filtering function for the oilfield tool according to claim 5, wherein: the triangular baffles (7075) are arranged in a V-shaped mode, and a gap exists between the two triangular baffles (7075).

7. The intelligent power distribution cabinet with the air filtering function for the oilfield tool according to claim 1, wherein: the water droplet removing device comprises a first electric sliding rail (1501), a second electric sliding rail (1502), a scraping component, a water collecting plate (1513) and a water guide pipe (1514), wherein the first electric sliding rail (1501) is fixedly connected to the upper portion of the left side of the inner surface of the shell (2), the second electric sliding rail (1502) is fixedly connected to the upper portion of the inner surface of the shell (2), electric sliding blocks are arranged on the first electric sliding rail (1501) and the second electric sliding rail (1502), the first electric sliding rail (1501) and the second electric sliding rail (1502) are electrically connected with the controller (11), the scraping component is connected between the electric sliding blocks of the first electric sliding rail (1501) and the second electric sliding rail (1502), the scraping component is matched with a third supporting plate (9), the two water collecting plates (1513) are fixedly connected to the left side and the right side of the lower portion of the inner surface of the shell (2) respectively, the water guide pipe (1514) is fixedly connected to the outer side of the water collecting plate (1513), the water guide pipe (1514) is communicated with the shell (2), and a pressure valve is arranged at the lower part of the water guide pipe (1514).

8. The intelligent power distribution cabinet with the air filtering function for the oilfield tool according to claim 7, wherein: the water collecting plate (1513) is matched with the shell (2) to form a water collecting groove, and two sides of the water collecting plate (1513) are higher than the central part.

9. The intelligent power distribution cabinet with the air filtering function for the oilfield tool according to claim 7, wherein: the scraping component comprises a bottom plate (1503), a vertical plate (1504), a second fixed block (1505), a first sliding plate (1506), a second sliding plate (1507), a second rack (1508), a fourth servo motor (1509), a second gear (1510), a sliding frame (1511) and a third fixed block (1512), wherein the second fixed block 1505 is fixedly connected between one side of the vertical plate (1504) and an electric slider on a first electric sliding rail (1501), the bottom plate (1503) is fixedly connected at the lower end of the vertical plate (1504), the first sliding plate (1506) is slidably connected with the front side surface of the bottom plate (1503), the second sliding plate (1507) is slidably connected with the rear side surface of the bottom plate 1503), two second racks (1508) are fixedly connected with the front side surface at the left part of the first sliding plate (1506) and the rear side surface at the left part of the second sliding plate (1507), the fourth servo motor (1509) is fixedly connected with the lower surface of the bottom plate (1503), and the fourth servo motor (1509) is electrically connected with a controller (11), the output shaft rigid coupling of fourth servo motor (1509) has second gear (1510), and second gear (1510) meshes with two second racks (1508) respectively, carriage (1511) sliding connection in the outside of first slide (1506) and second slide (1507), and the right flank rigid coupling of carriage (1511) has third fixed block (1512), and the right-hand member of third fixed block (1512) and the electronic slider rigid coupling that is equipped with on second electronic slide rail (1502).