CN115720420A - Electronic communication cabinet body structure with control safeguard function - Google Patents

Abstract

The invention discloses an electronic communication cabinet body structure with monitoring and protecting functions, which comprises: the intelligent cabinet comprises a ground surface and a cabinet body, wherein a mounting groove is formed in the ground surface, a pad base structure is arranged on the inner side of the mounting groove, an automatic opening structure is arranged at the top end of the mounting groove, a lifting structure is arranged on the inner side of the mounting groove, the cabinet body is mounted on the lifting structure, a reinforcing structure is arranged on the inner side of the cabinet body, an electric component mounting frame body is arranged on the inner side of the cabinet body, a monitoring protection structure and a dehumidification and moisture-proof structure are arranged on the ground surface, and the dehumidification and moisture-proof structure is connected to the bottom end of the cabinet body; the cabinet body is arranged in the ground, thereby reducing the influence of environmental factors, and also setting up dehumidification dampproof structure and both can keep the drying of the internal side of cabinet, also can seal the protection to equipment according to the environment on every side, has avoided intaking through the siphon, carries out spacing sheltering from to equipment through buoyancy simultaneously, has avoided underground equipment to intake, and effectual help maintainer reduces maintenance cycle.

Description

Electronic communication cabinet body structure with control safeguard function

Technical Field

The invention relates to the technical field of electronic communication cabinets, in particular to an electronic communication cabinet body structure with a monitoring protection function.

Background

The traditional electronic communication cabinet is arranged on the ground, and due to the material and arrangement environment of the electronic communication cabinet, the electronic communication cabinet is often influenced by weather environment or urban human factors, and internal components of the electronic communication cabinet can break down when the electronic communication cabinet is exposed to storm weather or human damage.

Disclosure of Invention

The technical scheme of the invention for realizing the aim is as follows: an electronic communication cabinet structure with monitoring and protection functions, comprising: the intelligent cabinet comprises a ground surface and a cabinet body, wherein a mounting groove is formed in the ground surface, a pad base structure is arranged on the inner side of the mounting groove, an automatic opening structure is arranged at the top end of the mounting groove, a lifting structure is arranged on the inner side of the mounting groove, the cabinet body is mounted on the lifting structure, a reinforcing structure is arranged on the inner side of the cabinet body, an electric component mounting frame body is arranged on the inner side of the cabinet body, a monitoring protection structure and a dehumidification and moisture-proof structure are arranged on the ground surface, and the dehumidification and moisture-proof structure is connected to the bottom end of the cabinet body;

the pad base structure comprises: the concrete pouring structure comprises a foundation stone, a concrete pouring square frame, a plurality of mounting lugs, a plurality of reinforcing beams, a plurality of transverse stabilizing beams, a base plate and a top plate;

the base plate is movably arranged on the base stone, the edge parts of four sides of the base plate and the base stone are integrally poured by cement, the concrete pouring square frame is movably arranged on the base plate, the mounting lugs are equidistantly arranged on the outer wall of the concrete pouring square frame, the mounting holes are respectively formed in the mounting lugs, the end part of the base plate is provided with mounting holes corresponding to the mounting lugs in number and position, the reinforcing beams respectively penetrate through the mounting lugs and then are inserted into the mounting holes, the top plate is arranged on the concrete pouring square frame, and the transverse stabilizing beams are respectively positioned among the reinforcing beams;

the dehumidifying and moisture-proof structure comprises: the device comprises a transit solar heating box, an electric heating sheet, a heating air inlet pipe, a heating exhaust pipe, a filtering silica gel film, a pair of dehumidifying lifting sleeves, a pair of sealing telescopic rubber pipes, a heating drainage fan, a pair of L-shaped gas drainage pipes, a square-shaped concave lifting limiting block, a convex square-shaped lifting block, a square-shaped inflatable cushion, a square-shaped lifting baffle plate, two pairs of L-shaped rainwater drainage pipes and a stretching assembly;

the heating cabinet is characterized in that a transit solar heating box is installed on a top plate, a pair of L-shaped gas drainage tubes are respectively inserted on two sides of the transit solar heating box, and the pair of L-shaped gas drainage tubes extend out of the ground, an electric heating piece is installed on the inner side of the transit solar heating box, a pair of dehumidifying lifting sleeves are respectively inserted on two sides of the top end of the transit solar heating box, a heating air inlet pipe and a heating exhaust pipe are inserted on the cabinet body, a heating air inlet pipe and a heating exhaust pipe are respectively and movably inserted on the pair of dehumidifying lifting sleeves, two ends of a pair of sealing telescopic rubber pipes are respectively connected on the pair of dehumidifying lifting sleeves, the heating air inlet pipe and the heating exhaust pipe, a filtering silica gel film is installed on the inner side of the heating air inlet pipe, a heating drainage fan is installed on the heating air inlet pipe, a lifting clip-shaped blocking groove is formed in the ground, a clip-shaped concave lifting limiting block is installed on the inner side of the lifting clip-shaped blocking groove, a protruding clip-shaped lifting limiting block is installed on the clip-shaped lifting block, a protruding clip-shaped lifting blocking plate is installed on the two pairs of L-shaped rainwater drainage tubes, and a tensile assembly is connected on the clip-shaped lifting blocking plate.

Preferably, the lifting structure comprises: the lifting device comprises a pair of W-shaped lifting blocks, a plurality of lifting threaded rods, a plurality of lifting threaded pipes, a pair of lifting limiting blocks, a pair of lifting gear boxes, a pair of lifting driving machines, a plurality of lifting limiting shafts and a limiting fixing component;

the pair of W-shaped lifting blocks are installed on the top plate in a cross mode, the pair of lifting limiting blocks are installed on the side wall of the cabinet body respectively, the pair of lifting limiting blocks are movably inserted into the inner sides of the pair of W-shaped lifting blocks respectively, the plurality of lifting threaded pipes are inserted into the pair of lifting limiting blocks respectively, the plurality of lifting threaded rods are inserted into the pair of W-shaped lifting blocks through bearings respectively, the plurality of lifting threaded rods are movably inserted into the plurality of lifting threaded pipes respectively, the pair of lifting gear boxes are installed on the inner sides of the pair of W-shaped lifting blocks respectively, the pair of lifting gear boxes are sleeved on the plurality of lifting threaded rods respectively, the pair of lifting driving machines are installed on the inner sides of the pair of W-shaped lifting blocks respectively, the pair of lifting driving ends of the lifting driving machines are connected onto the pair of lifting gear boxes respectively, the plurality of lifting shafts are inserted into the pair of W-shaped lifting blocks respectively, the plurality of lifting shafts are movably inserted into the pair of lifting limiting blocks respectively, and the limiting fixing assembly is installed on the pair of lifting limiting blocks.

Preferably, the automatic opening structure comprises: the cooling system comprises a herringbone support, a large baffle plate, a small baffle plate, two pairs of telescopic sealing lead screw modules, an expansion temperature control box, an expansion liquid pump, an expansion flow dividing pipe, a cooler, a radiator, a pair of sealing rubber cushions and a pair of well-shaped radiating pipes;

the expansion temperature control box is installed on the ground, the expansion liquid pump is installed on the expansion temperature control box, the pair of well-shaped heat radiation pipes are installed on the large-size shielding plate and the small-size shielding plate respectively, the expansion flow distribution pipes are installed on the expansion liquid pump, the expansion flow distribution pipes are connected to the pair of well-shaped heat radiation pipes, the cooler is installed on the inner side of the expansion temperature control box, and the radiator is installed on the expansion temperature control box.

Preferably, the position-limiting fixing component comprises: the device comprises a pair of V-shaped hook blocks, a pair of V-shaped limiting blocks, two pairs of rotation limiting fixed shafts, two pairs of bidirectional electromagnet blocks, two pairs of telescopic magnet blocks and an infrared height sensor;

three pairs of rotating limiting grooves are respectively formed in the inner sides of the pair of lifting limiting blocks and the mounting groove, the pair of V-shaped hook blocks are respectively inserted into the inner sides of the three pairs of rotating limiting grooves on the pair of lifting limiting blocks through rotating limiting fixing shafts, the pair of V-shaped limiting blocks are respectively inserted into the inner sides of the three pairs of rotating limiting grooves on the mounting groove through rotating limiting fixing shafts, the two pairs of bidirectional electromagnet blocks are respectively installed on the pair of lifting limiting blocks and the mounting groove, the two pairs of telescopic magnet blocks are respectively installed on the pair of V-shaped hook blocks and the pair of V-shaped limiting blocks, and the infrared height sensor is installed on the lifting limiting blocks.

Preferably, the reinforcing structure comprises: the reinforcing device comprises a plurality of rib plates, two pairs of reinforcing bar-shaped boxes and four pairs of reinforcing blocks;

two pairs of reinforcing bar-shaped boxes are installed on the outer side wall of the cabinet body in pairs, four pairs of reinforcing blocks are respectively installed on the inner sides of the two pairs of reinforcing bar-shaped boxes, and a plurality of rib plates are evenly installed on the inner side wall of the cabinet body.

Preferably, the stretching assembly comprises: the device comprises a pair of U-shaped siphons, a pair of telescopic folding pipes, a pair of stretching ring brackets, a pair of filter screens and a pair of convex stretching blocks;

the pair of telescopic folding pipes are respectively connected to the pair of L-shaped gas drainage pipes, the pair of U-shaped siphons are respectively connected to the pair of telescopic folding pipes, the pair of filter screens are respectively installed on the inner sides of the pair of U-shaped siphons, the pair of stretching ring supports are respectively sleeved on the pair of U-shaped siphons, the pair of lifting stretching concave grooves are formed in the square-shaped lifting baffle plate, the pair of convex stretching blocks are respectively connected to the pair of stretching ring supports, and the pair of convex stretching blocks are respectively movably inserted into the pair of lifting stretching concave grooves.

Preferably, the square-shaped concave lifting limiting block is provided with a drainage structure;

the drainage structure includes: the device comprises a U-shaped siphon drainage tube, a liquid discharge valve, a liquid level sensor and an infrared trigger;

the U-shaped siphon drainage tube is inserted on the U-shaped concave lifting limiting block, the liquid discharge valve is installed on the U-shaped siphon drainage tube, the U-shaped lifting baffle plate is provided with a concave detection groove, the liquid level sensor is installed on the inner side of the concave detection groove, and the infrared trigger is installed on the concave detection groove.

Preferably, the square-shaped lifting shielding plate is made of plastic materials.

Preferably, the pair of convex longitudinal telescopic blocks and the two pairs of convex transverse telescopic blocks are respectively provided with a convex sealing groove and a concave sealing groove, and the convex longitudinal telescopic block is movably inserted into the inner side of the concave sealing groove on the other convex longitudinal telescopic block through the convex sealing groove.

Preferably, a humidity sensor is arranged on the inner side of the cabinet body.

The electronic communication cabinet body structure with the monitoring protection function, which is manufactured by the technical scheme of the invention, provides a unique electronic communication cabinet, the cabinet body is positioned in the ground, so that the influence of environmental factors is reduced, and the dehumidifying and moistureproof structure can keep the inner side of the cabinet body dry, can also carry out sealing protection on equipment according to the surrounding environment, avoids water inflow through siphoning, and simultaneously carries out limiting shielding on the equipment through buoyancy, thereby avoiding water inflow of underground equipment, effectively helping maintenance personnel to reduce the maintenance period, reducing the accident of communication interruption and effectively solving the technical problems in the background technology.

Drawings

Fig. 1 is a schematic front sectional view of a structure of an electronic communication cabinet with a monitoring and protection function according to the present invention.

Fig. 2 is a schematic cross-sectional side view of a structure of an electronic communication cabinet with a monitoring protection function according to the present invention.

Fig. 3 is a schematic top view of a structure of an electronic communication cabinet with monitoring and protection functions according to the present invention.

Fig. 4 is a partially enlarged view of "a" in fig. 1.

Fig. 5 is a partially enlarged view of "B" in fig. 1.

Fig. 6 is a partially enlarged view of "C" in fig. 1.

In the figure: 1. a ground surface; 2. a cabinet body; 3. a base stone; 4. concrete pouring square frame; 5. mounting lugs; 6. a reinforcing beam; 7. transversely arranging a stabilizing beam; 8. a substrate; 9. a top plate; 10. a transit solar heating box; 11. an electric heating sheet; 12. heating the air inlet pipe; 13. heating the exhaust pipe; 14. filtering the silica gel membrane; 15. a dehumidifying lifting sleeve; 16. sealing the telescopic rubber tube; 17. heating a drainage fan; 18. an L-shaped gas drainage tube; 19. a square-shaped concave lifting limiting block; 20. a convex-shaped square-shaped lifting block; 21. a clip-shaped inflatable cushion; 22. a clip-shaped lifting baffle plate; 23. an L-shaped rainwater drainage pipe; 24. a W-shaped lifting block; 25. lifting a threaded rod; 26. lifting the threaded pipe; 27. a lifting limiting block; 28. a lifting gear box; 29. a lift drive; 30. a lifting limit shaft; 31. a herringbone bracket; 32. a large-size shielding plate; 33. a small-size shielding plate; 34. a telescopic sealing lead screw module; 35. an expansion temperature control box; 36. an expansion liquid pump; 37. an expansion shunt tube; 38. a cooler; 39. a heat sink; 40. sealing the rubber gasket; 41. a well-shaped radiating pipe; 42. a V-shaped hook block; 43. a V-shaped limiting block; 44. rotating the limiting fixing shaft; 45. a bidirectional electromagnet block; 46. a telescopic magnet block; 47. an infrared height sensor; 48. a bar rib plate; 49. reinforcing the bar-shaped box; 50. a reinforcing block; 51. a U-shaped siphon tube; 52. a telescopic folding tube; 53. stretching the circular ring support; 54. a filter screen; 55. a convex stretching block; 56. a U-shaped siphon drainage tube; 57. a drain valve; 58. a liquid level sensor; 59. an infrared trigger.

Detailed Description

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Examples

As shown in fig. 1-6, a mounting groove is formed on the ground 1, a pad base structure is arranged on the inner side of the mounting groove, an automatic opening structure is arranged at the top end of the mounting groove, a lifting structure is arranged on the inner side of the mounting groove, a cabinet body 2 is mounted on the lifting structure, a reinforcing structure is arranged on the inner side of the cabinet body 2, an electric component mounting frame body is arranged on the inner side of the cabinet body 2, a monitoring protection structure and a dehumidification and moisture-proof structure are arranged on the ground 1, and the dehumidification and moisture-proof structure is connected to the bottom end of the cabinet body 2;

specifically, the pad base structure comprises: the concrete pouring structure comprises a foundation stone 3, a concrete pouring frame 4, a plurality of mounting lugs 5, a plurality of reinforcing beams 6, a plurality of transverse stabilizing beams 7, a base plate 8 and a top plate 9;

specifically, the bed stone 3 is laid on the bottom of mounting groove, and utilize cement pouring, 8 movable settling on bed stone 3 of base plate, it is integrative with 3 utilization cement pouring of bed stone with the four sides edge of base plate 8 through cement, concrete pouring square frame 4 movable settling is on base plate 8, 5 equidistance of a plurality of installation ear are installed on concrete pouring square frame 4's outer wall, the mounting hole has been seted up respectively on a plurality of installation ear 5, the mounting hole corresponding with 5 quantity of a plurality of installation ear and position is seted up to 8 tip of base plate, insert in the mounting hole after a plurality of installation ear 5 is run through respectively to a plurality of stiffening beam 6, roof 9 is installed on concrete pouring square frame 4, a plurality of horizontal stable roof beam 7 is located between a plurality of stiffening beam 6 respectively.

During the use, install fixedly through filling up basic structure the cabinet body 2, the automatic structure of opening is used for opening 2 tip of the cabinet body and dismantles or overhauls the part that is located 2 bottoms of underground communication cabinet body, cabinet body 2 left and right sides has elevation structure, this elevation structure is used for ejecting the electric installation support body of the internal portion of cabinet body 2, cabinet body 2 is inside to have dehumidification dampproof structure, dehumidification dampproof structure is used for getting rid of the moisture of the internal portion of cabinet body 2, guarantee the normal operating of electric, after stone 3 adds concrete placement, can strengthen bottom sprag hardness, base plate 8 is placed on stone 3, and pour into an organic whole with stone 3 with cement four marginal parts of base plate 8, pour into a mould frame 4 into a whole subsequently, concrete pour into a mould frame 4 into a mould on base plate 8, concrete pour into a mould frame 4 outside has a plurality of installation ears 5, fix installation ears 5 and roof 9 on concrete pour into a mould frame 4 through stiffening beam 6, subsequently, utilize horizontal stabilizing beam 7 to fix a plurality of stiffening beams 6 once more.

As shown in fig. 1-6, the moisture and humidity removing structure comprises: the device comprises a transit solar heating box 10, an electric heating sheet 11, a heating air inlet pipe 12, a heating exhaust pipe 13, a filtering silica gel film 14, a pair of dehumidifying lifting sleeves 15, a pair of sealing telescopic rubber pipes 16, a heating drainage fan 17, a pair of L-shaped gas drainage pipes 18, a square-shaped concave lifting limiting block 19, a convex square-shaped lifting block 20, a square-shaped inflatable cushion 21, a square-shaped lifting baffle plate 22, two pairs of L-shaped rainwater drainage pipes 23 and a stretching assembly;

specifically, the heating box 10 is mounted on the top plate 9, a pair of L-shaped gas drainage tubes 18 are respectively inserted on two sides of the heating box 10, and a pair of L-shaped gas drainage tubes 18 extend from the ground 1, an electric heating plate 11 is mounted on the inner side of the heating box 10, a pair of dehumidifying lifting sleeves 15 are respectively inserted on two sides of the top end of the heating box 10, a heating air inlet pipe 12 and a heating air outlet pipe 13 are inserted on the cabinet 2, and the heating air inlet pipe 12 and the heating air outlet pipe 13 are respectively movably inserted on the pair of dehumidifying lifting sleeves 15, two ends of a pair of sealing telescopic rubber tubes 16 are respectively connected on the pair of dehumidifying lifting sleeves 15, the heating air inlet pipe 12 and the heating air outlet pipe 13, a filtering silica gel film 14 is mounted on the inner side of the heating air inlet pipe 12, a heating drainage fan 17 is mounted on the heating air inlet pipe 12, a lifting baffle slot is formed on the ground 1, a concave lifting stopper 19 is mounted on the inner side of the lifting baffle slot, a convex lifting stopper 20 is movably mounted on the lifting baffle slot 22, and a pair of a tensile rainwater drainage assembly 22 is mounted on the L-shaped lifting baffle assembly 22, and a pair of a tensile rainwater drainage tube 18 is inserted on the tensile rainwater drainage tube 1.

When in use, the heating and drainage fan 17 pumps air into a side sealing cavity in the transit solar heating box 10 through the L-shaped gas drainage tube 18, when the humidity sensor detects that the humidity of the inner side of the cabinet body 2 exceeds the standard, the gas drained by the heating and drainage fan 17 is heated and dried through the electric heating piece 11, the high-temperature gas is filtered through the filtering silica gel film 14, the moisture in the inner side of the high-temperature gas is filtered out, the high-temperature dry gas is drained to the inner side of the cabinet body 2 through the dehumidifying lifting sleeve 15, the coal powder telescopic rubber tube and the heating air inlet tube 12, meanwhile, the gas in the inner side of the cabinet body 2 is extruded out through the high-temperature dry gas, the heating air inlet tube 12 is movably inserted in the inner side of the dehumidifying lifting sleeve 15, the dehumidifying lifting sleeve 15 and the heating air inlet tube 12 are sealed through the sealing telescopic rubber tube 16, so that the heating air inlet tube 12 can lift up and down according to the cabinet body 2, therefore, when the cabinet is lifted, the cabinet body 2 and the transfer solar heating box 10 are always in a sealed connection state, meanwhile, gas is drained to the inner side of a sealed cavity at the other side of the transfer solar heating box 10 through the sealed telescopic rubber tube 16 and the dehumidifying lifting sleeve 15 through the heating exhaust pipe 13, the gas is drained out through the L-shaped gas drainage tube 18 at the other side of the transfer solar heating box 10, when the rainy day comes and the rainwater amount reaches a certain amount, the rainwater is drained to the inner sides of the two pairs of L-shaped rainwater drainage tubes 23, the rainwater is drained to the inner sides of the clip-shaped concave lifting limiting block 19 through the two pairs of L-shaped rainwater drainage tubes 23, the clip-shaped inflatable cushion 21 is supported and floated through the rainwater at the inner sides of the clip-shaped concave lifting limiting block 19, so that the clip-shaped inflatable cushion 21 supports the convex clip-shaped lifting block 20, and the clip-shaped lifting block 20 drives the clip-shaped lifting block on the clip-shaped inflatable cushion to lift, shelter from all around the cabinet body 2 through returning the shape lift and shelter from, avoided rainwater drainage to the inboard of mounting groove, cause the damage to the electrical apparatus of the inboard cupboard of mounting groove, simultaneously through sheltering from, avoided rainwater drainage to the inboard of L type gas drainage tube 18, simultaneously through returning the shape lift and shelter from the dog and drive the tensile subassembly above that, go up and down tensile through tensile subassembly with the air intake department of a pair of L type gas drainage tube 18.

As shown in fig. 1-6, the lifting structure comprises: a pair of W-shaped lifting blocks 24, a plurality of lifting threaded rods 25, a plurality of lifting threaded pipes 26, a pair of lifting limiting blocks 27, a pair of lifting gear boxes 28, a pair of lifting driving machines 29, a plurality of lifting limiting shafts 30 and a limiting fixing component;

specifically, a pair of W-shaped lifting blocks 24 is cross-shaped and mounted on the top plate 9, a pair of lifting limit blocks 27 is mounted on the side wall of the cabinet body 2, the pair of lifting limit blocks 27 is movably inserted inside the pair of W-shaped lifting blocks 24, a plurality of lifting screw pipes 26 are respectively inserted on the pair of lifting limit blocks 27, a plurality of lifting screw rods 25 are respectively inserted on the pair of W-shaped lifting blocks 24 through bearings, a plurality of lifting screw rods 25 are respectively movably inserted on the plurality of lifting screw pipes 26, a pair of lifting gear boxes 28 are respectively mounted on the inner sides of the pair of W-shaped lifting blocks 24, the pair of lifting gear boxes 28 are respectively sleeved on the plurality of lifting screw rods 25, a pair of lifting drivers 29 are respectively mounted on the inner sides of the pair of W-shaped lifting blocks 24, a pair of driving ends of the lifting drivers 29 are connected to the pair of lifting gear boxes 28, a plurality of lifting shafts are respectively inserted on the pair of W-shaped lifting blocks 24, a plurality of lifting shafts are respectively movably inserted on the pair of lifting limit blocks 27, and a limit fixing component is mounted on the pair of lifting limit blocks 27.

During the use, through the operation of the inboard lift driving machine 29 of a pair of W type elevator block 24, drive the lift gear box 28 on the drive end of a pair of lift driving machine 29 respectively, it is rotatory to drive a plurality of lifting screw 25 above that through lift gear box 28, it is rotatory to drive lifting screw 26 above that respectively through a plurality of lifting screw 25, make a plurality of lifting screw 26 respectively along lifting screw 25's lift, drive lifting stop block 27 above that through a plurality of lifting screw 26 respectively, make a pair of lifting stop block 27 go up and down along a plurality of lifting screw 25, drive cabinet body 2 above that through a pair of lifting stop block 27, thereby reach and stabilize lift push-and-pull with cabinet body 2, go up and down stably to lifting stop block 27 through a plurality of lift spacing axle 30, expand fixedly with a pair of lifting stop block 27 through spacing fixed subassembly simultaneously.

As shown in fig. 1 to 6, the automatic opening structure includes: the heat radiator comprises a herringbone bracket 31, a large baffle plate 32, a small baffle plate 33, two pairs of telescopic sealing lead screw modules 34, an expansion temperature control box 35, an expansion liquid pump 36, an expansion shunt pipe 37, a cooler 38, a radiator 39, a pair of sealing rubber gaskets 40 and a pair of well-shaped heat radiating pipes 41;

specifically, the herringbone bracket 31 is inserted into the ground 1, a pair of herringbone expansion grooves are formed in the herringbone bracket 31, a pair of sealed expansion driving grooves are formed in the inner sides of the herringbone expansion grooves respectively, two pairs of telescopic sealing lead screw modules 34 are installed on the inner sides of the pair of sealed expansion driving grooves respectively, the large-size shielding plate 32 and the small-size shielding plate 33 are inserted into the inner sides of the herringbone expansion grooves respectively in a crossed manner, the large-size shielding plate 32 and the small-size shielding plate 33 are connected to the moving ends of the two pairs of telescopic sealing lead screw modules 34 respectively, the large-size shielding plate 32 is provided with a telescopic mortise and tenon groove, the small-size shielding plate 33 is movably inserted into the telescopic mortise groove in the large-size shielding plate 32, a pair of sealing rubber gaskets 40 are installed on the large-size shielding plate 32 and the small-size shielding plate 33 respectively, the expansion temperature control box 35 is installed on the ground 1, the expansion liquid pumping pump 36 is installed on the expansion temperature control box 35, a pair of well-shaped heat dissipation pipes 41 are installed on the large-size shielding plate 32 and the small-size shielding plate 33, the expansion liquid pumping box 36 is connected to the expansion flow dividing pipe 37, the expansion heat dissipation pipe 35 is installed on the expansion heat dissipation box 35, and the expansion heat dissipation pipe 35 is installed on the radiator 35.

When the sealing device is used, the two pairs of telescopic sealing lead screw modules 34 on the inner sides of the two pairs of sealing telescopic driving grooves on the herringbone support 31 operate to respectively drive the large-size baffle plate 32 and the small-size baffle plate 33 on the moving ends of the two pairs of telescopic sealing lead screw modules 34, the small-size baffle plate 33 is inserted into the inner sides of the telescopic mortise and tenon grooves on the large-size baffle plate 32, the cooler 38 on the inner side of the expansion temperature control box 35 operates to cool the liquid on the inner side of the expansion temperature control box 35, the liquid on the inner side of the expansion temperature control box 35 is pumped to the inner sides of the expansion shunt tubes 37 by the expansion liquid pump 36, the low-temperature liquid is drained to the inner sides of the pair of well-shaped radiating pipes 41 by the expansion shunt tubes 37, the large-size baffle plate 32 and the small-size baffle plate 33 are cooled by the low-temperature liquid, so that the small-size baffle plate 33 and the sealing rubber gasket 40 on the large-size baffle plate 32 are cooled, the large-size baffle plate 33 and the pair of sealing rubber gaskets 40 are cooled by the principle of thermal expansion shunt tubes, thereby achieving the shrinking phenomenon that the rainwater can be extruded into the mounting grooves 31 and the small-size baffle plate 31, and the rainwater can be extruded to avoid the rainwater from entering the rainwater.

As shown in fig. 1-6, the position-limiting fixing component comprises: a pair of V-shaped hook blocks 42, a pair of V-shaped limiting blocks 43, two pairs of rotation limiting fixing shafts 44, two pairs of bidirectional electromagnet blocks 45, two pairs of telescopic magnet blocks 46 and an infrared height sensor 47;

three pairs of limiting grooves are respectively formed in the inner sides of the pair of lifting limiting blocks 27 and the mounting groove, the pair of V-shaped hook blocks 42 are respectively inserted into the inner sides of the three pairs of limiting grooves in the pair of lifting limiting blocks 27 through the rotating limiting fixing shaft 44, the pair of V-shaped limiting blocks 43 are respectively inserted into the inner sides of the three pairs of limiting grooves in the mounting groove through the rotating limiting fixing shaft 44, the two pairs of bidirectional electromagnet blocks 45 are respectively installed on the pair of lifting limiting blocks 27 and the mounting groove, the two pairs of telescopic magnet blocks 46 are respectively installed on the pair of V-shaped hook blocks 42 and the pair of V-shaped limiting blocks 43, and the infrared height sensor 47 is installed on the lifting limiting blocks 27.

When the device is used, the two pairs of bidirectional electromagnet blocks 45 are electrified, the V-shaped hook block 42 and the V-shaped limiting block 43 are magnetically repelled or adsorbed, the V-shaped hook block 42 and the V-shaped limiting block 43 are repelled, the V-shaped hook block 42 and the V-shaped limiting block 43 rotate along the rotation limiting fixing shaft 44 respectively, the V-shaped hook block 42 and the V-shaped limiting block 43 are in different directions, the V-shaped hook block 42 and the V-shaped limiting block 43 are in opposite directions, the V-shaped limiting block 43 stretches and supports the V-shaped hook block 42, the V-shaped hook block 42 stretches and supports the V-shaped limiting block 43, the lifting limiting block 27 is stretched by the V-shaped hook block 42, and the lifting limiting block 27 is stretched in the vertical direction, so that the effect of stretching, limiting and fixing in the vertical direction of the lifting limiting block 27 is achieved.

As shown in fig. 1-6, the reinforcing structure comprises: a plurality of rib plates 48, two pairs of reinforcing bar-shaped boxes 49 and four pairs of reinforcing blocks 50;

specifically, two pairs of reinforcing bar-shaped boxes 49 are installed on the outer side wall of the cabinet body 2 in pairs, four pairs of reinforcing blocks 50 are respectively installed on the inner sides of the two pairs of reinforcing bar-shaped boxes 49, and a plurality of rib plates are evenly installed on the inner side wall of the cabinet body 2.

During the use, for the hardness of the reinforced cabinet body 2, set up many gussets, the gusset is located the inside of the cabinet body 2, and the reinforcing bar case 49 is located the cabinet body 2 outsidely to add boss 50 in the reinforcing bar case 49 inside, thereby strengthen overall structure's holding power.

As shown in fig. 1-6, the stretching assembly comprises: a pair of U-shaped siphon tubes 51, a pair of telescopic folding tubes 52, a pair of stretching ring brackets 53, a pair of filter screens 54, and a pair of convex stretching blocks 55;

specifically, a pair of telescopic folding pipes 52 are respectively connected to the pair of L-shaped gas drainage pipes 18, a pair of U-shaped siphons 51 are respectively connected to the pair of telescopic folding pipes 52, a pair of filter screens 54 are respectively installed inside the pair of U-shaped siphons 51, a pair of stretching ring brackets 53 are respectively sleeved on the pair of U-shaped siphons 51, a pair of lifting stretching concave grooves are formed in the rectangular lifting baffle plate 22, a pair of convex stretching blocks 55 are respectively connected to the pair of stretching ring brackets 53, and the pair of convex stretching blocks 55 are respectively movably inserted into the pair of lifting stretching concave grooves.

During the use, go up and down through returning shape lift shielding plate 22, it drives protruding type tensile piece 55 on the tensile ring support 53 to go up and down through the tensile concave groove of going up and down on the lift shielding plate 22 that returns shape, it goes up and down to drive tensile ring support 53 above that through protruding type tensile piece 55, it drives the U type siphon 51 of suit to go up and down through tensile ring lift support, thereby reach and stretch U type siphon 51, thereby avoided the rainwater to be higher than the phenomenon that siphon refluence appears in U type siphon 51, U type siphon 51 has avoided the rainwater to enter into the inboard of L type gas drainage tube 18 simultaneously.

As shown in fig. 1-6, the concave-square lifting stopper 19 is provided with a drainage structure;

specifically, the drainage structure includes: a U-shaped siphon drainage tube 56, a drain valve 57, a liquid level sensor 58 and an infrared trigger 59;

specifically, the U-shaped siphon drainage tube 56 is inserted on the concave lifting stopper 19, the drain valve 57 is installed on the U-shaped siphon drainage tube 56, the concave detection groove is formed in the lifting baffle plate 22, the liquid level sensor 58 is installed on the inner side of the concave detection groove, and the infrared trigger 59 is installed on the concave detection groove.

When the rainwater drainage device is used, when the liquid level sensor 58 on the square-shaped lifting baffle plate 22 checks the liquid level outside the square-shaped lifting baffle plate 22, when the rainwater is lower than a certain height, the rainwater drainage valve 57 on the U-shaped siphon drainage tube 56 is opened, and the rainwater on the inner side of the square-shaped concave lifting limiting block 19 is drained by the siphon principle.

Preferably, the square-shaped elevating shutter 22 is made of plastic.

As an optimal scheme, furthermore, a convex sealing groove and a concave sealing groove are respectively formed in the pair of convex longitudinal telescopic blocks and the two pairs of convex transverse telescopic blocks, and the convex longitudinal telescopic blocks are movably inserted into the inner sides of the concave sealing grooves in the other convex longitudinal telescopic block through the convex sealing grooves.

Preferably, a humidity sensor is disposed inside the cabinet 2.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications made to some parts by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (10)

1. An electronic communication cabinet structure with monitoring and protection functions, comprising: the electric component installation cabinet is characterized in that a mounting groove is formed in the ground, a pad base structure is arranged on the inner side of the mounting groove, an automatic opening structure is arranged at the top end of the mounting groove, a lifting structure is arranged on the inner side of the mounting groove, the cabinet body is installed on the lifting structure, a reinforcing structure is arranged on the inner side of the cabinet body, an electric component installation frame body is arranged on the inner side of the cabinet body, a dehumidification and moisture-proof structure is arranged on the ground, and the dehumidification and moisture-proof structure is connected to the bottom end of the cabinet body;

the pad base structure comprises: the concrete-filled steel plate comprises a foundation stone, a concrete pouring frame, a plurality of mounting lugs, a plurality of reinforcing beams, a plurality of transverse stabilizing beams, a base plate and a top plate;

the base plate is movably arranged on the base stone, the edge parts of the four sides of the base plate and the base stone are integrally poured by cement, the concrete pouring square frame is movably arranged on the base plate, the plurality of mounting lugs are equidistantly arranged on the outer wall of the concrete pouring square frame, mounting holes are respectively formed in the plurality of mounting lugs, mounting holes corresponding to the number and the positions of the plurality of mounting lugs are formed in the end part of the base plate, the plurality of reinforcing beams penetrate through the plurality of mounting lugs respectively and then are inserted into the mounting holes, the top plate is arranged on the concrete pouring square frame, and the plurality of transverse stabilizing beams are respectively positioned among the plurality of reinforcing beams;

the dehumidifying and moisture-proof structure comprises: the device comprises a transfer solar heating box, an electric heating sheet, a heating air inlet pipe, a heating exhaust pipe, a filtering silica gel film, a pair of dehumidification lifting sleeves, a pair of sealed telescopic rubber pipes, a heating drainage fan, a pair of L-shaped gas drainage pipes, a square-shaped concave lifting limiting block, a convex square-shaped lifting block, a square-shaped inflatable cushion, a square-shaped lifting baffle plate, two pairs of L-shaped rainwater drainage pipes and a stretching assembly;

the heating cabinet is characterized in that a transit solar heating box is installed on a top plate, a pair of L-shaped gas drainage tubes are respectively inserted on two sides of the transit solar heating box, and the pair of L-shaped gas drainage tubes extend out of the ground, an electric heating piece is installed on the inner side of the transit solar heating box, a pair of dehumidifying lifting sleeves are respectively inserted on two sides of the top end of the transit solar heating box, a heating air inlet pipe and a heating exhaust pipe are inserted on the cabinet body, a heating air inlet pipe and a heating exhaust pipe are respectively and movably inserted on the pair of dehumidifying lifting sleeves, two ends of a pair of sealing telescopic rubber pipes are respectively connected on the pair of dehumidifying lifting sleeves, the heating air inlet pipe and the heating exhaust pipe, a filtering silica gel film is installed on the inner side of the heating air inlet pipe, a heating drainage fan is installed on the heating air inlet pipe, a lifting clip-shaped blocking groove is formed in the ground, a clip-shaped concave lifting limiting block is installed on the inner side of the lifting clip-shaped blocking groove, a protruding clip-shaped lifting limiting block is installed on the clip-shaped lifting block, a protruding clip-shaped lifting blocking plate is installed on the two pairs of L-shaped rainwater drainage tubes, and a tensile assembly is connected on the clip-shaped lifting blocking plate.

2. The electronic communication cabinet structure with monitoring and protecting functions as claimed in claim 1, wherein the lifting structure comprises: the lifting device comprises a pair of W-shaped lifting blocks, a plurality of lifting threaded rods, a plurality of lifting threaded pipes, a pair of lifting limiting blocks, a pair of lifting gear boxes, a pair of lifting driving machines, a plurality of lifting limiting shafts and a limiting fixing component;

the pair of W-shaped lifting blocks are installed on the top plate in a cross mode, the pair of lifting limiting blocks are installed on the side wall of the cabinet body respectively, the pair of lifting limiting blocks are movably inserted into the inner sides of the pair of W-shaped lifting blocks respectively, the plurality of lifting threaded pipes are inserted into the pair of lifting limiting blocks respectively, the plurality of lifting threaded rods are inserted into the pair of W-shaped lifting blocks through bearings respectively, the plurality of lifting threaded rods are movably inserted into the plurality of lifting threaded pipes respectively, the pair of lifting gear boxes are installed on the inner sides of the pair of W-shaped lifting blocks respectively, the pair of lifting gear boxes are sleeved on the plurality of lifting threaded rods respectively, the pair of lifting driving machines are installed on the inner sides of the pair of W-shaped lifting blocks respectively, driving ends of the pair of lifting driving machines are connected onto the pair of lifting gear boxes respectively, the plurality of lifting shafts are inserted into the pair of W-shaped lifting blocks respectively, the plurality of lifting shafts are movably inserted into the pair of lifting limiting blocks respectively, and the limiting fixing assembly is installed on the pair of lifting limiting blocks.

3. The electronic communication cabinet structure with monitoring and protection functions as claimed in claim 2, wherein the automatic opening structure comprises: the cooling system comprises a herringbone support, a large baffle plate, a small baffle plate, two pairs of telescopic sealing lead screw modules, an expansion temperature control box, an expansion liquid pump, an expansion flow dividing pipe, a cooler, a radiator, a pair of sealing rubber cushions and a pair of well-shaped radiating pipes;

the expansion temperature control box is installed on the ground, the expansion liquid pump is installed on the expansion temperature control box, the pair of well-shaped heat radiation pipes are installed on the large-size shielding plate and the small-size shielding plate respectively, the expansion flow distribution pipes are installed on the expansion liquid pump, the expansion flow distribution pipes are connected to the pair of well-shaped heat radiation pipes, the cooler is installed on the inner side of the expansion temperature control box, and the radiator is installed on the expansion temperature control box.

4. The electronic communication cabinet structure with monitoring and protection functions as claimed in claim 3, wherein the limiting and fixing component comprises: the device comprises a pair of V-shaped hook blocks, a pair of V-shaped limiting blocks, two pairs of rotation limiting fixed shafts, two pairs of bidirectional electromagnet blocks, two pairs of telescopic magnet blocks and an infrared height sensor;

three pairs of rotating limiting grooves are respectively formed in the inner sides of the pair of lifting limiting blocks and the mounting groove, the pair of V-shaped hook blocks are respectively inserted into the inner sides of the three pairs of rotating limiting grooves on the pair of lifting limiting blocks through rotating limiting fixing shafts, the pair of V-shaped limiting blocks are respectively inserted into the inner sides of the three pairs of rotating limiting grooves on the mounting groove through rotating limiting fixing shafts, the two pairs of bidirectional electromagnet blocks are respectively installed on the pair of lifting limiting blocks and the mounting groove, the two pairs of telescopic magnet blocks are respectively installed on the pair of V-shaped hook blocks and the pair of V-shaped limiting blocks, and the infrared height sensor is installed on the lifting limiting blocks.

5. The electronic communication cabinet structure with monitoring and protection function according to claim 4, wherein the reinforcing structure comprises: the reinforcing device comprises a plurality of rib plates, two pairs of reinforcing bar-shaped boxes and four pairs of reinforcing blocks;

two pairs of reinforcing bar-shaped boxes are installed on the outer side wall of the cabinet body in pairs, four pairs of reinforcing blocks are respectively installed on the inner sides of the two pairs of reinforcing bar-shaped boxes, and a plurality of rib plates are evenly installed on the inner side wall of the cabinet body.

6. The electronic communication cabinet structure with monitoring and protection function according to claim 5, wherein the stretching assembly comprises: the device comprises a pair of U-shaped siphons, a pair of telescopic folding pipes, a pair of stretching ring brackets, a pair of filter screens and a pair of convex stretching blocks;

the pair of telescopic folding pipes are respectively connected to the pair of L-shaped gas drainage pipes, the pair of U-shaped siphons are respectively connected to the pair of telescopic folding pipes, the pair of filter screens are respectively installed on the inner sides of the pair of U-shaped siphons, the pair of stretching ring supports are respectively sleeved on the pair of U-shaped siphons, the pair of lifting stretching concave grooves are formed in the square-shaped lifting baffle plate, the pair of convex stretching blocks are respectively connected to the pair of stretching ring supports, and the pair of convex stretching blocks are respectively movably inserted into the pair of lifting stretching concave grooves.

7. The electronic communication cabinet structure with monitoring and protection functions as claimed in claim 6, wherein a drainage structure is arranged on the concave-shaped lifting limiting block;

the drainage structure includes: the device comprises a U-shaped siphon drainage tube, a liquid discharge valve, a liquid level sensor and an infrared trigger;

the U-shaped siphon drainage tube is inserted on the U-shaped concave lifting limiting block, the liquid discharge valve is installed on the U-shaped siphon drainage tube, the U-shaped lifting baffle plate is provided with a concave detection groove, the liquid level sensor is installed on the inner side of the concave detection groove, and the infrared trigger is installed on the concave detection groove.

8. The electronic communication cabinet structure with the monitoring and protection function according to claim 7, wherein the rectangular lifting shielding plate is made of plastic.

9. The electronic communication cabinet structure with monitoring and protection functions as claimed in claim 8, wherein a pair of convex longitudinal extension blocks and two pairs of convex transverse extension blocks are respectively provided with a convex sealing groove and a concave sealing groove, and the convex longitudinal extension block is movably inserted into the concave sealing groove of another convex longitudinal extension block through the convex sealing groove.

10. The electronic communication cabinet structure with monitoring and protection functions as claimed in claim 9, wherein a humidity sensor is disposed inside the cabinet.

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