CN215772131U - Adjustable power distribution cabinet based on electronic information engineering - Google Patents

Abstract

The utility model discloses an adjustable power distribution cabinet based on electronic information engineering, which comprises an installation base and an inverted L-shaped installation plate fixedly installed at the rear end of the installation base, wherein a power distribution cabinet is movably installed on the inverted L-shaped installation plate, a lifting mechanism is arranged at the upper end of the power distribution cabinet, and an overhauling mechanism is arranged at the rear end of the power distribution cabinet. The power distribution cabinet has the advantages that the power distribution cabinet can be driven to lift through the lifting mechanism positioned at the upper end of the power distribution cabinet, the installation position of the power distribution cabinet is positioned at the upper end, so that the situation that short-circuit faults or electrical safety accidents are caused by the fact that the bottom of the power distribution cabinet is immersed in water when heavy rainfall occurs can be prevented, the power distribution cabinet can be lowered to the bottom during maintenance, and meanwhile, an access hole at the rear end of the power distribution cabinet is convenient for maintaining electrical elements in the power distribution cabinet.

Description

Adjustable power distribution cabinet based on electronic information engineering

Technical Field

The utility model relates to the field of electronic information engineering, in particular to an adjustable power distribution cabinet based on electronic information engineering.

Background

Electronic information engineering is a subject of electronic information control and information processing by applying modern technologies such as computers, and mainly studies on acquisition and processing of information, design, development, application and integration of electronic equipment and information systems. Electronic information engineering has covered many aspects of society. The electronic information engineering specialty is a specialty integrating modern electronic technology, information technology and communication technology.

The power distribution cabinet for electronic information engineering is dense in lines and more in electrical components. The switch board is generally installed subaerial, and after taking place heavy rainfall, the switch board bottom is soaked in aquatic and is rusted with higher speed pig iron, brings the potential safety power supply hazard, and ponding soaks electrified position and causes short-circuit fault or electric incident easily.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects, the utility model provides an adjustable power distribution cabinet based on electronic information engineering, and aims to solve the problem of soaking prevention of the power distribution cabinet for the electronic information engineering.

In order to achieve the purpose, the utility model adopts the following technical scheme:

an adjustable power distribution cabinet based on electronic information engineering comprises an installation base and an inverted L-shaped installation plate fixedly installed at the upper rear end of the installation base, wherein a power distribution cabinet is movably installed on the inverted L-shaped installation plate, a lifting mechanism is arranged at the upper end of the power distribution cabinet, and an overhauling mechanism is arranged at the rear end of the power distribution cabinet;

the lifting mechanism comprises a mounting shell, a driving motor, a driving shaft, a group of opposite driving bevel gears, a group of rotating screw rods, a group of driven bevel gears, a group of sliding nuts, a group of opposite fixing sleeves, a group of sliding rods and a group of limiting blocks, wherein the mounting shell is mounted at the top in the inverted L-shaped mounting plate, the driving motor is horizontally mounted at one end in the mounting shell, the driving shaft is mounted at the rotating end of the driving motor, the group of opposite driving bevel gears are mounted at two sides on the driving shaft, the group of rotating screw rods are movably inserted at two sides of the bottom of the mounting shell, the upper ends of the rotating screw rods extend into the mounting shell, the group of driven bevel gears are mounted at the upper ends of the group of rotating screw rods and are respectively meshed with the group of opposite driving bevel gears, the group of sliding nuts are respectively sleeved on the group of rotating screw rods and are connected with two sides of the power distribution cabinet, the group of opposite fixing sleeves are mounted at the top in the inverted L-shaped mounting plate, the upper ends of the group of sliding rods are respectively movably inserted into the group of relatively fixed sleeves, the bottoms of the groups of sliding rods are connected with the power distribution cabinet, and the group of limiting blocks are respectively arranged at the tops of the group of sliding rods;

the maintenance mechanism includes access hole, a set of relative slide rail, sliding plate, bar rack, step motor and drive gear, the access hole is opened in the switch board rear end, and a set of relative slide rail is installed on the switch board rear surface, and is located access hole both sides, sliding plate movable mounting is on a set of relative slide rail, the bar rack is installed at the switch board rear surface, and is located a set of relative slide rail one side, step motor horizontal installation is in sliding plate bottom one side, drive gear installs on step motor rotation end, and with bar rack intermeshing.

Furthermore, the size of the driving bevel gear is smaller than that of the driven bevel gear.

Furthermore, a spring is sleeved at the upper end of the sliding rod.

Furthermore, a rectangular through hole corresponding to the access hole is formed in the rear end of the inverted L-shaped mounting plate.

Furthermore, a plurality of strip-shaped heat dissipation holes are uniformly formed in the sliding plate.

The utility model provides an adjustable power distribution cabinet based on electronic information engineering, which has the following beneficial effects that the power distribution cabinet can be driven to lift through a lifting mechanism positioned at the upper end of the power distribution cabinet, the installation position of the power distribution cabinet is positioned at the upper end, the bottom of the power distribution cabinet is immersed in water to prevent short-circuit fault or electrical safety accident when heavy rainfall occurs, the power distribution cabinet can be lowered to the bottom during maintenance, and meanwhile, an access hole at the rear end of the power distribution cabinet is convenient for maintaining electrical elements in the power distribution cabinet.

Drawings

Fig. 1 is a schematic diagram of an adjustable power distribution cabinet based on electronic information engineering according to the present invention.

Fig. 2 is a schematic diagram of the descending of the power distribution cabinet according to the present invention.

Fig. 3 is a side view of an adjustable power distribution cabinet based on electronic information engineering according to the present invention.

Fig. 4 is a rear view of the power distribution cabinet according to the present invention.

In the figure: 1. installing a base; 2. an inverted L-shaped mounting plate; 3. a power distribution cabinet; 4. mounting a shell; 5. A drive motor; 6. a drive shaft; 7. a driving bevel gear; 8. rotating the screw rod; 9. a driven bevel gear; 10. sliding a screw nut; 11. fixing the sleeve; 12. a slide bar; 13. a limiting block; 14. an access hole; 15. a slide rail; 16. a sliding plate; 17. a strip rack; 18. a stepping motor; 19. a drive gear; 20. a spring; 21. a rectangular through hole; 22. and (6) strip-shaped heat dissipation holes.

Detailed Description

The utility model is described in detail below with reference to the accompanying drawings, as shown in FIGS. 1-4: an adjustable power distribution cabinet based on electronic information engineering comprises an installation base 1 and an inverted L-shaped installation plate 2 fixedly installed at the rear end of the installation base 1, wherein a power distribution cabinet 3 is movably installed on the inverted L-shaped installation plate 2, a lifting mechanism is arranged at the upper end of the power distribution cabinet 3, and an overhauling mechanism is arranged at the rear end of the power distribution cabinet 3; the lifting mechanism comprises a mounting shell 4, a driving motor 5, a driving shaft 6, a group of opposite driving bevel gears 7, a group of rotating screw rods 8, a group of driven bevel gears 9, a group of sliding nuts 10, a group of opposite fixing sleeves 11, a group of sliding rods 12 and a group of limiting blocks 13, wherein the mounting shell 4 is mounted at the top in the inverted L-shaped mounting plate 2, the driving motor 5 is horizontally mounted at one end in the mounting shell 4, the driving shaft 6 is mounted at the rotating end of the driving motor 5, the group of opposite driving bevel gears 7 are mounted at two sides of the driving shaft 6, the group of rotating screw rods 8 are movably inserted at two sides of the bottom of the mounting shell 4, the upper ends of the group of rotating screw rods 4 extend into the mounting shell 4, the group of driven bevel gears 9 are mounted at the upper ends of the group of rotating screw rods 8 and are respectively meshed with the group of opposite driving bevel gears 7, and the group of sliding nuts 10 are respectively sleeved on the group of rotating screw rods 8, the upper ends of a group of sliding rods 12 are respectively movably inserted into a group of opposite fixed sleeves 11, the bottom of the group of sliding rods 12 is connected with the power distribution cabinet 3, and a group of limiting blocks 13 are respectively arranged at the tops of the group of sliding rods 12; the maintenance mechanism comprises a maintenance opening 14, a set of opposite slide rails 15, a sliding plate 16, a bar-shaped rack 17, a stepping motor 18 and a driving gear 19, wherein the maintenance opening 14 is formed in the rear end of the power distribution cabinet 3, the set of opposite slide rails 15 are arranged on the rear surface of the power distribution cabinet 3 and positioned on two sides of the maintenance opening 14, the sliding plate 16 is movably arranged on the set of opposite slide rails 15, the bar-shaped rack 17 is arranged on the rear surface of the power distribution cabinet 3 and positioned on one side of the set of opposite slide rails 15, the stepping motor 18 is horizontally arranged on one side of the bottom of the sliding plate 16, and the driving gear 19 is arranged on the rotating end of the stepping motor 18 and is meshed with the bar-shaped rack 17; the size of the driving bevel gear 7 is smaller than that of the driven bevel gear 9; the upper end of the sliding rod 12 is sleeved with a spring 20; the rear end of the inverted L-shaped mounting plate 2 is provided with a rectangular through hole 21 corresponding to the access hole 14; the sliding plate 16 is uniformly provided with a plurality of strip-shaped heat dissipation holes 22.

The working principle of the embodiment is as follows: the electric equipment used by the device is controlled by an external controller, the mounting base 1 is fixed on the ground, the inverted L-shaped mounting plate 2 is mounted at the rear end of the mounting base 1, and a user firstly adjusts the power distribution cabinet 3 to the inner upper end of the inverted L-shaped mounting plate 2 during mounting;

during adjustment: a user turns on a switch of a driving motor 5, a mounting shell 4 is mounted at the top in an inverted L-shaped mounting plate 2, the driving motor 5 is horizontally mounted at one end in the mounting shell 4, a driving shaft 6 is mounted at the rotating end of the driving motor 5, a group of opposite driving bevel gears 7 are mounted at two sides on the driving shaft 6, a group of rotating screw rods 8 are movably inserted at two sides of the bottom of the mounting shell 4 through fastening bearings, the upper ends of the rotating screw rods extend into the mounting shell 4, a group of driven bevel gears 9 are mounted at the upper ends of the group of rotating screw rods 8 and are respectively meshed with the group of opposite driving bevel gears 7, the size of the driving bevel gears 7 is smaller than that of the driven bevel gears 9, the driving motor 5 can drive the group of rotating screw rods 8 to slowly rotate, a group of sliding screw nuts 10 are respectively sleeved on the group of rotating screw rods 8 and are connected with two sides of a power distribution cabinet 3, a group of opposite fixing sleeves 11 are mounted at the top in the inverted L-shaped mounting plate 2, the upper ends of a group of sliding rods 12 are movably inserted into a group of relatively fixed sleeves 11 respectively, the bottoms of the sliding rods are connected with a power distribution cabinet 3, a group of limiting blocks 13 are installed at the tops of the group of sliding rods 12 respectively, springs 20 are sleeved at the upper ends of the sliding rods 12, a driving motor 5 rotates forwards to drive the power distribution cabinet 3 to move upwards, the group of sliding rods 12 can play a role in guiding, the driving motor 5 stops working after the power distribution cabinet 3 moves to the upper end in an inverted L-shaped mounting plate 2, as shown in fig. 1, the mounting position of the power distribution cabinet 3 is located at the upper end, and when heavy rainfall occurs, the bottom of the power distribution cabinet 3 is immersed in water to cause short-circuit failure or electrical safety accidents;

during maintenance: the user opens the switch of the driving motor 5, the driving motor 5 rotates reversely to drive the power distribution cabinet 3 to move downwards, the driving motor 5 stops working after the power distribution cabinet 3 moves to the inverted installation base 1, as shown in fig. 2, the user opens the front door of the power distribution cabinet 3 to overhaul the electric elements in the power distribution cabinet 3, when the electric elements at the rear end in the power distribution cabinet 3 need to be disassembled and replaced, the user can open the rear end overhaul port 14, the overhaul port 14 is opened at the rear end of the power distribution cabinet 3, a group of opposite slide rails 15 are installed on the rear surface of the power distribution cabinet 3 and are positioned at two sides of the overhaul port 14, the sliding plate 16 is movably installed on the group of opposite slide rails 15, the bar rack 17 is installed on the rear surface of the power distribution cabinet 3 and is positioned at one side of the group of opposite slide rails 15, the stepping motor 18 is horizontally installed at one side of the bottom of the sliding plate 16, the driving gear 19 is installed at the rotating end of the driving motor 18, and intermeshing with bar rack 17, open the back end of the type of falling L mounting panel 2 has the rectangle through-hole 21 corresponding with access hole 14, step motor 18 corotation, can drive sliding plate 16 upward movement, access hole 14 is opened, as shown in fig. 4, be convenient for dismantle the change to the electrical component of rear end in the switch board 3, after the maintenance is accomplished, step motor 18 drives sliding plate 16 and resets, driving motor 5 drives switch board 3 simultaneously and adjusts to the upper end in the type of falling L mounting panel 2, evenly open a plurality of bar louvre 22 on the sliding plate 16, can play the radiating effect, during the maintenance, can descend switch board 3 to the bottom, the electrical component in the switch board 3 is overhauled to rear end access hole 14 is convenient for simultaneously to switch board 3.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions 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 (5)

1. An adjustable power distribution cabinet based on electronic information engineering comprises an installation base (1) and an inverted L-shaped installation plate (2) fixedly installed at the rear end of the installation base (1), and is characterized in that a power distribution cabinet (3) is movably installed on the inverted L-shaped installation plate (2), a lifting mechanism is arranged at the upper end of the power distribution cabinet (3), and an overhauling mechanism is arranged at the rear end of the power distribution cabinet (3);

the lifting mechanism comprises an installation shell (4), a driving motor (5), a driving shaft (6), a group of opposite driving bevel gears (7), a group of rotating screw rods (8), a group of driven bevel gears (9), a group of sliding nuts (10), a group of opposite fixed sleeves (11), a group of sliding rods (12) and a group of limiting blocks (13), wherein the installation shell (4) is installed at the top in the inverted L-shaped installation plate (2), the driving motor (5) is horizontally installed at one end in the installation shell (4), the driving shaft (6) is installed at the rotating end of the driving motor (5), a group of opposite driving bevel gears (7) are installed at two sides on the driving shaft (6), a group of rotating screw rods (8) are movably inserted at two sides of the bottom of the installation shell (4), the upper end of the driving shaft extends into the installation shell (4), and a group of driven bevel gears (9) is installed at the upper end of the group of rotating screw rods (8), the upper end of one group of sliding rods (12) is movably inserted into one group of opposite fixed sleeves (11) respectively, the bottom of the one group of sliding rods is connected with the power distribution cabinet (3), and one group of limiting blocks (13) are arranged at the tops of one group of sliding rods (12) respectively;

the maintenance mechanism comprises a maintenance opening (14), a set of opposite sliding rails (15), a sliding plate (16), a bar-shaped rack (17), a stepping motor (18) and a driving gear (19), wherein the maintenance opening (14) is formed in the rear end of the power distribution cabinet (3), the set of opposite sliding rails (15) is installed on the rear surface of the power distribution cabinet (3) and located on two sides of the maintenance opening (14), the sliding plate (16) is movably installed on the set of opposite sliding rails (15), the bar-shaped rack (17) is installed on the rear surface of the power distribution cabinet (3) and located on one side of the set of opposite sliding rails (15), the stepping motor (18) is horizontally installed on one side of the bottom of the sliding plate (16), and the driving gear (19) is installed on the rotating end of the stepping motor (18) and is meshed with the bar-shaped rack (17).

2. The adjustable power distribution cabinet based on electronic information engineering according to claim 1, characterized in that the size of the driving bevel gear (7) is smaller than that of the driven bevel gear (9).

3. The adjustable power distribution cabinet based on electronic information engineering according to claim 1, characterized in that the upper end of the sliding rod (12) is sleeved with a spring (20).

4. The electronic information engineering based adjustable power distribution cabinet according to claim 1, characterized in that a rectangular through hole (21) corresponding to the access opening (14) is opened at the rear end of the inverted L-shaped mounting plate (2).

5. The adjustable power distribution cabinet based on electronic information engineering as claimed in claim 1, wherein the sliding plate (16) is uniformly provided with a plurality of strip-shaped heat dissipation holes (22).

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