CN212749094U - Multifunctional power distribution cabinet debugging platform - Google Patents

Abstract

The utility model provides a multifunctional power distribution cabinet debugging platform relates to switch board technical field, including platform frame, debugging portion and spacing, platform frame includes the bottom plate, rail guard and roof-rack, the bottom plate below is provided with the lift post, spacing includes two vertical telescopic links, two horizontal telescopic links, at least one first spacing telescopic link, at least one second spacing telescopic link and at least one third spacing telescopic link, two vertical telescopic links and two horizontal telescopic links are connected into a rectangle, the junction of vertical telescopic link and horizontal telescopic link is provided with spacing right-angle plate, be provided with the display screen on the roof-rack. The utility model relates to a multifunctional power distribution cabinet debugging platform can satisfy the test work in the switch board of different specifications, and effectively carries out spacing fixed to switch board or debugging car, conveniently tests, and the test run safety guarantee nature is high, and the test does not receive external environment influence, effectively satisfies tester's user demand.

Description

Multifunctional power distribution cabinet debugging platform

Technical Field

The utility model relates to the technical field of power distribution cabinets,

especially, the utility model particularly relates to a multifunctional power distribution cabinet debugging platform.

Background

The power distribution cabinet is used for power generation, power transmission, power distribution, electric energy conversion and consumption of an electric power system to play roles of on-off, control or protection and the like, in a high-voltage transformer and power distribution system, the high-voltage power distribution cabinet plays a role in controlling, monitoring, protecting and metering the high-voltage transformer and power distribution system, and also plays a role in receiving electric energy, distributing electric energy and transmitting electric energy, and the electric power is one of the current important energy forms, and the stability, reliability and higher electric energy quality of power supply must be ensured besides the electric availability. And because the high-voltage distribution cabinet has the important functions, the adjustment test of the high-voltage distribution cabinet is indispensable and very important work, the basic principle of reliability, practicability and simplification must be followed when the high-voltage distribution cabinet is selected, and the economic, scientific and reasonable selection of the high-voltage distribution cabinet is strived.

When the traditional high-voltage power distribution cabinet is used for adjustment test, a plurality of items to be tested are needed, and test equipment corresponding to each item is different; then, when carrying out multiple test to the switch board, when the urgent need improves to carry out the multinomial experiment to the switch board, operating personnel's work efficiency.

For example, the chinese patent utility model publication No. CN204903672U discloses a comprehensive test vehicle, which comprises a chassis with wheels, wherein the chassis is provided with a test board, and the test board is integrated with a power split-phase module, a three-phase power output module, a two-phase voltage output module, a two-phase current output module and a two-phase high-voltage output module, which use the same power as an input terminal; then, through with each entity function module integration of foretell on the bottom plate, realize the quick travel of test equipment through the bottom plate, conveniently when the comprehensive experiment to electrical equipment, can accomplish the experiment to the switch board fast, effectively.

However, the existing test device still has the following defects: the specification is single, can't test to the switch board of various different models and the component of switch board, and stabilization effect is poor, leads to can not accurate effectual debugging to the switch board, and it is big that the test procedure receives environmental impact factor, can't satisfy tester's user demand.

Therefore, in order to solve the above problems, it is necessary to design a reasonable multifunctional power distribution cabinet debugging platform.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can satisfy the test work in the switch board of different specifications, and effectively carry out spacing fixed to switch board or debugging car, conveniently test, and the test procedure safety guarantee nature is high, and the test does not receive external environment to influence, effectively satisfies tester's user demand's multifunctional power distribution cabinet debugging platform.

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

a multifunctional power distribution cabinet debugging platform comprises a platform frame, a debugging part arranged on the platform frame and a limiting frame arranged on the platform frame and connected with the debugging part, wherein the platform frame comprises a bottom plate, a protective guard arranged on the bottom plate and a top frame arranged above the bottom plate, a lifting column connected with the lower side of the bottom plate is arranged below the bottom plate, the limiting frame comprises two vertical telescopic rods extending downwards and two horizontal telescopic rods extending towards the edge of the bottom plate, the two vertical telescopic rods and the two horizontal telescopic rods are connected into a rectangle, a first limiting telescopic rod is connected between the two vertical telescopic rods, a second limiting telescopic rod is connected between the two horizontal telescopic rods, and the joint of the vertical telescopic rod and the horizontal telescopic rod is connected with the joint of the first limiting telescopic rod and the second limiting telescopic rod through a third limiting telescopic rod, the joint of the vertical telescopic rod and the horizontal telescopic rod is provided with a limiting right-angle plate, and a display screen electrically connected with the debugging part is arranged on the top frame.

As the utility model discloses an prefer, spacing square has at least partly for the arc.

As the utility model discloses a preferred, the rail guard include vertical post, with the bottom end of vertical post is connected the bottom end crossbeam and with the entablature that vertical post middle part is connected.

As a preferred aspect of the present invention, the top frame is connected to the upper end of the vertical column.

As the utility model discloses a preferred, the entablature is horizontal flexible post, be provided with on the entablature to the bottom end rail extends the spacing post that sets up, spacing post lower extreme be provided with bottom end rail upper surface is connected and along the gliding arc of bottom end rail extending direction.

As the utility model discloses a preferred, the lift post below is provided with the pit, the bottom plate thickness equals the height of pit, the lift post lower extreme is provided with and is used for fixing the lift post extremely the fixing bolt of pit bottom.

As the utility model discloses a preferred, the spacing telescopic link of third winds vertical telescopic link with the junction of horizontal telescopic link rotates, the spacing telescopic link of third winds the junction of first spacing telescopic link and the spacing telescopic link of second rotates.

As the utility model discloses an prefer, spacing quantity is one at least.

Preferably, the number of the lifting columns is at least one.

As the utility model discloses a preferred, the lift post is close to the one end of bottom plate is provided with the rubber tie plate.

As an optimization of the present invention, the area of the top frame is not smaller than the area of the bottom plate.

And finally, the bottom plate is provided with a protection right-angle plate used for fixing the joint of the vertical column and the lower cross beam, and the number of the protection right-angle plates is at least one.

The utility model relates to a multifunctional power distribution cabinet debugging platform beneficial effect lies in: can satisfy the test work in the switch board of different specifications, and effectually carry out spacing fixed to switch board or debugging car, conveniently test, test process safety guarantee nature is high, and the test is not influenced by external environment, effectively satisfies tester's user demand.

Drawings

Fig. 1 is a schematic perspective view of a multifunctional power distribution cabinet debugging platform of the present invention;

fig. 2 is a schematic view of the overall structure of the platform frame of the multifunctional power distribution cabinet debugging platform of the present invention;

fig. 3 is a schematic view of a part of the platform frame of the multifunctional power distribution cabinet debugging platform according to the present invention;

fig. 4 is a schematic view of an installation position of a limiting frame of a multifunctional power distribution cabinet debugging platform according to the present invention;

FIG. 5 is the utility model relates to a structural schematic diagram of spacing of another embodiment of multifunctional power distribution cabinet debugging platform

Wherein: 1. a platform frame; 11. a base plate; 12. protecting the fence; 121. a vertical column; 122. a lower cross beam; 123. an upper cross beam; 124. a limiting column; 125. an arc-shaped plate; 13. a top frame; 131. a display screen; 15. a lifting column; 151. fixing the bolt; 2. a debugging section; 3. a limiting frame; 31. a vertical telescopic rod; 32. a horizontal telescopic rod; 33. a first limit telescopic rod; 34. a second limit telescopic rod; 35. a third limit telescopic rod; 36. a limiting right-angle plate.

Detailed Description

The following are specific embodiments of the present invention, and the technical solutions of the present invention are further described, but the present invention is not limited to these embodiments.

Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the modules and structures set forth in these embodiments does not limit the scope of the present invention unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

Techniques, methods, and systems known to those of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

The first embodiment is as follows: as shown in fig. 1 to 5, which is only one embodiment of the present invention, a multifunctional power distribution cabinet debugging platform comprises a platform frame 1, a debugging part 2 disposed on the platform frame 1, and a limiting frame 3 disposed on the platform frame 1 and connected to the debugging part 2, wherein the platform frame 1 comprises a bottom plate 11, a guard rail 12 disposed on the bottom plate 11, and a top frame 13 disposed above the bottom plate 11, a lifting column 15 connected to the lower side of the bottom plate 11 is disposed below the bottom plate 11, the limiting frame 3 comprises two vertical telescopic rods 31 extending downward and two horizontal telescopic rods 32 extending toward the edge of the bottom plate 11, the two vertical telescopic rods 31 and the two horizontal telescopic rods 32 are connected to form a rectangle, a first limiting telescopic rod 33 is connected between the two vertical telescopic rods 31, and a second limiting telescopic rod 34 is connected between the two horizontal telescopic rods 32, the junction of vertical telescopic link 31 with horizontal telescopic link 32 pass through third spacing telescopic link 35 with the junction of first spacing telescopic link 33 and the spacing telescopic link 34 of second is connected, vertical telescopic link 31 with the junction of horizontal telescopic link 32 is provided with spacing right-angle board 36, be provided with on the top frame 13 with the display screen 131 that debugging portion 2 electricity is connected.

The utility model discloses in, platform frame 1 sets up and carries out the leveling in subaerial and through lift post 15, bottom plate 11 on the platform frame 1 is platform frame 1's platform, debugging portion 2 sets up on platform frame 1 and carries out spacing fixed through spacing 3, debugging seat 2 can be switch board itself, an auxiliary debugging frame for testing the debugging car of switch board and being used for cooperating the debugging car and carrying out work, rail guard 12 prevents that external personnel or machine from invading the debugging work that platform frame 1 influences debugging portion 2, top frame 13 can play the effect of carry necessary electric wire or electrical apparatus, also can install the canopy under the special circumstances waterproof dustproof of canopy lid additional.

The most important is a limiting frame 3, the limiting frame 3 is fixedly arranged on a bottom plate 11, but the limiting frame 3 can be extended and contracted, the limiting frame 3 comprises two vertical telescopic rods 31 extending downwards and two horizontal telescopic rods 32 extending towards the edge of the bottom plate 11, the two vertical telescopic rods 31 and the two horizontal telescopic rods 32 are connected into a rectangle, a first limiting telescopic rod 33 is connected between the two vertical telescopic rods 31, a second limiting telescopic rod 34 is connected between the two horizontal telescopic rods 32, the joint of the vertical telescopic rod 31 and the horizontal telescopic rod 32 is connected with the joint of the first limiting telescopic rod 33 and the second limiting telescopic rod 34 through a third limiting telescopic rod 35, a limiting plate 36 is arranged at the joint of the vertical telescopic rod 31 and the horizontal telescopic rod 32, and both the two vertical telescopic rods 31 and the two horizontal telescopic rods 32 are connected with a telescopic motor for actively controlling the extension and contraction, and first spacing telescopic link 33, the spacing telescopic link 34 of second and the spacing telescopic link 35 of third stretch out and draw back passively when two vertical telescopic links 31 and two horizontal telescopic links 32 are flexible, first spacing telescopic link 33 can guarantee that the connection between two vertical telescopic links 31 is stable, the spacing telescopic link 34 of second can guarantee that the connection between two horizontal telescopic links 32 is stable, and the spacing telescopic link 35 of third can guarantee the stability between first spacing telescopic link 33 and the spacing telescopic link 34 of second, so whole spacing 3 flexible in-process stability degree height of frame.

Generally, the limit square 36 is arranged above the edge far away from the bottom plate 11, when the two vertical telescopic rods 31 and the two horizontal telescopic rods 32 are extended, the farther the limit right-angle plate 36 is from the bottom plate 11, whereas when the vertical telescopic rod 31 and the two horizontal telescopic rods 32 are retracted, the closer the limit right-angle plate 36 is to the bottom plate 11, the longest the two vertical telescopic rods 31 and the two horizontal telescopic rods 32 are extended before the debugging part 2 is placed on the bottom plate 11, the debugging part 2 is placed on the bottom plate 11 and attached to one side of the limit right-angle plate 36 in front of the limit frame 3, then control two vertical telescopic links 31 and two horizontal telescopic links 32 withdrawal, until spacing right-angle plate 36 catches on the edge of debugging portion 2, stop two vertical telescopic links 31 and two horizontal telescopic links 32 withdrawal when pressing debugging portion 2 on bottom plate 11, accomplish the fixed spacing of debugging portion 2.

And the bottom plate 11 is adjustable, a lifting column 15 connected with the lower side of the bottom plate 11 is arranged below the bottom plate 11, a pit is arranged below the lifting column 15, the thickness of the bottom plate 11 is equal to the height of the pit, and a fixing bolt 151 used for fixing the lifting column 15 to the bottom of the pit is arranged at the lower end of the lifting column 15. The lifting column 15 is connected with a driving motor for driving the lifting column 15 to stretch, the driving motor can be controlled in a remote mode, when the debugging platform is not used, the lifting column 15 is controlled to be lowered to the lowest position, the bottom of the bottom plate 11 is just made to fall to the bottom of the pit, and the upper surface of the bottom plate 11 is flush with the ground surface due to the fact that the thickness of the bottom plate 11 is equal to the height of the pit, and people are prevented from being stumbled; the leveling of the base plate 11 can also be performed by the four corner lifting columns 15 after the base plate 11 is lifted.

It should be noted that a rubber pad is arranged at one end of the lifting column 15 close to the bottom plate 11, the rubber pad is both insulating and elastic, and after the bottom plate 11 is lifted, the insulating property can effectively separate the bottom plate 11 from the ground, so that electric shock of a debugging person standing on the bottom plate 11 is prevented from occurring danger; elasticity then prevents ground vibrations, and large-scale apparatus work in general large-scale factory can lead to the slight vibrations in ground, and the elastic gasket prevents the influence of ground vibrations to the debugging, and the accuracy of debugging is higher.

The guard rail 12 may also be controllable, the guard rail 12 includes a vertical column 121, a lower beam 122 connected to a bottom end of the vertical column 121, and an upper beam 123 connected to a middle portion of the vertical column 121, where the upper beam 123 is a transverse telescopic column, the upper beam 123 is provided with a limit column 124 extending toward the lower beam 122, and a lower end of the limit column 124 is provided with an arc-shaped plate 125 connected to an upper surface of the lower beam 122 and sliding along an extending direction of the lower beam 122. The upper beam 123 can horizontally stretch left and right, the limiting column 124 is connected to the upper beam 123 and the lower beam 122 to prevent the upper beam 123 from bending and deforming when stretching, of course, the limiting column 124 is not fixedly connected with the lower beam 122 below, but is connected with the lower beam 122 in a sliding mode through a limiting arc-shaped plate 125, so that the upper beam 123 retracts, a channel leading into the platform frame 1 can be opened on the protective guard 12, the upper beam 123 stretches, and the channel is closed.

It should be noted that only one side of the guard rail 12 may be telescopically controlled, or multiple sides may be telescopically controlled, generally speaking, only one side may be telescopically controlled, and it is sufficient for a tester to get in and out of the platform frame 1.

Finally, top frame 13 can carry out the device of hanging, top frame 13 with vertical post 121 upper end is connected, be provided with on the top frame 13 with the display screen 131 that debugging portion 2 electricity is connected, enlarge the demonstration through the data that debugging portion 2 obtained of display screen 131, make things convenient for the debugging personnel to read and the record.

The utility model relates to a multifunctional power distribution cabinet debugging platform can satisfy the test work in the switch board of different specifications, and effectually carries out spacing fixed to switch board or debugging car, conveniently tests, and the test run safety guarantee nature is high, and the test does not receive external environment influence, effectively satisfies tester's user demand.

The first embodiment is as follows: as shown in fig. 1 to 5, only do the utility model discloses a one of them embodiment, on the basis of embodiment one, in a multifunctional power distribution cabinet debugging platform, spacing right-angle plate 36 has at least partly for the arc, conveniently cooperates with the edge of debugging portion 2.

And, third limit telescopic link 35 winds vertical telescopic link 31 with the junction of horizontal telescopic link 32 rotates, third limit telescopic link 35 winds the junction of first limit telescopic link 33 and second limit telescopic link 34 rotates, third limit telescopic link 35 can rotatory setting like this, so spacing 3 can not vertical telescopic link 31 with horizontal telescopic link 32 simultaneous control, but can vertical telescopic link 31 with horizontal telescopic link 32 separately controls, the length and the height of rectangle no longer influence each other, can be applicable to the fixing of more diversified debugging portion 2.

Of course, the number of the limiting frames 3 is at least one. And the direction that first spacing telescopic link 33 and the spacing telescopic link 34 of second set up in spacing frame 3 can change, and first spacing telescopic link 33 and horizontal telescopic link 32 syntropy set up, and the spacing telescopic link 34 of second sets up with vertical telescopic link 31 syntropy, as shown in fig. 4, or first spacing telescopic link 33 and horizontal telescopic link 32 reverse setting, and the spacing telescopic link 34 of second and vertical telescopic link 31 reverse setting, as shown in fig. 5. However, in fig. 5, the vertical extension rod 31 is not further retractable when it is retracted to the connection with the first limit extension rod 33, and the horizontal extension rod 32 is also not further retractable when it is retracted to the connection with the second limit extension rod 34.

And the direction that third spacing telescopic link 35 set up also can change, and third spacing telescopic link 35 can set up in the one end of keeping away from spacing L-square 36, as shown in fig. 4, also can set up in the one end of being close to spacing L-square 36, as shown in fig. 5.

In addition, the area of the top frame 13 is not smaller than the area of the bottom plate 11, and when waterproof cloth or a dust screen needs to be carried on the top frame 13, the area of the bottom plate 11 can be effectively shielded.

Finally, the bottom plate 11 is provided with a protection right-angle plate for fixing the joint of the vertical column 121 and the lower cross beam 122, so as to ensure the stability of the guard rail 12 and the top frame 13 on the bottom plate 11, of course, the number of the protection right-angle plates is at least one, any joint is provided with the protection right-angle plate, and in addition, any two beam-column connection places in the guard rail 12 and the top frame 13 can be provided with reinforcing rib plates for further reinforcing structures.

The utility model relates to a multifunctional power distribution cabinet debugging platform can satisfy the test work in the switch board of different specifications, and effectually carries out spacing fixed to switch board or debugging car, conveniently tests, and the test run safety guarantee nature is high, and the test does not receive external environment influence, effectively satisfies tester's user demand.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the spirit and scope of the present invention. Without departing from the design concept of the present invention, various modifications and improvements made by the technical solution of the present invention by those skilled in the art should fall into the protection scope of the present invention, and the technical contents claimed by the present invention have been fully recorded in the claims.

Claims (10)

1. The utility model provides a multifunctional power distribution cabinet debugging platform which characterized in that: comprises a platform frame (1), a debugging part (2) arranged on the platform frame (1) and a limit frame (3) arranged on the platform frame (1) and connected with the debugging part (2), wherein the platform frame (1) comprises a bottom plate (11), a guard rail (12) arranged on the bottom plate (11) and a top frame (13) arranged above the bottom plate (11), a lifting column (15) connected with the lower side of the bottom plate (11) is arranged below the bottom plate (11), the limit frame (3) comprises two vertical telescopic rods (31) extending downwards and two horizontal telescopic rods (32) extending towards the edge of the bottom plate (11), the two vertical telescopic rods (31) and the two horizontal telescopic rods (32) are connected into a rectangle, and a first limit telescopic rod (33) is connected between the two vertical telescopic rods (31), two be connected with spacing telescopic link of second (34) between horizontal telescopic link (32), vertical telescopic link (31) with the junction of horizontal telescopic link (32) through third spacing telescopic link (35) with the junction of first spacing telescopic link (33) and second spacing telescopic link (34) is connected, vertical telescopic link (31) with the junction of horizontal telescopic link (32) is provided with spacing right-angle board (36), be provided with on top frame (13) with display screen (131) that debugging portion (2) electricity is connected.

2. The multifunctional power distribution cabinet debugging platform according to claim 1, characterized in that: the guard rail (12) comprises a vertical column (121), a lower cross beam (122) connected with the bottom end of the vertical column (121), and an upper cross beam (123) connected with the middle of the vertical column (121).

3. The multifunctional power distribution cabinet debugging platform according to claim 2, characterized in that: the top frame (13) is connected with the upper end of the vertical column (121).

4. The multifunctional power distribution cabinet debugging platform according to claim 2, characterized in that: the utility model discloses a roof beam, including entablature (123), crossbeam (122) extend, the entablature (123) are horizontal flexible post, be provided with on entablature (123) to the lower beam (122) extend the spacing post (124) that set up, spacing post (124) lower extreme be provided with lower beam (122) upper surface connection just along gliding arc (125) of lower beam (122) extending direction.

5. The multifunctional power distribution cabinet debugging platform according to claim 1, characterized in that: a pit is arranged below the lifting column (15), the thickness of the bottom plate (11) is equal to the height of the pit, and a fixing bolt (151) used for fixing the lifting column (15) to the bottom of the pit is arranged at the lower end of the lifting column (15).

6. The multifunctional power distribution cabinet debugging platform according to claim 1, characterized in that: the third limiting telescopic rod (35) rotates around the joint of the vertical telescopic rod (31) and the horizontal telescopic rod (32), and the third limiting telescopic rod (35) rotates around the joint of the first limiting telescopic rod (33) and the second limiting telescopic rod (34).

7. The multifunctional power distribution cabinet debugging platform according to claim 1, characterized in that: the number of the limiting frames (3) is at least one.

8. The multifunctional power distribution cabinet debugging platform according to claim 1, characterized in that: the number of the lifting columns (15) is at least one.

9. The multifunctional power distribution cabinet debugging platform according to claim 1, characterized in that: and a rubber cushion plate is arranged at one end of the lifting column (15) close to the bottom plate (11).

10. The multifunctional power distribution cabinet debugging platform according to claim 1, characterized in that: the area of the top frame (13) is not smaller than that of the bottom plate (11).

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