CN217984148U - Flexible platform district direct current interconnection switch board - Google Patents

Abstract

The utility model discloses a flexible platform district direct current interconnection switch board, including switch board top subassembly, installation component, side cabinet subassembly. The utility model discloses a switch board top structure that sets up, mutually supporting of mounting structure and side cabinet structure, realize assembled components of a whole that can function independently structure, can directly carry out the separation of sliding to the whole switch board body, directly carry out the outside with circuit arrangement and electrical apparatus in the mill and install in advance like this, operating space is great, after the installation directly with the switch board assembly can, and this switch board can carry out the structure switch of long-range interconnection, like this through the signal connection effect of switching optimization switch board of physical structure under the environmental mutation, guarantee the result of use of interconnection switch board under adverse circumstances.

Description

Flexible platform district direct current interconnection switch board

Technical Field

The utility model relates to a flexible platform district direct current switch board technical field specifically is a flexible platform district direct current interconnected control cabinet.

Background

The multi-loop alternating current feeder line is connected with an electric node through a converter, a distributed power supply and an energy storage device electric vehicle charging station are connected through the node, and the distributed power supply and energy storage device electric vehicle charging station has the functions of power distribution flow control, distributed power supply surface absorption, multi-feeder line peak clipping and valley filling, electric vehicle smooth charging and the like, the energy control level of a power distribution network is improved, network source charge storage and charge coordination optimization operation is achieved, a control cabinet is needed when the flexible platform area direct current control is carried out, the inner installation position of a traditional flexible platform area interconnection control cabinet is fixed in the using process, workers can install and arrange lines, the structural design causes limited operation space, and the arrangement efficiency of internal electric appliances of the flexible platform area control cabinet is influenced.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims at providing a flexible platform district direct current interconnection switch board, switch board top structure through setting up, mutually support of mounting structure and side cabinet structure, realize the components of a whole that can function independently structure of assembled, can directly carry out the sliding separation to the whole switch board body, directly carry out outside preinstallation with circuit arrangement and electrical apparatus in the mill like this, operating space is great, after the installation directly can with the switch board assembly, and this switch board can carry out the structure switching of long-range interconnection, the signal connection effect of switch optimization switch board under the environmental mutation through physical structure like this, guarantee the result of use of interconnection switch board under adverse circumstances.

For solving the technical problem, according to the utility model discloses an aspect, the utility model provides a following technical scheme:

a flexible platform district direct current interconnection switch board includes:

the control cabinet top assembly comprises a control cabinet outer shell plate, a first mounting groove formed in the top surface of the control cabinet outer shell plate, a first electric rotating shaft mounted in the first mounting groove, a top plate cover plate connected with the first electric rotating shaft, a signal receiver mounted on the surface of the top plate cover plate and a notch groove formed in the top surface of the control cabinet outer shell plate;

the mounting assembly comprises an L-shaped inner mounting frame arranged in the control cabinet outer shell plate, a locking bolt for fixing the L-shaped inner mounting frame, an L-shaped long groove fixed on the inner side wall of the L-shaped inner mounting frame, a supporting plate frame clamped into the L-shaped long groove, a direct current control box body arranged on the surface of the supporting plate frame, a limiting hole formed in the top surface of the L-shaped long groove, a handrail fixed on the top surface of the supporting plate frame and a controller arranged on the top surface of the direct current control box body;

the side cabinet assembly comprises a side mounting groove formed in the outer side wall of the control cabinet shell plate, a second electric rotating shaft arranged in the side mounting groove and a side top plate connected to the surface of the second electric rotating shaft.

As an optimal selection scheme of flexible platform district direct current interconnection switch board, wherein, roof apron's cross-sectional width and length with switch board shell plate top surface open-ended width and length equal.

As an optimized scheme of flexible platform district direct current interconnection switch board, wherein, signal receiver with connect through radio signal between the first electronic pivot.

As an optimal selection scheme of flexible platform district direct current interconnection switch board, wherein, the end of roof apron with breach groove mutual contact is placed.

As an optimal selection scheme of flexible platform district direct current interconnection switch board, wherein, L type rectangular channel is provided with two, and two L type rectangular channels in the central line position symmetry setting of layer board frame.

As an optimal selection scheme of flexible platform district direct current interconnection switch board, wherein, the both ends of layer board frame respectively with the mutual block of the L type slot of both sides.

As an optimal selection scheme of flexible platform district direct current interconnection switch board, wherein, still include locking Assembly, locking Assembly is including fixing L type mounting bracket, the seting up of L type elongated slot top surface the round hole of L type mounting bracket top surface, run through the gag lever post of round hole, fix the circular baffle on gag lever post surface and the spring of setting between circular baffle and L type mounting bracket.

As an optimal selection scheme of flexible platform district direct current interconnection switch board, wherein, the gag lever post end runs through spacing hole.

As an optimal selection scheme of flexible platform district direct current interconnection switch board, wherein, the installation component has set gradually threely by last down to three installation component is provided with corresponding locking Assembly respectively.

As an optimal selection scheme of flexible platform district direct current interconnection switch board, wherein, the side cabinet subassembly is provided with a plurality of, and a plurality of side cabinet subassembly equidistant distribution is in the lateral wall of switch board housing plate.

Compared with the prior art, the utility model discloses the beneficial effect who has is: the assembled split structure is realized through the mutual matching of the top structure, the mounting structure and the side cabinet structure of the control cabinet, the whole control cabinet body can be directly separated in a sliding manner, so that the circuit arrangement and the electric appliance are directly pre-mounted outside a factory, the operation space is large, the control cabinet can be directly assembled with the control cabinet after being mounted, and the control cabinet can be subjected to structural switching of remote interconnection, so that the signal connection effect of the control cabinet under the environment sudden change is optimized through switching of a physical structure, the use effect of the interconnected control cabinet under the severe environment is ensured, when the control cabinet is particularly used, the L-shaped inner mounting frame and the control cabinet outer shell plate are separately arranged, and the two ends of the supporting plate frame slide in the two L-shaped long grooves, so that the supporting plate frame and the control cabinet outer shell plate form two-section type separation, and after a user arranges the electric and circuits of the direct current control cabinet outside or in the factory, then the direct current control box body is arranged on the surface of the supporting plate frame, so that the supporting plate frame is directly pushed to be connected with the L-shaped inner mounting frame, and a worker directly installs the L-shaped inner mounting frame on site, thus not only improving the installation operation space, but also realizing the integral disassembly and assembly maintenance of a plurality of direct current control box bodies and the independent displacement disassembly and maintenance of a certain direct current control box body, being more convenient, and under the change of environmental weather, when a split type control cabinet outer shell plate influences the signal access, a user sends a signal through a mobile terminal, based on the internet signal transmission, the signal is directly received by a signal receiver arranged on the outer side of the control cabinet outer shell plate, the influence of the externally arranged signal receiver on the signal access effect is lower, and a signal instruction received by the signal receiver is transmitted to the first electric rotating shaft and the second electric rotating shaft, direct control roof apron and side roof are opened, form the physical environment passageway, prevent inclosed switch board shell board like this and influence signal access, and remote optimization signal access effect is applicable to the external environment of sudden change and influences the access of signal.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor. Wherein:

FIG. 1 is a three-dimensional structure of the present invention;

fig. 2 is a first view structural diagram of the mounting assembly of the present invention;

fig. 3 is a structural diagram of the control cabinet top assembly of the present invention;

fig. 4 is a second view structural diagram of the mounting assembly of the present invention;

FIG. 5 is a structural diagram of the side cabinet assembly of the present invention;

fig. 6 is a structural diagram of the locking assembly of the present invention.

In the figure: 100. a control cabinet top assembly; 110. a control cabinet housing panel; 120. a first mounting groove; 130. a first electric rotating shaft; 140. a top plate cover plate; 150. a signal receiver; 160. a notch groove; 200. mounting the component; 210. an L-shaped inner mounting frame; 220. locking the bolt; 230. an L-shaped long groove; 240. a pallet frame; 250. a direct current control box body; 260. a limiting hole; 300. a side cabinet assembly; 310. side edge mounting grooves; 320. a second electric rotating shaft; 330. a side roof panel; 400. a locking assembly; 410. an L-shaped mounting bracket; 420. a circular hole; 430. a limiting rod; 440. a circular baffle; 450. a spring.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways than those specifically described herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the schematic drawings, and in order to describe the embodiments of the present invention in detail, the sectional view showing the device structure will not be partially enlarged by half of the scale for convenience of explanation, and the schematic drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The utility model provides a flexible platform district direct current interconnected control cabinet, through the switch board top structure that sets up, mutually supporting of mounting structure and side cabinet structure, realize the components of a whole that can function independently structure of assembled, can directly carry out the slip separation to the whole switch board body, directly carry out the outside with circuit arrangement and electrical apparatus in the mill and install in advance like this, operating space is great, direct and the switch board assembly after the installation can, and this switch board can carry out the structure switching of long-range interconnection, the signal connection effect of switch optimization switch board under the environmental mutation through physical structure like this, guarantee interconnected control cabinet result of use under adverse circumstances.

Fig. 1 to 6 are schematic diagrams illustrating an overall structure of an embodiment of a flexible platform area dc interconnection control cabinet of the present invention, please refer to fig. 1 to 6, a main body of the flexible platform area dc interconnection control cabinet of the present embodiment includes: a control cabinet top assembly 100, a mounting assembly 200, and a side cabinet assembly 300.

The control cabinet top assembly 100 is used for being matched with the mounting assembly 200 to form a split assembly structure, and can be switched remotely, specifically, the control cabinet top assembly 100 comprises a control cabinet outer shell plate 110, a first mounting groove 120 formed in the top surface of the control cabinet outer shell plate 110, a first electric rotating shaft 130 mounted in the first mounting groove 120, a top plate cover plate 140 connected with the first electric rotating shaft 130, a signal receiver 150 mounted on the surface of the top plate cover plate 140, and a notch groove 160 formed in the top surface of the control cabinet outer shell plate 110, when the control cabinet top assembly is used specifically, the L-shaped inner mounting frame 210 and the control cabinet outer shell plate 110 are arranged in a split mode and are plastic rubber-coated through a locking bolt 220, when the split control cabinet outer shell plate 110 affects signal access, a user sends a signal through a mobile terminal, based on internet signal transmission, the signal is directly received by the signal receiver 150 mounted on the outer side of the control cabinet outer shell plate 110, the signal receiver 150 externally mounted has a low influence on a signal access effect, and signal instructions received by the signal receiver 150 are transmitted to the first electric rotating shaft 130 and the second electric rotating shaft 320, the top plate 140 and the top plate are directly controlled to open, so that a remote signal access channel 330 is formed, and the remote control cabinet top plate access effect is optimized.

The installation assembly 200 is used for assembly and installation, specifically, the installation assembly 200 includes an L-shaped inner installation frame 210 disposed in the control cabinet outer shell plate 110, a locking bolt 220 for fixing the L-shaped inner installation frame 210, an L-shaped long groove 230 fixed on the inner side wall of the L-shaped inner installation frame 210, a pallet 240 clamped into the L-shaped long groove 230, a dc control box 250 mounted on the surface of the pallet 240, a limiting hole 260 formed on the top surface of the L-shaped long groove 230, a handrail 270 fixed on the top surface of the pallet 240, and a controller 280 mounted on the top surface of the dc control box 250, when the installation assembly is used specifically, the L-shaped inner installation frame 210 and the control cabinet outer shell plate 110 are separately arranged, and two ends of the pallet 240 slide in the two L-shaped long grooves 230, so that the pallet 240 is separated from the control cabinet outer shell plate 110 in a two-stage manner, after the electrical and circuits of the dc control box 250 are arranged outside or in a factory, the installation assembly 250 is mounted on the surface of the pallet 240, so that the installation frame 240 is directly pushed to be connected with the L-shaped inner installation frame 210, and a worker can directly perform maintenance operation and a maintenance operation of the installation rack 250, and a plurality of the installation rack 250 can be conveniently performed.

Side cabinet subassembly 300 is used for cooperating with switch board top subassembly 100, carries out remote switch, and is specific, including offering at the side mounting groove 310 of switch board shell plate 110 lateral wall, installing the electronic pivot 320 of second in side mounting groove 310 and connecting the side roof 330 on the electronic pivot 320 surface of second, when specifically using, the electronic pivot 320 of second, direct control side roof 330 is opened, forms the physical environment passageway, makes things convenient for signal access.

With reference to fig. 1 to 6, in a specific use, the L-shaped inner mounting rack 210 and the control cabinet outer shell board 110 are separately disposed, and two ends of the bracket rack 240 slide in the two L-shaped slots 230, so that the bracket rack 240 and the control cabinet outer shell board 110 form a two-stage separation, after a user arranges the electric and circuit of the dc control box 250 outside or in a factory, the user installs the dc control box 250 on the surface of the bracket rack 240, so as to directly push the bracket rack 240 to connect with the L-shaped inner mounting rack 210, and the worker can directly install the L-shaped inner mounting rack 210 on site, which not only improves the installation operation space, but also can realize the whole disassembly and maintenance of a plurality of dc control boxes 250 and the individual removal and maintenance of a certain dc control box 250, which is convenient and fast, and under the change of environment, when the split control cabinet outer shell board 110 affects the signal connection, the user sends a signal through a mobile terminal, based on internet signal transmission, the signal is directly received by the signal receiver 150 installed outside the control cabinet outer shell board 110, and the signal receiver 150 is suitable for receiving the remote signal of the top board 130 and the electric control cabinet, thereby preventing the influence of the remote signal transmission from being directly received by the top board 110, and the electronic control cabinet.

Further, through the locking Assembly 400 who sets up, the realization need not the use of tools, accomplish locking and release promptly, it is specific, still include locking Assembly 400, locking Assembly 400 is including fixing the L type mounting bracket 410 at L type slot 230 top surface, set up the round hole 420 at L type mounting bracket 410 top surface, run through the gag lever post 430 of round hole 420, fix at the circular baffle 440 on gag lever post 430 surface and set up the spring 450 between circular baffle 440 and L type mounting bracket 410, when specifically using, when spring 450 resets, direct top is moved gag lever post 430 and is run through spacing hole 260, directly shelter from the bracket frame 240 after installing, when dismantling, user pull-up gag lever post 430, make spring 450 compress, gag lever post 430 directly breaks away from each other with spacing hole 260, no instrument can accomplish the operation like this, it is comparatively convenient.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the non-exhaustive description of these combinations in this specification is merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a flexible platform district direct current interconnection switch board which characterized in that includes:

the control cabinet top assembly (100) comprises a control cabinet shell plate (110), a first mounting groove (120) formed in the top surface of the control cabinet shell plate (110), a first electric rotating shaft (130) mounted in the first mounting groove (120), a top plate cover plate (140) connected with the first electric rotating shaft (130), a signal receiver (150) mounted on the surface of the top plate cover plate (140) and a notch groove (160) formed in the top surface of the control cabinet shell plate (110);

the mounting assembly (200) comprises an L-shaped inner mounting frame (210) arranged in the control cabinet outer shell plate (110), a locking bolt (220) for fixing the L-shaped inner mounting frame (210), an L-shaped long groove (230) fixed on the inner side wall of the L-shaped inner mounting frame (210), a supporting plate frame (240) clamped into the L-shaped long groove (230), a direct current control box body (250) arranged on the surface of the supporting plate frame (240), a limiting hole (260) formed in the top surface of the L-shaped long groove (230), a handrail (270) fixed on the top surface of the supporting plate frame (240) and a controller (280) arranged on the top surface of the direct current control box body (250);

the side cabinet assembly (300) comprises a side mounting groove (310) formed in the outer side wall of the control cabinet shell plate (110), a second electric rotating shaft (320) installed in the side mounting groove (310) and a side top plate (330) connected to the surface of the second electric rotating shaft (320).

2. A flexible bay dc interconnect control cabinet as claimed in claim 1 wherein said top plate cover (140) has a cross-sectional width and length equal to the width and length of the top opening of said cabinet housing plate (110).

3. The flexible platform area direct current interconnection control cabinet of claim 2, characterized in that the signal receiver (150) is connected with the first electric rotating shaft (130) through wireless signals.

4. A flexible platform dc interconnection control cabinet according to claim 3, wherein the end of the top plate cover (140) is placed in contact with the cut-out groove (160).

5. The flexible platform area direct current interconnection control cabinet of claim 4, characterized in that, there are two L-shaped slots (230), and the two L-shaped slots (230) are symmetrically arranged at the central line of the supporting plate frame (240).

6. The flexible platform area direct current interconnection control cabinet of claim 5, characterized in that, two ends of the pallet frame (240) are respectively engaged with the L-shaped long grooves (230) at two sides.

7. The flexible platform area direct current interconnection control cabinet according to claim 6, characterized by further comprising a locking assembly (400), wherein the locking assembly (400) comprises an L-shaped mounting frame (410) fixed on the top surface of the L-shaped long groove (230), a round hole (420) formed in the top surface of the L-shaped mounting frame (410), a limiting rod (430) penetrating through the round hole (420), a circular baffle (440) fixed on the surface of the limiting rod (430), and a spring (450) arranged between the circular baffle (440) and the L-shaped mounting frame (410).

8. A flexible platform DC interconnection control cabinet according to claim 7, characterized in that the end of the limiting rod (430) penetrates through the limiting hole (260).

9. The flexible platform area direct current interconnection control cabinet according to claim 8, characterized in that the three mounting assemblies (200) are arranged in sequence from top to bottom, and the three mounting assemblies (200) are respectively provided with corresponding locking assemblies (400).

10. The flexible platform area direct current interconnection control cabinet of claim 9, wherein a plurality of side cabinet assemblies (300) are provided, and a plurality of side cabinet assemblies (300) are distributed on the outer side wall of the control cabinet shell plate (110) at equal intervals.

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