CN115986583A - Thing networking power distribution cabinet convenient to overhaul - Google Patents

Abstract

The invention discloses an Internet of things power distribution cabinet convenient to overhaul, and relates to the technical field of power distribution cabinets, wherein the power distribution cabinet comprises a power distribution cabinet body and a power distribution box body; the front end and the rear end of the main cabinet body are hinged with cabinet doors; the rotating assembly is arranged on one side of the main cabinet body; the rotating assembly comprises a rotating sleeve fixedly connected with the main cabinet body, a fixing column is inserted into the rotating sleeve, a fixing seat is movably mounted outside the fixing column, and the fixing seat is kept still; the internally mounted of the main cabinet body has the mounting panel, and the front end at the mounting panel is installed to the inside components and parts of the main cabinet body, the wire of components and parts is located the rear end of mounting panel. According to the Internet of things power distribution cabinet convenient to overhaul, due to the fact that the power cabinet is rotatably installed and the components and the circuit are separated through the installation plate, the technical problem that the existing power distribution cabinet is inconvenient to repair when in use is effectively solved, and the purpose of overhauling all positions in the power cabinet is further achieved.

Description

Thing networking power distribution cabinet convenient to overhaul

Technical Field

The invention relates to the technical field of power distribution cabinets, in particular to an Internet of things power distribution cabinet convenient to overhaul.

Background

The power distribution cabinet is divided into a power distribution cabinet, a lighting distribution cabinet and a metering cabinet, and is a final-stage device of a power distribution system, the power distribution cabinet is a commonly-called power distribution cabinet of a motor control center and is an electrical device, and the power distribution cabinet has the characteristics of small volume, simplicity and convenience in installation, special technical performance, fixed position, unique configuration function, no limitation of places, more common application, stability and reliability in operation, high space utilization rate, less occupied area and environmental protection effect;

at present, an existing power distribution cabinet (such as a patent number CN 216699212U) discloses an Internet of things power distribution cabinet convenient to overhaul, and the power distribution cabinet comprises a box body, heat dissipation holes are fixedly arranged on two sides of the box body, a cross rod is fixedly connected to the inner surface of the box body, a track groove is fixedly connected to the side surface of the cross rod, a slide rail is fixedly arranged on the side surface of the track groove, a slide block is connected to the surface of the slide rail in a sliding mode, an installation beam is fixedly arranged on the side surface of the slide block, and a stabilizing arm is fixedly arranged on the side surface of the installation beam.

However, in the implementation process of the above technical scheme, at least the following technical problems are found:

1. inconvenient repair: the existing power distribution cabinet is in a fixed state (namely, cannot move) after being installed, and during maintenance, maintenance personnel need to observe components inside the power distribution cabinet (observe in all directions) and detect circuits, so that the fixed state causes the maintenance personnel to spend a large amount of time and energy when maintaining, and is difficult to maintain and detect all spaces inside the power distribution cabinet;

2. the detection is complicated: when current power distribution cabinet was using and is examined, need maintenance personal to carry check out test set to the switch board place and detect, this service condition investigation to each components and parts just need, and when the investigation at every turn, all need the repeated basic situation (current size promptly, whether have current and voltage size etc.) that detects each device, lead to the maintenance to waste time and energy, secondly, because the basic situation of components and parts can't know in advance, so maintenance personal need do the preparation of solving various problems simultaneously (need carry very much thing promptly), and unable timely effectual pertinence repair that carries on, for this reason, we provide a convenient to overhaul's thing networking power distribution cabinet.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the Internet of things power distribution cabinet convenient to maintain, and solves the technical problems of inconvenience in repair and complex detection when the conventional power distribution cabinet is used.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

an Internet of things power distribution cabinet convenient to overhaul comprises a main cabinet body and a rotating assembly, wherein the main cabinet body is used for receiving and releasing components, the rotating assembly is installed outside the main cabinet body, and the rotating assembly is used for driving the main cabinet body to rotate, so that the main cabinet body is observed in multiple angles;

the front end and the rear end of the main cabinet body are hinged with cabinet doors, so that the main cabinet body can be conveniently opened from the front side and the rear side, components and cables in the main cabinet body can be observed, and subsequent maintenance is facilitated;

the rotating assembly is arranged on one side of the main cabinet body and is used for driving the main cabinet body to rotate, as shown in fig. 2;

the rotating assembly comprises a rotating sleeve fixedly connected with the main cabinet body, a fixing column is inserted into the rotating sleeve, so that the main cabinet body can rotate by taking the fixing column as an axis, a fixing seat (installed on a wall or a telegraph pole or the like and a place where a power distribution cabinet needs to be installed) is movably installed outside the fixing column, and the fixing seat is kept still;

the internally mounted of the main cabinet body has the mounting panel, and the inside components and parts of the main cabinet body are installed at the front end of mounting panel, and the wire of components and parts is located the rear end of mounting panel to the separation around components and parts and the cable of the internal portion of the main cabinet, not only conveniently corresponding is arrange in order, still makes things convenient for the pertinence to overhaul and observe simultaneously.

Preferably, the fixing assembly is mounted on the other side of the main cabinet body and used for fixing the main cabinet body when the main cabinet body is not required to rotate, so that the normal use of the main cabinet body is kept, the fixing assembly and the rotating assembly are opposite to each other, and the fixing assembly is used for fixing the other side of the main cabinet body;

wherein, fixed subassembly contains the installed part that is "Contraband" font, and the tight bolt is all installed at the both ends of installed part, and the installed part passes through tight bolt and main cabinet body coupling, through rotatory tight bolt for during tight bolt inserts the outside connector of main cabinet body, thereby link together installed part and main cabinet body, accomplish the fixed of the main cabinet body.

In some examples, a side plate is installed on one side, away from the rotating assembly, of the main cabinet body, a handle is installed outside the side plate, and the main cabinet body is driven to rotate through the handle, so that manual adjustment is facilitated;

wherein, the connector has all been seted up at the upper and lower both ends of curb plate, and when the cabinet door docks with the installed part, the outside connector of curb plate corresponds with tight bolt, so when rotatory tight bolt, can make during tight bolt inserts the connector to make main cabinet integument fixed, as shown in figure 1.

In some examples, the two ends of the mounting part are provided with threaded cylinders, and the threaded cylinders are in threaded connection with the fastening bolts, so that the fastening bolts can move up and down under the action of threads between the fastening bolts and the threaded cylinders by rotating, so that the positions of the fastening bolts can be adjusted, and the fixing or the rotation of the main cabinet body can be freely adjusted according to needs;

wherein, pass through spring coupling between the outer wall of fastening bolt and the screw thread section of thick bamboo, and the spring is in compression state, consequently when fastening bolt and screw thread section of thick bamboo separation, fastening bolt can be under the effect of spring, upward movement to shift out from the connector, later alright with the position of the main cabinet body of free adjustment as required.

Preferably, the fixing assembly is mounted on the other side of the main cabinet body and used for fixing the main cabinet body when the main cabinet body is not required to rotate, so that the normal use of the main cabinet body is kept, the fixing assembly and the rotating assembly are opposite to each other, and the fixing assembly is used for fixing the other side of the main cabinet body;

wherein, fixed subassembly contains the installed part that is "Contraband" font, and the tight bolt is all installed at the both ends of installed part, and the installed part passes through tight bolt and main cabinet body coupling, through rotatory tight bolt for during tight bolt inserts the outside connector of main cabinet body, thereby link together installed part and main cabinet body, accomplish the fixed of the main cabinet body.

In some examples, a side plate is installed on one side of the main cabinet body, which is far away from the rotating assembly, and a handle is installed outside the side plate, so that the main cabinet body is driven to rotate through the handle, and manual adjustment is facilitated;

wherein, the connector has all been seted up at the upper and lower both ends of curb plate, and when cabinet door and installed part butt joint, the outside connector of curb plate corresponds with the tight bolt, so when rotatory tight bolt, can make during the tight bolt inserts the connector to make main cabinet integument fixed, as shown in fig. 1.

In some examples, the two ends of the mounting part are provided with threaded cylinders, and the threaded cylinders are in threaded connection with the fastening bolts, so that the fastening bolts can be rotated to move up and down under the action of the threads between the fastening bolts and the threaded cylinders, so that the positions of the fastening bolts can be adjusted, and the fixing or rotation of the main cabinet body can be freely adjusted as required;

wherein, pass through spring coupling between the outer wall of fastening bolt and the screw thread section of thick bamboo, and the spring is in compression state, consequently when fastening bolt and screw thread section of thick bamboo separation, fastening bolt can be under the effect of spring, upward movement to shift out from the connector, later alright with the position of the main cabinet body of free adjustment as required.

(III) advantageous effects

1. Due to the fact that the electric power cabinet installed in a rotatable mode is adopted, and the components and the circuits are separated through the installation plate, the technical problem that the existing electric power distribution cabinet is inconvenient to repair when in use is effectively solved, the purpose of overhauling all positions inside the electric power cabinet is achieved, and the components or the cables can be repaired correspondingly in a targeted mode.

2. The motor is adopted to drive the detection assembly to move up and down, and cables of the components are installed on the motion path of the detection assembly, so that the technical problem that the existing power distribution cabinet is complex in detection when in use is effectively solved, the purpose of remotely detecting the basic conditions of the components is realized, time can be saved, and meanwhile, targeted repair is carried out according to detection results, and therefore the repair efficiency is improved.

Drawings

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to make the technical solutions of the present invention practical in accordance with the contents of the specification, the following detailed description is given of preferred embodiments of the present invention with reference to the accompanying drawings.

FIG. 1 is one of the overall structures of the embodiment of the present invention;

FIG. 2 is a second overall structure diagram of the embodiment of the present invention;

FIG. 3 is an exploded view of the overall structure of an embodiment of the present invention;

FIG. 4 is an enlarged view of structure A of FIG. 3 in accordance with the present invention;

FIG. 5 is a block diagram of a detection assembly in an embodiment of the invention;

FIG. 6 is a view showing a connection structure of a pulley and a slider according to an embodiment of the present invention;

FIG. 7 is a front view showing the structure of the slider according to the embodiment of the present invention;

FIG. 8 is a back structural view of a slider according to an embodiment of the present invention;

FIG. 9 is a diagram of a vertical plate according to an embodiment of the present invention;

FIG. 10 is a cross-sectional view of a detection assembly in an embodiment of the invention.

Illustration of the drawings: 1. a main cabinet body; 2. a cabinet door; 3. a side plate; 4. a detection component; 41. a vertical plate; 42. a connector lug; 43. a pulley; 44. a slider; 441. an outer plate; 442. an inner plate; 443. an insulating sheet; 444. copper buckle; 445. a copper sheet; 45. a conductive rod; 46. a conductive sheet; 47. a conductive post; 48. a conductive spring plate; 5. a rotating assembly; 51. rotating the sleeve; 52. fixing the column; 53. a fixed seat; 6. a fixing component; 61. a mounting member; 62. pulling the lug; 63. tightening the bolt; 64. a connecting port; 65. a threaded barrel; 7. mounting a plate; 8. a handle.

Detailed Description

The Internet of things power distribution cabinet convenient to overhaul effectively solves the technical problems that the existing power distribution cabinet is inconvenient to repair and complex to detect when in use, and when the power distribution cabinet is used, due to the fact that the power cabinet is rotatably installed and the components and the circuits are separated by the installation plate, the purpose of overhauling all positions in the power cabinet is achieved, and the components or the cables can be pertinently and correspondingly repaired; the motor is adopted to drive the detection assembly to move up and down, and all cables of the components are installed on the motion path of the detection assembly, so that the purpose of remotely detecting the basic conditions of the components is achieved, time can be saved, meanwhile, targeted repair is carried out according to detection results, and therefore repair efficiency is improved.

Example 1

Technical scheme in the embodiment of this application repairs inconvenient technical problem for effectively having solved current power distribution cabinet when using, and the general thinking is as follows:

aiming at the problems in the prior art, the invention provides an Internet of things power distribution cabinet convenient to overhaul, which comprises a main cabinet body 1 for collecting and releasing components and a rotating assembly 5 arranged outside the main cabinet body 1, wherein the rotating assembly 5 is used for driving the main cabinet body 1 to rotate, so that the main cabinet body 1 is observed from multiple angles;

the front end and the rear end of the main cabinet body 1 are hinged with cabinet doors 2, so that the main cabinet body 1 can be conveniently opened from the front side and the rear side, components and cables in the main cabinet body 1 can be observed, and subsequent maintenance is facilitated;

the rotating assembly 5 is installed at one side of the main cabinet body 1 and is used for driving the main cabinet body 1 to rotate, as shown in fig. 2;

the rotating assembly 5 comprises a rotating sleeve 51 fixedly connected with the main cabinet body 1, and a fixing column 52 is inserted into the rotating sleeve 51, so that the main cabinet body 1 can rotate by taking the fixing column 52 as an axis, a fixing seat 53 (installed on a wall or a telegraph pole, and the like, and a place where a power distribution cabinet needs to be installed) is movably installed outside the fixing column 52, and the fixing seat 53 is kept still;

the internally mounted of the main cabinet body 1 has a mounting panel 7, and the front end at mounting panel 7 is installed to the inside components and parts of the main cabinet body 1, and the wire of components and parts is located the rear end of mounting panel 7 to the separation around the components and parts of the inside of the main cabinet body 1 and cable not only conveniently corresponds arranges in order, still makes things convenient for the pertinence to overhaul and observe simultaneously.

In the specific implementation process, when the device mechanical energy inside the main cabinet body 1 needs to be observed from the rear part of the main cabinet body 1, the main cabinet body 1 is pulled, so that the main cabinet body 1 rotates by taking the fixed column 52 as an axis, the cabinet door 2 at the rear part of the main cabinet body 1 is exposed, and then the device and the circuit inside the main cabinet body 1 can be observed only by opening the cabinet door 2.

Secondly, install the front end of mounting panel 7 through in advance with components and parts, and place the wire the rear end of mounting panel 7 (the through-hole has been seted up to the outside of mounting panel 7), thereby separate components and parts and circuit, components and parts are located the front end of mounting panel 7 promptly, the circuit is located the rear end of mounting panel 7, when needs are overhauld, can pertinence open different cabinet doors 2, thereby observe alone and detect components and parts or circuit, improve the efficiency that detects, still conveniently separately manage components and parts and circuit simultaneously.

Example 2

On the basis of embodiment 1, this application embodiment is when the switch board does not overhaul, fixes the switch board, and the general thinking is as follows:

the fixing component 6 is mounted on the other side of the main cabinet body 1, the fixing component 6 is used for fixing the main cabinet body 1 when the main cabinet body 1 does not need to rotate, so that the normal use of the main cabinet body 1 is kept, the fixing component 6 is opposite to the rotating component 5, and the fixing component 6 is used for fixing the other side of the main cabinet body 1;

wherein, fixed subassembly 6 contains the installed part 61 that is "Contraband" font, and tight bolt 63 is all installed at the both ends of installed part 61, and installed part 61 is connected with the main cabinet body 1 through tight bolt 63, through rotatory tight bolt 63 for during tight bolt 63 inserts the connector 64 of the main cabinet body 1 outside, thereby link together installed part 61 and the main cabinet body 1, accomplish the fixed of the main cabinet body 1.

In some examples, a side plate 3 is installed on one side of the main cabinet 1 away from the rotating assembly 5, and a handle 8 is installed outside the side plate 3, so that the main cabinet 1 is driven to rotate by the handle 8, and manual adjustment is facilitated;

wherein, the upper and lower both ends of curb plate 3 have all seted up the connector 64, and when cabinet door 2 docks with installed part 61, the outside connector 64 of curb plate 3 corresponds with tight bolt 63, so when rotatory tight bolt 63, can make tight bolt 63 insert in the connector 64 to make the main cabinet body 1 fixed, as shown in fig. 1.

In some examples, the mounting member 61 is provided with a threaded cylinder 65 at both ends, and the threaded cylinder 65 is in threaded connection with the fastening bolt 63, so that by rotating the fastening bolt 63, the fastening bolt 63 moves up and down under the action of the thread between the fastening bolt and the threaded cylinder 65, thereby adjusting the position of the fastening bolt 63, and thus the fixing or rotation of the main cabinet 1 can be freely adjusted as required;

wherein, pass through spring coupling between the outer wall of fastening bolt 63 and the screw thread section of thick bamboo 65, and the spring is in compression state, therefore when fastening bolt 63 and screw thread section of thick bamboo 65 separate, fastening bolt 63 can be under the effect of spring, upward movement to shift out from the connector 64, later alright in order to freely adjust the position of the main cabinet body 1 as required.

In the specific implementation process, when the main cabinet 1 needs to be rotated (as shown in fig. 1), the fastening bolts 63 at the two ends of the mounting part 61 are rotatably installed, and due to the fact that the fastening bolts 63 are in threaded connection with the threaded cylinders 65 (installed at the two ends of the mounting part 61), when the fastening bolts 63 are rotated, the fastening bolts 63 can move up and down, when the fastening bolts 63 are separated from the threaded cylinders 65, the fastening bolts 63 move up and down under the action of the springs, so that the connecting ports 64 are removed, at the moment, a maintenance worker can drive the main cabinet 1 to rotate by grasping the handle 8, the internal devices of the main cabinet 1 can be conveniently detected from the rear end of the main cabinet 1, the pull lugs 62 are installed at the two sides of the mounting part 61 and the two ends of the fixing seat 53, and the mounting part 61 and the fixing seat 53 are fixed on the wall through the pull lugs 62.

When the main cabinet 1 needs to be fixed, the main cabinet 1 is rotated toward the mounting member 61 to make the connection port 64 on one side of the main cabinet 1 correspond to the fastening bolt 63 on the mounting member 61, and then the fastening bolt 63 is rotated to be inserted into the connection port 64 under the action of the screw thread between the fastening bolt 63 and the screw thread cylinder 65, so that the main cabinet 1 cannot move freely.

Example 3

On the basis of embodiment 1, this application embodiment detects loaded down with trivial details technical problem for effectively having solved current power distribution cabinet when using, and the general thinking is as follows:

the detection assembly 4 is arranged on the inner wall of the main cabinet body 1, the detection assembly 4 is positioned at the rear end of the mounting plate 7, and the detection assembly 4 is used for detecting the power-on and power-off conditions of components;

the detection assembly 4 comprises a vertical plate 41, a plurality of connector lugs 42 are arranged on two sides of the vertical plate 41 at equal intervals from top to bottom, an interface lead of a component in the main cabinet body 1 is connected to one connector lug 42, a lead which enters and exits the main cabinet body 1 is connected to the other connector lug 42, the two connector lugs 42 correspond to each other in position, and two T-shaped sliding grooves are formed in the front end of the vertical plate 41;

the sliding part 44 is installed in the sliding groove, so that the height of the sliding part 44 is adjusted, the sliding part 44 is respectively connected with the connector lugs 42 on two sides of the vertical plate 41, a current sensor is installed inside the sliding part 44 and used for measuring the current between the two connector lugs 42, therefore, in the sliding process of the sliding part 44, the sliding part can be connected with the two connector lugs 42 with different heights so as to be connected with wires on pins of a device, when the current flows, the current sensor inside the sliding part 44 detects the current or whether the current exists, and the position of the sliding part 44 is adjusted to detect the power-on conditions of different wires, so that the power-on and power-off conditions of components inside the multi-master cabinet body 1 are obtained, when the maintenance is convenient, basic conditions are firstly eliminated, and the maintenance accuracy is improved.

In some examples, pulleys 43 are mounted at the upper end and the lower end of the vertical plate 41, a traction rope is wound outside the pulleys 43, and the pulleys 43 are connected with the sliding member 44 through the traction rope, so that when the pulleys 43 rotate, the sliding member 44 can be driven to move up and down, the position of the sliding member 44 can be adjusted, and different wires can be conveniently detected;

wherein, two pulleys 43 pass through the haulage rope and are connected with slider 44's upper and lower both ends respectively, and pulley 43 is by installing the motor drive in riser 41 inside, for slider 44's removal provides power to remote detection, secondly all consumer inside the main cabinet body 1 are supplied power by the inside power of main cabinet body 1.

In some examples, the slider 44 includes an outer plate 441 and an inner plate 442 (respectively located inside and outside the sliding groove), and the inner plate 442 is located inside the sliding groove, and the outer plate 441 is located outside the upright plate 41, so that the slider 44 can slide up and down along the sliding groove without being separated from the sliding groove;

two copper sheets 445 are mounted outside the inner plate 442, the two copper sheets 445 are respectively connected with the connector lugs 42 on two sides of the vertical plate 41, and the two copper sheets 445 are connected with the positive and negative electrodes of the current sensor through conducting wires, so that when the inner plate 442 moves to a position where the connector lug 42 is located at a certain position, the copper sheets 445 on the inner plate 442 are respectively attached to different connector lugs 42, current can be transmitted to the current sensor inside the inner plate 442 through the copper sheets 445, and therefore the current sensor is connected into a circuit to detect current in the circuit.

In some examples, a copper button 444 is connected between the outer plate 441 and the inner plate 442, and the copper button 444 is connected to one of the copper sheets 445 through a wire, and current is conducted to the conductive rod 45 (corresponding to an electroscope's electroscope) through the copper button 444, so that the conductive rod 45 is energized;

wherein, the laminating of copper knot 444 and spout internally mounted's conducting rod 45, and be connected with ampere meter and voltmeter between two conducting rods 45 through the wire, parallelly connected between ampere meter and the voltmeter to link together the circuit of two different positions, detect current and voltage on the different circuits by ampere meter and voltmeter between two conducting rods 45 again, thereby detect the basic condition.

In some examples, a plurality of conductive columns 47 are installed inside the vertical plate 41 (the width of the space between two adjacent conductive columns 47 is greater than the width of the insulating sheet 443), the end portions of the conductive columns 47 correspond to the conductive sheets 46 on the connector lug 42, and the conductive columns 47 and the conductive sheets 46 are not attached to each other, so that the conductive columns 47 and the conductive sheets 46 are separated, and a short circuit condition during ammeter detection is avoided;

the arc-shaped conductive elastic sheet 48 is installed inside the vertical plate 41, the conductive elastic sheet 48 corresponds to the sliding part 44, and the conductive elastic sheet 48 is respectively attached to the conductive sheet 46 and the conductive column 47, so that the conductive column 47 is communicated with the conductive sheet 46 during non-detection, and normal power on and off are maintained.

In some examples, the copper sheet 445 at the bottom of the inner plate 442 is attached to the conductive sheet 46 and the conductive post 47, respectively, so as to guide the current from the conductive post 47 and the conductive sheet 46 into the inner plate 442;

wherein, the insulating piece 443 is installed at the rear end of the inner plate 442, and the insulating piece 443 is inserted between the conductive sheet 46 and the conductive column 47, the length of the insulating piece 443 is greater than the thickness of the conductive sheet 46, therefore, when detecting, the insulating piece 443 on the inner plate 442 presses the conductive spring 48, so as to press the conductive spring 48 downwards, at this moment, the conductive spring 48 is not attached to the conductive column 47 and the conductive sheet 46, and therefore, the current between the conductive column 47 and the conductive sheet 46 can only be communicated through the inner plate 442, thereby maintaining the communicated state and facilitating the detection.

In the specific implementation process, the motor drives the pulley 43 to rotate, the pulley 43 winds the external traction rope, and the other end of the traction rope is connected with the sliding part 44, so that when the pulley 43 rotates, the sliding part 44 can be pulled to move towards the pulley 43, and in the sliding process of the sliding part 44, the insulation sheet 443 on the inner plate 442 is inserted into the gap between the conductive column 47 and the conductive sheet 46 to separate the conductive column 47 from the conductive sheet 46, and because the length of the insulation sheet 443 is greater than the thickness of the conductive sheet 46, when detecting, the insulation sheet 443 on the inner plate 442 presses the conductive elastic sheet 48, so that the conductive elastic sheet 48 is pressed downwards, and at the moment, the conductive elastic sheet 48 is not attached to the conductive column 47 and the conductive sheet 46 (as shown in fig. 10), so that the current between the conductive column 47 and the conductive sheet 46 can only be communicated through the inner plate 442, thereby maintaining the communicated state and facilitating the detection.

At this time, (detection of a single line), the two copper sheets 445 on the inner plate 442 are respectively connected with the conductive post 47 and the conductive sheet 46, so that current can only flow through the wire between the conductive post 47 and the conductive sheet 46, and the current sensor is mounted on the wire between the conductive post 47 and the conductive sheet 46, so that the current condition on the wire can be detected.

(detection between two lines) because the sliding parts 44 are provided with two sliding parts and slide relatively independently, the two sliding parts 44 can be respectively connected with different leads, and then the current on the leads is conducted to the ammeter and the voltmeter by the conducting rods 45, so that the current and the voltage between different leads can be detected, the basic condition (current or voltage) between the leads can be detected, the difficulty of investigation is reduced, and the condition of the device lines can be remotely investigated.

Finally, it should be noted that: it should be understood that the above examples are only for clearly illustrating the present invention and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications of the invention may be made without departing from the scope of the invention.

Claims (10)

1. An Internet of things power distribution cabinet convenient to overhaul is characterized by comprising a power distribution cabinet body, a power distribution box body and a power distribution box body, wherein the power distribution cabinet body is provided with a power distribution box body;

the front end and the rear end of the main cabinet body (1) are hinged with cabinet doors (2);

the rotating assembly (5) is arranged on one side of the main cabinet body (1) and is used for driving the main cabinet body (1) to rotate;

the rotating assembly (5) comprises a rotating sleeve (51) fixedly connected with the main cabinet body (1), a fixing column (52) is inserted into the rotating sleeve (51), a fixing seat (53) is movably mounted outside the fixing column (52), and the fixing seat (53) is kept still;

the interior mounting of the main cabinet body (1) has a mounting panel (7), and the front end at mounting panel (7) is installed to the inside components and parts of the main cabinet body (1), the wire of components and parts is located the rear end of mounting panel (7).

2. The Internet of things power distribution cabinet convenient to overhaul as claimed in claim 1, wherein: a fixing component (6) is mounted on the other side of the main cabinet body (1), the fixing component (6) is opposite to the rotating component (5), and the fixing component (6) is used for fixing the other side of the main cabinet body (1);

wherein, fixed subassembly (6) contain and are installed piece (61) of "Contraband" font, and tight bolt (63) are all installed at the both ends of installation piece (61), installation piece (61) are connected with main cabinet body (1) through tight bolt (63).

3. The Internet of things power distribution cabinet convenient to overhaul as claimed in claim 2, wherein: a side plate (3) is installed on one side, far away from the rotating assembly (5), of the main cabinet body (1), and a handle (8) is installed outside the side plate (3);

the upper end and the lower end of the side plate (3) are provided with connecting ports (64), and when the cabinet door (2) is in butt joint with the mounting piece (61), the connecting ports (64) on the outer portion of the side plate (3) correspond to the fastening bolts (63).

4. The Internet of things power distribution cabinet convenient to overhaul of claim 3, wherein: the two ends of the mounting piece (61) are respectively provided with a threaded cylinder (65), and the threaded cylinders (65) are connected with the tightening bolts (63) through threads;

the outer wall of the fastening bolt (63) is connected with the threaded cylinder (65) through a spring, and the spring is in a compressed state.

5. The Internet of things power distribution cabinet convenient to overhaul as claimed in claim 1, wherein: the detection assembly (4) is mounted on the inner wall of the main cabinet body (1), the detection assembly (4) is located at the rear end of the mounting plate (7), and the detection assembly (4) is used for detecting the power-on and power-off conditions of components;

the detection assembly (4) comprises a vertical plate (41), a plurality of connector lugs (42) are arranged on two sides of the vertical plate (41) at equal intervals from top to bottom, and two T-shaped sliding grooves are formed in the front end of the vertical plate (41);

the sliding grooves are internally provided with sliding pieces (44), the sliding pieces (44) are respectively connected with the connector lugs (42) on two sides of the vertical plate (41), and the sliding pieces (44) are internally provided with current sensors which are used for measuring the current between the two connector lugs (42).

6. The Internet of things power distribution cabinet convenient to overhaul as claimed in claim 5, wherein: pulleys (43) are mounted at the upper end and the lower end of the vertical plate (41), a traction rope is wound outside the pulleys (43), and the pulleys (43) are connected with the sliding piece (44) through the traction rope;

the two pulleys (43) are respectively connected with the upper end and the lower end of the sliding piece (44) through a traction rope, and the pulleys (43) are driven by a motor arranged in the vertical plate (41).

7. The Internet of things power distribution cabinet convenient to overhaul as claimed in claim 5, wherein: the sliding piece (44) comprises an outer plate (441) and an inner plate (442), the inner plate (442) is located inside the sliding groove, and the outer plate (441) is located on the outer side of the vertical plate (41);

the outer portion of the inner plate (442) is provided with two copper sheets (445), the two copper sheets (445) are respectively connected with the connector lugs (42) on two sides of the vertical plate (41), and the two copper sheets (445) are connected with the positive electrode and the negative electrode of the current sensor through conducting wires.

8. The Internet of things power distribution cabinet convenient to overhaul of claim 7, wherein: a copper buckle (444) is connected between the outer plate (441) and the inner plate (442), and the copper buckle (444) is connected with one copper sheet (445) through a lead;

the copper buckle (444) is attached to the conducting rods (45) arranged inside the sliding groove, a current meter and a voltage meter are connected between the two conducting rods (45) through conducting wires, and the current meter and the voltage meter are connected in parallel.

9. The Internet of things power distribution cabinet convenient to overhaul of claim 7, wherein: a plurality of conductive columns (47) are installed inside the vertical plate (41), the end parts of the conductive columns (47) correspond to the conductive sheets (46) on the connector lug (42), and the conductive columns (47) and the conductive sheets (46) are not contacted with each other;

the vertical plate (41) is internally provided with an arc-shaped conductive elastic sheet (48), the conductive elastic sheet (48) corresponds to the sliding part (44), and the conductive elastic sheet (48) is respectively contacted with the conductive sheet (46) and the conductive column (47).

10. The internet of things power distribution cabinet convenient to overhaul of claim 9, characterized in that: the copper sheet (445) at the bottom of the inner plate (442) is respectively attached to the conducting sheet (46) and the conducting column (47);

the rear end of the inner plate (442) is provided with an insulating sheet (443), the insulating sheet (443) is inserted between the conductive sheet (46) and the conductive column (47), and the length of the insulating sheet (443) is greater than the thickness of the conductive sheet (46).

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