CN217522251U - Energy-taking power supply device for integrated power distribution switch controller - Google Patents

Abstract

The utility model belongs to the technical field of energy-taking power supply devices, in particular to an energy-taking power supply device for an integrated power distribution switch controller; the high-voltage connecting terminal is arranged at the top of the main body shell and connected with a first conductive connecting rod, a first capacitor and a second capacitor are arranged in the main body shell, the first conductive connecting rod is connected with the first capacitor, a second conductive connecting rod is connected between the bottom of the first capacitor and the second capacitor, and a third conductive connecting rod is connected at the bottom of the second capacitor; the second conducting connecting rod is connected with a first lead through a first connecting sleeve and a first side joint, the third conducting connecting rod is connected with a second lead through a second connecting sleeve and a second side joint, the bottom of the main body shell is provided with a low-voltage wiring terminal, and the first lead and the second lead are respectively connected with different low-voltage wiring terminals; the utility model discloses can effectively operate for a long time, for the distribution switch controller provides stable power supply, the installation of being convenient for simultaneously and dismantlement improve maintenance operating efficiency.

Description

Energy-taking power supply device for integrated power distribution switch controller

Technical Field

The utility model belongs to the technical field of get can power supply unit, concretely relates to integrated type distribution switch controller is with getting can power supply unit.

Background

The integrated power distribution switch based on the primary and secondary deep fusion meets the requirements of intelligent power grids and ubiquitous Internet of things, has huge market potential, can be widely applied to the fields of power distribution network automation, electricity larceny prevention and the like, not only meets the requirements on the integration of primary and secondary fusion products, but also provides a powerful support for uninterrupted intelligent maintenance service of a power distribution network, so that the generated direct and indirect economic benefits are huge, more importantly, the intelligent system of the power distribution network fully plays a role due to the use of the primary and secondary deep fusion products, the safety, reliability and service life of the system are improved, the fault repair rate is greatly reduced, the operation and maintenance efficiency and the power supply reliability are improved, the economic and social benefits brought by the method are more significant, and the current power distribution switch controller mainly adopts a current transformer or a voltage transformer to get power equipment, the installation is time-consuming and labor-consuming, the service life of the equipment is short, and the maintenance operation is inconvenient, so that the energy-taking power supply device for the novel integrated power distribution switch controller is necessary.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art's is not enough, and provide a rational in infrastructure, convenient to use, but long-term effective operation for distribution switch controller provides stable power supply, the installation of being convenient for simultaneously and dismantlement improve the integrated type distribution switch controller that overhauls the operating efficiency and use the power supply unit that can get.

The purpose of the utility model is realized like this: the energy-taking power supply device for the integrated distribution switch controller comprises a main body shell, wherein a high-voltage wiring terminal is arranged at the top of the main body shell, an upper end is arranged on the top surface inside the main body shell, the lower end of the high-voltage wiring terminal penetrates through the main body shell and extends into the upper end and is connected with a first conductive connecting rod, a first capacitor and a second capacitor are arranged inside the main body shell, first joints are arranged at the top and the bottom of the first capacitor, the first conductive connecting rod is connected with the first capacitor through the first joint at the top, second joints are arranged at the top and the bottom of the second capacitor, a second conductive connecting rod is connected between the first joint at the bottom of the first capacitor and the second joint at the top of the second capacitor, the second joint at the bottom of the second capacitor is connected with a third conductive connecting rod, and a lower end is arranged on the bottom surface inside the main body shell, the third conducting connecting rod extends into the lower end head and is fixedly connected with the lower end head; the improved cable connector is characterized in that a first connecting sleeve is sleeved outside a second conductive connecting rod, a first side connector is fixedly connected with the first connecting sleeve, a first lead is connected to the first side connector, a second connecting sleeve is sleeved outside a third conductive connecting rod, a second side connector is fixedly connected with the second connecting sleeve, a second lead is connected to the second side connector, a low-voltage wiring terminal is arranged at the bottom of the main shell, the upper end of the low-voltage wiring terminal penetrates through the main shell and extends into the main shell, and the first lead and the second lead are respectively connected with different low-voltage wiring terminals.

The first connector is internally provided with an insertion groove matched with the end part of the first conducting connecting rod, the end surface of the first conducting connecting rod and the bottom surface of the insertion groove are both cambered surfaces, and the second connector and the first connector are identical in structure.

An upper fixing frame and a lower fixing frame are arranged inside the main body shell, the upper fixing frame and the lower fixing frame are connected with the side wall of the main body shell, and the first capacitor is arranged between the upper fixing frame and the lower fixing frame and fixed by the upper fixing frame and the lower fixing frame.

The lower fixing frame comprises a second ring plate, a third side connecting plate is connected to the outer side face of the second ring plate, a lower supporting plate is arranged on the side face inside the main body shell, and the lower fixing frame is connected with the lower supporting plate through the third side connecting plate.

The upper fixing frame comprises a first ring plate, a first side connecting plate and a second side connecting plate are connected to the outer side face of the first ring plate, the first side connecting plate is connected with a fixing pressing plate, a locking screw is arranged on the fixing pressing plate, an upper guide plate is arranged on the side face inside the main body shell, and the second side connecting plate is in sliding connection with the upper guide plate.

The upper fixing frame is connected with a pressing rod in a threaded mode, the bottom end of the pressing rod is connected with a spring pressing plate, a spring sleeve is arranged on the lower fixing frame, a pressure spring is arranged in the spring sleeve, and the spring pressing plate is pressed at the top of the pressure spring in a propping mode.

The first capacitor is a high-voltage ceramic capacitor, insulating coatings are arranged outside the first capacitor and the second capacitor, and a packaging insulating layer is arranged in the main body shell.

The utility model has the advantages that: the utility model discloses an integrated power distribution switch controller is with getting ability power supply unit sets up first electric capacity and second electric capacity in main body shell inside, first electric capacity connects first conducting rod and second conducting rod respectively through its top and the first joint of bottom, second electric capacity connects second conducting rod and third conducting rod respectively through its top and the second joint of bottom, first conducting rod is connected with the high voltage connection terminal at main body shell top, second conducting rod connects the first wire through first connecting sleeve, first side joint, third conducting rod connects the second wire through second connecting sleeve, second side joint, first wire, second wire and the low voltage connection terminal that sets up at the bottom of main body are connected, this device can connect external high pressure through high voltage shell connector, can get ability and be connected with other equipment through the electric capacity partial pressure of first electric capacity, second electric capacity, thereby providing a stable and effective power supply for the controller; the utility model discloses an integrated type distribution switch controller is with getting can power supply unit, rational in infrastructure, convenient to use can long-term effective operation, for distribution switch controller provides stable power supply, is convenient for simultaneously install and dismantle, improves and overhauls the operating efficiency.

Drawings

Fig. 1 is the utility model discloses integrated type distribution switch controller is with getting can power supply unit's schematic structure.

Fig. 2 is the utility model discloses integrated type distribution switch controller is with getting can power supply unit first electric capacity connection's front view structure schematic diagram.

Fig. 3 is the utility model discloses integrated type distribution switch controller is with the left side view structure schematic diagram that the first electric capacity of power supply unit that gets connects.

Fig. 4 is the utility model discloses integrated type distribution switch controller is with overlooking the schematic structure of getting the first electric capacity connection of power supply unit.

Fig. 5 is the utility model discloses integrated type distribution switch controller is with structure schematic diagram that the mount is connected under getting can power supply unit.

Fig. 6 is a schematic structural diagram of the integrated power distribution switch controller according to the present invention, wherein the first joint of the energy-taking power supply device is connected to the first conducting rod.

In the figure: 1. the low-voltage wiring terminal comprises a low-voltage wiring terminal 2, a second connecting sleeve 3, a second lead 4, a second side joint 5, a second capacitor 6, a second joint 7, a lower fixing frame 8, a lower support plate 9, a main body shell 10, a first capacitor 11, a first joint 12, a high-voltage wiring terminal 13, an upper end 14, a first conductive connecting rod 15, an upper fixing frame 16, an upper guide plate 17, a first connecting sleeve 18, a first side joint 19, a second conductive connecting rod 20, a first lead 21, a third conductive connecting rod 22, a lower end 23, a first side connecting plate 24, a fixed pressing plate 25, a locking screw 26, a first ring plate 27, a second side connecting plate 28, a pressing rod 29, a spring pressing plate 30, a pressure spring 31, a spring sleeve 32, a third side connecting plate 33, a second ring plate 34 and an inserting groove.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

Example 1

As shown in fig. 1-4, the energy-obtaining power supply device for an integrated distribution switch controller includes a main body casing 9, a high voltage connection terminal 12 is disposed on a top of the main body casing 9, an upper end 13 is disposed on a top surface inside the main body casing 9, a lower end of the high voltage connection terminal 12 passes through the main body casing 9 and extends into the upper end 13 and is connected to a first conductive connection rod 14, a first capacitor 10 and a second capacitor 5 are disposed inside the main body casing 9, first connectors 11 are disposed on a top and a bottom of the first capacitor 10, the first conductive connection rod 14 is connected to the first capacitor 10 through the first connector 11 on the top, second connectors 6 are disposed on the top and the bottom of the second capacitor 5, and a second conductive connection rod 19 is connected between the first connector 11 on the bottom of the first capacitor 10 and the second connector 6 on the top of the second capacitor 5, a second joint 6 at the bottom of the second capacitor 5 is connected with a third conducting connection rod 21, a lower end 22 is arranged on the bottom surface inside the main body shell 9, and the third conducting connection rod 21 extends into the lower end 22 and is fixedly connected with the lower end; the outside first connecting sleeve 17 that has cup jointed of second conducting rod 19, first connecting sleeve 17 fixedly connected with first side connects 18, first side connects 18 and is connected with first wire 20, second connecting sleeve 2 has been cup jointed to third conducting rod 21 outside, 2 fixedly connected with second side of second connecting sleeve connects 4, second side connects 4 and is connected with second wire 3, main body cover 9 bottom is provided with low voltage binding post 1, low voltage binding post 1's upper end is passed main body cover 9 and is stretched into it inside, first wire 20 second wire 3 is connected with different low voltage binding post 1 respectively.

The utility model discloses an integrated distribution switch controller is with getting can power supply unit, set up first electric capacity 10 and second electric capacity 5 in main body cover 9 inside, first electric capacity 10 connects first conducting rod 14 and second conducting rod 19 respectively through its top and bottom first joint 11, second electric capacity 5 connects second conducting rod 19 and third conducting rod 21 respectively through its top and bottom second joint 6, first conducting rod 14 is connected with the high voltage connection terminal 12 at main body cover 9 top, second conducting rod 19 connects first wire 20 through first connecting sleeve 17, first side joint 18, third conducting rod 21 passes through second connecting sleeve 2, second side joint 4 and connects second wire 3, first wire 20, second wire 3 is connected with the low voltage connection terminal 1 that main body cover 9 bottom set up, this device accessible high voltage connection terminal 12 connects outside high pressure, energy is obtained through capacitance voltage division of the first capacitor 10 and the second capacitor 5 and is connected with other equipment through the low-voltage wiring terminal 1, so that a stable and effective power supply is provided for the controller; the utility model discloses an integrated type distribution switch controller is with getting can power supply unit, rational in infrastructure, convenient to use can long-term effective operation, for distribution switch controller provides stable power supply, is convenient for simultaneously install and dismantle, improves and overhauls the operating efficiency.

Example 2

As shown in fig. 1-6, the energy-obtaining power supply device for integrated distribution switch controller includes a main body casing 9, a high voltage connection terminal 12 is disposed on the top of the main body casing 9, an upper end 13 is disposed on the top surface inside the main body casing 9, the lower end of the high voltage connection terminal 12 passes through the main body casing 9 and extends into the upper end 13 and is connected with a first conductive connection rod 14, a first capacitor 10 and a second capacitor 5 are disposed inside the main body casing 9, first connectors 11 are disposed on the top and the bottom of the first capacitor 10, the first conductive connection rod 14 is connected with the first capacitor 10 through the first connector 11 on the top, second connectors 6 are disposed on the top and the bottom of the second capacitor 5, and a second conductive connection rod 19 is connected between the first connector 11 on the bottom of the first capacitor 10 and the second connector 6 on the top of the second capacitor 5, a second joint 6 at the bottom of the second capacitor 5 is connected with a third conducting connection rod 21, a lower end 22 is arranged on the bottom surface inside the main body shell 9, and the third conducting connection rod 21 extends into the lower end 22 and is fixedly connected with the lower end; the outside first connecting sleeve 17 that has cup jointed of second conducting rod 19, first connecting sleeve 17 fixedly connected with first side connects 18, first side connects 18 and is connected with first wire 20, second connecting sleeve 2 has been cup jointed to third conducting rod 21 outside, 2 fixedly connected with second side of second connecting sleeve connects 4, second side connects 4 and is connected with second wire 3, main body cover 9 bottom is provided with low voltage binding post 1, low voltage binding post 1's upper end is passed main body cover 9 and is stretched into it inside, first wire 20 second wire 3 is connected with different low voltage binding post 1 respectively.

In order to achieve better effects, an insertion groove 34 matched with the end of the first conducting connection rod 14 is arranged in the first joint 11, the end face of the first conducting connection rod 14 and the bottom face of the insertion groove 34 are both arc faces, and the second joint 6 and the first joint 11 are identical in structure.

For better effect, an upper fixing frame 15 and a lower fixing frame 7 are arranged inside the main body casing 9, the upper fixing frame 15 and the lower fixing frame 7 are connected with the side wall of the main body casing 9, and the first capacitor 10 is arranged between the upper fixing frame 15 and the lower fixing frame 17 and fixed by the upper fixing frame 15 and the lower fixing frame.

For better effect, the lower fixing frame 7 includes a second ring plate 33, a third side connecting plate 32 is connected to an outer side surface of the second ring plate 33, a lower supporting plate 8 is arranged on a side surface inside the main body housing 9, and the lower fixing frame 7 is connected to the lower supporting plate 8 through the third side connecting plate 32.

For better effect, the upper fixing frame 15 includes a first ring plate 26, a first side connecting plate 23 and a second side connecting plate 27 are connected to the outer side surface of the first ring plate 26, the first side connecting plate 23 is connected with a fixed pressing plate 24, a locking screw 25 is arranged on the fixed pressing plate 24, an upper guide plate 16 is arranged on the side surface inside the main body casing 9, and the second side connecting plate 27 is slidably connected with the upper guide plate 16.

For a better effect, the upper fixing frame 15 is connected with a pressing rod 28 through threads, the bottom end of the pressing rod 28 is connected with a spring pressing plate 29, the lower fixing frame 7 is provided with a spring sleeve 31, a pressure spring 30 is arranged in the spring sleeve 31, and the spring pressing plate 29 is pressed on the top of the pressure spring 30.

For better effect, the first capacitor 10 is a high-voltage ceramic capacitor, the first capacitor 10 and the second capacitor 5 are both provided with insulating coatings, and the main body shell 9 is internally provided with a packaging insulating layer.

The utility model discloses an integrated power distribution switch controller is with getting can power supply unit, set up first electric capacity 10 and second electric capacity 5 in main body cover 9 inside, first electric capacity 10 connects first conducting rod 14 and second conducting rod 19 respectively through its top and first joint 11 of bottom, second electric capacity 5 connects second conducting rod 19 and third conducting rod 21 respectively through its top and second joint 6 of bottom, first conducting rod 14 is connected with the high voltage connection terminal 12 at main body cover 9 top, second conducting rod 19 connects first wire 20 through first connecting sleeve 17, first side joint 18, third conducting rod 21 passes through second connecting sleeve 2, second side joint 4 and connects second wire 3, first wire 20, second wire 3 is connected with the low voltage connection terminal 1 that main body cover 9 bottom sets up, this device can connect outside high pressure through high voltage connection terminal 12, energy is obtained through capacitance voltage division of the first capacitor 10 and the second capacitor 5 and is connected with other equipment through the low-voltage wiring terminal 1, so that a stable and effective power supply is provided for the controller; the utility model discloses an integrated type distribution switch controller is with getting can power supply unit, rational in infrastructure, convenient to use can long-term effective operation, for distribution switch controller provides stable power supply, is convenient for install simultaneously and dismantles, improves and overhauls the operating efficiency.

Claims (7)

1. Integrated type distribution switch controller is with getting can power supply unit, it includes main body cover (9), its characterized in that: the high-voltage capacitor is characterized in that a high-voltage wiring terminal (12) is arranged at the top of the main body shell (9), an upper end head (13) is arranged on the top surface inside the main body shell (9), the lower end of the high-voltage wiring terminal (12) penetrates through the main body shell (9) to stretch into the upper end head (13) and is connected with a first conductive connecting rod (14), a first capacitor (10) and a second capacitor (5) are arranged inside the main body shell (9), first joints (11) are arranged at the top and the bottom of the first capacitor (10), the first conductive connecting rod (14) is connected with the first capacitor (10) through the first joint (11) at the top, second joints (6) are arranged at the top and the bottom of the second capacitor (5), and a second conductive connecting rod (19) is connected between the first joint (11) at the bottom of the first capacitor (10) and the second joint (6) at the top of the second capacitor (5), a second joint (6) at the bottom of the second capacitor (5) is connected with a third conducting connecting rod (21), a lower end head (22) is arranged on the bottom surface inside the main body shell (9), and the third conducting connecting rod (21) extends into the lower end head (22) and is fixedly connected with the lower end head; the utility model discloses a low-voltage wiring terminal, including main body cover (9), second conductive connecting rod (19), first connecting sleeve (17) has cup jointed to the outside of second conductive connecting rod (19), first connecting sleeve (17) fixedly connected with first side joint (18), first side joint (18) are connected with first wire (20), second connecting sleeve (2) have cup jointed to the outside of third conductive connecting rod (21), second connecting sleeve (2) fixedly connected with second side joint (4), second side joint (4) are connected with second wire (3), main body cover (9) bottom is provided with low-voltage wiring terminal (1), the upper end of low-voltage wiring terminal (1) is passed main body cover (9) and is stretched into it inside, first wire (20) second wire (3) are connected with different low-voltage wiring terminal (1) respectively.

2. The integrated power distribution switch controller energy-extracting and power-supplying device according to claim 1, characterized in that: an inserting groove (34) matched with the end part of the first conducting connecting rod (14) is formed in the first connector (11), the end face of the first conducting connecting rod (14) and the bottom face of the inserting groove (34) are both arc faces, and the second connector (6) and the first connector (11) are identical in structure.

3. The integrated power distribution switch controller energy-extracting and power-supplying device according to claim 1, characterized in that: an upper fixing frame (15) and a lower fixing frame (7) are arranged inside the main body shell (9), the upper fixing frame (15) and the lower fixing frame (7) are connected with the side wall of the main body shell (9), and the first capacitor (10) is arranged between the upper fixing frame (15) and the lower fixing frame (7) and fixed by the upper fixing frame and the lower fixing frame.

4. The integrated power distribution switch controller energy-extracting and power-supplying device according to claim 3, characterized in that: the lower fixing frame (7) comprises a second ring plate (33), a third side connecting plate (32) is connected to the outer side face of the second ring plate (33), a lower supporting plate (8) is arranged on the side face inside the main body shell (9), and the lower fixing frame (7) is connected with the lower supporting plate (8) through the third side connecting plate (32).

5. The integrated power distribution switching controller energy-taking and power-supplying device according to claim 3, characterized in that: the upper fixing frame (15) comprises a first ring plate (26), a first side connecting plate (23) and a second side connecting plate (27) are connected to the outer side face of the first ring plate (26), the first side connecting plate (23) is connected with a fixing pressing plate (24), a locking screw (25) is arranged on the fixing pressing plate (24), an upper guide plate (16) is arranged on the side face inside the main body shell (9), and the second side connecting plate (27) is in sliding connection with the upper guide plate (16).

6. The integrated power distribution switching controller energy-taking and power-supplying device of claim 4, wherein: the upper fixing frame (15) is connected with a pressing rod (28) in a threaded mode, the bottom end of the pressing rod (28) is connected with a spring pressing plate (29), a spring sleeve (31) is arranged on the lower fixing frame (7), a pressure spring (30) is arranged in the spring sleeve (31), and the spring pressing plate (29) is pressed at the top of the pressure spring (30) in a propping mode.

7. The integrated power distribution switching controller energy-taking and power-supplying device according to claim 1, characterized in that: the first capacitor (10) is a high-voltage ceramic capacitor, insulating coatings are arranged outside the first capacitor (10) and the second capacitor (5), and a packaging insulating layer is arranged in the main body shell (9).

Images