CN111129809B - Magnetic control energy storage plug - Google Patents

Abstract

The invention discloses a magnetic control energy storage plug which is composed of a non-magnetic material super capacitor, an end head circuit board, a solenoid coil, an end head fixing seat and a charging plug. The function of automatic butt joint or separation of the plug and the socket is realized under the matching of an external magnetic field. The invention has the characteristics of simple structure, instant controllable magnetic field, convenient use, accuracy and reliability.

Description

Magnetic control energy storage plug

Technical Field

The invention relates to the technical field of automatic butt joint charging plugs, in particular to a magnetic control energy storage plug.

Background

The cable line is a backbone network of urban power supply and is also an important asset of a power supply company, the cable line is often laid in a cable tunnel, manual inspection is very difficult, at present, inspection robots and automatic monitoring devices dispersedly installed along the cable line are mainly used for monitoring the cable line on site, the devices can work for a long time only by reliable power supplies, the cost of laying permanent low-voltage power supply lines is too high, construction is difficult, and the magnetic throwing automatic centering charging device is urgently needed to be developed to facilitate the inspection robots to charge from specific power supply points in the cable tunnel, and then the inspection robots charge other automatic cable monitoring devices to ensure that the inspection robots can continuously monitor the running state of the cable line for a long time, and one of core components of the magnetic throwing automatic centering charging device is a magnetic control energy storage plug.

Disclosure of Invention

The invention provides a magnetic control energy storage plug aiming at the problems, and the device consists of a non-magnetic material super capacitor, an end circuit board, a solenoid coil, an end fixing seat and a charging plug; the solenoid coil, the nonmagnetic material super capacitor and the external control switch are connected in series to form a loop, and when the external control switch is closed, the nonmagnetic material super capacitor discharges electricity through the solenoid coil;

the end circuit board is a rectangular circuit board with a certain thickness, 1 pair of power line wiring terminals p1 and p2 are arranged on the end circuit board, and the power line wiring terminals are terminals which are connected with an external power supply through a pair of flexible leads and used for charging the non-magnetic material super capacitor; 1 pair of external switch terminals n1, n2, said external switch terminals being terminals for non-magnetic material super capacitor to discharge through solenoid coil connected to external control switch by a pair of flexible conductors; 1 pair of capacitor pin welding holes c + and c-, wherein the capacitor pin welding holes penetrate through the upper surface and the lower surface of the end circuit board, a positive electrode pin of the non-magnetic material super capacitor penetrates through the capacitor pin welding holes c + from the lower surface of the end circuit board and is fixed on the upper surface of the end circuit board, a negative electrode pin of the non-magnetic material super capacitor penetrates through the capacitor pin welding holes c-from the lower surface of the end circuit board and is fixed on the upper surface of the end circuit board, and the positive electrode pin of the non-magnetic material super capacitor is connected with an external switch wiring terminal n 2;

the solenoid coil is wound on the surface of the cylinder of the non-magnetic material super capacitor, the upper end and the lower end of the solenoid coil are respectively provided with an outgoing line, the outgoing line at the upper end is connected with an external switch wiring terminal n1, and the outgoing line at the lower end is connected with a negative pin of the non-magnetic material super capacitor;

one surface of the end fixing seat is fixed on the end face, without pins, of the non-magnetic material super capacitor through a colloid, the shape and the size of the end face are the same as those of the end face, without pins, of the non-magnetic material super capacitor, and the charging plug is fixedly installed on the other surface of the end fixing seat;

the positive electrode J + of the charging plug is connected with a power line wiring terminal p1, and the negative electrode J-of the charging plug is connected with a power line wiring terminal p 2.

Preferably, the non-magnetic material super capacitor is charged to a rated voltage, when the external control switch is switched on, the non-magnetic material super capacitor discharges through the solenoid coil, the discharge current is excited in the solenoid coil to generate a magnetic field intensity and a polarity meeting application requirements, and the function of automatic butt joint or separation of the plug and the socket is realized under the cooperation of an external magnetic field.

In a preferable mode, the positive pin, the negative pin, the body material and the package of the non-magnetic material super capacitor are all made of non-magnetic materials, and the shape of the non-magnetic material super capacitor is a solid cylinder.

The invention has the beneficial effects that: the device has the characteristics of simple structure, instant controllable magnetic field, convenient use, accuracy and reliability.

Drawings

FIG. 1 is a view showing the construction of an apparatus;

fig. 2 is a working principle diagram.

Detailed Description

The structure of the device is shown in figure 1, and the working principle of the device is shown in figure 2. The device comprises a non-magnetic material super capacitor C1, a terminal circuit board M1, a solenoid coil L1, a terminal fixing seat M2 and a charging plug J1. The pin, the body material and the packaging material of the C1 are all made of non-magnetic materials and have solid cylindrical shapes. Wherein, L1 is wound on the outer layer of C1, L1 is connected in series with C1 and an external control switch K to form a loop, and when K is closed, C1 discharges through L1, so that a magnetic field with the magnetic pole direction of N above S below S is generated in L1.

As shown in fig. 1, M1 is provided with 1 pair of power line terminals p1, p2, 1 pair of external switch terminals n1, n2 and 1 pair of capacitor pin welding holes c +, c-, the power line terminals are connected to an external power source through flexible leads, the switch terminals are connected to an external switch through flexible leads, the capacitor pin welding holes penetrate through the upper surface and the lower surface of the end circuit board M1, the positive electrode pin of the non-magnetic material super capacitor C1 penetrates through the capacitor pin welding holes C + from the lower surface of the end circuit board M1 and is fixed on the upper surface of the end circuit board M1, the negative electrode pin of the nonmagnetic material super capacitor C1 penetrates through the capacitor pin welding hole C-from the lower surface of the end circuit board M1 and is fixed on the upper surface of the end circuit board M1, and the n2 is also connected with the positive electrode pin of the nonmagnetic material super capacitor C1.

The upper and lower leads of the L1 are connected to the n1 terminal, and the lower lead is connected to the negative electrode pin of the non-magnetic material super capacitor C1.

One surface of the M2 is fixed on the end surface without pins of the C1 by glue, the shape and the size are the same as those of the end surface of the C1, and the other surface of the M2 is fixed with the J1 in an embedding mode.

The positive electrode J + of J1 is connected with the connecting terminal p1, and the negative electrode J-of J1 is connected with the connecting terminal p 2.

The working principle of the embodiment is as shown in fig. 2, C1 is charged to the rated voltage, when the external control switch K is closed, C1 discharges through L1, and the excitation current generated by the discharge enables L1 to generate a magnetic field with magnetic field strength and polarity meeting the application requirements. At the moment, under the matching of an external magnetic field of the plug storage box or the socket, the plug is thrown out of the plug storage box or sucked into the socket, and the automatic butt joint work of the charging plug and the socket is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (2)

1. A magnetic control energy storage plug is characterized by comprising a non-magnetic material super capacitor, an end circuit board, a solenoid coil, an end fixing seat and a charging plug; the solenoid coil, the nonmagnetic material super capacitor and the external control switch are connected in series to form a loop, and when the external control switch is closed, the nonmagnetic material super capacitor discharges electricity through the solenoid coil;

the end circuit board is a rectangular circuit board, 1 pair of power line wiring terminals (p1, p2) are arranged on the end circuit board, and the power line wiring terminals are terminals which are connected with an external power supply through a pair of flexible leads and used for charging the non-magnetic material super capacitor; 1 pair of external switch terminals (n1, n2) which are terminals connected to an external control switch by a pair of flexible leads for discharging a non-magnetic material super capacitor through a solenoid coil; 1 pair of capacitor pin welding holes (c +, c-), wherein the capacitor pin welding holes penetrate through the upper surface and the lower surface of the end circuit board, a positive electrode pin of the non-magnetic material super capacitor penetrates through the positive electrode capacitor pin welding hole (c +) from the lower surface of the end circuit board and is fixed on the end circuit board, a negative electrode pin of the non-magnetic material super capacitor penetrates through the negative electrode capacitor pin welding hole (c-) from the lower surface of the end circuit board and is fixed on the end circuit board, and the positive electrode pin of the non-magnetic material super capacitor is connected with an external switch wiring terminal (n 2);

the solenoid coil is wound on the surface of the cylinder of the nonmagnetic material super capacitor, the upper end and the lower end of the solenoid coil are respectively provided with an outgoing line, the outgoing line at the upper end is connected with another external switch wiring terminal (n1), and the outgoing line at the lower end is connected with a negative electrode pin of the nonmagnetic material super capacitor;

one surface of the end fixing seat is fixed on the end face, without pins, of the non-magnetic material super capacitor through a colloid, the shape and the size of the end face are the same as those of the end face, without pins, of the non-magnetic material super capacitor, and the charging plug is fixedly installed on the other surface of the end fixing seat;

the positive pole (J +) of the charging plug is connected with one power line connecting terminal (p1), and the negative pole (J-) of the charging plug is connected with the other power line connecting terminal (p 2).

2. The magnetically controlled energy storage plug according to claim 1, wherein the super capacitor made of a non-magnetic material is charged to a rated voltage, when the external control switch is turned on, the super capacitor made of a non-magnetic material discharges through the solenoid coil, and is excited in the solenoid coil by a discharge current to generate a magnetic field strength and a polarity meeting application requirements, so that the function of automatic butt joint or separation of the plug and the socket is realized under the cooperation of an external magnetic field.

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