CN217643166U - Device for controlling coil to generate variable magnetic field through software - Google Patents

Abstract

The utility model discloses a belong to hollow coil inductance technical field, specifically be a software control coil produces variable magnetic field device, including input circuit, filter circuit and rectifier circuit, input circuit electric connection filter circuit, filter circuit electric connection rectifier circuit, input circuit is after filter circuit and rectifier circuit, the auxiliary power supply makes voltage steady voltage output; further comprising: utilize software control and silicon controlled rectifier control, let hollow coil produce the controllable module of magnetic field intensity in controllable magnetic field, controllable module electric connection rectifier circuit of magnetic field intensity, the beneficial effects of the utility model are that: the high-voltage output of the power supply is controlled, the power supply is alternately conducted with the silicon controlled rectifier, the power supply main board is used for controlling the silicon controlled rectifier in a matched mode, the hollow coil is made to generate a controllable magnetic field technology, and the software control is used for realizing the control of the intensity of the inductive magnetic field intelligently.

Description

Device for controlling coil to generate variable magnetic field through software

Technical Field

The utility model relates to an air core coil inductance technical field specifically is a software control coil produces variable magnetic field device.

Background

The coil is formed by winding wires on an insulating tube in a circle, the wires are mutually insulated, the insulating tube can be hollow and can also comprise an iron core or a magnetic powder core, the inductance of the coil is represented by L, the inductance coil is a device which works by utilizing the principle of electromagnetic induction, when current flows through one wire, a certain electromagnetic field is generated around the wire, and the wire of the electromagnetic field can generate induction action on the wire in the range of the electromagnetic field.

The hollow coil inductor can generate strong magnetic field change when large current and high voltage are loaded alternately, and the magnetic field of the existing coil is changed by adopting a complex pure hardware circuit structure to control the magnetic field intensity.

Therefore, it is necessary to invent a device for generating variable magnetic field by software control coil.

SUMMERY OF THE UTILITY MODEL

The present invention has been made in view of the above and/or other problems occurring in the prior art software controlled coil variable magnetic field generating device.

Therefore, the utility model aims at providing a software control coil produces variable magnetic field device through control power high-voltage output, switches on in turn with the silicon controlled rectifier, recycles software control, adds the power mainboard, and supporting silicon controlled rectifier control lets hollow coil produce controllable magnetic field technique, utilizes software control to realize intelligent control inductance magnetic field intensity's controllability, can solve the above-mentioned problem that proposes current coil magnetic field change and adopt complicated pure hardware circuit structure usually.

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

a software controlled coil variable magnetic field generating device, comprising: the input circuit is electrically connected with the filter circuit, the filter circuit is electrically connected with the rectifying circuit,

after the input circuit passes through the filter circuit and the rectifying circuit, the auxiliary power supply supplies power to ensure that the voltage is output in a stable voltage manner;

further comprising: and the magnetic field intensity controllable module is electrically connected with the rectifying circuit and can enable the hollow coil to generate a controllable magnetic field by utilizing software control and silicon controlled rectifier control.

As a preferred embodiment of the device for generating a variable magnetic field by a software-controlled coil, wherein: the controllable module of magnetic field intensity includes full-bridge switch circuit and main isolation transformer, full-bridge switch circuit electric connection rectifier circuit, main isolation transformer electric connection full-bridge switch circuit, main isolation transformer steps up, obtains high-pressure output after the rectification.

As a preferred embodiment of the device for generating a variable magnetic field by a software-controlled coil, wherein: the high-voltage isolation transformer is electrically connected with a high-voltage capacitor after high-voltage output, and the high-voltage capacitor is electrically connected with a large-current coil.

As the utility model discloses a software control coil produce a preferred scheme of variable magnetic field device, wherein: the high-current coil is electrically connected with the silicon controlled module, and the silicon controlled module is electrically connected with the sampling circuit.

As the utility model discloses a software control coil produce a preferred scheme of variable magnetic field device, wherein: the sampling circuit is electrically connected with the software mainboard, the software mainboard is electrically connected with the control module, the control module is electrically connected with the full-bridge switch circuit, and the software mainboard controls the full-bridge switch circuit to be opened through the control module.

As the utility model discloses a software control coil produce a preferred scheme of variable magnetic field device, wherein: the software mainboard is in wireless connection with the software control module, and the software control module is in wireless connection with the LCD display screen.

As the utility model discloses a software control coil produce a preferred scheme of variable magnetic field device, wherein: the software mainboard is electrically connected with a silicon controlled rectifier control circuit, and the silicon controlled rectifier control circuit is electrically connected with a silicon controlled rectifier module.

As a preferred embodiment of the device for generating a variable magnetic field by a software-controlled coil, wherein: the software mainboard is electrically connected with the silicon controlled short circuit prompting module.

Compared with the prior art:

the high-voltage output of the power supply is controlled, the power supply is alternately conducted with the silicon controlled rectifier, the power supply main board is used for controlling the silicon controlled rectifier in a matched mode, the hollow coil is made to generate a controllable magnetic field technology, and the software control is used for realizing the control of the intensity of the inductive magnetic field intelligently.

Drawings

Fig. 1 is a schematic diagram of the device for generating a variable magnetic field by a software control coil according to the present invention.

In the figure: the device comprises an input circuit 1, a filter circuit 2, a rectifying circuit 3, a full-bridge switch circuit 4, a main isolation transformer 5, a high-voltage capacitor 6, a large-current coil 7, a silicon controlled module 8, a silicon controlled control circuit 9, a sampling circuit 10, a software mainboard 11, a software control module 12, a control module 13, a silicon controlled short-circuit prompting module 14 and an LCD (liquid crystal display) screen 15.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The utility model provides a device for generating variable magnetic field by a software control coil, which has the advantages that the device is alternately conducted with a silicon controlled rectifier by controlling the high-voltage output of a power supply, the software control is recycled, a power supply mainboard is added, the silicon controlled rectifier is matched for control, a hollow coil generates a controllable magnetic field technology, and the software control is utilized to realize the controllability of the intelligent control of the strength of the inductive magnetic field, please refer to fig. 1 and comprises an input circuit 1, a filter circuit 2 and a rectifier circuit 3;

input circuit 1 electric connection filter circuit 2, filter circuit 2 electric connection rectifier circuit 3, input circuit 1 is behind filter circuit 2 and rectifier circuit 3, and auxiliary power source supplies power, makes voltage steady voltage output, still includes: utilize software control and silicon controlled rectifier control, let the controllable module 100 of magnetic field intensity that the air core coil produced controllable magnetic field, controllable module 100 electric connection rectifier circuit 3 of magnetic field intensity increases software control, realizes the intelligent controlization of coil magnetic field intensity.

The controllable module 100 of magnetic field intensity comprises a full bridge switch circuit 4 and a main isolation transformer 5, the full bridge switch circuit 4 is electrically connected with a rectification circuit 3, the full bridge switch circuit 4 is alternatively conducted through a full bridge switch circuit 4 to provide power output for the main isolation transformer 5, the main isolation transformer 5 is electrically connected with the full bridge switch circuit 4, the main isolation transformer 5 is boosted, high voltage output is obtained after rectification, the main isolation transformer 5 is electrically connected with a high voltage capacitor 6 after high voltage output, high voltage after output of the main isolation transformer 5 is integrated through the high voltage capacitor 6, the high voltage capacitor 6 is electrically connected with a high current coil 7, the high current coil 7 is connected with the main isolation transformer 5 and a thyristor module 8 in series through the high current coil 7 to generate a strong magnetic field, the high current coil 7 is electrically connected with the thyristor module 8, the thyristor module 8 is electrically connected with a sampling circuit 10, the sampling circuit 10 samples voltage, the sampling circuit 10 is electrically connected with a software mainboard 11, the software mainboard 11 after high voltage boosting, the software mainboard 11 gives a thyristor control circuit 9 conduction instruction, the software 11 is electrically connected with the software, the software mainboard 11 is electrically connected with the control module 13, the control module 13 is electrically connected with the full bridge switch circuit 4 through a wireless connection with the thyristor control mainboard 11, the thyristor control software, the wireless control module 12, the thyristor control module 11 is connected with the control module 12, the wireless control display module 12, the wireless control module 12 is connected with the thyristor control module 12, the silicon controlled short circuit prompting module 14 is used for detecting the short circuit of the software mainboard 11.

When the intelligent power supply is used, the input circuit 1 is electrically connected with the filter circuit 2, the filter circuit 2 is electrically connected with the rectifier circuit 3, the input circuit 1 is powered by an auxiliary power supply after passing through the filter circuit 2 and the rectifier circuit 3, so that voltage is stably output, the full-bridge switch circuit 4 is electrically connected with the rectifier circuit 3, the main isolation transformer 5 is electrically connected with the full-bridge switch circuit 4, the main isolation transformer 5 is boosted to obtain high-voltage output after rectification, the main isolation transformer 5 is electrically connected with the high-voltage capacitor 6 after high-voltage output, the high-voltage capacitor 6 is electrically connected with the large-current coil 7, the large-current coil 7 is electrically connected with the silicon controlled module 8, the silicon controlled module 8 is electrically connected with the sampling circuit 10, the sampling circuit 10 is electrically connected with the software mainboard 11, the software mainboard 11 is electrically connected with the control module 13, the control module 13 is electrically connected with the full-bridge switch circuit 4, the software mainboard 11 is wirelessly connected with the software control module 12, the software control module 12 is wirelessly connected with the LCD display screen 15, the software 11 is electrically connected with the software, the software is electrically connected with the silicon controlled by the software, the software 11, the software is started to start power supply, the normal power supply control on, the full-on of the full-bridge switch circuit 1 and the power supply control mainboard 11 is started, and the normal power supply control software, the normal power supply control panel is started after the full-on of the full-bridge switch control software, and the full-bridge switch control software, the normal power supply control software is started, the normal power supply control software is started, the main isolation transformer 5 is provided with power output, then the main isolation transformer 5 is boosted for output, high-voltage output is obtained after rectification, at the moment, output voltage is sampled by the silicon controlled module 8 and the sampling circuit 10 and then enters the control circuit of the software mainboard 11, meanwhile, the software mainboard sends signals to adjust the height of the output voltage, after the high voltage of the main voltage is boosted, the software mainboard 11 gives a conduction instruction of the silicon controlled control circuit 9, the conduction and the disconnection of silicon controlled in the silicon controlled module 8 are controlled by the silicon controlled control circuit 9, the repeated alternate switching power supply and the silicon controlled are connected in series, then, the technology of generating a strong magnetic field is realized by the coils connected in the later stage, meanwhile, the energy adjustment on the LCD display screen is adjusted, the magnetic field intensity of the coils can be changed, the controllable magnetic field technology of the hollow coils is generated by controlling the software control, the software control is utilized to alternately conduct with the silicon controlled, the power mainboard is matched with the silicon controlled control, and the controllable magnetic field technology is realized by utilizing the software control to intelligently control the controllable magnetic field intensity of the inductance.

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 (8)

1. A device for controlling a coil to generate a variable magnetic field by software comprises an input circuit (1), a filter circuit (2) and a rectifying circuit (3), wherein the input circuit (1) is electrically connected with the filter circuit (2), the filter circuit (2) is electrically connected with the rectifying circuit (3),

after the input circuit (1) passes through the filter circuit (2) and the rectifying circuit (3), the auxiliary power supply supplies power to ensure that voltage is output in a stable manner;

further comprising: and the magnetic field intensity controllable module (100) enables the hollow coil to generate a controllable magnetic field by utilizing software control and silicon controlled rectifier control, and the magnetic field intensity controllable module (100) is electrically connected with the rectifying circuit (3).

2. The device for generating a variable magnetic field by a software-controlled coil according to claim 1, wherein the module (100) with controllable magnetic field intensity comprises a full-bridge switch circuit (4) and a main isolation transformer (5), the full-bridge switch circuit (4) is electrically connected with the rectifying circuit (3), the main isolation transformer (5) is electrically connected with the full-bridge switch circuit (4), and the main isolation transformer (5) is boosted and rectified to obtain a high-voltage output.

3. The device for generating the variable magnetic field by the software-controlled coil as claimed in claim 2, wherein the main isolation transformer (5) is electrically connected with a high-voltage capacitor (6) after high-voltage output, and the high-voltage capacitor (6) is electrically connected with the large-current coil (7).

4. A device for generating a variable magnetic field by a software-controlled coil according to claim 3, wherein the high-current coil (7) is electrically connected with a thyristor module (8), and the thyristor module (8) is electrically connected with a sampling circuit (10).

5. The device for generating a variable magnetic field by a software-controlled coil according to claim 4, wherein the sampling circuit (10) is electrically connected to a software motherboard (11), the software motherboard (11) is electrically connected to a control module (13), the control module (13) is electrically connected to the full-bridge switch circuit (4), and the software motherboard (11) controls the full-bridge switch circuit (4) to be turned on by the control module (13).

6. A device for generating a variable magnetic field by a software-controlled coil according to claim 5, characterized in that the software main board (11) is wirelessly connected with a software control module (12), and the software control module (12) is wirelessly connected with an LCD display screen (15).

7. The device for generating a variable magnetic field by a software control coil according to claim 6, wherein the software motherboard (11) is electrically connected with a thyristor control circuit (9), and the thyristor control circuit (9) is electrically connected with a thyristor module (8).

8. The device for generating a variable magnetic field by a software-controlled coil according to claim 5, wherein the software motherboard (11) is electrically connected with the SCR short circuit prompting module (14).

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