CN213750796U - High-power voltage-stabilized power supply control system - Google Patents

Abstract

The utility model discloses a belong to the technical field of the power, specifically be high-power constant voltage power supply control system, its technical scheme is: including power module, power module electric connection detection module, detection module electric connection main control module, main control module electric connection display module and motorised valve control module, motorised valve control module electric connection resistance module, resistance module electric connection vary voltage module, vary voltage module electric connection voltage stabilizing module, voltage stabilizing module electric connection output module, detection module includes temperature detection module, current detection module and voltage detection module, the beneficial effects of the utility model are that: the effects of stabilizing the output voltage of the power supply module and controlling the voltage output power are achieved, and the effect of preventing the output voltage from damaging the load of the input equipment is achieved.

Description

High-power voltage-stabilized power supply control system

Technical Field

The utility model relates to a power field, concretely relates to high-power constant voltage power supply control system.

Background

A power source is a device that converts other forms of energy into electrical energy.

The power source is based on the self-magnetism electricity generating principle, and is a power source generated by renewable energy sources such as water power, wind power, sea tide, dam water pressure difference, solar energy and the like, coal burning, oil residue and the like.

Common power sources are dry cell and household 110V-220V AC power sources.

The generator can convert mechanical energy into electric energy, and the dry battery can convert chemical energy into electric energy; the generator and the battery are not electrified, the two poles of the generator and the battery are respectively provided with positive and negative charges, the positive and negative charges generate voltage, the current is formed by the charge moving directionally under the action of the voltage, the charge conductor has the original condition that only voltage needs to be added to generate the current, when the two poles of the battery are connected with the conductor, the positive and negative charges are released out for generating the current, and when the charge is dissipated, the charge is eliminated.

Dry cells and the like are called power sources; a device for converting alternating current into direct current through a transformer and a rectifier is called a rectification power supply; the electronic equipment capable of providing signals is called a signal source; the transistor can amplify the signal from the front and transmit the amplified signal to the circuit at the back; the transistor can be also regarded as a signal source for the circuit behind the transistor pair; rectified power, the source of the signal, is sometimes also called the power supply.

The prior art has the following defects: the existing power supply has unstable voltage during high-power output, so that the input equipment has the effect of load damage.

Therefore, the invention is necessary to develop a high-power voltage-stabilized power supply control system.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a high-power constant voltage power supply control system, the voltage circuit through power module passes through detection module, makes main control module calculate to control electric valve control module and carry out closed corresponding resistance module, rethread vary voltage module and voltage stabilizing module make the voltage stability of power module output, can appear the problem of load damage with the equipment of solving the input.

In order to achieve the above object, the present invention provides the following technical solutions: the high-power voltage-stabilized power supply control system comprises a power supply module, wherein the power supply module is electrically connected with a detection module, the detection module is electrically connected with a main control module, the main control module is electrically connected with a display module and an electric valve control module, the electric valve control module is electrically connected with a resistance module, the resistance module is electrically connected with a voltage transformation module, the voltage transformation module is electrically connected with a voltage stabilization module, and the voltage stabilization module is electrically connected with an output module;

the detection module comprises a temperature detection module, a current detection module and a voltage detection module, and the temperature detection module, the current detection module and the voltage detection module are electrically connected with the power supply module and the main control module;

the electric valve control module is electrically connected with an electric valve, and the electric valve is electrically connected with the resistance module;

the resistance module comprises a 0-50 omega resistance, a 50-200 omega resistance and an adjustable resistance, and the 0-50 omega resistance, the 50-200 omega resistance and the adjustable resistance are electrically connected with the electric valve and the transformation module.

Preferably, the main control module is set as an ARM single chip microcomputer, the ARM single chip microcomputer is electrically connected with the temperature detection module, the current detection module and the voltage detection module, and the ARM single chip microcomputer is responsible for data collection and transmission, data interaction of the modules and information interaction of communication interfaces.

Preferably, the display module is arranged as a liquid crystal display screen, the liquid crystal display screen is electrically connected with the main control module, and the liquid crystal display screen is responsible for displaying the detected data of each sensor.

Preferably, the electric valve control module is responsible for closing and opening the electric valve.

Preferably, the resistance module is connected in parallel with the 0-50 Ω resistor, the 50-200 Ω resistor and the adjustable resistor.

Preferably, the transformation module is configured as a transformer, the transformer transforms voltage, current and impedance by using an electromagnetic mutual inductance effect, the transformer is responsible for stabilizing and protecting a voltage circuit of the power module, the voltage stabilization module is configured as a voltage stabilizer, and the voltage stabilizer is responsible for stabilizing output voltage.

Compared with the prior art, the high-power voltage-stabilized power supply control system has the advantages that:

the utility model discloses a detection module electric connection power module, the temperature detection module, current detection module and voltage detection module electric connection power module and main control module, rethread temperature detection module, current detection module and voltage detection module set up to temperature sensor, current sensor and voltage sensor, pass through temperature sensor when making power module high-power output, current sensor and voltage sensor, the signal that makes temperature sensor, current sensor and voltage sensor acquire power module calculates actual numerical value through main control module, and show on the display module, play the effect of acquireing the power state, thereby reach the output state of real-time supervision power, and calculate and control the effect of the output power of power through main control module;

the main control module is set as an ARM single chip microcomputer, and the ARM single chip microcomputer is responsible for data collection and transmission, data interaction of each module and information interaction of a communication interface;

the display module is set as a liquid crystal display screen, and the liquid crystal display screen is responsible for displaying the detected data of each sensor;

the electric valve control module is electrically connected with the resistance module, the electric valve is electrically connected with the main control module and the resistance module, the electric valve control module is used for closing and opening the electric valve, and the resistance module is connected with the 0-50 omega resistor, the 50-200 omega resistor and the adjustable resistor in parallel, so that the main control module receives the output state of the power supply module and calculates;

when the output power of the power supply module is low, controlling the electric valve to close the 0-50 omega resistor, so that the voltage circuit of the power supply module is output through the 0-50 omega resistor;

when the output power of the power supply module is higher, controlling the electric valve to close the 50-200 omega resistor, so that the voltage circuit of the power supply module is output through the 0-200 omega resistor;

when the output power of the power supply module needs to be manually adjusted, the electric valve is controlled to close the adjustable resistor, so that a voltage circuit of the power supply module outputs the voltage through the adjustable resistor, and the effects of stabilizing the output voltage of the power supply module and controlling the voltage output power are achieved;

the transformer utilizes the electromagnetic mutual inductance effect to transform voltage, current and impedance, the transformer is responsible for stabilizing and protecting a voltage circuit of the power supply module, the voltage stabilizing module is set as a voltage stabilizer, and the voltage stabilizer is responsible for stabilizing output voltage;

the power module passes through the resistance module and then passes through the transformer and the voltage stabilizer, so that the voltage output by the power module passes through the transformer and the voltage stabilizer, the high-power voltage output by the power module is subjected to voltage transformation and voltage stabilization, and the effect of preventing the output voltage from causing the load of the input equipment to be damaged is achieved.

Drawings

Fig. 1 is a schematic view of the overall electrical structure provided by the present invention;

fig. 2 is a schematic diagram of the electrical connection of the detection module provided by the present invention;

fig. 3 is a schematic diagram of electrical connection of the resistor module provided by the present invention;

in the figure: the device comprises a power module 1, a detection module 2, a temperature detection module 21, a current detection module 22, a voltage detection module 23, a main control module 3, a display module 4, an electric valve control module 5, an electric valve 51, a resistance module 6, a 0-50 omega resistor 61, a 50-200 omega resistor 62, an adjustable resistor 63, a voltage transformation module 7, a voltage stabilization module 8 and an output module 9.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Referring to fig. 1-3, the present invention provides a high power regulated power supply control system, which includes a power module 1, a detection module 2, a main control module 3, a display module 4, an electrically operated valve control module 5, a resistance module 6, a voltage transformation module 7, a voltage regulation module 8, and an output module 9;

further, the detection module 2 is electrically connected to the power module 1, the detection module 2 includes a temperature detection module 21, a current detection module 22 and a voltage detection module 23, specifically, the temperature detection module 21, the current detection module 22 and the voltage detection module 23 are electrically connected to the power module 1 and the main control module 3, the temperature sensor is PT100, the temperature sensor is an instrument for converting a temperature variable into a transmittable standardized output signal, the current sensor is CHB-200S, the current sensor is a detection device capable of sensing information of a current to be detected and sensing the information, the voltage sensor is CHV-50P, the voltage sensor is a sensor capable of sensing the voltage to be detected and converting the voltage to a usable output signal, and the detection module 2 is electrically connected to the power module 1, the temperature detection module 21, the voltage detection module 2, The current detection module 22 and the voltage detection module 23 are electrically connected with the power supply module 1 and the main control module 3, and then the temperature detection module 21, the current detection module 22 and the voltage detection module 23 are arranged as a temperature sensor, a current sensor and a voltage sensor, so that when the power supply module 1 outputs high power, the signals of the power supply module 1 pass through the temperature sensor, the current sensor and the voltage sensor, the temperature sensor, the current sensor and the voltage sensor are enabled to acquire the signals of the power supply module 1, the actual numerical values are calculated by the main control module 3 and displayed on the display module 4, the power supply state acquisition function is realized, the real-time monitoring of the output state of the power supply is realized, and the effect of calculating and controlling the output power of the power supply by the main control module 3 is realized, wherein the main control module 3 is arranged as an ARM single chip microcomputer which is responsible for data collection and transmission, data interaction of each module and information interaction of communication interfaces, the display module 4 is set as a liquid crystal display screen, and the liquid crystal display screen is responsible for displaying the detected data of each sensor;

further, the electric valve control module 5 is electrically connected to the resistance module 6, the electric valve control module 5 includes an electric valve 51, specifically, the electric valve 51 is electrically connected to the main control module 3 and the resistance module 6, the electric valve controller can realize the control of opening, closing and middle position by switching of an external power supply, the electric valve 51 controls the valve by using an electric actuator, thereby realizing the opening and closing of the valve, the electric valve control module 5 is electrically connected to the resistance module 6, the electric valve 51 is electrically connected to the main control module 3 and the resistance module 6, the electric valve control module 5 is responsible for the closing and opening of the electric valve 51, the resistance module 6 is connected in parallel with the 0-50 Ω resistor 61, the 50-200 Ω resistor 62 and the adjustable resistor 63, so that the main control module 3 receives the output state of the power module 1, the calculation is performed, when the output power of the power module 1 is lower, controlling the electric valve 51 to close the 0-50 omega resistor 61 to enable the voltage circuit of the power module 1 to output through the 0-50 omega resistor 61, when the output power of the power module 1 is high, controlling the electric valve 51 to close the 50-200 omega resistor 62 to enable the voltage circuit of the power module 1 to output through the 0-200 omega resistor 62, and when the output power of the power module 1 needs to be manually adjusted, controlling the electric valve 51 to close the adjustable resistor 63 to enable the voltage circuit of the power module 1 to output through the adjustable resistor 63, so that the effects of stabilizing the output voltage of the power module 1 and controlling the voltage output power are achieved;

further, the transformation module 7 is electrically connected to the resistance module 6 and the voltage stabilization module 8, specifically, the transformation module 7 is electrically connected to the resistance module 6 and the voltage stabilization module 8, the resistance module 6 and the voltage stabilizing module 8 are electrically connected through the transformation module 7, the voltage stabilizing module 8 is electrically connected with the output module 9, and then the transformation module 7 is set as a transformer which transforms voltage, current and impedance by utilizing the electromagnetic mutual inductance effect, the transformer is responsible for stabilizing and protecting a voltage circuit of the power supply module 1, the voltage stabilizing module 8 is set as a voltage stabilizer which is responsible for stabilizing output voltage, the power module 1 passes through the resistance module 6 and then passes through the transformer and the voltage stabilizer, so that the voltage output by the power module 1 passes through the transformer and the voltage stabilizer, the high-power voltage output by the power module 1 is subjected to voltage transformation and voltage stabilization, and the effect of preventing the output voltage from causing the load damage of input equipment is achieved.

The utility model discloses a use as follows: the skilled person electrically connects the power supply module 1 through the detection module 2, the temperature detection module 21, the current detection module 22 and the voltage detection module 23 electrically connect the power supply module 1 and the main control module 3, and then the temperature detection module 21, the current detection module 22 and the voltage detection module 23 are set as a temperature sensor, a current sensor and a voltage sensor, so that the signals of the power supply module 1 obtained by the temperature sensor, the current sensor and the voltage sensor pass through the temperature sensor, the current sensor and the voltage sensor when the power supply module 1 outputs high power, the actual numerical value is calculated by the main control module 3 and displayed on the display module 4, thereby achieving the effect of obtaining the power supply state, thereby achieving the real-time monitoring of the output state of the power supply, and calculating and controlling the output power of the power supply through the main control module 3, wherein the main control module 3 is set as an ARM single chip microcomputer, the ARM single chip microcomputer is responsible for data collection and transmission, data interaction of each module and information interaction of a communication interface, wherein the display module 4 is set as a liquid crystal display screen, the liquid crystal display screen is responsible for displaying the detected data of each sensor, the electric valve control module 5 is electrically connected with the resistance module 6, the electric valve 51 is electrically connected with the main control module 3 and the resistance module 6, the electric valve control module 5 is responsible for closing and opening the electric valve 51, the resistance module 6 is connected with the 0-50 omega resistor 61, the 50-200 omega resistor 62 and the adjustable resistor 63 in parallel, so that the main control module 3 receives the output state of the power module 1 and calculates, when the output power of the power module 1 is lower, the electric valve 51 is controlled to close the 0-50 omega resistor 61, and a voltage circuit of the power module 1 is output through the 0-50 omega resistor 61, when the output power of the power module 1 is high, the electric valve 51 is controlled to close the 50-200 omega resistor 62, so that the voltage circuit of the power module 1 is output through the 0-200 omega resistor 62, when the output power of the power module 1 needs to be manually adjusted, the electric valve 51 is controlled to close the adjustable resistor 63, so that the voltage circuit of the power module 1 is output through the adjustable resistor 63, and the effects of stabilizing the output voltage of the power module 1 and controlling the voltage output power are achieved, the resistance module 6 and the voltage stabilizing module 8 are electrically connected through the transformation module 7, the voltage stabilizing module 8 is electrically connected with the output module 9, the transformer is set through the transformation module 7, the transformer converts the voltage, the current and the impedance by utilizing the electromagnetic mutual induction effect, the transformer is responsible for stabilizing and protecting the voltage circuit of the power module 1, and the voltage stabilizing module 8 is set as a voltage stabilizer, the stabiliser is responsible for output voltage's stability, passes through resistance module 6 through transformer and stabiliser through power module 1 again, makes the voltage of power module 1 output pass through transformer and stabiliser, makes the high-power voltage of power module 1 output carry out vary voltage and steady voltage, reaches the effect that the voltage that prevents to export makes input device load damage.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solutions described above. Therefore, any simple modifications or equivalent replacements made according to the technical solution of the present invention belong to the scope of the claimed invention as far as possible.

Claims (6)

1. High-power constant voltage power supply control system, including power module (1), its characterized in that: the power module (1) is electrically connected with the detection module (2), the detection module (2) is electrically connected with the main control module (3), the main control module (3) is electrically connected with the display module (4) and the electric valve control module (5), the electric valve control module (5) is electrically connected with the resistance module (6), the resistance module (6) is electrically connected with the voltage transformation module (7), the voltage transformation module (7) is electrically connected with the voltage stabilization module (8), and the voltage stabilization module (8) is electrically connected with the output module (9);

the detection module (2) comprises a temperature detection module (21), a current detection module (22) and a voltage detection module (23), and the temperature detection module (21), the current detection module (22) and the voltage detection module (23) are electrically connected with the power supply module (1) and the main control module (3);

the electric valve control module (5) is electrically connected with an electric valve (51), and the electric valve (51) is electrically connected with the resistance module (6);

the resistance module (6) comprises a 0-50 omega resistor (61), a 50-200 omega resistor (62) and an adjustable resistor (63), and the 0-50 omega resistor (61), the 50-200 omega resistor (62) and the adjustable resistor (63) are electrically connected with the electric valve (51) and the transformation module (7).

2. The high power regulated power supply control system according to claim 1 wherein: the main control module (3) is set as an ARM single chip microcomputer, the ARM single chip microcomputer is electrically connected with the temperature detection module (21), the current detection module (22) and the voltage detection module (23), and the ARM single chip microcomputer is responsible for data collection and transmission, data interaction of the modules and information interaction of communication interfaces.

3. The high power regulated power supply control system according to claim 1 wherein: display module (4) set up to liquid crystal display, liquid crystal display electric connection main control module (3), liquid crystal display is responsible for showing the data of each sensor that detects.

4. The high power regulated power supply control system according to claim 1 wherein: the electric valve control module (5) is responsible for closing and opening the electric valve (51).

5. The high power regulated power supply control system according to claim 1 wherein: the resistance module (6) is connected in parallel with the 0-50 omega resistor (61), the 50-200 omega resistor (62) and the adjustable resistor (63).

6. The high power regulated power supply control system according to claim 1 wherein: the transformer module (7) is set as a transformer, the transformer transforms voltage, current and impedance by utilizing the electromagnetic mutual inductance effect, the transformer is responsible for stabilizing and protecting a voltage circuit of the power module (1), the voltage stabilizing module (8) is set as a voltage stabilizer, and the voltage stabilizer is responsible for stabilizing output voltage.

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