CN206211676U - Miniature wind, light, heat complementation energy storage control system - Google Patents

Abstract

Miniature wind, light, heat complementation energy storage control system, wind power generating set, mains system, sun set hot plate, electric storage system, electromagnetic induction heating system, the hot energy-storage system being connected including CPU and with CPU, wherein wind power generating set, electric storage system, electromagnetic induction heating system, hot energy-storage system are sequentially connected with；Mains system, electromagnetic induction heating system, hot energy-storage system are sequentially connected with；Solar heat-collection plate, the connection of hot energy-storage system, finally give small-sized heating system by hot energy-storage system by energy conveying.This new monomer that networking is mainly difficult to small-sized, outlying district carries out heat supply, existing single energy control technology is integrated, by the real-time control of intelligent controller, integration heating is carried out to wind energy, luminous energy and civil power, being complementary to one another for various energy resources heating is realized, various new energy compatibilities are used in combination, be conducive to environmental requirement, using new energy, traditional energy is saved, be allowed to more have environmental consciousness and actual application value.

Description

Small wind, light and heat complementary energy storage control system

technical field

The utility model relates to a heat control and distribution system, in particular to a small wind, light and heat complementary energy storage control system, which is mainly used in the detection, control and distribution of heat generated by wind energy, light energy and power grids.

Background technique

In recent years, with the improvement of economic level, people pay more and more attention to the living environment, and the concept of environmental protection has become an important topic in people's daily life. The traditional use of coal for heating in winter will cause serious pollution to the environment. The extensive development and utilization of new energy has played a huge role in improving the environment. At present, there are wind power generation systems, photovoltaic power generation systems, diesel power generation systems, gas turbine power generation, solar thermal power generation, etc., due to their single function, there is no unified management of each system, and the joint work of multiple energy sources cannot be realized. It has brought certain limitations to the development of new energy sources, especially with the continuous development and utilization of new energy sources, the original energy control system can no longer meet the current needs.

Utility model content

Aiming at the deficiencies of the above-mentioned prior art, the utility model provides a wind, light and heat complementary energy storage controller.

In order to achieve the above purpose, the technical solution adopted by the utility model is: a variety of energy generation inputs are integrated into the controller, including the CPU and the wind power generator connected to the CPU, the solar heat collection system, the electromagnetic induction heating system, and the electric energy storage system, thermal energy storage system, in which wind turbines, electric storage system, electromagnetic induction heating system, and thermal energy storage system are connected in sequence; mains power system, electromagnetic induction heating system, and thermal energy storage system are connected in sequence; solar collector panels , thermal energy storage system, and finally the thermal energy storage system transmits energy to the small heating system. The CPU mainly completes the thermal energy storage control of various systems, performs the switching management of the thermal energy storage process of various systems, the measurement, collection and control of signals, the distribution and coordination of various heat production methods, and the intelligent control of various energy sources. Data collection and fault judgment are carried out on voltage, current and sampling points. The wind turbine converts wind power into electrical energy recognized by the system, and has the function of maximum power tracking to convert more electrical energy. The solar heat collection system directly converts light energy into thermal energy and then directly stores it in the thermal energy storage system, and the electromagnetic induction heating by the utility power acts as a supplement to the thermal energy storage. In the whole process, the excess electric energy is converted into thermal energy and stored in the thermal energy storage system, and all energy shortages can be generated by the electromagnetic induction heating system and stored in the thermal energy storage system.

Features and effects of the utility model: In addition to the function of multiple heat energy input modes, it also has the functions of energy complementation, energy supply, and energy conversion. Automatic identification and distribution of generated thermal energy: a part of the thermal energy is directly supplied to heat, and a part is stored in the thermal energy storage system to achieve an all-weather thermal energy balance. The utility model adopts wind energy and light energy input, converts them into thermal energy for complementation, and complements the heating generated by the mains electricity in the case of insufficient wind and light energy, and realizes the optimal control of multiple energy sources to the maximum extent. It is used in winter heating. New energy and new methods have solved the existing environmental protection problems.

The utility model utilizes the existing single energy control mature technology, and combines the intelligent control method to realize the mutual exchange of multiple heat energy generation modes in the heating process, realize the optimal allocation of energy, and make the application field of new energy wider and more efficient. It has practical application value.

Description of drawings

Fig. 1 is a structural schematic block diagram of the utility model.

Fig. 2 is a schematic circuit diagram of the utility model.

detailed description

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

As shown in Figure 1: a variety of heat energy inputs, the generated heat energy is finally stored in the thermal energy storage system, a variety of heat energy generation methods include wind power generator systems, commercial power systems, solar heat collection systems, electromagnetic induction heating systems, etc. The thermal energy generated by these systems is connected to the CPU. Through the management and deployment of these thermal energy, the CPU manages the thermal energy generated, and at the same time stores the excess thermal energy in the thermal energy storage system.

As shown in Figure 2: the utility model mainly has two operation modes, which are the independent operation mode and the mains grid-connected operation mode. In the independent operation mode, when there is no mains power, MC1 conducts and MC2 Cut off, the power generated by the solar thermal collector panels and wind turbines is converted by the system to supply heat to the load through the thermal energy storage system. It operates under strong sunlight and strong wind during the day, and the excess energy generated is stored in the thermal energy storage system, and the excess energy generated during the day is used for heating at night. In the grid-connected operation mode, various heat energy generation methods and the mains power grid are simultaneously supplied to the load. In the case of low sunlight, the mains power is supplied to the electromagnetic induction system, thereby generating heat to heat the load and serve as a supplement to the heat energy. When MC1 and MC2 are all conducting.

Claims (1)

1. Small-scale wind, light and heat complementary energy storage control system, characterized in that it includes a CPU and a wind power generator connected to the CPU, a mains power system, a solar heat collector, an electric storage system, an electromagnetic induction heating system, and a thermal energy storage system, in which the wind turbine, electric storage system, electromagnetic induction heating system, and thermal energy storage system are connected in sequence; the utility power system, electromagnetic induction heating system, and thermal energy storage system are connected in sequence; solar collector panels, and thermal energy storage system connection, and finally the thermal energy storage system delivers energy to the small heating system.