CN210347766U - Comprehensive energy source monitoring device - Google Patents

Abstract

The utility model relates to a comprehensive energy source comprehensive monitoring device, the comprehensive energy source system technical field that belongs to, including the main circuit, be equipped with user's power consumption end on the main circuit, be equipped with comprehensive monitoring unit subassembly between main circuit and user's power consumption end, be equipped with user's power consumption electric quantity monitor between comprehensive monitoring unit subassembly and user's power consumption end, be equipped with the natural gas power generation end on the main circuit, be equipped with the wind power generation end that communicates with natural gas power generation end parallel circuit on the main circuit, be equipped with the solar energy power generation end that communicates with wind power generation end parallel circuit on the main circuit, the natural gas power generation electric quantity monitor, wind power generation electric quantity monitor, solar energy power generation electric quantity monitor all. The system has the characteristics of good power supply stability, energy conservation, emission reduction, accurate monitoring and reduced operation cost. The problem of power supply volume and the unbalanced stability of use amount has been solved. Avoid the excessive consumption of energy, improve the utilization efficiency of energy and promote the sustainable development of energy.

Description

Comprehensive energy source monitoring device

Technical Field

The utility model relates to a comprehensive energy system technical field, concretely relates to comprehensive energy comprehensive monitoring device.

Background

The comprehensive energy system is characterized in that advanced physical information technology and innovative management modes are utilized in a certain area, multiple energy sources such as coal, petroleum, natural gas, electric energy and heat energy in the area are integrated, and coordinated planning, optimized operation, cooperative management, interactive response and complementary mutual assistance among multiple heterogeneous energy subsystems are achieved. The energy utilization efficiency is effectively improved and the sustainable development of energy is promoted while the diversified energy utilization requirements in the system are met.

Theoretically, the comprehensive energy system is not a brand-new concept, because in the energy field, the situation of collaborative optimization of different energy forms exists for a long time, for example, a CCHP generator set achieves the purpose of improving the utilization efficiency of fuel through the coordinated optimization of high-low grade heat energy and electric energy; the ice storage device coordinates electric energy and cold energy (also can be regarded as a type of heat energy) to achieve the purpose of peak clipping and valley filling of the electric energy. Essentially, both CCHP and ice storage devices belong to local integrated energy systems. In fact, the concept of integrated energy systems was first derived from research in the field of thermoelectric co-optimization.

The development of a comprehensive park, a distributed energy station, a heat pump, energy storage, an electric vehicle charging facility and the like of social investment construction is accelerated year by year, and the requirements of differentiated and customized energy service products and service modes such as novel energy planning design, monitoring management, energy efficiency analysis, operation maintenance and the like are increasingly prominent.

Disclosure of Invention

The utility model discloses mainly solve and have among the prior art that energy supply control dynamics is little, power supply volume poor stability, unnecessary electric energy storage is with high costs and the energy consumption pollutes seriously not enough, provide a comprehensive energy monitoring device, it has that power supply volume stability is good, energy saving and emission reduction, accurate control and reduction running cost's characteristics. The problem of power supply volume and the unbalanced stability of use amount has been solved. Avoid the excessive consumption of energy, improve the utilization efficiency of energy and promote the sustainable development of energy.

The above technical problem of the present invention can be solved by the following technical solutions:

a comprehensive energy monitoring device comprises a main circuit, wherein a user electricity utilization end communicated with a main circuit phase circuit is arranged on the main circuit, a comprehensive monitoring unit component is arranged between the main circuit and the user electricity utilization end, a user electricity utilization quantity monitor connected with the comprehensive monitoring unit component through data signals is arranged between the comprehensive monitoring unit component and the user electricity utilization end, a natural gas power generation end is arranged on the main circuit, a wind power generation end communicated with the natural gas power generation end in a parallel circuit manner is arranged on the main circuit, a solar power generation end communicated with the wind power generation end in a parallel circuit manner is arranged on the main circuit, a solar power generation quantity monitor communicated with the solar power generation end in a serial circuit manner is arranged on the solar power generation end, a wind power generation quantity monitor communicated with the wind power generation end in a serial circuit manner is arranged on the wind power generation end, the natural gas power generation end is provided with a natural gas power generation electric quantity monitor which is communicated with a natural gas power generation end serial circuit, and the natural gas power generation electric quantity monitor, the wind power generation electric quantity monitor and the solar power generation electric quantity monitor are all connected with a comprehensive monitoring unit component through data signals.

Preferably, the integrated monitoring unit assembly comprises an integrated monitoring base, an electric quantity monitoring data acquisition chip communicated with a main circuit phase circuit is arranged on the integrated monitoring base, a signal transmission chip communicated with the main circuit phase circuit is arranged on the side edge of the electric quantity monitoring data acquisition chip, and a natural gas power generation electric quantity offline electric quantity calculation chip communicated with the electric quantity monitoring data acquisition chip phase circuit is arranged at the upper end of the signal transmission chip.

The electric quantity monitoring data acquisition chip, the signal transmission chip and the natural gas power generation electric quantity offline electric quantity calculation chip are products in the prior art, and the required functions are realized through code setting. The electric quantity calculating chip can calculate the electric quantity of the Battery by sampling through recording a discharge curve (voltage, current and time), which is wh. value read in Battery Information. The signal transmission chip adopts an LX5586LL-TR series. The electric quantity monitoring data acquisition chip is based on a communication module of a remote data acquisition module platform, and integrates a communication chip, a storage chip and the like on a circuit board, so that the electric quantity monitoring data acquisition chip has the functions of sending and receiving short messages, voice calls, data transmission and the like through the remote data acquisition module platform. The remote data acquisition module can realize the main communication function of a common remote data acquisition module mobile phone, and can also be called a 'simplified version' mobile phone. The computer, the singlechip and the ARM can be connected with the remote data acquisition module through the RS232 serial port, and various voice and data communication functions are realized through the AT instruction control module.

Preferably, the natural gas power generation end comprises a natural gas supply pipe, and the natural gas supply pipe is provided with a flow control valve communicated with a flange type pipeline of the natural gas supply pipe. The flow control valve is also called 400X flow control valve, which is a multifunctional valve adopting high-precision pilot mode to control flow. The valve is suitable for the pipeline of water distribution pipe which needs to control flow and pressure, keeps the preset flow unchanged, limits the overlarge flow to a preset value, and properly reduces the upstream high pressure, so that the flow of the downstream of the main valve is not influenced even if the pressure of the upstream of the main valve changes. The connection mode is divided into a flange type, a thread type and a welding type. The control and regulation modes are automatic and manual.

Preferably, the upper end of the flow control valve is provided with a controller communicated with a wireless signal line of a power-off quantity calculating chip of the natural gas power generation quantity. The controller is a master device for controlling the starting, speed regulation, braking and reversing of the motor by changing the wiring of a main circuit or a control circuit and changing the resistance value in the circuit according to a preset sequence. The flow control valve comprises a program counter, an instruction register, an instruction decoder, a time sequence generator and an operation controller, and is a decision mechanism for issuing commands, namely, the operation for coordinating and commanding the stable operation of the whole flow control valve is completed.

The utility model discloses can reach following effect:

the utility model provides a comprehensive energy source comprehensive monitoring device compares with prior art, has that power supply volume stability is good, energy saving and emission reduction, accurate control and reduction running cost's characteristics. The problem of power supply volume and the unbalanced stability of use amount has been solved. Avoid the excessive consumption of energy, improve the utilization efficiency of energy and promote the sustainable development of energy.

Drawings

Fig. 1 is a schematic circuit diagram of the present invention.

Fig. 2 is a schematic diagram of a natural gas supply flow rate adjusting structure of a natural gas power generation end of the present invention.

Fig. 3 is a schematic structural diagram of the integrated monitoring unit assembly of the present invention.

In the figure: the natural gas power generation monitoring system comprises a main circuit 1, a natural gas power generation end 2, a wind power generation end 3, a natural gas power generation electric quantity monitor 4, a wind power generation electric quantity monitor 5, a solar power generation end 6, a solar power generation electric quantity monitor 7, a comprehensive monitoring unit component 8, a user power consumption electric quantity monitor 9, a user power consumption end 10, a natural gas supply pipe 11, a controller 12, a flow control valve 13, a comprehensive monitoring base 14, an electric quantity monitoring data acquisition chip 15, a natural gas power generation electric quantity offline electric quantity calculation chip 16 and a signal transmission chip 17.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

Example (b): as shown in fig. 1, fig. 2 and fig. 3, an integrated energy monitoring device includes a main circuit 1, a user power consumption end 10 connected to a phase circuit of the main circuit 1 is provided on the main circuit 1, an integrated monitoring unit assembly 8 is provided between the main circuit 1 and the user power consumption end 10, the integrated monitoring unit assembly 8 includes an integrated monitoring base 14, an electric quantity monitoring data acquisition chip 15 connected to the phase circuit of the main circuit 1 is provided on the integrated monitoring base 14, a signal transmission chip 17 connected to the phase circuit of the main circuit 1 is provided on a side of the electric quantity monitoring data acquisition chip 15, and a natural gas power generation electric quantity offline electric quantity calculation chip 16 connected to the phase circuit of the electric quantity monitoring data acquisition chip 15 is provided on an upper end of the signal transmission chip 17. A user electricity consumption quantity monitor 9 connected with the comprehensive monitoring unit component 8 through data signals is arranged between the comprehensive monitoring unit component 8 and a user electricity consumption end 10, a natural gas electricity generation end 2 is arranged on the main circuit 1, the natural gas electricity generation end 2 comprises a natural gas supply pipe 11, and a flow control valve 13 communicated with the natural gas supply pipe 11 through a flange type pipeline is arranged on the natural gas supply pipe 11. The upper end of the flow control valve 13 is provided with a controller 12 which is communicated with a wireless signal circuit of a power quantity calculating chip 16 under the power generation quantity of the natural gas. The solar energy wind power generation system is characterized in that a wind power generation end 3 which is communicated with a natural gas power generation end 2 in parallel is arranged on a main circuit 1, a solar power generation end 6 which is communicated with the wind power generation end 3 in parallel is arranged on the main circuit 1, a solar power generation electric quantity monitor 7 which is communicated with a solar power generation end 6 in series is arranged on the solar power generation end 6, a wind power generation electric quantity monitor 5 which is communicated with the wind power generation end 3 in series is arranged on the wind power generation end 3, a natural gas power generation electric quantity monitor 4 which is communicated with the natural gas power generation end 2 in series is arranged on the natural gas power generation end 2, the natural gas power generation electric quantity monitor 4, the wind power generation electric quantity monitor 5 and the solar power generation electric quantity monitor 7 are connected with a comprehensive monitoring.

The power of the user power end 10 is supplied through the natural gas power generation end 2, the wind power generation end 3 and the solar power generation end 6. The power consumption of the user is collected to the power consumption monitoring data acquisition chip 15 through the power consumption monitor 9 of the user, and the generated power is transmitted to the power monitoring data acquisition chip 15 through the natural gas power generation power monitor 4, the wind power generation power monitor 5 and the solar power generation power monitor 7, so that the real-time monitoring state is realized. And the stability of the power consumption of the user is ensured. The electric quantity monitoring data acquisition chip 15 transmits data to the electric quantity calculation chip 16 for the power off line of the natural gas power generation electric quantity, and the numerical values of the wind power generation electric quantity monitor 5 and the solar power generation electric quantity monitor 7 are subtracted from the numerical value of the user electric quantity monitor 9 to obtain the lowest value of the output electric quantity of the natural gas power generation electric quantity monitor 4. At this time, the signal transmission chip 17 feeds back the value to the controller 12, and the controller 12 adjusts the flow control valve 13 to realize the stable output of the power supply of the natural gas power generation end 2 to meet the power demand of the user power end 10. On the premise of ensuring the preferential use of green energy, the unnecessary consumption of natural gas energy is reduced, and the influence of the surplus electricity generation quantity on the operation cost is avoided.

In summary, the comprehensive energy monitoring device has the characteristics of good power supply stability, energy conservation, emission reduction, accurate monitoring and operation cost reduction. The problem of power supply volume and the unbalanced stability of use amount has been solved. Avoid the excessive consumption of energy, improve the utilization efficiency of energy and promote the sustainable development of energy.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without deviating from the basic characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In conclusion, the above description is only the specific embodiment of the present invention, but the structural features of the present invention are not limited thereto, and any person skilled in the art can make changes or modifications within the scope of the present invention.

Claims (4)

1. The utility model provides a comprehensive monitoring device of comprehensive energy, includes main circuit (1), main circuit (1) on be equipped with main circuit (1) looks circuit intercommunication with the user with electric end (10), its characterized in that: a comprehensive monitoring unit component (8) is arranged between the main circuit (1) and the user power utilization end (10), a user power utilization amount monitor (9) connected with the comprehensive monitoring unit component (8) through data signals is arranged between the comprehensive monitoring unit component (8) and the user power utilization end (10), the main circuit (1) is provided with a natural gas power generation end (2), the main circuit (1) is provided with a wind power generation end (3) communicated with the natural gas power generation end (2) through a parallel circuit, the main circuit (1) is provided with a solar power generation end (6) communicated with the wind power generation end (3) through a parallel circuit, the solar power generation end (6) is provided with a solar power generation amount monitor (7) communicated with a series circuit of the solar power generation end (6), and the wind power generation end (3) is provided with a wind power generation amount monitor (5) communicated with a series circuit of the wind power generation end (3), the natural gas power generation terminal (2) on be equipped with natural gas power generation electric quantity monitor (4) that natural gas power generation terminal (2) looks series circuit communicates, natural gas power generation electric quantity monitor (4), wind power generation electric quantity monitor (5), solar energy power generation electric quantity monitor (7) all be connected with comprehensive monitoring unit subassembly (8) looks data signal.

2. The integrated energy monitoring device according to claim 1, wherein: the integrated monitoring unit component (8) comprises an integrated monitoring base (14), wherein an electric quantity monitoring data acquisition chip (15) communicated with a main circuit (1) phase circuit is arranged on the integrated monitoring base (14), a signal transmission chip (17) communicated with the main circuit (1) phase circuit is arranged on the side of the electric quantity monitoring data acquisition chip (15), and a natural gas power generation electric quantity offline electric quantity calculation chip (16) communicated with the electric quantity monitoring data acquisition chip (15) phase circuit is arranged on the upper end of the signal transmission chip (17).

3. The integrated energy monitoring device according to claim 2, wherein: the natural gas power generation end (2) comprises a natural gas supply pipe (11), and a flow control valve (13) communicated with the natural gas supply pipe (11) through a flange type pipeline is arranged on the natural gas supply pipe (11).

4. The integrated energy monitoring device according to claim 3, wherein: and the upper end of the flow control valve (13) is provided with a controller (12) communicated with a wireless signal circuit of a natural gas power generation power off-line electric quantity calculation chip (16).

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