CN209786833U - Energy-saving and efficiency-increasing transformation device based on comprehensive energy service platform - Google Patents

Abstract

The utility model belongs to the technical field of energy equipment, especially, be an energy-conserving transformation of increasing efficiency device based on comprehensive energy service platform, including device main part, smart electric meter, multistage transformer, DC power supply and electrolysis trough, the device main part is separated for electric power box and electrolysis box, install electric power box one side smart electric meter, install the bottom of electric power box multistage transformer, install the opposite side of electric power box DC power supply, one row of charging socket is installed to the bottom surface of electric power box, install in the electrolysis box the electrolysis trough, install positive electrode and negative electrode in the electrolysis trough. The utility model discloses a set up intelligent regulation unit and wireless communication module and comprehensive energy service platform and be connected the exchange data, comprehensive energy service platform can in time adjust operating condition according to the feedback content, realizes remote monitoring, practices thrift manpower and materials, and economic benefits is high.

Description

Energy-saving and efficiency-increasing transformation device based on comprehensive energy service platform

Technical Field

The utility model relates to an energy equipment technical field specifically is an energy-conserving transformation device that increases based on comprehensive energy service platform.

background

A national grid company establishes provincial comprehensive energy service companies in 26 provincial companies, also establishes comprehensive energy service departments in national grid energy-saving companies and permission groups, actively arranges four blocks of energy efficiency services, multi-energy services such as power supply, heat supply, cold supply and the like, distributed energy and electric vehicle services, and provides a rapidly-developed comprehensive energy service in newly-issued notification about clear company comprehensive energy service development for southern grid companies, wherein the southern grid company mainly comprises new energy, energy-saving services, comprehensive utilization of energy, electric energy substitution, energy storage, scientific and technological equipment, innovation services, the Internet and other services.

The national grid power company concentrates on the operation and the reappearance of electric power data, how to utilize the electric power big data to realize the innovation of the energy consumption field, the value of the electric power big data is shown, firstly, the trend of the economy of China is analyzed by the power consumption of the society and the industry on the government level, strategic analysis is provided for the operation of the economy of the nation, secondly, on the enterprise level, the power consumption of the enterprise can reflect whether the operation condition of the enterprise is healthy or not, the energy consumption analysis and the energy consumption early warning can be carried out on the production of the enterprise through the monitoring of the electric power consumption data of the enterprise, the operation performance and the operation situation can be pre-judged, credit can be provided for the enterprise according to the electric power consumption condition of the enterprise, a credit report can be provided for the enterprise, for individuals, the electric power big data can provide the analysis of the household electric power consumption condition for families, energy-saving guidance is provided for the families, and the comprehensive energy service platform is a novel energy service mode, the method covers the aspects of energy planning design, engineering investment construction, multi-energy operation service, investment and financing service and the like, and covers equipment purchase, project evaluation, energy-saving manufacturing cost and equipment renting.

The existing energy-saving and efficiency-increasing device based on the comprehensive energy service platform also has the following problems:

1. the existing direct-current energy-saving efficiency-improving equipment charges an external electrical appliance, and when the external electrical appliance does not need to be charged, the direct-current energy-saving efficiency-improving equipment is in a power idle state, so that the utilization rate of the equipment and the electric power for maintaining the operation of the equipment are wasted;

2. Most of the existing direct current energy-saving and efficiency-increasing equipment is operated by a single machine and cannot realize linkage, so that the aim of energy saving and efficiency increasing cannot be well realized.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides an energy-conserving transformation device that increases based on comprehensive energy service platform has solved the problem that current base energy-conserving equipment that increases can not be fine solution electric energy surplus and can not carry out remote regulation when using.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving and efficiency-increasing transformation device based on a comprehensive energy service platform comprises a device main body, an intelligent ammeter, a multi-stage transformer, a direct-current power supply and an electrolytic bath, the device main body is divided into an electric power box body and an electrolytic box body, one side of the electric power box body is provided with the intelligent ammeter, the multi-stage transformer is arranged at the bottom end of the power box body, the direct-current power supply is arranged at the other side of the power box body, a row of charging jacks are arranged on the bottom surface of the power box body, the electrolytic bath is arranged in the electrolytic box body, the electrolytic bath is internally provided with a positive electrode and a negative electrode, alternating current commercial power enters the alternating current input end of the direct current power supply through the intelligent electric meter and the multistage transformer in sequence, and the direct current output end of the direct current power supply is electrically connected with the positive electrode, the negative electrode and an external charging socket through a relay.

As a preferred technical scheme of the utility model, the positive electrode with the negative electrode is respectively through first conversion solenoid valve turn-on connection aerostatic press, the export of aerostatic press is through second conversion solenoid valve turn-on connection hydrogen storage tank and oxygen storage tank.

As an optimal technical proposal of the utility model, the bottom of the electrolytic cell is provided with an electric heating plate, and the direct current power supply passes through the electric connection of the relay to the electric heating plate.

As an optimized technical proposal of the utility model, the hydrogen storage tank and the oxygen storage tank are respectively provided with an electronic barometer, and the electrolytic bath is provided with an electronic thermometer.

As an optimal technical scheme of the utility model, intelligent regulation unit and wireless communication module, two are installed to the avris gomphosis of electric power box the electron barometer and electron thermometer electric connection respectively the signal input part of intelligent regulation unit, the instruction output electric connection of intelligent regulation unit DC power supply's power regulation end first conversion solenoid valve switch on the connection aerostatic press the second conversion solenoid valve with the control end of electric heating dish.

As an optimized technical scheme of the utility model, the intelligent regulation unit passes through wireless communication module and comprehensive energy service platform are connected the exchange data.

(III) advantageous effects

Compared with the prior art, the utility model provides an energy-conserving synergistic transformation device based on comprehensive energy service platform possesses following beneficial effect:

1. This energy-conserving increase of efficiency transformation device based on comprehensive energy service platform, through setting up smart electric meter measurement electric energy, set up multi-stage transformer and adjust alternating voltage, set up DC power supply and convert the alternating current into the direct current, for electric automobile, electric bicycle and other small-size electrical apparatus provide the direct current, when external electrical apparatus need not charge, relay electric connection positive electrode and negative electrode are passed through to DC power supply direct current end, the electrolyte electrolysis hydrogen manufacturing in the direct current pair electrolysis cell, so DC power supply lasts work under the electric energy excess state, realize energy-conserving increase of efficiency transformation's purpose.

2. This energy-conserving synergistic transformation device based on comprehensive energy service platform is connected the exchange data through setting up intelligent regulation unit and wireless communication module and comprehensive energy service platform, and comprehensive energy service platform can in time adjust operating condition according to the feedback content, realizes remote monitoring, practices thrift manpower and materials, and economic benefits is high.

Drawings

FIG. 1 is a schematic view of the subjective structure of the present invention;

FIG. 2 is a schematic diagram of the main circuit and the gas circuit of the present invention;

Fig. 3 is a schematic diagram of the structure of the control circuit of the present invention.

In the figure: 1. a device main body; 2. an electric power box body; 3. an electrolytic tank body; 4. a smart meter; 5. A multi-stage transformer; 6. a direct current power supply; 7. an electrolytic cell; 8. a positive electrode; 9. a negative electrode; 10. a first switching solenoid valve; 11. a gas compressor; 12. a second switching solenoid valve; 13. a hydrogen storage tank; 14. an oxygen storage tank; 15. an electric heating plate; 16. an electronic barometer; 17. an electronic thermometer; 18. An intelligent adjusting unit; 19. and a wireless communication module.

Detailed Description

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-3, the present invention provides the following technical solutions: the utility model provides an energy-conserving increase transformation device based on comprehensive energy service platform, including device main part 1, smart electric meter 4, multistage transformer 5, DC power supply 6 and electrolysis trough 7, device main part 1 separates for power box 2 and electrolysis box 3, smart electric meter 4 is installed to power box 2 one side, multistage transformer 5 is installed to the bottom of power box 2, DC power supply 6 is installed to the opposite side of power box 2, a row of charging socket is installed to the bottom surface of power box 2, install electrolysis trough 7 in the electrolysis box 3, install positive electrode 8 and negative electrode 9 in the electrolysis trough 7, alternating current commercial power passes through smart electric meter 4 in proper order, multistage transformer 5 gets into the AC input of DC power supply 6, the DC output of DC power supply 6 passes through relay electric connection positive electrode 8, negative electrode 9 and outside charging socket, respectively to positive electrode 8, to positive electrode 8, The negative electrode 9 is used for delivering direct current to electrolyze to produce hydrogen and oxygen generator, and providing direct current for electric automobiles, electric bicycles and other small-sized electrical appliances through external charging sockets, thereby realizing comprehensive utilization of energy.

In the embodiment, the intelligent electric meter 4 adopts a DTSY1886 type electronic three-phase four-wire stepped electric energy meter, and is adapted to the use of an intelligent power grid and new energy in addition to the basic power consumption metering function of the traditional electric energy meter, and also has intelligent functions of power consumption information storage, bidirectional multi-rate metering function, user side control function, bidirectional data communication function of various data transmission modes, electricity larceny prevention function and the like, the type of the multi-stage transformer 5 is a BK-10KVA electric auto-transformer, the input end of the multi-stage transformer is 110V to 380V, the output end of the multi-stage transformer is 6V to 220V, the voltage is automatically adjusted according to requirements, the type of the DC power supply 6 is an HSPY-300 type adjustable DC rectifier, the DC power supply 6 obtains energy from the power grid, obtains a DC high voltage through high-voltage rectification and filtering, and supplies the DC/DC converter to obtain, the direct current is used for being connected into an external power supply to provide direct current for electric automobiles, electric bicycles and other small-sized electrical appliances, when the external electrical appliances do not need to be charged, the direct current end of the direct current power supply 6 is electrically connected with the positive electrode 8 and the negative electrode 9 through the relay, and the direct current electrolyzes the electrolyte in the electrolytic cell 7 to produce hydrogen, so that the functions of electric energy substitution and energy storage are realized, the direct current power supply 6 continuously works in the state of surplus electric energy, and the purpose of energy saving, efficiency improvement and transformation is realized.

Specifically, the positive electrode 8 and the negative electrode 9 are respectively connected with an air compressor 11 through a first switching solenoid valve 10, and the outlet of the air compressor 11 is connected with a hydrogen storage tank 13 and an oxygen storage tank 14 through a second switching solenoid valve 12.

In this embodiment, after the positive electrode 8 and the negative electrode 9 electrolyze water to obtain hydrogen and oxygen, the hydrogen and oxygen are respectively connected to the gas compressor 11 through the switch of the first switching solenoid valve 10, specifically, when the first switching solenoid valve 10 is opened, the positive electrode 8 is connected to the gas compressor 11, and at the same time, the second switching solenoid valve 12 is opened to connect the oxygen storage tank 14, so that the oxygen electrolyzed by the positive electrode 8 enters the gas compressor 11 and is compressed into the oxygen storage tank 14, when the first switching solenoid valve 10 is closed, the negative electrode 9 is connected to the gas compressor 11, and at the same time, the second switching solenoid valve 12 is closed to connect the hydrogen storage tank 13, so that the hydrogen electrolyzed by the negative electrode 9 enters the gas compressor 11 and is compressed into the hydrogen storage tank 13.

Specifically, the bottom end of the electrolytic cell 7 is provided with an electric heating plate 15, and the direct current power supply 6 is electrically connected with the electric heating plate 15 through a relay.

In this embodiment, the electric heating plate 15 is used to adjust the temperature of the electrolyte in the electrolytic cell 7 so as to achieve the highest efficiency of the electrolytic production of hydrogen and oxygen.

Specifically, an electronic gas pressure gauge 16 is mounted on each of the hydrogen tank 13 and the oxygen tank 14, and an electronic thermometer 17 is mounted in the electrolytic bath 7.

In this embodiment, the two electronic barometers 16 are respectively used for measuring the gas content in the hydrogen storage tank 13 and the oxygen storage tank 14, so as to facilitate observation of workers, and the electronic thermometer 17 is used for measuring the temperature of the electrolyte in the electrolytic cell 7, so as to adjust the temperature to the optimal temperature for hydrogen production and oxygen production by electrolysis.

Specifically, an intelligent adjusting unit 18 and a wireless communication module 19 are embedded in the side of the power box body 2, the two electronic barometers 16 and the electronic thermometers 17 are respectively and electrically connected with a signal input end of the intelligent adjusting unit 18, and an instruction output end of the intelligent adjusting unit 18 is electrically connected with a power adjusting end of the direct-current power supply 6, the first conversion electromagnetic valve 10, and a control end which is in conductive connection with the air compressor 11, the second conversion electromagnetic valve 12 and the electric heating plate 15.

In this embodiment, the intelligent adjusting unit 18 is a PLC module or MCU chip, the PLC module has a plurality of signal input ports and command output ports, and the PLC module has an analysis processing module and a setting program therein to calculate the received data and output corresponding control commands according to the calculation results, and is generally applied to automatic control of various electric appliances in industry, the MCU chip is a micro control unit, also called a single-chip microcomputer or a single-chip microcomputer, which properly reduces the frequency and specification of the central processing unit, and integrates the peripheral interfaces such as memory, counter, USB, a/D conversion, UART, PLC, DMA, and the like, even the LCD driving circuit on a single chip to form a chip-level computer, which performs different combination control for different applications, such as mobile phone, PC peripheral, remote controller, to automotive electronics, industrial stepping motor, robot control, and the like, the figure of MCU can be seen, so the utility model can be effectively controlled.

Specifically, the intelligent adjusting unit 18 is connected with the comprehensive energy service platform through the wireless communication module 19 to exchange data,

in this embodiment, wireless communication module 19 is WIFI module or TD-SDMA communication module, and two kinds of modules are current ripe wireless communication mode, have that transmission signal is stable, propagation range is wide to and a series of advantages such as the expense is low, the order the utility model provides an intelligent regulation unit 18 is connected with comprehensive energy service platform, and comprehensive energy service platform can in time adjust operating condition according to the feedback content.

In the embodiment, the smart meter 4, the multi-stage transformer 5, the direct current power supply 6, the electrolytic cell 7, the smart adjusting unit 18 and the wireless communication module 19 are known technologies that are already disclosed and widely used in daily life.

The utility model discloses a theory of operation and use flow: the direct current power supply 6 obtains energy from a power grid, a direct current high voltage is obtained through high-voltage rectification and filtering, 300V stable direct current is obtained at the output end of a DC/DC converter, the direct current is used for being connected to an external power supply to provide direct current for an electric automobile, an electric bicycle and other small electric appliances, when the external electric appliances do not need to be charged, the direct current end of the direct current power supply 6 is electrically connected with a positive electrode 8 and a negative electrode 9 through a relay, the direct current electrolyzes electrolyte in an electrolytic cell 7 to produce hydrogen, so that the direct current power supply 6 continuously works in a state of surplus electric energy to achieve the purposes of energy saving and efficiency improvement, in the process, when a first conversion electromagnetic valve 10 is opened, the positive electrode 8 is communicated with an air compressor 11, and simultaneously a second conversion electromagnetic valve 12 is opened to communicate with an oxygen storage tank 14, then oxygen electrolyzed by the positive electrode 8 enters the air, when the first switching solenoid valve 10 is closed, the negative electrode 9 is conducted with the gas compressor 11, and simultaneously the second switching solenoid valve 12 is closed to conduct the hydrogen storage tank 13, then the hydrogen gas electrolyzed by the negative electrode 9 enters the gas compressor 11 and is compressed into the hydrogen storage tank 13.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. the utility model provides an energy-conserving synergy transformation device based on comprehensive energy service platform, includes device main part (1), smart electric meter (4), multi-stage transformer (5), DC power supply (6) and electrolysis trough (7), its characterized in that: the device main body (1) is divided into an electric power box body (2) and an electrolytic box body (3), the intelligent electric meter (4) is arranged on one side of the electric box body (2), the multi-stage transformer (5) is arranged at the bottom end of the electric box body (2), the other side of the electric box body (2) is provided with the direct current power supply (6), the bottom surface of the electric box body (2) is provided with a row of charging sockets, the electrolytic tank (7) is arranged in the electrolytic tank body (3), the positive electrode (8) and the negative electrode (9) are arranged in the electrolytic tank (7), alternating current commercial power enters the alternating current input end of the direct current power supply (6) through the intelligent electric meter (4) and the multi-stage transformer (5) in sequence, the direct current output end of the direct current power supply (6) is electrically connected with the positive electrode (8), the negative electrode (9) and an external charging socket through a relay.

2. The energy-saving efficiency-increasing transformation device based on the comprehensive energy service platform as claimed in claim 1, wherein: the positive electrode (8) and the negative electrode (9) are respectively connected with an air compressor (11) in a conduction mode through a first conversion electromagnetic valve (10), and an outlet of the air compressor (11) is connected with a hydrogen storage tank (13) and an oxygen storage tank (14) in a conduction mode through a second conversion electromagnetic valve (12).

3. The energy-saving efficiency-increasing transformation device based on the comprehensive energy service platform as claimed in claim 2, wherein: the bottom of electrolysis trough (7) is equipped with electric heating plate (15), DC power supply (6) pass through relay electric connection electric heating plate (15).

4. the energy-saving efficiency-increasing transformation device based on the comprehensive energy service platform as claimed in claim 3, wherein: and the hydrogen storage tank (13) and the oxygen storage tank (14) are respectively provided with an electronic barometer (16), and an electronic thermometer (17) is arranged in the electrolytic bath (7).

5. The energy-saving efficiency-increasing transformation device based on the comprehensive energy service platform as claimed in claim 4, wherein: intelligent regulation unit (18) and wireless communication module (19), two are installed to the avris gomphosis of electric power box (2) electron barometer (16) with electron thermometer (17) electric connection respectively the signal input part of intelligent regulation unit (18), the instruction output electric connection of intelligent regulation unit (18) the power regulation end of DC power supply (6) first conversion solenoid valve (10) switch on connection aerostatic press (11) second conversion solenoid valve (12) with the control end of electric heating dish (15).

6. The energy-saving efficiency-increasing transformation device based on the comprehensive energy service platform as claimed in claim 5, wherein: the intelligent adjusting unit (18) is connected with the comprehensive energy service platform through the wireless communication module (19) to exchange data.