CN211670666U

CN211670666U - Fuel-free power generation commercial power parallel connection machine

Info

Publication number: CN211670666U
Application number: CN202020126164.XU
Authority: CN
Inventors: 曾怀屏
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-01-20
Filing date: 2020-01-20
Publication date: 2020-10-13
Anticipated expiration: 2030-01-20

Abstract

A fuel-free power generation utility parallel line, comprising: the circuit switching device is provided with a plurality of connection sequence endpoints, a timing switching device and a controller, the timing switching device can set a switching time, and the switching time is used for switching the connection sequence endpoints to be connected with the scheduled time of a power supply end and a charging end; one end of the active power device is provided with an active power generation device; the energy supply power device is provided with a power supply and generation device at one end, and the power supply and generation device is connected with at least one power supply module; therefore, the present invention provides a cyclic power generation device structure, and more particularly, to a power generation device that can save energy and generate no fuel by using continuous operation and alternate charging and discharging during power generation.

Description

Fuel-free power generation commercial power parallel connection machine

Technical Field

The present invention relates to a fuel-free power generation parallel-connection machine, and more particularly to a power generation device that utilizes continuous operation and alternate charging and discharging to achieve energy saving and fuel-free power generation.

Background

The general power generation device is used for providing power for equipment, drives a generator through equipment operation to generate power, most of the kinetic energy is provided through a fuel engine, the rotating kinetic energy is used for driving the generator to generate current, and the current and the voltage are controlled within a preset range through modes of rectification, voltage stabilization and the like, so that the unstable current generated by the unstable rotating speed of the generator is avoided; common power generation equipment is used for providing temporary energy in an emergency state or converting part of kinetic energy of an internal combustion engine into electric energy, so that the internal combustion engine can provide power and electric power simultaneously; the emergency generator is usually applied to buildings, factories, general households or fire-fighting equipment, and needs to be regularly tested and maintained due to long-term non-use, so that the situation that the normal power generation cannot be realized due to faults when the emergency generator is used is avoided, particularly, the emergency generator is used for a fuel oil generator on the fire-fighting equipment, when the fire-fighting equipment needs to use electric power, the emergency generator can supply power to the generator so as to avoid that machinery needing electric power operation, such as a fire-fighting smoke exhaust fan, a water sprinkling pump and the like, cannot be operated due to general circuit disconnection caused by combustion, so that the fire-fighting smoke exhaust fan, the water sprinkling pump and the like can normally operate when a fire alarm occurs, and further, remote control equipment such as.

In view of the above, the power generation system is only started when necessary, and it is easy to start the standby power when the system is not able to be clearly judged whether the system can operate normally, especially when the market has a power failure, to evacuate customers smoothly or maintain normal operation of the shopping mall in a short time, the instant start load is large, parts are easy to wear, and the shopping mall is not used continuously for a long time, the temporary power supply of the generator set can be carried out or not, particularly, in the process of temporary power failure, the fuel supply reserve of the generator set can be supplied for a certain time, in practical application, the crowd can be evacuated, but in case of power failure in large shopping malls and no disaster, the power is still processed in the normal operation mode, and only part of the power is limited to reduce the operation loss caused by power failure, however, limiting the power supply to a certain extent still causes operational impact, which is a big disadvantage problem, and needs to be improved.

Disclosure of Invention

The utility model discloses a main objective lies in: it provides a fuel-free power generation commercial power parallel connection, especially a power generation device which uses continuous operation and alternate charging and discharging to achieve the function of energy-saving fuel-free power generation device in the power generation process.

In order to achieve the above object, the utility model relates to a no fuel electricity generation commercial power parallel machine which characterized in that: comprises the following steps:

the circuit switching device is provided with a plurality of connection sequence end points, a timing switching device and a controller, the controller is electrically connected with the timing switching device in an electrically connected state, the controller controls the timing switching device to enable the timing switching device to set a switching time, the switching time is used for switching the time scheduled by connecting each connection sequence end point to a power supply end and a charging end, each connection sequence end point is connected to the power supply end or the charging end in a fixed time and sequence, and each connection sequence end point and each storage battery are in an electrically connected state;

the active power device is electrically connected with the power supply end, one end of the active power device is provided with an active power generation device, the active power generation device is electrically connected with the charging end, the active power generation device converts kinetic energy provided by the active power device into electric energy, and the charging end charges the storage battery;

and the energy supply power device is electrically connected with the power supply end, and one end of the energy supply power device is provided with a power supply and generation device which is connected with at least one power supply module so as to connect the power supply and generation device to the power equipment to achieve the power supply effect.

Because the utility model discloses a no fuel electricity generation commercial power parallel connection, its efficiency lies in: the circuit switching device is provided with a plurality of connection sequence end points, a timing switching device and a controller, the controller is electrically connected with the timing switching device in an electrically connected state, the controller controls the timing switching device to enable the timing switching device to set a switching time, the switching time is used for switching the time scheduled by connecting each connection sequence end point to a power supply end and a charging end, each connection sequence end point is connected to the power supply end or the charging end in a fixed time and sequence, and each connection sequence end point and each storage battery are in an electrically connected state; the active power device is electrically connected with the power supply end, one end of the active power device is provided with the active power generation device, the active power generation device is electrically connected with the charging end, the active power generation device converts kinetic energy provided by the active power device into electric energy, and the charging end charges the storage battery; the energy supply power device is electrically connected with the power supply end, the power supply and generation device is arranged at one end of the energy supply power device, the power supply and generation device is connected with each power supply module, so that the power supply and generation device can be connected with power equipment to achieve the power supply effect, and the power equipment can be machinery, an elevator, a switch, a fire-fighting power system and other equipment; therefore, the utility model provides a fuel-free power generation commercial power parallel connection, in particular to a power generation device which has the function of energy saving and fuel-free by utilizing continuous operation and alternate charge and discharge in the power generation process.

Drawings

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

Fig. 2 is a block diagram of a preferred embodiment of the present invention.

Detailed Description

First, please refer to fig. 1 and fig. 2, which illustrate the fuel-free power generation utility power parallel connection of the present invention; comprises the following steps: a power supply and storage module 1, an active power device 2, an active power generation device 3, an energy supply power device 4, a power supply and generation device 5 and a power supply module 6; wherein:

the power supply and storage module 1 is provided with a line trip device 11 and a plurality of storage batteries 12, the line trip device 11 is provided with a plurality of connection sequence terminals 111, a timing trip converter 112 and a controller 113, the controller 113 is electrically connected to the timing trip converter 112 in an electrically connected state, the controller 113 controls the timing trip converter 112 to enable the timing trip converter 112 to set a trip time 1121, the trip time 1121 is used for switching the connection sequence terminals 111 to a power supply terminal 13 and a charging terminal 14 at a scheduled time, the connection sequence terminals 111 are connected to the power supply terminal 13 or the charging terminal 14 in a fixed time and sequence, and the connection sequence terminals 111 are electrically connected to the storage batteries 12;

the active power device 2 is electrically connected to the power supply terminal 13, the active power device 3 is disposed at one end of the active power device 2, the active power device 3 is electrically connected to the charging terminal 14, the active power device 3 converts kinetic energy provided by the active power device 2 into electric energy, and the charging terminal 14 charges the battery 12;

the energy supply power device 4 is electrically connected with the power supply end 13, one end of the energy supply power device 4 is provided with the power supply and generation device 5, the power supply and generation device 5 is connected with each power supply module 6, and the power supply and generation device 5 is connected with power equipment to achieve the power supply effect, wherein the power equipment can be machinery, an elevator, a switch, a fire-fighting power system and other equipment;

with the above structure, the following is further described:

the timing switch 112 is composed of a line switch module 1123 and a command module 1124, the command module 1124 sets the switch time, and sends current to the line switch module 1123 after the switch time, so that the line switch module 1123 switches the line;

the command module 1124 further has a delay time 1122, in which the delay time 1122 switches the line of the charging terminal 14 and connects the power supply terminal 13 in parallel with two connection sequence end points 111 when the line is switched, and after the delay time 1122, the power supply terminal 13 is electrically disconnected from one of the connection sequence end points 111;

wherein the jumping time 1121 is 300-600 seconds, and the delay time 1122 is 8-10 seconds, so that each storage battery 12 is discharged and charged on average, thereby preventing each storage battery 12 from being damaged due to over-discharge or over-charge;

wherein each storage battery 12 is provided with a status recording module 121 for recording the charging/discharging status and the battery life status of each storage battery 12, and the status recording module 121 can further automatically adjust the jump time 1121 according to the status of each storage battery 12;

the power supply and generation device 5 is a permanent magnet direct current generator, and each power supply module 6 is an inverter, so that each power supply module 6 can be directly connected to a switch, and a power supply system can recover power supply;

the active power generation device 3 is a dc generator, and a voltage stabilizing module 7 is further disposed between the active power generation device 3 and the charging terminal 14, so that the active power generation device 3 can stably provide dc power;

each storage battery 12 is arranged in a detection device 8, the detection device 8 is provided with a plurality of accommodating grooves 81, each accommodating groove 81 is provided with a positive terminal 811 and a negative terminal 812, each storage battery 12 is arranged in each accommodating groove 81 and is electrically connected with each positive terminal 811 and each negative terminal 812, the detection device 8 is used for detecting the state of the storage battery 12 and prompting to replace the storage battery 12, and the accommodating groove 81 is stopped when the storage battery 12 fails, so that the line switching device 11 automatically skips the failed storage battery 12;

specifically, the detecting device 8 is provided with at least one spare accommodating slot 82, so that when the line-jumping device 11 automatically jumps over the failed storage battery 12, the storage battery 12 in each spare accommodating slot 82 is replaced by the line-jumping device, and each spare accommodating slot 82 is also provided with a positive terminal 821 and a negative terminal 822;

each power supply module 6 is a commercial power parallel connector, each power supply module 6 is changed according to the KW value and voltage of the power supply and generation device 5 according to the needs of the site, and the commercial power parallel connector of each power supply module 6 is mainly used for supplying power conversion and commercial power in parallel to the places with power consumption;

each power supply module 6 can further supply power by each storage battery 12 or mechanical or physical energy methods such as solar power generation, wind power generation, hydraulic power generation, thermal power generation and the like, an inverter is arranged between each storage battery 12 and each power supply module 6, direct current provided by each storage battery 12 is converted into alternating current, the power supply module 6 can provide alternating current and is connected in parallel with a power supply, so that the current is returned to an equipment end, and the equipment end can provide power by using each storage battery 12;

the active power device 2 forms a No. 1 generator with the active power generation device 3, the energy supply power device 4 and the power supply power generation device 5 form a No. 2 generator, a power supply generated by the No. 1 generator is temporarily changed into a 220V alternating current generator according to the requirement of a site, and the KW value and the rotating speed of the No. 1 generator are temporarily changed according to the requirement of the site; the starting motor power supply of the No. 1 generator is from the external storage battery group, the alternating current and direct current of the starting motor power supply of the No. 1 generator can be changed according to the field requirement, the size, load and high and low rotating speed of the starting motor of the No. 1 generator are changed according to the field requirement of the No. 1 generator, and the power supply generated by the No. 1 generator is mainly used for charging the storage battery group and the starting motor of the No. 2 generator;

the power supply sent by the No. 2 generator is temporarily changed into a 24V direct current generator according to the field requirement, the KW value and the rotating speed of the No. 2 generator are temporarily changed according to the field requirement, the power supply of the starting motor of the No. 2 generator is supplied by the No. 1 generator, the size, the load and the high and low rotating speed of the starting motor of the No. 2 generator are changed according to the field requirement of the No. 2 generator, and the power supply sent by the No. 2 generator is mainly supplied to a commercial power parallel device of each power supply module 6;

after each storage battery 12 is detected to be fully charged, the No. 1 and No. 2 generator sets can automatically stop, power is supplied to the inverter through the storage battery set, then the inverter supplies power to each power supply module 6, and then power is supplied to the power switch box at the place where power consumption is needed through each power supply module 6;

when the storage batteries 12 detect that the power consumption reaches a rated value, the No. 1 and No. 2 generator sets can be automatically started, and all the set functions are achieved after the generator sets are started;

borrow by the above-mentioned content to the utility model discloses no fuel electricity generation commercial power parallel connection's user state explanation contains: a power supply and storage module 1, an active power device 2, an active power generation device 3, an energy supply power device 4, a power supply and generation device 5 and a power supply module 6; wherein: the power supply and storage module 1, the active power device 2, the active power generation device 3, the energy supply and power device 4, the power supply and power generation device 5 and the power supply module 6 have the respective structures already described, and therefore, the following description is omitted:

firstly, the timing converter 112 is composed of a line conversion module 1123 and a command module 1124, the command module 1124 sets the conversion time 1121, and sends current to the line conversion module 1123 after the conversion time 1121, so that the line conversion module 1123 switches the line; the command module 1124 further has a delay time 1122, in which the delay time 1122 switches the line of the charging terminal 14 and connects the power supply terminal 13 in parallel with two connection sequence end points 111 when the line is switched, and after the delay time 1122, the power supply terminal 13 is electrically disconnected from one of the connection sequence end points 111; the jump time 1121 is 300-600 seconds, and the delay time 1122 is 8-10 seconds, so that each storage battery 12 is discharged and charged on average, thereby avoiding the damage of each storage battery 12 due to over-discharge or over-charge;

furthermore, each storage battery 12 is disposed in a detection device 8, the detection device 8 is disposed with a plurality of receiving slots 81, each receiving slot 81 is disposed with a positive terminal 811 and a negative terminal 812, each storage battery 12 can be disposed in each receiving slot 81 and electrically connected to each positive terminal 811 and each negative terminal 812, the detection device 8 detects the state of the storage battery 12 and prompts to replace the storage battery 12, and the receiving slot 81 is disabled when the storage battery 12 fails, so that the line switching device 11 automatically skips the failed storage battery 12; furthermore, the detecting device 8 is provided with at least one spare accommodating slot 82, so that when the line-jumping device 11 automatically jumps over the failed storage battery 12, the storage battery 12 in each spare accommodating slot 82 is replaced by the line-jumping device, and each spare accommodating slot 82 is also provided with a positive terminal 821 and a negative terminal 822;

finally, because the utility model discloses a no fuel electricity generation commercial power parallel connection, its efficiency lies in: the power supply and storage module 1 is provided with a line jumper 11 and a plurality of storage batteries 12, the line jumper 11 is provided with a plurality of connection sequence terminals 111, a timing jumper 112 and a controller 113, the controller 113 is electrically connected to the timing jumper 112 in an electrically connected state, the controller 113 controls the timing jumper 112 to enable the timing jumper 112 to set a jumper time 1121 on the timing jumper 112, the jumper time 1121 is used for switching the connection sequence terminals 111 to a power supply terminal 13 and a charging terminal 14 at a scheduled time, the connection sequence terminals 111 are connected to the power supply terminal 13 or the charging terminal 14 at a fixed time and in a sequence, and the connection sequence terminals 111 are electrically connected to the storage batteries 12; the active power device 2 is electrically connected to the power supply terminal 13, the active power device 3 is disposed at one end of the active power device 2, the active power device 3 is electrically connected to the charging terminal 14, the active power device 3 converts kinetic energy provided by the active power device 2 into electric energy, and the charging terminal 14 charges the battery 12; the energy supply power device 4 is electrically connected with the power supply end 13, one end of the energy supply power device 4 is provided with the power supply and generation device 5, the power supply and generation device 5 is connected with each power supply module 6, and the power supply and generation device 5 is connected with power equipment to achieve the power supply effect, wherein the power equipment can be machinery, an elevator, a switch, a fire-fighting power system and other equipment; therefore, the utility model provides a fuel-free power generation commercial power parallel connection, in particular to a power generation device which has the function of energy saving and fuel-free by utilizing continuous operation and alternate charge and discharge in the power generation process.

In summary, the fuel-free power generation mains supply parallel connection is not seen in books and periodicals or published for use, and is in good line with the requirements of novel patent applications. The foregoing is directed to embodiments of the present invention and technical principles thereof, and other changes and modifications which come within the spirit of the invention and the scope of the appended claims.

Claims

1. A non-fuel power generation commercial power parallel connection machine is characterized in that: comprises the following steps:

2. The unfueled power generation utility power parallel online of claim 1, wherein: the timing switcher is composed of a circuit switching module and a command module, and the command module is used for setting the switching time.

3. The unfueled power generation utility power parallel online of claim 2, wherein: the instruction module is further provided with a delay time, the delay time is used for firstly switching the charging end circuit and connecting the power supply end with two connection sequence endpoints when switching the circuit, and the power supply end is disconnected from the electrical connection with one of the connection sequence endpoints after the delay time.

4. The unfueled power generation utility power parallel online of claim 3, wherein: wherein the jumping time is 300-600 seconds, and the delay time is 8-10 seconds.

5. The unfueled power generation utility power parallel online of claim 1, wherein: wherein each storage battery is provided with a state recording module.

6. The unfueled power generation utility power parallel online of claim 1, wherein: the power supply and generation device is a permanent magnet direct current generator, and each power supply module is an inverter.

7. The unfueled power generation utility power parallel online of claim 1, wherein: wherein the active power generator is a DC generator, and a voltage stabilizing module is further disposed between the active power generator and the charging terminal.

8. The unfueled power generation utility power parallel online of claim 1, wherein: each storage battery is arranged in a detection device, the detection device is provided with a plurality of accommodating grooves, and each accommodating groove is internally provided with a positive terminal and a negative terminal, so that each storage battery is arranged in each accommodating groove and is electrically connected with each positive terminal and each negative terminal.

9. The unfueled power generation utility power parallel online of claim 8, wherein: the detection device detects the state of the storage battery and prompts the storage battery to be replaced, and the storage tank is stopped when the storage battery fails, so that the line switching device automatically skips the failed storage battery.

10. The unfueled power generation utility power parallel online of claim 9, wherein: the detection device is provided with at least one standby accommodating groove, and when the line jumping device automatically jumps over the failed storage battery, the storage battery in each standby accommodating groove is used for replacement.