TWM595362U - Fuel-free power generator in parallel connection with mains - Google Patents

Abstract

A fuel-free power generation and power connection, which includes: a power storage module, is provided with a line jump device and a plurality of storage batteries, the line jump device is provided with a plurality of connection sequence endpoints, a timing jumper and A controller, the timing jumper can set a jump time, the jump time is the time scheduled by the end of each connection sequence to connect to a power supply end and a charging end; an active power device, one end There is an active power generation device; an energy supply power device, and a power supply power generation device is provided at one end, the power supply power generation device is connected to at least one power supply module; thereby, a structure of a circulating power generation device is provided, especially a power generation device Use continuous operation and charge and discharge in turn to achieve the function of energy-saving and fuel-free power generation device.

Description

Non-fuel power generation and online

This creation is about a kind of fuel-free power generation and online connection, especially one that uses continuous operation and alternate charge and discharge in the power generation process to achieve the function of energy-saving and fuel-free power generation device.

According to press, the conventional power generation device is a device for providing electrical energy, and the generator is driven by the operation of the device to generate electricity, and most of the kinetic energy is provided through the fuel engine, and the rotary kinetic energy is used to drive the generator to generate current and through rectification. , Voltage stabilization and other methods to control the current and voltage within a predetermined range to avoid the unstable speed of the generator to generate unstable current; common power generation equipment is used to provide temporary energy in an emergency state, or used to convert part of the kinetic energy of the internal combustion engine into Electrical energy, which enables the internal combustion engine to provide both power and electricity; emergency generators are usually used in buildings, factories, general homes or fire equipment. Long-term non-use causes regular testing and maintenance to avoid failures when they are needed. Can not generate electricity normally, especially the fuel oil generator used in fire fighting equipment. When the fire fighting equipment needs to use electricity, in order to avoid the general circuit disconnection caused by combustion, the fire exhaust fans, sprinkler pumps and other machinery that require electricity to operate cannot operate It will be powered by a generator to ensure that the fire protection system can operate normally when a fire alarm occurs, so that the remote control equipment such as sensors, alarms and sprinklers of the fire protection system can be used normally.

However, as far as the above-mentioned knowledge is concerned, the power generation system is only started when necessary, and it is easy to clearly determine whether the system can operate normally, especially when the store is powered off, backup power will be activated to smoothly evacuate customers or maintain the normal operation of the store in a short time. , The momentary starting load is large, which is easy to cause wear of the machine parts. It has not been used continuously for a long time. It is still doubtful whether the unit can temporarily supply power to the load. Especially during the temporary power outage, the fuel supply reserve of the generator set can only supply a certain period of time. In practical applications, it is indeed enough to evacuate people, but in the case of power outages, large-scale shopping malls are still handled in the normal operating mode in the absence of disasters, and only part of the power supply is restricted to reduce the operational losses caused by the power outage. However, the restrictions Part of the power supply will still cause operational impact, which is a major drawback and needs to be improved.

This creation provides a fuel-free power generation and online connection, which includes: a power storage module, which is equipped with a line jump device and a plurality of batteries, the line jump device is provided with a plurality of connection sequence endpoints, a timing jump A switch and a controller, the controller is electrically connected to the timing jumper in an electrically connected state, so that the controller can control the timing jumper, so that the timing jumper can set a jump time , The switching time is the time scheduled for each connection sequence end point to be connected to a power supply end and a charging end, so that each connection sequence end point is connected to the power supply end or the charging end in a fixed time and order, The end points of each connection sequence are in an electrically connected state with each storage battery; an active power device is in an electrically connected state with the power supply end, and an active power generating device is provided at one end of the active power device, the active power generating device It is electrically connected to the charging end. The active power generation device converts the kinetic energy provided by the active power device into electrical energy, and charges the battery from the charging end; an energy supply power device is connected to the power supply end It is in an electrically connected state, and a power generating device is provided at one end of the power supply power device, the power generating device is connected to at least one power supply module to make the power supply The power generating device can be connected to power equipment to achieve power supply efficiency.

The timing jumper is composed of a line jump module and a command module. The command module is used to set the jump time, and the current is sent to the line jump module after the jump time , So that the line switching module switches the line; wherein the command module can be further provided with a delay time, the delay time is to switch the charging end line first when switching the line, so that the power supply end is connected to two connection serial ends Point, and disconnect the electrical connection between the power supply terminal and one of the connection sequence endpoints after the delay time; wherein the jump time is 300~600 seconds, and the delay time is 8~10 seconds; Each battery system is provided with a state recording module to record the charge and discharge of each battery and battery life status. The state recording module can automatically adjust the jump time according to the state of each battery; wherein the power generation device is permanent magnet A DC generator is presented, and each power supply module is an inverter; wherein the active power generating device is a DC generator, and a voltage stabilizing module is further provided between the active power generating device and the charging terminal, so that the active power generating device can Stable supply of direct current; each battery is set in a detection device, the detection device is provided with a plurality of accommodating slots, each accommodating slot is provided with a positive terminal and a negative terminal, so that each battery can be assembled in Each storage slot is electrically connected to each positive terminal and each negative terminal; the detection device detects the state of the battery and can prompt to replace the battery, and the storage slot is disabled when the battery fails , So that the line jumper automatically skips the faulty battery; wherein the detection device is provided with at least one spare accommodating slot, so that when the line jumper automatically skips the faulty accumulator, the spare accommodating slots can be used Within the battery replacement.

The main purpose of this creation is to provide a kind of fuel-free power generation and online connection, especially Refers to a type that uses continuous operation and takes turns to charge and discharge in the power generation process to achieve the function of an energy-saving and fuel-free power generation device.

Since the fuel-free power generation of this creation is connected to the mains, its effect is that: through the power supply and storage module, a line jump device and a plurality of batteries are provided, and the line jump device is provided with a plurality of connection sequence endpoints, A timing jumper and a controller, the controller is electrically connected to the timing jumper in an electrically connected state, so that the controller can control the timing jumper, so that the timing jumper can be set to a Jump time, the jump time is the time scheduled for each connection sequence end to jump connect to a power supply end and a charging end, so that each connection sequence end point is connected to the power supply end or the power supply in a fixed time and order The charging end, and the end points of each connection sequence are electrically connected to each battery; the active power device is electrically connected to the power supply end, and the active power generation device is provided at one end of the active power device, The active power generation device is electrically connected to the charging end. The active power generation device uses the kinetic energy provided by the active power device to convert into electrical energy, and the battery is charged by the charging end; the energy supply power device is It is electrically connected to the power supply end, and the power supply power generation device is provided at one end of the power supply power device. The power supply power generation device is connected to each power supply module so that the power supply power generation device can be connected to power equipment to achieve Power supply efficiency, its power equipment can be machinery, elevators, electric gates, fire power systems and other equipment; by this, it provides a fuel-free power generation and online power supply, especially a kind of power generation process that uses continuous operation and turns to charge and discharge in order to achieve Those who have the function of energy-saving and fuel-free power generation devices.

〔This creation〕

1: Power storage module

11: Line jumper

111: connection sequence endpoint

112: timer jumper

1121: Jump time

1122: Delay time

1123: Line switching module

1124: Command module

113: Controller

12: Battery

121: Status record module

13: power supply terminal

14: Charging terminal

2: Active power plant

3: Active power generation device

4: Power supply device

5: Power generation device

6: Power supply module

7: Voltage regulator module

8: Detection device

81: accommodating slot

811: positive extreme

812: negative terminal

82: spare storage slot

821: Positive extreme

822: negative terminal

Figure 1 is a block diagram of this creation.

Figure 2 is an implementation block diagram of a preferred embodiment of the authoring.

First of all, please refer to Figure 1 and Figure 2 for the creation of "fuel-free power generation and online"; it includes: a power storage module 1, an active power device 2, an active power generation device 3, a Energy supply power device 4, a power generation device 5 and a power supply module 6; wherein: the power supply storage module 1, is provided with a line jump device 11 and a plurality of batteries 12, the line jump device 11 is provided A plurality of connection sequence endpoints 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, so that the controller 113 can control the timing Jumper 112, so that the timer jumper 112 can set a jump time 1121, the jump time 1121 is connected to a power supply terminal 13 and a charging terminal 14 by the end 111 of each connection sequence Time, so that each connection sequence endpoint 111 is connected to the power supply terminal 13 or the charging terminal 14 in a fixed time and sequence, and each connection sequence endpoint 111 is electrically connected to each battery 12; the active power device 2, It is in an electrically connected state with the power supply terminal 13, and the active power generation device 3 is provided at one end of the active power device 2, the active power generation device 3 is in an electrically connected state with the charging end 14, the active power generation device 3 uses the kinetic energy provided by the active power device 2 to be converted into electrical energy, and the battery 12 is charged by the charging terminal 14; the energy supply power device 4 is electrically connected to the power supply terminal 13 and is connected to the At one end of the power supply power device 4, the power supply and power generation device 5 is provided. The power supply and power generation device 5 is connected to each power supply module 6 so that the power supply and power generation device 5 can be connected to power equipment to achieve power supply efficiency. The power equipment can be Machinery, elevators, electric gates, fire power systems and other equipment; with the above structure, here is further explained as follows: the timing jumper 112 mentioned above is a line jump module 1123 and a command module 11 24, the command module 1124 is used to set the jump time, and the current is sent to the line jump module 1123 after the jump time, causing the line jump module 1123 to switch the line; wherein the command mode The group 1124 may further be provided with a delay time 1122 which is used to switch the charging terminal 14 line and the power supply terminal 13 in parallel with the two connection sequence endpoints 111 when the circuit is switched, and the delay time 1122 passes Then disconnect the electrical connection between the power supply terminal 13 and one of the end points 111 of the connection sequence; wherein the jump time 1121 is 300 to 600 seconds, and the delay time 1122 is 8 to 10 seconds, making each battery 12 average Discharge and charge to avoid the damage of each battery 12 due to over-discharge or over-charge; each battery 12 is provided with a state recording module 121 to record the charge and discharge of each battery 12 and battery life status, the state recording module 121 can also automatically adjust the jump time 1121 according to the state of each battery 12; the power supply generating device 5 described above is presented as a permanent magnet DC generator, and each power supply module 6 is an inverter, so that each power supply module 6 can Directly connected to the electric gate, causing the power supply system to return power; the aforementioned active power generating device 3 is a DC generator, and a voltage stabilizing module 7 is further provided between the active power generating device 3 and the charging terminal 14 to enable the active power generating device 3 It can provide DC power stably; the foregoing storage batteries 12 are provided in a detection device 8 which is provided with a plurality of accommodating slots 81, each of which is provided with a positive pole 811 and a negative pole 812 So that each battery 12 can be assembled in each storage slot 81 and electrically connected with each positive terminal 811 and each negative terminal 812, the detection device 8 is used to detect the state of the battery 12, and can prompt to replace the battery 12 , And the storage slot 81 is deactivated when the battery 12 fails, causing the line switching device 11 to automatically skip the failed battery 12; In particular, the detection device 8 is provided with at least one spare accommodating slot 82, so that when the line switching device 11 automatically skips the faulty storage battery 12, it can be replaced by the storage battery 12 in each spare accommodating slot 82. Each spare accommodating slot 82 is also provided with a positive terminal 821 and a negative terminal 822; the foregoing power supply modules 6 are mains parallels, and each power supply module 6 is based on the KW value and voltage of the power generation device 5 As a modification, the mains parallel of each power supply module 6 mainly converts the power supply and the mains in parallel to the power consumption. The aforementioned power supply modules 6 can also use the batteries 12 or solar power, wind power, Power is provided by mechanical or physical energy sources such as hydroelectric power generation and thermal power generation. Inverters are installed between each battery 12 and each power supply module 6 to convert the DC power provided by each battery 12 to AC power so that the power supply module 6 can provide AC power. , And connected in parallel to the power supply, so that the current is returned to the equipment side, for the equipment side can use each battery 12 to provide power; the active power device 2 in the active power generation device 3 constitutes the No. 1 generator, the power supply power device 4. The No. 2 generator is formed with the 5th power generation device. The power generated by No. 1 generator is determined according to the needs of the site. It is tentatively changed to 220V AC generator. The KW value and speed of No. 1 generator are determined by the site. It is scheduled to be changed; the power of the starter motor of No. 1 generator comes from the external battery pack. The power of the starter motor of No. 1 generator can be changed according to the needs of the site. The size and load of the starter motor of No. 1 generator 3. The high and low speeds are subject to change according to the requirements of the No. 1 generator site. The power supplied by the No. 1 generator is mainly used for charging the storage battery group and the starter motor of the No. 2 generator. Among them, the No. 2 generator The power supply depends on the needs of the site as a modification. It is tentatively changed to a 24V DC generator. The KW value and speed of the No. 2 generator depend on the needs of the site. The starting motor power of the No. 2 generator comes from the No. 1 generator. The size, load, high and low speed of the starting motor of the No. 2 generator are changed according to the needs of the No. 2 generator on site. The power generated by the No. 2 generator is mainly supplied to each power supply module 6 of the mains parallel use; after each battery 12 is detected to be fully charged, the No. 1 and No. 2 generator sets will automatically shut down, supply power to the inverter through the battery pack, and then the inverter will send power to each power supply module 6. Then, through each power supply module 6, send power to the power switch box of the place where power consumption is needed; when each battery 12 detects the power consumption to the rated value, the generator set 1 and 2 will automatically start, and the above will be reached after startup All the functions set; as shown in the above content, the description of the use status of this creation "Fuel-free power generation and connection" includes: a power storage module 1, an active power device 2, an active power generation device 3 , A power supply power device 4, a power supply power generation device 5 and a power supply module 6; wherein: the power supply storage module 1, the active power device 2, the active power generation device 3, the power supply power device 4, the power supply The various structures of the power generating device 5 and the power supply module 6 have been described above, so they will not be described again: First, the timing jumper 112 is a combination of a line jumper module 1123 and a command module 1124 , The instruction module 11241 is used to set the jump time 1121, and after the jump time 1121, current is sent to the line jump module 1123, causing the line jump module 1123 to switch the line; wherein the instruction module 1124 A delay time 1122 may also be provided. The delay time 1122 is used to switch the charging terminal 14 line and the power supply terminal 13 in parallel with the two connection sequence endpoints 111 when the circuit is switched, and is disconnected after the delay time 1122 Turn on the electrical connection between the power supply terminal 13 and one of the end points 111 of the connection sequence; and the jump time 1121 is 300~600 seconds, and the delay time 1122 is 8~10 seconds, so that each battery 12 is discharged on average. Charging to avoid damage to each battery 12 due to over-discharge or over-charging; moreover, each battery 12 is provided in a detection device 8, the detection device 8 is provided with a plurality of accommodating grooves 81, each accommodating groove 81 The internal system is provided with a positive terminal 811 and a negative terminal 812, so that Each storage battery 12 can be assembled in each storage slot 81 and electrically connected to each positive electrode terminal 811 and each negative electrode terminal 812. The detection device 8 detects the state of the storage battery 12 and can prompt the replacement of the storage battery 12, and When the battery 12 fails, the accommodating slot 81 is deactivated, causing the line-jumping device 11 to automatically skip the malfunctioning battery 12; in addition, the detection device 8 is provided with at least one spare accommodating slot 82, so that the When the line-hopping device 11 automatically skips the faulty battery 12, it can be replaced by the battery 12 in each standby storage slot 82. Each standby storage slot 82 is also provided with a positive terminal 821 and a negative terminal 822; The utility model of the fuel-free power generation of this invention is connected online, and its effect lies in: through the power supply and storage module 1, a line jump device 11 and a plurality of storage batteries 12 are provided, and the line jump device 11 is provided with a plurality of connection sequences Endpoint 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, so that the controller 113 can control the timing jumper 112 , So that the timing jumper 112 can set a jump time 1121, the jump time 1121 is the time scheduled by each connection sequence end point 111 to connect to a power supply terminal 13 and a charging terminal 14, so that each The connection sequence endpoint 111 is connected to the power supply terminal 13 or the charging terminal 14 in a fixed time and sequence, and each connection sequence endpoint 111 is electrically connected to each battery 12; the active power device 2 is connected to the power supply The terminal 13 is in an electrically connected state, and the active power generation device 3 is provided at one end of the active power device 2. The active power generation device 3 is electrically connected to the charging end 14. The active power generation device 3 uses the The kinetic energy provided by the active power device 2 is converted into electrical energy, and the battery 12 is charged by the charging end 14; the energy supply power device 4 is electrically connected to the power supply end 13 and connected to the energy supply power device 4 is provided at one end of the power supply and power generation device 5, the power supply and power generation device 5 is connected to each power supply module 6, so that the power supply and power generation device 5 can be connected to power equipment to achieve power supply efficiency, the power equipment can be Machinery, elevators, electric gates, fire power systems and other equipment; thereby providing a fuel-free power generation and online connection, especially a power generation device that uses continuous operation and turns to charge and discharge in the process of power generation to achieve energy-saving and fuel-free power generation Functional person.

Based on the above, a kind of fuel-free power generation and online connection has not been seen in various publications or public use, since it meets the requirements of the new type of patent application, I urge the Jun Bureau to appraise and grant the patent as soon as possible. To be clear, the above are the specific embodiments of the creation and the technical principles used. If the changes are made in accordance with the concept of the creation, the functional effects generated by it have not exceeded the spirit covered by the description and drawings At the same time, it should be within the scope of this creation, Chen Ming.

1: Power storage module

11: Line jumper

111: connection sequence endpoint

112: timer jumper

1121: Jump time

1122: Delay time

1123: Line switching module

1124: Command module

113: Controller

12: Battery

121: Status record module

13: power supply terminal

14: Charging terminal

2: Active power plant

3: Active power generation device

4: Power supply device

5: Power generation device

6: Power supply module

7: Voltage regulator module

8: Detection device

81: accommodating slot

811: positive extreme

812: negative terminal

82: spare storage slot

821: Positive extreme

822: negative terminal

Claims (10)

A kind of fuel-free power generation and online connection, including: A power storage module is provided with a line jump device and a plurality of accumulators. The line jump device is provided with a plurality of connection sequence endpoints, a timing jumper and a controller. The controller is electrically connected When the timer jumper is in an electrically connected state, the controller can control the timer jumper, so that the timer jumper can set a jump time, and the jump time is jumped at the end of each connection sequence The time scheduled to connect to a power supply end and a charging end enables each connection sequence end to be connected to the power supply end or the charging end in a fixed time and order, and each connection sequence end is electrically connected to each battery status; An active power device is electrically connected to the power supply end, and an active power generation device is provided at one end of the active power device. The active power generation device is electrically connected to the charging end. The active power generation device is The kinetic energy provided by the active power device is converted into electrical energy, and the battery is charged by the charging end; An energy supply power device is electrically connected to the power supply end, and a power supply power generation device is provided at one end of the power supply power device. The power supply power generation device is connected to at least one power supply module so that the power supply power generation device can Connected to power equipment to achieve power supply efficiency. The fuel-free power generation mains as described in claim 1 is connected online, wherein the timer jumper is composed of a line jump module and a command module, and the command module is used to set the jump time After the jump time, current is sent to the line jump module, causing the line jump module to switch the line. As described in claim 2, the fuel-free power generation mains is connected online, wherein the command module can further be provided with a delay time, which is to switch the charging terminal circuit first and make the power supply terminal connected in parallel when switching the circuit Connect the end of the sequence, and disconnect the electrical connection between the power supply end and one of the end of the connection sequence after the delay time. As described in claim 3, the fuel-free power generation mains is connected online, wherein the switching time is 300 to 600 seconds, and the delay time is 8 to 10 seconds. As described in claim 1, the fuel-free power generation is connected to the mains, and each battery is equipped with a state recording module to record the charge and discharge of each battery and the battery life status. The state recording module can also automatically according to the state of each battery Adjust the jump time. The fuel-free power generation mains as described in claim 1 is connected online, wherein the power generation device is represented by a permanent magnet DC generator, and each power supply module is an inverter. According to claim 1, the fuel-free power generation mains is connected online, wherein the active power generation device is a DC generator, and a voltage stabilizing module is further provided between the active power generation device and the charging terminal, so that the active power generation device can be stably provided Direct current. As described in claim 1, the fuel-free power generation mains is connected online, in which each storage battery is provided in a detection device, the detection device is provided with a plurality of accommodating slots, each accommodating slot is provided with a positive pole and a The negative terminal allows each battery to be assembled in each containing slot and is electrically connected to each positive terminal and each negative terminal. The fuel-free power generation mains as described in claim 8 is connected online, wherein the detection device detects the state of the battery and can prompt to replace the battery, and when the battery fails, the accommodating tank is disabled, causing the line to jump The replacement device automatically skips the faulty battery. As described in claim 9, the fuel-free power generation mains is connected online, wherein the detection device is provided with at least one spare accommodating slot, so that the line-jumping device can automatically skip the faulty storage battery, which can be Of the battery.

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