CN200950568Y

CN200950568Y - Energy-saving generator

Info

Publication number: CN200950568Y
Application number: CN 200620063607
Authority: CN
Inventors: 苏厚民; 梁建兴
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-08-31
Filing date: 2006-08-31
Publication date: 2007-09-19
Anticipated expiration: 2016-08-31

Abstract

The utility model discloses an energy-saving generator which comprises a generator, wherein, the output end of the generator is connected with the input end of a transmission box; the input end of the transmission box is connected with a driving motor, and a control circuit device is connected between the output end of the generator and the input end of the power supply of the motor. The utility model has the advantages of energy-conservation and environment protection.

Description

Energy-saving and power generation device

Technical field

The utility model relates to a kind of Blast Furnace Top Gas Recovery Turbine Unit (TRT).

Background technology

At present, the employed Blast Furnace Top Gas Recovery Turbine Unit (TRT) of people generally can need to consume a large amount of energy, use for Blast Furnace Top Gas Recovery Turbine Unit (TRT), as: make the energy of Blast Furnace Top Gas Recovery Turbine Unit (TRT) with raw materials such as diesel oil, coals, after these energy are converted into electric energy, can produce pollutant, damage to the environment; Certainly, some energy very little to environmental impact are also arranged, as: wind energy, water energy or luminous energy etc., its environmental pollution is very little, still, utilizes the above-mentioned energy to use for Blast Furnace Top Gas Recovery Turbine Unit (TRT), can be subjected to the restriction of service condition, as: burning sun is calm, arid season, the cloudy day or the like, all can make above-mentioned wind energy, water energy and luminous energy cisco unity malfunction, make it production is affected; Moreover, using for Blast Furnace Top Gas Recovery Turbine Unit (TRT) with wind energy, water energy or luminous energy, its equipment requirements height is invested very big.

The utility model content

The purpose of this utility model is to solve above-mentioned shortcoming, and provides a kind of loss, reduction energy-conservation, that can reduce the energy to pollute the Blast Furnace Top Gas Recovery Turbine Unit (TRT) that improves environmental protection.

For achieving the above object: a kind of energy-saving and power generation device, comprise generator, connect the output of gearbox at the input of generator, the input of gearbox is connected with starter, is electrically connected by a control circuit device between the output of described generator and the power input of motor.

Described control circuit device is made up of K switch 1, delay circuit, charging circuit and storage battery, K switch 1 is arranged between the input of accumulator output end and delay circuit, be provided with charging circuit between the output of delay circuit and the input of storage battery, the power input of described motor is electrically connected the delay circuit input, also is provided with the power consumption equipment output on the described control circuit device.

Described gearbox comprises preceding travelling gear, final drive gear and casing composition thereof, the driving gear on the meshing motor shaft of preceding travelling gear, and travelling gear also articulated generator before final drive gear was meshing.

Described final drive gear is the travelling gear of unidirectional tooth.

Also be provided with the timing gear wheels on the described gearbox, the timing gear wheels are made of upper and lower two big pinions and connection rotating shaft thereof, the meshing final drive gear of lower gear, and the tooth connecting generator cogs.

The beneficial effects of the utility model:

1), the utility model is by being provided with gearbox between generator and starter, and between the power input of the output of generator and motor, be electrically connected by a control circuit device; Be respectively equipped with storage battery, delay circuit, K switch 1 and charging circuit on the control circuit device, during work, motor is by the storage battery power supply of control circuit, and motor starting rotates, in the time of the motor rotation, drive generator via gearbox and send electric energy, give the charge in batteries of control circuit, at this moment, the required electric energy of motor and power consumption equipment is provided by generator and charging circuit, avoid Yin Mada to need other energy to drive fully, and cause the defective of power consumption, realize energy-conservation and effect environmental protection;

2), on this Blast Furnace Top Gas Recovery Turbine Unit (TRT), all generator output end and control circuit device are provided with the power consumption equipment terminals, can offer the power consumption equipment of different needs, satisfy instructions for use, it is simple and reasonable for structure.

Description of drawings

Fig. 1 is a structural representation of the present utility model

Fig. 2 is the control circuit device block diagram among Fig. 1

Fig. 3 is the control circuit device circuit theory diagrams of Fig. 1

Among the figure: 1 is generator, and 2 is gearbox, and 201 is preceding travelling gear, 202 is final drive gear, and 3 is motor, and 4 is control circuit device, K1 is a switch, 402 is delay circuit, and 403 is charging circuit, and 404 is storage battery, 5 is casing, 6 is the timing gear wheels, and 601 are the tooth that cogs, and 602 is the lower tooth gear teeth.

Embodiment

As shown in Figure 1, a kind of energy-saving and power generation device, comprise generator 1, the output that connects gearbox 2 at the input of generator 1, the input of gearbox 2 is connected with starter 3, be electrically connected by a control circuit device 4 between the power input of the output of described generator 1 and motor 3, described control circuit device 4 is by K switch 1, delay circuit 402, charging circuit 403 and storage battery 404 are formed, K switch 1 is arranged between the input of storage battery 404 outputs and delay circuit 402, be provided with charging circuit 403 between the input of the output of delay circuit 402 and storage battery 404, the power input of described motor 3 is electrically connected delay circuit 402, also is provided with the power consumption equipment output on the described control circuit device 4.

Described gearbox 2 comprises preceding travelling gear 201, final drive gear 202 and casing 5 compositions thereof, the driving gear in preceding travelling gear 201 meshing motor 3 rotating shafts, and final drive gear 202 meshing preceding travelling gears 201 also articulate generator 1.

Described final drive gear 202 is travelling gears of unidirectional tooth.

Also be provided with timing gear wheels 6 on the described gearbox 2, timing gear wheels 6 are made of upper and lower two big pinions 601,602 and connection rotating shaft thereof, and the lower tooth gear teeth 602 close final drive gear 202, and tooth 601 connecting generators 1 cog.

As shown in Figure 2, it is control circuit device block diagram of the present utility model, K switch 1 closure, storage battery 404 gives delay circuit 402 power supplies, delay circuit 402 picks up counting, motor 3 rotation startings, and drive gearbox 2 makes generator 1 send electric energy, after delay circuit 402 timing finished, charging circuit 403 got electric to storage battery 404 chargings.

As shown in Figure 3, control circuit device 4 is by storage battery 404, K switch 1, delay circuit 402 and charging circuit 403 constitute, storage battery 404 is with after K switch 1 is connected, the input that connects delay circuit 402 again, described delay circuit 402 is by resistance R 10, adjustable resistance RP2, capacitor C 3, triode V3, diode VD5 and relay J 1 are formed, one end of resistance R 10 connects K switch 1, the other end successively is serially connected with adjustable resistance RP2 and capacitor C 3, negative pole serial connection storage battery 404 1 ends of capacitor C 3, the base stage of triode V3 is connected across between electric capacity and the variable resistor RP2, and be connected with the adjustable side of adjustable resistance RP2, emitter is connected with the negative pole of electric capacity, the end of collector series connection diode VD4, motor are connected across on the other end of storage battery 404 negative poles and diode.Relay J 1 is attempted by on the diode VD4, and an end of K switch 1 also is provided with the power consumption equipment output terminals A.

Described charging circuit 403 is by NPN triode V1, PNP triode V2, diode VD1, VD2, VD3, VD4, resistance R 1, R2, R3, R4, R5, R6, R7, R8, R9, R10, capacitor C 1, C2, C4, C5, integrated IC1, amplifier IC2 and adjustable resistance RP1 form, resistance R 6 is serially connected on the base stage of amplifier out and triode V1, the collector electrode of triode V1 is series resistor R7 and triode V2 base stage successively, after triode V2 collector electrode successively is serially connected with resistance R 9 and diode VD4, and be connected with storage battery 404 positive electrical, the collector series connection of PNP triode V2 has resistance R 8, diode VD2 that is cascaded and VD3 are connected across between the base stage and resistance R 8 other ends of PNP triode V2, the input of generator is electrically connected VD2's, after resistance R 3 and R5 are cascaded, be attempted by between storage battery 404 negative poles and the VD4 negative pole, negative-phase input 4 pin of amplifier are connected between resistance R 3 and the R5, normal phase input end 5 pin are electrically connected with the adjustable side of adjustable resistance RP1, behind the output series resistor R1 and R4 of adjustable resistance RP1, be connected to output 2 pin of amplifier IC2,3 pin on the amplifier IC2 are connected between resistance R 1 and the R4,12 pin of amplifier are connected on the emitter of NPN triode, after the input of adjustable resistance RP1 is serially connected with resistance R 2, connect storage battery 404 negative poles again, input 1 pin on the integrated IC1 is connected with storage battery 404 negative poles by electrochemical capacitor C1, be connected by electrochemical capacitor C2 between output 3 pin on the integrated IC1 and 2 pin, also connect the normally open contact input on the relay J 1 on its 3 pin, another normally open contact input on the relay is electrically connected input 1 pin on the integrated IC1, two normally open contact outputs on the relay J 1 are electrically connected 3 pin and the power consumption equipment end of amplifier IC2 respectively, diode VD1 is a light-emitting diode, its series resistor R10, and be connected across between 2 pin and generator input of IC1, the input of generator also is electrically connected 1 pin of integrated IC1, the output cathode on the light-emitting diode VD1 and the output of generator and connect after, make electricity consumption equipment end C.

Capacitor C 4, C5 are connected to the normally open contact of resistance R 2 inputs and relay J 1 respectively.A, B, C are respectively the links of power consumption equipment among the figure.

Operation principle: press K switch 1, power consumption equipment gets electric work, delay circuit 402 picks up counting, the motor rotation drives generator via gearbox in the time of the motor rotation and sends electric energy, at this moment, diode VD1 should light, relay J1 adhesive after delay circuit 402 timing finish, charging circuit 403 get electric to storage battery 404 chargings, and at this moment the required electric energy of motor and power consumption equipment is provided by generator and charging circuit 403.

Claims

1. energy-saving and power generation device, comprise generator (1), it is characterized in that, the output that connects gearbox (2) at the input of generator (1), the input of gearbox (2) is connected with starter (3), is electrically connected by a control circuit device (4) between the output of described generator (1) and the power input of motor (3).

2. energy-saving and power generation device according to claim 1, it is characterized in that, described control circuit device (4) is by switch (K1), delay circuit (402), charging circuit (403) and storage battery (404) are formed, switch (K1) is arranged between the input of storage battery (404) output and delay circuit (402), be provided with charging circuit (403) between the input of the output of delay circuit (402) and storage battery (404), the power input of described motor (3) is electrically connected delay circuit (402), and described control circuit device also is provided with the power consumption equipment output on (4).

3. energy-saving and power generation device according to claim 1, it is characterized in that, described gearbox (2) comprises preceding travelling gear (201), final drive gear (202) and casing (5) composition thereof, driving gear in the preceding meshing motor of travelling gear (201) (3) rotating shaft, travelling gear (201) also articulated generator (1) before final drive gear (202) was meshing.

4. energy-saving and power generation device according to claim 3 is characterized in that, described final drive gear (202) is the travelling gear of unidirectional tooth.

5. energy-saving and power generation device according to claim 1, it is characterized in that, also be provided with timing gear wheels (6) on the described gearbox (2), timing gear wheels (6) are by upper and lower two big pinions (601,602) and connect the rotating shaft formation, the meshing final drive gear of lower gear (602) (203), the tooth that cogs (601) connecting generator (1).