KR20100127015A - A ship with power generation system using lever - Google Patents

Abstract

PURPOSE: A ship with a power generation system using a lever is provided to enable the generation of power using a part of spray pressure by an engine or a part of engine output. CONSTITUTION: A ship is connected to an electric power system using a lever. The electric power system comprises a generator(137). The generator interposes a reducer in an engine shaft(400) connected to an engine. The electric power system comprises a rotating block. The rotating block is connected to the outer surface of a fixed shaft fixed to base. Multiple blades(100) are connected to the outer surface of the rotary block. The blade is formed of a fixing bar, supported on the rotary block, and a rotating bar pivotally connected around the fixed bar. An injection nozzle is formed on one or more ends of the blades.

Description

Ship with power generation system using lever

The present invention relates to a vessel equipped with a power generation system using a lever to utilize the rotational force of the engine shaft of the vessel or to generate power by utilizing the injection pressure generated from the vessel.

In the conventional power generation facilities, most of the fossil fuel is used to cause global warming, and the global environmental pollution is serious, and researches on alternative energy development are actively conducted to make the earth a pleasant environment.

Currently, it is producing electric energy or heat energy using solar heat, wind power, hydropower, etc. However, in order to use natural energy such as solar heat or wind power, facility investment costs are required and steady research and development is required.

Therefore, there is a need for a method capable of efficiently utilizing natural energy as a power generation device that requires relatively little research and facility investment costs and is easy to install.

In relation to such a technique, a power generation apparatus is disclosed in Korean Patent Laid-Open Publication No. 2006-26378, and its configuration is as shown in FIG. 1, but a plurality of frames 23 are installed in the water and above the ground, The impact plate 14 attached to the lever 13 and the center stand 28 is installed in the impact tank 33, and the object 27 connected to the center stand 28 and the separator 38 is connected to the piston 15. ) Is assembled to the pressure cylinder (39), under the shock tank (33) and the pressure cylinder (39) integrally installed a lever 13, connected to the water storage tank (11) and the impact tank (33). The water pipe (24) and the valve barrel 12 is installed, the water pipe (24) consists of a configuration for installing aberration and generator.

At this time, the air tank outlet 22 is installed in the shock tank 33 is installed in the water storage tank 11 by the water moving pipe 24 in the water storage plate 16 by moving the water collected and collected water When 25 falls and falls, air is discharged to the outside through the air line outlet 22, and when the water storage plate 16 is opened and closed, a support ( 36 and the stopper 35, the cylinder a (18) is installed, by pushing the support (36) to advance the cylinder a (18) to close the water storage plate 16, the water in the water storage plate 16 When collected, the stopper 35 is operated to drop the water 25 collected on the water storage plate 16 to the impact plate 14.

Then, the air below the collected water 25 is discharged to the air ship outlet 22, and the collected water 25 is centered on the shock plate 14 by the force of the impact dropped on the shock plate 14. The lever 13 is lowered and the object 27 and the piston 15 connected to the center belt 28 and the separator 38 are raised by the force of the impact force increased by the lever 13 to raise the water. The aberration connected to the conveying pipe 24 is driven.

However, in the power generation apparatus as described above, the water storage tank operated by the pressure in the water storage plate 16 should form a sufficient head so that its volume is increased so that it is not applicable to the building, and the water storage plate 16 There is a drawback in that it requires a certain amount of flow rate for generating water pressure and a facility for supplying sufficient water.

In addition, there is a problem that the power generation system can not be applied to the ship by performing power generation using only the water pressure using the head.

An object of the present invention for improving the conventional problems as described above, by using a portion of the waste water or the output of the engine or the injection pressure by the engine to perform power generation, the length of the braid is extended It is to provide a vessel equipped with a power generation system using a lever to enable the production of the necessary electricity through the pump in a configuration that allows the hydraulic pressure to act, and to freely change the length of the braid to obtain the desired force.

The present invention, in order to achieve the above object, the power generation system is connected to the ship,

The power generation system, the engine shaft is connected to the engine is installed to drive a generator connected via a reducer to the rotation block,

The power generation system includes a rotation block rotatably around a fixed shaft fixed to a base, and the rotation block includes a plurality of structure consisting of a connection bar between a fixed bar supported by the rotation block and a rotation bar pivoted about the fixed bar. When the braid is installed and the rotary bar is moved by the injection nozzles installed in at least one of the braids, the other rotary bars are sequentially moved through the load transfer means to transmit the force to the load transfer bar coupled to the rotary block. The injection nozzle provides a vessel equipped with a power generation system using a lever installed to supply the high pressure fluid.

As described above, according to the present invention, power generation is performed by utilizing the waste water in the ship, part of the output of the engine, or part of the injection pressure by the engine, and it is necessary through the pump as a configuration in which hydraulic pressure acts on the braid of which the length is expanded. Produces electricity, and the effect of achieving the desired force by changing the length of the braid freely.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a side view showing a ship equipped with a power generation device according to the present invention, Figure 3 is a side view showing a ship mounting state of the power generation device according to another embodiment of the present invention, Figures 4 and 5 are respectively A perspective view and a plan view of a power generation apparatus according to the invention, Figure 6a, b, c is a plan view showing a power generation apparatus according to another embodiment of the present invention, respectively.

The present invention includes a plurality of braids (100) having a spray nozzle (150) mounted on at least one end thereof, a load transmitting means (200) interconnecting them, and a rotating block (300) connected to a generator (350). The generator G having a configuration is installed at one side of the engine E of the ship S.

One or more braids 100 are installed around the rotation block 130 installed to be rotatable around the fixed shaft 115 fixed to the base 110.

In addition, the braid 100 is pivotally connected to the plurality of fixing bars 101 and the ends of the fixing bars 101, which are divided around the rotation block 130 and supported to be movable. It is made of a connection structure of the rotary bar 105.

In addition, the braid 100, the injection nozzle 150 is provided at the end of at least one rotary bar 105.

Subsequently, when one rotating bar 105 is moved by the injection nozzle 150, the other rotating bar 105 is installed to move about the fixed bar 101 through the load transfer means 170, The last rotary bar 105 is connected to the load transfer bar 139 is fixed to the rotary block 130.

In addition, the injection nozzle 150 is connected to the high pressure pump 155 installed on the rotation block 130 or the base 110 so as to supply a high pressure fluid, and the reduction block 135 on the rotation block 130. Through the generator 137 is connected.

In addition, a reinforcement bar 130 is installed around the rotation block 130 to prevent the deflection of the braid from the rotation block.

The load transfer means 170 is installed to transmit the force to the other rotation bar when the rotary bar 105 of the braid 100 having the largest diameter flows by the hydraulic pressure of the injection nozzle 150.

In addition, the load transmission means 170, the bracket 175 having a guide roller 175a, respectively protrudingly connected to the rotary bar 105, between the rotary bar 105 directly or through a guide roller 175a It is made as a cable 173 to connect and move in sequence.

In addition, the load transfer means 170 is made as a link 177 is installed to connect different rotation bars 105, respectively, the spring member 174 is connected between the rotation bar and the failure bar so as to be restorable.

In addition, the base 110 is provided with a plurality of reflecting plates 117 to face the jet nozzle in the circumferential direction.

In addition, the generator 137 is connected via the engine shaft 400 and the clutch 430 connected to the engine (E).

On the other hand, the compression pipe 450 formed on one side of the turbine 410 for compressing the fluid introduced by the power generated by the engine E at high pressure is made of a configuration in which the injection nozzle 150 is integrally connected. .

The operation of the present invention made of the above configuration will be described.

2 to 6, the present invention drives the generator 137 connected thereto by connecting the clutch 430 when driving the engine E of the ship S to store initial power.

At this time, the rotational force of the engine shaft 400 is to be transmitted at a constant reduction ratio through the gear combination (135a).

In addition, the high pressure pump 155 may be directly connected to the engine shaft 400 connected to the engine E to drive the high pressure pump 155.

At this time, by rotating the high pressure pump 155 installed in the water storage tank 157 during the rotation of the engine shaft 400 to compress the fluid to a high pressure to supply to the injection nozzle 150.

On the other hand, the present invention is to supply a fluid that is compressed to a high pressure in the compression pipe 450 installed on one side of the turbine 410 without the need for a separate storage tank 157 to the injection nozzle 150 high pressure is compressed in the turbine Rotate the braid as a fluid.

Then, when the fluid of the high pressure state is supplied to the injection nozzle 150 through the operation of the high pressure pump 155 or the compression pipe 450 installed in the water storage tank 157, the injection nozzle 150 is fixed to the rotating bar Pressure 105 in the opposite direction to the fluid injection direction of the injection nozzle 150 is applied to the rotary bar 105 is unfolded.

That is, the rotation bar 105 connected to the fixed bar 101 supported by the rotation block 130 by the pivot 103 is rotated about the fixed bar 101.

Subsequently, when the rotation bar 105 moves, the other rotor 105 connected to the rotation bar through the load transfer means 170 moves about the other fixed bar 101, respectively, and finally the rotation block 130. Force is transmitted to the load transfer bar 139 is fixed to it to rotate it.

At this time, the overall length of the rotary bar 105 moving around each of the fixed bar 101, which is separately installed as described above is longer than the general length of the braid located between the rotation block 130 and the reflecting plate 117. Each of the rotating bar to perform the role of the lever to finally make the configuration of the lever using a span that is longer than the general length of the braid positioned between the rotating block 130 and the reflecting plate 117 to reduce the force of the spray nozzle This will transmit a great force to the rotating block.

In addition, while rotating the rotation block 130 is connected to this to rotate the reducer 135 is installed to operate by a large torque to generate power as a generator 137 connected thereto.

That is, the power produced by the generator 137 driven through the water pressure as described above to be used as an auxiliary power source.

Referring to the operation of each configuration to perform such a role, it is possible to bring the structure of the lever having a desired length by varying the arrangement of the braid 100 is installed separately around the rotation block 130.

In this case, the braid 100 is divided around the rotation block 130, the pivoting 103 around the end of the plurality of fixing bar 101 and the fixed bar 101 is supported or fixed to be installed to flow. As a connecting structure of the rotary bar 105 to be connected, each rotary bar performs the role of the lever when the injection nozzle 150 operates.

In addition, corresponding to the end of each rotary bar 105 forming the braid 100, even if the injection nozzle 150 is provided respectively, it is possible to implement the same operation, each rotary bar 105 to perform the role of the lever To increase the force delivered to it.

Subsequently, each rotation bar 105 which is moved by the operation of the injection nozzle 150 is sequentially moved through the load transfer means 170.

In addition, the injection nozzle 150 is connected to the high pressure pump 155 installed on the rotation block 130 or the base 110 so as to supply a high pressure fluid, and the reduction block 135 on the rotation block 130. Through the generator 137 is connected.

The load transmitting means 170 is installed to transmit the force to the other rotating bar when the rotary bar 105 of the braid 100 having the maximum diameter flows by the hydraulic pressure of the injection nozzle 150, one When a force is applied to one end of the rotating bar, the other end is connected to one end of the other rotating bar through a load transfer means.

That is, each of the rotation bars are connected in series through the load transfer means.

At this time, the load transmission means 170, the bracket 175 having a guide roller 175a, respectively protrudingly connected to the rotary bar 105, between the rotary bar 105 directly or through a guide roller 175a It is made as a cable (173) to be connected in order to move in order to move the other rotating bar continuously when the cable connected to one rotary bar 105 is moved.

In addition, the load transfer means 170, even if the bracket, the guide roller and the cable does not need to connect the different rotary bar 105 as each link 177 to implement the same effect.

In addition, if a separate spring member 174 is further installed between the fixing bar and the rotating bar, the length of the braid is minimized by restoring when no load is applied.

In addition, a reflector plate 117 is provided in the circumferential direction of the base 110 to easily generate a force opposite to the injection nozzle for spraying the high pressure fluid while the braid rotates.

1 is a perspective view showing a conventional power generation device.

Figure 2 is a side view showing a ship equipped with a power generation apparatus according to the present invention.

Figure 3 is a side view showing a ship mounting state of the power generation apparatus according to another embodiment of the present invention.

4 and 5 are a perspective view and a plan view respectively showing a power generator according to the present invention.

6A, 6B, and 6C are plan views illustrating a power generator according to still another embodiment of the present invention, respectively.

* Description of the symbols for the main parts of the drawings *

100 ... Blade 115 ... Fixed Shaft

130.Rotating block 135 ... Reduction gear

137 ... Generator 150 ... Injection Nozzle

155 high pressure pump 410 turbine

450 ... compression tube

Claims (7)

The power generation system is connected to the ship, The power generation system, the engine shaft is connected to the engine is installed to drive a generator connected via a reducer to the rotation block, The power generation system, The rotation block is connected to the deceleration to be rotatable around the fixed shaft fixed to the base, the rotation block is made of a connecting structure of the fixed bar supported on the rotating block and the rotary bar pivotally connected to the fixed bar A plurality of braids are connected, at least one of the braids is provided with a spray nozzle at the end of the braid, and when the rotating bar is moved around the fixed bar by the spray nozzle, the other rotating bars are sequentially moved through the load transfer means. The ship is installed so that the rotation block is rotated by transmitting the force to the load transfer plate coupled to the rotation block, and the injection nozzle is equipped with a power generation system using a lever consisting of a high pressure pump connected to supply the high pressure fluid. The ship of claim 1, wherein the braid is installed with a reinforcing bar connected to the rotating block to prevent sagging. According to claim 1, The load transmission means, each of which is connected to the rotating bar is a bracket having a guide roller, the cable between the rotating bar directly or through a guide roller to move in order to be positioned in each braid Ship equipped with a power generation system using a lever, characterized in that to transfer the power while sequentially moving each rotating bar to The method of claim 1, wherein the load transfer means is made as a link that is installed to connect the different rotation bars, respectively, the rest of the spring member is connected between the rotation bar and the fixed bar so that the restorable rotation when one rotation bar is moved Ship equipped with a power generation system using a lever, characterized in that the bar to move the power in sequence The ship according to claim 1, wherein the base is provided with a plurality of reflecting plates facing the injection nozzle in the circumferential direction so as to increase the opposing force of the injection nozzle. According to claim 1, wherein the generator, the ship is equipped with a power generation system using a lever, characterized in that connected via the clutch and the engine shaft connected to the engine. The method of claim 1, wherein the injection nozzle is connected to one side of the turbine for compressing the fluid introduced by the power generated by the engine at high pressure through a compression tube to supply a high pressure fluid, characterized in that Ships with a Power Generation System

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