JPH0134304B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a power generation device that utilizes the vertical motion of waves to convert vertical kinetic energy of waves into electrical energy by utilizing the vertical motion of waves.

[Conventional technology]

As power generation devices that utilize the vertical motion of waves, which are currently being put into practical use and are being tested, are becoming larger, maintenance work must be carried out while they are still installed on the ocean. Possibility of this maintenance work required,
There were problems with the safety of the equipment, etc.

[Problem and purpose to be solved by the invention]

This invention enables, reduces and reduces maintenance work.
The present invention discloses a technical means for solving the safety issues of power generation equipment and efficiently converting the inexhaustible kinetic energy of ocean waves into electrical energy. The purpose of the present invention is to take into consideration the possibility and reduction of maintenance work on the ocean, the ability to absorb wave energy from large waves during typhoons, the safety of the equipment, the ability to absorb minimal energy from small waves, etc.
By providing countermeasures and equipment for these,
Our goal is to provide a wave power generation device that is one step ahead.

[Means and actions for solving problems]

According to the present invention, a floating floating body that is moved up and down by waves, a cylindrical body that is substantially stationary in the water, and one or several holes are formed in each of the piston rods on both sides of the piston. A piston rod with holes connected to communication holes drilled in the axial direction of the piston rod, or a piston rod with a through hole penetrating the piston rod in the axial direction, and holes drilled on both sides of the cylinder in the axial direction, and an accumulator is inserted into these holes. The piston rod and piston are attached to the floating body, and the cylinder is attached to the cylindrical body, and the piston in the cylinder is actuated by the vertical movement of waves. By doing so, the problem can be solved.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is an assembly diagram of the power generation device of the present invention. In this figure, a piston 8 and a piston rod 9 are connected to a floating body 1 via a shaft 6 and an arm 2. Further, a balance weight 5 and a balance floating body 4 are attached to the cylindrical body 3, and a cylinder 7 is provided inside the cylindrical body, and hydraulic oil for the piston is contained inside and outside the cylinder. Next, a roller 11 is provided at the friction part between the floating body 1 and the cylindrical body 3.
and an underwater roller 16 are attached to form a friction reducing mechanism. Further, a bearing 10 for the shaft 6 is attached to the top of the cylindrical body 3, and a packing or the like is inserted into the bearing 10. Next, it is assumed that inside the floating floating body 1, a vacuum tank 12, an accumulator 13, an oil motor (or impeller, etc.) 15, a generator 14, an auxiliary machine 50, etc. are mounted in a well-balanced manner. In addition, means for regulating unforeseen oscillations occurring in the floating floating body 1, such as a chain 17, a floating body 18, a pipe 19, an anchor 4, etc.
8, etc. are also provided. The arm 2 is cylindrical in order to prevent rainwater, seawater, etc. from entering, and the arm 2 is installed with the tube facing down and the air vent 21
etc. are also installed. Further, the floating floating body 1 is also provided with ventilation holes 22 and the like. Next, the operation of the power generating apparatus shown in FIG. 1 will be explained below.

Now, the floating floating body 1 of the power generation device is above the sea surface, and the cylindrical body 3 is maintained almost vertically by the balance floating body 4 and the balance weight 5, and its top is slightly above the upper surface of the floating floating body 1. Assume that it is located underwater. In this state, even if waves come to the cylindrical body 3, the balance floating body 4, the balance weight 5,
The cylindrical body 3 is kept substantially vertical due to the interaction between the floating body 1 and the floating body 1. In order to keep the vertical movement of the cylindrical body 3 small in such a state, the water resistance may be increased by increasing the outer diameter of the balance weight 5 or increasing the number of stages. On the other hand, the floating floating body 1 responds sensitively to the vertical movement of waves. Therefore, reciprocating motion occurs between the cylinder 7 and the piston 8. The following explanation will be given with reference to FIG.

FIG. 2 is a piping system diagram of the power generation device of the present invention. In this figure, one or several holes are made in each of the piston rods 9 on both sides of the piston 8, and these holes are connected to communication holes made in the axial direction of the piston rods 9, and one of the communication holes is connected to the pipe 2.
I was contacted on 3.24. That is, the pipe 24 is connected from the communication hole of the piston rod 9 to the connection port of the oil motor (or impeller) 15, and the valve 27, check valve 31, and accumulator 1 are connected between the piston rod 9 and the oil motor (or impeller) 15.
3, valve 44, etc. are also provided as shown in the figure. Also, the tube 23 is almost the same as the tube 24 described above, but
This pipe is provided with a valve 26 and a check valve 29 as shown in the figure, and in these pipes downstream of the check valve 29 and the check valve 31 described above, the pipe 24
It is assumed that the pipes 23 and 23 can be assembled into one pipe. Next, one of the pipes is connected to the discharge port of the oil motor (or impeller, etc.) 15, and the other end is connected to the check valve 32.
A valve 27 and a check valve 31 provided in the pipe 24 are connected to each other through the pipe 24, and this pipe is branched from before the check valve 32, and the pipe is connected to the pipe 23 through the check valve 30. It is assumed that the valve 26 and the check valve 29 are connected to intermediate portions thereof, respectively. A vacuum tank 12 and the like are also provided in the middle of this pipe. A maintenance bypass valve 28 is also provided between the pipes 23 and 24, as shown in the figure. Next, auxiliary circuits such as a valve 44' and an oil motor (or impeller, etc.) 15' can be provided as a bypass circuit. The rotating shaft of the generator 14 is connected to the rotating shaft of the oil motor (or impeller, etc.) 15, and the rotating shaft of the oil motor (or impeller, etc.) 1 of the auxiliary circuit is connected to the rotating shaft of the oil motor (or impeller, etc.) 15.
It is assumed that a generator 14' is connected to 5'. Next, holes are made on both the upper and lower sides of the cylinder 7, and a pipe 35 is connected to the upper hole of the cylinder 7, and the check valve 37, the valve 39, the accumulator 41, and the oil supply device such as the bearing part are connected to this pipe. That is, a cylinder 52 is connected via a pipe 55, and a piston 51 is provided in this cylinder. It is also assumed that a hole is made in the upper part of the cylinder 52, a pipe 54 and a pipe 53 are connected to the hole, and check valves 57 and 56 are provided in the pipes, respectively. Next, it is assumed that a pipe 36 is connected to the hole in the lower part of the cylinder 7, and that a check valve 38, a valve 40, an accumulator 42, etc. are provided in this pipe. A through hole is provided in the piston rod 9 in the axial direction, and a pipe 25 and a valve 33 and the like are also attached to the hole. Further, a ventilation hole 43 is also provided at the top of the cylindrical body 3. Next, the piston rod 9 and the shaft 6 are designed to be removable, and both are fixed with bolts 47 or the like.

In the piping system diagram of the power generation device configured as described above, when the piston 8 reciprocates in the cylinder 7, the pipe 23,
Alternatively, oil is forced into the tube 24 or a suction effect occurs. Suppose now that oil is pushed out into the pipe 23 by the upward movement of the piston 8, the oil passes through the valve 26 and is pushed into the accumulator 13 by the interaction of the check valves 29 and 30. Due to the pressure accumulated in the rotor, this hydraulic oil rotates the oil motor (or impeller, etc.) 15 and flows into the vacuum tank 12. On the other hand, in the pipe 24, oil flows in the direction to be sucked into the cylinder 7, and this oil is sucked out from the vacuum tank 12 etc. by the interaction of the check valves 31 and 32. This oil motor (or impeller, etc.) 15 mentioned above
and 15' are transmitted to generators 14 and 14' to generate electricity. Furthermore, when the piston 8 moves downward next time, the oil will flow back to the upstream side of the check valve in the pipes 23 and 24, but due to the interaction of the check valve, the oil will flow downstream of this valve. The flow direction is the same as before. Therefore, the explanation that follows is the same as the previous explanation and will not be repeated. Next is the oil motor (or impeller, etc.)
By using a plurality of generators 15 and 15' and generators 14 and 14', when the waves are small, it is not necessary to reduce the rotation speed of the generator 14 by, for example, closing the valve 44', and the wave energy is minimal. etc., the efficiency of the power generation device will be increased overall.
Furthermore, by opening the valve 44' during a typhoon or large waves, excessive wave energy can be absorbed without waste. This operation may be performed automatically by attaching a pressure control valve, or may be controlled on land. Next, when the accumulator 13 becomes overpressured, the safety valve 45 opens to adjust the pressure. Also, if several holes are made in the piston rod 9 on both sides of the piston as shown in the figure,
It acts as a hydraulic brake for large waves that exceed the specified wave stroke. Because in this figure piston 8
If the piston moves upward, the largest hole of the piston rod 9 will cover the wall of the bearing at the upper end of the cylinder 7, and pressure will suddenly be applied to the piston.If the piston moves upward,
The oil leaks in cylinder 7 are closed one after another,
The piston 8 must stop smoothly. At the same time, since the accumulator 41 is attached via the pipe 35 at the upper end of the cylinder 7,
This piston acts as a cushion when it stops.
Therefore, not only the cylinder 7 and the piston 8 but also the entire power generating device can be prevented from being destroyed. Furthermore, even when the piston moves downward, the above-described device and operation are the same, and the description thereof will not be repeated. The operation of the device can then be stopped by closing the valves 26, 27.
Also, piping equipment after valves 26 and 27 (downstream side),
For maintenance work on equipment etc., valve 26,
By closing the maintenance bypass valve 27 and opening the maintenance bypass valve 28, maintenance work can be performed while the power generation device remains installed on the ocean. Further, by providing a through hole passing through the piston rod 9 in the axial direction, it is useful for supplying or sucking out oil within the cylindrical body 3. For refueling, a hose can be connected to the valve 33 from an external ship or the like and the oil can be supplied. In addition, for suction, it is also possible to connect a hose from a ship or the like and use a vacuum pump or the like to suck it out. Next tube 3
By connecting the cylinder 52 to the cylinder 52 through a pipe 55, it is possible to self-lubricate the bearings and the like.
First, with this device, the pipe 35 is
If the oil in the cylinder 52 is pressurized, the piston 51 is pushed upward, that is, the oil in the cylinder 52 is supplied to the bearings etc. through the pipe 53. Further, if a vacuum action occurs in the oil in the pipe 35 next, the piston 51 descends and sucks oil into the cylinder 52 from the pipe 54. By repeating this process and the action of the check valves 56 and 57, it is possible to self-lubricate the bearings and the like.

〔Effect of the invention〕

As is clear from the above explanation, according to the present invention, the energy possessed by the waves is absorbed by generating the reciprocating motion of the piston from the vertical motion of waves in the ocean, etc.
It can be converted into electrical energy at any location on the ocean. Furthermore, since the number of power generation devices of the present invention can be selected arbitrarily, a power plant with a relatively large capacity can be constructed, which will help supplement current or future power supply sources. This type of power generation device does not require a prime mover for the generator, and effectively utilizes the vertical energy of waves.
It becomes usable energy and greatly contributes to resource conservation. Since the power generation device of the present invention is of the type described above, it can be used as a device that requires power supply equipment on the ocean.
For example, floating lanterns, rescue buoys, weather observation buoys, marine lights, as well as power sources for pumping out offshore oil fields, power sources for port construction, etc., power sources for wireless bases on the ocean, or remote islands, It can be used as an energy source for island nations.

[Brief explanation of drawings]

Fig. 1 is an assembly diagram of the power generating device of the present invention, and Fig. 2 is a piping system diagram of the power generating device of the present invention.
Cylindrical body, 4... Balance floating body, 5... Balance weight, 6... Shaft, 7... Cylinder, 8... Piston, 9... Piston rod, 10... Bearing, 11
...Roller, 12...Bakyum Tank, 13
... Accumulator, 14, 14' ... Generator, 15, 15' ... Oil motor (or impeller), 16 ... Underwater roller, 17 ... Chain, 1
8... Floating body, 19... Pipe, 20... Manhole, 21... Air vent, 22... Ventilation hole, 23,2
4, 25...Pipe, 26, 27...Valve, 28...Bypass valve for maintenance, 29, 30, 31, 3
2...Check valve, 33...Valve, 34...Check valve, 3
5, 36...Pipe, 37, 38...Check valve, 39,
40...Valve, 41, 42...Archiumulator, 43...Vent hole, 44,44'...Valve, 45
... Safety valve, 46 ... Support, 47 ... Bolt, 48 ... Anchor, 49 ... Output terminal, 50
... Auxiliary equipment, 51 ... Piston, 52 ... Cylinder, 53, 54, 55 ... Pipe, 56, 57 ... Check valve, 58 ... Limiting orifice.

Claims (1)

[Claims] 1. A floating floating body that is moved up and down by waves, a cylindrical body that is held almost vertically and stationary in the water, and one or several holes in each of the piston rods on both sides of the piston, and these holes are inserted into the piston rod. Piston rods 9 each connected to communication holes drilled in the axial direction
The piston rod 9 is connected to the floating body through an arm 2 provided on the upper part of the floating body, and the cylinder is attached to the cylindrical body via a support or the like. A pipe 23 is inserted into each communication hole drilled in the axial direction.
One of the pipes 24 and 24 is connected, a check valve is provided in the middle of this pipe, and the other end is connected to the connection port of the oil motor or impeller 15. One of the moving floating bodies is a cylindrical body that is substantially stationary vertically in the water, and a piston rod 9 and a piston rod connected to the floating floating body are made to cause relative up and down reciprocation in both of them. This movement is conducted between the piston 8 and the cylinder installed in the cylindrical body, and as a result of this movement, the working medium liquid in the cylinder is compressed by the piston 8 and flows into the communication hole of the piston rod 9. A power generation device that utilizes the vertical motion of waves that are pushed out through a connected pipe 23 or 24 and used to rotate an oil motor or impeller to generate electricity.