JPS6153466A - Stipping and starting devices for power plant - Google Patents

Abstract

PURPOSE:To facilitate bot stopping and starting motions for a power plant ever so easy, by installing a lot of flat vessels stacking in position adjacent to a vessel housing the power plant of a perpetual motion or the like, while connecting the said vessel to each of these flay vessels via a pipe provided with valves interposingly. CONSTITUTION:Plural pieces of vessels A-P made up of setting up plural struts 17 inside are mounted and locked on a ferro-concrete foundation 10 adjoining to a vessel 1 having built in a first-class perpetual motion (unillustrated herein) or a power plant in a position 18 in a state of being stacked in layer. A cleaning service inlet is installed one side of each of these vessels A-P and this inlet is closed by a lid 20. Each of these vessels A-P is connected to the vessel 1 via pipes 3 and 5 provided with each of valves 2 and 4, and vessels N-P is connected to a turbine pump 7 via a pipe 29 provided with a valve 30 interposingly, and furthermore these vessles A-P are connected each to a turbine pump 11 via a pipe 25 provided with a valve 23. The outlet side of each of these pumps 7 and 11 is connected to the vessel 1 via pipes 13 and 14.

Description

[Detailed Description of the Invention] Since the first-class perpetual motion machine of the original invention does not have a stop device,
It is possible to stop the lubricating oil by transferring it to another container, but when it is time to start it again, the lubricating oil must flow into the container (1) using another power source to move the first-class perpetual motion machine. , a stopping device and a starting device of the present invention.

□ (Configuration of container (1)) □ The container in which the power device of the original invention is attached to the positioner of the power device in container (1) is ).

□ (Structure from container (A) to container tPl) □A, Reinforced concrete foundation) u Weld a short column 071 to the bottom using a welder.

Mouth Place the same circular container (0) on top of it and container tPl
and container (0) are welded together using a welding machine.

ノ) Also, as before, stand up the seven short pillars of the container (0)
Lava the very short column q71 with a welder.

Snake Next, place the container (■) on top of it and weld the container (0) and container (G)) together using a welding machine.

Next, as before, we set up seven short pillars αη and a short pillar t.
Weld lη using a welding machine.

5 In this way, 16 containers from container tPl to container (Al) are sequentially welded using a welding machine.

80 Next, place a circular iron plate (■) on top of the container A) and adhere it with a welder.

H. Next, enter the inside from the cleaning inlet and weld the upper part of the short column aη using a welding machine.

9. Weld the inner sides of the joint between the two containers using a welding machine.

Next, place a gasket on the cleaning inlet C11 to prevent lubricating oil from leaking from the cleaning member Q11, put the lid on it, and tighten it with a screw.

In this way, secure the lid of the cleaning inlet at+ from container A) to container (PI) with a screw.

□(Easy) to Capacity aPl) - A, 5th
As shown in the figure, the bottom surface has a circular groove α9 that allows the lubricating oil to easily flow.

The mouth is also raised higher toward the center so that it can flow more easily into this groove U9.

- (Configuration of connection pipe (3)) - A. Insert connection t4 pipe (3) into the pipe hole of container (1), then connect 7Nl + pipe (3) into the pipe hole of container A).
3) Insert it and weld it using a welding machine so that the lubricating oil does not leak.

Insert the connecting pipe (3) of the container tBl into the pipe hole of the container (1) in the same way, and then
Insert the connecting pipe (3) into the pipe hole of the container tBl, and use a welder to apply lubricating oil to it.

C. Using this method, connect the container (1) and container (P) to the container (P) using the connecting pipe (3) and weld them together using a welding machine.

2. When the handle (2) attached to the welded connecting pipe (3) is rotated, the handle (8) opens and the lubricating oil flows inside the connecting pipe (3).

□ (Configuration of the connecting pipe (5)) □ A. Insert the connecting pipe (5) into the pipe hole of the container (1), then insert the connecting pipe into the pipe hole of the container (A) and weld it with a welding machine.

Insert the connecting pipe (5) of the container tBl into the pipe hole of the container (1) in the same manner, and then insert the connecting pipe (5) into the pipe hole of the container tBl and weld it using a welding machine.

C. In this way, connect the container (1) and the container (from Al to the container tel) using the connecting pipe (5) and weld them using a welding machine.

2. When the handle (4) attached to the welded connecting pipe (5) is turned, the ben U61 opens and the lubricating oil flows inside the connecting pipe (5).

□ (Configuration of connection pipe 4) □ A. Connect the pipe (6) to the containers from container tPl to container [Nl with the connection pipe.

B. When the handle attached to connecting pipe 4 is rotated, vent C11l opens, allowing lubricating oil to flow into the turbine and pump (7).

□ (Configuration of connection pipe 4) □ A. Connect pipe α2 and the container (from Al to container tPl with connection pipe 4).

When the handle attached to connection pipe 4 is rotated, a vent (241) opens and the remaining oil in the container flows into the turbine and pump all.

□ (Configuration of Air Robe Vive (2)) □ A. Connect the Air Robe Vive surface with the connecting pipe ■ from the ceiling part of the container from container +Al to container tPl.

Port This air lever is used to let air in the sealed container in and out from the air port pipro when lubricating oil flows into or out of the containers from container (A) to container fP+. be.

□ (Operation of turbine and pump (7)) □ Rotate the handle (3) to open the bear f311 and use the electric power from the power source between the nuclear power plants to operate the turbine and pump (7), and the container fN+ and the container +01, the lubricant in the container fPI passes through the pipe (6), into the turbine and pump (7), then through the pipe Q41, and then through the connecting pipe (9), and then into the container (1). ).

□ (Turbine, action of pump 111) □ Matsu, container (A
) to the container tp + turn the handle attached to the connecting pipe (25). When the gate opens and the electric power from the power source between the nuclear power plants acts on Tarpino and PopqD,
The remaining lubricating oil from container IAI to container (P) passes through Ben (8), Ben (the leakage port from 1ω, or the turbine and pump α1 through pipe 0z), and then into pipe t1.
31 and further into the container (1) through a connecting pipe.

□ (Function of the stop device) □ A. To stop the power equipment between the nuclear power plants, rotate the handle (2) attached to the connecting pipe (3) that connects to the container (A), the vent (8) will open and the container ( Some of the lubricating oil in 1) flows into the container (method).

Next, when the handle (2) attached to the connecting pipe (3) connected to the container [Bl is rotated, the vent (8) opens and some of the lubricating oil in the container (1) flows into the container tBl.

C Next, the same container (C) (ζ connecting pipe (3)
), rotate the handle (2) attached to the ben (8
), some of the lubricating oil in the open container (1) flows into the container tcl.

A seed perpetual motion machine is a stopping device that stops.

□ (Precautions when stopping) □ A. When stopping, please be careful of the container f.
When flowing in order from A+, do not rotate the handle (2) of the connecting pipe (3) that connects to the container (B+).

Also, when lubricating oil flows into the container tBl,
The handle (2) of the connecting pipe (3) that connects to the container tel
Be careful not to rotate 1.

□ (Operation of the activation device) □ A. Turn the handle (2) to close the ben (8).

When you turn the handle (4) attached to the connecting pipe (5) that connects to the mouth and container (M), Ben Q61 or the open container (
1) The lubricating oil in the container flows into the container.

C. After flowing into the container (1), turn the handle (4) to close the vent (161).

2. Next, when the handle (4) on the connecting pipe (5) connected to the container tLl is rotated, the lubricating oil in the container tLl will flow into the container 161 which opens into the container (1).

(e) After the liquid has flowed into the container (1), turn the handle (4) to close the ben 06).

Next, when the lubricating oil from the container (Kl) to the container tAl flows into the container (1) using the same method, the first-class perpetual motion machine that had been stopped is activated.

84 Next, open the handle marked with the connecting pipe C that connects the container tPl to the container tNl, and rotate the turbine and pump (7) using the remaining electric power of this power unit, and the container tNl and the container (0) will be rotated. , the lubricating oil in the container tPl passes through the pipe (6) and then through the pipe circle,
Furthermore, it flows into the container pile through the connecting pipe (9).

H. When the lubricating oil has finished flowing into the container (1), the turbine,
When the pump (7) is stopped, the power unit operates normally.

□ (Ben (8) Ben (Leaked oil from Iω)
The remaining lubricating oil and Ben's leakage are pipe α2.
through the turbine, through the bong 7'' [11), and then through the
It flows into the container (1) through the pipe 03) and further through the connecting pipes α.

□ (Effects of the invention) □ A. Since a first-class perpetual motion machine is also a machine, there will come a time when it needs to be repaired, so if there is a stop device for the power unit, it will be easier to repair the power unit.

(b) It also makes it easier to inspect and repair the power unit.

C. If there is a stopping device and a starting device, it becomes a power device that can be used for general industrial purposes.

Second, if it has a stopping device and a starting device, it becomes a power plant that can also be used for ships.

Control 1 by opening Ho Ben (8)
I can do it. Furthermore, when the turbine and pump [111] are operated, normal operation is achieved.

4. The additional related power plant stopping device and starting device of the Mokki invention are pursuant to Patent Law 31.
Additional patent application pursuant to Article 1, Paragraph 1

[Brief explanation of drawings]

Figure 1 is a front view of the interior. Figure 2 is an internal plan view. Figure 3 is a left side view Figure 4 is a right side view Figure 5 is a diagram showing the groove α. Figure 6 shows connecting pipe (3) Figure 7 shows connecting pipe (5) Figure 8 shows the cleaning lid. Figure 9 shows the connecting pipe Figure 10 shows the connection pipe (to)

Claims (1)

[Claims] 1. Vent (
8) When opened, some of the lubricating oil in container (1) will leak into container (A).
flow inside. In this way, from container (A) to container (
When the lubricating oil in the container (1) is poured into the containers up to P) by opening the vent (8) and flowing into the container (A) in order, the first-class perpetual machine is stopped.The stop device 2 is connected to the container (M). Ben (1) of the connecting pipe (5)
6) When opened, the lubricating oil in the container (M) flows into the container (1). After inflow, close the vent (16). In this way, when the lubricating oil from between the containers to container (A) is opened in order from the vent (16) of container (M) and flows into container (1), the first-class perpetual motion machine that had been stopped is activated. A triggering device to do so.