JPS58131372A - Power generator - Google Patents

Abstract

PURPOSE:To enable electric power to be generated by using atmospheric pressure by an arrangement wherein the water in a water tank is circulated vertically by a motor-driven water pump. CONSTITUTION:When a water pump 3 is started, the water in a water tank 1 is allowed to circulate from a water suction path 4 to a water delivery path 5 to allow power generators B1, B2 to start power generation. About one second later, a switch 7 is cut off, and a switch 9 is turned ON to drive the water pump 3 under stationary condition with the electric power derived from a power generation circuit D. Under this stationary condition, the generator B1 generates a power of about 68.5kWs, whilst the generator B2 generates a power of about 61kWs. On the secondary side of a parallel transformer 8 there is generated an output of about 109.8kWs, about 75kWs of which is consumed by a motor 2 which drives the water pump 2, and the remainder of which is stored in a battery 11 or taken off and used from a terminal 10.

Description

[Detailed Description of the Invention] The present invention relates to a device that circulates water vertically in an electric motorized water pump and uses the water flow to generate electricity. After that, the present invention aims to provide a power generation device that can generate electricity using atmospheric pressure without any energy replenishment.

Below, the present invention will be explained with reference to the embodiments shown in the drawings. Water intake R1 that communicates the lower th11b and the water pump 30 inlet
4, a spout 5 that communicates the upper sla of the tank 1 with the outlet of the water pump 3, a spout 45 (the first outlet +kBI where the turbine 1 is installed, and a turbine A2 in the suction 4).
A second power generation 4iIB2 is installed, a starting power supply circuit C for starting the water pump 3, and a second power generation circuit C for starting the water pump 3, and a second power generation circuit C for starting the water pump 3, and a second power generation circuit C for starting the water pump 3 and for extracting surplus power.
Departure - Iso B1. It is equipped with a Sakime n road that connects B2.

The water pump 3 is of a submersible type, and the weight of the water pump 3 is submerged in cooling water. Further, the tank 6 may be connected to a water supply so that the warmer water in the tank 6 is drained and refilled with cold water. The starting power supply circuit C uses a three-phase alternating current TK (220V) for music, and is configured to use the switch 7 for only one second.
Alternatively, a generator using an internal combustion engine may be connected to the pump 2 of the water pump 3 via a switch. Further, in the power generation circuit, first and second generators Bl and B2 are connected to the primary terminal of a parallel transformer 8, and the transformer 8
The electric motor 2 of the water heater 3 is connected via the switch 9 to the secondary side of the
is connected to the output terminal 10 for extracting surplus power, and the output terminal (for power storage) 11a via the switch 12, the device 11
It is configured with the following. Note that a hopper-type kite E is fixed at the center of the water tank 1. The exit portion 13 of this side E can also be provided with a 3A3 of the da3tlI machine B3.

Next, the vC effect will be explained. Now, for example, the water tank l is -side 4
To explain the case where the diameter of the water suction WI 4 is 2 m and the diameter of the discharge channel 5 is 1.5 m, when the water pump 3 is started with the starting power supply circuit C, water is drawn from the water tank 1 yen to the water intake Wb. 4. Circulate with waterway 5 and generate 1.2 power @
lB1. B2 each starts generating power. Then, after about 1 second, turn off the switch 7, turn on the switch 9, and turn on the water pump 3.
is driven steadily by the power generated by the generator circuit. In the steady state of the L7 lever, 60 tons of water flows into the spout 6 every time, generating electricity for the first generator Blri of 68.5kw, and also for the second generator B.
It generates 2ij61kw and connects t to the secondary side of parallel transformer 8.
It has an output of 109.8mw, of which '75kw
is consumed by the electric motor 2 of the water pump 3, and the rest is stored in the storage 1.
Even if the electricity is stored in the terminal 1 or taken out from the terminal lO and used, the water pontoon 3 can still be generated with less electricity than the total generated power.
The reason why the water is continuously driven by Dhm is as follows. In other words, as is well known as a siphon, liquid can be driven between two reservoirs by the action of atmospheric pressure, but m1
In the figure, the lower part lb of the water tank 1 corresponds to the first container, the upper part 1a of the water tank 1 corresponds to the second container, and the water pump 3 corresponds to the suction channel number and the discharge channel siphon pipe VC. The power consumption will be less than the power generated. In other words, the present invention is a power generation device that converts atmospheric pressure into electricity.

As is clear from the above explanation, the present invention uses a water pump with a rotating mechanism to pump water in a water tank in a vertical direction Km, and a generator is installed in each of the water pump's suction and discharge channels to produce power. A portion of the water pump can be used to operate the water pump, while the rest can be used for rowing. Therefore, at present, only a small amount of energy is required when starting the water bottle 1, and the 1kr.
It has an extremely excellent effect of converting atmospheric pressure into electricity without any replenishment of construction energy.

[Brief explanation of the drawing]

i1 diagram The vertical #-plane doctor of the embodiment of the present invention, Figure 2 shows the same electric 1
ih#M diagram. Al+A2" three turbines, Bl*B2: generator, C; starting power supply circuit, D = power generation circuit, E guide, 1: water tank, 1a: still above, 1b = Okashita, 2: electric a
Rock, 3: Water tank, 4: Intake channel, 5: Outlet channel. Applicant +111 Rin Aiko

Claims (1)

[Claims] Upper atmospheric communication expansion tank and the outside of the tank
K & repaired electric motorized water pump, an intake channel that communicates the lower part of the tank with the inlet of the water pump, a discharge channel that communicates the upper part of the tank with the outlet of the water pump, and a turbine in the discharge channel. A first generator installed, a second generator with a turbine installed in the suction channel, a starting power supply circuit for starting the water pump, and a starting power supply circuit for operating the water pump steadily and extracting surplus power. Water pump and 1st. A power generation device comprising a power generation circuit to which a second generator is connected.