CN210396957U - Power generation system based on pipeline water pressure - Google Patents

Abstract

The utility model discloses a power generation system based on pipeline water pressure, including water pipe, flabellum shell, flabellum, shell, fastener, connecting piece, battery, engine, circuit module, the flabellum sets up inside with the water pipe, and the flabellum bottom is connected with connecting piece one end, the connecting piece other end is connected with the engine rotor, the engine sets up in shell bottom center, the shell passes through fastener fixed mounting on the outer wall of water pipe bottom exit, the flabellum shell is established between the flabellum outside and water pipe inner wall, and the flabellum shell is connected with the shell, the battery sets up in shell bottom edge, and be equipped with circuit module between battery and the engine, this system can utilize the water resource to carry out the collection of electric energy and store, alleviates the nervous problem of electric energy, moreover this system receives the less.

Description

Power generation system based on pipeline water pressure

Technical Field

The utility model relates to a power generation system based on pipeline water pressure.

Background

At present, most domestic power plants mainly use thermal power generation (coal and natural gas) which accounts for about 70% of the total power generation amount, and are assisted by hydroelectric power generation, nuclear power, wind power, diesel engines, geothermal energy, solar energy and the like. In poor and laggard areas, the economy is not developed enough, and the local electricity consumption is limited. The structure of supplying electric power in China. As is well known, the energy structure of China largely determines the power supply structure of China. The energy of China is based on coal for a long time in the past, and the specific gravity of the coal in the energy is always high.

For example, a household generator disclosed in CN107288801A is used to convert mechanical energy that is not easily utilized in water flow in household water pipes into electrical energy that is easily utilized. The electric generator comprises an electric generator, wherein one end of the electric generator is provided with fan blades and is inserted into a water pipe through a three-way pipe, and the other end of the electric generator is connected with a storage battery. Through adopting above-mentioned structure, open tap, water high-speed ground in the water pipe flows, and the flabellum that drives the generator through rivers can be with the mechanical energy conversion of water electric energy, uses the electric energy storage in the battery when needs, and the device can't realize the storage and the release of electric energy.

The national investment on thermal power is fast, and is restricted by factors such as technology, early preparation and the like, and the comprehensive construction of nuclear power also needs a process. Therefore, the proportion of thermal power in the future is reasonably believed to be further improved. Due to the factors, the specific gravity of the clean energy power generation is slowly increased, the coal-based power supply structure is difficult to adjust, and the power structure is unbalanced in development. It follows that imbalance in the development of power structures results in limited power usage in many areas. In addition, under the condition of emergency power failure, how to obtain an emergency power supply is a problem which needs to be solved urgently at present.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a power generation system based on pipeline water pressure.

The utility model discloses a following technical scheme can realize.

The utility model provides a pair of power generation system based on pipeline water pressure, including water pipe, flabellum shell, flabellum, shell, fastener, connecting piece, battery, engine, circuit module, the flabellum sets up inside with the water pipe, and the flabellum bottom is connected with connecting piece one end, and the connecting piece other end is connected with the engine rotor, and the engine sets up in shell bottom center, and the shell passes through fastener fixed mounting on the outer wall in water pipe bottom exit, and the flabellum shell is established between the flabellum outside and water pipe inner wall, and the flabellum shell is connected with the shell, and the battery sets up in shell bottom edge, and is equipped with circuit module.

The flabellum includes rotating vane and connecting rod, and the rotating vane is from top to bottom successive layer evenly installed on the connecting rod, and the connecting rod lower extreme is connected with connecting piece one end.

The connecting member is a rotating shaft.

The fastener comprises a bolt and a nut, the bolt penetrates through a bolt hole formed in the shell, the bolt is inserted into the outer wall of the water pipe, and the nut plays a role in fixing.

The bottom of the fan blade shell penetrates through the outlet at the bottom end of the water pipe and is connected with the shell.

And a waterproof cover is arranged outside the storage battery.

The circuit module comprises a voltage stabilizing chip U2, capacitors C1-C4, interfaces J1-J3, a storage battery U1 and a storage battery U3, wherein a pin 1 of the voltage stabilizing chip U2 is respectively connected with a pin 2 of an interface J2 and one end of a capacitor C2, the other end of the capacitor C2 and a pin 1 of the interface J2 are respectively connected with a pin 2 of a voltage stabilizing chip U2, a pin 3 of the voltage stabilizing chip U2 is respectively connected with a pin 1 of the storage battery U1 and a pin 1 of the storage battery U3, a pin 2 of the voltage stabilizing chip U3 is respectively connected with a pin 2 of the storage battery U3 and a pin 2 of the storage battery U3, the capacitors C3 and the capacitors C3 are respectively connected between the pin 3 and the pin 2 of the voltage stabilizing chip U3 in parallel, the capacitors C3 are respectively connected with two ends of the capacitor C3, and the pin 3 and the pin 4 of the storage battery U3 are respectively connected with the interface J364 and the pin 3 and the interface J3.

The interface J2 is connected with the engine, and the interface J1 and the interface J3 are respectively used as output ends.

The beneficial effects of the utility model reside in that: the system can utilize water resources to collect and store electric energy, the problem of electric energy shortage is relieved, and the system is less influenced by the environment and can realize stable output of the electric energy.

Drawings

FIG. 1 is a front view of the structure of the present invention;

FIG. 2 is a schematic top view of the present invention;

fig. 3 is a circuit diagram of the circuit module of the present invention;

FIG. 4 is a flow chart of the present invention;

in the figure: 2-water pipe, 3-fan blade shell, 4-fan blade, 5-shell, 6-fastener, 7-connecting piece, 8-storage battery and 10-engine.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

The utility model provides a power generation system based on pipeline water pressure, includes water pipe 2, flabellum shell 3, flabellum 4, shell 5, fastener 6, connecting piece 7, battery 8, engine 10, circuit module, flabellum 4 sets up and water pipe 2 is inside, and 4 bottoms of flabellum are connected with 7 one ends of connecting piece, and the 7 other ends of connecting piece are connected with 10 rotors of engine, and engine 10 sets up in 5 bottoms of shell center, and shell 5 passes through 6 fixed mounting of fastener on the outer wall of 2 bottoms exit of water pipe, and flabellum shell 3 establishes between the 4 outsides of flabellum and 2 inner walls of water pipe, and flabellum shell 3 is connected with shell 5, and battery 8 sets up in 5 bottoms of shell edge, and is equipped with circuit.

Flabellum 4 includes rotating vane and connecting rod, and the rotating vane is from top to bottom successive layer evenly installed on the connecting rod, and the connecting rod lower extreme is connected with connecting piece 7 one end, and connecting piece 7 is the rotation axis.

The fastener 6 comprises a bolt and a nut, the bolt penetrates through a bolt hole formed in the shell 5 and is inserted into the outer wall of the water pipe 2, and the nut plays a role in fixing.

The bottom of the fan blade shell 3 penetrates through the outlet at the bottom end of the water pipe 2 and is connected with the shell 5.

The storage battery 8 is externally provided with a waterproof cover.

The circuit module comprises a voltage stabilizing chip U2, capacitors C1-C4, interfaces J1-J3, a storage battery U1 and a storage battery U3, wherein a pin 1 of the voltage stabilizing chip U2 is respectively connected with a pin 2 of an interface J2 and one end of a capacitor C2, the other end of the capacitor C2 and a pin 1 of the interface J2 are respectively connected with a pin 2 of a voltage stabilizing chip U2, a pin 3 of the voltage stabilizing chip U2 is respectively connected with a pin 1 of the storage battery U1 and a pin 1 of the storage battery U3, a pin 2 of the voltage stabilizing chip U3 is respectively connected with a pin 2 of the storage battery U3 and a pin 2 of the storage battery U3, the capacitors C3 and the capacitors C3 are respectively connected in parallel between the pin 3 and the pin 2 of the voltage stabilizing chip U3, the capacitors C3 are respectively connected in parallel at two ends of the capacitor C3, a pin 3 and a pin 4 of the storage battery U3 are respectively connected with a pin 3 and a pin 4 of the interface J3, and an interface J3 and a.

Interface J2 is connected to engine 10; the interface J1 and the interface J3 are respectively used as output ends.

The utility model discloses a theory of operation: the bolt is screwed into the shell and the water pipe to tightly attach the shell and the water pipe, so that the whole device cannot be tripped. When water flows through the rotating blades in the water flowing direction, the water washes the rotating blades, the rotating blades rotate to drive the rotating shaft to rotate, the rotating shaft drives the rotor of the engine to rotate, and the engine generates electricity; the electric energy output by the engine charges the storage battery through the electric energy output line; the fan blade has a good water-proof function between the storage battery and the fan blade shell, namely water in the water flowing direction cannot affect the storage battery; the engine can adopt a direct current motor to output direct current, and if the water pressure of the water pipeline is large enough, an alternating current motor can be adopted to directly output alternating current. The whole device adopts a symmetrical structure.

When the engine generates electricity, the storage battery is charged through the electric energy output line, wherein the voltage reduction and voltage stabilization circuit is embedded with the storage battery together, and the electric energy collection function is realized; the storage battery discharges through the electric energy output line, wherein the storage battery has the function of direct current voltage stabilization output, a rectification voltage stabilizing circuit is not needed any more, and electric energy is output from the interface J1 and the interface J3, so that the discharging function is realized.

Claims (8)

1. A power generation system based on pipeline water pressure is characterized in that: comprises a water pipe (2), a fan blade shell (3), a fan blade (4), a shell (5), a fastener (6), a connecting piece (7), a storage battery (8), an engine (10) and a circuit module, wherein the fan blade (4) is arranged in the water pipe (2), the bottom end of the fan blade (4) is connected with one end of a connecting piece (7), the other end of the connecting piece (7) is connected with a rotor of an engine (10), the engine (10) is arranged at the center of the bottom of the shell (5), the shell (5) is fixedly arranged on the outer wall of the outlet at the bottom end of the water pipe (2) through a fastening piece (6), the fan blade shell (3) is arranged between the outer side of the fan blade (4) and the inner wall of the water pipe (2), and the fan blade shell (3) is connected with the shell (5), the storage battery (8) is arranged at the bottom edge of the shell (5), and a circuit module is arranged between the storage battery (8) and the engine (10).

2. The pipe-water-pressure-based power generation system of claim 1, wherein: flabellum (4) are including rotating leaf and connecting rod, and the rotating leaf is from top to bottom successive layer uniform mount on the connecting rod, and the connecting rod lower extreme is connected with connecting piece (7) one end.

3. The pipe-water-pressure-based power generation system of claim 1, wherein: the connecting piece (7) is a rotating shaft.

4. The pipe-water-pressure-based power generation system of claim 1, wherein: the fastener (6) comprises a bolt and a nut, the bolt penetrates through a bolt hole formed in the shell (5), the bolt is inserted into the outer wall of the water pipe (2), and the nut plays a role in fixing.

5. The pipe-water-pressure-based power generation system of claim 1, wherein: the bottom of the fan blade shell (3) penetrates through the outlet at the bottom end of the water pipe (2) and is connected with the shell (5).

6. The pipe-water-pressure-based power generation system of claim 1, wherein: and a waterproof cover is arranged outside the storage battery (8).

7. The pipe-water-pressure-based power generation system of claim 1, wherein: the circuit module comprises a voltage stabilizing chip U2, capacitors C1-C4, interfaces J1-J3, a storage battery U1 and a storage battery U3, wherein a pin 1 of the voltage stabilizing chip U2 is respectively connected with a pin 2 of an interface J2 and one end of a capacitor C2, the other end of the capacitor C2 and a pin 1 of the interface J2 are respectively connected with a pin 2 of a voltage stabilizing chip U2, a pin 3 of the voltage stabilizing chip U2 is respectively connected with a pin 1 of the storage battery U1 and a pin 1 of the storage battery U3, a pin 2 of the voltage stabilizing chip U3 is respectively connected with a pin 2 of the storage battery U3 and a pin 2 of the storage battery U3, the capacitors C3 and the capacitors C3 are respectively connected between the pin 3 and the pin 2 of the voltage stabilizing chip U3 in parallel, the capacitors C3 are respectively connected with two ends of the capacitor C3, and the pin 3 and the pin 4 of the storage battery U3 are respectively connected with the interface J364 and the pin 3 and the interface J3.

8. The pipe-water-pressure-based power generation system of claim 7, wherein: the interface J2 is connected with the engine (10), and the interface J1 and the interface J3 are respectively used as output ends.

Images