WO2013182060A1

WO2013182060A1 - Heavy pendulum intelligent automatic power station

Info

Publication number: WO2013182060A1
Application number: PCT/CN2013/076833
Authority: WO
Inventors: 杨长易; 杨利栋
Original assignee: Yang Changyi
Priority date: 2012-06-08
Filing date: 2013-06-06
Publication date: 2013-12-12
Also published as: CN102734103A

Abstract

A heavy pendulum intelligent automatic power station, having a stand(13); the stand(13) is provided with a pendulum wheel (3) on the upper end; the pendulum wheel(3) is connected to a heavy weight (1) via a swing shaft (2); two side panels(15) of the stand(13) are both provided with an intelligent automatic control device (14) thereon; when swinging left and right, the weight(1) contacts the intelligent automatic control devices (14) and maintains continuous swing; and the pendulum wheel (3) is also provided with a power output and power generation device (16) thereon capable of converting the kinetic energy generated during the swing of the weight into electric energy; the intelligent automatic control device (14) consists of a sensor (5), an electromagnetic chuck (6) and a pressure spring (7); the electromagnetic chuck (6) is disposed on the inner side of the side panel(15); the sensor (5) is disposed on the end face of the electromagnetic chuck (6); the pressure spring (7) covers the electromagnetic chuck (6) and is fixedly connected to the side panel(15) at one end thereof. The present invention uses the swing of the weight as motive power, combines vertical gravity with elastic force, uses the sensor (5) and the automatic control means of the electromagnetic chuck (6) as core, and converts the swinging mechanical energy into electrical energy by a physical method, thus achieving the power generation function without the use of fuel, and having higher practical value.

Description

Heavy pendulum intelligent automatic power station

Technical field

The invention belongs to the field of new energy technologies, and particularly relates to a re-swing type intelligent automatic power station. Background technique

Existing power generation technologies such as thermal power, nuclear power, and solar power are generated by energy sources such as coal, nuclear fuel, and solar light, which are chemical conversions of energy. Hydropower and wind power use the natural energy such as water and wind to generate electricity by physical means, which is the physical transformation of energy. Using coal as fuel for power generation not only pollutes the environment, but also brings energy shortages. Hydropower and wind power are greatly affected by geographical location and human environment. Therefore, it is necessary to seek new power generation modes. Summary of the invention

The technical problem solved by the invention provides: a re-swing type intelligent automatic power station, which combines vertical gravity and elastic force with the weight swinging as the motive force, and uses the automatic control means such as the sensor and the electromagnetic chuck as the core, and uses the physical mechanism of the swinging mechanical energy. The method is converted to electrical energy.

The technical solution adopted by the invention: a heavy pendulum intelligent automatic power station having a bracket, the upper end of the bracket is provided with a swing shaft, the swing shaft is connected with the weight through a swing rod, and both sides of the bracket are provided with intelligent automatic control The device, when the weight swings to the left and right, touches and keeps continuously oscillating with the intelligent automatic control device, and the swing shaft is further provided with a power output and a power generating device capable of converting kinetic energy generated when the weight is swung into electric energy.

Wherein, the intelligent automatic control device is composed of a sensor, an electromagnetic chuck and a pressure spring. The electromagnetic chuck is disposed on the inner side of the side plate, and the sensor is disposed on the end surface of the electromagnetic chuck, and the pressure spring is disposed on the electromagnetic chuck and one end thereof is fixedly connected to the side plate.

Wherein, the power output and power generating device comprises a swing arm, a power output wheel, a transmission and a generator, one end of the swing arm is fixedly connected with the swing shaft, and the other end of the swing arm is hinged with one end of the connecting rod, and the other end of the connecting rod is The power output wheel is hinged, and the power output shaft fixedly connected to the power output wheel is connected to the transmission input end, and the transmission output end is connected to the generator input end.

Further, the pendulum shaft is provided with a plurality of weights connected to the swing rod.

Further, two upper swing shafts are disposed on the upper end of the bracket, and a plurality of weights connected to the swing rod are disposed on the two swing shafts.

Further, the sensor is an infrared sensor.

Advantages of the present invention over the prior art:

1. No fuel or pollution is required for work and power generation;

2. It can generate electricity all day, regardless of weather, hydrology, traffic and other conditions;

3. As an economical and practical distributed power source;

4. Low power generation cost and obvious cost performance advantages;

5. As the power of road and rail transportation, as the lighting and power of ships, as the power of traditional machinery such as construction machinery, agricultural machinery, water conservancy machinery;

6. As an electric energy source for border defense and islands in remote areas. DRAWINGS

Figure 1 is a schematic structural view of the present invention;

Figure 2 is an enlarged view of a portion A of Figure 1;

Figure 3 is a side elevational view of the side panel of the present invention with the side panel removed; Figure 4 is a plan view showing the structure of the first embodiment of the present invention;

Figure 5 is a plan view showing the structure of a second embodiment of the present invention. detailed description

A first embodiment of the present invention will now be described with reference to Figs.

Heavy pendulum intelligent automatic power station with bracket 13, all devices and components are installed on the top of the bracket 13, which is the basic support of the entire power station. The upper end of the bracket 13 is provided with a swing shaft 3, and the swing shaft 3 is connected to the weight 1 through a swing rod 2, and the swing shaft 3 is provided with a plurality of weights 1 connected to the swing rod 2. An intelligent automatic control device 14 is disposed on both sides of the bracket 13 , and the weight 1 is in contact with the intelligent automatic control device 14 and continuously swings when the weight 1 swings to the left and right, and the swing shaft 3 is further provided with a weight 1 The kinetic energy generated during the swing is converted into the power output of the electric energy and the power generating device 16. The intelligent automatic control device 14 is composed of a sensor 5, an electromagnetic chuck 6 and a pressure spring 7, the electromagnetic chuck 6 is disposed inside the side plate 15, the sensor 5 is disposed on the end surface of the electromagnetic chuck 6, and the sensor 5 is infrared. sensor. The pressure spring 7 is placed over the electromagnetic chuck 6 and one end thereof is fixedly connected to the side plate 15. The power output and power generating device 16 includes a swing arm 4, a power output wheel 9, a transmission 10, and a generator 11. One end of the swing arm 4 is fixedly connected to the swing shaft 3, and the other end of the swing arm 4 is hinged to the end of the connecting rod 8. The other end of the connecting rod 8 is hinged to the power output wheel 9, and the power output shaft 12 fixedly connected to the power output wheel 9 is connected to the input end of the transmission 10. The output end of the transmission 10 is connected to the input end of the generator 11.

Working principle: When the weight 1 is moved from the stationary state to 45° with the horizon, the hammer 3 is double-acted by its own gravity and vertical gravity, and is fan-shaped (arc) around the pendulum axis 3 swing. When the weight 1 is placed at the optimal limit angle on the left side of the bracket 13, the infrared sensor 5 disposed on the side panel 15 activates the electromagnetic chuck 6, so that the electromagnetic chuck 6 immediately generates a strong electromagnetic attraction, and the weight 1 is adsorbed to the electromagnetic On the suction cup 6, at this time, the pressure spring 7 disposed on the periphery of the electromagnetic chuck 6 is adsorbed on The weight on the electromagnetic chuck 6 is strongly compressed. After the pressure spring 7 is strongly compressed, the infrared sensor 5 instantly closes the electromagnetic chuck 6, and the pressure spring 7 after the weight 1 is compressed is strongly bounced back, and is driven by the triple force of elasticity, gravity and gravity. The lower weight 1 is quickly swung to the right side of the bracket 13, and the intelligent automatic control process of the automatic control components such as the infrared sensor 5, the electromagnetic chuck 6 and the pressure spring 7 provided on the right side panel 15 is completed in an instant. When the weight 1 is again placed at the optimum limit angle on the left side of the bracket 13, the automatic control components such as the infrared sensor 5, the electromagnetic chuck 6 and the pressure spring 7 disposed on the left side of the bracket 13 also complete the same intelligent automatic control described above in an instant. The program causes the weight 1 to quickly swing to the right side of the bracket 13 under the three-energy driving of the elastic force, gravity and gravity, so that the intelligent automatic control device 14 disposed on the left and right side panels 15 of the bracket is alternately implemented under the control of the intelligent automatic control program. The weight 1 is continually oscillating energy, and sufficient force speed and frequency are maintained to achieve the purpose of continuously swinging the weight 1 to perform work. The energy of the swing shaft 3 is transmitted from the connecting rod 8 to the power output wheel 9, and the linear motion transmitted from the connecting rod 8 is converted into a rotating motion by the power output wheel 9, and the energy of the rotating motion is transmitted to the transmission 10 via the power output axle 12, The transmission 10 converts the transmitted energy to the speed and torque and transmits it to the generator 11 to generate electric energy. Among them, the power output wheel 9 is a large flywheel with counterweight, its function is to store energy, maintain the continuity and stability of the power output, to ensure the smooth and normal power generation of the generator 11.

The invention relies on its own unique structure and movement mode to realize the energy conversion of mechanical swing energy to power generation without the need of fuel, and is a new power generation technical method.

A second embodiment of the present invention will now be described with reference to Figs. 1, 2, 3, and 5.

Two swing shafts 3 are arranged at the upper end of the bracket 13, and a plurality of weights 1 connected to the swing rods 2 are arranged on the two swing shafts 3, so that the power output of the power output and the power generating device 16 can be increased, and the power can be increased. For good power generation purposes, the other is the same as the first method.

The above is only a preferred embodiment of the present invention, and equivalent changes or modifications made to the structures, features, and principles described in the claims of the present invention are included in the present invention. Within the scope of the claims.

Claims

claims

1. A heavy-swing intelligent automatic power station has a bracket (13), which is characterized in that: the upper end of the bracket (13) is provided with a swing shaft (3), and the swing shaft (3) passes through the swing rod (2) and the weight (1) connection, the bracket (13) is equipped with intelligent automatic control devices (14) on both side plates (15), and the weight (1) touches and maintains continuous contact with the intelligent automatic control device (14) when swinging left and right. Swing, the swing shaft (3) is also provided with a power output and power generation device (16) that can convert the kinetic energy generated when the weight (1) swings into electrical energy.

2. The swing-type intelligent automatic power station according to claim 1, characterized in that: the intelligent automatic control device (14) is composed of a sensor (5), an electromagnetic chuck (6) and a pressure spring (7), The electromagnetic chuck (6) is located inside the side plate (15), the sensor (5) is located on the end face of the electromagnetic chuck (6), the pressure spring (7) covers the electromagnetic chuck (6) and one end thereof is in contact with the edge. The plate (15) is fixedly connected.

3. The swing-type intelligent automatic power station according to claim 1, characterized in that: the power output and power generation device (16) includes a swing arm (4), a power output wheel (9), a transmission (10) and a power generation device. Machine (11), one end of the swing arm (4) is fixedly connected to the swing shaft (3), the other end of the swing arm (4) is hinged to one end of the connecting rod (8), and the other end of the connecting rod (8) is connected to the power The output wheel (9) is hinged, and the power output shaft (12) fixedly connected to the power output wheel (9) is connected to the input end of the transmission (10), and the output end of the transmission (10) is connected to the input end of the generator (11).

4. The weight-swing type intelligent automatic power station according to claim 1 or 2 or 3, characterized in that: the swing shaft (3) is provided with a plurality of weights (1) connected to the swing rod (2).

5. The heavy-swing intelligent automatic power station according to claim 1 or 2 or 3, characterized in that: the upper end of the bracket (13) is provided with two swing shafts (3), and the two swing shafts (3) The upper cross is provided with a plurality of weights (1) connected to the swing rod (2).

6. The swing-type intelligent automatic power station according to claim 2, characterized in that: the sensor (5) is an infrared sensor.