阅读说明：本技术 液体助力发电装置 (Liquid power-assisted power generation device ) 是由 李晓春 于 2019-12-04 设计创作，主要内容包括：液体助力发电装置,属于电动机发电技术领域。本发明为了解决现有偏远地区发电设备陈旧老化,安全隐患大,线路过载而造成的电力不足的问题。本发明包括电动机、传动机构、容器、液体、容器支架和发电机。电动机通过传动机构带动装有液体的容器前后摆动,前后摆动的容器中流动的液体产生的能量作用在摆动的容器上,前后摆动的容器通过传动机构将与发电机连接的构件变成旋转运动,发电机连接构件发动发电机旋转发电。本发明不需要额外的建立输电线路和变压装置,且装置安全,结构简单,适合任何地区使用。(Liquid helping hand power generation facility belongs to motor power generation technical field. The invention aims to solve the problems of old aging, large potential safety hazard and insufficient power caused by overload of a circuit of the power generation equipment in the existing remote areas. The invention comprises a motor, a transmission mechanism, a container, liquid, a container bracket and a generator. The motor drives the container filled with liquid to swing back and forth through the transmission mechanism, energy generated by the liquid flowing in the container swinging back and forth acts on the swinging container, the container swinging back and forth changes a component connected with the generator into rotary motion through the transmission mechanism, and the generator connecting component starts the generator to rotate to generate electricity. The invention does not need to additionally establish a power transmission line and a transformation device, has safe device and simple structure and is suitable for any area.)

1. Liquid helping hand power generation facility, its characterized in that: the electric power generation device comprises a motor (1), a container (12), liquid (18), a container rotating shaft (19), a container support (20), a generator (26) and a transmission mechanism (27), wherein the bottom of the container (12) is installed on the container support (20) through the container rotating shaft (19), the liquid (18) is filled in the container (12), the motor (1) drives the container (12) filled with the liquid (18) to swing back and forth through the transmission mechanism (27), energy generated by the liquid (18) flowing in the container (12) acts on the swinging container (12), the generator (26) is installed at the output end of the transmission mechanism (27), and the container (12) swinging back and forth drives the generator (26) to generate electricity through the transmission mechanism (27).

2. The fluid assisted power generation apparatus of claim 1, wherein: the two ends of the container (12) are provided with a front power-assisted spring (22) and a rear power-assisted spring (24), the front power-assisted spring (22) is arranged on a front power-assisted spring seat (23), and the rear power-assisted spring (24) is arranged on a rear power-assisted spring seat (25).

3. The fluid assisted power generation apparatus of claim 1, wherein: the transmission mechanism (27) comprises a small belt pulley (2), a transmission belt (3), a large belt pulley (4), a belt gear transmission shaft (5), a small gear (6), a large gear (7), a large gear shaft (8), a transmission rod shaft (9), a transmission rod (10), a connection shaft (11) and a container connection rod (15), the small belt pulley (2) is installed on an output shaft of the motor (1), the small belt pulley (2) drives the large belt pulley (4) to rotate through the transmission belt (3), the large belt pulley (4) is installed on the belt gear transmission shaft (5), the small gear (6) is also installed on the belt gear transmission shaft (5), the large belt pulley (4) drives the small gear (6) to rotate through the belt gear transmission shaft (5), the small gear (6) is meshed with the large gear (7), the large gear (7) is installed on the large gear shaft (8), the generator (26) is connected, a transmission rod shaft (9) is installed on the disk surface of the large gear (7), a transmission rod (10) is installed on the transmission rod shaft (9), the other end of the transmission rod (10) is connected with a container connecting rod (15) through a connecting shaft (11), the other end of the container connecting rod (15) is fixedly connected onto a container (12), a container rotating shaft (19) is installed at the center of the lower portion of the container (12), and the container rotating shaft (19) is fixedly installed on a container support (20).

4. The fluid assisted power generation apparatus of claim 1, wherein: the container (12) is one of a hollow cylinder, a hollow ellipsoid or a hollow bicone.

5. The fluid assisted power generation apparatus of claim 1, wherein: the power generation device is characterized by further comprising a storage battery, the generator (26) is electrically connected with the storage battery, the storage battery is electrically connected with the motor (1), electricity generated by the generator (26) is stored in the storage battery, and the electricity in the storage battery is used for being input into a power grid.

6. The liquid-assisted power generation device of claim 5, wherein: the electricity generated by the generator (26) is stored in a battery, and the electricity in the battery is used for driving the motor (1) to rotate.

7. The fluid assisted power generation apparatus of claim 3, wherein: the large belt pulley (4) and the small gear (6) are of an integrated structure, and the large belt pulley (4) and the small gear (6) are installed on the belt gear transmission shaft (5).

Technical Field

The invention relates to a power generation device, and belongs to the technical field of motor power generation.

Background

For a long time, in remote rural areas of China, due to the fact that the geographic position is remote, the power grid construction is backward, the power quality cannot be guaranteed, and parts of the areas are even in a non-power state, so that the development of the economy and the society of the remote areas and the lives of local residents are seriously influenced. In recent years, construction of remote areas in China has been developed to a certain extent, and under the strong promotion of a 'household power on' project, the power on rate of the remote areas is greatly improved. The total capacity of power transformation and the total mileage of power lines in remote areas are increased year by year, but the power grid in remote areas still has the following problems at present:

1. the medium-voltage distribution network in remote areas of China is mainly powered by single-power-supply radiation, and unreasonable phenomena such as circuit roundabout, overlong power supply radius, overload circuit and the like generally exist. The problems that the position of a distribution transformer deviates from the load center, the power supply radius of a low-voltage line is large, the three-phase load is unbalanced and the like exist in large quantity.

2. The power grid equipment level is low, a plurality of high-energy-consumption transformers are still in operation, the phenomena of old aging and the like of the power grid equipment are serious, the potential safety hazard is large, the line loss is high, the management is difficult, and old lines are not coordinated with new rural construction.

Based on the above description, it is desirable to provide a safe and convenient power generation device without establishing a power transmission line and a transformation device.

Disclosure of Invention

The invention aims to solve the problems of old aging, large potential safety hazard and insufficient power caused by overload of a circuit of the conventional power generation equipment in remote areas, and further provides a liquid power-assisted power generation device.

Technical scheme of the invention

Liquid helping hand power generation facility includes: the bottom of the container is arranged on the container support through the container rotating shaft, the motor drives the container filled with liquid to swing back and forth through the transmission mechanism, energy generated by the liquid flowing in the container swinging back and forth acts on the rotating container, the container swinging back and forth changes a component connected with the generator into rotary motion through the transmission mechanism, and the generator connecting component drives the generator to rotate to generate electricity.

Furthermore, the container is provided with booster springs at two ends, the booster springs are fixed on booster spring bases, when the container filled with liquid rotates forwards, the liquid in the container flows forwards, the energy generated by the liquid flowing forwards in the rotating container acts on the rotating container, the liquid flowing forwards impacts the inner wall of the front end part of the container, after the energy is released, the liquid flows backwards, the front part of the container is pressed on the front booster spring, the elastic thrust generated by the compression booster spring pushes the container to rotate backwards, when the container rotates backwards, the energy generated by the liquid flowing backwards in the rotating container acts on the rotating container, the liquid flowing backwards impacts the inner wall of the rear end part of the container, after the energy is released, the liquid flows forwards, the rear part of the container is pressed on the rear booster spring, the elastic thrust generated by the rear compression booster spring pushes the container filled with liquid to rotate forwards, and the container rotating forwards and backwards turns a component connected with a generator into rotary motion through a transmission mechanism, the generator connecting component drives the generator to rotate to generate electricity.

Furthermore, a small belt pulley is installed on the motor shaft, the small belt pulley drives a large belt pulley to rotate through a conveying belt, the large belt pulley drives a small gear to rotate through a transmission shaft, the small gear drives a large gear to rotate, the large gear shaft is connected with a generator, a rocker shaft is installed on the outer side of the large gear shaft, a rocker is installed on the rocker shaft, the other end of the rocker is connected with a container connecting rod shaft, the other end of the container connecting rod is connected with a container, a water tank transmission shaft is installed in the center of the lower portion of the container, the container swings back and forth along the rotating shaft of the container, a power-assisted spring is installed on the lower portion of the front end and the rear end of the container, when the container swings forwards, the container is pressed on the front power-assisted spring, elastic thrust generated by the compression power-assisted spring pushes the container to swing backwards, when, the rotating big gear drives the high-power generator to rotate to generate electricity.

Further, the container containing the liquid includes: hollow cylinder, hollow ellipsoid and hollow bicone.

Furthermore, the generator is electrically connected with a storage battery, the storage battery is electrically connected with the motor, electricity generated by the generator is stored in the storage battery, and the electricity in the storage battery is input into a power grid.

Further, electricity generated by the generator is stored in a storage battery, and the electric drive motor rotates in the storage battery.

Further, the electric energy converted from the solar energy is stored in a storage battery, and an electric driving motor in the storage battery rotates.

The invention has the following beneficial effects: the liquid power-assisted power generation device obtains electric energy by driving a large high-power motor through a small-power motor. The power supply of remote areas and areas without power can be realized, a power transmission line and a voltage transformation device do not need to be established, and the power loss in long-distance power transmission and the safety problem caused by the aging of a complex circuit are reduced. The operation is simple and convenient, the operation of a too professional technician is not needed, the structure is simple and understandable, and the fault problem is convenient and quick to maintain.

Drawings

Fig. 1 is a horizontal configuration diagram of a fluid and spring-assisted electric power generating apparatus of the fluid-assisted electric power generating apparatus.

Fig. 2 is a structural view of a forward rotation state of a fluid and spring assist electric power generating apparatus of the fluid assist electric power generating apparatus.

Fig. 3 is a structural view of a liquid and spring assist electric power generating apparatus of the liquid assist electric power generating apparatus in a backward rotation state.

In the figure 1-motor, 2-small belt pulley, 3-conveyor belt, 4-big belt pulley, 5-belt gear transmission shaft, 6-small gear, 7-big gear, 8-big gear shaft, 9-transmission shaft, 10-transmission shaft, 11-container connecting shaft and transmission shaft, 12-container, 13-container front arc surface, 14-container rear arc surface, 15-container connecting shaft, 16-liquid, 17-backward flowing liquid, 18-forward flowing liquid, 19-container rotating shaft, 20-container support, 21-foundation, 22-front booster spring, 23-front booster spring seat, 24-rear booster spring, 25-rear booster spring seat, 26-generator and 27-transmission mechanism.

Detailed Description