CN104579122A - Bucket type quicksand energy storage photovoltaic power generating system - Google Patents

Abstract

The invention relates to a power generating system, in particular to a photovoltaic power generating system using quicksand as a medium to carry out energy storage. An energy storage device is changed into a mechanical device from traditional batteries. When a photovoltaic panel generates a high quantity of power, sand is raised to a higher position by excessive power through the bucket type quicksand energy storage system, and the potential energy of sand is changed. When the photovoltaic panel generates a small quantity of power or stops generating power, the potential energy of sand is converted to power energy for load use through the bucket type quicksand energy storage system. The photovoltaic power generating system is simple in structure and easy to manufacture and adopts extremely common materials. The construction fees and the maintenance fees of the photovoltaic power generating system can be effectively reduced.

Description

Bucket lifting drift sand energy storage photovoltaic generating system

Technical field

The present invention relates to a kind of power generation system, specifically a kind of photovoltaic generating system carrying out energy storage using drift sand as medium.

Background technique

The energy storage device of used photovoltaic generating system is mainly storage battery, the cost of storage battery is higher, accounts for more than 60% of photovoltaic generating system cost, and average every 2-3 will change once simultaneously, add the maintenance cost of power generation system, seriously constrain development and the popularization of clean energy resource solar energy.

Summary of the invention

The present invention shortly provides a kind of bucket lifting drift sand energy storage photovoltaic generating system to solve current photovoltaic generating system energy storage device cost height working life.

The present invention is realized by following technological scheme: a kind of bucket lifting drift sand energy storage photovoltaic generating system, structure comprises: photovoltaic panel, controller, high-order Chu Sha pond, low level Chu Sha pond, bucket lifting drift sand energy-storage system, bucket lifting drift sand power generation system, high-order Chu Sha pond is positioned at higher position, low level Chu Sha pond is positioned at lower position, the drift sand feedway of bucket lifting drift sand power generation system and the drift sand feedway of bucket lifting drift sand energy-storage system hang down to putting and lay, the drift sand feedway of bucket lifting drift sand power generation system is in the below in high-order Chu Sha pond, it is high-order Chu Sha pond valve directly over the lift bucket of drift sand feedway, the drift sand feedway of bucket lifting drift sand energy-storage system hangs down to putting and stores directly over plate at drift sand, be positioned at the side in high-order Chu Sha pond simultaneously, top exceeds a high-order Chu Sha pond part, by cable by bucket lifting drift sand energy-storage system motor, bucket lifting drift sand power generation system generator, photovoltaic panel is connected with controller respectively.

Feature of the present invention is that energy storage apparatus changes mechanical device into by traditional battery, when photovoltaic panel generating is more, sand is mentioned the potential energy that high position changes sand by bucket lifting drift sand energy-storage system by unnecessary electric energy, when photovoltaic panel generating is less or stop generating, the potential energy of sand, by bucket lifting drift sand power generation system, is transformed into electric energy for load by sand.

Structure of the present invention is simple, is easy to manufacture, and the material of employing is extremely common, can effectively reduce expense of constructing and the maintenance cost of photovoltaic generating system.

Accompanying drawing explanation

fig. 1 is bucket lifting drift sand energy storage photovoltaic power generation system structure figure

Fig. 2 is bucket lifting drift sand energy storage photovoltaic generating system energy storage operating diagram

Fig. 3 is bucket lifting drift sand energy storage photovoltaic generating system drift sand power generation operation schematic diagram

In figure: 1-photovoltaic panel, 2-Load line, 3-controller, 4-generator, 5-drift sand generating feedway main frame, the high-order Chu Sha pond of 6-, 7-high-order Chu Sha pond valve, 8-low level Chu Sha pond, 9-low level Chu Sha pond valve, 10-drift sand stores plate, 11-motor, 12-drift sand energy storage feedway main frame, 13-drift sand energy storage feedway lift bucket, 14-drift sand generating feedway lift bucket, 15-drift sand generating conveyor chain, 16-motor belt, 17-drift sand energy storage feedway gear, 18-dynamo belt, 19-drift sand energy storage feedway gear, 20-drift sand energy storage conveyor chain.

Embodiment

As shown in Figure 1, a kind of drift sand energy storage photovoltaic generating system, comprise with lower component: photovoltaic panel (1), Load line (2), controller (3), generator (4), drift sand generating feedway main frame (5), high-order Chu Sha pond (6), high-order Chu Sha pond valve (7), low level Chu Sha pond (8), low level Chu Sha pond valve (9), drift sand stores plate (10), motor (11), drift sand energy storage feedway main frame (12), drift sand energy storage feedway lift bucket (13), drift sand generating feedway lift bucket (14), drift sand generating conveyor chain (15), motor belt (16), drift sand energy storage feedway gear (17), dynamo belt (18), drift sand energy storage feedway gear (19), drift sand energy storage conveyor chain (20).Wherein drift sand energy storage feedway main frame frame (12), drift sand energy storage feedway lift bucket (13), drift sand energy storage conveyor chain (20) and drift sand energy storage feedway gear (17) composition drift sand energy storage feedway, drift sand energy storage feedway gear (17) is arranged on drift sand energy storage feedway main frame frame (12), drift sand energy storage conveyor chain (15) is inlaid on drift sand energy storage feedway main frame frame (12), drift sand energy storage feedway lift bucket (13) is fixed in drift sand energy storage conveyor chain (20), be fixed on drift sand energy storage conveyor chain (20) to engage with drift sand energy storage conveyor chain (15), motor belt (16) is arranged on motor (11) and drift sand energy storage feedway gear (17) upper composition drift sand energy-storage system.Drift sand generating feedway main frame frame (5), drift sand generating feedway lift bucket (14), drift sand generating conveyor chain (15) and drift sand generating feedway gear (19) composition drift sand generating feedway, drift sand generating feedway gear (19) is arranged on drift sand generating feedway main frame frame (5), drift sand generating conveyor chain (15) is inlaid on drift sand generating feedway main frame frame (5), drift sand generating feedway lift bucket (14) is fixed on drift sand generating conveyor chain (15), drift sand generating conveyor chain (15) and the drift sand feedway gear (19) that generates electricity engage, dynamo belt (18) is arranged on generator (5) and drift sand generating feedway gear (19) upper composition drift sand power generation system, high-order Chu Sha pond valve (7) is arranged on high-order Chu Sha pond (6), low level Chu Sha pond valve (9), drift sand stores plate (10) and is arranged on low level Chu Sha pond, by cable by drift sand energy-storage system motor (11), drift sand power generation system generator (4), photovoltaic panel (1) is connected with controller (3) respectively.

When photovoltaic panel generated energy to exceed when load needs as shown in Figure 2 when photovoltaic generating system runs, electric energy remaining after supply load is rotated by controller (3) and cable drive motor (4) by photovoltaic panel (1), motor (4) drives drift sand energy storage feedway gear (17) by motor belt (16), drift sand energy storage conveyor chain (20), drift sand energy storage feedway lift bucket (13) rotates along drift sand feedway main frame frame (12), open low level Chu Sha pond valve (9), drift sand in low level Chu Sha pond (8) stores through drift sand plate (10) to be transported to drift sand energy storage feedway opposite side by drift sand energy storage feedway lift bucket (13), drift sand enters in high-order Chu Sha pond (6) under gravity.After photovoltaic panel (1) generated energy reduces or stopping generates electricity as shown in Figure 3, close low level Chu Sha pond valve (9), open high-order Chu Sha pond valve (7), drift sand in high-order Chu Sha pond (6) enters drift sand generating feedway lift bucket (14) under gravity, drift sand generating feedway lift bucket (14) moves downward until drift sand to be poured into low level Chu Sha pond (8) under drift sand Action of Gravity Field, the drift sand moved downward drives drift sand generating conveyor chain (15), drift sand generating feedway gear (19) rotates, drift sand generating feedway gear (19) drives generator (5) to be electric energy by the potential energy of drift sand by dynamo belt (18), the electric energy transformed passes through controller (3) for load, drift sand operation of electric power system is stopped after photovoltaic panel possesses power generation conditions, continue to perform original program of bucket lifting drift sand energy storage photovoltaic generating system until drift sand power generation system of reruning circulates successively.

Claims (5)

1. a bucket lifting drift sand energy storage photovoltaic generating system, comprises with lower component: photovoltaic panel, controller, high-order Chu Sha pond, low level Chu Sha pond, bucket lifting drift sand energy-storage system, bucket lifting drift sand power generation system, is characterized in that:

High-order Chu Sha pond is positioned at higher position, low level Chu Sha pond is positioned at lower position, the drift sand feedway of bucket lifting drift sand power generation system and the drift sand feedway of bucket lifting drift sand energy-storage system hang down to putting and lay, the drift sand feedway of bucket lifting drift sand power generation system is in the below in high-order Chu Sha pond, it is high-order Chu Sha pond valve directly over the lift bucket of bucket lifting drift sand power generation system feedway, the drift sand feedway of bucket lifting drift sand energy-storage system hangs down to putting and stores directly over plate at drift sand, be positioned at the side in high-order Chu Sha pond simultaneously, top exceeds a high-order Chu Sha pond part, by cable by bucket lifting drift sand energy-storage system motor, bucket lifting drift sand power generation system generator, photovoltaic panel connects respectively at controller, described bucket lifting drift sand power generation system comprises drift sand energy storage feedway main frame frame, drift sand energy storage feedway lift bucket, drift sand energy storage conveyor chain and drift sand energy storage feedway gear and motor, described bucket lifting drift sand power generation system comprises drift sand generating feedway main frame frame, drift sand generating feedway lift bucket, drift sand generating conveyor chain, drift sand generating feedway gear and generator.

2. bucket lifting drift sand energy storage photovoltaic generating system according to claim 1, is characterized in that, utilizes the potential energy changing drift sand as the energy storage mode of power generation system.

3. bucket lifting drift sand energy storage photovoltaic generating system according to claim 1, is characterized in that, the drift sand feedway of drift sand power generation system and the drift sand feedway of drift sand energy-storage system adopt the lift bucket of choosing dress continuously.

4. bucket lifting drift sand energy storage photovoltaic generating system according to claim 1, is characterized in that, the device transporting drift sand is the combination of lift bucket and chain.

5. bucket lifting drift sand energy storage photovoltaic generating system according to claim 1, is characterized in that, the lift bucket of transporting drift sand adopts v shape structure, and the bucket body by chain side exceeds the bucket body in outside.