WO2012135982A1 - Rolling groove type water turbine - Google Patents

Abstract

A rolling groove type water turbine is composed of a rolling shaft (1), rolling grooves (2) and rolling groove brackets (3). The rolling groove opening of one latter rolling groove faces the rolling groove bottom of one preceding rolling groove. A side of each rolling groove adjacent to the rolling shaft (1) is connected with the rolling shaft (1). Two adjacent rolling grooves (2) are fixedly connected to each other by one rolling groove bracket (3). A rectangular water inlet (6) is provided in parallel with the rolling shaft (1) at a side of the rolling groove bottom adjacent to the rolling shaft (1). A rectangular sealing rubber gasket (7) is provided at the periphery of the water inlet (6) inside the rolling groove bottom. A rectangular water inlet sealing cover (8) is provided at the periphery of the rectangular sealing gasket (7). A side of the water inlet sealing cover (8) far away from the rolling shaft (1) is connected with the rolling groove bottom through a hinge (9). Two end corners at a side of the water inlet sealing cover (8) adjacent to the rolling shaft (1) are connected with the rolling groove bottom through a soft spring (10). The water energy suction device is designed as the rolling groove, so that the area and volume encountering the water flow are effectively increased. When the rolling groove opening encounters the water flow, the water flow energy is effectively converted into electric energy.

Description

 Rolling groove type water turbine

 The present invention relates to a hydroelectric power plant, and more particularly to a gutter type turbine.

 Background technique

 The known hydraulic turbine has a driving device which is made of a plurality of single blades of the same shape, and the impact of the water flow on the blades realizes the conversion from water energy to electric energy, and the force receiving area of the water flow is relatively small, The conversion efficiency of water energy is relatively low, especially the conversion utilization rate of micro-drip water flow energy is close to zero. Upon retrieval, there are currently no inventions or products similar to the present invention.

 Summary of the invention

 It is an object of the invention to provide a grooved turbine. It not only can improve the utilization of high-drop water flow energy into electric energy, but also can efficiently convert micro-drip water flow energy into electric energy, which can realize efficient use of high-drop water flow energy and high-efficiency conversion of water flow into electric energy. The dual effect.

 Technical Solution of the Invention: A grooved water turbine is composed of a roller, a rolling groove and a rolling groove bracket. The roller groove is aligned with the rolling groove of the latter rolling groove on the roller. In this way, the rolling roller is evenly distributed with a plurality of groove grooves which are aligned at the same end, have the same shape, and have the same loading capacity. One side of the rolling groove adjacent to the roller is connected with the roller, and the adjacent two rolling grooves are passed through the groove bracket. The connection is fixed, and a rectangular water inlet is arranged parallel to the roller at the bottom of the rolling groove adjacent to the roller, and a rectangular sealing rubber pad with a certain width is arranged around the bottom portion of the bottom of the rolling groove, along the rectangular outer periphery of the sealing rubber pad. There is a rectangular water inlet cover which is matched with the water inlet cover. The side of the water inlet cover away from the roller is connected with the bottom of the groove through the hinge, and the two end angles of the water inlet cover adjacent to the roller pass through the soft The spring is connected to the bottom of the groove.

The utility model has the advantages that: since the water energy picking device of the invention is designed as a rolling groove, when the groove groove fully meets the water flow, the area and volume of the water flow are effectively improved, and the water flow energy is efficiently converted, in particular, the micro drop can be efficiently converted. The water flows in water, thereby ensuring that the water flow, especially the micro-water flow, can be converted into electrical energy widely and efficiently. DRAWINGS

 The invention will now be further described with reference to the drawings and embodiments.

 The drawings are schematic representations of the invention. In the drawings, 1. roller, 2. rolling groove, 3. rolling groove bracket, 4. rolling groove, 5. groove bottom, 6. water inlet, 7. sealing gasket, 8. water inlet cover, 9. Hinge, 10. Soft spring.

 detailed description

 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS As shown in the accompanying drawings, in the manner of aligning the rolling groove 4 of the subsequent rolling groove 2 with the rolling groove bottom 5 of the preceding rolling groove 2, the rolling roller 1 is evenly distributed. a rolling groove 2 which is aligned at the same end, has the same shape and has the same loading capacity, and one side of the rolling groove 2 adjacent to the roller 1 is connected with the roller 1, and the adjacent two rolling grooves 2 are connected and fixed by the rolling groove bracket 3, A rectangular water inlet 6 is arranged parallel to the roller 1 on the side of the groove bottom 5 adjacent to the roller 1. The water inlet 6 is provided with a rectangular sealing gasket 7 of a certain width at the inner side of the bottom portion of the groove bottom 5, and is sealed along the seal. The rectangular outer periphery of the rubber pad 7 is provided with a rectangular water inlet cover 8 which is matched with the same. The side of the water inlet cover 8 away from the roller 1 is connected with the groove bottom 5 through the hinge 9 , and the water inlet cover 8 is adjacent. The two end angles of one side of the roller 1 are connected to the groove bottom 5 by a soft spring 10.

Claims

Claim

1. A grooved water turbine, characterized in that it consists of a roller, a rolling groove and a grooved bracket. The roller groove is aligned with the rolling groove of the latter rolling groove on the roller. In the bottom mode, the rolling roller is evenly distributed with a plurality of groove grooves which are aligned at the same end, have the same shape, and have the same loading capacity. One side of the rolling groove adjacent to the roller is connected with the roller, and the adjacent two rolling grooves pass through the rolling groove. The bracket is connected and fixed, and a rectangular water inlet is arranged parallel to the roller at the bottom of the rolling groove adjacent to the roller, and a rectangular sealing rubber pad with a certain width is arranged around the inner side of the bottom portion of the rolling groove, and the rectangular gasket along the sealing pad The outer periphery is provided with a rectangular water inlet cover which is matched with the same. The side of the water inlet cover away from the roller is connected with the bottom of the groove through the hinge, and the two end angles of the water inlet cover adjacent to one side of the roller It is connected to the bottom of the groove by a soft spring.

 2. A grooved water turbine according to claim 1, wherein the shape of the groove is designed to be rectangular, trapezoidal, semi-circular or other shape.

 3. A grooved water turbine according to claim 1, wherein the water inlet of the groove bottom can be designed as one or more as needed.

 4. A grooved water turbine according to claim 1, wherein the shape of the water inlet of the groove bottom is designed to be rectangular, trapezoidal, semi-circular or other shape.

 5. A grooved water turbine according to claim 1, wherein the water inlet cover of the groove bottom is designed to be rectangular, trapezoidal, semi-circular or other shape.