CN2874047Y - Hydroenergy power device with auxiliary ball - Google Patents
Hydroenergy power device with auxiliary ball Download PDFInfo
- Publication number
- CN2874047Y CN2874047Y CN 200620021115 CN200620021115U CN2874047Y CN 2874047 Y CN2874047 Y CN 2874047Y CN 200620021115 CN200620021115 CN 200620021115 CN 200620021115 U CN200620021115 U CN 200620021115U CN 2874047 Y CN2874047 Y CN 2874047Y
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- CN
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- Prior art keywords
- pipe
- sleeve
- water
- pipes
- axostylus axostyle
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
The utility model provides a water-energy power device having an auxiliary ball and relates to a water-energy power device. The purpose of the utility model is to solve the problems associated with prior water-energy power device (waterwheel) for example high volume, low operation efficient, certain requirement on water flow and flow rate, high investment in a hydro power station, and requirement on certain fall head; and waterwheel or power station is not suitable to be located at places with low water flow or fall head such as a stream, a branch of a river, etc. In the utility model, a water drive is fixed on one end of a shaft rod (17). One end of an elastic rope (14) is fixed at bottom in a pipe (13), and another end of the elastic rope (14) is fixedly connected with an auxiliary ball. When the water flow speed is high, the water drive rotates rapidly, by inertial action, the auxiliary ball (12) generates centrifugal force, drives a power-outputting wheel (11) to rotate around the shaft rod (17) in even speed, which is mainly to balance the speed. The utility model is compact, of simple structure, high operation efficiency and low investment.
Description
Technical field
The utility model relates to a kind of water motility device.
Background technique
Utilize the kinetic energy of water to drive machinery and do manual work, in order to the hardship of the work that alleviates people, the most frequently used form is " waterwheel ", is used for water lift, husk rice etc., but the waterwheel volume is big, inefficiency, and the flow and the flow velocity of water had certain requirement.And the kinetic energy that utilizes water both generates electricity non-renewable energy resources such as environmental protection does not consume petroleum, coal can build up the hydroelectric power plant of different scales.Even it is also bigger to build a small hydroelectric power station investment, and water also will have certain drop.Above-mentioned " waterwheel " or power station are unsuitable for building in brook, the branch of a river, these current of Jiang Cha or the less place of drop.
The model utility content
The purpose of this utility model is that existing water motility device (waterwheel) volume is big, inefficiency in order to solve, and the flow and the flow velocity of water had certain requirement, and the hydroelectric power plant output investment ratio is bigger, and water also will have certain drop.Waterwheel or power station are unsuitable for building in the problem in the less place of the flow velocity of brook, the branch of a river, these water of Jiang Cha or drop, and a kind of water motility device that has auxiliary ball is provided.The utlity model has that volume is little, simple in structure, the characteristics of high working efficiency, little investment, be fit to the flow velocity or the less place of drop of brook, the branch of a river, these water of Jiang Cha.The utility model comprises the water-driven device, clutch shaft bearing assembly 7, first support 8, second bearing assembly 9, second support 10, power output wheel 11, auxiliary ball 12, pipe 13, elastic rope 14 and axostylus axostyle 17, the middle part of axostylus axostyle 17 is separately positioned in the clutch shaft bearing assembly 7 and second bearing assembly 9, the clutch shaft bearing assembly 7 and second bearing assembly 9 are separately fixed at the upper end of first support 8 and second support 10, the water-driven device is fixed on the end of axostylus axostyle 17, the middle part of pipe 13 is fixed on the other end of axostylus axostyle 17, one end of elastic rope 14 is fixed on the bottom in the pipe 13, the other end of elastic rope 14 is fixedlyed connected with auxiliary ball 12, and power output wheel 11 is fixed on the axostylus axostyle 17 of managing between 13 and second bearing assembly 9.The utility model is when water-driven device high speed rotating when water velocity is very fast, because effect of inertia makes auxiliary ball 12 produce centrifugal force, is that the center of circle drives the at the uniform velocity rotation of axostylus axostyle 17 dos with axostylus axostyle 17, mainly plays the balancing speed effect.When the water-driven device when water velocity reduces than low-rotate speed or stops operating, elastic rope 14 retracts in the pipe 13.The utlity model has that volume is little, simple in structure, the advantage of high working efficiency, little investment, not only be fit to the condition that current are big or drop is big, also be fit to the flow velocity or the less condition of drop of brook, the branch of a river, these water of Jiang Cha.Be suitable for having the local unshared housing of current or small business to be used to drive generator for electricity generation, perhaps directly drive machinery and carry out operation.
Description of drawings
Fig. 1 is an overall structure schematic representation of the present utility model, Fig. 2 be the A of Fig. 1 to view, Fig. 3 is the structural representation of embodiment three.
Embodiment
Embodiment one: (referring to Fig. 1, Fig. 2) present embodiment is by the water-driven device, clutch shaft bearing assembly 7, first support 8, second bearing assembly 9, second support 10, power output wheel 11, auxiliary ball 12, pipe 13, elastic rope 14 and axostylus axostyle 17 are formed, the middle part of axostylus axostyle 17 is separately positioned in the clutch shaft bearing assembly 7 and second bearing assembly 9, the clutch shaft bearing assembly 7 and second bearing assembly 9 are separately fixed at the upper end of first support 8 and second support 10, the water-driven device is fixed on the end of axostylus axostyle 17, the middle part of pipe 13 is fixed on the other end of axostylus axostyle 17, one end of elastic rope 14 is fixed on the bottom in the pipe 13, the other end of elastic rope 14 is fixedlyed connected with auxiliary ball 12, and power output wheel 11 is fixed on the axostylus axostyle 17 of managing between 13 and second bearing assembly 9.The material of described auxiliary ball 12 is metallic iron or lead.In order to assist ball 12 radius between auxiliary ball 12 and the axostylus axostyle 17 to be strengthened with the rotation generation centrifugal force of axostylus axostyle 17, pipe 13, generally should have a groove 16 in the land of managing below 13, to guarantee auxiliary ball 12 enough spaces are arranged.
Embodiment two: (referring to Fig. 1, Fig. 2) the water-driven device of present embodiment is by three paddle blades 1, three sleeve pipes 2, puller bolt 3, three " L " shape bend pipes 4, " star " sleeve pipe 5, clamping bolt 6 and tail pipe 18 are formed, one end of tail pipe 18 is " T " font with the center of " star " sleeve pipe 5 and fixedlys connected, one end socket of the other end of tail pipe 18 and axostylus axostyle 17, one end of three " L " shape bend pipes 4 connects with three of " star " sleeve pipe 5 end pipe boxes respectively, between tail pipe 18 and the axostylus axostyle 17, between three " L " shape bend pipes 4 and " star " sleeve pipe 5 respectively by clamping bolt 6 location that are located on tail pipe 18 and " star " sleeve pipe 5, the other end of three " L " shape bend pipes 4 respectively with an end socket of three sleeve pipes 2, locate by being located at three puller bolts 3 on the sleeve pipe 2 respectively between three " L " shape bend pipes 4 and three sleeve pipes 2, three paddle blades 1 are separately fixed on three sleeve pipes 2.Other composition is identical with embodiment one with annexation.
Embodiment three: the difference of (referring to Fig. 3) present embodiment and embodiment two is, the water-driven device is by four paddle blades 1, four sleeve pipes 2, puller bolt 3, four " L " shape bend pipes 4, " ten " font sleeve pipe 25, clamping bolt 6 and tail pipe 18 are formed, one end of tail pipe 18 is " T " font with the center of " ten " font sleeve pipe 25 and fixedlys connected, one end socket of the other end of tail pipe 18 and axostylus axostyle 17, one end of four " L " shape bend pipes 4 connects with four of " ten " font sleeve pipe 25 end pipe boxes respectively, between tail pipe 18 and the axostylus axostyle 17, between four " L " shape bend pipes 4 and " ten " font sleeve pipe 25 respectively by clamping bolt 6 location that are located on tail pipe 18 and " ten " font sleeve pipe 25, the other end of four " L " shape bend pipes 4 respectively with an end socket of four sleeve pipes 2, locate by being located at four puller bolts 3 on the sleeve pipe 2 respectively between four " L " shape bend pipes 4 and four sleeve pipes 2, four paddle blades 1 are separately fixed on four sleeve pipes 2.Other composition is identical with embodiment two with annexation.
Embodiment four; (referring to Fig. 1, Fig. 2, Fig. 3) present embodiment and embodiment one, two or threes' difference is, on first support 8, be fixed with current pushing assisted plate 19, current pushing assisted plate 19 is bent upwards along the current direction of advance, and the radian that current pushing assisted plate 19 is bent upwards is parallel with the rotation round camber line 20 of paddle blade 1 outer edge.Other composition is identical with embodiment one, two or three with annexation.Current pushing assisted plate 19 its radians that are bent upwards that increase increase the thrust of current to paddle blade 1 under the impact of current.
Embodiment five: (referring to Fig. 1) present embodiment and embodiment two or threes' difference is, is fixed with lacing wire 15 between " star " sleeve pipe 5 or " ten " font sleeve pipe 25 and sleeve pipe 2.Other composition is identical with embodiment two or three with annexation.The lacing wire 15 that increases can make paddle blade 1 keep a stable angle, thereby keeps a stable working state.
Claims (4)
1, a kind of water motility device that has auxiliary ball, it comprises the water-driven device, clutch shaft bearing assembly (7), first support (8), second bearing assembly (9), second support (10), power output wheel (11), auxiliary ball (12), pipe (13), elastic rope (14) and axostylus axostyle (17), the middle part of axostylus axostyle (17) is separately positioned in clutch shaft bearing assembly (7) and second bearing assembly (9), clutch shaft bearing assembly (7) and second bearing assembly (9) are separately fixed at the upper end of first support (8) and second support (10), the water-driven device is fixed on the end of axostylus axostyle (17), the middle part that it is characterized in that pipe (13) is fixed on the other end of axostylus axostyle (17), one end of elastic rope (14) is fixed on the bottom in the pipe (13), the other end of elastic rope (14) is fixedlyed connected with auxiliary ball (12), and power output wheel (11) is fixed on the axostylus axostyle (17) between pipe (13) and second bearing assembly (9); The water-driven device is by three paddle blades (1), three sleeve pipes (2), puller bolt (3), three " L " shape bend pipes (4), " star " sleeve pipe (5), clamping bolt (6) and tail pipe (18) are formed, one end of tail pipe (18) is " T " font with the center of " star " sleeve pipe (5) and fixedlys connected, one end socket of the other end of tail pipe (18) and axostylus axostyle (17), one end of three " L " shape bend pipes (4) connects with three of " star " sleeve pipe (5) end pipe boxes respectively, between tail pipe (18) and the axostylus axostyle (17), locate by the clamping bolt (6) that is located on tail pipe (18) and " star " sleeve pipe (5) respectively between three " L " shape bend pipes (4) and " star " sleeve pipe (5), the other end of three " L " shape bend pipes (4) respectively with an end socket of three sleeve pipes (2), respectively by puller bolt (3) location that is located on three sleeve pipes (2), three paddle blades (1) are separately fixed on three sleeve pipes (2) between three " L " shape bend pipes (4) and three sleeve pipes (2).
2, the water motility device that has auxiliary ball according to claim 1, it is characterized in that the water-driven device is by four paddle blades (1), four sleeve pipes (2), puller bolt (3), four " L " shape bend pipes (4), " ten " font sleeve pipe (25), clamping bolt (6) and tail pipe (18) are formed, one end of tail pipe (18) is " T " font with the center of " ten " font sleeve pipe (25) and fixedlys connected, one end socket of the other end of tail pipe (18) and axostylus axostyle (17), one end of four " L " shape bend pipes (4) connects with four of " ten " font sleeve pipe (25) end pipe boxes respectively, between tail pipe (18) and the axostylus axostyle (17), locate by the clamping bolt (6) that is located on tail pipe (18) and " ten " font sleeve pipe (25) respectively between four " L " shape bend pipes (4) and " ten " font sleeve pipe (25), the other end of four " L " shape bend pipes (4) respectively with an end socket of four sleeve pipes (2), respectively by puller bolt (3) location that is located on four sleeve pipes (2), four paddle blades (1) are separately fixed on four sleeve pipes (2) between four " L " shape bend pipes (4) and four sleeve pipes (2).
3, the water motility device that has auxiliary ball according to claim 1 and 2, it is characterized in that it also comprises current pushing assisted plate (19), current pushing assisted plate (19) is fixed on first support (8), current pushing assisted plate (19) is bent upwards along the current direction of advance, and the radian that current pushing assisted plate (19) is bent upwards is parallel with the rotation round camber line (20) of paddle blade (1) outer edge.
4, the water motility device that has auxiliary ball according to claim 3 is characterized in that it also comprises lacing wire (15), and lacing wire (15) is fixed between " star " sleeve pipe (5) or " ten " font sleeve pipe (25) and the sleeve pipe (2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200620021115 CN2874047Y (en) | 2006-06-28 | 2006-06-28 | Hydroenergy power device with auxiliary ball |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200620021115 CN2874047Y (en) | 2006-06-28 | 2006-06-28 | Hydroenergy power device with auxiliary ball |
Publications (1)
Publication Number | Publication Date |
---|---|
CN2874047Y true CN2874047Y (en) | 2007-02-28 |
Family
ID=37780644
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 200620021115 Expired - Fee Related CN2874047Y (en) | 2006-06-28 | 2006-06-28 | Hydroenergy power device with auxiliary ball |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN2874047Y (en) |
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2006
- 2006-06-28 CN CN 200620021115 patent/CN2874047Y/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20070228 Termination date: 20110628 |