CN204984705U - Hydroenergy power device - Google Patents

Abstract

The utility model discloses a hydroenergy power device relates to hydroenergy power technical field. Including carousel, bearing frame and power output shaft, the carousel is connected to power output shaft's upper end, and the bearing frame is worn out to the lower extreme, still including 2n+1 hydroenergy power component of group and a set of power water distribution subassembly, wherein: N is natural number 1, 2, 3,. Hydroenergy power component evenly arranges the periphery at the carousel, power water distribution unit mount is in the centre of carousel, hydroenergy power component and power water distribution subassembly pass through power water input tube and connect. Have and need not build water -stop dam and waterwheel, can utilize shallow bid mountain spring rivers, and the efficiency characteristics such as higher of changeing of low discharge, high water head, be suitable for the mountain area that has inconvenient traffic with power shortage and use.

Description

A kind of water motility device

Technical field

The utility model relates to water motility technical field, particularly a kind of water motility device.

Background technique

In prior art, people utilize the method for water energy to mainly contain waterwheel and water turbine, and waterwheel is the gravity utilizing water in the bucket on streamer waterwheel, drive waterwheel to rotate, thus export the mechanical energy rotated.This mode utilizes large discharge, low water head, needs waterwheel that construction one is large and check dam, and for the shallow bid mountain spring current of small flow, high head, but cannot utilize; Water turbine normally utilizes high head.

Model utility content

The purpose of this utility model is to provide one not to be needed to build check dam and waterwheel, can utilize the shallow bid mountain spring current of small flow, high head and the higher power plant of transformation efficiency.

For achieving the above object, technical solution adopted in the utility model is a kind of water motility device of design, comprises rotating disk, bearing support and pto＝power take-off, and the upper end of described pto＝power take-off connects rotating disk, and lower end passes bearing support; Also include 2 ⁿ⁺¹group water motility assembly and one group of power water distribution assembly, wherein: n is natural number 1,2,3, Described water motility assembly is evenly arranged in the periphery of rotating disk, and described power water distribution assembly is arranged on the centre of rotating disk; Water motility assembly is connected by power water inlet pipe with power water distribution assembly.

Described water motility assembly comprises power water tank, power water inlet pipe, dynamical balancing frame, dynamical balancing bar, power lever and power plate; The inner side surface of described power water tank and outer side surface are respectively equipped with inner equilibrium piston cylinder and outer equalizing piston cylinder, the left surface of described power water tank and right flank are respectively equipped with left equalizing piston cylinder and right power mouth; Described dynamical balancing frame is sleeved on the periphery of power water tank, one end of the outer equalizing piston supporting with outer equalizing piston cylinder and the left equalizing piston supporting with left equalizing piston cylinder and dynamical balancing bar is connected dynamical balancing frame, and the other end of dynamical balancing bar extends the dynamical balancing bar connected in adjacent one group of water motility assembly after propping up the power plate be arranged in the middle part of rotating disk; The inner equilibrium piston supporting with inner equilibrium piston cylinder is connected with one end of power lever, and its other end props up power plate; Described power water inlet pipe by power water tank above with the inner space of power water tank.

Described outer equalizing piston is identical with the area of inner equilibrium piston, and left equalizing piston is identical with the area of right power mouth, and the area of inner equilibrium piston is greater than the area of right power mouth.

Described power water distribution assembly comprises power water distribution tube and power water input black box, the outer cylinder of described power water distribution tube has osculum that is identical with water motility component count and that be connected with power water inlet pipe, and power water input black box is arranged on above described power water distribution tube.

Described power water input black box is mechanical sealing device.

More than two, power water distribution tube supporting post for supporting motive force water distribution tube is also provided with below described power water distribution tube.

Water motility device of the present utility model, adopt and the small flow mountain spring water of high head is introduced in the power water tank of water motility assembly, utilize dynamical balancing frame, dynamical balancing bar and power plate dissolve a left side, the pressure of right both sides and lateral direction, thus leave the pressure of interior side direction, the pressure of side direction disalignment in recycling, be applied on power plate by power lever, and then produce the active force promoting turntable rotation, therefore, the small flow mountain spring water of high head can be utilized, and do not need to build dam, directly mountain spring is drawn lower from mountain with small-bore water pipe, also no longer need large waterwheel is installed.Meanwhile, because right power open area is less than inner equilibrium piston area, thus, from the water of right power mouth ejection small amount can produce larger in the active force of side direction, so its transformation efficiency is higher.

Accompanying drawing explanation

Fig. 1 is schematic front view of the present utility model;

Fig. 2 is the main cross-sectional schematic along C-C axis of the present utility model;

Fig. 3 is schematic top plan view of the present utility model;

Fig. 4 is the cross-sectional schematic of bowing along A-A axis of the present utility model;

Fig. 5 is the cross-sectional schematic of bowing along B-B axis of the present utility model;

Fig. 6 is K close-up schematic view of the present utility model;

Fig. 7 is H close-up schematic view of the present utility model.

In figure:

1 is left water motility assembly, 2 is rotating disks, 3 is bearing supports, 4 is pto＝power take-offs, 5 is front water motility assemblies, 6 is power water distribution tube, 7 is power water input black boies, 8 is rear water motility assemblies, 9 is right water motility assemblies, 10 is left outside equalizing pistons, 11 is left outside equalizing piston cylinders, 12 is left dynamical balancing frames, 13 is left power water tanks, 14 is left equalizing pistons, 15 is left equalizing piston cylinders, 16 is left and right power mouths, 17 is left inside equalizing piston cylinders, 18 is left inside equalizing pistons, 19 is left power water inlet pipes, 20 is rear dynamical balancing frames, 21 is rear outer equalizing piston cylinders, 22 is rear outer equalizing pistons, 23 is rear right power mouths, 24 is rear power water tanks, 25 is rear left equalizing piston cylinders, 26 is rear left equalizing pistons, 27 is rear inner equilibrium pistons, 28 is rear inner equilibrium piston cylinders, 29 is rear power water inlet pipes, 30 is front power-balanced bars, 31 is left power plates, 32 is left dynamical balancing bars, 33 is front power plates, 34 is rear power plates, 35 is rear dynamical balancing bars, 36 is front power water inlet pipes, 37 is right power mouths, 38 is right outside equalizing pistons, 39 is right outside equalizing piston cylinders, 40 is right power water tanks, 41 is right inside equalizing pistons, 42 is right left equalizing piston cylinders, 43 is right left equalizing pistons, 44 is right inside equalizing piston cylinders, 45 is right dynamical balancing frames, 46 is right power water inlet pipes, 47 is right power plates, 48 is right dynamical balancing bars, 49 is front outer equalizing piston cylinders, 50 is front outer equalizing pistons, 51 is front right power mouths, 52 is front left equalizing piston cylinders, 53 is front left equalizing pistons, 54 is front power water tanks, 55 is front inner equilibrium piston cylinders, 56 is front inner equilibrium pistons, 57 is front power-balanced frames, 58 is left power levers, 59 is rear power levers, 60 is right power levers, 61 is front power levers, 62 is power water distribution tube supporting posts.

Embodiment

Below in conjunction with drawings and Examples, the utility model is further described.Explanation below adopts the mode exemplified, but protection domain of the present utility model should not be limited to this.

The water motility device of the present embodiment, n is adopted to equal 1, that is: be made up of front water motility assembly 5, rear water motility assembly 8, left water motility assembly 1, right water motility assembly 9 four groups of water motility assemblies and one group of power water distribution assembly and rotating disk 2, bearing support 3 and pto＝power take-off 4, four groups of water motility assemblies are evenly arranged in the periphery of rotating disk 2; The upper end of installing pto＝power take-off 4 in the middle of rotating disk 2 connects, and the lower end of pto＝power take-off 4 passes bearing support 3 downwards, for Power output; Power water distribution assembly is arranged on the centre of rotating disk 2.

Power water distribution assembly inputs black box 7 by power water distribution tube 6 and power water and power water distribution tube supporting post 62 is formed, power water distribution tube 6 supports by four (this example adopts four, also can adopt the radical of two or three or other quantity) power water distribution tube supporting posts 62 centre being arranged on rotating disk 2.Osculum, rear osculum, left osculum and right osculum before the outer cylinder of power water distribution tube 6 has, (this example adopts mechanical sealing device to power water input black box 7, also other device can be adopted) be arranged on above power water distribution tube 6, for introducing the current of high head.

Front water motility assembly 5 is made up of front power water tank 54, front outer equalizing piston cylinder 49, front outer equalizing piston 50, front left equalizing piston cylinder 52, front left equalizing piston 53, front inner equilibrium piston cylinder 55, front inner equilibrium piston 56, front power-balanced frame 57, front power lever 61, front power water inlet pipe 36, front power-balanced bar 30, front power plate 33.Front power plate 33 is the plate with step, is arranged on the front of rotating disk 2 intermediate power water distribution tube 6.Front power water tank 54 is arranged on the front edge of rotating disk 2, it is the hexahedron (that is: cuboid or square body) of rectangular in cross-section, its right flank has front right power mouth 51, left surface is provided with front left equalizing piston cylinder 52 and supporting installation front left equalizing piston 53, the front outer equalizing piston 50 of outer equalizing piston cylinder 49 supporting installation before outer side surface is provided with, inner side surface is provided with front inner equilibrium piston cylinder 55 and inner equilibrium piston 56 before supporting installation.Front power-balanced frame 57 is sleeved on the periphery (that is: periphery) of front power water tank 54, its left side and outside are connected front left equalizing piston 53 and front outer equalizing piston cylinder 49 respectively, its inner edge connects one end of front power-balanced bar 30, and the other end of front power-balanced bar 30 extends the rear dynamical balancing bar 32 connected in left water motility assembly 1 after propping up the step on front power plate 33 top.One end of front power lever 61 connects front inner equilibrium piston 56, and the other end props up the front of front power plate 33 lower step, as the Driving force input point promoting rotating disk 2 rotation.One end of front power water inlet pipe 36 is communicated with the inner chamber of front power water tank 54 by front power water tank 54 faces down, the other end connects the left osculum on power water distribution tube 6 outer cylinder.

Left water motility assembly 1 is made up of left power water tank 13, left outside equalizing piston cylinder 10, left outside equalizing piston 11, left equalizing piston cylinder 15, left equalizing piston 14, left inside equalizing piston cylinder 17, left inside equalizing piston 18, left dynamical balancing frame 12, left power lever 58, left power water inlet pipe 19, left dynamical balancing bar 32, left power plate 31.Left power plate 31 is the plate with step, is arranged on the left side of rotating disk 2 intermediate power water distribution tube 6.Left power water tank 13 is arranged on the left hand edge of rotating disk 2, it is the hexahedron (that is: cuboid or square body) of rectangular in cross-section, its right flank has left and right power mouth 16, left surface is provided with left equalizing piston cylinder 52 and supporting installation front left equalizing piston 53, outer side surface is provided with front outer equalizing piston cylinder 15 and the left outside equalizing piston 14 of supporting installation, and inner side surface is provided with left inside equalizing piston cylinder 17 and the left inside equalizing piston 18 of supporting installation.Left dynamical balancing frame 12 is sleeved on the periphery (that is: periphery) of left power water tank 13, its left side and outside are connected left equalizing piston 14 and left outside equalizing piston cylinder 11 respectively, its inner edge connects one end of left dynamical balancing bar 32, the other end of left dynamical balancing bar 32 extend after propping up the step on left power plate 31 top connect after rear dynamical balancing bar 35 in water motility assembly 8.One end of left power lever 58 connects left inside equalizing piston 18, and the other end props up the front of left power plate 31 lower step, as another Driving force input point promoting rotating disk 2 rotation.One end of left power water inlet pipe 19 is by the inner chamber being communicated with left power water tank 13 that left power water tank 13 faces down, and the other end connects the rear osculum on power water distribution tube 6 outer cylinder.

Rear water motility assembly 8 is made up of rear power water tank 24, rear outer equalizing piston cylinder 21, rear outer equalizing piston 22, rear left equalizing piston cylinder 25, rear left equalizing piston 26, rear inner equilibrium piston cylinder 28, rear inner equilibrium piston 27, rear dynamical balancing frame 20, rear power lever 59, rear power water inlet pipe 29, rear dynamical balancing bar 35, rear power plate 34.Rear power plate 34 is the plate with step, is arranged on the back of rotating disk 2 intermediate power water distribution tube 6.Rear power water tank 24 is arranged on the rear edge of rotating disk 2, it is the hexahedron (that is: cuboid or square body) of rectangular in cross-section, its right flank has rear right power mouth 23, left surface is provided with rear left equalizing piston cylinder 25 and supporting installation rear left equalizing piston 26, outer side surface is provided with rear outer equalizing piston cylinder 21 and supporting installation outer equalizing piston 22 afterwards, and inner side surface is provided with rear inner equilibrium piston cylinder 28 and inner equilibrium piston 27 after supporting installation.Rear dynamical balancing frame 20 is sleeved on the periphery (that is: periphery) of rear power water tank 24, its left side and outside are connected rear left equalizing piston 26 and rear outer equalizing piston cylinder 22 respectively, one end of dynamical balancing bar 35 after its inner edge connects, extends the right dynamical balancing bar 48 connected in right water motility assembly 9 after the other end of rear dynamical balancing bar 35 props up the step on rear power plate 34 top.One end of rear power lever 59 connects rear inner equilibrium piston 27, and the other end props up the front of rear power plate 34 lower step, as another Driving force input point promoting rotating disk 2 rotation.One end of rear power water inlet pipe 29 is communicated with the inner chamber of rear power water tank 24 by rear power water tank 24 faces down, the other end connects the right osculum on power water distribution tube 6 outer cylinder.

Right water motility assembly 9 is made up of right power water tank 40, right outside equalizing piston cylinder 39, right outside equalizing piston 38, right left equalizing piston cylinder 42, right left equalizing piston 43, right inside equalizing piston cylinder 44, right inside equalizing piston 41, right dynamical balancing frame 45, right power lever 60, right power water inlet pipe 46, right dynamical balancing bar 48, right power plate 47.Right power plate 47 is the plate with step, is arranged on the right of rotating disk 2 intermediate power water distribution tube 6.Right power water tank 40 is arranged on the right hand edge of rotating disk 2, it is the hexahedron (that is: cuboid or square body) of rectangular in cross-section, its right flank has right power mouth 37, left surface is provided with right left equalizing piston cylinder 42 and the right left equalizing piston 43 of supporting installation, outer side surface is provided with right outside equalizing piston cylinder 39 and the right outside equalizing piston 38 of supporting installation, and inner side surface is provided with right inside equalizing piston cylinder 44 and the right inside equalizing piston 41 of supporting installation.Right dynamical balancing frame 45 is sleeved on the periphery (that is: periphery) of right power water tank 40, its left side and outside are connected right left equalizing piston 42 and right outside equalizing piston cylinder 38 respectively, its inner edge connects one end of right dynamical balancing bar 48, the other end of right dynamical balancing bar 48 extend after propping up the step on right power plate 47 top connect before front power-balanced bar 30 in water motility assembly 5.One end of right power lever 60 connects right inside equalizing piston 41, and the other end props up the front of right power plate 47 lower step, as another Driving force input point promoting rotating disk 2 rotation.One end of right power water inlet pipe 46 is by the inner chamber being communicated with right power water tank 40 that right power water tank 40 faces down, and the other end connects the front osculum on power water distribution tube 6 outer cylinder.

Outer equalizing piston above in each water motility assembly is identical with the area of inner equilibrium piston, and left equalizing piston is identical with the area of right power mouth, and the area of inner equilibrium piston is greater than the area of right power mouth; The center line of the axis runout rotating disk 2 of outer equalizing piston and inner equilibrium piston.

Before using, bearing support 3 is arranged on pedestal fixing, allows the pto＝power take-off 4 stretched out be connected with load (as generator or other mechanical device) downwards; Again the high head current attracted being inputted black box 7 by power water is incorporated in the inner chamber of power water distribution tube 6, right power water inlet pipe 46, left power water inlet pipe 19, front power water inlet pipe 36 and rear power water inlet pipe 29 is distributed to respectively by front osculum, rear osculum, left osculum and the right osculum on power water distribution tube 6 outer cylinder, and then enter respectively in the inner chamber of right power water tank 40, left power water tank 13, front power water tank 54 and rear power water tank 24, carrying out water can change.Below, the working principle of water motility assembly 5 is that example is described:

The current of high head (that is: flow velocity is very fast) are entered the inner chamber of front power water tank 54 by front power water inlet pipe 36 after, produce pressure in each side of front power water tank 54 inner chamber; When water in current power water tank 54 inner chamber is sprayed by front right power mouth 51, pressure is to the right cleared up; Meanwhile, the water of front power water tank 54 inner chamber can produce a thrust left to front left equalizing piston 53, promotes front left equalizing piston 53 and is moved to the left, and then produce a thrust left to front power-balanced frame 57; Because front power-balanced frame 57 is connected as a single entity with front power-balanced bar 30, thus, equally a thrust is left produced to front power-balanced bar 30; Because the mid-rear portion of front power-balanced bar 30 is connected with the left part of the right dynamical balancing bar 48 of right water motility assembly 9, and the rear portion of front power-balanced bar 30 props up the step on front power plate 33 top, thus, this thrust is left dissolved on front power plate 33, because the center line of this front power plate 33 is just to the center of rotating disk 2, therefore rotary action is not produced to rotating disk 2.Meanwhile, the water meeting thrust that outwards (that is: forward) generation one is outside of front power water tank 54 inner chamber, and then, drive front power-balanced frame 57 together with the outwards movement of front power-balanced bar 30, because the rear end of front power-balanced bar 30 is connected with the left dynamical balancing bar 32 in left water motility assembly 1, thus, this outside thrust is dissolved equally.Now, the water meeting thrust that inwardly (that is: backward) generation one is inside of front power water tank 54 inner chamber, and then before promoting, inner equilibrium piston 56 moves inward together with front power lever 61; Rear end due to front power lever 61 props up the front of front power plate 33 lower step, and then produces a thrust backward to front power plate 33; Because front power plate 33 is not in the central point of rotating disk 2, thus, this thrust backward will form the Driving force promoting shaft axis that rotating disk 2 rotates dish 2 and rotate.The working principle of other each water motility assembly is identical therewith.

Area due to front right power mouth 51 is significantly smaller than the area of front inner equilibrium piston 56, and thus, the water yield sprayed by front right power mouth 51 is less, but the thrust that front inner equilibrium piston 56 produces is comparatively large, therefore the conversion efficiency of water energy is higher.

Water motility device of the present utility model, is suitable for the mountain area had inconvenient traffic with electricity shortage and uses.

Claims (6)

1. a water motility device, comprises rotating disk, bearing support and pto＝power take-off, and the upper end of described pto＝power take-off connects rotating disk, and lower end passes bearing support; It is characterized in that: also include 2 ⁿ⁺¹group water motility assembly and one group of power water distribution assembly, wherein: n is natural number 1,2,3, Described water motility assembly is evenly arranged in the periphery of rotating disk, and described power water distribution assembly is arranged on the centre of rotating disk; Water motility assembly is connected by power water inlet pipe with power water distribution assembly.

2. water motility device according to claim 1, is characterized in that: described water motility assembly comprises power water tank, power water inlet pipe, dynamical balancing frame, dynamical balancing bar, power lever and power plate; The inner side surface of described power water tank and outer side surface are respectively equipped with inner equilibrium piston cylinder and outer equalizing piston cylinder, the left surface of described power water tank and right flank are respectively equipped with left equalizing piston cylinder and right power mouth; Described dynamical balancing frame is sleeved on the periphery of power water tank, one end of the outer equalizing piston supporting with outer equalizing piston cylinder and the left equalizing piston supporting with left equalizing piston cylinder and dynamical balancing bar is connected dynamical balancing frame, and the other end of dynamical balancing bar extends the dynamical balancing bar connected in adjacent one group of water motility assembly after propping up the power plate be arranged in the middle part of rotating disk; The inner equilibrium piston supporting with inner equilibrium piston cylinder is connected with one end of power lever, and its other end props up power plate; Described power water inlet pipe by power water tank above with the inner space of power water tank.

3. water motility device according to claim 2, it is characterized in that: described outer equalizing piston is identical with the area of inner equilibrium piston, left equalizing piston is identical with the area of right power mouth, and the area of inner equilibrium piston is greater than the area of right power mouth.

4. water motility device according to claim 3, it is characterized in that: described power water distribution assembly comprises power water distribution tube and power water input black box, the outer cylinder of described power water distribution tube has osculum that is identical with water motility component count and that be connected with power water inlet pipe, and power water input black box is arranged on above described power water distribution tube.

5. water motility device according to claim 4, is characterized in that: described power water input black box is mechanical sealing device.

6. water motility device according to claim 5, is characterized in that: below described power water distribution tube, be also provided with more than two, power water distribution tube supporting post for supporting motive force water distribution tube.