CN109653932B - Stable prevent floating stream debris and float tubular hydroelectric generation device - Google Patents

Abstract

The invention discloses a stable anti-drift sundry floating pipe type hydroelectric generation device which structurally comprises an anti-blocking cover, a sealing floating pipe, a connecting frame, a fixing ring, a support, a barrel, a horizontal water distribution plate and a bottom water distribution plate, wherein the left side of the anti-blocking cover is nested on the outer surface of the right side of the barrel, and the sealing floating pipe is fixed above the barrel. Compared with the prior art, the invention improves the contact area of the device and water through the horizontal water distribution plate and the bottom water distribution plate which are respectively a horizontal plane and a vertical plane, reduces the front impact force of water flow on the device, improves the reaction force of the device on water, enables the device to be more stable, avoids the change of direction of the device, prevents the water flow from impacting a water wheel and influencing the power generation efficiency, enables the rotator to have a rotary force by utilizing the accelerated water flow in the cylinder through the water baffle plate, enables the water baffle block to be impacted by the water to enable the sundry grabbing net to shrink, grabs small sundries and fish which pass through the protective cover in the water flow and throws the small sundries and fish out through the movable discharge hole through the rotary force.

Description

Stable prevent floating stream debris and float tubular hydroelectric generation device

Technical Field

The invention relates to the field of hydroelectric power generation, in particular to a stable anti-drift sundry floating pipe type hydroelectric power generation device.

Background

The floating pipe type hydroelectric generator directly utilizes the advection hydrodynamic force of rivers, ocean currents and tides, and through the speed-up device inside the floating pipe type hydroelectric generator, the fluid speed in the pipe is accelerated, the impulse water wheels rotate, the generator is driven to generate electricity, a dam is not required to be built to intercept water flow to manufacture height difference, the floating pipe type hydroelectric generator is close and natural and is suitable for various environments, but the prior art considers the deficiency that:

1. in a water area with rapid and complex water flow turbulence, the direction of the water is easily changed by complex undercurrent and large waves, so that the water flow cannot impact the water wheel, and the power generation efficiency is influenced;

2. and the situation is complicated among the waters, there are often various domestic waste, fallen leaves and branches that the river bank drops are following the current and down, easily by the suction that the rivers of the higher velocity of flow in the flotation tube produced, enter into the flotation tube inside and entangle water wheels, lead to water wheels unable rotation, the generator can not generate electricity, fish have the mobility of flowing simultaneously, some small-size fishes can be because the flotation tube velocity of flow is very fast and move about to the flotation tube, gather near the flotation tube or even inside, have certain possibility can be drawn into water wheels, fragile water wheels.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a stable anti-drift sundry floating pipe type hydraulic power generation device, which aims to solve the problems that in a water area with rapid and complex water flow turbulence, the direction is easily changed by complex undercurrent and large waves, so that water flow cannot impact a water wheel, the power generation efficiency is influenced, the conditions in the water area are complex, various kinds of domestic garbage and fallen leaves and branches falling from a river bank enter the floating pipe to entangle the water wheel, the water wheel cannot rotate, a power generator cannot generate power, and small fishes can be drawn into the water wheel with certain possibility to be easily damaged.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a stable prevent floating debris and float tubular hydroelectric generation device, its structure is including preventing stifled cover, sealed pipe, link, solid fixed ring, support, barrel, horizontal water diversion plate, bottom water diversion plate, its characterized in that floats:

prevent stifled cover left side nestification in barrel right side surface, sealed pipe of floating is fixed in the barrel top, the link passes through bolt and solid fixed ring top fixed connection, gu fixed ring nestification floats on the pipe with sealed pipe interference fit that floats, the support passes through bolt and solid fixed ring below fixed connection, the barrel top sets up the support and passes through the bolt fastening, horizontal distributive plate symmetric distribution is in barrel both sides terminal surface, bottom distributive plate slidable mounting is in the barrel below.

As preferred, the barrel comprises intake antrum, water conservancy diversion head, debris net grab eduction gear, movable discharge hole, support frame, drainage chamber, rotation water wheels, intake antrum and support frame fixed connection, water conservancy diversion head and intake antrum are located same axis and fixed mounting in the support frame inboard, debris net grab eduction gear and movable discharge hole clearance fit, the movable discharge hole runs through in the intake antrum, the support frame is located the rotation water wheels right-hand member, drainage chamber and intake antrum structure as an organic whole, rotation water wheels through pivot movable mounting in water conservancy diversion head left end face.

Preferably, the bottom water distribution plate is composed of a water distribution head, a plate body, a connecting block, a plate back and a water distribution ridge, the water distribution head is located below the connecting block and integrated with the plate body, the water distribution ridge fixedly connected with the water distribution head is arranged on the lower side of the plate body, and the connecting block is fixedly mounted above the plate back.

Preferably, the drainage cavity consists of a shell and an accelerating rifling, and the accelerating rifling and the shell are of an integrated structure.

Preferably, the sundry net grabbing and discharging device is composed of a water blocking block, a sundry grabbing net, a water blocking plate, a connector and a rotating body, the water blocking block is connected in the middle of the sundry grabbing net, the sundry grabbing net is embedded in the upper end of the water blocking plate, the water blocking plate is fixedly connected to the surface of the rotating body, and the connector is distributed at the two ends of the rotating body and is of an integrated structure with the rotating body.

Preferably, a sliding groove is arranged below the cylinder body, is in clearance fit with the connecting block and is attached to the back end face of the plate.

Preferably, the right end of the anti-blocking cover is provided with a connecting ring for fixedly connecting the whole device.

Preferably, the sundries grabbing net is supported by memory soft metal to form a net shape on the outside, and the sundries grabbing net is connected with the inside through a string.

Preferably, the sundries net grabbing and discharging devices are uniformly distributed around the water inlet cavity, and the water baffle is uniformly distributed with three sundries net grabbing and discharging devices around the rotating body.

The working principle is as follows: the device is suspended in water by using a firm rope to be fixed at a certain position through a connecting ring at the right end of the anti-blocking cover, a waterproof power transmission line is connected, the device is placed into the water, buoyancy is provided by a sealing floating pipe, the device is suspended in the water, the anti-blocking cover is used for preventing larger sundries from entering the barrel, water flow enters the barrel through a water inlet cavity, the water flow is guided by the small end and the flow guide head of the device and accelerated rifling inside the barrel to accelerate the rotating water wheel, the rotating water wheel is impacted, the rotating water wheel rotates rapidly to generate current, the current is transmitted by the power transmission line, on the horizontal plane, the horizontal water diversion plate improves the contact area of the device and the water, the front impact force of the water flow on the device is reduced, the reaction force of the device on the water is improved, the device is more stable, the water diversion plate at the bottom on, the rotating body has a rotating force, the water blocking block is impacted by water to enable the sundries grabbing net to shrink, sundries in water flow are grabbed, and the sundries are thrown out through the movable discharge hole through the rotating force, so that the rotating water wheel is prevented from being entangled or damaged.

Advantageous effects

1. Compared with the prior art, the invention improves the contact area of the device and water through the horizontal water distribution plate and the bottom water distribution plate which are respectively a horizontal plane and a vertical plane, reduces the front impact force of water flow on the device, improves the reaction force of the device on water, enables the device to have more stability, and avoids the influence on the generating efficiency caused by the fact that the direction of the device is changed and the water flow cannot impact a water wheel.

2. The invention utilizes the accelerated water flow in the cylinder body through the water baffle plate to enable the rotating body to have rotary force, the water baffle block is impacted by water to enable the sundries grabbing net to shrink, and small sundries and fish which pass through the protective cover in the water flow are grabbed and thrown out through the movable discharge hole through the rotary force, so that the rotating water wheel is prevented from being entangled or damaged.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a stable anti-drift debris floating pipe type hydroelectric generation device according to the present invention;

FIG. 2 is a front sectional view of the cartridge of the present invention;

FIG. 3 is a schematic view of the front view of the bottom water plate of the present invention;

FIG. 4 is a left side sectional view of the drain chamber of the present invention;

fig. 5 is an enlarged structure schematic diagram of the sundry net grabbing and discharging device.

In the figure: the anti-blocking device comprises an anti-blocking cover 1, a sealing floating pipe 2, a connecting frame 3, a fixing ring 4, a support 5, a barrel 6, a horizontal water distribution plate 7, a bottom water distribution plate 8, a water inlet cavity 61, a flow guide head 62, a sundry net grabbing and discharging device 63, a water blocking block b1, a sundry grabbing net b2, a water blocking plate b3, a connector b4, a rotating body b5, a movable discharging hole 64, a support frame 65, a water discharging cavity 66, a shell a1, an accelerating rifling a2, a rotating water wheel 67, a water distribution head 81, a plate body 82, a connecting block 83, a plate back 84 and a water distribution ridge 85.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Please refer to fig. 1: the invention provides a stable anti-floating sundry floating pipe type hydroelectric generation device which structurally comprises an anti-blocking cover 1, a sealing floating pipe 2, a connecting frame 3, a fixing ring 4, a support 5, a cylinder body 6, a horizontal water distribution plate 7 and a bottom water distribution plate 8, wherein the left side of the anti-blocking cover 1 is nested on the outer surface of the right side of the cylinder body 6, the sealing floating pipe 2 is fixed above the cylinder body 6, the connecting frame 3 is fixedly connected with the upper part of the fixing ring 4 through bolts, the fixing ring 4 is nested on the sealing floating pipe 2 and is in interference fit with the sealing floating pipe 2, the support 5 is fixedly connected with the lower part of the fixing ring 4 through bolts, the support 5 is arranged above the cylinder body 6 and is fixed through bolts, the horizontal water distribution plate 7 is symmetrically distributed on the two side end surfaces of the cylinder body 6, the bottom water distribution plate 8 is slidably arranged below the cylinder body 6, the sealing floating pipe 2 provides buoyancy of, prevent that stifled cover 1 prevents inside some debris slightly bigger and trip fish get into barrel 6, and the right-hand member is equipped with the go-between that fixed connection used, prevents that rivers from washing away the device, horizontal water diversion plate 7 is streamlined, the pectoral fin of imitative fish class, and the stability of holding device in aqueous makes the device not beaten askewly by the random flow, redirecting.

Please refer to fig. 2: barrel 6 is grabbed eduction gear 63, movable discharge hole 64, support frame 65, drainage chamber 66, rotation water wheels 67 by intake antrum 61, water conservancy diversion head 62, debris net and is constituteed, intake antrum 61 and support frame 65 fixed connection, water conservancy diversion head 62 is located same axis and fixed mounting at support frame 65 inboard with intake antrum 61, debris net is grabbed eduction gear 63 and movable discharge hole 64 clearance fit, movable discharge hole 64 runs through in intake antrum 61, support frame 65 is located rotation water wheels 67 right-hand member, drainage chamber 66 and intake antrum 61 structure as an organic whole, rotation water wheels 67 is through pivot movable mounting in water conservancy diversion head 62 left end face, intake antrum 61 is the opening by greatly diminishing funnel shaped, and the receiving area of main aspects increaseing rivers, the tip increases the velocity of flow of rivers and to the impact force of rotating water wheels 67.

Please refer to fig. 3: bottom water diversion plate 8 comprises water diversion head 81, board body 82, connecting block 83, board back of the body 84, water diversion ridge 85, water diversion head 81 is located connecting block 83 below and board body 82 structure as an organic whole, board body 82 downside is provided with the water diversion ridge 85 of fixed connection water diversion head 81, board back of the body 84 top fixed mounting has connecting block 83, water diversion ridge 85 separately rivers, imitates the skeg of fish, increases the stability of device.

Please refer to fig. 4: the drainage cavity 66 is composed of a shell a1 and an accelerating rifling a2, the accelerating rifling a2 and the shell a1 are of an integrated structure, and the accelerating rifling a2 accelerates the flow rate of water flow in the barrel 6.

Please refer to fig. 5: the sundries net grabbing and discharging device 63 comprises a water blocking block b1, a sundries grabbing net b2, a water blocking plate b3, a connector b4 and a rotator b5, the water blocking block b1 is connected in the middle of the sundries grabbing net b2, the sundries grabbing net b2 is embedded in the upper end of the water blocking plate b3, the water blocking plate b3 is fixedly connected to the surface of the rotator b5, the connectors b4 are distributed at two ends of the rotator b5 and integrated with the rotator b5, the water blocking plate b3 enables the rotator b5 to have a rotating force by utilizing the accelerated water flow inside the cylinder 6, the water blocking block b1 is impacted by water to enable the sundries grabbing net b2 to shrink, and the sundries in the water flow are grabbed and thrown out through the movable discharge hole 64 by the rotating force.

The specific working process is as follows:

the device is suspended in water by using a firm rope and fixed at a certain position through a connecting ring at the right end of the anti-blocking cover 1, a waterproof power transmission line is connected, the device is placed into the water, the buoyancy provided by the sealed floating pipe 2 is utilized, the anti-blocking cover 1 is utilized to prevent larger sundries from entering the barrel 6, water flow enters the barrel 6 through the water inlet cavity 61, the water flow is guided by the small end and the flow guiding head 62, and accelerated by the accelerated rifling a2 inside the barrel 6 to impact the rotating water wheel 67, the rotating water wheel 67 rotates rapidly to generate current, the current is transmitted by the power transmission line, on the horizontal plane, the horizontal water distribution plate 7 improves the contact area of the device and the water, reduces the front impact force of the water flow on the device, improves the reaction force of the device on the water, the device has more stability, the water plate 8 at the bottom of the vertical plane plays the same role, when some, the water blocking plate b3 makes the rotator b5 have rotary force by using the accelerated water flow in the cylinder 6, the water blocking block b1 is impacted by the water to make the sundries catching net b2 contract, the sundries in the water flow are caught and thrown out through the movable discharge hole 64 by the rotary force, and the rotating water wheel 67 is prevented from being entangled or damaged.

According to the invention, through the combination of the components, the contact area of the device and water is increased, the frontal impact force of water flow on the device is reduced, the reaction force of the device on water is increased, the device is more stable, the situation that the direction of the device is changed, the water flow cannot impact a water wheel, and the power generation efficiency is influenced is avoided, the water baffle b3 is used for utilizing the accelerated water flow in the cylinder body 6 to enable the rotating body b5 to have a rotating force, the water baffle b1 is impacted by the water to enable the sundry grabbing net b2 to contract, and small sundries and swimming fish which pass through the protective cover in the water flow are grabbed and thrown out through the movable discharge hole 64 through the rotating force, so that the rotating water wheel 67.

The foregoing merely illustrates the principles and preferred embodiments of the invention and many variations and modifications may be made by those skilled in the art in light of the foregoing disclosure, which are intended to be within the scope of the invention.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a stable prevent floating stream debris and float tubular hydroelectric generation device, its structure is including preventing stifled cover (1), sealed pipe (2), link (3), solid fixed ring (4), support (5), barrel (6), horizontal distributive plate (7), bottom distributive plate (8), its characterized in that:

the anti-blocking cover (1) is nested on the outer surface of the right side of the barrel body (6) in the left side, the sealed floating pipe (2) is fixed above the barrel body (6), the connecting frame (3) is fixedly connected with the upper portion of the fixing ring (4) through bolts, the fixing ring (4) is nested on the sealed floating pipe (2) and is in interference fit with the sealed floating pipe (2), the support (5) is fixedly connected with the lower portion of the fixing ring (4) through bolts, the support (5) is arranged above the barrel body (6) and is fixed through the bolts, the horizontal water distribution plates (7) are symmetrically distributed on the end faces of the two sides of the barrel body (6), and the bottom water distribution plate (8) is slidably mounted below the barrel body (6);

the cylinder body (6) consists of a water inlet cavity (61), a flow guide head (62), a sundry net grabbing and discharging device (63), a movable discharge hole (64), a support frame (65), a water discharging cavity (66) and a rotating water wheel (67), wherein the water inlet cavity (61) is fixedly connected with the support frame (65), the flow guide head (62) and the water inlet cavity (61) are positioned on the same axis and fixedly installed on the inner side of the support frame (65), the sundry net grabbing and discharging device (63) is in clearance fit with the movable discharge hole (64), the movable discharge hole (64) penetrates through the water inlet cavity (61), the support frame (65) is positioned at the right end of the rotating water wheel (67), the water discharging cavity (66) and the water inlet cavity (61) are of an integrated structure, and the rotating water wheel (67) is movably installed on the left end face of the flow guide head (;

the bottom water distribution plate (8) is composed of a water distribution head (81), a plate body (82), a connecting block (83), a plate back (84) and a water distribution ridge (85), the water distribution head (81) is located below the connecting block (83) and integrated with the plate body (82), the water distribution ridge (85) fixedly connected with the water distribution head (81) is arranged on the lower side of the plate body (82), and the connecting block (83) is fixedly installed above the plate back (84);

the drainage cavity (66) consists of a shell (a1) and an accelerating rifling (a2), and the accelerating rifling (a2) and the shell (a1) are of an integrated structure;

discharge apparatus (63) are grabbed to debris net comprises water blocking piece (b1), debris grabbing net (b2), water blocking plate (b3), connector (b4), rotation (b5), water blocking piece (b1) is connected in the centre that debris grabbed net (b2), debris grabbing net (b2) embedding is installed in water blocking plate (b3) upper end, water blocking plate (b3) fixed connection is on rotating body (b5) surface, connector (b4) distribute at rotation (b5) both ends and rotation (b5) structure as an organic whole.

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