DE202009005774U1 - Sandspülsystem - Google Patents

Abstract

Sandspülsystem, comprising a Sandspülboot, which has Sandspülboot:
at least one float (1) floating on a stream of water; and
at least one deflecting plate (2) attached to the floating body (1), immersed in the water stream for sand washing, with a space between an edge of the deflecting plate (2) and a river bed, and the deflecting plate (2) being adapted for scavenging of sediment on the riverbed when the water stream flows through the gap.

Description

The The present invention relates to water and sediment regulation technology, in particular on a sand washing system.

since Primeval times are lack of water and sand surplus as well as the imbalance between water and sand, the roots of yellow flooding River. The yellow river carries 16 hundred million tons of sand downstream and 4 hundred million Tons of sand become so on the downstream riverbed deposited on the downstream side River bed with an average rate of 10 cm / year increases. Present is the downstream side Riverbed on average 4 to 6 m higher than that surrounding the river Land, making the world famous "river above the Ground " becomes.

In In recent years, control measures for "water and sediment regulation" have been carried out with the goal of lowering the river bed, which by means of kinetic Energy of water and with the help of an artificial flushing of the Riverbed sediment is realized so that the maximum sand in led out the sea becomes. Where an artificial washing away of riverbed sediment mainly a sandwalk rafting boat used with air compressor and high pressure nozzle, a high pressure shock is about 0.5 Meter above the sediment deposition surface exerted to the deposited sediment Rinse off sufficiently in the area. The high pressure nozzle of this Kind of sand scuba boat has a small impact area, if a high-pressure shock on the sediment deposition surface is applied, and for a large sediment deposit like the Yellow River, the effect of the sand washing is not effectively. However, in the prior art, the control is only in Areas with heavy sediment deposition, and the washed away Sand settles in the adjacent area again. Therefore, it is not possible, a complete To achieve control of the sediment, and the sand control of the entire river causes high costs, making them difficult to achieve.

The Object of the present invention is a sand washing system to increase the effect of the sand washing and to the full Control of floods provided.

In order to achieve this object, the present invention provides a sand purging system including a sand raft, the sand plow including:
At least one floating body floating on the water stream; and
at least one baffle plate attached to the float and submerged in the water stream,
when sand is being purged with a gap between an edge of the baffle and a river bed, and the baffle is configured to wash away sediment on the river bed as the stream of water flows through the gap.

It is apparent from the above technical solution that the present invention uses a baffle that controls the flow of water impeded, causing the flow of water through quickly the space between the edge of the baffle and the riverbed goes through to wash away sediment. This technical means overcomes the technical problem of the prior art by, when the high-pressure nozzle of the sandpipe boat a high pressure shock the sediment deposition surface exerts the affected area with reference to the big one Sediment deposition area of the Yellow River is smaller, and the Sandspüleffekt is low. About that In addition, by the locomotion of the floating body, the sand control in Areas of a long river, thereby completely controlling the sediment deposition problem can be. The present invention can be the Sandspüleffekt enlarge and a flood Completely control, and the process is simple and easy on the To carry out yellow river and different river water surfaces.

1 Figure 11 is a side view of the sand purging principle through the water flow of the sand purging system according to the present invention;

2 Fig. 10 is a sectional view through a flow illustrating the sand purging principle by the water flow in the sand purging system according to the present invention;

3 Fig. 10 is a schematic structural view of Embodiment 1 of the sand purging system according to the present invention;

4 Fig. 10 is a schematic structural view of Embodiment 2 of the sand washing system according to the present invention;

5 Fig. 12 is a schematic structural view illustrating the baffle moving away from the water surface according to Embodiment 2 of the sand washing system according to the present invention;

6 Fig. 12 is a schematic structural view of Embodiment 3 of the sand washing system according to the present invention;

7 is a schematic structural view Embodiment 4 of the sand washing system according to the present invention;

8th Fig. 10 is a schematic structural view of Embodiment 5 of the sand washing system according to the present invention;

9 Fig. 12 is a schematic structural view of the embodiment 6 of the sand washing system according to the present invention.

As in 1 3, which is a side view of the sand purging principle by water flow of the sand purging system of the present invention, incorporates a sand purging system of the present invention primarily a sand plow boat, the sand plow boat including at least one float 1 and at least one on the float 1 attached baffle plate 2 contains. If the baffle 2 immersed in the river and an angle between the direction of the water flow and the baffle plate 2 is formed, drives the baffle 2 the float 1 to move with the flow of water. The water flow flows quickly through a space between the edge of the baffle 2 and the bottom of the riverbed, with the baffle plate 2 the flow is obstructed and sediment of the riverbed is flushed up.

According to the principle that the ability of carrying sand through the water flow has a direct relationship to the square of the velocity of the water flow, when the angle between the baffle becomes 2 and the direction of the water flow is increased, then the distance between the edge of the baffle 2 and the bottom of the river bed, and the velocity of the water flow through the space increases, so that the sand scavenging effect of the sandblaster in the sand scavenging system of the present invention becomes more apparent, and the speed of abrading the bottom of the river bed is increased. In the same way shows 2 a sectional view of the river, wherein the Sandspülprinzip is illustrated by the water flow of the sand washing system according to the present invention. If the angle between the baffle 2 and the direction of the water flow is increased, the distance between the edge of the baffle becomes 2 and both sides of the river bed, and the velocity of the water flow through the gap on both sides increases accordingly, so that the broadening speed on both sides of the river bed is increased by the use of the sand purging boat in the sand purging system of the present invention.

embodiment 1 of the sand washing system

3 shows a schematic structural view of the embodiment 1 of the sand washing system according to the present invention. The system can be placed in the Yellow River and it flushes sand away by using the directional water flow in the river. The system contains a wheel disc 3 and a sand scuba boat that comes from a float 1 and a deflection plate around 2 consists. The sand scooter is by a flexible chain 4 with the wheel disc 3 connected, with the wheel disc 3 is fixed relative to the water flow. It may be firmly anchored in the riverbed or may also be attached to a dam or bank. The sand spreader contains at least one float floating on the water stream 1 , where the common shell as the float 1 can serve; at least one baffle 2 attached to the float 1 is attached, wherein, when sand is washed away, the baffle 2 is immersed in the water flow, and an angle between the direction of the water flow and the direction of the baffle plate 3 educated. The angle is greater than 0 degrees and less than 90 degrees. The baffle plate 2 is used to the float 1 to drive so that it moves downstream with the thrust of the water flow, and the speed of the float 1 is controlled so that it is smaller than the speed of the water flow. A distance is between the edge of the baffle 2 and formed the riverbed, wherein, when the float 1 Moves, the water flow is deflected so that it flows quickly through the gap to stir up the sediment of the river bed, which serves as an effect of Sandwegspülens. The fluidized sediment can be removed downstream.

In the embodiment, the float is 1 by using the flexible chain 4 with the wheel disc 3 connected, one end of the flexible chain 4 stuck with the float 1 connected and the other end of the flexible chain 4 around the wheel disc 3 is wound. When the float 1 moved downstream by the thrust of the water flow becomes the flexible chain 4 taken to a common rotation with the wheel disc 3 to effect. The advantage of using the flexible chain 4 and the wheel disc 3 is that the float 1 controlled and retracted to the starting position by the flexible chain 4 is wound up after the float 1 has moved over a certain distance.

The sand washing operation of the sand washing system in the embodiment is as follows:
First, a baffle is immersed in the water flow and the baffle drives one Float such that it is moved downstream along with the thrust of the water flow; the baffle obstructs the flow of water such that the flow of water passes through a gap between an edge of the baffle and the river bed, swirls sediment of the riverbed and flushes it away; and the sediment of the river bed, where the float has passed, is whirled up and washed away. In this process, the float takes the flexible chain with it, so that it is unwound from the wheel disc, wherein the wheel disc rotates in the unwinding of the flexible chain.

at the embodiment hinders the sand washing system the water flow during all the time through the deflection plate immersed in the water flow, causing the kinetic energy of the water flow through the interspace between the edge of the baffle and the riverbed is increased. The kinetic energy of the water flow is used sufficiently to whirl up the sediment directly and wash it away, causing the flood Completely controlled and the effect of washing away sand be increased. Furthermore the system has a simple structure and can be a sand washing project in big Extent in a big one Form water area, especially in the Yellow River applied whose water flow carries abundant sediment and not suitable for sailing, and therefore the open water surface can be used be, a sand washing project in big Scope to realize that from a Sandspülsystem according to the embodiment consists. In the sand washing project is the width of the baffle or the float the Stream of Yellow River arranged to wash away the maximum sand, and a variety of sandpish boats is one after another from the middle of the Yellow River up to the muzzle arranged. By flushing away from the sand spreader, the the river sediment loosens and flushes away, becomes the morphology changed the river cross section, such that the cross-section becomes narrow and deep. By exploitation the sanding capacity the flow of water can be more abundant in the embodiment Sand is borne to the lake, in particular, the coarse sand of the riverbed whirled up and carried to sea, increasing the ability the river increased to the Sandmitnahme becomes. By promotion of the sand washing system according to the embodiment in a big one Area can be the state of "above the At ground level " the Yellow River completely changed become.

If The Yellow River swells, the sand scuba boat according to the embodiment make the riverbed wider in a short time, increasing its water-permeability of the river increased will, and the flood of the Yellow River.

Furthermore, the sand washing system according to the embodiment also includes the generator 5 that by the gearbox 9 with the axis of rotation of the wheel disc 3 connected, and when the wheel disc 3 turns, becomes the generator 5 powered for the production of energy.

The above-described technical solution not only uses the structure of the float and the baffle, to a sand washing but also uses the movement of the downstream moving Floating body, um to turn the wheel disc, and the rotation of the wheel disc will open transmit the generator to generate energy.

embodiment 2 of the sand washing system.

4 shows a schematic structural view of the embodiment 2 of the sand washing system according to the present invention. The present embodiment is based on Embodiment 1 and further includes a first drive device 6 Mistake. The first drive device 6 , which can be an electric motor, is with the wheel disc 3 connected and trained, the wheel disc 3 to turn when the sanding process is stopped. The rotation of the wheel disc 3 can the flexible chain 4 so wind up that the float 1 is driven so that it is moved in the upstream direction, and the flexible chain 4 back to the wheel disc 3 wrap.

The technical solution of the present embodiment allows that the float not only downstream moved for a sand wash will, but also upstream back moved to the Startpositi on by the drive of the drive device will be the next Sandspülvorgang to start again.

While the sanding process is stopped and the float 1 moved back upstream, the baffle is 2 preferably moved out of the water flow to reduce the resistance, as in 5 is shown. In particular, one end of the baffle plate 2 swiveling with the float 1 be connected and a rotary spindle 7 is arranged horizontally. The rotary spindle 7 can with a second drive device 8th be connected. When the float 1 for the sand purging is moved downstream drives the second drive device 8th the rotary spindle 7 turning to the distance between the baffle 2 and to change the riverbed. When the float 1 is moved upstream and the sanding process is stopped, the turns second drive device 8th the rotary spindle 7 so that the baffle 2 is turned until the baffle 2 is moved upwards out of the water flow. As in 5 is shown, the baffle plate 2 turned until it is above the water surface.

at the above technical solution can pivotally with connected to the float Baffle appropriate their Change position. When the float for one Sandspülvorgang downstream is moved, the baffle is immersed in the water; and when he is upstream is moved and the sand washing process is stopped, the baffle is moved out of the water, to lower the resistance. Furthermore, during the Downstream movement during the sand washing process the size of the on the Baffle exercised Moments can be adjusted by adjusting the angle of the baffle in relation to the water flow, to different practical needs to suffice.

embodiment 3 of the sand washing system

6 shows a schematic structural view of the embodiment 3 of the sand washing system according to the present invention. The present embodiment is based on the above embodiment 2 and further provided with a plurality of sand pans in succession along the water flow. The sand pans are through the flexible chain 4 Connected end to end.

The technical solution according to the present embodiment allows that a variety of floats not only simultaneously scouring sand as they move downstream, but also upstream back are moved to the start position by a drive device can.

In the embodiment, when many floats 1 Rinse up sand, many baffles 2 immersed in the river at the same time. While the sanding process is stopped and many floats 1 moved back upstream, are the many baffles 2 moved out of the water stream to lower the resistance. In particular, when many floats are moved downstream for the sand purging operation, the second drive device rotates 8th the rotary spindle 7 every float 1 to every baffle 2 to pivot, and a distance between the baffle 2 and to maintain the riverbed. When the Schwimmkör by 1 moved upstream and the sanding process is stopped, the second drive device rotates 8th the rotary spindle of each float 1 to the baffle 2 to swing upward until it is moved out of the water stream.

In the above-described technical solution many Sandspülboote are arranged one behind the other along the water flow, wherein the simultaneous movement of the many floating bodies 1 increasing the upwash of the sediment of the river bed, and a drive device rotates the wheel disks, winding the first flexible chain to move all floats upstream.

Furthermore, in this embodiment, the generator 5 with the axis of rotation of the wheel disc 3 over the transmission 9 connected, and when several sand pans are moved downstream in this embodiment, the thrust force of the water flow takes on the baffles 2 too, so if the wheel disc 3 is rotated by the generator 5 generated energy increases.

embodiment 4 of the sand washing system

7 Fig. 10 is a schematic structural view of Embodiment 4 of the sand washing system according to the present invention. In the technical solution of the embodiment are a wheel disc 3 and two floats provided, ie, a first float 11 and a second float 12 , A first e flexible chain 41 and a second flexible chain 42 , which are each connected to the two floats are over the pulley block with the wheel disc 3 connected. The first flexible chain 41 of the first float 11 is over the first pulley 101 with the wheel disc located on the shore 3 connected, and the second flexible chain 42 of the second float 12 is over a second pulley 102 , a third pulley 103 and a fourth pulley 104 with the wheel disc located on the shore 3 connected. The movement route of the first float 11 and the second float 12 lie one behind the other and they do not overlap in the water flow direction.

Two flexible chains are independently wrapped around the wheel disc. During operation, one of the flexible chains is in the winding state and the other flexible chain is in the unwinding state. One of the floats moves downstream with the thrust of the water flow obstructing the flow of water to agitate sand and rotating the wheel disc; the other float moves upstream by the drive of the rotating wheel disc, and the two floats be because alternately downstream and upstream.

Furthermore, in the embodiment, the generator 5 with the axis of rotation of the wheel disc 3 via a gearbox 9 and a commutator 10 connected. If the two floats 1 alternately moved downstream and upstream, the commutator 10 the direction of rotation of the axis of rotation of the wheel disc 3 change so that the generator 5 continuously generates energy.

at The technical solution described above swirl the two floating bodies alternately Sand on and the motion areas that do not overlap each other, can the nesting and jamming between the float and avoid the flexible chain.

embodiment 5 of the sand washing system

8th shows a schematic structural view of the embodiment 5 of the sand washing system according to the present invention. In the embodiment, two wheel discs are provided, ie, a first wheel disc 31 and a second wheel disc 32 , on each of which a flexible chain is wound, ie, a first flexible chain 41 and a second flexible chain 42 , One of the flexible chains is in a winding state, and the other flexible chain is in an unwinding state. It is a generator 5 provided, wherein a first transmission 9 with the axis of rotation of the first wheel disc 31 connected, and a second transmission 9 with the axis of rotation of the second wheel disc 32 is connected, each via a first input and release gear 105 and a second input and release gear 106 with the generator 5 connected, and the first input and Ausrück gear 105 and the second input and release gear 106 may be a clutch or a ratchet wheel. The other end of the axis of rotation of the first wheel disc 31 is with a fourth drive device 107 connected, and the other end of the axis of rotation of the second wheel disc 32 is with a fifth drive device 108 connected. one end of each flexible chain is connected to a float, ie the first float 11 and the second float 12 wherein a float is moved downstream by the thrust of the water flow and rotates the wheel disc so that the generator 5 is driven to generate energy; the input and release gear connected to the other wheel disc separates the axis of rotation of the other wheel disc from the generator 5 and the other wheel disc rotates through the drive device and drives the connected float so that it is moved upstream. The two flexible chains of the two floating bodies are connected via a pulley block with the respective wheel disc, and the ranges of movement of the two floating bodies do not overlap in the water flow direction each other.

The Combination of two wheel discs, flexible chains and floats will be continues to be used, with the two floating bodies alternately flushing up the sand both wheel disks drive a generator to generate energy, and an input and release gear the connection and disconnection of the wheel disc with the generator controls. The two floats alternately generate energy at the downstream and the returning Upstream movement, wherein the drive device returns the float upstream in the upstream direction drives. Therefore, the generator can be driven continuously by the drive generate energy from the two wheel discs. The return speed of the float in Upstream direction is preferably higher as the speed of the other, in the downstream direction moving float, making sure that the returning float is the Time interval for receiving the baffle has to make an abrupt change to avoid and ensure the generation of energy that the generator can generate energy continuously.

embodiment 6 of the sand washing system

9 is a schematic structural view of the embodiment 6 of the sand washing system according to the prior invention. In the embodiment, there is a third drive device 109 like a machine on the float 1 that is used to the float 1 when flushing sand to move, leaving the float 1 has a different speed than the water flow. The speed difference is a preset value that can be positive or negative. When the preset speed difference is positive, the third drive device is driving 109 the float 1 so that it moves downstream. When the preset speed difference is negative, the third drive device is driving 109 the float 1 so that it moves upstream. In the embodiment, we the third drive device 109 set so that the speed difference up to the preset value between the float 1 and the flow of water is realized, ie when the float 1 is driven so that it moves upstream, the power of the third drive device 109 higher than in the downstream movement.

The third drive device of the sand washing system in the embodiment drives the float so that a pre-set re The kinetic energy of the water flow through the gap between the edge of the baffle plate and the riverbed is increased accordingly and causes the float to cleanly agitate the sand.

1

float

2

baffle

3

wheel disc

4

flexible Chain

5

generator

6

first driving device

7

spindle

8th

second driving device

9

transmission

10

commutator

11

first float

12

second float

31

first wheel disc

32

second wheel disc

41

first flexible chain

42

second flexible chain

101

first pulley

102

second pulley

103

third pulley

104

fourth pulley

105

first Input and release gear

106

second Input and release gear

107

fourth driving device

108

fifth drive device

109

third driving device

Claims (9)

Sandspülsystem, comprising a Sandspülboot having Sandspülboot: at least one floating body ( 1 ) floating on a stream of water; and at least one on the float ( 1 ) mounted baffle plate ( 2 ) immersed in the water flow for sand washing, wherein a distance between an edge of the deflection plate ( 2 ) and a river bed, and the baffle ( 2 ) is adapted to rinse sediment on the river bed when the flow of water through the gap. The system of claim 1, further comprising: a wheel disc ( 3 ), which is fixed relative to the water flow; and a flexible chain ( 4 ), one end of which is fixed to the float ( 1 ) and the other end around the wheel disc ( 3 ), wherein when the float ( 1 ) moves downstream with a thrust of the water flow, the wound flexible chain ( 4 ) is pulled to the wheel disc ( 3 ) to turn. The system of claim 2, further comprising: one having an axis of rotation of the wheel disc ( 3 ) via a transmission ( 9 ) connected generator ( 5 ), which, when the wheel disc ( 3 ) is driven to generate energy. The system of claim 2 or 3, further comprising: a first drive device ( 6 ), with the wheel disc ( 3 ) is connected and adapted for rotating the wheel disc ( 3 ) to the flexible chain ( 4 ) on the wheel disc ( 3 ), so that the float ( 1 ) is moved upstream when purging of sand is stopped. System according to claim 1, 2 or 3, wherein one end of the baffle plate ( 2 ) pivotable with the float ( 1 ) and a rotary spindle ( 7 ) is arranged horizontally; and furthermore a second drive device ( 8th ) provided with the rotary spindle ( 7 ) and is adapted to rotate the baffle ( 2 ) such that the distance between the baffle ( 2 ) and the bottom of the river bed is changed when the float ( 1 ) moves downstream and flushes up sand, and pivoting the baffle ( 2 ), until it is moved away from the water flow when the float ( 1 ) moved upstream. A system according to claim 1, 2 or 3, wherein several Sandspülboote are arranged one after another in the direction of the water flow. System according to claim 2 or 3, wherein two floats ( 11 . 12 ) and two flexible chains ( 41 . 42 ), the two flexible chains ( 41 . 42 ), with the two floats ( 11 . 12 ), with a wheel disc ( 3 ) are each connected via a pulley block, wherein one of the two flexible chains ( 41 . 42 ) in a Aufwickelzustand and the other flexible chain in an unwinding state, one of the two floating bodies ( 11 . 12 ) moves downstream with the thrust of the water flow to the wheel disc ( 3 ), the other floating body by the drive of the rotating wheel disc ( 3 ) moved upstream, and the distances of the two floats ( 11 . 12 ) do not overlap each other in the direction of the water flow. System according to claim 3, in which two wheel discs ( 31 . 32 ) are provided with a respective wound flexible chain, wherein one of the flexible chains ( 41 . 42 ) in a winding state and the other flexible chain in an unwinding state, a generator ( 5 ) is provided, two gears ( 9 ), each with axes of rotation of the two wheel discs ( 31 . 32 ) are connected to two ends of the generator ( 5 ) each via a clutch or a ratchet wheel ( 105 . 106 ), wherein the other ends of the axes of rotation of the two wheel discs ( 31 . 32 ) each with a drive device ( 107 . 108 ), one end of each flexible chain ( 41 . 42 ) each with a float ( 11 . 12 ), flexible chains ( 41 . 42 ) of the two floats ( 11 . 12 ) with the two wheel discs ( 31 . 32 ) are each connected via a pulley block, one of the floats ( 11 . 12 ) moves downstream with the thrust of the water flow and the wheel disc ( 31 . 32 ) turns to the generator ( 5 ) for generating energy, the wheel disc connected to the other floating body rotates by the drive through the driving device to move the connected floating body upstream, and the distances of the two floating bodies ( 11 . 12 ) do not overlap each other in the direction of the water flow. The system of claim 1, further comprising: a third drive device ( 109 ) on the float ( 1 ) is arranged and adapted to the float ( 1 ) so that a predetermined speed difference is formed with the water flow when sand is being flushed up.