CN105923472A - Floating type solar power station used for high-fall water surface - Google Patents

Abstract

The invention relates to a floating type solar power station used for the high-fall water surface and belongs to the technical field of application of solar power stations floating on the water surface. When the water level rises or drops, a floating solar cell array can generate up-down displacement along with changes of the water level, then the traction born by steel cables changes, pressure applied to a pressure rod by winding displacement devices changes as well, steel cable coil control devices control steel cable coil rotating devices according to the pressure decrease numerical value information or pressure increase numerical value information provided by the pressure rod to conduct winding work or unwinding work according to the set program, meanwhile the pressure applied to the winding displacement devices by the steel cables changes as well, pressure data transmitted to the steel cable coil control devices by the pressure rod change, when the pressure applied to the winding displacement devices by the steel cables returns to be within the set numerical value range, the steel cable coil rotating devices control the steel cable coils to stop rotating, and at the position, the steel cables can also conduct locating traction on the floating solar cell array according to the set traction requirement.

Description

A kind of floatation type solar power station for the high drop water surface

Technical field

The present invention relates to a kind of floatation type solar power station for the high drop water surface, belong to floating on water solar power station applied technical field.

Background technology

The water surface spaciousness of reservoir is without covering, it it is the good place installing floatation type solar power station, but, the floatation type solar power station that pilot is installed at present can be only installed in the water body that SEA LEVEL VARIATION is little, cannot be arranged in the water body of water level height drop, and reservoir is because of water-retention or the demand that discharges water, water level can change a lot, the reservoir water surface of water level height drop becomes the dead band that floatation type solar power station is installed, and the reservoir water surface at water level height drop can't see " figure " of floatation type solar power station.

Summary of the invention

It is an object of the invention to overcome deficiency of the prior art, it is provided that a kind of floatation type solar power station for the high drop water surface.The guy wire disk control unit of a kind of floatation type solar power station for the high drop water surface and cable disk control unit, can change according to the height of water level, control carrying cable and being involved in of power transmission cable is shortened or discharge extension, when there is height displacement in the floating solaode array on the water surface, floating solaode array on the water surface can be carried out positioning towed by the traction requirement set by wirerope, meanwhile, the power transmission cable between cable disk and floating solaode array is still maintained in the length range of setting；A kind of floatation type solar power station for the high drop water surface is adapted for mount on the reservoir water surface of water level height drop, makes also can see on the reservoir water surface of water level height drop " figure " of floatation type solar power station.

The main technical schemes of the present invention is achieved in that

Collectively constituted by pile 1, guy wire disk control unit 2, guy wire disc spins device 3, bus cable device 4, press rods 5, wirerope drum 6, wirerope 7, cable disk control unit 8, cable disk 9, data line 10, floating solaode array 11 and power transmission cable 12；Installed above at pile 1 has guy wire disk control unit 2 and wirerope drum 6, guy wire disc spins device 3 is arranged on above guy wire disk control unit 2, the Spin Control of guy wire disc spins device 3 is partially located at the core wheel of wirerope drum 6 runner, bus cable device 4 is arranged on above guy wire disk control unit 2 by press rods 5, wirerope 7 in wirerope drum 6 is connected with floating solaode array 11 through bus cable device 4, cable disk control unit 8 is connected with guy wire disk control unit 2 by data line 10, cable disk control unit 8 is arranged on above cable disk 9, the electric current that floating solaode array 11 produces is transported to land through power transmission cable 12.

Wirerope drum 6 and cable disk 9 are horizontal type drum or vertical drum.

Compared with prior art, the invention has the beneficial effects as follows: the carrying cable of a kind of floatation type solar power station for the high drop water surface and power transmission cable, it is involved in shortening when with floating solaode array upper and lower drop can occur on the water surface or discharge extends, floating solaode array on the water surface still can be carried out positioning towed by the traction requirement set by wirerope, and the power transmission cable between cable disk and floating solaode array is still maintained in the length range of setting.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention.

Detailed description of the invention

The present invention is collectively constituted by pile, guy wire disk control unit, guy wire disc spins device, bus cable device, press rods, wirerope drum, wirerope, cable disk control unit, cable disk, data line, floating solaode array and power transmission cable；nullWhen water level rises or falls，Floating solaode array is as well as the change generation upper and lower displacement of water level，At this moment，Pull strength suffered by wirerope changes，The pressure that bus cable device is applied in press rods also can change，The numerical information that the pressure that guy wire disk control unit provides according to press rods reduces or strengthens，Take-up or the operation of unwrapping wire is entered by the programme-control guy wire disc spins device set，Guy wire disc spins device drives guy wire disc spins to carry out the operation of take-up or unwrapping wire，Wirerope is involved in bus cable device or releases wirerope drum，Wirerope is applied to the pressure of bus cable device also can followed by change，Press rods is transferred to the pressure data of guy wire disk control unit and changes，When wirerope is applied to the pressure recovery of bus cable device to time in the numerical range set，Press rods is transferred to the pressure data of guy wire disk control unit and also can be returned in the numerical range set，Guy wire disc spins device controls wirerope drum and stops the rotation，Floating solaode array is raised or lowered to new position along with the change of water level，On this position，Floating solaode array on the water surface still can be carried out positioning towed by the traction requirement set by wirerope；Meanwhile, cable disk control unit carries out the operation of take-up or unwrapping wire according to the job instruction information that guy wire disk control unit transmits, and makes the power transmission cable between cable disk and floating solaode array be maintained in the length range of setting.The carrying cable of a kind of floatation type solar power station for the high drop water surface and power transmission cable, it is involved in shortening when with floating solaode array upper and lower drop can occur on the water surface or discharge extends, floating solaode array on the water surface still can be carried out positioning towed by the traction requirement set by wirerope, and the power transmission cable between cable disk and floating solaode array is still maintained in the length range of setting.

The embodiment combined in accompanying drawing is further described by the present invention below:

Guy wire disk control unit 2 and wirerope drum 6 are arranged on above pile 1, wirerope 7 in wirerope drum 6 is connected with floating solaode array 11 through bus cable device 4, bus cable device 4 is arranged on above guy wire disk control unit 2 by press rods 5, the Spin Control of guy wire disc spins device 3 is partially located at the core wheel of wirerope drum 6 runner, the Spin Control part of guy wire disc spins device 3 can control wirerope drum 6 and rotate, and carries out the operation of take-up or unwrapping wire；Positioning requirements according to the floating solaode array 11 on the water surface, suitable number of pile 1 is installed on bank, and in guy wire disk control unit 2, sets the numerical range maintaining floating solaode array 11 the most floating according to the buoyancy coefficient of floating solaode array 11；nullWhen water level rises，Floating solaode array 11 can float along with the rising of water level，At this moment，Pull strength suffered by wirerope 7 declines，The pressure that bus cable device 4 is applied in press rods 5 reduces，The numerical information that the pressure that guy wire disk control unit 2 provides according to press rods 5 reduces，The operation of take-up is entered by the programme-control guy wire disc spins device 3 set，Guy wire disc spins device 3 drives wirerope drum 6 rotation to carry out take-up，Wirerope 7 is tightened in bus cable device 4，At this moment，Wirerope 7 is applied to the pressure of bus cable device 4 and strengthens，Press rods 5 is transferred to the pressure data of guy wire disk control unit 2 and changes，When wirerope 7 is applied to the pressure recovery of bus cable device 4 to time in the numerical range set，Press rods 5 is transferred to the pressure data of guy wire disk control unit 2 and also can be returned in the numerical range set，Guy wire disc spins device 3 controls wirerope drum 6 and stops the rotation，Floating solaode array 11 rises to new height and position along with the rise of water level，On this height and position，Floating solaode array 11 on the water surface still can be carried out positioning towed by the traction requirement set by wirerope 7；nullOtherwise，When the water level descends，Floating solaode array 11 can decline along with the decline of water level，At this moment，Pull strength suffered by wirerope 7 strengthens，The pressure that bus cable device 4 is applied in press rods 5 strengthens，The numerical information that the pressure that guy wire disk control unit 2 provides according to press rods 5 strengthens，The operation of unwrapping wire is entered by the programme-control guy wire disc spins device 3 set，Guy wire disc spins device 3 drives wirerope drum 6 reverse rotation to carry out unwrapping wire，Wirerope 7 is discharged out in bus cable device 4，At this moment，Wirerope 7 is applied to the pressure of bus cable device 4 to start to reduce，Press rods 5 is transferred to the pressure data of guy wire disk control unit 2 and changes，When wirerope 7 is applied to the pressure recovery of bus cable device 4 to time in the numerical range set，Press rods 5 is transferred to the pressure data of guy wire disk control unit 2 and also can be returned in the numerical range set，Guy wire disc spins device 3 controls wirerope drum 6 and stops the rotation，Floating solaode array 11 drops to new position along with the decline of water level，On this position，Floating solaode array 11 on the water surface still can be carried out positioning towed by the traction requirement set by wirerope 7；Equally, the power transmission cable 12 that the electric current that floating solaode array 11 produces is transported to land is arranged in the dish body of cable disk 9, cable disk control unit 8 can control the rotation of cable disk 9, carry out the operation of take-up or winding displacement, cable disk control unit 8 is connected with guy wire disk control unit 2 by data line 10, guy wire disk control unit 2 is when carrying out take-up or line laying work, synchronize to send job instruction information to cable disk control unit 8 by data line 10, cable disk control unit 8 carries out the operation of take-up or unwrapping wire according to job instruction information, the power transmission cable 12 between cable disk 9 and floating solaode array 11 is made to be maintained in the length range of setting；Bus cable device 4, when carrying out take-up or winding displacement operation, can play the effect of stable wirerope 7, when take-up, makes wirerope 7 can smoothly be involved in wirerope drum 6, and when unwrapping wire, wirerope 7 can smoothly be discharged from bus cable device 4.

Now enumerate embodiment as follows:

Embodiment one:

nullWhen water level rises，Floating solaode array is as well as the change generation top offset of water level，At this moment，Pull strength suffered by wirerope changes，The pressure that bus cable device is applied in press rods also can change，The numerical information that the pressure that guy wire disk control unit provides according to press rods reduces，The operation of take-up is entered by the programme-control guy wire disc spins device set，Guy wire disc spins device drives guy wire disc spins to carry out the operation of take-up or unwrapping wire，Wirerope is involved in wirerope drum in bus cable device，Wirerope is applied to the pressure of bus cable device also can followed by change，Press rods is transferred to the pressure data of guy wire disk control unit and changes，When wirerope is applied to the pressure recovery of bus cable device to time in the numerical range set，Press rods is transferred to the pressure data of guy wire disk control unit and also can be returned in the numerical range set，Guy wire disc spins device controls wirerope drum and stops the rotation，Floating solaode array rises to new position along with the change of water level，On this position，Floating solaode array on the water surface still can be carried out positioning towed by the traction requirement set by wirerope.

Embodiment two:

nullWhen the water level descends，Floating solaode array is as well as the change generation bottom offset of water level，At this moment，Pull strength suffered by wirerope changes，The pressure that bus cable device is applied in press rods also can change，The numerical information that the pressure that guy wire disk control unit provides according to press rods strengthens，The operation of unwrapping wire is entered by the programme-control guy wire disc spins device set，Guy wire disc spins device drives guy wire disc spins to carry out the operation of unwrapping wire，Wirerope is released wirerope drum in bus cable device，Wirerope is applied to the pressure of bus cable device also can followed by change，Press rods is transferred to the pressure data of guy wire disk control unit and changes，When wirerope is applied to the pressure recovery of bus cable device to time in the numerical range set，Press rods is transferred to the pressure data of guy wire disk control unit and also can be returned in the numerical range set，Guy wire disc spins device controls wirerope drum and stops the rotation，Floating solaode array drops to new position along with the change of water level，On this position，Floating solaode array on the water surface still can be carried out positioning towed by the traction requirement set by wirerope.

Claims (1)

1. the floatation type solar power station for the high drop water surface, it is characterized in that, pile (1), guy wire disk control unit (2), guy wire disc spins device (3), bus cable device (4), press rods (5), wirerope drum (6), wirerope (7), cable disk control unit (8), cable disk (9), data line (10), floating solaode array (11) and power transmission cable (12) collectively constitute；nullInstalled above at pile (1) has guy wire disk control unit (2) and wirerope drum (6)，Guy wire disc spins device (3) is arranged on above guy wire disk control unit (2)，The Spin Control of guy wire disc spins device (3) is partially located at the core wheel of wirerope drum (6) runner，Bus cable device (4) is arranged on above guy wire disk control unit (2) by press rods (5)，Wirerope (7) in wirerope drum (6) is connected with floating solaode array (11) through bus cable device (4)，Cable disk control unit (8) is connected with guy wire disk control unit (2) by data line (10)，Cable disk control unit (8) is arranged on above cable disk (9)，The electric current that floating solaode array (11) produces is transported to land through power transmission cable (12)；Described wirerope drum (6) and cable disk (9) are horizontal type drum or vertical drum.