RU2611643C1 - Bridge - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: horizontal shaft is mounted in the projection and the stand. Blades are attached to the shaft. A gear is mounted on the shaft. A gear in contact with the gear is mounted on the electric generator shaft. Water flowing around a support pushes the blade. Voltage is generated on the electric generator stator and supplied to the power line. In winter, the time relay supplies the voltage to winches. Tanks located on the water float off under the flow action from their winches, unwinding the cables. Then the time relay supplies the voltage to the winches electric motors. The tanks return upstream, respectively, to the winches. The tanks break the ice with teeth in front of the blades, on the sides of the blades and behind the blades. Thus, the blades rotate continuously in water free from ice.

EFFECT: bridge of the proposed design generates electricity of high power.

4 dwg

Description

The invention relates to the construction of bridges and can be used to generate electricity.

A known bridge, consisting of spans located on the supports, in the protrusion of the support of which there is a shaft having blades mounted at one end, on which a gear is attached that is in contact with the gear, mounted on the shaft of an electric generator attached to the support (patent RU 2455417 C1 F01D).

However, this bridge produces electricity of low power.

The technical result of the invention is the generation of high-power electricity by the bridge.

The specified technical result is achieved by the fact that the bridge consists of spans located on the supports, in the protrusion of the support of which there is a shaft having blades at one end, on which a gear is attached that is in contact with a gear fixed to the shaft of an electric generator attached to the support, while some of the blades the horizontal shaft installed by the second end in the rack is located in the water, three winches are attached to the additional projection of the support, the cables of which are connected respectively to three located on de hermetic containers having teeth and two supports attached to two winches respectively connected with cables situated on the water fourth hermetic container having teeth.

In FIG. 1 shows a bridge, a longitudinal section.

In FIG. 2 shows a bridge top view, section.

In FIG. 3 shows a bridge, a longitudinal section.

In FIG. 4 shows a bridge, cross section.

The bridge has the following construction. The span 1, having sidewalks 2 and a railing 3, is located on the supports 4 and 5. The support 4 has projections 6 and 7. At the bottom of the support 4 has an additional protrusion 8. A horizontal shaft 10 is installed on the bearings 6 and the strut 9 on the bearings. 10 to the shaft 10 blades 11 are attached. A gear 12 is fixed to the shaft 10. An electric generator 13 is attached to the support 4. The electric generator shaft 14 is mounted on the bearing in the protrusion 7. A gear 15 is fixed to the shaft 14 and is in contact with the gear 12. The electric generator 13 is connected by a wire 16 to the transmission line. A winch 17 is attached to the additional protrusion 8, the cable of which is connected to the hermetic container 18 having teeth 19. The winch 20 attached to the protrusion 8 is connected by a cable to the hermetic tank 21 having teeth 22. The winch 23 attached to the protrusion 8 is connected by a cable of the hermetic tank 24 having teeth 25. The length of the cable of the middle winch 20 is equal to the distance from the protrusion 8 to the blade 11 located in the water. The length of the cables of the two extreme winches 17 and 23 is equal to the width of the bridge. A winch 26 is connected to the support 4, connected by a cable to an airtight container 27 having teeth 28. To a support 5 is a winch 29 connected by a cable to an airtight container 27. Winches 17, 20, 23, 26 and 29 are connected by wires 30 to the power line through a time relay 31.

The bridge generates electricity as follows. Water flowing near the support 4 pushes the blade 11. Since the opposite blade 11 is in the air and the water pressure does not act on it, the shaft 10 constantly rotates in the bearings of the protrusion 6 and the rack 9. The gear 12 mounted on the shaft 10 rotates the gear 15 The shaft 14 rotates the armature of the electric generator 13. A voltage is generated on the stator of the electric generator, which is fed through the wire 16 to the power line. In winter, the time relay 31 supplies voltage through the wires 30 to the winches 17, 20 and 23. Electromagnetic brakes release the winch drums. Tanks 18, 21 and 24 located on the water sail away from their winches by the action of the current, unwinding the cable. Capacity 21, not having reached the rotating blades 11, stops, pulling the cable. Capacities 18 and 24 swim downstream past the rotating blades 11 to the other end of the support 4. There they stop, pulling the cables. Then the time relay supplies voltage to the electric motors of the winches 17, 20 and 23. Their drums rotate, winding the cables. Tanks 18, 21 and 24 return against the current, respectively, to winches 17, 20 and 23. With teeth 22, tank 21 breaks ice in front of the blades 11. Teeth 19 and 25 of tank 18 and 24 break ice on the sides of the blades 11. Then time relay 31 supplies voltage through wires 30 to the winches 26 and 29. The electromagnetic brakes of these winches release their drums. The time relay 31 supplies voltage to the winch motor 26. Its drum, winding the cable, pulls the capacitance 27 to the support 4. Then the time relay disconnects the voltage from the winch motor 26. Then the time relay supplies voltage to the winch electric motor 29. The drum of this winch, winding the cable, attracts the container 27 to the support 5. With the teeth 28, the container 27 breaks the ice in its path. After a while, when the container 28 is located near the support 5, the time relay disconnects the voltage from the winches 26 and 29. With the teeth 28, the container 27 breaks the ice behind the blades 11. Thus, the blades 11 constantly rotate in ice-free water. Time relay 30 supplies voltage to the winches at long intervals. Therefore, winches consume little electricity. An electric generator generates much more electricity.

The use of the bridge of the proposed design will allow to obtain the following technical and economic effect. So the bridge of known design generates electricity of small power. The bridge of the proposed design generates electricity of high power. Therefore, the cost of its construction will pay off faster.

Claims (1)

A bridge consisting of spans located on the supports, in the protrusion of the support of which there is a shaft having blades at one end, on which a gear is attached, which is in contact with the gear, mounted on the shaft of an electric generator attached to the support, characterized in that part of the blades of a horizontal shaft mounted the other end in the rack is located in the water, three winches are attached to the additional projection of the support, the cables of which are connected respectively to three hermetic containers located on the water having slaughter, and two winches, respectively, are attached to two supports, connected by cables with a fourth hermetic container located on the water, having teeth.

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