SU1211444A1 - Wave power plant - Google Patents

Description

The invention relates to hydropower and can be used in wave power plants.

The purpose of the invention is to increase the reliability of the installation and reduce the size of the generator.

FIG. 1 shows a wave energy installation, a general view; in fig. 2 — a unit of a transformation mechanism made in the form of two overrunning clutches; in fig. 3 -

7, which as a result comes in rotation, the coupling halves 9 and 11 are disengaged.

When the wave passes through the sole, the float 3 makes a reverse rotation, while the coupling half 10 and 12 are disengaged, allowing the counter-rotor 7 to rotate by inertia, and the coupling half 9 and 11 interlock and connect the rotor 6 with the float 3, as a result of which the rotor 6 comes into rotation the direction opposite to the direction of the transformation mechanism, is performed by the 10th vrah, of the counter-rotor 7. in the form of a differential gear. Installation with the transformation mechanism The wave energy setting of the content, made in the form of a differential gear, em as follows. Under the action of the incident wave, the housing 1 with the brackets 2, the float 3 of asymmetrical form mounted on them with the possibility of rotation and the generator made counter-rotor connected to the float 3 and installed inside the float 3, with the shafts 4 and 5 of the counter-rotor 7 of the generator located along the axis AA of rotation turn the float 3 and connected with it by a conversion mechanism.

The float 3 is provided with a wave-receiving curvilinear blade 8 mounted on its upper part.

FIG. 2 shows the conversion mechanism, made in the form of two overtaking 3, rotates around the axis AA. the coupling halves 19 and 21, 20 and 22 are engaged and the carrier 16 is connected to the float 3, and the wheel 14 is connected to the counter-rotor 7. In the resulting differential gear, the shaft 18 of the carrier 16 connected to the float 3, 20 is the leading one, when rotating of which the shafts 4 and 5 of the rotor 6 and the counter-rotor 7 are rotated in the same direction as the shaft 18. Since the moment of inertia of the counter-rotor 7 is significantly greater than the moment of inertia of the rotor 6, the speed

Couplings, half couplings 9 and 10 of which 25 rotate the rotor 6 exceeds the speed fixed respectively on the shafts 4 and 5 of the rotor 6 and the counter-rotor 7 of the generator, and the coupling half 11, 12 - on the float 3.

FIG. 3 shows a conversion mechanism made in the form of a differential gear consisting of two conical coaxial wheels 13 and 14, with the wheel

13 is fixed on the shaft 4 of the rotor 6, and the wheel

14 has a hollow shaft 15 placed inside the shaft 5 of the counter-rotor 7, and drove 16 with the satellites

thirty

40

idivin i7 and a shaft 18 located inside the shaft 15 of a tapered wheel 14 coaxially with the shaft 4 of the rotor 6, and two pairs of overrunning clutches, the coupling half 19 and 20 of the first coupling pair being fixed respectively on the shafts 18 and 5 of the carrier 16 and counter-rotor 7, the other coupling half 21 and 22 of the first pair of couplings - on the float 3 and the shaft 15 of the bevel wheel 14, and the half couplings 23 and 24 of the second pair are fixed respectively on the shafts 15 and 18 of the bevel wheel 14 and drove 16, and the half couplings 25, 26 - on the float 3 and the shaft 5 of the counter-rotor 7 .

The installation with a conversion mechanism made in the form of two overrunning clutches operates as follows.

Under the action of the incident wave, the float 3 rotates around the axis AA, and the coupling halves 10 and 12 interlock and the float 3 is connected to the counter rotor.

rotation of the counter-rotor. 7, and also because of the operation of the differential gear as a multiplier, exceeds the speed of rotation of the float 3.

When the speed of rotation of the float 3 decreases after passing the crest, the waves of half coupling 23 and 25, 24 and 26 interlock and connect the float 3 with the wheel 14, and the carrier 16 - with the counter-rotor 7. The multiplier generated transfers the kinetic energy of the counter-rotor 7 to the rotor 6, thereby increasing the difference their speeds.

During the reverse movement of the float 3, as a result of passing the sole of the wave, the elements of the conversion mechanism do not change and the wheel 14 rotates the driven shaft - shaft 4 of the rotor 6 through the differential gear by means of two driving shafts - shaft 15 of the wheel 14 and shaft 5 of the counter-rotor 7.

The conversion mechanism, made in the form of a differential gear, allows to obtain a significant speed of rotation of the rotor 6 relative to the counter-rotor 7.

A wave-receiving curvilinear blade 8 JQ increases the speed of rotation of the float 3 and, accordingly, the speed of rotation of the rotor 6 and the counter-rotor 7.

45

7, which as a result comes in rotation, the coupling halves 9 and 11 are disengaged.

When the wave passes through the sole, the float 3 makes a reverse rotation, while the coupling half 10 and 12 are disengaged, allowing the counter-rotor 7 to rotate by inertia, and the coupling half 9 and 11 interlock and connect the rotor 6 with the float 3, as a result of which the rotor 6 comes into rotation the direction opposite to direction 3 makes a turn around the axis of AA. the coupling halves 19 and 21, 20 and 22 interlock and connect the carrier 16 to the float 3, and the wheel 14 to the counter-rotor 7. In the resulting differential gear, the shaft 18 of the carrier 16 connected to the float 3 is the driving shaft, the shafts 4 and 5 of the rotor 6 and the counter-rotor 7 pushes the rotational movement in the same direction as the shaft 18. Since the moment of inertia of the counter-rotor 7 is significantly greater than the moment of inertia of the rotor 6, the speed

rotation of the rotor 6 exceeds the speed

5 rotations of rotor 6 exceed speed

0

0

rotation of the counter-rotor. 7, and also because of the operation of the differential gear as a multiplier, exceeds the speed of rotation of the float 3.

When the speed of rotation of the float 3 decreases after passing the crest, the waves of half coupling 23 and 25, 24 and 26 interlock and connect the float 3 with the wheel 14, and the carrier 16 - with the counter-rotor 7. The multiplier generated transfers the kinetic energy of the counter-rotor 7 to the rotor 6, thereby increasing the difference their speeds.

During the reverse movement of the float 3, as a result of passing the sole of the wave, the elements of the conversion mechanism do not change and the wheel 14 rotates the driven shaft - shaft 4 of the rotor 6 through the differential gear by means of two driving shafts - shaft 15 of the wheel 14 and shaft 5 of the counter-rotor 7.

The conversion mechanism, made in the form of a differential gear, allows to obtain a significant speed of rotation of the rotor 6 relative to the counter-rotor 7.

The wave-receiving curvilinear blade 8 Q increases the speed of rotation of the float 3 and, accordingly, the speed of rotation of the rotor 6 and the counter-rotor 7.

five

A -P

F U1. 3

Compiled by "N. Klasson

Editor N. GorvatTechred I. VeresKorrektor, P. Demchik

Order 62: 39 Circulation 448Subscription

VNIIPI USSR State Committee

for inventions and discoveries

113035, Moscow, Zh-35, Raushsk nab. 4/5

Branch PPP "Patent, Uzhgorod, st. Project, 4

Claims (4)

1. WAVE ENERGY INSTALLATION, comprising a housing with consoles, mounted on them with the possibility of rotation of the asymmetric float and connected to the float generator, characterized in that, in order to increase the reliability of the installation and reduce the dimensions of the generator, the latter is made counter-rotor and installed inside the float, moreover, the shafts of the rotor and the counter-rotor of the generator are located on the axis of rotation of the float and are connected to it using the conversion mechanism. 2. Installation according to π. 1, characterized in that the float is equipped with a curved blade mounted on its upper part. 3. Installation according to π. 1, characterized in that the conversion mechanism is made in the form of two overrunning clutches, some of which are mounted on the rotor shafts of the rotor and the counter-rotor of the generator, and others on the float. 4. Installation according to π. 1, characterized in that the conversion mechanism is made in the form of a differential gear, consisting of two conical coaxial wheels, one of which is mounted on the rotor shaft, and the other has a hollow shaft located inside the counter-rotor shaft, and a carrier with satellites and a shaft located inside the shaft the conical wheel coaxial with the rotor shaft, and two pairs of overrunning clutches, with one half-coupling of the first pair of couplings mounted on the shafts of the carrier and counter-rotor, the other half-coupling on the float and shaft of the conical wheel, and one half-coupling of the second pair fixed on shafts and the bevel gear carrier, and the other - on the float and the shaft SU „„ 1211444 FIG. 1 counter-rotor.