FI99046B - Flow power device - Google Patents

Abstract

The invention relates to a flow power device, said device most adequately comprising a substantially vertically mountable transmission shaft 1 and at least one pair of wings adapted to rotating the transmission shaft, said pair of wings being formed by wings 2 formed by two wing halves 3, 4, respectively, and provided on opposite sides of the transmission shaft 1. The opposite wings 2 in the wing pair are united with each other by two twisting shafts 5,6, twistably journalled and extending crosswise relative to the transmission shaft, such that opposite wing halves 3, 3; 4, 4 relative to the transmission shaft 1 are non-twistably connected to the same twisting shaft 5; 6, and the twisting shafts on their part are interconnected such that twisting of one shaft causes opposite directed twisting of the opposite twisting shaft. The wing halves 3, 4 are connected to the twisting shafts 5,6 such that when the wing halves of one wing are in an open position, the other wing half is in a closed position. According to the invention, it is provided that a body piece 7 is provided between the wings 2 of the wing pair, onto which the twisting shafts 5, 6 are rotatably connected, such that the wing pair together with the twisting shafts 5, 6 and the body piece 7 form a functionable unit, which alone or together with one or more corresponding units is provided to be fastened to the transmission shaft 1. <IMAGE>

Description

99046

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The invention relates to a flow power device, in particular for utilizing wind power, which device preferably comprises 5 substantially vertically mounted transmission shafts and at least one pair of vanes arranged to rotate the transmission shaft. with an axis of rotation extending transversely to the transmission shaft and rotatably mounted so that the wing halves opposite to the transmission shaft of the wing pair are non-rotatably connected to the same axis of rotation and the axes of rotation are connected to each other so that the rotation that the wing halves of the second wing are in the open position sa the wing halves of the second wing are in the closed-20 position.

Such a device is known from a Swiss patent publication. from CH-676 279. In the solution presented therein, each pair of wings is mounted on a hollow, large-diameter drive shaft, which makes the structure cumbersome and expensive.

• · »• · · ·« · · • ·: To eliminate the mentioned disadvantages of known laws, it is

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The flow power device according to the invention is thus characterized in that a s-pepper is arranged between the wings of the pepper.

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a body to which the rotary shafts are rotatably mounted so that the pair of vanes together with the rotary shafts and the body form a ready-to-operate unit, * # * 35 which, alone or in combination with one or more similar: * · *: units, are arranged to be mounted on a transmission shaft. The pair of vanes can be completely completed, so that • 2 99046 at the installation site itself, it is sufficient to lift the pair of vanes or the desired number of pairs of vanes and attach them to the drive shaft.

In order to improve the bearing and support of the wing halves, it is preferably arranged that a support is connected to the body for supporting the free ends of the rotary shafts of the wing halves.

Other preferred further developments of the invention appear from the subclaims.

The invention will now be described in more detail with reference to the accompanying drawings, in which: 1 5

Figure 1 shows a schematic perspective view of a flow power device according to the invention.

Figure 2 is a schematic fragmentary view of a transmission shaft with associated body members (wings removed).

. ·. Figure 1 shows schematically a flow power device according to the invention, which is specifically intended for utilizing wind power, but which device can be used in connection with any flowing medium, for example in flowing water for utilizing hydropower.

• · • m • · • 1 m · '1 The device comprises a vertically mounted transmission shaft 1 and at least one pair of vanes arranged to rotate the transmission shaft. The pair of wings consists of vanes 2 arranged on opposite sides of the transmission shaft 1, in each case formed by two wing halves 3, 4.

• · · »t · 1 \ 1 35 • · · · • · • · • 99046 3

The opposite vanes 2 of the wing pair are connected to each other by two rotary shafts 5, 6 extending transversely to the transmission shaft 1 and rotatably mounted. The wing halves 3, 3 of the wing pair 5, 3 opposite to the transmission shaft 1; 4, 4 are non-rotatably connected to the same axis of rotation 5; 6.

The rotary shafts 5, 6 are connected to each other so that the rotation of the second axis of rotation causes the rotation 10 in the opposite direction to the second axis of rotation. In the embodiment example shown in Fig. 1, this is realized in such a way that gears 9, 10 which are in continuous tooth contact with one another are arranged at both free ends of the rotary shafts 5, 6.

15

The wing halves 3, 4 are connected to the rotary shafts 5, 6 so that when the wing halves of the second wing are in the open position, the wing halves in the foreground in Fig. 1, the wing halves in the second wing are in the closed position, the wing halves in the rear in Fig. 1. The wind direction is ·; marked with an arrow A.

: A body 7 is arranged between the wings 2 of the pair of wings, • »· *; . ·. to which the rotary shafts 5, 6 are connected in a manner known per se> · ···] 25 rotatably mounted and axially fixed. The body 7, in turn, is non-rotatably attached to the transmission shaft 1.

• «· ·’ In the application example according to Fig. 2, a preferred way of attaching the body 7 to the force 7 is shown; The upper end outside the mast 13 of the transmission shaft rotatably mounted on the mast 13 is formed of parts of the desired 'length' provided with a mounting flange '· ... · 11, whereby each body 7 is arranged to be mounted. between two such flanges 11.

99046 4

In order to align the shaft 1 provided with the flange 11 and the body 7 with respect to each other, a centering projection 14 and a corresponding centering surface 10 15 are arranged at the end of the shaft 1. The rotary shafts 5, 6 are perpendicular to the transmission shaft 5 and pass through its central axis. The flange 11 and the body 7 are fastened to each other by screws 16.

Due to the structure described above, several body pieces and thus several pairs of vanes can be arranged at a distance from each other and concentrically 10 on the transmission shaft 1. At the upper end of the shaft 1, a fastening member for the branches can be provided, if necessary, in order to improve the support of the shaft 1.

The pair of vanes together with the rotary shafts 5, 6 and the body 7 15 are formed as a ready-to-operate unit. In order to ensure the operation of the wings 2, a support 8 projecting from the body 7 in the direction of the rotary shafts 5, 6 is preferably connected to the body 7, the free end of which is connected to a bearing support 12 for supporting the free ends of the rotor shafts 5, 4.

The support 8, which consists, for example, of a round bar or other piece with a suitably low air resistance, is s «. in the example of Fig. 1, the front of the wing is viewed in the direction of movement of both wings of the wings. If necessary, the support 8 can also be both front and rear of the wing. la. In this case, the supports 8 can continue, e.g. as continuous bars to feed the body 7. However, from the point of view of air resistance, it is generally advantageous to design in the direction of movement: ·· 30 the support 8 on the front of the wing differently from the support 8 on the front edge of the wing in the direction of movement.

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The plate-shaped piece le projecting transversely from the free end of the support 8 forms a bearing support 12 for the rotary shafts 5, 6 and 35 and thus also for the wing halves 3, 4. The support 8 and the bearing support 12 can form an integral part of each other. The supports 8.12 5 99046 on opposite sides of the body 7 can also consist of a single piece.

The wing halves 3, 4 are attached to the rotary shaft 5, 6 at their front edge.

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The wing pairs are on the rotary shafts 5, 6 so that when the wing pair of one end of the shafts is turned at an angle of 0 ° with respect to each other, the wing pair of the other end is at an angle 2a with respect to each other and the other wing wing 2 The angle α is less than or equal to 90 ° and its magnitude is chosen so that the coefficient of drag of the open wing pair is as large as possible.

The operation of the flow power unit is as follows.

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If the 8-side side of the wing pair support is against the flow, the wing pair tends to close due to air resistance. In this case, the direction of the pair of vanes on the opposite side of the transmission shaft 1 with respect to the flow is opposite, so it tends to open. The air resistance of the open wing pair is higher due to the large surface area and the transmission shaft 1 starts to rotate.

Since the pairs of vanes are connected to each other by rotary shafts 5, 6 and rotary axes 25 by gears 8.9, one pair of vanes forces each other to open or close, depending on the flow. Thus, regardless of the direction of the wind, a larger resistive force is generated on the other side of the transmission shaft 1, which causes the transmission shaft to rotate 30 in a certain direction.

The several wing mechanisms described above can be mounted one on top of the other at different angles to each other, whereby the start-up is improved.

Claims (6)

1. Current force device, especially for the utilization of wind power, which device most readily comprises a substantially vertically mountable transmission shaft (1) and at least one pair of wings arranged for rotation of the transmission shaft formed by opposite sides of the transmission shaft (1). wings (2) formed by respective two wing halves (3, 4), the opposite wings (2) of the pair of wings being joined to each other in relation to the transmission shaft (1) transversely extending and pivotally mounted rotary shafts (5, 6) so that relative to the transmission shaft (1) of the pair of wings opposite the wing halves (3, 3; 4, 4) are non-pivotally connected to the same pivot shaft (5; 6) and the pivot shafts k are connected to each other so that one pivot axis The rotation of the one causes an opposite directed rotation relative to the other turning axis, the wing halves (3, 4) being connected to the turning axes (5, 6) so that when the wing halves of one of the wings are in an open position give, the other half of the blade is in a closed position, characterized in that between the wings of the wing pair (2) a body piece (7) has been arranged, to which the rotary shafts (5, 6) are rotatably mounted, the wing pair together with the rotary shafts (5, 6) and the body piece (7) form a function-ready unit which alone or together with one or more corresponding units has been arranged to be attached to: the transmission shaft (1). 2. Apparatus according to claim 1, characterized in that a support (8) is connected to the body (7) to support the free ends of the wing halves (3, 4). rotary shafts (5, 6). 3. Device according to claim 1 or 2, characterized in that the support in the direction of movement of the wing ·. considered have been arranged at the front and / or back of the •: the leading edge of the wing. • · «9 99046 4. Apparatus according to any one of claims 1-3, characterized in that the wing halves (3, 4) have their front edge fixed to the rotary shaft (5, 6). Device according to any of claims 1-4, characterized in that the rotary shafts (5, 6) are perpendicular to the transmission shaft (1) and run through its center shaft. Device according to claim 5, characterized in that the transmission shaft (1) is at least partially formed by parts with ends provided with a flange (11), between which parts each body part (7) has been centered. * * 1 • · »· · • · w • · · •» • · • »• · • · • · · *« 1 * ♦ * m 1 »· w Ψ • · * V · • · · • ·« ·· I> · I »I • · · • · t · • · · • 9 m * · 1 · ·» 1 · · • 9 9 · · * ·