SE454010B - Fluid-operated machine rotor - Google Patents

Abstract

Several control rods are activated by a mechanism positioned on a rotor shaft, and normally inside it. For protection against fluid or pollutive matter, the mechanism is sealed. The mechanism can take the form of a Z-shaft, the inclined part of which is in contact with the rods. This achieves the angled configuration of the rotor blades.

Description

10 454 010 This object is achieved by means of a spreading machine down the 1 pa- tent requirement l specified features. Thereby, a blurring of the steering mechanism can be easily accomplished by space inside the axis of rotation, son contains nekanislen. is filled with a lacing medium such as oil or grease enulsion, In an alternative design, the center ends of the rods may joined to an eccentrically placed down-rotatable joint. Ledens eccentricity can be controlled down a steering shaft sun has a point led- bare mounted on the center of rotation axis. The outer end of the steering shaft can is given a suitable position with an encapsulated guide bearing for radial see or with an axial movement a nanotap led down an ex- centrally located heel.

The invention can be described in more detail down the line of attached schematic drawings son refer to embodiments and in which; Fig. 1 shows a view of a rotor according to the invention. Fig. 2 and section taken through A-A in Fig. 1, Fig. 3 an enlarged section of mechanism with z-axis at the center, Fig. 4 is an enlarged section. Fig. 5 shows a detailed embodiment of a steering shaft with guide shaft for the connection of the steering shaft with a nanover sleeve and Fig. 6 shows detail design for main shaft. nekanisu and a support shaft.

The rotor in Fig. 1 has vanes 1 articulated to arms 2.

The hearths are fixedly connected down a major axis 3. The angles of the vanes is obtained with substantially radially placed rods 4 from one mechanism not shown at the central portion of the rotor. In Fig. 2, the contact point 5 down the outer ends of the rods not shown 1 detail. The contact point down its hinge point can be made as one tilt or down a yellow bushing.

In Fig. 3, the rods 4 have their center ends at 6 and are there in contact with a centrally located central axis of the major axis body which may be shaped like an oblique cylinder 8. Con- - ................_....._......... . . 454 010 pace can be done down with the help of springs. The oblique cylinder 8 is fixedly connected down a center axis 7 so that they together form a z-shaped shaft. The main shaft is rotatably mounted in bearing 11.

Sealing note surrounding liquid can be done down 0-rings 10 and one shaft seal 9. The center shaft is prevented from rotating down the main shaft 3 through a fastening device (not shown) to a non shown stand. when the main shaft rotates, the rods can move radially and affect the angle of the blades according to desired course. For adjustment of the eccentricity is shifted the non-rotatable center axis axially. The one shown in Fig. 3 the z-axis is shown son a 'half z'. Genoa design son one 'completely z' can be driven into the rotor by the displacement of the center axis two directions of rotation. This is a very big advantage when 1 shovel stuck grass and the like must be cleared.

In Fig. 4, a down-rotatable guide shaft 14 is articulated connected down the center ends 6 of the rods down a hinge bearing 13.

The joint bearing can be made as a gun bushing or other resilient elements. The guide shaft 14 is further articulated in one point 12 on the axis of rotation of the main shaft. Steering axle second end can be extended out of the main shaft and sealed by a bellows 18.

The outer end of the steering shaft is provided with a non-articulated guide shaft. sleeve 15 rotatably mounted to the guide shaft joint bearing 16 and sealed with a shaft seal 17. During operation, the control sleeve l5 is held in a fixed position relative to a tripod (not shown). For changing the angular angle of the blades changes the fixed position non a 1 mainly radial displacement.

In Fig. 5, the guide shaft 14 with its pivot point 12 on the axis of rotation is line in contact with a non-rotatable nano pin 19 at a contact surface 20. The lever pin is moved out of the main shaft 3. A reg- lerdon can be connected at the free end 24. The handle pin is sealed to the main shaft with a shaft seal 25.

In Fig. 6, true structures subjected to the action of the liquid have elements are assembled into a single sealed unit. A non- rotatable support shaft 21 is fixedly connected down a stand (not shown).

The main shaft 3 is rotatably mounted in bearing 11. Center axis 7 _15 454 010 or its equivalent in alternatives according to Fig. 4, namely the steering shaft. is located internally in the wholly or partly drilled support shaft 21. The oblique cylinder is here designed son and sleeve 8a. The sleeve can be connected to the guide shaft 7 down one pin 26. son can pass through the support shaft 21 at a slot 27.

Sealing the liquid can be done with the 0-rings 10 for the rods 4. an O-ring 22 and a shaft seal 28.

The invention can within the framework of the basic idea that provide a robust and reliable rotor of the specified the type is varied in several ways. For clearing grass with down can reversal of direction of rotation when performing, among other things according to Fig. 6, by turning the support shaft half a turn.

When the rotor is used as a turbine and drives, for example, a generator or a pump or when the rotor is used as a stirrer or current generator and powered by a notary. is in both cases in it V to the rotor, the machine connected a stationary and a rotatable part. The rotor design can be easily built together with it connected to the machine by placing its parts in direct connection to the centrally located mechanism and is given a sealing note surrounding liquid with a nininun of sealing tooth element. IN ih

Claims (6)

454,010 Patent claims Rotodynamic type flow machine with a rotor intended to be flowed through by a liquid substantially in a direction transverse to the axis of rotation of the rotor (3), which flow machine comprises at least one vane (1). which is hingedly connected to at least two arms (2) or discs, which are fixedly connected to the rotor shaft (3) of the rotor, and which during the rotation of the rotor is rotated about its hinge axis by means of a rod (4) projecting substantially radially from the axis of rotation. one outer end of which is hingedly connected to the vane (1) and the other inner end of which is radially displaceably mounted, an eccentric element controlling the radial displacement of the rod (4), characterized in that the axis of rotation (3) of the rotor is hollow. that the inner end of the rod (4) passes through a peripheral opening in the axis of rotation and cooperates with an eccentric element, which is arranged on a center axis. which is arranged axially displaceably inside the interior of the axis of rotation to enable the eccentricity of the eccentric element to be changed, and that the penetrations of the rod (4) and the center axis are sealed against the environment so that the interior of the axis of rotation forms a sealed one. ..._- n space. 2. A flow machine according to claim 1, characterized in that the eccentric consists essentially of an inclined cylinder (8) displaceable in axial joint 1 and in order to achieve a variable size of the rotation of the blade. Flow machine according to Claim 1, characterized in that the mechanism is designed with a guide shaft (14) which can be rotated with the main shaft and articulated at a point (12) on the center of rotation of the main shaft and coupled for co-operation with the center end of the rod. 13) whereby the rotation of the vanes is obtained by guiding the guide shaft with a fixed position next to the axis of rotation of the main shaft with a guide sleeve (15). 454 010 4. A flow machine according to claim 3, characterized in that the point of the steering shaft with fixed position is adjusted with a maneuvering pin (19) centrally located, the end of which is located in the main shaft having an eccentrically placed contact surface (20) with the guide shaft (14). Flow machine according to one of the preceding claims, characterized in that the main shaft is rotatably mounted on a non-rotatable support shaft (21). which is attached at least at one end to a stand or equivalent. and that the mechanism for paddle angle, main shaft and support shaft as a unit is deflated against the liquid. Flow machine according to one of the preceding claims. FEELING that the space sealed from the liquid is filled with a medium suitable for lubrication and / or cooling, for example oil or grease / water emulsion. ÛU '