NO135107B - - Google Patents

Description

Radiosonde windmill.

It is known to provide radiosondes with a windmill for movement of a turning device in the radiosonde for connecting the barometer, thermometer and hygrometer in turn to the radiosonde transmitter. There are two types of such windmills, one of which works with a propeller in the horizontal plane and the other works in the vertical plane. It is a known feature of both of these windmill types that a part of the windmill, a wing or a blade that provides the torque is placed at the end of relatively long rods in order to achieve sufficient torque and low revolutions without using a gear. In order to be able to use these radiosondes, the windmill must also have a light construction. It follows that such windmills easily break during transport and take up a lot of space in relation to their weight.

These disadvantages have been eliminated by making the windmill poles removable together with the wings or vanes, with the intention that the windmill can be delivered disassembled for assembly at the place where the radiosonde is to be sent up.

The present invention relates to such a type of radiosonde windmill with demountable rods and thus connected wings, vanes or the like. There are previously known windmills of this type where the turning shaft is threaded and fitted with two nuts. The rod which is connected to the vane or vane is provided at one end with an eye which is adapted to be placed on the turning shaft. The rod is attached to the axle by tightening the nuts. Wind turbines of this type have the disadvantage that the windmill

like always is so easy to put together. For

.assembly of the windmill, a mut-iter must first be loosened, then the eye of the rod must be threaded 'on the turning shaft and only then can the rod be fixed in the correct position. The assembly of such wind turbines often takes place under difficult weather conditions, e.g. in severe cold, and it should then be taken into account that the composition of the windmill does not require that small individual parts such as e.g. nuts must be loosened as this complicates assembly of the windmill in the shortest possible time. The purpose of the present invention ■is therefore to provide a windmill of •the aforementioned type with demountable poles and which does not have the above-mentioned disadvantages.

This is achieved by a radiosonde windmill to whose hub are attached removable rods carrying wings, vanes or the like as well as mainly radially oriented support arms which support the rods according to the invention by the hub being provided with axial holes into which the ends of the rods bent at right angles are inserted, that the outer end of each support arm is provided with a lateral projection in which, on the side that faces in the same direction as the bent ends of the rods, a radial groove is placed and that the rods are springy so that by bending under the projections and into the grooves they become supported and held in place in the desired positions by the support arms.

An embodiment of the invention will be explained in more detail with reference to the drawing. Fig. 1 shows the wind turbine hub seen from the underside. Fig. 2 shows the hub in fig. 1 side view. Fig. 3 shows the hub in fig. 1 set from the top. Fig. 4 shows an axial section through the hub.

The windmill comprises a hub in the form of a cylindrical central part 1 with four axially extending holes or bores 2 and one central threaded hole 3 at one end for attaching the hub to the threaded shaft 4 for the ends of the radio probe.

From the hub's central part 1, four support arms 5 extend out to the side and somewhat downwards in a cross shape. Each outer end of the support arms 5 has a lateral projection 6 in which, on the upper side, a groove 7 is arranged parallel to the support arm, the bottom of the groove being mainly level with or slightly above the lowest end of the hub's central part 1. The end 8 of the outer wall that limits the slot 7 in the projection 6 is beveled to facilitate the introduction of the windmill rods into the slot.

The windmill poles 9 are provided at the outer end with blades 10. The pole 9 has an inner end 11 which is bent so that when the end 11 is inserted into the opening 2 in the central part 1, the pole can be inserted into the groove 7 and supported by the support arm 5 When the bottom of the groove 7 is approximately level with the lowest end of the hub, the rod is placed in the correct position. In this way, the windmill poles are attached to the hub.

From the foregoing, it appears that the work of fastening the rods is done easily and without the use of any loose small parts. The invention therefore makes it possible to very easily assemble the windmill at the place where the radio probe is to be set up, and this is a significant advantage.

Claims (5)

1. Radiosonde windmill to whose hub are attached removable rods that carry wings, vanes or the like, as well as mainly radially directed support arms that support the rods, characterized in that the hub (1) is provided with axial holes (2) that the rods are aligned with angled ends (11) are inserted, so that the outer end of each support arm (5) is provided with a lateral projection (6) in which a radial groove (7 ) and that the rods are springy so that by bending under the protrusions and into the grooves they are supported and held in place in the desired positions by the support arms. 2. Windmill according to claim ^characterized in that the holes are arranged in the end surface of the hub. 3. Windmill according to claim 3, characterized in that the outer boundary wall (8) of the radial groove in the support arm is chamfered to facilitate the introduction of the rod into the groove. 4. Windmill according to claim ^characterized in that the bottom of the track is arranged at such a level in relation to the aforementioned end surface of the hub, that the rods will at least approximately form a right angle with the windmill shaft. 5. Windmill according to claims 1-4, characterized in that the tracks are placed in such a way that the rods in a supported position are in a tensioned state.