NO148272B - TARGET slab. - Google Patents

Description

The present invention relates to a clay pigeon used in shooting sports. Clay pigeon shooting or skeet shooting is a sport in which a shooter tries to shoot down with a shotgun clay plates or clay pigeons that have been sent in a trajectory through the air. Skeet shooting is an Olympic sport in which clay plates are used with prescribed data: a weight of 100

to 110 g, a diameter of 110 + 2 mm and a height of 25 to 28

etc. The clay pigeon is mostly thrown mechanically into the air, as one at a time is brought into the throwing position from a stack of discs.

The disc is given a rotational movement about its central axis, so that

it remains stable.

The clay pigeon is a mainly disc-shaped object that resembles a shallow inverted cup. The lower edge of the disc is very smooth and even, so that it should slide correctly out of the machine and into the air. The discs are stacked on top of each other during storage and transport.

As the lower edge of the discs is required to be very smooth and even, this smooth surface will rest on the smooth and even edge of the underlying disc in the stack, and it is clear that even a minimal amount of moisture will cause the gap between the discs are sealed airtight. Furthermore, as a stack often consists of a significant number of disks stacked on top of each other, the presence of moisture could cause subatmospheric pressure or partial vacuum between the disks, and this in turn could lead to the next disk to be ejected being prevented from to detach from the stack. The requirement that the lower surface of a disc must have a high degree of smoothness must still be taken into account, so that it can sail well through the air when it is thrown, as mentioned above. Even small irregularities in the surface will quickly cause deterioration of the sailing properties.

The invention helps to eliminate the formation of sub-atmospheric pressure and the damage or inconvenience this can cause.

A clay pigeon used in shooting sports according to the invention

is characterized by the features specified in the characteristic part of the patent claims.

The invention will now be described in more detail in connection with the accompanying drawing, where the figures show a preferred embodiment of the invention where:

Fig. 1 shows the clay pigeon seen from above.

Fig. 2 shows an elevation of the clay pigeon.

Fig. 3 shows a detail of the clay pigeon, in a section on a larger scale than natural size,

The clay pigeon according to fig. 1 and 2 are shown somewhat schematically. At the lower edge, the disc is designed with a flange part 1 which on the underside has a rib 2 with a semi-circular cross-section, as shown in fig. 2 and 3. On the upper side 3, the flange 1 has a groove 4. Several such grooves can be designed which are preferably pre-

evenly spaced around the disc to keep it balanced. The number of tracks in the example in the figure is four.

When the discs are stacked on top of each other, the rib 2 below the upper disc will lie on the top surface 3 of the underlying disc's flange part 1. The inner diameter of the flange part 1 of the discs is slightly larger than the diameter of the disc part that rests on the flange part 1. That is why large enough side clearance 5 between the two disks that lie on top of each other so that there is good passage for air through the vertical gap between the disks. As the flange 1 is designed with grooves 4 in the top surface, there is access for air through the grooves to the vertical gap between the discs, thereby preventing a vacuum from forming between the discs, while at the same time preventing the discs from adhering to each other.

The grooves 4 in the top surface of the flange part 1 do not cause any disadvantages to the disc. The grooves 4 are easy to produce in connection with shaping and casting of the disks. In the example shown, the disc has four grooves 4 with a semi-circular cross-section with a diameter of 2 mm.

The disc should be easily splintered when hit by a hail, but they must not be easily damaged during transport, even if there are many discs stacked on top of each other. The discs at the bottom must be able to withstand a large weight load, and this can mean that minimal vibration can destroy them if the discs do not rest evenly and well on each other. It is therefore that the top surface 3 of the flange part 1 cannot be designed with ribs that would prevent the disks from lying too firmly against each other.

With the aim of preventing vacuum formation, it is also possible to design small holes in the edge parts of the disc or on top of it. However, such holes must be so small or must be located so that a shot cannot pass through them without shattering the disc.

The small holes can be formed in the central part of the disc, or for example radially through the flange part 1. This, however, entails the disadvantage that the manufacturing process becomes more difficult in that it is necessary to manufacture these holes.

It is also not possible to design grooves or ribs in the lower surface of the disk, as these will counteract the fixed contact between disks.

The embodiment of the invention shown in the figures is very advantageous because the production of the grooves does not complicate the casting process and because the grooves are produced by means of elevations in the mold during the casting process.

In addition to the advantage obtained during the ejection of the new clay disks in that no difficulties arise as a result of moisture on the disks, another advantage is obtained, namely that disks which have not been splintered can be used again. The moisture that the disks usually absorb has no harmful effect, mainly because of the grooves, as these lead to neither creating a vacuum nor creating difficulties due to this during ejection of the disks.

Claims (4)

1. Clay pigeon target for use in shooting sports, characterized in that it is designed with grooves (4) or small holes above the bottom rib (2) on the target to guide air into between the targets in a stack, thereby preventing subatmospheric pressure between the targets. 2. Clay dove disc according to claim 1, characterized in that the top surface (3) of the disc's bottom flange (1) is designed with radial grooves (4). 3. Clay pigeon disc according to claim 1, characterized in that there is a hole in the central part of the disc or there are holes that are so small that the shots used during shooting cannot pass through a hole without shattering the disc. 4. Clay dove disc according to claim 1, characterized in that the disc is designed with holes in the radial direction through the flange part (1).