DE7443413U - ROD ANTENNA - Google Patents

Description

Isaburo Takeyasu
Takarazuka, Hyogo, Japan

Rod antenna

The invention relates to a rod antenna composed of a plurality of telescoping elements conical tubes joined together.

A conventional rod antenna is made of metal pipes and as a result has a large weight. Since the bending elastic limit the metal pipe is small, the same can break off if they are loaded by forces acting on the side, for example a strong wind.

The object of the invention is to provide a rod antenna which is very stiff and has a high flexural elastic limit, see above that this rod antenna does not break off under the action of lateral forces.

This object is achieved according to the invention in that the tubes consist of a glass fiber reinforced synthetic resin and a Have electrically conductive layer on the inside and outside.

Further developments of the invention are given in the subclaims.

One embodiment of the invention is referenced below on the attached drawing described in the actor

1 shows a partially sectioned side view of the rod antenna according to the invention, Fig. 2 is a partial longitudinal section through the rod antenna in

enlarged scale,
3 shows an enlarged section of the foot end of a

Pipe,

4 shows a side view of an insert and FIG. 5 shows a longitudinal section through a modified insert.

Several tubes 1a ... 1d consist of one with glass fiber Synthetic resin such as polypropylene or polyethylene. The rod antenna of Fig. 1 comprises four tubes. These tubes are respectively tapered so that the foot end of the tube 1a, 1b and 1c, respectively form-fit fits into the head end of the tube 1b, 1c or 1d.

Apart from the lowermost pipe 1d, each pipe engages with its end in the head end of the pipe below, see above ate it cannot be pulled out of the lower tube when the tubes are extended from a lower tube.

Each tube 1a ... 1d is coated on the inside and the outside with a thin, electrically conductive layer 2.

In addition, a coating of an anti-corrosion agent 3 is provided on the outside of each tube with the exception of the sliding section X, which is overlapped from the inside of each lower tube when the tubes are pulled apart.

hen with this arrangement the pipes 1a ... 1d are pulled out of the respective lower pipe, the electrically conductive one remains

Layer 2 in the head end and in the foot end of interlocking pipes! each in contact with one another. The tubes form in their totality an electrical conductor so that the pipes act as a rod antenna

are smokable. The layer 2 with electrically conductive properties can also be replaced by a conductive metal foil. In other ways, the inside and the outside can each Tube be plated with a conductor metal.

Since glass fibers serve as the main component of the pipes, a rod antenna made from such pipes is very light in weight, they

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is stiff, strong and can give way in a strong crosswind, so that there is no risk of the antenna breaking. Consequently the rod antenna according to the invention is particularly suitable for radio buoys.

The electrically conductive layer 3 on the inside and outside of each pipe ensures electrically conductive properties, although the rod antenna mainly contains fiberglass and a synthetic resin, both of which are insulators.

The rod antenna according to the invention can also be independent be used by the respective weather conditions, because a coating of an anti-corrosion agent 3 is present. Since the Slide section X is free of the anti-corrosion agent, there is no risk of the electrical line through the anti-corrosion agent is interrupted.

The rod antenna can be extended by hand for use. However, automatic deployment is also used of compressed air or compressed gases is possible, in this case in the foot end of each tube 1a ... 1d of the antenna is fitted with an insert 4. According to Fig. 4, the insert 4 comprises a short one Cylinder part 4a with an outer flange 4b on the lower edge, the cylinder part 4a and the outer flange 4b being a contiguous ( Form unity. The outer flange 4b continues in a neck 4c, the diameter of which is smaller than the diameter of the cylinder part 4a and which merges downward into a downwardly and outwardly widening cylinder part 4d. The insert 4 consists of a flexible material such as rubber or plastic.

To hold the insert 4 in the foot end of each pipe 1a ... 1d, the short cylinder part 4a is pressed into the foot end of the pipe. The insert 4 cannot be pushed in completely because the outer flange 4b is on the front edge of the pipe bumps. The circumferential part of the funnel part 4d comes in tight

Attachment to the inside of the lower tube in each case, see Fig. 2.

The insert 4 has a narrow passage 5 in the center. However, the top tube 1a has an insert without a passage Completed according to Fig. 5, so that the compressed gas for extending the rod antenna from the tube 1b does not enter the tube 1a can, but rather causes a complete and uniform extension of the pipe 1a.

If air, gas or some other fluid is pushed into one another, out of tubes with said inserts existing rod antenna is introduced at the lower end of the lowermost tube 1d, the interior of this lowermost tube and also the pipe 1c is substantially instantaneously filled by the incoming fluid if the lowermost pipe 1d is longer than the upper pipe is 1c. This causes the pipe 1c to be pushed by the pressure of the fluid moved or shot out of the lowest Robr 1d like an arrow flies out of a blowpipe, until the foot end of the pipe 1c comes into contact with the upper end of the lowest pipe 1d. The tube 1c "is now extended. If the pipe is substantially the same length as the lowermost pipe 1d, the pressure of the incoming fluid pushes the Tube 1c straight up.

The pressure medium is introduced evenly through the foot surface of the lowermost tube 1d into the rod antenna Tube 1c is pushed out of the lowest tube 1d. Included the pressure medium also partially flows through the passage 5 in the insert 4 at the foot end of the pipe 1c into the upper pipe Ic so that the tube 1b is pushed out and extended as this is described accordingly for the pipe 1c.

The uppermost pipe 1a is finally extended in the same way as the pipes 1c and 1b from the pipe 1b below, so that the rod antenna is then extended over its entire length.

With the help of the insert 4 it is achieved that a comparatively low fluid pressure an even extension of the telescopically nested tubes of the rod antenna causes the respective funnel part 4d to hold the introduced fluid within the interior of the rod antenna.

Claims (4)

1. Rod antenna from a plurality of telescopically assembled conical tubes, characterized in that the tubes (1a, 1b, 1c, 1d) consist of a glass fiber reinforced synthetic resin and have an electrically conductive layer (2) on the inside and outside. 2. Rod antenna according to claim 1, characterized in that the tubes have a coating of an anti-corrosion agent on the outside (3) own. 3. Rod antenna according to claim 1 or 2, characterized in that an insert piece (4) is inserted into the foot end of each tube, which consists of a cylinder part entering the tube end (-Va) an adjoining neck (4c), the diameter of which is smaller than the diameter of the cylinder part, and a final, outwardly opening funnel part (ha) . 4. Rod antenna according to claim 3, characterized in that each insert piece (4) has a central passage (5).