DE8909527U1 - Reduction device - Google Patents

Description

-2-Description

Albert Göpper transformation device

The invention relates to a positioning device, preferably for rotatable satellite receiver systems for positioning a

Parabolic Epigels,

for rotating satellite receiver systems have been available for some time in a wide variety of designs. In the case of the Segal, they consist of a threaded rod and a worm drive which carries out the rotary movement.

However, a disadvantage of the threaded rod drives used so far is their size, which means that the drive takes up a lot of space. In addition, this drive lacks the necessary precision. A problem with the worm drive used so far is the weight, which is too high in relation to the standard rotating satellite receiver system. This leads to the standard rotating satellite receiver system being top-heavy.

In addition, the worm drive is very unwieldy due to its high weight and causes difficulties when installing the rotating satellite reception system.

The invention is based on the task of eliminating the above-mentioned components and creating a support device that works precisely and whose size and weight are in proportion to the entire rotating satellite reception system, so that it is handy and easy to install.

This aim is achieved in that in this reduction device a linear movement is converted into a rotary movement by means of a screw line. A preferred embodiment is characterized in claims 2 to 6. The subject matter of the invention is shown in two embodiments in the drawings. They show:

Flg.1 Reduction device in cross-sectional view Fig.2 Reduction device in longitudinal section Fig.3 Reduction device in plan view Flg.4 Reduction device old parabolic mirror

Flg.5 Reduction device old an octagon alo guide piece in cross-sectional view

Fig. 1 shows the basic reduction device, which is located in a waterproof lightweight metal housing (1) and is made of corrosion-protected material. It contains a linear guide, consisting of a guide plate (2), a guide piece (4) with a pin (3) and pin (6) and a threaded spindle (5). The guide piece (4) moves linearly in the guide plate <2). It is connected via the pin (6) to a screw line (8) which is located in a drive shaft (7). The screw line (6) converts the linear movement of the guide piece <4> into a rotary movement of the drive shaft <7>. The parabolic mirror <í?) is set in a rotary movement via the drive shaft (7).

In Fig.5, a linear movement is also converted into a rotary movement, whereby an octagon (10) acts as a guide piece, to which ball bearings (11) are attached, which move linearly on two guide rails (12) attached to the side.

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The inventive gear reduction device does not cause any difficulties in production and the costs are relatively low. Due to its relatively low weight and relatively low size, this gear reduction device is easy to transport and dismantle. The screw line also enables the parabolic mirror to rotate precisely. In addition, this gear reduction device is very stable, so that even high wind speeds do not affect the function of the gear reduction device.

It goes without saying that this support device, shown in two embodiments, can also be used for other areas, such as model making.

Claims (1)

&bull; I t I t &igr; IIII ■■■'·< · It &igr; £·>. hu ⁺ rsr^prucLt " Description ¹ Ii^, preferably for rotating telescopes.<ieng=M)las;eii j to form a?. Parabolic mirror, thereby protected by the fact that it consists of a guide, a f. ;.r out-·=: ". irie and a*· &tgr; drive^w.· i \<- consists, which rsit the;· in !ifhl*wf:ui, _; , to &ngr;» rfci-+Eend'"-n Geg·?lr-tai.d in Vcrbiriduiif. tlehtn. L. Ui.i.fei setting provisions according to Anr-piuch 1, It is therefore not sufficient that it is located in a waterproof light metal housing (I). :. ^J ·. A cooling device according to claims 1 and 2, characterized in that it consists of corrosion-protected material. Supporting device according to at least one of claims 1 to 3, characterized in that it includes a linear guide (2,3,4,5,6). 5. Reduction device according to at least one of claims 1 to 4, characterized in that the linear guide is connected via the pin <e> to a screw rod (8) _which is located in the drive shaft <7). 6. Reduction device according to at least one of claims 1 to 5, characterized in that the drive shaft (7) is connected to a parabolic mirror <9). 7. Reduction device according to at least one of claims 1 to 6, characterized in that the guide piece (4) consists of an octagon (10) to which ball bearings (11) are attached, which move linearly on guide rails (12). Gbm - Central Registry 7 NOV 1998