DE123496C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

M 123496 CLASS 42 c.

KARL FUHRMANN in HOERDE Photographic soldering apparatus.

Patented igol in the German Empire from January 27th.

The task that the soldering apparatus described below is intended to solve is consists in plotting a point on the surface of the day exactly into the depth.

It belongs to this task, which is very often used for the purpose of connection measurements in the One of the most difficult jobs of the mark separator, because it is at the pit great depth, which it is often about - 500 m and above - almost impossible is to bring the Loth to the rest position, especially in most of the shafts the dripping water and the falling water The current of weather disturbs the Loth continuously. So in most cases you are forced to Observe the solder in the oscillation during the connection measurements and the mean or Determine the rest position of the solder from the oscillation amplitudes by measurement. But this is especially in deep and wet Manholes very cumbersome, time-consuming and, above all, not necessarily reliable, because the turning points of the oscillation curves or lines cannot be determined precisely enough, especially since the oscillation plane of the solder changes very frequently due to the impact of water. To now the oscillation curves to determine the solder with full accuracy, I have constructed a soldering apparatus, who writes down the curves himself.

. This soldering apparatus of cylindrical shape is in the drawing in a longitudinal section shown.

The lower part A is the actual heavy body of solder. It consists of a solid iron cylinder weighing 5 to 10 kg, which has a bore about 10 mm wide in the axis, which is matt blackened. This hole is closed at the top and bottom by a brass screen B , which is provided with a fine hole of about 1 mm exactly in the axis of the cylinder. The upper part of the iron cylinder is tightly enclosed by a brass tube D. This tube contains near the upper edge of a disk E a light source F, which is mounted exactly in the axis of the solder. Although the type of light source is not essential, an electric incandescent light is used here for practical reasons, which is fed by two accumulators G placed in the tube on the iron cylinder. These accumulators are arranged in such a way that the light beam coming from F can pass unhindered through the fine bores C between them. Above the incandescent light there is the on / off switch H, which has space in the cavity of the lid J with which the apparatus can be tightly closed.

This soldering device is hung on the soldering wire by means of the hook K, which is connected by a strong cord to the head of the lid exactly in the axis, to which hard brass wire or steel wire about V ₂ mm thick, depending on the weight of the solder, is used.

The procedure is now as follows: After the lamp has been brought to light by the Contact H , the soldering device is hung on the soldering wire that was previously lowered into the shaft and on an underlying one

Frame the approximate magnitude of the vibrations by observing the luminous Determined point. The frame is then screwed onto a solid base attached so that the shining point does not go beyond the edges of the frame. Then a second frame that fits exactly into the frame and is covered with moist photosensitive paper or a photographic one Inserted plate on which the oscillation curves or lines are sharply defined after development. The center of oscillation is then very easy to construct with precision, and can be marked by inserting a needle or a pen and be targeted directly.

In Fig. 2, the curves are shown as they have resulted in an experiment using different vibration levels. In this figure the position of rest of the perpendicular through the point L is also established by photographic means, to prove that this point coincides exactly with the intersection of the center lines of the curves.

That vibrating bodies record their vibrations photographically is not new and z. B. has already been used in the self-writing magnetic declinatorium. Also is already a thread pendulum known as a seismometer (see patent specification 114700, class 42 c), which his Representing vibrations photographically. However, this thread pendulum is used for Schachtlothungen not usable, which as a seismometer makes no claim, and is very much different from the one described here Different soldering machines.

The photographic pendulum seismometer receives its light from one outside the Lotte's fixed light source through reflection, does this by means of a lens system Light emerge in the pendulum axis and records its oscillations on a through a clockwork rotating surface according to polar coordinates, while the one described here Soldering apparatus contains the light source in the oscillating solder body itself and without using a lens system direct the light beam out of the axis of the vibrating Lothes is thrown onto a solid, light-sensitive surface on which the center of oscillation is represented or constructed can, which is not possible with the photographic seismometer and also not its purpose.

Claims (1)

Patent claim:
Photographic soldering apparatus, characterized in that a light source is attached within a soldering body which, without the use of a lens system, throws light from the soldering axis of the soldering body onto a solid, light-sensitive surface in order to display the center of oscillation or lines of oscillation for determining this point. 1 sheet of drawings.