DE548085C - Device to determine the blackening energy of the photographic plate in photographic recordings, in particular X-ray recordings with amplifying film - Google Patents

Description

Device for taking photographs, especially X-rays with intensifying screen to determine the energy blackening the photographic plate For the blackening of photographic layers it is based on the theory of the Schwarzschild exponent a difference whether the same amount of energy in light or X-rays (this using the known intensifying screens) is noticeable in a short time or whether this amount of energy is brought into effect over a longer period of time. The practical conditions are such that the amount of energy acting in a short time causes a more intense blackening than the same over a longer period of time Amount of energy. The situation is similar with others through electromagnetic Radiation-induced changes, such as discoloration and biological effects.

When determining the exposure time causing optimal blackening exposure meters that take these conditions into account are therefore desirable. An essential type of radiation measurement is the known photoelectric or ionimetric methods, d. H. it becomes the intregal of the current-time curve of the Determines charging or discharging of a capacity. Since such measuring devices only the Determine the amount of energy and register it independently, oh for a short time High energy or weaker energy acting over a long period of time are special precautions to take into account the above-mentioned blackening ratios during the measurement. To determine the intensity of X-rays. in itself one often has orders related to ionimeter chambers or tip counters. Especially the latter arrangement serves to prove very weak radiation.

The invention relates primarily to devices that register the point in time at which the optimum Blackening of the photosensitive layer has taken place. According to the stronger Blackening with high energy in a short time is required by the measuring device for such cases be made more sensitive than to the effects of weak energies over long periods of time Times. According to the invention, the capacity to be charged or discharged is used an auxiliary line containing a resistor is branched off. With capacity to be charged leads this auxiliary line to earth; if the capacity is to be discharged, the same leads a source of counter voltage. Great energies are now falling into the for a short time Radiation receiver, i.e. the photoelectric cell or the ionimeter chamber, so a large amount of electricity suddenly appears in the capacity when with Charging the capacity is in progress. A significant part of this occurring large amount of electricity cannot in a short time via the resistance to earth derived or fed back from the auxiliary voltage source. The measuring instrument therefore reaches the rash indicating the optimal blackening even at a lower, the amount of energy actually absorbed than when it is distributed over a longer period of time Irradiation with correspondingly smaller amounts of energy is a relatively larger one Amount of charge can flow away or flow in through the resistor. Through .this auxiliary line So the radiation measuring device can be adjusted according to the superproportional sensitivity photosensitive layers for short and long. Adjust exposure time. Appropriate a variable capacitor is connected in parallel to the measuring instrument, which allows adjust the measuring device. The resistance is also expediently variable made. Possible resistors are: ohmic resistors, Bronson resistors or discharge tubes discharge tubes are occasionally used in ionic devices to reinforce the weak. fonization currents related. The in the device according to The discharge tube to be applied to the invention, on the other hand, serves as a leakage resistor.

In the exemplary embodiment in the figure, the radiation receiver is here z. B. an ionimetric chamber r connected to a voltage source 2 by which its outer wall is constantly charged to a certain potential. Isolated introduced into the chamber is the probe 3, through which the capacitance 4. that through the dashed line is included, is charged. This capacity 4 consists of the measuring instrument 5 and optionally a variable capacitor connected in parallel 6. The auxiliary line, which contains the resistor 7, is branched off from the capacitance.

Claims (1)

PATENT CLAIMS r. Device to determine the blackening energy of the photographic plate taking into account the Schwarzschild exponent in photographic recordings, especially X-ray recordings with intensifying screen, with the aid of a capacity to be charged or discharged by radiation receivers such as photoelectric cells or ionimetric chambers, characterized in that an this capacitance (q.) an auxiliary line containing a resistor (7) is placed. a. Device according to Claim r, characterized in that in the case of devices operating with call charging of the capacitance, the auxiliary line is connected to earth via the resistor. 3. Device according to claim r, characterized in that in the case of devices operating with discharge of the capacitance, the auxiliary line is connected to a counter-voltage source via the resistor. q .. establishment. according to claim i, characterized in that a discharge tube serves as the resistor. 5. Device according to claim r, characterized in that a gas line under the influence of radiation serves as a resistor.