DE484310C - Device for the automatic multiplication of a basic time by a factor, in particular for the supervision of photographic processes - Google Patents

Description

Device for the automatic multiplication of a basic time with one Factor, in particular for the supervision of photographic processes. The invention relates to a device for the automatic multiplication of a time period, the bottom time, with a factor.

Such devices can be used in many industries, in scientific Try and find use in doing many jobs, especially in Cases where the multiplication has to be done quickly. should be made and There is not much time to do the conversion from seconds to minutes in your head to make, or where- the circumstances prevent such a multiplication undertakes because one is busy with other things at the same time.

The device is particularly useful in photographic processes, z. B. Development and Tinting Processes. The application should therefore for example should be examined in more detail in this context.

When developing a latent photographic image on an exposed plate, film, paper or the like, it is of particular importance that the image developed has a certain gradation, that is, that a certain ratio is maintained between the dark and light parts of the image . This gradation depends on the photographic material, the developer used, the temperature of the developer, etc. But most of all it depends on the correct or incorrect exposure. As is well known, there is a certain relationship between the time span from the moment when development begins until the first traces of the image appear on the plate and the full development time, if a certain gradation is to be achieved. The ratio between these two times is then a factor by which time periods within the meaning of the invention are to be multiplied in order to find the correct development time for an observed time period (the basic toe), which was determined until the first image traces disintegrated. As is known, this factor is determined by the developer used and is therefore constant even when different materials are used and when the temperatures change. The value of the factor is between 3 and 30, for the commonly used developers between 5 and 1 5.

When using the subject matter of the invention one proceeds so that the Apparatus started at the same time as the plate was immersed in the developer after which he measures the time until the first traces of the image show up. Then press you just press a button, and the device then gives a signal if the correct one Development time has elapsed by the appropriate developer for the developer being used Time factor in advance given by the establishment of the apparatus is or is being set.

This saves all arithmetic and the photographer can himself fully devote to development work.

The subject of the invention is mainly characterized by that a measuring element traverses a distance during the base time, which distance depends on the duration of the bottom time and the speed of the measuring device, and after the end of the bottom time or partially at the same time. through the same or some other organ is traveled at a speed as many Times smaller than the first speed, as indicated by the factor with which the The base time is to be multiplied, with the organ after having covered the second path triggers a signal.

The measuring organs can be racks or wheels. It can be the measuring organ can also be used as a trigger element for the signal, etc., as well as the directions of movement can be different or the same as required.

In the drawing, for example, a device designed as a clock is shown shown in which a measuring element and a trigger element moves in the same direction will. Here, gears are used as measuring and triggering devices.

Fig.r shows a horizontal section through the apparatus, Fig.2 bis 6 different details. In Fig. I only that part of the apparatus is shown which is necessary for understanding the operation of the apparatus while the driving Movement _not at all and the case is only shown where it is integrated Part of the work is used.

A shaft 2 driven by a clockwork is gelagext in a housing i. Diesle shaft carries a drive wheel 3 and is q by a_ coupling. with your clockwork tied together. The clutch q. ! should be set up in such a way that shaft 2 is from the clockwork clockwise is taken, but it is possible to use the shaft rotate backwards without affecting the movement. The drive wheel 3 is in the handle with an intermediate gear 6 fastened to an intermediate shaft 5. On the shaft 5 a drive wheel 7 is also attached.

On the shaft 2 is a hollow shaft protruding through the housing wall 8 stored. This shaft carries a measuring wheel g. On the hollow shaft 8 is also a Bearing sleeve io pushed on, on the two wheels i i and i2 loosely rotatably mounted are. The bearing sleeve io is fastened to the housing wall i. The hollow shaft 8 carries outside of the housing a finger knob 13, while the shaft 2, which is even longer is, outside of this button a push button 1q. wearing.

The drive wheel 3 is very wide, so that it is axial with respect to the wheel 6 can be moved without its teeth losing their engagement. The wheel 3 is provided on its side facing the measuring wheel 9 with a hole in which a Driving pin 15 can engage on the measuring wheel 9, so that the measuring wheel 9 with the Driving wheel 3 coupled together participates in the movement of this wheel.

The wheel 12 engages .in, the drive wheel 7 .and is from this wheel driven at an angular velocity which is n times smaller than the angular velocity of the measuring wheel g, if h is the transmission ratio between the wheels 3, 6, 7 and 12 means. According to the invention, n is equal to the factor with which the base time is added multiply is.

The wheel i i is carried along by a lifting pin 16 on the wheel 12. This pin engages in a recess 17 of the wheel i i and is of a Spring hook 18 includes. This hook 18 protrudes on the side facing the wheel 9 beyond the wheel surface (Fig. 5) and can be reached here by a stop i9 on the Measuring wheel 9 are lifted "so that the pin 16 is free. The wheel i i is not on Species shown in more detail under the action of a spring that turns the wheel counterclockwise Tried to turn on the shaft i o. Therefore, when the pin 16 becomes free, rotate the wheel i i quickly backwards. until: the pin 16 against the boundary of the Recess 17 strikes. This movement of the wheel is not shown in detail Kind of a signal triggered, e.g. B. a bell is struck. The wheel i becomes i therefore 3: m. hereinafter called the signal wheel, while wheel 12 is called the release wheel kvird.

The measuring wheel 9 is in its zero position when the clock is not supposed to work held by a stop 20, which is attached by a on the housing wall i Tooth 21 is held. The tooth 21 eats through a leaf spring with a rotatable Angle lever 22 connected so that. the stop 2o under the tooth 21 against the Can be rotated clockwise, whereby the tooth is only turned while it prevents the clockwise screen from moving. The lever 22 carries a finger grip 23 and is pressed into the housing by a spring 24. When on the.: Button 23 is pressed, the tooth 21 goes out, the wheel 9 is free and moves, after which the knob 23 can be released again. The measuring wheel 9 also carries .a stop 25, which is in the Zero position of the wheel 9 just the Pin 16 on the release wheel 12 touches.

The lengths of shafts 2 and 8 are adjusted so that when the button 1 4. if button 13 is pressed without moving it, the wheel 3 pushes so far back that not only the pin 15 protrudes from the hole in the wheel 3, but a little further. If the button 14 is pressed in further, so he also moves the button 13 a small axial distance, but not so far, that the pin 15 can again engage in the hole in the wheel 3. Through this last one Displacement, the measuring wheel 9 is moved axially, and its teeth come in Engagement with a .on the housing wall i attached tooth 26 (Fig. 3), whereby the measuring wheel is held again.

The signal wheel i i must finally have a stop 27 with a Pin 28 on the housing wall i cooperates so that this wheel only goes up to this Position can be rotated backwards.

The device works in the following way: The clockwork is wound and the wheels are rotated into the position shown in Fig. i, so that the measuring wheel 9 with its stop 2o on the tooth 21 and the signal wheel i i with its stop 27 through the. Holding pin 28 is held in its zero position. In this position is the coupling pin 16 under the spring hook 18, but just from the stop i9 is lifted off, and the stop 25 rests against the pin 16. That The signal wheel cannot turn because the stops 27 and 28 prevent it. In this position all wheels stand still.

If the photographer dips the plate now, he only has on it Press button 23 za. Here, the tooth 21 is pulled away from the stop 2o, so that the measuring wheel g is free and thereby also the drive wheel coupled to it 3. The wheels start to turn, in such a way that the measuring wheel; 9 with the same Speed as the drive wheel 3 rotates, while the release wheel 12 only n times goes slowly. The first consequence of starting the attack will be 19 moved away from the spring hook 18, so that this bend in and the through the wheel i i may comprise pin 16 passing through, after which the signal wheel i i with the release wheel is connected and participates in the movement of this wheel.

When the bottom time has expired, i. H. in our example, if the first traces of the image show on the plate, the button 14 is fully depressed. This firstly pushes the drive wheel 3 backwards so that the pin 15 is no longer in engagement with it, and secondly, the measuring wheel 9 is a little bit shifted so that the tooth 26 comes into engagement therewith. The measuring wheel 9 stands on it silent, while the drive wheel 3 is still by means of the wheels 6 and 7, the release wheel 12 and thus also drives the signal wheel i i. This lasts until the Pin 16 abuts against stop 25 on the now stationary measuring wheel 9, wherein at the same time the stop i9 lifts the spring hook 18, which thus leaves the pin 16 free, after which the signal wheel i i rotates until the edge of the recess 17 against the pin 16 bumps. This movement triggers a signal. It will be clear that the length of time that passes from the moment the device is started until the signal is given is n times the bottom time.

When the signal is given, the device is again .still. To make them ready for use again, the knob 13 is pulled out and turned back, until the zero position is resumed, after which the button 14 is also pulled out will.

As shown in Fig. 2, the measuring wheel 9 can be provided with numbers, which can be seen through a window in the housing wall, so that you can compare can read the bottom time. The device can also be provided with pointers, so that the two periods of time can be read off.

If the device is to work with a different factor n, then you only have to replace the two wheels 7 and 12 with a different pair.

This can be accomplished in a manner known per se by means of a change gear be, so that one by simply changing the gearbox, the factor of the device can change.

As noted at the outset, the same effect can also be achieved in other ways. It will be particularly easy to move the measuring wheel 9 in such a way that it is directly coupled to the drive wheel 3 and rotated in one direction during the basic time, whereas after this time it is rotated with a tz- or (n - i) - times as small an angular speed is turned back in order to trigger a signal in the initial position reached again.

In addition, it is not even necessary that wheels be used. The same thing can also be accomplished with racks or the like.

Claims (6)

PATENT CLAIMS: i. Device for the automatic multiplication of a Basic time with one factor, especially for supervision from photographic processes, characterized by such a timing element (9), that if started at the beginning of the bottom time and at the end of the bottom time is stopped, the distance traveled by it using the same (9) or another organ (i i, 12) to run through again at a speed which is multiplied by the value of the factor. At the end of the journey will be triggered a signal in a manner known per se. 2. Device according to claim i, characterized in that gears are used as the measuring element and trigger element for the signal or racks can be used. 3. Device according to claim 2, characterized in that that the release wheel (12) is rotatable in the same direction as the measuring wheel (9). q .. Device according to Claim 3, characterized in that these wheels are coaxial are appropriate. 5. Apparatus according to claim 3 and ¢, characterized in that, the measuring wheel carries a stop which triggers a special signal wheel (i i) when the trigger. wheel has been rotated through the same angle as the measuring wheel. 6. Device according to claim 2, characterized in that the measuring wheel is also used as a trigger wheel will. . Device according to claim 6, characterized by means which the measuring wheel during the bottom time in one direction and after this in the opposite direction and with one so much smaller. Move speed than the factor indicates. B. Device according to claim 6 and 7, characterized by a loose number disc, Pointer or the like, which during the bottom time by the as a measuring organ and triggering organ used bike is taken and then locked, so that afterwards the bottom time can read.