DE428336C - Device for automatic periodic measurement of sizes - Google Patents

Description

Device for automatic periodic measurement of quantities. For this registration is according to the Unionwertrage of June 2 igt t the priority Reason for registration in the Czechoslovak Republic from 3 t. Claimed August 1922. The invention relates to devices for automatic periodic measurement of sizes with the help of several measuring devices, their separate information clearly displayed side by side or also. should be registered and which ones, for example are used for monitoring heating systems. With such establishments a periodically changed auxiliary variable, such as B. the location of a periodic moving contact part in an electrical circuit, with the measured size brought into cooperation. This happened in such a way that at the moment the Achieving a certain level of this cooperation, such as B. the meeting the moving contact part with the pointer of the measuring apparatus or the equilibrium between interacting forces, the respective measured value of the quantity by means of an electric current was transmitted to the receiving station. The invention consists in the fact that a common for a number of measuring devices (transmitters), inevitably driven part in each of different types of measuring apparatus peculiar auxiliary variable belonging to this apparatus independent of the others Apparatus changes periodically and elicits electrical impulses, which in itself as is known, the separate display or registration at the receiving station of bringing about values. The auxiliary variables are advantageously changed so that All display devices at the receiving station have the same scale graduation to have.

On the drawing is in Figs. I and 2 an embodiment the device according to the invention shown schematically.

A synchronously running motor z, either a synchronous motor or a suitably synchronized motor drives through a transmission 4 a shaft 6, which by non-circular disks io, 26, 38, 52, 64 etc. 'levers 8, 24, 3C, 5o, 62 etc. are given precisely limited movements.

14 is an oscillating pointer of a carbon dioxide analyzer 16, 18, 20, which is set in a known manner by the measuring bell 18. 30 is the pointer of a pyrometer 32 for measuring the temperature of flue gases. Contact rods 12, 28 cooperate with these pointers in such a way that, depending on the position in which the pointers 14 and 3o are located, an electric current surge from the source 74 for the duration of one revolution of the shaft 6, i.e. for the duration of a time interval. is called out.

The levers 36, 5o and 62 change the length of springs 40, 54 and 66, thereby changing their power.

The lever 36 is by the spring 4o with an approach of a membrane 4.4. connected, which is periodically tensioned and relaxed during the rotation of the non-circular disk 38. Assuming that the diaphragm 44 is acted on by a pressure less than atmospheric pressure: in the lowest position of the lever 36 and therefore the spring 4o relaxed, the diaphragm 44 assumes its lowest position; the contact at 46 is broken. During the upward movement of the lever 36, the spring 40 is now more and more tensioned and pulls the membrane with it, until a stop screw makes contact in a moment corresponding to your equilibrium between the negative pressure acting on the membrane 44 in the housing 42 and the force of the spring 40 46 closes and brings about the current pulse. One revolution of the disk 38 forms a measuring interval during which the measurement takes place. For the sake of simplicity, all contacts are shown as simple contacts. In reality, however, those contacts are used which only cause a short current surge and keep the circuit currentless until the next surge.

The spring 66 acts in a similar manner on a Bourdon tube 68 in which a boiler pressure acts. Here the current surge is caused by a contact 70 .

The spring 5-. acts on vain mercury scales of per se known Version, which is used to measure steam. The steam flows through a narrowed Place of the line and causes a pressure drop here, which through tubes 58 is fed resiliently into communicating vessels 56, 57. This will make the silver ocher more or less pressed out of the vessel 57 into the vessel 56. As soon as the thus caused weight allowance is overcome by the spring 54., arises a current surge through the contacts 6o. The shock line exists at short distances from a single line io2 and from lines ioo, each of which has one Transmitter as well as the associated receiving apparatus.

Only a registration device is shown here as the receiving device. A rod 76 (Figs. I and 2) moves back and forth between a number of full Guide rollers 78 by moving them through a lever 8o of a not shown Motor off, in a very specific proportion to the rotation of the 'shaft 6, is driven. Holders 82 with electromagnets 96 are seated on rod 76 Bear anchors 84. The anchors have sharp ends at their lever-like elongated ends Hammers 86, which when tightening the anchor on the recording paper 92 with the help of a Enter 88 points on the ribbon. This paper proceeds in a manner known per se a roller 94 over a roller 9o. The current in the individual electromagnets can be fed by brushes or flexible feed lines.

This schematic design is still used for practical operation a number of auxiliary components, such as B. Synchronizers, adjusting devices for the transmitters, etc., which are not shown for the sake of clarity became.

The device described works as follows. After Svlichronizing, the rod 76 moves in accordance with the movements of the individual levers 8, 24, 36, 5o, 62, etc. Depending on the type of parameters that are measured, the individual impacts occur earlier or later, after which the corresponding electromagnets attract their armatures, so that 92 points appear on the paper. ' Since the transmitters and receivers always run synchronously, the rows of dots correspond to the instantaneous positions of the pointers or the instantaneous forces (e.g. in apparatus 44, 56, 57, 68, etc.).

As can be seen, the unit becomes the receiving device through the grouping of the apparatuses very simplified and achieved in that many with little space requirement Sizes remote and compared to one another «. Everyone can Apparatuses are designed to be equally strong and resistant.

Claims (2)

PATENT CLAIMS: i. Device for automatic periodic measurement of sizes with the help of several measuring devices, their separate information clearly to be displayed side by side or also to be registered, using a periodically changed auxiliary variable that interacts with the measured variable at the moment of reaching a certain level (e.g. equilibrium) the measured value is transmitted to the receiving station by means of an electric current is characterized in that one for a number of measuring devices (transmitters) geineilisainer, positively driven part (e.g. shaft 6) for each of different types Measuring apparatus the peculiar auxiliary variable belonging to this apparatus (e.g. position of a part 18, 14, force of a spring 56, 74., 98) independent of the other Apparatus changes periodically and elicits electrical impulses, which in itself as is known, a separate display or registration at the receiving station of bringing about values. 2. Device according to claim i, characterized in that that through the common part (6) the auxiliary variables for the various measuring devices be changed periodically so that they are on a similar scale, which are provided at the receiving point for the various sizes to be displayed is, can be read.