DE256313C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVI 256313 CLASS 42 e. GROUP

H. LIESE company in HAMBURG.

Patented in the German Empire on February 1, 1912. Longest duration: December 9, 1925.

The invention relates to the measuring device according to patent 243214 and gives the possibility measure in two directions and increase the measuring range.

In Fig. Ι a membrane is as a displaceable expansion wall, in Fig. 2 and 3 one Disc with associated caliper applied. But it can also be used as an expansion wall a bell, a piston, a float, a column of liquid ο. related will.

Fig. 1: In a double-walled housing 1 with input 2 and output 3 there is a double measuring body 6, a double diaphragm 4, guided in 6, with measuring disc 5, which by linkage 7 with the lever 8, shaft 9 and the external weight 10, segment 11, weight 12 and is connected to the round slide 14. The weight 10 is used to compensate the resistances of the membrane. The weight 12 is chosen to be twice as large as the weight of the moving parts and · counteracts this. The double measuring cone 6 is trained to meet the requirements. Above and below are two cones, which are shaped so that the largest diameter is the size of the measuring opening corresponds in the measuring disk 5 and after the smallest diameter to a passage cross-section reveals which is in direct proportion to the altitude. The two cones are directed opposite to each other and by means of a cylindrical rod of one corresponding to the smallest cone diameter * the diameter connected to each other. The two base areas can be opposed to each other Arrange upside down, and the cross-section of the connecting rod will then be equal to the largest conical cross-section.

The measuring medium flows in through 2, moves the disk 5 by virtue of the in the measuring opening around the measuring cone generated voltage drop across the double cone, which the Corresponds to the size and load of the disc. With the direction of flow, as shown, the load consists of the difference between the weight 12 and the weight of the moving parts, whereas in the opposite flow the weight 12 is omitted and only the weight of the moving parts as the load on the disc in question comes. While the measuring device moves the disc over the cone, it becomes cylindrical Part of the cone measured, with the maximum amount being reached, and further movement after the middle, the passage to 3 or from 3 of the slide 14 becomes gradual closed. If the maximum amount achieved in this way is not sufficient, then by opening the auxiliary measuring openings 13 the

*) Previous additional patents: 252803, 25631 1, 256312.

Maximum amount can be increased as required. In front of and behind each opening 13 is the same Voltage drop, as in front of and behind the measuring disk 5, the individual opening 13 correspond to a maximum opening of the measuring disk 5 as a unit. By changing the weight 12 can be any desired voltage drop or any speed of the measuring means can be achieved. The weight 12 can automatically when it reaches the middle of the movement can be switched off by appending.

Fig. 2 and 3: The housing 15 with input 16 and output 17 and 18 has in close proximity of the measuring openings the channels 19 and 20 to above the displaceable Expansion wall 22 to transmit the pressure after the measurement, since below the caliper 21 the prints prevail before measuring. Fig. 2: If the measuring opening 17 is sufficient, the measurement takes place by means of the slots 24 according to FIG. Fig. 3: Exceeds the Quantity a certain amount, then the voltage drop increases, like this one in the main patent is described, and there are the slots from 25 to 20, at the same time 24 to 18 and 26 released after 17. The output 18 is then fully open and the measurement takes place from 26 to 17. The return movement is due to the premature passage of 24 to 19 initiated.

If the intention is to feed different nozzles of a turbine, several gas flames to light, to fill several reservoirs or the like. The measurement of the maximum quantum either by throttling effect at 17 or by changing the load on the expansion wall by changing the weight 27 will. The measured amount can in a known manner by rod 23 on a drum 28 exposing a Strip 29, which indicates the movement of the measuring apparatus at the end of 24 to 17, to be recorded.

By increasing the weight 27 shown in dotted lines, it is possible in the opposite direction measured and outputs and inputs switched; then the slots have to be adjusted accordingly be arranged. Is the withdrawal so large that the passage from 17 to 26 is not sufficient, the pressure of 18 should come into action above the expansion wall. If it is larger than at 17, a check valve can be fitted at 17. With less Withdrawal is opened early 19 after 24, completed 18 and 20, and takes place the entrance is held through 17 after 24. By choosing the size of the slots, the Completion at 17 and 18 can be influenced as desired. Multiple groups of Openings exist.

The whole apparatus can be turned around, as can the moving ones instead of the weight Parts of any spring o. The like. Can produce the load on the sliding expansion wall. Also note 6g that every load requires a certain speed of passage, what in itself concludes that a certain speed also has a corresponding load on the sliding Expansion wall conditional.

Claims (2)

Patent Claims: 1. Device for measuring vapors, gases or liquids according to patent 243214, characterized in that an expansion wall, which with a corresponding load the weight (12) enables the flow in the opposite direction, moves around a double cone (6) so that, measured at the outer ends and when moving in the middle, a maximum • the amount is set in both directions of flow using the slide (14). 2. Measuring device according to claim 1, characterized in that one with a Round slide (21) connected expansion wall (22) the measuring range by one behind the other Switching measurement openings (17, 18) on or off changed. 1 sheet of drawings