DE591369C - Mechanical heat meter for flowing liquids - Google Patents

Description

Mechanical heat meter for flowing liquids The present The invention relates to a heat meter for flowing liquids of the type like those preferably in district heating for measuring the energy of a single building or a single apartment in a certain period of time are needed. Such heat meters are essentially based on integration the difference in temperatures in the supply and discharge lines of the liquids Fiber the amount of fluid.

There are integration devices known in which a variable Size is integrated over time, which corresponds to the integration variables the time a meter love between a fixed and one corresponding to the one to be integrated Size set stop is moved and at which the movable stop bearing lever is rotatable about the same axis as the counter lever, and the counter lever is driven with the interposition of a spring.

There are also known heat meters in which on the feed or. Discharge line for the liquid, preferably home water, thermostats are arranged, which z. B. different by means of a transmission device Design are connected to a profiled disc, on the circumference of which the end of a pivotable arm abuts with one of the flow velocity of the water proportional speed is moved back and forth and by a pawl drives a ratchet wheel of the heat meter.

The disadvantage. the previously known heat meter is that their design is relatively complicated, e.g. B. by using the with cam disks that take up a relatively large amount of space in their drive, or in them, that they do not use the usual water meters and thermostats or that they are very sensitive to mechanical influences or that they make electrically operated auxiliary devices necessary. Avoids these disadvantages the mechanical heat meter of the present invention, the one particularly simple, compact and stable construction and the application of the usual Water meters and thermostats permitted.

Like the known devices, the device according to FIG of the invention on a lever that operates at one of the water speed, d. H. so the amount of water, proportional frequency is moved back and forth and which by The ratchet and ratchet wheel is coupled to the counter. The invention exists in that the angle within which the ratchet engages the ratchet wheel, is determined by the position of two stops, each supported by a lever which is around an axis in or near the axis of rotation of the counter lever can be rotated and which of - one of the two thermostats can be set individually is. The counter lever is compliant with the water knife in a manner known per se coupled. This flexible coupling can be carried out expediently in such a way that that the counter lever is pulled into its one limit position by a spring and that it is moved to the other side by means of a wheel with the water knife is inevitably connected, and that the counter lever through to its second Border situation that it z. B. with a nose attached to one on the counter lever Spring attacks. This spring is stronger than the first mentioned, which controls the counter lever moves to the first border position.

An embodiment of the subject matter of the invention is shown in the drawing illustrated. It shows Fig. I a longitudinal section through the device, Fig. 2 shows a cross section along the line II-11 of FIG. 1, FIG. 3 shows a plan view of the Gear parts according to the line III-III of Fig. I.

In a housing i is a conventional liquid meter with an impeller 3 attached, while the counter is in a housing 2 screwed onto it 21 is located with the transmission mechanism.

The impeller 3 drives one by means of a gear transmission a stuffing box through into the housing: z projecting axis 4. with reduced Speed on. The axis q. carries at its upper end a star wheel 5, which therefore slowly, and at a speed that of that of the through proportional to the knife of flowing water, rotates. The star wheel 5 is involved a disk 6 together, which is provided with a tooth and loosely on a middle Axis is seated. By means of a strong spring 7, one end of which engages the counter lever 13 and the other end of which is in a detent of the disc 6, this disc acts the counter lever 13. The latter can move back and forth between stops 15 and 16 move forward and is in its rest position by a weak helical spring 8 against the stop 15 pulled. In this position of the counter lever 13, the disk 6 is located under the action of the spring 7 with its tooth 611 against a fixed pin g. One Spring To holds the pawl i2 with the ratchet wheel 14 in engagement. The attacks 15, 16 sit on arms il, i2, supported by rods ig, 2o from those not shown Thermometers can be set, which attack the rods at 17 and 18.

The operation of the device described is as follows: The star wheel, 5, slowly turned by the flowing water, hits one of its teeth against the tooth of the disc 6, which is consequently rotated about its axis. There the spring 7 is much stronger than the spring 8, the disc 6 takes in their Rotate the counter lever 13 until the latter hits the stop 16. the Disc 6 then rotates under the tension of the spring, 7 even further until the tooth of the star wheel 5 releases that of the disk 6. Now from the different ones The position assumed in parts is shown in FIG. 3. The disc 6 is then of the tensioned spring 7 is withdrawn. If the spring 7 is relaxed, it also returns Counter lever 13 under the influence of the spring 8 in its by the setting of the Stop 15 back certain rest position. The same effect is produced by each of the Teeth of the star wheel 5 triggered. In this case, the counter lever 13 is in its forward movement each time coupled with the counter 2i by means of the pawl 12 and the ratchet wheel 14.

Claims (2)

PATRNTANSPRÜCHR-i. Mechanical heat meter for flowing liquids with a liquid meter, a meter and one of the liquid meter Meter h2b ° l moved periodically between two limit positions, its deflections of depending on the position of two thermostats lying in the flowing liquid are, characterized in that the two limit positions of two stops (15, 16) are determined, which are carried by levers (11, 12) which are controlled by the thermostats individually adjustable and in a manner known per se about an axis in or near the The axis of rotation of the counter lever (13) can be rotated, and that the liquid meter (3) the counter lever (13) through the interposition of a spring (7), which is known per se drives in a resilient manner. 2. Heat meter according to claim i, characterized in that that the counter lever (13) pulled into one limit position by a spring (8) a stop formed by the stronger spring (7) is taken along by a wheel (6) is, which by means of a star wheel (5) from the liquid flow meter (3) periodically is driven.