DE502588C - Heat meter - Google Patents

Description

Heat meter There are heat meters known, in which the Thermometer display after a certain amount of water or fluid has passed through is transferred to the counter. In such devices, a counter is used driving clockwork temporarily triggered by the liquid flow meter. The clockwork drives the counter only during one of the temperature display device limited part of its expiration. This creates an idle time for the movement, which is superfluous and avoiding a longer service life for the clockwork enables.

According to the present invention, this idle time is avoided, and namely by the fact that the respective process variable of the clockwork from the temperature display device is limited.

The design of the movement and the associated counting device is already known for flow meters. Your application to heat meters offers the previously known heat meters the advantage of an enlarged Operating time.

An exemplary embodiment of the invention is shown in the drawing.

The shaft 2 is rotated with the bevel gear 3 by a spring drive i, in which alternately on an axially displaceable shaft q. fixed bevel gears 5 and 6 intervene. The teeth are cut so deep that when you switch the Drive 3 engages briefly in both wheels 5 and 6, so that there is always an inevitable Coupling between shafts 2 and q. is available. This device is already known by a ratchet 18 of the liquid flow meter is now the point 8 rotatable 1-bearing shift levers; by means of the cog lever rotatable about an axis 2o 9 and i o after flooding a certain amount of liquid, z. B. i o 1, jerky thrown back and forth. The shift lever 7 engages in the on the shaft q. fortified Coupling ring 12 and thereby alternately couples the bevel gears 5 and 6 the bevel gear 3. As a result, drive i tries to move shaft .1 to the right and turn it once to the left. The latter is in its position after each switching held by the leaf spring i i, which is in the corresponding notches of the coupling ring 12 intervenes.

On the wave q. a lever 13 with stop pin 14 is also firmly attached. The deflection of the lever 13 is limited by stops 16 and 17, of which the stop 17 is fixed, while the stop 16 is movable. After each switchover of the lever 7, the lever i3 oscillates back and forth between the stops 16 and 17, while the shaft 2 rotates each time by a corresponding distance in the same direction.

The movable stop 16 is adjusted by the two Expansion cartridges 21 and 22 in housings 23 and 24. Flows through housing 23 the liquid from the inlet pipe and therefore shares its temperature of the cartridge 21 with, while the cartridge 22 is washed by the liquid from the return pipe and therefore assumes its temperature. Grab racks 25 and 26 on the cartridges into the two gear drives 27 and 28 on opposite sides. These two Gear drives are loosely arranged on the shaft 29 and at their ends with the two Bevel gears 3o and 31 are provided. The latter form with the one oscillating around the shaft 29 and attached to it bevel gear 32 a planetary gear. One on the shaft 29 further still attached tooth segment engages with the lever i 6 on the same axis attached gear i 5 a.

The two expansion cartridges 2i and 22 are designed so that their Expansions are exactly the same and proportional to the temperature increase. Consequently takes place with the same upward movement of the two racks 25 and 26, i. H. at the same temperature increase in both cartridges, probably an opposite rotation of the two bevel gears 3o and 31, but no rotation of the shaft 29 instead. With different large upward movement of both racks, d. H. with varying degrees of temperature increase both cartridges, however, the shaft rotates; 29; and thus an angular deflection of the movable stop 16, which is always calculated from the fixed stop 17 in linear relationship to the temperature difference in the two housings 23 and 2 ¢ stands. This therefore applies in the same way to the angular rotation that changes each time the wave q ..

The sum of the alternating individual rotary movements of the shaft 4 is now transferred as a continuous rotary movement to the shaft 2 and the gear train of the drive i, which is connected to this shaft. A counter i9 connected to a drive of this drive therefore readily shows the heat units emitted. The larger the temperature difference of the fluids in the supply and return pipe, the greater is the angular deflection of the movable AnschIages 16 and the greater is the amount, i at which the drive or the counter i9 to each circuit by the switching wheel 1 8 , ie after a certain flow rate, expires.

It is well known that with hot water heating there is only one heat emission, if there is a flow in the line, with a simultaneous temperature difference in the supply and return lines. If one of these two conditions is missing, none will be applied Heat emission, and there must then be no display by the calorimeter, as is also the case with the present facility. Because they are Temperatures of the liquids in the supply and return lines are the same or the same low, i.e. if the temperature difference is zero, the movable one is Stop 16 very close to the fixed stop 17 and holds the stop pin 14 caught between itself and the fixed stop 17, so that even with frequent circuits by the ratchet 18, d. H. in the case of large flows through the line, the shaft not rotated and thus the counter i 9 is not advanced either.

`On the other hand, the counter is not moved any further if at no matter how great a temperature difference there is, no liquid flows through the pipe. Then the movable stop 16 probably assumes a position that involves a large @ # @ Tinkle rotation of the wave q. allows, but no shifts are made by the ratchet 18, whereby only an alternate rotation of the shaft 4 would be made possible.

When using larger liquid flow meters, the elevator of the Spring drive i instead, as shown, by means of the shaft 34. of the spring housing done by hand directly by the driving force of the knife and between a clutch is attached to the knife and the mainspring, which is then held weaker which switches off the winding movement of the knife as soon as the spring housing is raised enough.

You can also use the calorimeter to measure the heat units the warm liquid flowing through a pipeline, e.g. B. if you the heating units supplied to a steam boiler by the feed water at any time want to determine immediately. In this case comes for the operation of the device not the temperature difference of the liquid in a supply and return line in Question, but only the actual excess temperature of the liquid in a pipeline towards a selected starting temperature. Then there is only one Expansion body required. The expansion cartridge 22 omitted with the planetary gear 3o, 3r and 32, instead the drive is 27 to be firmly connected to the shaft 29. The actuation of the movable stop 16 takes place directly through the expansion of the cartridge 2 i.

Claims (1)

PATRNTANSPRUCIf heat meter with a Clockwork after a certain amount of water has passed through a water or fluid amount knife is triggered, characterized in that the respective process size of the Clockwork is limited by the 'temperature display device.