DE363844C - Method and device for counting the units of measure of a substance flowing through a material line - Google Patents

Description

Method and device for counting the vapor units of a substance flowing through a material pipe. The present invention relates to a method and an apparatus for counting the units of measure of a substance which flow through a material line in any period of time, so that the amount of substance, e.g. B. water, air, gas, steam, can be read directly in kilograms or cubic meters on a counter. The invention assumes the presence of a measuring device of any desired type, possibly known, which indicates the respective speed of the material flow or the amount of space by means of a measuring element. In order to determine the flow rate in any time period from the flow rate indicated by the apparatus in the unit of time or in a small time interval, the changing unit amounts must be added for the entire unit time values belonging to the period in question. If, for example, the amounts of space, which correspond to the respective constant or mean flow rate of the substance in the line, in time units of z. If, for example, every i or every 5 minutes are to be added, then in order to find the flow rates within an hour, the data of the measuring device would have to be added for 60 or 12 consecutive time units. The addition can be carried out mechanically in such a way that a counter is incremented every minute according to the stroke of the measuring element. It is assumed that the specific gravity of the substance to be measured remains unchanged. If this is not the case, then the change in the specific gravity of the substance to be measured must be taken into account when integrating the displays of the measuring element. Shows the measuring element z. B. the amount of space that the line passes in the selected time unit, if the specific gravity of the substance has a certain size, and the specific gravity changes in such a way that it is twice as large as it is based on the information of the measuring device is placed, then twice the amount of weight flows in the unit of time, with three times the specific gravity three times the amount of weight, or the amount of weight indicated by the indicator of the measuring device corresponds to the flow in half the unit of time, with three times the specific weight in one Third of the time unit, etc. In this case, a correct measurement result is obtained if the counter for the mechanical integration of the data from the measuring device is not incremented once in the time unit to which the data from the measuring device relates, but if the counter is incremented according to the specifications of the measuring device in Z makes sections which are inversely proportional to the specific weight, i.e. in smaller time intervals with a larger specific # ii. Weight and in larger time intervals with a smaller specific weight.

A device for substance measurement on the basis of the above considerations is illustrated in the accompanying drawing in connection with a measuring apparatus in which the stroke of the measuring element is indicated, for example, by rotating a shaft and the deflection of a writing lever attached to it. If the stroke of the Mbßorgans in other than rotating motion, z. B. appears as a straight stroke, it is expediently transferred in a suitable manner to a rotating stroke disc, from which the counter is then operated. , . The design is shown schematically in Fig. I in side view and in Fig. - in front view.

Figs. 3, 4 and 6 show individual parts, while Figs. 5 and 7 show embodiments for the measurement of substances, the specific gravity of which is subject to change during the measurement.

FIGS. 8 to 10 illustrate, also schematically, a further embodiment which is modified from the embodiment according to FIGS.

On the shaft 31 of the measuring apparatus of the S chreibhebel i, the usual write down on the paper drum 2 is a diagram sits. Fixedly connected to the writing lever i is a lifting disk 3, which therefore always has the same angular deflection as the writing lever i. On the circumference of the lifting disk 3 , individual contacts 4 are attached, the total length of which corresponds to the greatest stroke occurring or the greatest angular deflection of the writing lever. The first contact sits exactly under the center of the writing lever, so that its position always corresponds to that of the writing lever. The lifting disc is shown individually in Fig. 3. A cutting disk 5 , which is shown individually in Fig. 4, is attached in front of this lifting disk. It is attached to the device in such a way that the highest point 6 is exactly in front of the zero position of the writing lever. From the highest point 6 takes. the circumference of the disc gradually decreases from 7 to 8. At 7 it is somewhat larger than that of contacts 4, at 8 it is somewhat smaller than this. A single contact 9, consisting of a thin, resilient leaf, is set in rotation by a clockwork and grinds on the cutting disk 5. As soon as it comes to the zero position 6 , it snaps off the cutting disk and now grinds on the contacts 4, until it, having reached the position of the writing lever, snaps from the last contact onto the smaller diameter 8 of the Treini disk. The contact made by the movement, e.g. B. is rotated once in i minute or once in 5 minutes, scans during this time the corresponding to the position of the writing lever, exposed behind the elevation 6 of the cutting disc contacts. According to the number of these contacts, the current of a Stromquel1Q 13 is switched on by the contact 9 and the armature 16 of an electromagnet 12 is attracted just as often and switches the counter ii up with the ratchet tooth 14 #Ln of the ratchet wheel 15.

The number of contacts 4 and the circuit in the counter will be like this selected that the switched numbers directly the amount of substance measured by the measuring apparatus show in kilograms or cubic meters.

The counter can also be operated in such a way that its numbers are moved evenly by a special clockwork. In this case, the contact 9 of the clockwork switches on for the entire duration of the exposure of the contact strip 4. This contact strip then does not receive any teeth, i. H. Individual contacts as shown in Fig. 6 . The clockwork of the counter ii runs as long as the contact 9 on the wheel 3 is switched on -and stands still when it is running on the insulating disk 5 , so the current is switched off. In this case, the length of the contact strip and the circuitry in the counter are selected so that the numbers switched indicate the amount of substance measured by the measuring apparatus directly in kilograms or cubic meters. The movement is engaged and disengaged in a suitable manner by an electromagnet 12.

Instead of transmitting the stroke of Schreibliebels by electrical power on a counter, so, if a remote display is not necessary 'to happen directly.

An embodiment of such a device is shown schematically in FIGS. 8 and 9 , for example.

The rotation of the writing lifting shaft is, as shown in FIGS. 1 and 2, transmitted directly to a lifting disk 3 by means of a coupling or, as shown in FIGS. 5 and 7, for example, by a transmission. In your exemplary embodiment according to FIG. 8 , the translation is assumed as in FIG. 7 by a cord pulley 35. As shown separately in Fig. 10, this lifting disc is smooth on the outside. Its diameter is smaller from point 44 to the left to 45, the same at 47 and larger at 48 than the diameter of the cutting disk 5. This cutting disk 5 is designed exactly as in the previously described embodiments, ie. H. at 6 at the zero point it has the transition from the larger diameter 7 to the smaller 8. The inclined transition 46 of the lifting disk 3 is exactly behind 6 in the zero position of the apparatus.

The clockwork io moves an arm 49 on which a roller 50 is mounted above, which runs on the circumference of the lifting disk 3 or the cutting disk 5 . The shaft of this roller 5o is attached to a rod 51 which can be moved in two guides on the arm 49 and which is constantly pressed downward by a spring 52. Below this rod is formed into a cutting edge which engages in the ratchet wheel 51 of the counter ii when the rod assumes its lowest position. This is the case as long as the roller 50 runs on the smallest diameter of the lifting disk 3 . The cutting edge is lifted out of the ratchet wheel as soon as the roller 50 rises over the incline 46 to the larger diameter of the lifting disk 3 and as long as it runs on the circumference of the cutting disk. This coupling can of course also be carried out in any other suitable manner.

The device works as follows: The scope of the-. Lifting disk 3 from zero point 6 to incline 46 corresponds to the respective stroke of the measuring apparatus or the deflection of the writing lever.

The roller 5o, guided by the clockwork io in a circle, initially runs z. B. on the larger diameter 7 of the cutting disk 5. In N '1111 point 6 it drops to the smaller diameter 44 of the lifting disk 3 so that the cutting edge of the rod 51 engages the ratchet wheel 53 of the counter ii and this thereby with the Rotating arm 49 of the clockwork couples. The clockwork io thus switches the counter ii forward until the roller rises on the incline 46 to the larger diameter 48 of the lifting disc 3 and thus interrupts the coupling of the ratchet wheel 53 with the rotary arm 51. The counter is thus switched forward in the time segment equal to one revolution of the arm 49 by the units corresponding to the stroke of the measuring apparatus or the distance 6-46 of the lifting disc. The length of the coupling section 6-46 and the circuit in the counter is selected in such a way that the switched numbers directly indicate the amount of substance measured by the measuring apparatus in kilograms or cubic meters.

These devices according to Fig. I and 2 and Fig. 8 and 9 only indicate the correct amount of substance on the counter if the specific weight of the substance to be measured remains unchanged. If this weight changes, the measured amount of substance must always be made dependent on the respective specific weight. In the case of saturated steam, the specific weight is e.g. B. proportional to the respective pressure. In this case, the display of the counter must therefore be made dependent on the steam pressure. In the case of superheated steam and pennant gases, the specific weight is also dependent on the temperature. This must also be taken into account in the measured amount of substance.

This happens in the present invention, for. B. by the device shown schematically in Fig. 5.

The pressure of the steam to be measured is introduced into a cylinder - 2 through a pipe 24. advanced, by this pressure is so far that the piston holds a 2, weight 28, which is suspended in a known manner on a curve rotated by the rack 26 through the intermediary of the gear 27 , the balance. Instead of balancing with a weight, a spring or some other suitable means can also be selected.

The piston rod moves through an extension 25 secured to it the sliding guide 30 in a slide 21, on - which is mounted rotatably a drum ig. The drum is driven by the movement io z. B. rotated once in i minute. The rotation is transmitted by a friction wheel 2o to the contact 9 , which then, exactly as in the first device according to Fig. I and 2, causes the counter to switch.

At the different pressures of the steam, i.e. at the. different positionso to 4 of the piston, and thus the drum ig the contact receives different high speeds. At the highest pressure the number of revolutions is greatest, i. H. the contacts 4 are scanned more often in the unit of time at high pressure than at low pressure. The ratio of the number of revolutions is determined by appropriate dimensioning of the diameter of the drum ig so that the correct steam weight is immediately displayed on the meter for each steam voltage.

The time segments during which the contacts 4 of the disc 3 are in contact with the contact 9 are changed according to another embodiment in that the total length of the contacts 4 according to Fig. 3 or the contact according to Fig. 6 - or the distance 6 - 6 _T is changed according to Fig. 8 . In this way, too, the time intervals are e.g. B. longer if a greater length of the lines 4 or 4-46 with unchanged number of revolutions of the contact 9 or the roller So (Fig. 8) remain effective during one revolution of the clockwork arm.

The embodiment of this device takes place in the in Fig. Manner shown schematically. 7 The stroke of the writing lever i is transmitted to the lifting disk 3 via guide rollers 33 and 34 by a cord 43 attached to a circular sector 3? The cord 43 is always kept tensioned by a spiral spring 36, which is fastened on the axis of the cord disk 35 firmly connected to the lifting disk 3 and the second end of which is fastened to a fixed point. By moving the roller 33 , the cord is lengthened or shortened and thereby also the length of the stroke path 4 or 4-46 in Fig. 8, which is exposed behind the cutting disc 5 , shortened or lengthened.

The displacement takes place by a piston 23, which moves in a cylinder 22 under the influence of the steam pressure entering, for example, through 24 until it keeps the spring 37 in equilibrium. The axis of the roller 33 is guided by a stone, a roller or some other suitable means 38 on a curve which is designed as a slot 39 or in some other suitable manner, while at the same time it is guided in a straight line in a slot 40 or in some other suitable manner will. The cam 39 can be rotated, for example, about an axis 41 and is displaced by the piston rod 42 at the other end or in some other suitable manner. In this way, the roller 33 receives such a shift, and therefore the string 43, such a lengthening or shortening of that die7 exposed stroke length 4 and 4-46 (Fig. 8) and therefore the period of time during which the contact 9 and the roller at 5o A constant number of revolutions of 9 or 49 (Fig. 8) is in contact with 4 or 4-46 (Fig. 8) , corresponding to the respective specific weight, which is proportional to the pressure of the steam. The counter ii is thus operated longer or shorter depending on the longer or shorter duration of the activation, whereby the display is larger or smaller.

In the same way as, for example, the change in the specific gravity of the substance as a function of the pressure is taken into account in the manner shown in the exemplary embodiments according to FIGS. 5 and 7 , it is also done for the change in the specific gravity as a result of a change in temperature of the substance. In this case, for example, in the line through which the substance to be measured flows, a closed vessel in the manner of a thermometer is installed. B. mercury, ether, a liquefied gas or the like. Is filled. The filler, which expands or contracts under the influence of heat, is introduced into a cylinder 22, as shown in Fig. 7, for example, and acts in this exactly as described and shown in the case of a pressure change according to Fig. 7. The device is connected in parallel to that which may be necessary for changes in pressure, so that it influences the length of the line by a second roller 33 connected to the line 43 (Fig. 7).

With small deflections of the writing lever, the AusscI-Aag of the lifting disc is expediently enlarged by switching on a translation, eg. Example by bevel gears 17-18 (Fig.5) zwischenSchreibhebelwelle3i undKontaktscheibenwelle, or by different sized diameter of the driving roller or of the sector 32 and the driven roller 35 on the cam plate in Fig. 7. This increase in the deflection of the contact disk can to other in a suitable manner.

If the stroke of the measuring apparatus is not indicated by rotating a shaft, as in the present exemplary embodiments, i.e. is a circle, but is, for example, straight or otherwise, this straight or other movement is transmitted to the stroke disk 3 by a suitable device, i.e. in a rotary movement this disc transformed.

Claims (2)

PATENT CLAIMS: i. Method and device for counting the quantity units of a substance of constant specific weight flowing through a material line, the volume of which is continuously displayed by a measuring device, characterized in that the stroke of the display element of the measuring device is transmitted to a rotatable lifting disc (3) , the circumference of which scanned by a switching arm (49) rotated by a clockwork (io) in equal time segments, so that this switching arm is coupled to a counter (ii) during the stroke transmitted to the lifting disc and this is thereby advanced. Modification of the method and the device according to claim i for counting the units of measure of a substance of variable specific gravity, thereby. characterized in that the counter is not switched on in the same, but in time segments which are changed according to the specific weight of the substance. 3. Counter according to claim i, in which the switching arm (9) with the counter, 4 (ii) is mechanically coupled in such a way that a roller (5o) running on the circumference of the lifting disc (3 ) has a rod (51) connected to it ) brings into engagement with a ratchet wheel (53) sitting on the counter shaft, which switches the counter forwards during the duration of the stroke transmitted to the lifting disc. 4. Counter according to claim i with a contact element set according to the stroke of the measuring element in order to close an electric current used to actuate a counter according to the counter circuit to be effected, characterized in that the contact element is provided by a rotatable disk with a plurality of separate contacts provided on its circumference is formed, over which the switching arm rotated by the clockwork passes with a contact piece sitting on it. 5. Modification of the counter according to claim 4, characterized in that the plurality of contacts on the disk set by the stroke of the measuring element is replaced by a single contact corresponding in its extension to the total stroke of the IvIeßapparats, over which the contact of the switching arm passes so that a current is closed for the entire duration of the stroke transmitted to the stroke disc, which activates a counter moved by a special clockwork when the power is switched on and disengaged when the power is interrupted. 6. Counter according to claim 3 to 5 in the -, 6, banding that for the purpose of changing the time periods for the circuit of the counter by switching on one or more translations (i9-2o) between the clockwork (io) and the rotary arm (49) the number of revolutions of the Rotary arm (49) can be changed. 7. Counter according to claim 3 to 5 in the modification that for the purpose of changing the time segments for the switching of the counter by switching on one or more translations (33) between the driving roller (32) on the measuring device and driven roller (35) on the lifting disc ( ?,) the switching length (4 or 6-46) and thus the coupling time between switching arm (49) and counter (ii) is changed.