DE821439C - Facility for booking-free self-billing of charges for energy (electricity, water, steam) deliveries and other charges (basic charges, telephone charges, etc.) - Google Patents

Description

Facility for booking-free self-billing of fees for energy (Electricity, water, steam) supplies and other charges (basic charges, telephone charges or the like) For billing electricity, gas, water and steam deliveries to the energy supply company (EVU) have been used so far in general consumption measuring devices (meters), the consumption of each individual customer system on a roller or pointer counter or on one Show scale. From the counter or knife readings displayed at certain time intervals the consumption is determined, written down, placed on an invoice, the customer delivered and the amount of money collected. In addition to consumption, at the same time the basic fee, meter rent, etc., usually billed and collected on a monthly basis.

Measuring devices in connection with a Mülizkassierinechanismus relieve the supplying plant in the direction of the elimination of the obligation to issue a written invoice and monthly regular collection of the amount of money; with coin-operated machines as with Ordinary consumption meters, however, it is always necessary that the supplier has consumption accounts are continuously managed for each individual customer; because those who collect the amounts of money Factory officials must be checked again by the supplier to determine whether the sums of money delivered by them with the ones indicated by the measuring devices Consumption quantities always match. This whole booking and collection business requires a huge accounting apparatus at the delivery plants and causes a large amount of personnel and high annual expenses.

The invention proposal of the inventor goes by means of certain Accounting devices the supplying works of each written individual account management and to be exempted from any cash collection for any type of energy delivery to the individual customer. According to the invention, electricity, gas, water and steam can in future be supplied by the supply plants are sold anonymously with the abandonment of each individual consumption account management, like the post office for its services against prepaid stamps or the railroad and the transport companies, their services against prepaid tickets, in particular Time cards tend to run anonymously. Instead of postage stamps or season tickets When energy is sold, there is an essentially worthless substance that is suitable Wisely dosed and presented in a convenient, handy form as a measuring and accounting unit is prepaid to the supplier by the buyer. The measuring and accounting body has a certain monetary value for a certain willingness. provision and delivery performance: of the EVU; this organ is inserted into his accounting device by the individual purchaser and passed through it; the material content is in the accounting device of the body time-proportional to the basic tariff fee and at the same time proportional to consumption consumed for the amount of electricity, gas, water or steam supplied; .is its measurement content consumed and thus devalued the organ, so the organ effects through the switching arrangement the blocking of delivery services until a new measuring and accounting body for basic and consumption fee is inserted into his accounting device by the customer himself.

The practical realization of the basic idea sees as substance (consumable) a cheap electrolyte liquid for the measuring and billing device, preferably aqueous sodium or potassium hydroxide solution. This can be arbitrarily shown in FIG dosed quantity in small tubes made of glass or plastic, measuring or billing cartridge called, fill in. Project into the mass-produced tube pressed or injected two small metal, preferably iron rods into it as electrodes 2; about the Electrodes are supplied with an electrical decomposition current; its size becomes proportional to the amount of the fixed charges as continuous measuring current and: at the same time proportional to Secondly, the amount of energy delivered is determined as a measured consumption stream true to monetary value. This proportionality of the decomposition flow to the primary consumption and charge variables is guaranteed with absolute measurement accuracy by the arrangements described below. The measuring cartridge can have a third electrode 3 projecting into it from above; this is in the hold circuit of a relay for switching off or blocking the primary Energy flow and also serves as a measuring probe; their depth of immersion in the electrolyte content determines the amount of work of decomposition that is possible until shutdown and thus the Net content or monetary value of the clearing cartridge. The measuring probe can also be isolated from. enter below. The cartridge receives the most precise filling weight from the manufacturer and is completely closed until it is used; only before inserting it into the Clerk breaks off the small above protruding thorn .4; through this a small capillary opening 5 becomes free for the escape of the during the measuring electrolysis resulting gas is necessary. The cartridge does not go into the port with a mandrel of the accounting device so that the customer is forced to break off the mandrel. The base of the cartridges 6 are profiled differently and thereby allow i the formation of unmistakable billing cartridge groups for each plant, type of energy and Tariff. Because a precisely defined fixed amount of energy is pre-sold with each cartridge and thus released for consumption, it can also be used as the simplest aid can be used to set quotas in the event of a lack of energy, e.g. B. by dispensing, the cartridges against certain sections of the grocery menu.

The arrangements and devices according to the invention have in common furthermore the device shown in FIG. 2 for passing the cartridges through. DasiDurcliSchhleusen includes inserting, using up (canceling) and ejecting the cartridges in the course of an easy-to-operate progressive rotary movement. With the ejection The cartridge can be completely mechanically rendered unusable by cutting it or buckling of the cartridge body to prevent any fraudulent reuse to prevent. The cartridge 22 is through a housing slot 23 in a rotatable chamber 24 inserted; The slot and rotary chambers have the same profile keying like the associated cartridge group. The Drehkaininer runs through when the externally accessible rotary knob 26 within the sealed housing 25 three positions: in the first position 27 ° the rotary chamber is behind the opening with the same profile 23 of the device housing so that the customer can insert the fresh cartridge (ready position). The cartridge is switched on in the measuring circuit in the ready position not yet, so that a supply cartridge can be inserted all the time.

By turning the rotary knob 26 by a certain angle, for example here by i20 °, the rotary chamber engages in its second position, the working position 27b. Now all electrodes of the cartridge 22 sit on spring contacts 21, which electrically switch the cartridge into the measuring and holding circuit. The upper wall of the cartridge or the upper end of the measuring probe also comes to stand under a spring contact 28, which, closed by the pressure of the cartridge, only allows the holding circuit to be closed and thus an energy supply to the consumer system when a The correct size cartridge has been brought into the working position. When it is moved into the working position, the cartridge is withdrawn from any access by the energy consumer or other third parties; This prevents the risk of theft by unauthorized persons, and the measuring and holding circuit contacts also remain inaccessible to any unauthorized access in the working position. This makes it impossible for the customer to fraudulently short-circuit these contacts or to temporarily remove the cartridge and thereby damage the supplying plant for the full collection of the basic fees. With further rotation into the ejection position 27 <<, the cartridge is transported through the ejector 29 into the magazine 30 .

Carry out the individual technical solutions for self-billing to the following different arrangements for the various types of energy: 1. Arrangements and facilities for billing electricity charges a) by means of measuring direct current electrolysis with compensation of the polarization back EMF of the measuring cell (cf. FIG. 3). The useful current of the consumer system flows from terminal 3 i via the relay-operated one Switch 32 through the primary winding 33 of the current transformer 34 and via the terminal 35 into the electricity consumers 36 of the customer system and from there back to the network. Of the Current transformer 34 forms the useful current in the transformation ratio via its secondary winding 37 (for example 200: i) as' measuring current in the measuring circuit. The measuring current flows through first the dry rectifier 38 (in Graetz circuit) and from then on as the measuring alternating current as 1 @ direct current via the test socket 39 the measuring cell (cartridge) 4o and closes via the rectifier 38 back to the secondary winding 37. The measuring cartridge has three fused-in or pressed-in electrodes: 41 is the oxygen generating one Anode, 42 is the hydrogen-forming cathode, 43 is the feed electrode (So = nde) for the auxiliary alternating current of the holding relay 44. The latter has the task of supplying energy to switch off in the customer system via the switch 32 when the electrolyte fluid runs out the cartridge 4o is empty.

This auxiliary AC circuit branches off from the useful circuit behind terminal 3 i off, leads via IIaltelais 44 to probe 43, forks inside the cartridge through the electrolyte into two parallel branches; these lead over the two Ar-1leltSelectrOdell 41, 42 and the two high-resistance resistors 45, 46 to point 47 and reunite there; finally it comes from the mains voltage Driven auxiliary alternating current via the hleinnle 48, 49 back to the other power line. The hold relay 44 holds the switch 32 closed as long as auxiliary AC power flows through the hold circuit described. If the cartridge 4o is removed or is the current path through processing (decomposition) of the electrolyte within the Cartridge interrupted, the holding relay 44 drops out, opens the switch 32 and thereby disconnects the Almehiner installation from the grid.

The current transformer 34 also has a tertiary winding 5o. The line voltage drives, acting empty from terminal 31, via this tertiary winding a very small, but through the series resistor 52 precisely adjustable continuous current via glow lamp 51, Variable resistor 52 and terminal 48, 49 to the other line conductor. This continuous current works transformer from the tertiary winding 5o via the secondary winding 37 to the measuring circuit with measuring cell; at a certain size it just compensates for the decomposition of the electrolyte occurring polarization back EMF on the working electrodes, see above that in the measuring circuit and in the measuring cell itself the current on the DC side is exactly the same Becomes zero; comes with the slightest overcompensation beyond the decomposition voltage on the other hand, in the measuring circuit, a permanent track current of a few, adjustable in size Milliamps or fractions of a milliamp; as a result of this egg consequence Continuous current is a time-proportional continuous decomposition work in the billing cartridge 40 which is slightly adjusted to the value of the basic fee of the customer concerned can be. For this purpose, the resistor 52 is adjustable or exchangeable in terms of its size. The glow lamp 51 also burns when the customer system is switched off by a switch 32 next; it has the task of introducing the customer through its glow of light and to facilitate screwing in a new cartridge if this is due to a switched off Installation has to be done in the dark; it also serves as a control lamp for the orderly existence of the basic charge continuous stream and also illuminates the cartridge 40 visible through a housing window in its working position. Development of gas and the electrolyte level of the cartridge can be easily observed at any time. The rotary chamber 53 channels the cartridge, as described above, through the accounting device.

b) by means of measuring alternating current electrolysis using the subcritical Vorstroin as holding current. This accounting device is shown in its overall arrangement and circuit in FIG. The useful current of the customer system flows from the terminal 61 via the primary winding 62 of the current transformer 63, the switch 64 and the terminal 65 into the power consumers 66 of the customer system and from there back to the network. The current transformer 63 forms its secondary winding 67 of the useful current in the transformation ratio (for example Zoo: i) as a measuring current in the measuring circuit. The measuring current flows as an alternating current through the dry rectifier 68 in Graetz or two-way circuit, as direct current through the holding relay 69, again as alternating current through the measuring cartridge 70 with its working electrodes 71, 72, the test socket 73 and closes back to the secondary winding 67 of the current transformer. When the measuring alternating current passes between the electrodes 71, 72, from a certain critical current density, the same amount of oxyhydrogen is formed on both electrodes, which exits through the capillary opening of the cartridge. The generation of oxyhydrogen gas is proportional to the supercritical measurement current component after the critical current density at the electrodes has been exceeded. The subcritical current component, which is not yet able to deposit any gas on the electrodes because the current density is too low, is generated by the mains voltage via the resistor 76, which allows this bias current to be precisely adjusted. This bias current is taken from a network conductor via terminals 77, 78 and flows via the glow lamp 79 and the parallel regulating resistor 76 to the junction point 8o. One branch leads it via the rectifier 68 including holding relay 69, via the electrodes 71, 72 of the cartridge 70 and via the test socket 73 to the bridge 74 leads to bridge 74. The bias current flows via bridge 74 to terminal 61 and thus back to the other network conductor.

By adjusting the resistor 76, 79 the bias current is dimensioned so that the portion passing through the cartridge 70 has just that critical current density reached, when exceeded, the gas development on the electrode surfaces begins. This bias setting is chosen when the accounting device is only electrical work, but should not charge a basic fee. Should against it too Basic fee are charged, the bias current through the resistor 76, 79 set accordingly higher. The supercritical portion of the bias then delivers the decomposition work proportional to the time and value of the basic fee. To this When a useful current occurs in the customer system, the of the electrical useful work associated decomposition work of the measuring alternating current in the Cartridge 7o on.

The other parts fulfill the same tasks as in the one below DC measuring device described in Section 1 a.

In the case of alternating current electrolysis, Faraday's law only applies to a limited extent. The amount of oxyhydrogen evolved per unit of time is not only supercritical Current strength, but also on the concentration of the electrolyte, on the material and depends on the surface properties of the electrodes. The immediate AC electrolysis can only be used as a measurement and calculation method, if precise and constant conditions for the mentioned factors are observed.

c) by means of a direct wattmetric measuring circuit via a glow lamp voltage divider bridge. This arrangement and device employs an otherwise proposed wattmetric Measuring circuit for alternating and three-phase current in connection with the simultaneous of one Basic charge measurement stream just compensated or overcompensated billing cartridge. The arrangement is shown in FIG. The primary useful current flows through the relay switch 85 and the primary winding 86 of the current transformer 87. The mains voltage passes through two Voltage circuits: once from the phase conductor via resistor 88a, 88b through the glow lamp bridge, consisting of the ohmic (or inductive or capacitive or glow gaps existing) voltage divider 89a, 89b and the one that always consists of glow gaps Voltage divider goa, 9ob, back to neutral; on the other hand as a holding circuit from the phase conductor via the relay coil gi, the cartridge 92 (probe electrolyte, both working electrodes), the fork resistor 93a, 93b back to the neutral. The two voltage dividers are connected by the bridge center branch; this consists of the secondary winding the current converter 87, the dry rectifier 97 and the DC side to the latter connected measuring circuit via the working electrodes of the billing cartridge 92.

The one via the current transformer in a certain transformation ratio (for example iooo: i) shown primary useful current is through the glow lamp bridge at the same time depending on the level of the mains voltage U and the power factor cos (p between current and voltage into one proportional to the product U - I cosg9 Converted measuring direct current, the decomposition work proportional to the primary work in kWh causes in the billing cartridge; the at the same time continuously flowing basic charge metering current is, from the mains voltage via the rheostat 98 and the tertiary winding 99 of the current transformer driven, transferred by means of a transformer to the middle branch of the glow lamp bridge and mapped into cartridge 92 via rectifier 97.

The arrangement can also be designed as a three-phase arrangement in a manner which has been proposed in another way for direct wattmetric three-phase power measurement, acting on a single billing cartridge. The product U - I cosgg - 1/3 is represented by a measuring direct current in the cartridge.

d) by means of a combination of normal counter with measuring generator and an accounting device according to a) or b) for converting active work values into electrolytic ones Decomposition work in the billing cartridge. This arrangement is shown in Fig. 6: Auf the meter axis of a normal single-phase or three-phase meter becomes a smaller one Measuring generator 83 attached; this measuring generator (measuring transmitter) delivers in a known manner Mode a measuring alternating current that is strictly proportional to the primarily measured real work is. According to the invention, this measuring alternating current is used instead of the primary useful current a accounting device switched according to Ia) or II ». There is only that Number of turns and the transformation ratio of the current transformer 34 in the accounting device 84 to adapt to the size of the small measuring alternating current supplied by the measuring transmitter. The measuring transmitter can also be designed as a direct current generator; it is not applicable then the transformation including rectification in the accounting unit, because the measuring direct current can be fed directly to the billing cartridge.

e) Variants of the arrangements Ia) to 1.d). With the arrangements a) to d) the following variants are possible: The current transformer transformation ratio can be changed primarily or secondarily by winding taps or shunts that the primary useful work in correspondingly different value scales is shown in the billing cartridge.

As a result, one and the same cartridge of an accounting device to the offsetting a double or multiple tariff based on monetary value is used; if the effective number of turns is switched over by a tariff timer will.

Furthermore, the same electrical contents of a cartridge can be used for the value Mapping and offsetting different kWh figures (fixed quantities, quotas, Basic fees) if a step current transformer is used as the current transformer in the accounting device with winding tapping (switchable or relocatable) is provided '. Latter This arrangement is particularly suitable for those accounting devices that are used for private sub-billing electrical work between landlords and sub-tenants of residential and business premises are determined.

The basic charge decomposition work and the utility electricity decomposition work can also be carried out individually in two separate cartridges of an accounting device, if this is exceptionally required for statistical reasons. The polarization back EMKder only the cell (cartridge) which calculates the useful current must come from a continuously flowing Auxiliary current are compensated so that when the useful current is zero, the gas evolution limit is just reached is reached at the working electrodes of the cell.

11. Arrangements and facilities for self-billing of fees for gas and / or water and / or steam deliveries. converted into a proportional electrical quantity. This electrical quantity is then fed to the accounting device and causes decomposition work that is true to the primary consumption in its billing cartridge. Any basic charges for gas, water or steam delivery are also recorded by a higher setting of the time-proportional continuous measuring current (with the help of the electrical mains voltage that is usually present anyway at the gas, water or steam consumer).

The conversion of the primary consumption variable into that of the billing cartridge The electrical measured variable to be supplied takes place: a) volumetrically by means of a measuring chamber generator. In the gas, water or steam supply line to the consumer, an on is shown in FIG Ball bearings rotatable flow meter built-in ioi; its volumetric measuring chambers are formed by small steel plates 102. that act as permanent magnets of alternating North-South polarity are formed. The flow of gas, water, or steam does that Measuring chamber wheel in a number of seconds that is proportional to the flow rate. On the outer wall of the measuring chamber housing are thin-wire at pole pitch distances Coils, windings io5 arranged, which are connected one behind the other in series. ;At Rotation of the measuring chamber wheel cut the force line fields of those hurrying past in the interior Steel magnetic poles create the outer coil windings (io5) and in the overall winding a measurement change that increases proportionally with the speed and thus with the flow rate EMK. If the measuring circuit resistance is constant, the latter sends a signal proportional to it Measurement alternating current into the accounting device 84, which now operates in a known manner.

After using the billing cartridge, however, the electrical energy supply is not interrupted, but a special shut-off device for the gas, water or steam supply is actuated. This consists of a circular throttle valve io8 which, as the return of the magnetic circuit 139, 14o, is brought into the closed position by the electromagnetic windings 141, 1.42 from the relay 44 via the auxiliary contact 32 as soon as the cartridge 4o is exhausted.

b) manometrically by means of a change in resistance. The gas or water or steam flows through the measuring orifice placed in the supply pipe i io of Fig. B. Depending on the flow velocity in i / sec, in front of and behind the diaphragm generates a pressure difference 4p in a manner known per se. The pressure difference Manometrically moves a liquid that is well conductive for alternating current in the U-shaped bent manometer tube i i I. In the right leg of the manometer tube is a rod-shaped resistor body (injection-molded sheet resistor) 112 built in, through which the auxiliary voltage of the power network drives an electrical measuring alternating current. Depending on the height of the liquid level, a smaller or larger part will be the rod resistor 112 short-circuited by the manometer fluid; the rod 112 has a resistance distribution that increases quadratically with the height, so that the change in level of the Pressure gauge fluid changes in resistance that are linear to the secondary flow rate causes in the measuring circuit. The changed in the measuring circuit II3-II4-IfI2-II5-II6-II7-II8 Measurement alternating current then also corresponds in its size to the second in each case Flow rate of the energy medium. The measuring alternating current is supplied by the rectifier II, 7 converted into a proportional measuring direct current, as well as that via the variable resistor i i9 adjustable basic charge continuous measuring current; make both measuring direct currents together the work of electrolytic decomposition in the which consumes the monetary value of the cartridge Billing cartridge 40.

III. Arrangements and devices for simultaneous self-billing of several types of energy via the same billing cartridge by converting counter pulses into electrolytic decomposition work. The basic idea of this arrangement is shown in FIG. The normal meters or consumption meters (for electricity 120, for gas 121, for water or steam 122) each carry a pulse contactor i 23 placed on one of their counter axes Auxiliary voltage taken from the general power network voltage pulses to a timing mechanism i24, if necessary with an upstream pulse memory 125. The timing mechanism converts the pulses (corresponding to certain consumption variables of the primary energy) into monetary-value measuring direct current times time variables (decomposition work units) for the billing cartridge 40; At the same time, the cartridge 40 is traversed by a variable resistor which can be set and which carries out the basic fees - simultaneous billing of all basic fees for the electricity and / or gas and / or water and / or steam delivery. IV. Arrangements and devices for self-billing of general administration fees and telephone charges, the cartridge billing method proposed according to the invention can also be extended to the booking-free cash collection of all possible other fees that are collected by an administration at certain time intervals in the same amount from the fee debtor , especially when the administration in question is also the energy supplier. B. with city administrations for the simultaneous collection of house fees, garbage disposal, sewerage fees, etc. together with the energy fees into consideration. Is the city administration z. B. at the same time electricity supplier, it is easily possible to add the monthly amounts for these general fees to the monthly basic fee for electricity in the accounting device; without any additional device of the Datierstrom in ex i is echnergerät selected so large that the total charge within 720 hours (i = month counted by 24 hours of 3o days) is automatically miteingezogen.

Billing cartridges for such purposes can have special socket or Preserved cartridge profiles and different coloring, their electrolyte content.

The billing cartridge described here can also be used in a similarly analogous manner - also for the booking-free and anonymous collection of telephone charges (for the post office or for telephone companies): The basic technical idea for this arrangement and facility is as follows: The local telephone networks are known to be powered by a central battery kept constant operating voltage; This direct current voltage, which is already present on every subscriber set, is used to drive a very small continuous measuring current through the billing cartridge via an adjustable high-ohmic resistor: The billing cartridge can in future be accommodated in the telephone device itself or in its junction box: The continuous measuring current causes an electrolytic decomposition work in the cartridge forth whose degree within; of 720 hours corresponds to the basic subscription fee per month. The call charges are offset at the same time by superimposing additional measuring currents in the cartridge, which, depending on the duration of the call, are brought about by further resistors at the calling subscriber; Resistors of different ohms are used to take into account different distance zones (for long-distance time zone calls), which are switched on by the calling subscriber's group digit preselection in his / her 'vatronic circuit. One and the same cartridge charges the basic and call charges at the same time and without booking; the subscriber, as it were, buys a certain conversation time by purchasing the cartridge in advance. If the measurement content of the cartridge is exhausted by the sum of all conversation times, the empty cartridge prevents the subscriber from being able to speak.

Claims (23)

PATENT CLAIMS: i. Facility for booking-free self-billing of energy delivery charges by means of billing cartridges, characterized in that that the material content of one and the same replaceable cartridge as common Measurement and accounting standard for the fixed, preferably monthly, basic fee debts and at the same time for energy consumption in the form of electricity and / or gas and / or water and / or steam is used. 2. Device according to claim i, characterized in that that both the fixed fee debts as any occurring energy consumption through Measuring currents are mapped electrically, which together by superimposing an in an exchangeable glass or plastic cartridge stored electrolytic measuring fluid so convert into gas for a long time, until the value paid in advance by the customer as monetary value has been used up Electrolyte quantity the blocking of the economic consideration of the energy supplier effected and the cartridge is ejected and / or mechanically rendered unusable. 3. Device according to claim i and 2, characterized in that the work of decomposition the prepaid amount of electrolyte in the cartridge in the amount of the fixed fee owed by an adjustable, time-proportional continuous measuring current, on the other hand in the amount of actual energy consumption debt superimposed by a consumption-proportional one Measurement current is made, the continuous current the polarization back EMF to the Electrodes at least compensated. 4. Device according to claim i to 3, characterized characterized in that the billing cartridge as a completely closed plastic hollow body is formed in the simple metal; preferably iron electrodes, pressed in and which has a thorn-like extension that is only partially pierced its possible to cancel it by hand Using the The gas that forms in the cartridge can escape from the cartridge body. 5. Establishment according to claim 1 to .4, characterized in that as a consumable for the Filling the billing cartridge with an electrolytic liquid, preferably soda or potassium hydroxide solution is used in aqueous solution. 6. Device according to claim i to 5, characterized in that the cartridge in addition to the decomposition electrodes a third electrode as a measuring probe for the level of the until the energy supply is blocked contains possible work of decomposition in the cartridge. 7. Device according to claim i to 6, characterized in that the entire cartridge or parts of it are different Profiling and / or that the electrolyte content different colors for Differentiation between plant assignment, energy type and tariff type is retained. B. Facility according to claims i to 7, characterized in that for channeling the billing cartridge through a rotary chamber is provided by the accounting device, which the cartridge one after the other in an accessible stand-by position, an inaccessible but observable one Working position and brings in an inaccessible ejection position, with the latter mechanical rendering of the cartridge unusable can be associated. cg. Facility according to claims i to 8, preferably for self-billing of electrical energy supply on kilovoltamperhour basis, characterized in that the conversion the contents of the cartridge in gas by a measuring direct current, on the other hand the position of the primary current switch (32) is carried out by a superimposed alternating current (circuit diagram Fig. 3). .io. Facility according to claims i to 8, preferably for self-billing of electrical energy supply on kilovoltamperhour basis, characterized in that the conversion the contents of the cartridge in gas by an alternating measuring current of supercritical size, on the other hand the maintenance of the primary current switch (64) by a subordinate rectified Bias current (circuit diagram Fig. 4) takes place. i i. Device according to claims i to 8, preferably for billing single-phase electrical energy supply based on kilowatt hour metering, characterized in that the conversion of the cartridge contents into gas by a Measuring direct current takes place, the size of which is determined by a glow lamp measuring circuit of the wattage in the primary circuit (U # I # cos (p) is made proportional. 12. Device according to claim i to 8, preferably for the offsetting of three-phase electrical energy supply based on kilowatt hours measurement, characterized in that the conversion of the cartridge contents into gas is carried out by a measuring direct current, the size of which is determined by a glow lamp three-phase measuring circuit of the three-phase wattage in the primary circuit (1 / 3 # UV # I # cos 99) is made proportional. r3. Device according to claim i to 8, - preferably for self-billing of the consumption data of existing ones kWh meter in connection with the basic fee by means of billing cartridges, thereby characterized in that the conversion of the cartridge contents into gas by a measuring current takes place, which is generated by a measuring current generator (Fig.6), which is on the axis a normal alternating or three-phase energy meter. 14. Set up after Claim i to 13, characterized in that the transmission ratio of the im Accounting device contained current transformer primary or secondary through winding taps or @Shunt is changed in such a way that the primary useful work varies accordingly The scale of value in the billing cartridge is shown for the purpose of multi-tariff billing or offsetting different kVAh or kWh figures (fixed quantities, quotas, Basic fees) using the same cartridge filling. 15. Device according to claim i to 8, preferably for self-billing for gas, water or steam deliveries, characterized in that the primary consumption variable into one proportional to it electrical @ measured current value is converted, in addition to the basic charge continuous measured current performs the electrical decomposition work in the billing cartridge true to monetary value. 16. Device according to claim i to 8 and 15, characterized in that the conversion the primary consumption variable in the electrical cartridge measurement flow volumetrically a measuring chamber generator acted upon by the primary energy flow (circuit diagram Fig. 7) takes place. 17. Device according to claim i to 8 and 15, characterized in that that the conversion of the primary consumption variable into the electrical cartridge measurement current manometrically by a pressure difference caused by the primary energy flow on an electrically conductive column of liquid, which creates the electrical resistance of the measuring circuit changed proportionally. 18. Device according to claim i to 8, preferably for simultaneous self-billing of several types of energy via the same cartridge, characterized in that a kWh meter and / or a cbm consumption meter measured partial quantities <of electrical work, gas, water or steam as a function of the revolutions of a counter axis of the primary, measuring device through counter impulses in true monetary value for the billing cartridge (measuring direct current times time) Sizes (decomposition work units) are converted. icg. Device according to claim i to 8 and 18, characterized; - that every counter pulse a time drive, preferably a small synchronous motor can start, the then self-holding, continues to run for an adjustable time and during this Running time its operating current and / or another stabilized in its size Sends current as measuring current via a rectifier into the billing cartridge, which is also continuously traversed by the basic fee metering current. 2o. Facility according to claims i to 8 and i. $ to i9, characterized in that the pulse contacts several meters or consumption meters, including different types of energy, are given pulses of equal value are stored by a summing device, before they are converted into decomposition work units by the time drive. 2i. Device according to claims i to 2o, preferably for self-billing of general, fixed fees that are evenly repeated at certain time intervals, thereby characterized by the fact that the general charges are due to a higher setting of the time-proportional Continuous measuring current in the billing cartridge for the energy supply is also recorded in terms of value will. 22. Device according to claim i to 8, preferably for self-billing of telephone charges (subscriber, basic and simultaneous call charges), characterized in that the conversion of the billing cartridge contents into gas takes place by measuring currents, which from the central battery voltage of the entire telephone system brought about on each individual subscriber set via appropriately dimensioned resistances will. 23. Device according to claim i to 8 and 22, characterized in that self-billing of the fixed monthly basic participant fee in the cartridge by means of a minimal constant continuous measuring current, whereas the self-billing takes place the case-by-case call charges for local and time zone long-distance calls through overlapping additional measuring currents is effected, which depends on the duration of the call of the calling party and the distance zone of the called party different resistances can be formed.