RU2605069C2 - Device is economically optimal dosing of liquid or semi-liquid aqueous solution of drugs to animals and poultry production and sales broiler farm - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture. Apparatus comprises a signal meter a dose of liquid or semiliquid aqueous drugs (1), the dose dial liquid or semiliquid aqueous medicine (2), the actuating element dosing, namely the steering valve or damper (3), a computing unit (4), the control unit (5). Meter's output signal dose of liquid or semiliquid aqueous drugs (1) via the first input and output control dose liquid or semiliquid aqueous medicine (2) is connected to the input of the dosing actuator (3). Yield calculation unit (4) via a control unit (5) connected to the second input of the regulator dose liquid or semiliquid aqueous drugs (2). Device further introduced signal shaper dose of a liquid or semiliquid aqueous Medicine (6), the block of the periodic scan range changes generated signal dose of a liquid or semiliquid aqueous drugs from minimum to the maximum of its nominal value (7), a signal conditioner according to the value of energy costs from the generated signal doses (8), signal depending cost production losses of livestock and poultry from the generated signal doses (9), the signal conditioner according to the cost of a dose of a liquid or semi-liquid aqueous solution of drugs from the generated signal doses (10), setpoint signal amortization deductions, deductions for repairs and renovation of the meter and the dispenser of liquid or semi-liquid aqueous solution of drugs (11). Output signal shaper dose of a liquid or semiliquid aqueous medicine (6) via the periodic scan range changes generated signal dose of a liquid or semiliquid aqueous drugs from minimum to the maximum of its nominal value (7) is connected to the first input of the computing unit (4 ) and via a signal conditioner according to the value of the energy cost of the generated signal dose (8) through a signal conditioner according to the cost of production losses of livestock and poultry from the generated signal a dose (9) and through a signal conditioner according to the value of dose of a liquid or semiliquid aqueous drugs of formed signal dose (10) connected respectively to the second, third and fourth inputs of the computer unit (4), the fifth entry of which is connected the output setpoint signal depreciation deductions for repairs and renovation of the meter and the dispenser of liquid or semi-liquid aqueous solution of drugs (11).

EFFECT: provides an efficient production process control when dispensing liquid and semi-aqueous solutions of drugs.

1 cl, 2 dwg

Description

The invention relates to agriculture, industrial livestock and poultry and can be used to control the dosing process of a liquid or semi-liquid aqueous solution of drugs in the technological process of drinking livestock and animals.

A known method and device for controlling the level of liquid and semi-liquid mixtures and controlling their volumetric dosing in agriculture, mainly in poultry and livestock farming (RF Patent 2427131. Method and device for controlling the level of liquid and semi-liquid mixtures and controlling their volumetric dosing in agriculture, mainly in poultry and livestock / A.V. Dubrovin // BI, 2011. No. 24).

The disadvantage of this technical solution is the lack of the ability to control the volumetric dosage of liquid and semi-liquid mixtures in agriculture, mainly in poultry and livestock, on an economic basis. This leads to the incorrect consumption of liquid and semi-liquid mixtures in terms of production efficiency, proper management (economy). It turns out that high-precision measuring technical and technological equipment is used inefficiently, all the technical advantages of the high accuracy of the known technical solution are lost due to the elimination of the methodological measurement error, since it is not possible to determine exactly the required economically best dosage of liquid and semi-liquid mixtures. There is either an over-expenditure of the components of liquid and semi-liquid mixtures, or an insufficient supply of livestock of farm animals and poultry with them and a corresponding loss of their productivity in either case. This leads to a significant decrease in the production results of the agricultural enterprise, despite the use of advanced high-precision technical solutions for measuring the level and dosing of liquid and semi-liquid mixtures.

This drawback is due to the fact that there are no corresponding new technical solutions for automatic control according to the economic (economic) criterion (criterion), allowing to accurately establish and with the help of a well-known technical solution, with high accuracy, provide the necessary economically the best dosage regimen and, accordingly, liquid consumption and semi-liquid mixtures when watering livestock of animals and birds.

The known method and device for the economical transportation of eggs by the main conveyor of the poultry farm (RF Patent 2414396. Method and device for the economical transportation of eggs by the main conveyor of the poultry farm / AV Dubrovin // BI, 2011. No. 8).

The disadvantage of this technical solution is the lack of the ability to control the volumetric dosage of liquid and semi-liquid mixtures in agriculture, mainly in poultry and livestock, on an economic basis. A well-known technical solution is associated with the process of transporting bird eggs and therefore is simply not intended for operations with liquid and semi-liquid mixtures.

This drawback is due to the fact that in the known technical solution there are no new high-precision technical solutions for automatic control according to the economic (economic) criterion (criterion), which allows to accurately establish and with the help of a known technical solution to ensure the necessary economically the best dosage and consumption of liquid and semi-liquid mixtures when drinking livestock of animals and birds.

The objective of the invention is to increase the accuracy of dosing, increase the functionality and expand the arsenal of technical equipment of the declared purpose for economically optimal dosing of a liquid or semi-liquid aqueous solution of drugs with the technology of drinking livestock of animals and birds with an aqueous solution of drugs.

As a result of the use of the invention, dosing accuracy is increased, functionality is increased, the arsenal of technical means of the declared purpose is expanded to automatically determine the economically optimal dose of a liquid or semi-liquid aqueous solution of drugs with the technology of drinking livestock of animals and birds. Correspondingly, the accuracy of spending expensive drugs increases, significant additional savings of expensive drugs are also achieved, for the prevention and treatment of diseases of thousands of poultry and many animals in the production room, the cost of manual labor for drinking animals and birds with aqueous solutions of drugs is reduced.

The economic criterion (sign) of management, for example, the dose of drugs, is a universally recognized and inherently comprehensive indicator of the efficiency (effectiveness) of production. Just its precise application requires accurate accounting of at least its basic well-known components that most strongly affect the productivity (effectiveness) of a particular technological process. First of all, this is production profit, equal to the difference between the selling price of the manufactured products and the cost of its production. If the selling price is equal only to the product of the volume of output at its unit price, then the cost of production includes many different components.

For a process associated mainly with a change in the dose of expensive drugs, this economic sign of process efficiency is initially the sum of the cost of the loss of livestock and poultry products (which can be easily taken into account as the additional costs of production associated with the process), resources (in this case, not generally accepted feed, but medicinal aqueous solutions) and operating costs. Operating costs include the cost of energy of various types, the salary of maintenance and management personnel, as well as depreciation, renovation (overhaul), repair (maintenance) deductions for capital investments (on the cost of buildings, equipment, measuring instruments, etc.), shipping costs and more. Only the price of less or more accurate meters and dispensers is associated with the accuracy of measuring the flow rate and dosage of medicinal aqueous solutions. It is part of operating costs in the form of the sum of depreciation, renovation, repair deductions for capital investments (the cost of measuring and metering devices). Therefore, such an economic feature, reduced in its composition, can be quite fully, with the greatest accuracy, and therefore should determine the current economic efficiency of production during the operation of the technological process (for example, drinking livestock of animals or poultry with drugs diluted in drinking water). It, taking into account other components of profit, is precisely determined by the planning department and accounting of any, including the agricultural enterprise of livestock and poultry farming at the end of the production process. However, such a definition of this criterion is clearly late after the end of the technological process: it was not used during the process, and the process ended according to some other criteria. Therefore, large economic losses of production that are not controlled precisely by its natural, purely economic accepted character are often found to be in practice. Technical solutions for using this sufficiently substantiated feature (criterion) for the economic efficiency of livestock and poultry production with automatic control of the dosing processes of liquid and semi-liquid aqueous solutions of drugs are currently not known.

The above technical result is achieved by the fact that the device for economically optimal dosing of a liquid or semi-liquid aqueous solution of drugs to animals and birds contains a meter signal dose of a liquid or semi-liquid aqueous solution of drugs, the dose regulator of a liquid or semi-liquid aqueous solution of drugs, the metering actuator, namely adjustable valve or damper, computing unit, control unit, output of liquid dose meter or a liquid aqueous drug solution through the first input and output of a dose regulator of a liquid or semi-liquid aqueous drug solution is connected to the input of the dispensing actuator, the output of the computing unit through the control unit is connected to the second input of a dose regulator of a liquid or semi-liquid aqueous drug solution, and additionally to the device a dose signal shaper of a liquid or semi-liquid aqueous solution of drugs was introduced, a periodic unit scanning the range of variation of the generated dose signal of a liquid or semi-liquid aqueous solution of drugs from the minimum to the maximum allowable given value, a signal shaper of the dependence of the cost of energy costs on the generated dose signal, a signal shaper of the dependence of the cost of livestock and poultry production losses on the generated dose signal, a signal shaper the dependence of the cost of a dose of a liquid or semi-liquid aqueous solution of a drug drugs from the generated dose signal, the signal adjuster of depreciation charges, deductions for repairs and renovations of the meter and dispenser of the liquid or semi-liquid aqueous solution of drugs, the output of the signal shaper of the dose of the liquid or semi-liquid aqueous solution of drugs through the periodical scan unit for the range of variation of the generated liquid dose signal or semi-liquid aqueous solution of drugs from the minimum to its maximum permissible of a different value is connected to the first input of the computing unit and through the signal conditioner of the dependence of the cost of energy costs on the generated dose signal, through the signal conditioner of the dependence of the cost of losses of livestock and poultry products on the generated dose signal and through the signal conditioner of the dependence of the cost of a liquid or semi-liquid aqueous solution of drugs on the generated dose signal is connected respectively to the second, third and fourth inputs of the computing unit, the fifth input of which is connected to the output of the signal generator of depreciation deductions, deductions for repairs and renovations of the meter and dispenser of a liquid or semi-liquid aqueous solution of drugs.

The device performs the following actions.

1. Measurement of the dose signal of a liquid or semi-liquid aqueous solution of drugs.

2. Setting the dose signal of a liquid or semi-liquid aqueous solution of drugs.

3. Comparison of measured and given signals.

4. The formation of the signal cost of energy costs.

5. The formation of the signal cost of the loss of egg products of poultry.

6. Calculation and formation of the total signal cost of energy costs and the cost of losses of egg products of poultry farming.

7. Signal formation of an economically optimal process mode according to the lowest value of the generated total signal of the cost of energy costs and the cost of poultry egg products.

The device performs the following additional steps.

8. A dose signal of a liquid or semi-liquid aqueous drug solution is generated.

9. Periodically scan (expand) the range of variation of the generated signal dose of a liquid or semi-liquid aqueous solution of drugs from the minimum to its maximum acceptable value.

10. A signal is generated for the dependence of the cost of energy costs on the generated dose signal.

11. Form a signal of the dependence of the cost of losses of livestock and poultry products from the generated dose signal.

12. A signal is generated for the dependence of the cost of a dose of a liquid or semi-liquid aqueous solution of drugs on the generated dose signal.

13. Set the signal depreciation, deductions for repairs and renovations of the meter and dispenser liquid or semi-liquid aqueous solution of drugs.

14. The predetermined signal of depreciation, repair and renovation of the meter and dispenser is summed up with the signals of the dependence of the cost of energy costs on the generated dose signal, the dependence of the cost of losses of livestock and poultry products on the generated dose signal, the dependence of the cost of the dose of a liquid or semi-liquid aqueous solution of drugs from the generated dose signal.

15. Based on the summation result, the total signal of depreciation, repair and renovation of the meter and dispenser, the dependence of the cost of energy costs on the generated dose signal, the dependence of the cost of livestock and poultry production losses on the generated dose signal, the dependence of the dose cost of a liquid or semi-liquid aqueous solution drugs from the generated dose signal.

16. At the lowest value of the generated total signal, a signal of an economically optimal dose of a liquid or semi-liquid aqueous solution of drugs is formed.

17. Compare the measured dose signal of a liquid or semi-liquid aqueous solution of drugs with the generated signal economically optimal dose.

18. Based on the result of comparing the measured and generated signals, the dose of a liquid or semi-liquid aqueous solution of drugs is regulated.

The method and device for economically optimal dosing of a liquid or semi-liquid aqueous solution of drugs to animals and birds are illustrated in FIG. 1 and FIG. 2.

In FIG. 1 illustrates the economically optimal dosage of a liquid or semi-liquid aqueous solution of drugs to animals and birds: D _ISM - measured signal dose of a liquid or semi-liquid aqueous solution of drugs, m ³ ; _Sform D - shaped signal dose liquid or semiliquid aqueous medicaments, m ^3, measured values and signals generated in equal doses process conditions should be equal to: D = D _{sform edited;} C is the dependence of the cost of livestock and poultry products on the generated dose signal, rubles / unit. time C = _energy + ΔPr E + C + _{lek Σ} and U ^newly _edited; E _energy is the dependence of the cost of energy costs on the generated dose signal, rubles / unit. time; ΔPr - dependence of the cost of losses of livestock and poultry products from the generated dose signal, rubles / unit. time; With _lek - the dependence of the cost of a dose of a liquid or semi-liquid aqueous solution of drugs on the generated dose signal, rubles / unit. time; a _Σ C _ISM ^old - the sum of depreciation, repairs and renovations of the old meter and dispenser of a liquid or semi-liquid aqueous solution of drugs with low accuracy and low old price C _ISM ^old , rubles / unit. time; and _Σ U ^newly _edited - amount of depreciation allocations for repair and renovation of a new meter and dosing of liquid or semiliquid aqueous drugs with high accuracy and high cost C new ^newly _edited, rub / u. time; a _Σ = a _am + a _rem + a _ren - the total coefficient of deductions for capital investments in the meter and dispenser; and _am is the depreciation coefficient of capital investments; and _rem - the coefficient of deductions for repairs; and _ren - coefficient of deductions for renovation; D _opt - the generated signal of an economically optimal dose of a liquid or semi-liquid aqueous solution of drugs; 2ΔD _Izm ^old - the range of measurement and dosing errors of the old meter and dispenser; 2ΔD ^newly _edited - measurement error range, and the new meter and dosing dispenser; a _Σ ΔTS _ism - the difference between the total deductions for capital investments in new and old meters and dispensers; ΔС _ism ^old - a big mistake in determining the efficiency of the process by its cost when measuring and dosing with an old meter and dispenser with low accuracy; ΔS ^newly _edited - small error in determining the effectiveness of the process of its production costs in measuring and dispensing new meter and dosing with high accuracy; ΔS _ism - the relative error in determining the effectiveness of the process at its cost in different gauges and dispensers.

In FIG. 2 is a functional diagram of a device for economically optimal dosing of a liquid or semi-liquid aqueous solution of drugs to animals and birds: 1 - meter for the dose signal of a liquid or semi-liquid aqueous solution of drugs, 2 - dose regulator of a liquid or semi-liquid aqueous solution of drugs, 3 - metering actuator, namely, an adjustable valve or damper, 4 - a computing unit, 5 - a control unit, 6 - a shaper of the dose signal of liquid or semi-liquid water p a solution of drugs, 7 — a block for periodically scanning the range of variation of the generated dose signal of a liquid or semi-liquid aqueous solution of drugs from the minimum to the maximum allowable preset value, 8 — signal shaper of the dependence of the cost of energy costs on the generated dose signal, 9 — shaper of the signal of the cost dependence losses of livestock and poultry products from the generated dose signal, 10 - cost dependency signal shaper awns dose liquid or semi-aqueous solution formed by medicines dose signal 11 - depreciation setpoint signal allocations for repair and renovation to the meter and dosing of liquid or semiliquid aqueous drugs.

The economically optimal dosage of a liquid or semi-liquid aqueous solution of drugs to animals and birds is as follows. In FIG. 1 illustrates an economically optimal dosage of a liquid or semi-liquid aqueous solution of drugs to animals and poultry. General view of the dependence of fixed costs: 3 _post (D) = const. At a young age, the livestock needs additional external heating, therefore, the curve _{shows the} dependence of energy consumption E _energy on the dose of the drug with increasing dose, i.e. with the age of animals or birds, it has a declining general appearance. The mathematical dependence for conducting computer simulation can be built according to the corresponding experimental and practical data and, in general, can have the following or similar general form: E _energy (T) = PZ ^{(-HT + X)} + M. The dependence of the cost of the dose of the drug with increasing dose is linearly increasing. The dependence of the cost of growth in production losses increases with a shortage of the drug, and with its surplus, i.e. It has a minimum at the technologically (zootechnical) best dose of the drug.

In FIG. 2 shows a functional diagram of a device for economically optimal dosing of a liquid or semi-liquid aqueous solution of drugs to animals and poultry.

The device for economically optimal dosage of drugs to animals and birds contains a meter for the dose signal of a liquid or semi-liquid aqueous solution of drugs 1, a dose regulator of a liquid or semi-liquid aqueous solution of drugs 2, an actuating element for dispensing, namely an adjustable valve or shutter 3, a computing unit 4, a unit control 5, the output of the meter signal dose of a liquid or semi-liquid aqueous solution of drugs 1 through the first input and output of the regulator to a liquid or semi-liquid aqueous solution of drugs 2 is connected to the input of the metering element 3, the output of the computing unit 4 through the control unit 5 is connected to the second input of the dose regulator of a liquid or semi-liquid aqueous solution of drugs 2, and a signal dose former of liquid or semi-liquid aqueous solution of drugs 6, a unit for periodically scanning the range of variation of the generated signal dose of a liquid or semi-liquid about an aqueous solution of drugs from the minimum to the maximum allowable given value 7, a signal conditioner for the dependence of the cost of energy costs on the generated dose signal 8, a signal conditioner for the dependence of the cost of livestock and poultry production losses on the generated dose signal 9, a signal conditioner for the dependence of the dose of liquid or semi-liquid aqueous solution of drugs from the generated dose signal 10, the depreciation signal adjuster payments, deductions for repairs and renovations of the meter and dispenser of a liquid or semi-liquid aqueous solution of drugs 11, the output of the driver of the dose signal of a liquid or semi-liquid aqueous solution of drugs 6 through a periodical scan unit for changing the generated signal dose of a liquid or semi-liquid aqueous solution of drugs from the minimum permissible to its maximum permissible setpoint 7 is connected to the first input of the computing unit 4 and through The signal generator of the dependence of the cost of energy costs on the generated dose signal 8, through the signal generator of the dependence of the cost of livestock and poultry production losses on the generated dose signal 9 and through the signal generator of the dependence of the dose value of a liquid or semi-liquid aqueous solution of drugs on the generated dose signal 10 is connected respectively to the second , the third and fourth inputs of the computing unit 4, to the fifth input of which is connected the output of the signal generator Discount allocations, allocations for repair and renovation to the meter and dosing of liquid or semiliquid aqueous solution of 11 drugs.

The device operates as follows. Elements of the functional diagram of the device carry out both the calculation of various economic and mathematical values, and produce the formation of the corresponding signals. That is, actions are performed on material objects using material means. They are defined, determined, compared with each other and all the necessary signals are generated. The actions of the circuit elements of the device are reflected in their names and do not need much additional comments. In accordance with the illustration of FIG. 1, a cost-effective control of the dosing process takes place according to the criterion (according to the objective function) of the cost price, which includes the dose-dependent amount of energy costs, losses of livestock and poultry products, and the costs of the actual consumed dose of the aqueous solution of drugs.

The dosing accuracy is increased, the functionality is increased, the arsenal of technical means of the declared purpose is expanded to automatically determine the economically optimal dose of a liquid or semi-liquid aqueous solution of drugs with the technology of drinking livestock of animals and birds. Correspondingly, the accuracy of spending expensive drugs increases, significant additional savings of expensive drugs are also achieved, for the prevention and treatment of diseases of thousands of poultry and many animals in the production room, the cost of manual labor for drinking animals and birds with aqueous solutions of drugs is reduced. At the same time, it is the economic efficiency of the processes of disease prevention and treatment of animals and poultry in the sectors of industrial animal husbandry and poultry farming that significantly increases.

Explanatory figure captions

FIG. 1. Illustration of the economically optimal dosage of a liquid or semi-liquid aqueous solution of drugs to animals and birds: D _ISM - measured signal dose of a liquid or semi-liquid aqueous solution of drugs, m ³ ; _Dform - the generated dose signal of a liquid or semi-liquid aqueous solution of drugs, m ³ , the values of the measured and generated dose signals under the same process conditions should be equal to: _Dform = D _{meas ;} C is the dependence of the cost of livestock and poultry products on the generated dose signal, rubles / unit. time C = _energy + ΔPr E + C + _{lek Σ} and U ^newly _edited; E _energy is the dependence of the cost of energy costs on the generated dose signal, rubles / unit. time; ΔPr - dependence of the cost of losses of livestock and poultry products from the generated dose signal, rubles / unit. time; With _lek - the dependence of the cost of a dose of a liquid or semi-liquid aqueous solution of drugs on the generated dose signal, rubles / unit. time; a _Σ C _ISM ^old - the sum of depreciation, repairs and renovations of the old meter and dispenser of a liquid or semi-liquid aqueous solution of drugs with low accuracy and low old price C _ISM ^old , rubles / unit. time; and _Σ U ^newly _edited - amount of depreciation allocations for repair and renovation of a new meter and dosing of liquid or semiliquid aqueous drugs with high accuracy and high cost C new ^newly _edited, rub / u. time; a _Σ = a _am + a _rem + a _ren - the total coefficient of deductions for capital investments in the meter and dispenser; and _am is the depreciation coefficient of capital investments; and _rem - the coefficient of deductions for repairs; and _ren - coefficient of deductions for renovation; D _opt - the generated signal of an economically optimal dose of a liquid or semi-liquid aqueous solution of drugs; 2ΔD _Izm ^old - the range of measurement and dosing errors of the old meter and dispenser; 2ΔD ^newly _edited - measurement error range, and the new meter and dosing dispenser; and _Σ AC _ism - the difference between the total deductions for capital investments in new and old meters and dispensers; ΔС _ism ^old - a big mistake in determining the efficiency of the process by its cost when measuring and dosing with an old meter and dispenser with low accuracy; ΔS ^newly _edited - small error in determining the effectiveness of the process of its production costs in measuring and dispensing new meter and dosing with high accuracy; ΔS _ism - the relative error in determining the effectiveness of the process at its cost in different gauges and dispensers.

FIG. 2. Functional diagram of a device for economically optimal dosing of a liquid or semi-liquid aqueous solution of drugs to animals and birds: 1 - meter for the dose signal of a liquid or semi-liquid aqueous solution of drugs, 2 - dose regulator of a liquid or semi-liquid aqueous solution of drugs, 3 - metering actuator, namely, an adjustable valve or damper, 4 - a computing unit, 5 - a control unit, 6 - a dose signal shaper of a liquid or semi-liquid aqueous solution 7, block of periodic scanning of the range of variation of the generated dose signal of a liquid or semi-liquid aqueous solution of drugs from the minimum to the maximum allowable given value, 8 - signal conditioner of the cost of energy costs from the generated dose signal, 9 - signal conditioner of the cost of losses livestock and poultry products from the generated dose signal, 10 - signal shaper of the dependence of the cost of living dose one or semiliquid aqueous drugs from dose generated signal 11 - depreciation setpoint signal allocations for repair and renovation to the meter and dosing of liquid or semiliquid aqueous drugs.

Claims (1)

A device for economically optimal dosing of a liquid or semi-liquid aqueous solution of drugs to animals and birds, comprising a meter for the dose signal of a liquid or semi-liquid aqueous solution of drugs, a dose regulator of a liquid or semi-liquid aqueous solution of drugs, an actuating element for dispensing, namely an adjustable valve or damper, a computing unit , control unit, the output of the meter signal dose of a liquid or semi-liquid aqueous solution of drugs h the first input and output of the dose regulator of a liquid or semi-liquid aqueous solution of drugs is connected to the input of the dosing actuator, the output of the computing unit through the control unit is connected to the second input of the dose regulator of a liquid or semi-liquid aqueous solution of drugs, characterized in that the shaper is additionally introduced into the device dose signal of a liquid or semi-liquid aqueous solution of drugs, a unit for periodic scanning of the range of changes in the form the dose signal of a liquid or semi-liquid aqueous solution of drugs from the minimum to the maximum allowable specified value, a signal shaper for the dependence of the cost of energy costs on the generated dose signal, a shaper for the dependence of the cost of livestock and poultry production losses on the generated dose signal, a signal shaper for the dose value liquid or semi-liquid aqueous solution of drugs from the generated signal doses, a signal adjuster for depreciation charges, repairs and renovations of the meter and dispenser of a liquid or semi-liquid aqueous drug solution, the output of a dose signal shaper of a liquid or semi-liquid aqueous drug solution through a periodical scan unit for changing the generated signal dose of a liquid or semi-liquid aqueous drug solution preparations from the minimum to the maximum allowable given value is connected to the first input in the calculation unit and through the signal conditioner of the dependence of the cost of energy costs on the generated dose signal, through the signal conditioner of the dependence of the cost of livestock and poultry production losses on the generated dose signal and through the signal conditioner of the dose value of a liquid or semi-liquid aqueous solution of drugs from the generated dose signal the second, third and fourth inputs of the computing unit, to the fifth input of which is connected output of the signal setter of depreciation deductions, deductions for repair and renovation of the meter and dispenser of a liquid or semi-liquid aqueous solution of drugs.

Images