RU2605072C2 - Device is economically optimal production and sales broiler farm - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture. Device comprises a sensor (1) the average live weight broiler herd, setting devices (2 and 3) the signal of the smallest and largest values of live weight broiler, first (4) and second (5) of the comparison circuit, the first (6) and second (7) conditioners signal point in time to achieve the smallest and largest values of live weight broiler, the first sensor unit (8) the flow of feed mixture, consumption of electricity, heat consumption, setting devices signals a specific market price of poultry meat, the specific market price of electricity, the specific market price of thermal energy, wages board service and management personnel, travel expenses, depreciation charges for capital investments in buildings and equipment, allocations for maintenance of buildings and equipment, contributions for the renovation of buildings and equipment, computing unit (9), the control unit (10). Output of sensor (1) that detects the average live weight of broiler flock connected to the input of the first sensor unit (8) and the inputs of the first (4) and second (5) of the comparison circuit, a second input connected to outputs of the set point signal smallest (2) and the maximum ( 3) values of live weight broiler. Outputs of the first (4) and second (5) comparison circuit connected to the first and to the second input of the computing unit (9) to the third input of which is connected the output of the first sensor unit (8). Output of computing unit (9) is connected to the input of the control unit (10). Device has an element of subtraction (11), the sixth driver signal depending changing feed costs with limited feeding (12), a first adder or the seventh driver signal depending profit production with limited feeding (13), the setpoint signal specific price realization chilled broiler meat (14 ), the first controlled switch with two control inputs or eight signal conditioner unit price realization chilled broiler meat (15), the ninth a signal conditioner (16), dial the period of maximum allowable storage time of broiler meat in refrigerated (17), a second adder (18) , setpoint signal specific price realization frozen broiler meat from the time the process is complete broiler completion time of the shelf life of broiler meat (19). Device has also signal conditioners (20-24, 26, 27, 29, 30, 32, 33, 35), detecting signals (25, 28, 31, 34, 36) of the comparison circuit (37-41) controlled by the keys (42-46), the fifth block setting devices signals the customer's request to implement the production of broiler meat (47), actuator off of production equipment (48), a power supply of technological equipment of the house (49), the house-electric technological equipment (50), a data transmission unit customer products (51), the unit of reception and transmission of information products the customer (52).

EFFECT: to improve the accuracy of process control of feeding birds.

1 cl, 2 dwg

Description

The invention relates to the field of agriculture, to industrial poultry farming and can be used to control the effectiveness of the technology for growing meat poultry (broilers) and the technological process of feeding livestock of birds, taking into account the needs of the customer of the product, i.e. distribution network of a broiler poultry farm.

A known method and device for growing birds, designed to automate the process of searching for the most economically profitable mode of general heating of a room with agricultural young animals and feeding the livestock on the basis of specific unit prices for heat and electricity for heating livestock, feed and finished products of a livestock or poultry farm (RF patent No. 2340172 C1 A01K 29/00. Method and device for growing poultry / Dubrovin A.V., Musin A.M. et al. // Published on October 12, 2008. Bull. No. 14). The temporary productivity sensor for one bird contains load cells and weighing counters. At the first output of the temporary productivity sensor of one bird at the end of the current day (rearing), a signal of the measured productivity of one bird is formed.

The disadvantage of this technical solution is the lack of information about taking into account the statistical characteristics of the process, essentially selective weighing of individual birds that accidentally fell on the load-measuring elements of the device, and a mathematically reliable estimate of this information when judging the live weight of the total number of livestock grown in the house. It is also impossible to stop the processes of feeding and growing other than according to the requirements of regulatory documents of poultry farming.

The reason for this is an important general and already complex task of the invention. A detailed description of the analytical and also additional statistical processing of signals about the live weight of the bird would lead to a significant complication of the technical solutions of this analogue of the present invention.

A known method of cost-effective interconnected general heating of livestock buildings and local heating of farm animals and a device for its implementation. They are designed to search for the economically least expensive mode of general heating of a room with local heating of agricultural young animals. The set prices for the finished products of the livestock or poultry enterprises are used (see RF patent No. 2229155. Method and device for economical general heating of livestock buildings and local heating of farm animals / A.V. Dubrovin et al. // BI, 2004. No. 14).

The disadvantage of this technical solution is the lack of real-time accounting of deviations from the normative consumption of animal feed, feed or feed mixtures, which significantly affects the productivity of the livestock. At the same time, the cost of production also changes significantly, since the cost of feed in industrial livestock and poultry farming is 70 ... 80% of the total cost of production. At the same time, at present, small-age automated means of distributing feed to poultry are also being actively introduced in agricultural production, in particular in poultry farming, for example, broiler chickens and repair young animals of the parent herd of chickens, with real-time monitoring of the mass of consumed feed.

A known method and device for growing poultry, allowing you to control the heating and feeding of poultry by the value of the technical and economic indicator of profit growth (see RF patent 2340172. Method and device for growing poultry / A.V. Dubrovin et al. // BI, 2008. No. 34).

The disadvantage of this technical solution is the lack of real-time accounting of the current in time value of the feed conversion coefficient, which characterizes the biological and economic efficiency of converting the chemical energy of the feed into the biological energy of growth and development of the bird organism. There is no corresponding possibility in the automated mode of biologically and economically feasible to determine the technologically optimal initial time point of the economic correction of the feeding regime of animals and birds. Starting from this point in time, the growth rate of live weight of broilers slows down, its growth decreases, and feed intake by animals and poultry continues. The value of the feed conversion ratio increases, the economic efficiency of the feeding process begins to decrease, and further feeding of the livestock without change (without correction, without correction of the feeding regime) becomes unprofitable. Accordingly, also starting from this moment in time, a regime of limited feeding should be introduced, that is, the technology of feeding animals and birds should be adjusted. The purpose of such and similar amendments to the technological regimes of animal and poultry feeding technologies is to prevent, if possible, the growth or at least reduce the growth rate of the feed conversion coefficient, which provides information for improving livestock and poultry farming technologies, which is directly related to the increase in their technical and economic efficiency. This technical solution does not provide such opportunities.

The objective of the invention is to improve the accuracy of control of the technological process of feeding poultry. Another objective of the invention is to determine the end time point of economically feasible products for the customer and the end time point economically acceptable for the product manufacturer to complete the poultry feeding process and turn off the process equipment of feeding and growing broilers in the poultry house at this point in time.

As a result of using the invention, the accuracy of controlling the technological process of feeding the poultry is increased. Also, as a result of the use of the invention, the final time point of completion of the process of feeding the bird and the shutdown of the technological equipment of the processes of feeding and growing broilers in the house at that moment is automatically determined economically expedient for the customer of the product and economically acceptable for the producer of the product. At the same time, significant savings are achieved in costly feed mixtures for poultry. As a result of the use of the invention, the consumption of expensive feed, electrical and thermal energy is significantly reduced for products that are not economically feasible neither for the customer, nor for the producer of the product, the continuation of the technological, including heating and heating equipment of the house, the cost of manual labor for servicing animals is reduced, poultry and technological equipment.

There are various indicators (indexes, Latin) of productivity (efficiency, Latin) of livestock and poultry production. These include “Average daily gain in live weight, g,” “feed conversion rate, kg feed / kg live weight”, “European (Russian) EBI productivity index”, measured in relative units and calculated as follows: EBI = [(Livestock safety ,%) × (Average daily gain in live weight, g)] / [(10 × K _kk (feed conversion ratio), kg feed / kg live weight)], other technological indices of the efficiency of livestock and poultry production.

All of them, to one degree or another, reflect the economic (economic) efficiency of production and at the same time they are much simpler and more convenient to use compared to the actual economic sign (criterion) of assessing production efficiency. But it is precisely the economic criterion that is the universally recognized and essentially comprehensive indicator of the efficiency of production. Just its precise application requires taking into account a very significant number of well-known components.

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. This is initially the sum of the cost of resources (feed) and operating costs. Operating costs include the cost of energy of various types, the salaries of maintenance and management personnel, as well as depreciation, renovation, repair deductions for capital investments (the cost of buildings, equipment, measuring instruments, etc.), transportation costs and much more. It is precisely because of the difficulties of accurately accounting for these numerous cost components that various technological indices of production efficiency are significantly simpler than economic signs.

Nevertheless, only an economic sign can most fully, with the greatest accuracy, and therefore should determine the resulting economic efficiency of production, which is ongoing during the operation of the technological process (for example, feeding): only it is determined by the planning department and bookkeeping of any, including agricultural enterprise livestock and poultry at the end of the production process. However, such a definition of this criterion is clearly late: it was not applied during the process, and the process ended according to some other criteria. Therefore, in practice, large economic losses of production that are not controlled precisely by its natural, purely economic characteristic often turn out to be.

Technical solutions for the use of this comprehensive and widespread indicator of the efficiency of livestock and poultry production for automatic control of feeding processes, namely for the transition from unlimited to dosed limited feeding of animals and poultry, as well as for automatically determining the economically optimal time point for completing the feeding of animals and poultry are not currently known. Also, technical solutions are not known for automatic and automated control of the completion of the broiler growing process in accordance with the economic needs of the product customer, i.e. a trading network of a broiler poultry farm, and an end-time economically acceptable for a producer of products to complete the process of feeding the poultry and turn off at this point in time the technological equipment of the processes of feeding and growing broilers in the house.

The above technical result is achieved by the fact that the device for economically optimal production and sales of broiler poultry products includes a broiler average live weight sensor for the herd, a broiler signal of the smallest live weight of the broiler, a signal broker of the highest value of the broiler live weight, the first comparison scheme, the second comparison scheme, the first driver of the signal of the moment in time to achieve the lowest live weight of the broiler, the second driver of the signal of the moment of time achieving the highest value of the live weight of the broiler, the first block of feed mixture flow sensors, namely a capacitive or continuous flow meter, electric energy consumption, heat energy consumption, signal generators for the specific market price of poultry meat, the specific market price of electric energy, the specific market price of thermal energy, wages maintenance and management personnel, transportation costs, depreciation deductions for capital investments in buildings and equipment, deductions for the repair of buildings and equipment deductions for the renovation of buildings and equipment, signal conditioners, a computational unit or a third signal conditioner of the optimal dependence of production profit on the time of broiler growing process with their normal feeding, a control unit or a fourth signal conditioner of an economically optimal moment of broiler growth corresponding to the highest production profit, the output of the average broiler live weight sensor through the herd is connected to the input of the first sensor block and to the inputs of the first and second comparison circuits, to the second inputs of which the outputs of the setter of the signal of the lowest and highest values of the live weight of the broiler are connected, the outputs of the first and second comparison circuits, respectively, through the first and second signal conditioner of the moment of reaching the lowest value of the live weight of the broiler are connected to the first and second input of the computing unit , to the third input of which the output of the first sensor unit is connected, the output of the computing unit is connected to the input of the control unit, and You are the subtraction element or the fifth driver of the signal of the period of time, the sixth driver of the signal of the dependence of changes in feed costs with limited feeding, the first adder or the seventh driver of the signal of the dependence of production profit with limited feeding, the signal generator of the unit price of the sale of chilled broiler meat, the first controlled key with two control inputs or the eighth signal driver of the unit price of the sale of chilled broiler meat, the ninth signal driver, period setter the longest acceptable storage time for broiler meat in a refrigerated state, a second adder, a signal broker for the unit selling price of frozen broiler meat from the time the broiler growing process was completed to the time at which the broiler meat shelf life expired, the tenth signal conditioner, eleventh signal conditioner, twelfth signal conditioner, thirteenth signal conditioner, fourteenth signal conditioner, first signal indicator, fifteenth signal conditioner, gear fifth signal conditioner, second signal indicator, seventeenth signal conditioner, eighteenth signal conditioner, third signal indicator, nineteenth signal conditioner, twentieth signal conditioner, fourth signal indicator, twenty-first signal conditioner, fifth signal indicator, third, fourth, fifth, sixth, seventh comparison scheme, second, third, fourth, fifth, sixth controlled key, fifth block of signal setters for customer requests for the sale of broiler meat, performer a technological equipment shutdown element or an “OR” circuit breaker with five inputs at the circuit breaker input, a power supply source for the poultry house processing equipment, an electrified poultry house processing equipment, a data transmission unit to the product customer, a customer product information transmit-receive unit, the output of the control unit is connected to the input of the subtraction element, to the connection of the first inputs of the twenty-first signal conditioner and the fifth signal indicator and to the fifth input and data transmission to the product customer, the second input and the output of the subtraction element are connected respectively to the connection of the second input of the computing unit, the first input of the first managed key with two control inputs, the first input of the eleventh signal conditioner and the input of the sixth signal conditioner depending on changes in feed costs with limited feeding , the second, third inputs and the output of the first managed key with two control inputs are connected respectively to the first input of the computing unit, with the output the house of the signal setter of the unit price for the sale of chilled broiler meat, with the fourth input of the computing unit, the output of the first sensor unit is additionally connected to the first inputs of the fourteenth, sixteenth, eighteenth, twentieth, twenty-first signal conditioner, the output of the broiler average live weight sensor is additionally connected to the first the inputs of the third, fourth, fifth, sixth, seventh comparison schemes, the output of the sixth signal conditioner of the dependence of changes in feed costs with limited feed is connected to the first input of the first adder, the second input and output of which are connected respectively to the output connection of the computing unit, the first inputs of the ninth, nineteenth, eleventh, thirteenth, sixteenth signal conditioner and to the connection of the second input of the ninth signal conditioner and the first input of the tenth signal conditioner, output the ninth signal conditioner is connected to the second input of the nineteenth signal conditioner, the output of which is connected to the connection of the second inputs of the twentieth For the signal and the fourth signal indicator and to the fourth input of the data transmission unit to the product customer, the output of the twentieth signal conditioner is connected to the first input of the fourth signal indicator, to the second input of the sixth comparison circuit and to the ninth input of the data transmission unit to the customer, the output of the tenth signal conditioner is connected to the input of the seventeenth signal conditioner, the output of which is connected to the second inputs of the eighteenth signal conditioner and the third signal indicator and with the third block input in front of As soon as data is supplied to the customer, the output of the eighteenth signal conditioner is connected to the first input of the third signal indicator, to the second input of the fifth comparison circuit and to the eighth input of the data transmission unit to the customer, the output of the eleventh signal conditioner is connected to the first input of the fifteenth signal conditioner, the output of which is connected to the second the inputs of the sixteenth signal conditioner, the second signal indicator and with the second input of the data transmission unit to the customer of the product, the output of the sixteenth conditioner the signal is connected to the first input of the second signal indicator, with the second input of the fourth comparison circuit and with the seventh input of the data transmission unit to the customer, the output of the twelfth signal conditioner is connected to the second input of the thirteenth signal conditioner, the output of which is connected to the second inputs of the fourteenth signal conditioner, the first signal indicator and with the first input of the data transmission unit to the product customer, the output of the fourteenth signal conditioner is connected to the first input of the first signal indicator, the second input of the third comparison circuit and with the sixth input of the data transmission unit to the customer of the product, the output of the twenty-first signal conditioner is connected to the second input of the fifth signal indicator, with the second input of the seventh comparison circuit and the tenth input of the data transmission unit to the customer of the product, the output of the unit price signal frozen broiler meat from the time of completion of the process of growing broilers to the time of completion of the shelf life of broiler meat is connected to the connection of the first inputs of of the ninth and eleventh signal conditioners, the output of the master of the period of the greatest allowable time for storing broiler meat in a cooled state through the second adder is connected to the connection of the second inputs of the tenth and eleventh signal conditioner, the outputs of the third, fourth, fifth, sixth, seventh comparison circuits are connected to the corresponding first inputs of the second , third, fourth, fifth, sixth managed key, the second inputs and outputs of which are connected to the corresponding outputs of the fifth block of signal setters wasps of the customer of the product for the sale of broiler meat and with the corresponding inputs of the executive element for shutting down technological equipment or the power switch with an OR circuit with five inputs at the input of the switch, the input and output of which are connected respectively to the output of the power supply of the technological equipment of the house and to the input of electrified technological equipment poultry house, the output of the data transmission unit to the customer of the product through the unit of reception and transmission of customer information connected to the input of the fifth unit setting devices output signals customer requests for implementation of broilers.

The device performs the following actions.

1. Measurement of the signal of the average live weight of the broiler in the herd.

2. Setting the signal of the specific market price of broiler meat.

3. Signal formation of the selling price of broiler meat.

4. Measurement of the feed mixture signal.

5. Setting the signal of the specific market price of the feed mixture (feed).

6. The formation of the signal cost of feed (signal cost of the spent feed mixture).

7. Measurement of electrical energy consumption signal.

8. Setting the signal of the specific market price of electric energy.

9. The formation of a signal of the cost of consumed electrical energy (signal cost of consumed electrical energy).

10. Measurement of the signal of heat energy consumption.

11. Setting the signal of the specific market price of thermal energy.

12. The formation of the signal of the cost of consumed thermal energy (signal cost of spent thermal energy).

The device also implements the following operations.

13. Set the signal of the specific market price of chilled poultry meat.

14. Set the signal of the specific market price of frozen poultry meat.

15. Set the signals for the salaries of maintenance and management personnel, transportation costs, depreciation for capital investments in buildings and equipment, deductions for the repair of buildings and equipment, deductions for the renovation of buildings and equipment, other components of operating costs.

16. Summarize the signals of the costs of feed, electric and heat energy, salaries of maintenance and management personnel, transportation costs, depreciation deductions for capital investments in buildings and equipment, deductions for repairs of buildings and equipment, deductions for renovation of buildings and equipment, other components of operating costs.

17. Set the signal minimum minimum live weight of the broiler.

18. Set the signal of the maximum commodity live weight of the broiler.

19. Set the time signal of the feeding process.

20. At the time of equality of the measured signal of the average live weight of the broiler for the herd of the specified signal of the minimum commodity live weight of the broiler, a signal is generated of the initial instant of time when the average live weight of the broiler reaches the herd of its predetermined minimum value.

21. At the time of equality of the measured signal of the average live weight of the broiler according to the herd of the given signal of the maximum commodity live weight of the broiler, a signal is generated of the final moment of time when the average live weight of the broiler reaches the herd of its predetermined maximum value.

22. Generate signals of time dependence of the selling price of chilled broiler meat, feed costs, electric and heat energy, salaries of maintenance and management personnel, transportation costs, depreciation charges for capital investments in buildings and equipment, deductions for repairs of buildings and equipment , deductions for the renovation of buildings and equipment, other components of operating costs and cost.

23. Summarize the generated signals of the indicated time dependencies of costs.

24. Subtract from the calculated signal of the time dependence of the selling price of chilled broiler meat the sum of the generated signals of the time dependencies of the indicated costs and form the signal of the time dependence of the profit of production.

25. Periodically scan the range of variation of the indicated signals of the time dependences of economic functions from the initial moment of time when the average live weight of the broiler reaches its set minimum value to the final time point when the average live weight of the broiler reaches its set maximum value.

26. The period of the maximum allowable storage time of the broiler meat in the cooled state is counted from the end time point when the average live weight of the broiler reaches the herd of its predetermined maximum value and a signal is generated for the storage time of the frozen broiler meat.

27. Starting from this point in time, the selling price of frozen broiler meat is generated.

28. According to the largest value of the generated signal of the estimated production profit, a signal of the economically optimal point in time of the broiler feeding process is generated.

29. Starting from the economically optimal point in time of the feeding process to the final point in time when the measured signal of the average live weight of the broiler is equal to the herd of the given signal of the maximum live weight of the broiler, a time-dependent signal is generated for saving feed costs with limited feeding.

30. Subtract the generated signal of the time dependence of the cost savings of the feed mixture with limited feeding from the generated signal of the time dependence of the costs of the feed mixture and generate the signal of the time dependence of the costs of the feed mixture with limited feeding.

31. A signal is generated for the dependence of production profit with limited feeding during a period of time from the economically optimal point in time of the feeding process at the final point in time when the average live weight of the broiler reaches the herd of its predetermined maximum value.

32. At the time of equality of the measured signal of the average live weight of the broiler for the herd of the given signal of the maximum commodity live weight of the broiler, signals of final production profit with limited feeding and final production profit with normalized feeding are generated.

33. At the time of equality of the predetermined signal of the time the feeding process proceeds to the generated signal of the start time of storage of frozen broiler meat, they generate profit signals for the production of frozen broiler meat with limited feeding and profit for the production of frozen broiler meat with their normalized feeding.

34. According to the generated signals of the final profit of production with limited feeding, the final profit of production with normalized feeding, the profit of production of frozen broiler meat with limited feeding, the profit of production of frozen broiler meat with normalized feeding, provided that the values of these profits are maintained in the early stage of broiler growing, corresponding signals of live weight of the broiler during normal feeding in the conditions of future freezing of the commercial carcass of br a broiler live weight during normal feeding on conditions of dispensing to the customer products of chilled broiler meat carcasses, broiler live weight during limited feeding in the conditions of future freezing of broiler meat carcasses, broiler live weight during limited feeding in conditions of limited supply of chilled broiler meat carcasses to the customer , economically optimal live weight of the broiler in the conditions of vacation to the customer of the products of chilled broiler meat carcasses.

35. Based on the indicated generated signals of broiler live weight, appropriate sales price signals are generated to evaluate the feasibility of early broiler meat delivery to the product customer.

36. Based on the indicated generated signals of the broiler live weight, the corresponding signals of the moments of time of the earliest possible release of broiler meat to the product customer are generated.

37. These customer generated products are indicated by the indicated generated signals of the live weight of the broiler and the corresponding signals of the times of the earliest possible release of broiler meat.

38. Upon receipt of a signal from the customer about the consent to the sale of broiler meat at an early stage of cultivation, the feeding process in a certain house is stopped and the technological equipment of the feeding process is turned off in this house.

39. At the point in time that the measured signal of the average live weight of the broiler reaches the herd in a particular house, the feeding equipment is turned off in this house according to the given signal of the maximum commodity live weight of the broiler.

The device for economically optimal management of production and sales of broiler poultry products is illustrated in FIG. 1 and FIG. 2.

In FIG. 1 is an illustration of cost-optimal control of the production and sale of products broiler farm: W - operating costs (total energy consumption E _energy fixed costs Z _post, effort H _labor, travel expenses H _transp, depreciation W _Amorth, repair H _repair costs, costs for renovation or renewal of _Zrenov , other associated operating costs, _etc. , C) - cost (the sum of feed costs K _feed and operating costs Z), C _p - selling price p production (product of live weight of broilers by its unit market price), P - production profit (the difference between the selling price of product C _p and its prime cost C), P _meas - measured profit, P _opt - highest (optimal) profit, P _ogr - profit a limited feeding, T _max ^cont - the duration of the process of feeding process, T _min ^cont - initial time period is economically advantageous in achieving the process of feeding body weight broiler its predetermined minimum value, and when a positive values Profit Ia, T _opt ^OHL - time high (optimal) cost effectiveness (performance) feeding process with the subsequent realization of broilers cooled, T _max ^cont - time achieve an average live weight of its predetermined maximum commercial value or when the average live weight of broiler at flock its predetermined maximum value ΔZ _feed ^ogre - winning time dependence in cost savings due to a limited feeding feed mixtures, _feed ^Res K = K _feed -ΔK _feed - time dependence kormosmesi be flow at a limited feeding, _ogre C - time dependence at limited cost feeding, P _Res - time dependence profit production under limited feeding; ΔТ ^okhl - the maximum allowable storage time of broiler meat in a cooled state; M _br - the average live weight of the broiler in the herd; M _br ^min - the smallest measured live weight of the broiler in the herd of the set value of the live weight of the broiler; M _br ^max - the largest given value of the live weight of the broiler; T _min ^prod - the time point when the measured live weight of the broiler reaches the herd of the smallest set value of the live weight of the broiler; T _max ^prod - the moment of time when the measured broiler live weight reaches the flock of the highest preset value of the broiler live weight; T is the process time; C _p - the price of realization of production (live weight broiler) from the time T; ^OHL C _p - sale price of chilled products on time T; C _r ^mor - the selling price of frozen products from time T; P _{norms of} ^pestilence - the formed profit of frozen products during normalized feeding of broilers at a point in time T _max ^prod + ΔT ^okhl ; P _norms ^okhl - the formed profit of the chilled products at the normalized feeding of broilers at a point in time T _max ^prod ; P _ogre ^mor - formed profit of frozen products with limited broiler feeding at time T _max ^prod + ΔT ^okhl ; P _norms ^okhl - the formed profit of the chilled products at the normalized feeding of broilers at a point in time T _max ^prod ; T _{norms of} ^pestilence , M _{norms of} ^pestilence , Ts _p1 ^{okhl +} - the point in time at which live weight with a selling price is collected, satisfying the customer of the product and corresponding to the final profit P _norms ^pestilence . For the producer, in this case and in the following sales cases, it makes no sense to continue growing and feeding broilers until they reach the maximum live weight M _br ^max , to freeze them in the absence of demand for them at time T _max ^prod , since the profit value is P _norm ^ior one and also. The “+” sign in the upper index indicates that low-weight broilers are sold at an increased price for chilled meat, and not at a reduced price for frozen meat; T _norms ^okhl , M _norms ^okhl , Ts _p2 ^okhl - the point in time at which live weight with a selling price is collected, satisfying the customer of the product and corresponding to the final profit P _norms ^okhl ; T _ogre ^mor , M _ogre ^mor , Ts _p3 ^{okhl +} - the point in time at which live weight with a selling price is collected, satisfying the customer of the product and corresponding to the final profit P _ogr ^mor ; T _ogr ^okhl , M _ogr ^okhl , Ts _p4 ^okhl - the point in time at which live weight with a selling price is collected, satisfying the customer of the product and corresponding to the final profit P _ogr ^okhl ; T _opt ^OHL, M _opt ^OHL, C _p5 ^OHL - the time point at which body weight is typed with the selling price satisfying the customer's production and the corresponding highest profit P _opt.

In FIG. 2 shows a functional diagram of a device for economically optimal control of the production and sale of broiler poultry products: 1 - a sensor of the average live weight of an animal or bird in a herd; 1 - sensor average live weight of the broiler for the herd M _br ; 2 - dial signal smallest value bodyweight of broiler _br ^m M; 3 - signal adjuster of the highest value of the live weight of the broiler M _br ^max ; 4 - the first comparison scheme; 5 is a second comparison scheme; 6 - the first signal conditioner of the time point of reaching the minimum value of the live weight of the broiler T _min ^prod ; 7 - the second driver of the signal of the moment in time to achieve the highest value of the live weight of the broiler T _max ^prod ; 8 - the first block of feed mixture flow sensors, namely a capacitive or in-line flow meter, electric energy consumption, heat energy consumption, signal generators for the specific market price of poultry meat, the specific market price of electric energy, the specific market price of thermal energy, the salary of maintenance and management personnel, transportation costs, depreciation for capital investments in buildings and equipment, deductions for repairs of buildings and equipment, deductions for renovation of buildings and equipment, etc. ochih components operating costs formers time signal T stroke process, bodyweight of broiler M _br dependency cost of production, including the cost of feed at a specified W _food ^standards and limited W _feed ^Res feeding, sales price C _p chilled U _p ^OHL C and frozen ^mor _p products on time T; 9 - a computing unit or a third signal conditioner of the optimal dependence of production profit P _norms on the time of broiler growing process with their normalized feeding for a period of time (T _max ^prod -T _min ^prod ); 10 is a control unit or a fourth signal conditioner of an economically optimal moment of time for growing broilers T _opt ^cool , corresponding to the highest production profit P _opt ; 11 - a subtraction element or a fifth driver of a signal of a period of time (T _max ^prod- T _opt ^cool ); 12 - sixth signal conditioner of the dependence of the change (decrease) in feed costs with limited feeding ΔЗ _feed ^ogre in a period of time (T _max ^prod -T _opt ^cool ); 13 - first adder or seventh signal generator according production arrived at the limited feeding P _ogre in time (T _max -T ^cont _wholesale ^OHL); 14 - signal setter of the unit price of the sale of chilled broiler meat C _r ^ochl _beats ; 15 - first controlled switch with two control inputs or eighth shaper specific sales prices signal chilled meat of broilers C _p ^OHL _beats in the time period (T _max -T _min ^{cont cont);} 16 - ninth signal conditioner P _ogr ^cool at time T _max ^prod ; 17 - the dial period of the greatest allowable storage time of broiler meat in refrigerated? T ^OHL; 18 - the second adder T _max ^prod + ΔT ^cool ; 19 - signal broker of the specific selling price of frozen broiler meat C _r ^ppm _ud from the moment of completion of the broiler growing process when taking into account (when summing) the maximum allowable storage time of broiler meat in a cooled state (T _max ^prod + ΔT ^okhl ) at the time of the expiration of storage broiler meat T _stored ; 20 - tenth signal conditioner P _ogr ^mor at time T _max ^prod + ΔT ^okhl ; 21 - eleventh signal conditioner P _norms ^cool at time T _max ^prod ; 22 - twelfth signal generator ^mor P _standards at time T +? T _max ^{cont OHL;} 23 - thirteenth signal conditioner T _norms ^pestilence ; 24 - fourteenth signal conditioner M _norms ^pestilence ; 25 - the first indicator of the signals of T _{norms of} ^pestilence and M _{norms of} ^pestilence ; 26 - the fifteenth signal conditioner T _norms ^cool ; 21 - sixteenth signal conditioner M _standards ^cool ; 28 is a second indicator of signals T _{norms of} ^cooling and M _{standards of} ^cooling ; 29 - seventeenth signal conditioner T _ogr ^mor ; 30 - eighteenth signal conditioner M _ogre ^mor ; 31 is a third indicator of signals T _ogre ^mor and M _ogre ^mor ; 32 - nineteenth signal conditioner T _ogr ^cool ; 33 - twentieth signal conditioner M _ogr ^cool ; 34 is a fourth indicator of signals T _ogr ^cool and M _ogl ^cool ; 35 - twenty-first driver of the signal M _opt ^cool ; 36 is a fifth indicator of signals T _opt ^cooling and M _optical ^cooling ; 37, 38, 39, 40, 41 - the third, fourth, fifth, sixth, seventh comparison scheme; 42, 43, 44, 45, 46 - the second, third, fourth, fifth, sixth managed key; 47 - the fifth block of signal setters for customer requests for the sale of broiler meat; 48 - an actuating element for shutting down technological equipment or a power switch with an OR circuit with five inputs at the input of the switch; 49 - a power source of the technological equipment of the house; 50 - electrified technological equipment of the house; 51 - data transfer unit to the product customer; 52 - block receiving and transmitting customer products. The dashed line marked functional formations (53) - second block formers moments of time signals T ^mor _norms T _standards ^OHL, T _Res ^mor T _Res ^OHL, T _opt ^OHL acceptable profitability tempering customer broiler production with minimum allowed client production of live mass; (54) - a third block formers minimum allowed client signals output bodyweight customer prescription products broilers M ^mor _{standards, norms} ^OHL M, M _ogre ^mor, M _ogre ^OHL, M _opt ^OHL; (55) - the fourth block of indicators of signals of moments of time T vacation to the customer of broiler products with their corresponding live weight M _br .

Economically optimal management of the sale of broiler poultry products is as follows. In FIG. Figure 1 illustrates the economically optimal management of the sale of broiler poultry products, i.e. A graphical illustration of the time (in terms of the duration of the feeding process) dependencies of the constituent parts of costs and profits per accepted unit of time (usually per day, per hour, etc.). General view of the time dependence of fixed costs: 3 _post (T) = const. At a young age, the livestock needs additional external heating, therefore, the curved line of the time dependence of energy consumption E _energy with decreasing age of animals or birds has a declining general form. 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 time dependences of the cost of consumption of feed mixture K _feed and the cost of growth in live weight (in the form of C _p ) by analogy can, in a first approximation, have a similar form: K _feed (T) = A (S-GF ^{(-LT + N)} ), C (T ) = K _feed (T) + E _energy (T) + 3 _post , C _p = Q (W-RY ^{(-DT + J)} ).

In any case, restrictions on feed mixtures and with continued feeding of animals or birds will continue a reduced temporary increase in the cost of feed K _feed ^ogre . Simply, with limited feeding, this growth will be less than the previous one with standard dosage feeding K _food . With almost the same steepness, an increase in the cost of production of C will go with limited feeding of C _ogre . Consequently, the drop in profit P with limited feeding P _ogre after it reaches the highest value of P _{opt will} also slow down accordingly. Thus, at the time point T _opt , an economically feasible transition to the limited feeding regime is carried out, which makes it possible almost to the previous, with normalized feeding, extremely remote in time, with zero profit P, of the final time point T _max ^prod, to continue the limited feeding of the livestock with approximately constant (slightly decreasing) profit P _ogre . It is clear that when the conditions for the set live weight gain are met up to the time point T _opt , feeding should continue until the time point T _opt , when the production profit P _{opt is the} highest.

Upon termination of the feeding process, two economic (economic) conditions of the enterprise are possible. The first condition is without the introduction of limited feeding, as in FIG. 1 corresponds to the profits of the curve P. The second condition - is the introduction at time T _opt restricted feeding regime, which significantly saves ration expended essentially no longer on the live weight gain, which in an animal or a bird will not be (see a curved line. product selling price C _p, equal to the product of live weight on its specific price). A reduced daily dose of feed mixture is simply to maintain the life of an animal or bird with a large, almost extremely large live weight. In this case, the curve line of the cost of the feed mixture at normalized feeding 3 _feed ^standards from time T _opt ^cooling switches to position 3 _feed ^ogre . Accordingly, the value of this feed mixture saving ΔЗ _feed ^ogre or cost C increases profit in the mode of limited feeding P _ogre . Then at time shutdown process equipment and completion of restricted feeding T _max n _Res ^cont profit increases by + ΔP = P _{Parental Parental} ^OHL -P _standards ^OHL compared with a conventional one normalized feeding. Upon completion of the feeding process after the time point of its best economic condition, T _opt ^cooling with profit P _opt , two profit options are obtained: with normalized feeding P ^cooling _norms and with limited feeding P _og ^cooling . It can be seen that the introduction of a limited feeding regime significantly improves the economic indicators of production according to the main economic criterion of its profitability.

Sales of products are carried out by the poultry farm at the request of trading organizations, in the context of the present invention - at the request of the customer. If there are no applications, then the grown products, after going through the slaughter and processing workshop, are frozen and stored until the expiration date of the frozen broiler meat. Then it should either be used for nutrition of animals of various species, and in the absence of such a need to be destroyed. It is clear that the unit price (kilograms) of frozen broiler meat is significantly lower than that of chilled meat (in practice, not less than 5 ... 6 rubles / kg).

Therefore, the poultry farm seeks to sell (release) its products at a higher price, i.e. if possible before the start of the freezing process. This means that if an application for chilled broiler meat came in during the growing process or even before it, the producer should compare the economic prospects of selling broilers with low live weight compared to selling them at the end of the growing time period with the highest live weight. Here, the criterion (sign) of economic efficiency should be at least equal profit in both cases of product sales to the customer.

This is what the device does. Profit functions are calculated in the normalized and limited broiler feeding options. The values of the predicted profit, when selling chilled and frozen broiler meat at the end of cultivation, are compared with the live weight and the point in time of the possible sale of broilers with just such live weight in the process of growing and feeding broilers. This information is sent to the customer of the products, and if he agrees, the process is terminated, and the technological equipment for feeding and the other is turned off. EFFECT: increased accuracy of implementation of feeding technology, taking into account market needs. All of the above is set forth in detail in the graphs of FIG. 1 and does not need additional comments.

It should be noted that with two options for feeding technology and at two unit prices for chilled and frozen products, four options are obtained for the possible early termination of broiler cultivation with different points in time of completion of the feeding technology and with different poultry masses obtained. To these four, of course, we should add the fifth option of economically best production with the highest profit. Consequently, the product customer also has a fairly wide range of options in which the poultry farm does not lose anything, but only saves energy and material resources, and can meet the urgent needs of the product customer ahead of schedule. Thus, the device extends the functionality of managing the production and sale of agricultural products.

The device for economically optimal management of the production and sale of broiler poultry products includes a broiler average live weight sensor according to herd 1, a broiler 2 signal of the lowest live weight, 3 broiler live signal, the first comparison circuit 4, the second comparison circuit 5, the first shaper the signal of the time point of reaching the minimum value of the live weight of the broiler 6, the second driver of the signal of the time point of reaching the highest value of the live weight of the broiler RA 7, the first block of feed mixture flow sensors, namely a capacitive or continuous flow meter, electric energy consumption, heat energy consumption, signal generators for the specific market price of poultry meat, the specific market price of electric energy, the specific market price of thermal energy, the salary of maintenance and management personnel , transportation costs, depreciation for capital investments in buildings and equipment, deductions for the repair of buildings and equipment, deductions for the renovation of buildings and equipment, signal shapers 8, a computing unit or a third signal shaper of the optimal dependence of the production profit on the time of the broiler growing process at their normalized feeding 9, a control unit or the fourth signal shaper of the economically optimal time point of broiler growing, corresponding to the highest production profit 10, the output of the average broiler live weight sensor in the herd 1, the first block of sensors 8 is connected to the input and to the inputs of the first and second comparison circuits 4 and 5, to the second inputs of which the outputs of the setter of the signal of the smallest and greatest values of the live weight of the broiler 2 and 3 are switched on, the outputs of the first and second comparison circuits 4 and 5, respectively, through the first and second signal shaper of the moment of reaching the lowest value of the live weight of the broiler 6 and 7 are connected to the first and second input the computing unit 9, to the third input of which the output of the first sensor unit 8 is connected, the output of the computing unit 9 is connected to the input of the control unit 10, and a subtraction element or fifth is introduced into the device the second signal generator of the time period 11, the sixth signal generator of the dependence of changes in feed costs with limited feeding 12, the first adder or the seventh signal generator of the dependence of production profit with limited feeding 13, the signal price unit of the sold chilled broiler meat 14, the first controlled key with two control inputs or the eighth signal conditioner of the unit price of the sale of chilled meat of broilers 15, the ninth signal conditioner 16, the period setter the usable storage time of broiler meat 17, the second adder 18, the signal unit of the unit price for the sale of frozen broiler meat from the time the broiler growing process ends to the time of the expiration of the broiler meat storage time 19, tenth signal conditioner 20, eleventh signal conditioner 21, twelfth signal conditioner 22, thirteenth signal conditioner 23, fourteenth signal conditioner 24, first signal indicator 25, fifteenth signal conditioner 26, sixteen the ninth signal conditioner 27, the second signal indicator 28, the seventeenth signal conditioner 29, the eighteenth signal conditioner 30, the third signal indicator 31, the nineteenth signal conditioner 32, the twentieth signal conditioner 33, the fourth signal indicator 34, the twenty-first signal conditioner 35, the fifth signal indicator 36 , third, fourth, fifth, sixth, seventh comparison circuit 37, 38, 39, 40, 41, second, third, fourth, fifth, sixth managed key 42, 43, 44, 45, 46, fifth block of signal setters for customer request products on p meat broilers 47, an executive element for shutting down technological equipment or an electric power switch with an OR circuit with five inputs at the input of the switch 48, a power supply for the technological equipment of the house 49, an electrified technological equipment for the house 50, a data transmission unit to the customer 51, a transmission unit customer information 52, the output of the control unit 10 is connected to the input of the subtraction element 11, to the connection of the first inputs of the twenty-first signal conditioner 35 and the fifth signal indicator 36 and to the fifth input of the data transmission unit to the product customer 51, the second input and output of the subtraction element 11 are connected respectively to the connection of the second input of the computing unit 9, the first input of the first managed key with two control inputs 15, the first input of the eleventh signal conditioner 21 and to the input of the sixth signal conditioner of the dependence of the change (decrease) in feed costs with limited feeding 12, the second, third inputs and the output of the first managed key with two control input 15 are connected respectively to the first input of the computing unit 9, with the output of the unit price signal of the sold chilled meat broilers 14, with the fourth input of the computing unit 9, the output of the first sensor unit 8 is additionally connected to the first inputs of the fourteenth, sixteenth, eighteenth, twentieth, twenty-first signal shaper 24, 27, 30, 33, 35, the output of the broiler average live weight sensor according to herd 1 is additionally connected to the first inputs of the third, fourth, fifth, sixth, seventh comparison circuit 37, 38, 39, 40 41, the output of the sixth signal conditioner of the dependence of the change (decrease) in feed costs with limited feeding 12 is connected to the first input of the first adder 13, the second input and output of which are connected respectively to the output connection of the computing unit 9, the first inputs of the ninth, nineteenth, eleventh, eleventh , sixteenth signal conditioner 16, 32, 21, 23, 26 and with the connection of the second input of the ninth signal conditioner 16 and the first input of the tenth signal conditioner 20, the output of the ninth signal conditioner 16 is connected is connected to the second input of the nineteenth signal conditioner 32, the output of which is connected to the connection of the second inputs of the twentieth signal conditioner 33 and the fourth signal indicator 34 and to the fourth input of the data transmission unit to the customer 51, the output of the twentieth signal conditioner 33 is connected to the first input of the fourth signal indicator 34, with the second input of the sixth comparison circuit 40 and with the ninth input of the data transmission unit to the product customer 51, the output of the tenth signal conditioner 20 is connected to the input of the seventeenth conditioner with drove 29, the output of which is connected to the second inputs of the eighteenth signal conditioner 30 and the third signal indicator 31 and with the third input of the data transmission unit to the product customer 51, the output of the eighteenth signal conditioner 30 is connected to the first input of the third signal indicator 31, with the second input of the fifth comparison circuit 39 and with the eighth input of the data transmission unit to the product customer 51, the output of the eleventh signal conditioner 21 is connected to the first input of the fifteenth signal conditioner 26, the output of which is connected to the second input by the sixteenth signal conditioner 27, the second signal indicator 28 and with the second input of the data transmission unit to the customer 51, the output of the sixteenth signal conditioner 27 is connected to the first input of the second signal indicator 28, with the second input of the fourth comparison circuit 38 and with the seventh input of the data transmission unit to the customer 51, the output of the twelfth signal conditioner 22 is connected to the second input of the thirteenth signal conditioner 23, the output of which is connected to the second inputs of the fourteenth signal conditioner 24, the first signal indicator 25 and with the first input of the data transmission unit to the product customer 51, the output of the fourteenth signal conditioner 24 is connected to the first input of the first signal indicator 25, with the second input of the third comparison circuit 37 and with the sixth input of the data transmission unit to the product customer 51, the output of the twenty-first shaper the signal 35 is connected to the second input of the fifth signal indicator 36, with the second input of the seventh comparison circuit 41 and with the tenth input of the data transmission unit to the product customer 51, the output of the unit price signal real of frozen broiler meat from the time the broiler rearing process ends to the broiler meat storage time expiration time 19 is connected to the connection of the first inputs of the tenth and eleventh signal conditioners 20 and 22, the output of the setter of the period of the maximum allowable time for storing broiler meat in a cooled state 17 through the second adder 18 is connected to the connection of the second inputs of the tenth and eleventh signal conditioner 20 and 22, the outputs of the third, fourth, fifth, sixth, seventh comparison circuits 37, 38, 39, 40, 41 are connected to the corresponding first inputs of the second, third, fourth, fifth, sixth managed key 42, 43, 44, 45, 46, the second inputs and outputs of which are connected to the corresponding outputs of the fifth block of signal setters of the customer’s request signals for meat sales broilers 47 and with corresponding inputs of an executive element for shutting down technological equipment or a power switch with an "OR" circuit with five inputs at the input of switch 48, the input and output of which are connected respectively to the output of the source the power supply of the technological equipment of the house 49 and to the entrance of the electrified technological equipment of the house 50, the output of the data transfer unit to the product customer 51 through the information transfer and reception unit of the product customer 52 is connected to the input of the fifth unit of signal pickers of the product customer's requests for the sale of broiler meat 47.

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 objects. 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. Using a periodic time scan in block 8, a simulation of all the FIGS. 1 graphic dependencies. The actions of all elements of the device circuit are described in detail in the explanations to FIG. 1 and to FIG. 2. Thanks to this modeling, the transition from the normalized feeding mode to the limited feeding regime is controlled at the economically best point in time. In the control unit 10, a signal is generated for the economically optimal moment of broiler growing time T _opt ^cooling , corresponding to the highest production profit P _opt , and starting from this moment, the first profit adder 13 is added to the time function of the estimated profit 13 (seventh signal shaper of the dependence of production profit with limited feeding P _ogr in a period of time (T _max ^prod- T _opt ^okhl )) the signal of time dependence of feed mixture cost saving generated in element 8 with limited feeding, i.e. signal of the magnitude of the dependence of the change (decrease) in feed costs with limited feeding ΔЗ _feed ^ogre .

At the same time, it is the technical comprehensive and technical and economic efficiency of poultry feeding processes in the industrial poultry industry that significantly increases for the product manufacturer, taking into account the economic needs of the broiler poultry distribution network.

Claims (1)

A device for economically optimal control of the production and sale of broiler poultry products, containing a broiler average live weight sensor per broiler, a broiler live signal of the smallest live weight, a broiler live signal of the highest broiler live weight, the first comparison circuit, the second comparison circuit, the first signal generator of the time moment of achievement the smallest value of the live weight of the broiler, the second driver of the signal of the moment in time to achieve the highest value of the live weight of the broiler, the first block of feed mixture flow sensors, namely a capacitive or continuous flow meter, electric energy consumption, heat energy consumption, signal generators for the specific market price of poultry meat, the specific market price of electric energy, the specific market price of thermal energy, the salary of maintenance and management personnel, transportation costs depreciation deductions for capital investments in buildings and equipment, deductions for repairs of buildings and equipment, deductions for renovation of buildings and equipment, deductions a compression unit or a third signal conditioner of the optimal dependence of production profit on the time of the broiler growing process during their normal feeding, a control unit or a fourth signal conditioner of the economically optimal moment of broiler growth corresponding to the highest production profit, the output of the broiler average live weight sensor is connected to the input of the first sensor block and with the inputs of the first and second comparison circuits, to the second inputs of which the outputs are connected, respectively the signal of the smallest and largest values of the live weight of the broiler, the outputs of the first and second comparison circuits, respectively, through the first and second signal conditioner of the time to reach the minimum live weight of the broiler are connected to the first and second input of the computing unit, to the third input of which the output of the first sensor unit is connected , the output of the computing unit is connected to the input of the control unit, characterized in that a subtraction element or a fifth time period signal shaper is introduced into the device nor, the sixth shaper of the signal of the dependence of changes in feed costs with limited feeding, the first adder or the seventh shaper of the signal of the dependence of production profit with limited feeding, the signal generator of the unit price of the chilled meat of broilers, the first controlled key with two control inputs or the eighth signal generator of the unit price of sales chilled broiler meat, ninth signal conditioner, setter for the period of the maximum allowable storage time of broiler meat in cooling state, the second adder, signal generator of the unit price of the sale of frozen broiler meat from the time of completion of the broiler growing process to the time of the expiration of broiler meat, the tenth signal conditioner, eleventh signal conditioner, twelfth signal conditioner, thirteenth signal conditioner, fourteenth signal conditioner, first signal indicator, fifteenth signal conditioner, sixteenth signal conditioner, second signal indicator, seventeen seventh signal conditioner, eighteenth signal conditioner, third signal indicator, nineteenth signal conditioner, twentieth signal conditioner, fourth signal indicator, twenty-first signal conditioner, fifth signal indicator, third, fourth, fifth, sixth, seventh comparison circuit, second, third, fourth , fifth, sixth controlled key, fifth block of signal setters for customer requests for the sale of broiler meat, an executive element for shutting down technological equipment on or off power supply house with an OR circuit with five inputs at the circuit breaker input, a power supply source for the poultry house processing equipment, an electrified poultry house processing equipment, a data transmission unit to the product customer, a customer information transfer and reception unit, the output of the control unit connected to the input of the subtraction element, to the connection the first inputs of the twenty-first signal conditioner and the fifth signal indicator and to the fifth input of the data transmission unit to the customer of the product, the second input and output element and the subtractions are connected respectively to the connection of the second input of the computing unit, the first input of the first managed key with two control inputs, the first input of the eleventh signal conditioner and the input of the sixth signal conditioner depending on the cost of feed with limited feeding, the second, third inputs and the output of the first managed key with two control inputs are connected respectively to the first input of the computing unit, with the output of the signal setter of the unit selling price of chilled meat broilers, with the fourth input of the computing unit, the output of the first sensor unit is additionally connected to the first inputs of the fourteenth, sixteenth, eighteenth, twentieth, twenty-first signal conditioners, the output of the broiler average live weight sensor through the herd is additionally connected to the first inputs of the third, fourth, fifth, sixth , the seventh comparison circuit, the output of the sixth signal conditioner of the dependence of changes in feed costs with limited feeding is connected to the first input of the first adder, the second input and output for which are connected respectively to the connection of the output of the computing unit, the first inputs of the ninth, nineteenth, eleventh, thirteenth, sixteenth signal conditioner and the connection of the second input of the ninth signal conditioner and the first input of the tenth signal conditioner, the output of the ninth signal conditioner is connected to the second input of the nineteenth signal conditioner, the output of which is connected to the connection of the second inputs of the twentieth signal conditioner and the fourth signal indicator and to the fourth input data transmission unit to the customer, the output of the twentieth signal conditioner is connected to the first input of the fourth signal indicator, to the second input of the sixth comparison circuit and to the ninth input of the data transmission unit to the customer, the output of the tenth signal conditioner is connected to the input of the seventeenth signal conditioner, the output of which is connected to the second the inputs of the eighteenth signal conditioner and the third signal indicator and with the third input of the data transmission unit to the product customer, the output of the eighteenth form For the signal, it is connected to the first input of the third signal indicator, with the second input of the fifth comparison circuit and with the eighth input of the data transmission unit to the customer, the output of the eleventh signal conditioner is connected to the first input of the fifteenth signal conditioner, the output of which is connected to the second inputs of the sixteenth signal conditioner, second indicator signals and with the second input of the data transmission unit to the product customer, the output of the sixteenth signal conditioner is connected to the first input of the second signal indicator, with by the fourth input of the fourth comparison circuit and with the seventh input of the data transmission unit to the product customer, the output of the twelfth signal conditioner is connected to the second input of the thirteenth signal conditioner, the output of which is connected to the second inputs of the fourteenth signal conditioner, the first signal indicator and the first input of the data transmission unit to the customer, the output of the fourteenth signal conditioner is connected to the first input of the first signal indicator, to the second input of the third comparison circuit and to the sixth input of the ne transmitting data to the product customer, the output of the twenty-first signal conditioner is connected to the second input of the fifth signal indicator, to the second input of the seventh comparison circuit and to the tenth input of the data transmission unit to the product customer, the output of the signal price unit of the selling price of frozen broilers from the time the broiler rearing process is completed at the point in time of the expiration of the broiler meat is connected to the connection of the first inputs of the tenth and eleventh signal conditioner, the output of the setter is the iodine of the longest allowed storage time for broiler meat through a second adder is connected to the connection of the second inputs of the tenth and eleventh signal conditioner, the outputs of the third, fourth, fifth, sixth, seventh comparison circuits are connected to the corresponding first inputs of the second, third, fourth, fifth, sixth a controlled key, the second inputs and outputs of which are connected to the corresponding outputs of the fifth block of signal sets of the customer’s request signals for the sale of broiler meat and, respectively the existing inputs of the shutdown executive element of technological equipment, namely, the power switch with an OR circuit with five inputs at the input of the switch, the input and output of which are connected respectively to the output of the power source of the technological equipment of the house and to the input of the electrified technological equipment of the house, the output of the data transmission unit to the customer products through the unit for receiving and transmitting customer information products connected to the input of the fifth block of signal sets request in the customer's product for the implementation of broiler meat.

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