RU2126623C1 - Automatic control station for regulating fish and crustaceous reproduction and rearing processes - Google Patents

Abstract

FIELD: production of larvae, growing of fish and crustaceous to commercial weight. SUBSTANCE: control station has temperature control unit with temperature sensor and two control channels, water level regulating unit and power unit, degree/hour counting unit and unit for measuring ion activity by medium reaction factor. Temperature control unit is designed to provide constant channels temperature difference of 0.4 C within the range of 4-38 C. Water heater switch relay is positioned at output of each channel. Degree/hour counting unit is connected to related output of temperature control unit and has ones, dozens, hundreds and thousands degree/hour channels. Hundreds and thousands degree/hour counting units are connected through related decoders to inputs of coincidence circuit, whose output is connected through power amplifier to aerator switch relay. Ion activity measuring unit switches medium reaction sensor, amplifier, comparator, power amplifier and chemical reactant supply actuating relay, which are connected in series, through medium reaction indicator. Amplifier is connected to related indicator. Control station may be connected to computer. Such construction provides precise keeping conditions required for successful reproduction of hydrobionts. EFFECT: increased efficiency and precision in conducting required processes, wider operational capabilities, provision for automatic controlling of values with minimum controlling by maintenance personnel. 2 cl, 1 dwg

Description

 The invention relates to the field of automation of control systems for fish farming processes and is intended to control the processes of obtaining larvae, their rearing and rearing fish and crustaceans to marketable weight with a certain accuracy of maintaining the regimes necessary for the reproduction of aquatic organisms.

 A known installation for receiving and growing larvae of fish and crustaceans (1), including tanks for receiving and growing larvae, two main and two additional consumables for water purification, in which are placed blocks for adjusting the water level and temperature with a temperature sensor and two control channels, sensors of oxygen and pH of the aquatic environment, as well as an automatic monitoring and control station.

 The temperature mode is ensured by a standard device - the KSM4 bridge, equipped with two channels for controlling two water heaters, which makes it possible to repair one of the water heaters without interruptions in thermal control. Two water heaters operate at one set temperature. To control the oxygen content, the device is equipped with a standard K215 oxygen meter, working from the sensor in conjunction with a standard bridge KSP4 recorder, giving a signal to turn on aeration. To control the pH of the medium, the installation is equipped with a P201 pH meter, the control is carried out visually. The installation has sensors for adjusting the water level (prototype).

The disadvantages of this installation are:
1. The use of the KSM4 device, which has a setpoint scale that does not correspond to the division price, is a rough scale that does not allow the set temperature to be set with the necessary accuracy and is carried out practically by eye. Constant monitoring and adjustment of temperature by the operator is required. The KSM4 device is laid off.

 2. To control the oxygen content, the device is equipped with a K215 oxygen meter operating from the sensor in conjunction with a bridge with a KSP4 recorder with a signal to turn on aeration. The oxygen sensor is not designed to work in a biological environment, so its ion-selective membrane is quickly contaminated and the device gives false readings, this leads to unreasonable energy consumption during operation of the aerator.

 3. The bulkiness of the structure, metal consumption, high energy consumption, the inability to automatically adjust the pH of the aqueous medium and the accuracy of maintaining the remaining parameters of the environment.

 The aim of the present invention is to increase the efficiency and accuracy of the process, ease of use, expanding the ability to automatically control with minimal control by the staff, the ability to automatically adjust all indicators: temperature, oxygen, the content of the selected indicators of ion activity through the reaction rate of the medium (p), the level of the aquatic environment, taking into account the degree hours reported to the biological object during the incubation process, the inclusion of aerators at the appropriate tadii development, the exact determination of the amount gradusochasov taken object for the entire incubation cycle.

This goal is achieved by the fact that the station includes a temperature control unit with a temperature sensor and two control channels, a water level control unit, a power supply unit, a counter for calculating the hourly clock and a unit for measuring ion activity through a medium reaction indicator, while the temperature control unit is configured to provide a constant the channel difference in temperature by 0.4 ^o C in the range of 4 - 38 ^o C and at the output of each channel there is a relay for turning on the water heater, the input of the unit for calculating the hours is connected with the corresponding the output of the temperature control unit and includes channels of units, tens, hundreds and thousands of degrees, each of which is made in the form of a sequentially connected counter, decoder and digital indicator, while the outputs of the counters of hundreds and thousands of hours are connected to the inputs of the matching circuit by means of corresponding decoders and adjusters, the output of which by means of a power amplifier is connected to the relay switch on the aerator, the unit for measuring ion activity through a medium reaction indicator includes series-connected tchik reaction medium, an amplifier, a comparator, a power amplifier and the output relay entering the chemical reagent, the output of the amplifier is connected to the corresponding display unit; the station is configured to output information to a computer. Comparison of the prototype with the inventive device shows that the latter meets the criterion of "novelty."

 When searching for these distinguishing features in other technical solutions related to devices for controlling technological processes of incubation of fish and crustaceans, as well as growing a mask and growing them to marketable weight, these were not found, i.e. the solution meets the criterion of "inventive step".

The achievement of a positive effect according to the purpose of the present invention is provided by the following:
1. The monoblock combines all the necessary elements (electronic components) for controlling the parameters of the aquatic environment: temperature, ion activity indicator, adjustment of the water level, counting of hours.

2. The temperature control unit allows you to maintain the temperature with an accuracy of +0.1 ^o C in the range from 4 to 38 ^o C due to the 2-channel control, which includes two water heaters with a channel difference in temperature of +0.4 ^o C. This allows you to reserve channels, repair automation of the 1st or 2nd channels, or both at the same time.

 3. The presence of a unit for calculating the degree hours, designed to work up to 20 days depending on the temperature of the water, allows you to abandon constant monitoring of the oxygen content in the aquatic environment.

 4. The unit for measuring the activity of ions through an indicator of the reaction of the aqueous medium (p) can be used to determine any indicators using replaceable ion-selective sensors with a signal for the introduction of reagents in an electromechanical way to correct the medium.

 In FIG. 1 shows a block diagram of a proposed station.

The station contains a temperature control unit, consisting of a sensor ^o C1, amplifiers 2 and 3, indicating device 4, a tensor ^o C5, a unit finder ^o C6, a tenth unit ^o C7, a comparator of the first channel 8, a power amplifier of the first channel 9 , the executive relay of the 1st channel 10, giving the command to turn on the corresponding water heater, the comparator of the 2nd channel 11, the power amplifier of the 2nd channel 12 and the executive relay of the 2nd channel 13 associated with the corresponding water heater. The second channel differs from the first in that its temperature is 0.4 ^o C higher than that of the first channel in the entire temperature adjustment range - from 4 ^o C to 38 ^o C. For greater accuracy of temperature control, the entire range is 4 - 38 ^o C divided into three subranges:
the setter 5 selects a temperature of tens of degrees - 0, 10, 20, 30 ... ^o C;
the setter 6 selects the temperature of units of degrees - 0, 1, 2, 3 ... 10 ^o C;
the setter 7 selects the temperature of tenths of a degree - 0; 0.2; 0.4; 0.6; 0.8 ... 1.0 ^o C with a resolution of 0.2 ^o C with a maintenance accuracy of +0.1 ^o C.

 The total temperature set is 5 - 7 setpoints and makes up the set temperature. The input of the clock counter is connected to the corresponding output of the temperature control block and consists of an ADC 14, a frequency divider 15, a counter of units of a clock of 16, a decoder of units of a clock of 17, a counter of units of a clock of 18, a counter of tens of hours of a clock 19, a decoder of tens of hours of 20, an indicator of tens of hours of 21 , a counter of hundreds of degrees of hours 22, a decoder of hundreds of hours of hours 23, an indicator of hundreds of hours of 24, a counter of thousands of hours of 25, a decoder of thousands of hours 26, an indicator of thousands of hours 27, hundreds of clocks 28, hundreds of clocks 29, thousands of clocks 30, thousands of clocks 31, the outputs of hundreds and thousands of hours through the corresponding decoders and switches connected to the inputs of matching circuit 32, the output of which is connected via an power amplifier 33 to the executive relay inclusion of aeration 34.

The range of degrees from 0 to 9999 is divided into two subranges:
1. sub-range 0 - 900 degrees hours - dial 29;
2 sub-range 1000 - 9999 degree hours - dial 31.

 In addition, the unit contains a manual clock dial button, which is used to set the initial value of the degree clock if it is necessary to receive a signal to turn on aeration for small degrees of clock. The choice of the number of degrees hours can be any. A set of degree hours is made similar to a set of temperature.

The ion activity measuring unit through the reaction rate of the medium (p) includes a series-connected interchangeable sensor 35, an amplifier 36 showing the device 37, while the output of the amplifier 36 is connected to the corresponding indicating device 37, a comparator 38, a power amplifier 39, an actuating relay for introducing chemical reagent 40 In ionometry, ion activity is often expressed in terms of p, which is the negative logarithm of activity. As a recording device, any pH meter or millivoltmeter with a high input resistance and a satisfactory scale division value is suitable (2). This principle is laid in the design of this unit. The unit is designed to work with interchangeable standard sensors manufactured by the industry: EM-NH ₄ , EM-NO ₃ , EM-K-01, EM-CO-01 and others. The readings are displayed on a indicating device calibrated in various p values with corresponding graduated scales.

 The water level control unit consists of a float magnet 42, which includes reed switches of the lower and upper water levels, which are sealed in a glass tube, and an actuating relay 43.

 The power supply unit operates from an alternating current network of 220 V, frequency 50 Hz and provides all the necessary voltages for the station, is a replaceable unit.

 The station is a monoblock, on the front panel of which are located all the controls, control and indication of the operation of the blocks, showing temperature instruments, ion activity through the indicator p, a digital indicator for calculating the degree hours.

 All blocks are made in the form of cassettes with cutting blocks.

 On the rear panel are connectors for sensors, control circuits of executive devices, a power cord for connecting to a network, and grounding terminals.

 The station operates as follows.

 The temperature sensor 1 is connected to a two-stage voltage amplifier 2, 3, which is loaded with a indicating device 4 to the settings 5, 6, 7 of the subbands 1, 2, 3, respectively.

 The dial is three switches to select the desired temperature.

On the 1st sub-band 5, the temperature 0, 10, 20, 30 ... ^o C is selected, on the 2nd sub-band 6, the temperature 0, 1, 2, 3 ... 10 ^o C is selected, on the 3rd sub-band 7 is selected temperature 0; 0.2; 0.4; 0.6; 0.8 ... 1.0 ^o C. With a sub-band adjuster of 5, 6, 7, the voltage is supplied to the comparator of the 1st channel 8, to the power amplifier 9 and to the executive relay 10. In parallel with the contacts of the relay 10, the toggle switch VK1, which serves to manual control of the water heater of the 1st channel.

From the setpoint sub-bands 5, 6, 7, the voltage is supplied to the comparator 11 of the 2nd channel, but through the installation resistance of 0.4 ^o C, which creates a difference in temperature between the 1st and 2nd channels +0.4 ^o C the entire range from 4 to 38 ^o C.

 This allows you to reserve channels, create flexibility in the work, independence of the channels from each other, repair the 1st or 2nd channels, the 2nd channel is backup and turns on when the 1st channel fails, lack of power of the 1st channel and repair work on the heater of the 1st channel.

 From the comparator 11 of the 2nd channel, the voltage is supplied to the power amplifier 12 and to the executive relay 13, in parallel with the contacts of the relay 13, the toggle switch VK2 is turned on to manually turn on the heater of the 2nd channel.

Turning water heaters on and off is indicated by a light alarm, and water temperature readings are displayed on a indicating device calibrated from 0 to 40 ^o C with a division value of 0.2 ^o C.

 The temperature control unit is also designed to work in the temperature lowering mode together with the refrigeration unit.

 Block control in this case is performed in the reverse order.

 The degree hour counter calculates the reported temperature of the aquatic environment times the time. Upon reaching the set clock degrees with the actual achievement of the clock hours, aeration is switched on.

 From amplifier 3, the voltage is supplied to the unit for calculating the clock for the ADC 14, the frequency divider 15, the counter for the units of the clock 16, the decoder of the units for the clock 17 and the digital indicator of the units for the clock 18. From the frequency divider 15, the signals respectively arrive at the counters, decoders and indicators: tens of hours 19 , 20, 21, hundreds of degrees of hours 22, 23, 24 and thousands of degrees of hours 25, 26, 27. Decoders of hundreds of 28 and thousands of 30 degrees of hours are connected to the outputs of the counters of hundreds of 22 and thousands of 25 degrees of hours, and then to the dial 29 of the 1st sub-band 100 - 900 degrees and and setpoint February 31 th sub-band 1000 - 9999 Zadatchik made similar temperature reference element. Using the adjusters 29 and 31, the required number of degree hours is accumulated at which aeration is turned on (at the corresponding stage of embryogenesis for this species). The detectors are included in the match circuit 32, loaded on the power amplifier 33 and the actuating relay 34. When the relay 34 is activated, its contacts are blocked, creating a permanent aeration circuit, and the hour counter continues to record the degree hours. There is a lock reset button to reset this circuit. Parallel to the other relay contacts - the aeration control circuit includes a VK4 toggle switch for manual activation.

 The unit for measuring the activity of ions through an indicator of the reaction of the aqueous medium (p) works as follows.

The installation resistance R _mouth selects the indicator p, at the value of which the comparator 38, amplifier 39, and the executive relay 40 are activated and a signal is issued through the contact relay for the introduction of a chemical reagent into the aqueous medium. In parallel with the relay contacts, a VK3 toggle switch is turned on to manually turn on the chemical supply.

 The block is complex and can be used to measure and correct any indicators of ion activity through an indicator of the reaction of the aqueous medium, determined by the use of replaceable ion-selective sensors. Signal output is indicated by a light indication.

 The water level adjustment unit controls the working water level in the tank. When the float magnet 42 interacts with the reed switches, a chain is created to the control relay 43 with the water pump turned on or off.

 The power supply generates the necessary voltage for the station.

 If necessary, to document the technical process, information can be entered into a computer. The temperature regime is turned on at the input of analog information, taking it from the amplifier 3 with the introduction of the corresponding conversion factor into the computer program. The ion activity index p is entered into the computer in the same way as entering the temperature regime from the amplifier 36. The degree clock is switched on to the computer input in the mode of digital information from the frequency divider 15.

 The station is a low-current control device and is operated in conjunction with a power board, the circuit elements of which are selected according to the consumers' power (the power board is not indicated on the diagram).

 Thus, the combination of the above electronic components allows us not only to maintain, adjust and record the indicators of the aquatic environment, but also to evaluate the correctness of the process, the quality of the eggs and the condition of the producers. In addition, the station allows you to work out new technological processes in a wide range, as well as carry out documentation of the work performed.

Sources of information used in the examination
1. A.S. USSR, IPC A 01 K 61/00, N 16006566, 1988.

 2. Guidelines for the use of ion-selective electrodes for the rapid determination of ammonia and nitrate nitrogen in fishery water. M., VNIIPRH, 1986, p. eight.

Claims (2)

1. A station for automatic monitoring and control of the technological process of reproduction and rearing of fish and crustaceans, including a temperature control unit with a temperature sensor and two control channels, a water level control unit and a power supply unit, characterized in that it is additionally equipped with a degree clock counter and an activity measurement unit ions through the reaction rate of the medium, while the temperature control unit is configured to provide a constant channel temperature difference of 0.4 ^o C in the range 4 - 38 ^o C and at the output of each channel there is a water heater on relay, the input of the unit for calculating the hours is connected with the corresponding output of the temperature control unit and includes channels of units, tens, hundreds and thousands of degrees, each of which is made in the form of series-connected a counter, a decoder and a digital indicator, while the outputs of the counters of hundreds and thousands of hours are connected to the inputs of the matching circuit by means of corresponding decoders and a setter, by the amplifier the power is connected to the aerator ON relay, the ion activity measuring unit through a medium reaction indicator includes a series-connected medium reaction sensor, an amplifier, a comparator, a power amplifier, and an actuating chemical relay, and the amplifier output is connected to the corresponding device.  2. The station according to claim 1, characterized in that it is configured to output information to a computer.