SU830335A1 - Device for discrete dilution of liquid media - Google Patents

Description

a dose sensor of a diluent mechanically coupled to a diluent dispenser 2.

The disadvantage of this device is low accuracy, since multiple dilution of a liquid takes the whole mixture out of the cuvette. This leads to the fact that in order to maintain a high accuracy of dilution, the cuvette needs to be washed each time and inject a new dose of the technological preparation, and this requires a large consumption of the technological preparation and the long time required for washing. In addition, the functionality of this device is limited, since it does not allow to obtain a series of solutions with a given variable or constant dilution factor. The purpose of the invention is to improve the accuracy and enhance the functionality of the device.

This goal is achieved by introducing a serially connected pulse counter, a reference element, a logic unit, a first actuator, a second actuator, a position sensor, the output of which is connected to the input of the command unit and to the second inputs of the second actuator and the first actuator, the second output of which is connected to the second input of the logic unit, the third, the fourth and fifth inputs of which are connected to the corresponding But with the outputs of the chemical compound dose and diluent sensors and the second input of the command block, and the outputs, respectively, with the third drive input of the chemical compound dispenser, time relay, the first and second inputs of the pulse counter and the third drive input of the diluent meter drive, the third output of the command block is connected to the second input of the reference element.

FIG. 1 shows a functional diagram of a device for discrete dilution of liquid media; in fig. 2 - functional logic block.

The device for discrete dilution of liquid media contains a reservoir 1, a washing liquid, a shut-off element 2, a chemical compound reservoir 3, a chemical compound dispenser 4, a probe cassette 5, a compressor b, a diluent reservoir 7, a diluent dispenser 8, a command unit 9, a chemical compound dispenser 10 , sensor 11 doses of chemical compound, time relay 12, diluent dispenser drive 13, sensor 14 doses of diluent, pulse counter 15, comparison element 16, logic unit

17, first actuator

18, second actuator

19, the position sensor 20, the container 21 with the cells. The logic block has inputs 22-26 and outputs 27-32. The single line in the figure denotes the electrical connections, the double line denotes the pipelines, and the dashed line denotes the mechanical connections.

The logic block contains elements 33-36 AND, trigger 37, element 38 NOT and elements 39-40 OR. The probe cassette has three inlets (not shown in the drawing).

The operation of the device is considered on the example of ten-fold dilution of liquid media.

Claims (2)

The code of the number ten is supplied to the input of the comparison element 16 from the command block 9. When a signal starts from block 9 to input 25 of logic block 17, trigger 37 is set to one, and the first actuator 18 follows the same signal passing through element 40 OR | moves the probe cassette 5 to the upper position, then issues a signal to the second the actuator 19, which moves the container with cells 21 in the first position. According to the signal from the position sensor 20, the second actuator 19 brakes, and the first actuator 18 moves the probe cassette 5 down and outputs a potential signal to the input 23 of logic unit 17 to elements 34 and 35 I. At the output 29 of logic unit 17, the signal appears as At the other input of element 34, both the enable signal of the trigger 37 and the water of the 10 chemical batcher outputs one elemental dose of the initial solution of the chemical compound to the first row of cells of the container 21, and the sensor signal 11 doses of the chemical compound In the chemical compound dispenser drive 10, the unit is loaded into pulse pulse meter 15 through element 39 OR logic unit 17, the trigger 37 is set to the zero state, and using the same sensor signal 11 doses through element 40 OR the first actuator 18 moves the probe cartridge 5 up and outputs a pulse signal to move the container to the second actuator 19. The cell container 21 moves to the BTOpyw position, and according to a signal from the position sensor 20 second, the actuator 19 slows down and The first actuator 18 moves the probe cassette 5 down and delivers a potential signal to the inputs of elements 34 and 35 AND, while the output signal of element 35 AND appears is a potential signal, because the other input of this element allows the zero arm signal to pull 37. the signal of the input 28 of the logic unit 17 for starting the dispenser drive 13 of the diluent in the forward direction, which delivers the elementary doses of diluent into each cell of the first row of the container. When issuing each elementary dose, the pulse signal of the sensor 14 d through the element 39 OR carries a unit to the pulse counter 15. At the end of the issuance of nine elementary doses by the diluent dispenser 8, the contents of the pulse counter 15 are equal to ten (the unit was recorded earlier from the sensor 11 doses of chemical connection), at the output of the comparison element 16, a signal appears which, through element 38, does NOT prohibit elements 33 and 35 I, starts the time relay 12, which turns on the compressor 6, and the contents of the cells of the container 21 are mixed. At the end-time delay for moving the time relay 12, the compressor 6 is turned off and gives a signal to the diluent dispenser 13. This drive sucks in one elementary dose the liquid from the cells of the container 21. The diluent dose sensor 14 outputs a deceleration signal to the diluent drive 13 and through element 36 AND, element 40 OR and the first actuator 18 move the probe cartridge 5 upwards. The same signal through element 36 sets pulse counter 15 to zero, there is no match signal at the output of comparison element 16, and at the output of element 38 the resolving signal for elements 33 and 35 I does NOT reappear. Thus, in each cell The first row of container 21 contains about nine elementary doses of a solution of a chemical compound with a concentration, ten times less than the initial concentration. At the end of the upward movement of the probe cassette 5, the first actuator 18 outputs a signal to the second actuator 1 which moves the container with whose 21 to the third position, then the signal 19 of the position sensor slows down and the first actuator 18 moves the probe cassette a . the lower position, at which the mechanism 18 delivers a potential signal to the input 23 of the logic unit 17. By this signal, through element 35 And the nature of the diluent 13 is launched in the forward direction and gives out ten elementary doses to each cell of the second p Yes, the container 21. When the contents of the counter 15 is equal to ten and the output of the comparison element 16 is a signal that, through element 38 DOES NOT prohibit elements 33 and 35 I, time relay 12 starts, which turns on compressor 6, and the contents of the second cells p yes container mixed. At the end of the mixing time delay, the time relay 12 turns off the compressor 6 and issues a signal to the reversing drive of the diluent dispenser 13, which operates in the opposite direction, sucking one dose of liquid from each cell of the second row of the container. The 14 dose diluent sensor activates the deceleration signal to the diluent drive 13, the same signal through element 36 AND and element 40 OR and the first actuator 18 of the probe cassette 5 moves up and through element 34 And the pulse counter 15 is set to zero. Thus, each cell of the second row of container 21 contains nine elementary doses of a solution of a chemical compound with a concentration that is ten times smaller than the initial concentration. Further, the work of the device is similar to that described, and in the N-OM row of the container, the cells contain nine elementary doses of a solution of a chemical compound with a concentration 10 times less than the initial concentration. This ends the cycle, and when the next cell container arrives, the operation is similar to the operation in the first cycle. By using silicone tubes with different internal diameters and the same wall thickness as executive metering elements in the chemical compound dispenser 4 and the diluent dispenser 8, it is possible to change the value of the unit dose for each channel. Some technological processes require a series of solutions with a variable concentration factor. For this, command block 9 contains memory elements for the setpoint, specifying my; Comparison element 16, where the limit is changed in accordance with the location of the second actuator, mechanism 19 according to the signal coming into the command block 9 from the positioner 20. Washing of the chemical compound source and elements of the chemical compound dispenser 4 is carried out by the dispenser by the signal of the command unit 9 when the locking element 2 is opened. Thus, in the proposed device, the accuracy of the dilution is increased due to the fact that it does not accumulate from the amount of dilution and the accuracy of dilution is determined only by the accuracy of the delivery of elementary doses, which are read by pulse counter 15, and the dilution factor is set to the comparison element 16 quite definite (i.e. specified). In addition, the counter 15, the comparison element 16 of the logical block 17 and the elements 18–20, it is possible to expand the functionality of the device, since when these blocks are installed, the device can produce serial dilutions of the media through several channels with a given dilution ratio and with a different elemental dose value. . Apparatus of the Invention A device for discrete dilution of liquid media containing a series of washing liquid reservoir, a stop element, a chemical reservoir and a chemical compound dispenser, the outlet of which is connected to the first probe cassette, the second inlet of which is connected to the outlet of the compressor, and the third fitting through a diluent dispenser with a diluent reservoir, as well as a command unit, the first of which is connected to the second input of the locking element and to the first input ohm of the drive of the chemical compound dispenser, the second input of which is connected to the output of the chemical dose sensor of the chemical compound mechanically connected to the chemical connection dispenser, a time relay whose first output is connected to the compressor input and the second output to the first input of the diluent drive actuator connected to the output of a diluent dose sensor, mechanically connected to a diluent dispenser, characterized in that, in order to improve the accuracy and enhance the functionality of the device, it contains serially connected pulse counter, comparison element, logic unit, first actuator, second actuator, position sensor, the output of which is connected to the input of the command block and to the second inputs of the second actuator and first actuator, the second output of which is connected to the second input of logical unit, the third, fourth, and fifth inputs of which are connected respectively to the outputs of the dose sensors of the chemical compound and the diluent and to the second input of the commands and the outputs, respectively, with the third drive input of the chemical compound dispenser, the time relay input, the first and second inputs of the pulse counter and the third drive input of the diluent dispenser, the third output of the special unit is connected to the second input of the reference element. Sources of information taken into account in the examination 1. The author's certificate of the USSR 564541, cl. G 05 D 11/13, 1976. 2. The author's certificate of the USSR 567958, cl. G 01 F 13/00, 1976 (prototype).