RU2000105949A - METHOD AND DEVICE FOR CONTROL OF LIQUID EXPENDITURE AND METHOD AND DEVICE FOR CONTROL OF VARNISH CONSUMPTION TO CANNED BANK - Google Patents

Claims (33)

1. The method of controlling the flow rate of the liquid applied to the product (2) in the coating module (3) associated with the fluid reservoir (14) through an intermediate reservoir (8) having an inlet pipe (15) connected to the reservoir (14), and a feed pipe (7) connected to the specified module 3 coating, and in the inlet pipe (15), with the possibility of transition from closed to open position and back, a valve (17) is installed, including the operation of: intermittent transfer of the specified valve (17) from said open to said closed position, closed allowing liquid to enter the indicated container (8) and providing lowering of the liquid surface level in it from the upper level (A) to the lower level (B), intermittent transfer of the indicated valve (17) from the specified closed to the indicated open position, which allows the liquid to reach the specified capacity (8) and providing an increase in the level of the liquid surface in it from the lower level (B) to the upper level (A), determine the first value characterizing the change in the level of the specified liquid in the specified capacity, and calculate the fluid flow rate one product using the specified value, characterized in that the measurement, by means of a flow meter (16) associated with the specified inlet pipe (15), the amount of the specified liquid entering the specified container (8), count the number of products (2), which specified liquid is applied in said coating module (3), the first value is determined as the total amount of said liquid passed through the flow meter (16) during the time interval between two consecutive transitions of the specified surface dye to the only one of the indicated levels (A, B), they calculate the second value corresponding to the total number of products (2), on which the specified liquid is applied during the same time interval, while the calculation of the fluid flow rate per one product is carried out by dividing the first specified value to the second specified value.  2. The method according to p. 1, characterized in that the specified single level corresponds to the specified lower level (B).  3. The method according to p. 1, characterized in that the specified single level corresponds to the specified upper level (A).  4. The method according to any one of paragraphs. 1-3, characterized in that it further provides operations for determining the position of the specified valve (17) and setting the specified upper and lower levels (A, B) based on the transitions of the specified valve (17) to the specified closed and open positions, respectively.  5. A method according to any one of the preceding paragraphs, characterized in that it further comprises an operation for controlling the opening of said valve (17) based on a level signal from a level sensor (19) associated with said capacity.  6. A method according to any one of the preceding paragraphs, characterized in that it further comprises the operation of controlling the closing of said valve (17) based on a level signal from a level sensor (19) associated with said capacity.  7. The method according to any one of paragraphs. 1-5, characterized in that it further provides the operation of controlling the closing of the specified valve (17), when a predetermined amount of the specified liquid passes through the flow meter (16).  8. A method according to any one of the preceding paragraphs, characterized in that it further comprises the step of supplying a specified flow rate of said liquid to one product to display means (36, 37) to display in a graphical form a sequence of the indicated fluid flow values.  9. The method according to p. 8, characterized in that it further includes the operation of displaying boundary values for the specified fluid flow rate per product as part of the specified display in graphical form.  10. The method according to p. 9, characterized in that it further includes the operation of extracting the specified boundary values from the database, taking into account the type of product and / or liquid.  11. The method according to any one of the preceding paragraphs, characterized in that it further comprises the steps of calculating the difference between two successively calculated first values and transmitting the specified difference to the display means (36, 37) for display.  12. The method according to p. 4, characterized in that it further provides, before calculating the specified first value, the operation of maintaining a delay time of about 5-10 s, after the valve (17) has moved to the closed position.  13. The method according to p. 8, characterized in that it further comprises the step of continuously bringing the viscosity of said liquid in said container (8) to a predetermined value using a viscosity control unit (25) hydraulically connected to said container (8), moreover, if said the viscosity control unit (25) does not provide satisfactory control of the indicated viscosity; a warning signal is generated that is applied to the indicated display means (36, 37) in the form of a visible change in the corresponding value of the liquid flow rate bones in the specified graphic display.  14. The method according to any one of the preceding paragraphs, characterized in that it further includes the operation of transmitting the specified value of the fluid flow rate per product to the host computer (40) for storage.  15. The method of controlling the consumption of varnish on one can in the module (3) coating, associated with the tank (14) of varnish, equipped with an inlet pipe (15) for supplying varnish, in equipment for the production of cans, characterized in that it includes the following operations : intermittent translation of the valve (17) installed in the inlet pipe (15) from closed to open position, allowing varnish to be accessed into an intermediate container (8) connected by a supply pipe (7) to the specified coating module 3 and to increase the level in it surface liquid from the lower level (B) to the upper level (A), measurement, by means of a flow meter (16) associated with the specified inlet pipe (15), the amount of the specified liquid entering the specified container (8), counting the number of products (2) to which the specified liquid is applied in the specified coating module (3), calculating the first value corresponding to the total amount of the specified liquid passing the specified flow meter (16) during the time interval between two consecutive transitions of the specified liquid surface to a single one of the indicated levels (A, B), the calculation of the second value corresponding to the total number of products (2) on which the specified varnish was applied during the same time interval, and the calculation of the varnish consumption for one product by dividing the first indicated value by the second indicated value.  16. The method according to p. 15, characterized in that it further comprises the steps of determining the position of said valve (17) and setting said upper and lower levels (A, B) based on the transitions of said valve (17) to said closed and open positions, respectively. 17. The method according to p. 16, characterized in that said calculation operations further include:
a) waiting for the moment of closing the specified valve (17),
b) reading from the means (34) for calculating the flow associated with the specified flow meter (16), with the valve (17) in the closed position, the first value of the flow and reading from the means (32, 33) for counting the number of cans for which in the specified module ( 3) coating the specified varnish, the first number of cans,
c) waiting for the moment of opening the specified valve (17),
g) waiting for the moment of closing the specified valve (17),
e) with the valve (17) in the closed position, reading from the indicated means (34) for calculating the flow of the second flow value and reading from the indicated means (32, 33) for calculating the second number of cans, calculating the indicated first value corresponding to the difference between the indicated flow values, calculation the specified second value corresponding to the difference between the indicated numbers of cans, calculating the value of the varnish consumption per product by dividing the specified first value by the specified second value, and repeating operations (c) - (e) using It seemed the second value as the flow of said first stream and said second values of both cans of said first number of cans. 18. The method according to p. 16, characterized in that said calculation operations further include:
a) waiting for the moment of opening the specified valve (17),
b) reading from the means (34) for calculating the flow associated with the specified flow meter (16), with the valve (17) in the open position, the first value of the flow and reading from the means (32, 33) for counting the number of cans for which in the specified module ( 3) coating the specified varnish, the first number of cans,
c) waiting for the moment of closing said valve (17),
d) reading from said means (34) of the calculation of the flow, with the valve (17) in the closed position, the second value of the flow,
d) waiting for the moment of opening the specified valve (17),
f) with the valve (17) in the open position, reading from the indicated means (32, 33) the calculation of the second number of cans, calculating the indicated first value corresponding to the difference between the indicated flow values, calculating the specified second value corresponding to the difference between the indicated numbers of cans, calculating the value varnish consumption per product by dividing the specified first value by the specified second value, and repeating steps (c) - (e) using the specified second flow value as the specified first flow value and y the indicated second number of cans as the indicated first number of cans. 19. The method according to p. 16, characterized in that said calculation operations further include:
a) waiting for the moment of opening the specified valve (17),
b) reading from the means (34) for calculating the flow associated with the specified flow meter (16), with the valve (17) in the open position, the first value of the flow and reading from the means (32, 33) for counting the number of cans for which in the specified module ( 3) coating the specified varnish, the first number of cans,
c) reading from said means (34) of calculating a stream of a second stream value and calculating a difference between said first and second stream values,
d) repeating the operation (c) until the indicated difference becomes equal to the specified value,
e) closing said valve (17),
e) waiting for the moment of opening the specified valve (17),
g) with the valve (17) in the open position, reading from the indicated means (32, 33) the calculation of the second number of cans, calculating the specified second value corresponding to the difference between the indicated numbers of cans, calculating the value of the varnish consumption per product by dividing the specified first value by the specified a second value, and repeating steps (c) to (g) using the indicated second stream value as the indicated first stream value and the indicated second number of cans as the indicated first number of cans.  20. A device for controlling the flow rate of liquid applied to articles (2) in a coating module (3), comprising: a container (8) for intermediate storage of said liquid connected to said module by a supply pipe (7), means (15 ') for feeding the specified liquid from the reservoir (14) of the liquid into the specified container (8) through the inlet pipe (15), a valve (17) installed in the specified inlet pipe (15) with the possibility of transition from a closed to an open position and back, processing means (35) data, characterized in that it further comprises: a tool (32, 33) counting the number of products (2) on which the specified liquid is applied in the specified coating module (3), and thereby obtaining data on the number of products, means (13) for supplying the specified liquid from the specified container (8) through the supply pipe (7) to said coating module (3), a valve control unit (22) configured to provide an intermittent translation of said valve (17) from said closed to said open position, allowing fluid to enter said tank (8) and providing an increase in her ur the surface of the liquid from the lower level (B) to the upper level (A), a flow meter (16) connected to the specified inlet pipe (15) to measure the amount of the specified liquid entering the specified container (8) and thereby provide data on the flow of the specified liquid, while said means (35) of data processing are adapted to exchange data with said means (32, 33) of counting, indicated by a valve (17) and said flowmeter (16), and performs, based on said flow data and said data on number of products matching the time interval between two consecutive transitions of the specified valve (17) to the only one of the indicated positions, the calculation of the total amount of the specified liquid, passed the flow meter (16) during the specified time interval, and the total number of products (2), on which during the specified time interval is applied the specified liquid, with the subsequent calculation of the fluid flow rate per product by dividing the specified total amount by the specified total number.  21. The device according to p. 20, characterized in that the valve (17) is equipped with a valve position sensor (18) configured to supply an output signal to said processing means (35) indicating the transition of said valve (17) to said closed position.  22. The device according to p. 20 or 21, characterized in that said single position is the closed position of said valve (17).  23. The device according to p. 20 or 21, characterized in that said single position is the open position of said valve (17).  24. The device according to any one of paragraphs. 20-23, characterized in that it further comprises a level sensor (19) associated with the indicated container (8) to indicate at least the specified upper level (A) is reached, wherein said valve control unit (22) is associated with said level sensor (19) and is configured to ensure that said valve (17) is moved to said closed position when said level sensor (19) indicates that said upper level (A) has been reached.  25. The device according to any one of paragraphs. 20-24, characterized in that it further comprises a level sensor (19) to indicate at least the specified lower level (B) is reached, wherein said valve control unit (22) is connected to said level sensor (19) and is made with the possibility of ensuring the transfer of the specified valve (17) to the specified open position when the specified level sensor (19) indicates the achievement of the specified lower level (B).  26. The device according to any one of paragraphs. 20-24, characterized in that said valve control unit (22) is additionally connected to said data processing means (35) and is configured to enable said valve (17) to be moved to said closed position when a predetermined flow meter (16) passes the amount of fluid indicated.  27. The device according to any one of paragraphs. 20-26, characterized in that said valve (17) is installed downstream of said flowmeter (16) and in the immediate vicinity of the tank (8).  28. The device according to any one of paragraphs. 20-27, characterized in that in the specified container (8) a mixing unit is installed for continuous mixing of the liquid in the specified container (8).  29. The device according to any one of paragraphs. 20-28, characterized in that it further comprises display means (36, 37) associated with said data processing means (35), said data processing means (35) being capable of discrete feeding to said display means (36, 37 ) the specified calculated value of fluid flow per product to display a sequence of these values in graphical form.  30. The device according to any one of paragraphs. 20-29, characterized in that in the specified means (35) of data processing, boundary values are entered for the indicated value of the fluid flow rate per product, while the indicated means (35) of data processing is configured to issue a warning visual and / or audio signal when the specified the fluid flow rate per product goes beyond the specified boundary values.  31. The device according to any one of paragraphs. 20-30, characterized in that it further comprises a viscosity control unit (25) hydraulically connected to the indicated container (8) for continuous monitoring and control of the viscosity of the liquid in the indicated container, while said data processing means (35) are connected to the indicated block ( 25) viscosity control and is configured to issue a warning visual and / or audio signal when said viscosity control unit (25) indicates a defect in controlling said viscosity.  32. The device according to any one of paragraphs. 20-31, characterized in that the data processing means (35) comprises a computer-readable medium on which a computer program is provided providing said communication, with the possibility of exchanging data, with said means (32, 33) of counting, said valve (17) and said a flow meter (16), as well as the performance of these calculations.  33. A device for monitoring the consumption of varnish on one can in the module (3) coating in equipment for the production of cans, characterized in that it contains: means (32, 33) for counting the number of products (2) for which in the specified module (3 ) coating the specified liquid is applied, thereby obtaining data on the number of products, a container (8) for intermediate storage of the specified varnish, means (15 ') for supplying the specified varnish from the tank (14) of varnish to the specified container (8) through the inlet pipe (15), means (13) for supplying said varnish from the specified capacity (8) through the supply pipe (7) to the specified coating module (3), the valve (17) installed in the specified inlet pipe (15) with the possibility of transition from closed to open position and back, valve control unit (22) made with the possibility of providing intermittent transfer of the specified valve (17) from the specified closed to the specified open position, which allows the varnish to access the specified container (8) and provides an increase in the level of the surface of the varnish from the lower level (B) to the upper level (A), flow meter (16) data with the specified inlet pipe (15) for measuring the amount of the specified varnish entering the specified container (8), and thereby providing data on the flow of the specified varnish, and data processing means (35) for exchanging data with the indicated means (32, 33) the counting indicated by the valve (17) and the indicated flow meter (16), while the indicated data processing means (35), based on the specified flow data and the indicated data on the number of products corresponding to the time interval between two consecutive transitions of the specified valve (17) in unity one of these provisions calculates the total amount of the specified varnish that has passed the flow meter (16) during the specified time interval, and the total number of products (2) on which the specified varnish is applied during the specified time interval, followed by the calculation of the varnish consumption per product by dividing the indicated total quantity by the indicated total number.