COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY

Abstract

Describes a method for cotton mixes homogenization without categorizing bales in inventory, i.e., with no separation of bales into classes, whose main objective is to eliminate the large variability of cotton fiber quality for the spinning process resulted from data input concerning the quality of the mixes and inventories. With this method no categorization in inventory is required and more than 20 quality parameters can be controlled with no impact on the physical inventory management. The method is intended to solve problems in the production of cotton fibers relative to the variability among mixes, variability among the loads of the mixes and variability in the laydown of the bales resulting in cotton fiber with higher quality, as well this method presents an optimized logistics in the warehouse.

Claims

1. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY which makes the homogenization of the considerable variability of cotton fiber quality for the spinning process, and by working on the basis of quality data on bales contained in cotton piles, as well as the amount of classified bales, characterized by comprising method with the following stages: Split inventory in 15 sectors denominated piles (6); When unloading the cotton, store all the bales of the invoice (1) in the lowest pile (6) or in the pile with identical origin; After retrieving the quality of the bales (5) from the invoice (1), the data are informed to the spreadsheets or computer program and they are released for use in the mixes (8) without reallocating the bales in inventory; Form the total inventory with all the piles (6) that already have the quality of the bales (5); Register the amount of days that must control the variation in quality among mixes (24); Register tolerance (13) for each quality parameter among mixes; Create groups of piles GP (7) and associate each pile (6) to a particular GP (7); Calculate the Mix Inventory (MI) (8); Process the mix which comprises the steps: Step 1Plan the quality (9) for a given period; Step 2Prepare (10) the premix; Step 3Generate (11) mix from the premix (10); Step 4Calculate the minimum and maximum value (12) allowed in the mix; Step 5Include (14) the remaining (151) bales of the previous mix; Step 6Pick (16) the missing bales in inventory piles (152a) (152b); Step 7Report (18) bales to the spreadsheet or computer program; Step 8Select (19) (15c) the bales of the mix; Step 9Distribute (21) (15d) the bales of the mix in the production line; Step 10Separation (23) of the selected bales for the mix and laydown into the production line (26).

2. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by calculating the inventory mix (8) as follows form: Create one or more groups of piles GP (7), where each pile (6) form the cotton inventory is associated with a GP (7), and for each GP set the percentage of participation in the mix (% in the mix); Calculate the mix inventory MI (8) in quantity and quality, according to the groups of piles (GP) and their respective percentages.

3. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by creating the premix (10) with 50% more bales relative to the quantity of the mix (24) bales.

4. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 3, characterized by 50% more bales in the premix (10) as a configurable percentage.

5. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 3, characterized by premix, create in the cotton depot or in the bale-opening area, a premix area denominated premix area (15a) where the bales defined for the premix (10) will be laid down.

6. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 3, characterized by a premix area (15a), be split into two parts, one part where the left over bales from the previous mix are stored denominated allocated bales (151) and another where the bales obtained from piles in order to complete the premix that denominated new bales (152a) are laid down.

7. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by setting how many bales (5) will be obtained from each pile (6) to form the premix (10), based on the percentage in the mix of each group of pile GP (7), the quantity and quality of each pile (6) and the planned (9) quality to the mix.

8. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by generating the mix (11) from the prepared premix (10).

9. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by calculating the minimum and maximum (12) values for each quality parameter to be controlled in the mix, based on the average quality of the previous mixes (25), too according to the number of registered days to control the production and too according the registered tolerance (13) for each quality parameter.

10. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by including (14) in the mix the bales which are at the allocated bales (151) area.

11. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by picking the bales (16) from the inventory piles and inform (18) to the spreadsheet or computer program the missing bales, in order to complete the premix (15a) of the new mix, according to the amount defined for each pile (6) in the preparation of the premix (10).

12. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 11, characterized by picking the bales (16) from the inventory piles (6) and lay the bales (5) down at the area new bales (152a) of the premix (15a) (152b).

13. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by selecting (19) (15c) which bales (5) will compose the mix (24) according to the percentage in the mix for each group of piles (7) and the average quality of each parameter of the mix should be between the minimum and maximum values calculated (12) and too should be as close as possible to the quality planned (9) for the mix.

14. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 13, characterized by bales, after the selection (19) of the bales and the distribution/laydown (21) in the production line, be physically separated (23) in the premix area, and the selected bales go to the production line (26) and the unselected bales go to the allocated bales (151) area.

15. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by splitting the inventory of each production line in 15 sectors denominated piles (6).

16. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by registering (13) for each production line (26), the amount of days that must control the variation in quality among mixes (24).

17. METHOD OF COTTON MIXES HOMOGENIZATION WITHOUT CATEGORIZING BALES IN INVENTORY according to claim 1, characterized by registering (13) for each production line (26), the tolerance permitted for each quality parameter along of the amount of days that must control the variation of quality among mixes (24).

Description

[0028] To better understand this descriptive report some merely illustrativebut not limited toimages were inserted.

[0029] FIG. 1 shows briefly inlet flow of cotton in the inventory by the method;

[0030] FIG. 2 shows briefly mixing process flow accomplished by the method;

[0031] As shown in FIG. 1, the inflow stream of cotton bales (5) comprises a truck fully loaded with bales (5) arriving at the factory. The cotton truck contains approximately 130 bales. Henceforth the truck is referred to as invoice (1). The second step comprises identifying (2) the bales (5) and withdrawing samples. The third step comprises storing (3) all the bales (5) of the invoice (1) in one of the piles (6) which has either been used less or has the same origin. The fourth step comprises informing (4) the quality data to either a spreadsheet or computer program and the bales (5) are released for use in the mix (8) with no need to separate them. The inventory is segmented into approximately 15 piles (6). The group of piles (7), with the respective percentages for the yarn manufacturing, comprises the mix inventory (8). The mix inventory (8) is segmented into approximately 15 piles (6) for each production line and when cotton arrives at the factory, all bales (5) of an invoice (1) are placed in a single pile even before being classified.

[0032] As shown in FIG. 2, the flow of the mixing (24) process comprises the quality planning (9); the second step is the preparation of the premix (10) with 50% more bales (5); the third step is the creation of the new mix (11); the fourth step is the calculation (12) of the minimum and the maximum range of the mix (24), for each tolerance (13) of quality parameters and registered control days, this calculation takes into account the quality of the previous mixes (25); the fifth step comprises the inclusion (14) of the bales of the Premix Area (15a) containing the leftover from the previous mix (151). The premix area (15a) is divided into two parts, one where the remaining (151) bales of the previous mix are stored also referred to as left over from the previous mix and another part where the bales obtained from the piles (6) to complete the premix (15a) are denominated New Bales (152a). The sixth step picks up (16) the missing bales (5) from the piles (6) and places them at the new bales area (152b). On the seventh step the bale (5) codes that are at the new bales area (152b) are informed (18) to the spreadsheet or computer program. The eighth step selects (19) (15c) the bales (5) of the mix. The combination of bales is searched (19), which meets the requirements for the planned quality (9), the percentage of each group of piles (7) and the minimum and maximum calculated value (12) for each parameter in the mix. The selected bales (5) in this step are highlighted in the premix area (15c) by black rectangles. The ninth step fractions (21) the mix every eight bales (5), generates coding labels to be placed on each selected (15d) bale identifying its position in the production line (26). On the tenth step the bales (5) are separated (23) at the premix area (15d). In this separation (23) the bales (5) selected for the mix (24) are consumed in the opening line (26). The unselected bales (5) go to the premix area leftover from the previous mix (151) and the mix quality data (27) is stored in spreadsheets or in a computer program. Then the mix (24) is completed, the quality data of the mix (27) are taken into account for the definition of the quality (9) of the following mixes, and then the mixing flow process is reinitiated. In FIG. 2, the premix area shown at (15a), (15b), (15c) and (15d) corresponds to the same physical space in the warehouse, but in different situations: the area (15a) corresponds to the premix area with the left over bales from the previous mix (151) and the new bales area (152a) empty; the area (15b) corresponds to the premix area with the left over bales from the previous mix (151) and the area of new bales (152b) with the new bales which were picked up (16) from the piles of the inventory; the area (15c) corresponds to the premix area with the left over bales from the previous mix (151), now with the selected (19) bales for the new mix (24); In this example highlighted in black and the area of new bales (152b) with the new bales that were picked up (16) from the piles of the inventory, also with the selected (19) bales for the new mix (24); the area (15d) corresponds to the premix area with the left over bales from the previous mix (151), now with the indication (21) of the order of entry into the production line (26) for each of the selected (19) bales for the mix (24); In this example highlighted in black and the area of new bales (152b) with the new bales that were picked up (16) from the piles of the inventory, also with the indication (21) of the order of entry into the production line (26) for each of the selected (19) bales for the mix (24).

[0033] The Variability Among Mixes and the Variability Among Different Sets of Laydown

[0034] The variability among mixes and the variability among different sets of laydown are the main problem in cotton spinning, thus this method has a set of controls in order to decrease the variability among the mixes (24) and the variability among different sets of laydown (24) to the least possible ensuring no problems in the quality of cotton mixes (24).

[0035] The functionality of the method is described here through three topics: The Registration Process, Cotton Entry and Inventory Calculation, and the Mixing Process.

[0036] The Register, Cotton Entry and Inventory Calculation Process comprise:

[0037] 1Quantity of day registration in which the variability of quality among mixes (24) and the variability among different sets of laydown (24) should be controlled: the quantity of days per production line is informed so that the variation of each quality parameter among mixes (24) is controlled.

[0038] 2Tolerance registration for each quality parameter among mixes: The cotton inventory of plants often suffer from quality changes over time and to ensure homogeneity in the production process, so that changes in quality in the mixes (24) are more gradual for each production line it is registered for each quality parameter how much the average quality may vary (feature) and how much the average quality of each mix (24) may vary for a given period (days) (registered previously) among mixes of the production line.

[0039] 3Definition of group of piles (7): According to the quality of the piles (6) and the needs of each production line, one or more group of piles (7) is created. Each pile (6) of the inventory is associated to a group of pile (7). For each group of pile (7) is set the percentage of participation in the mix (% in the mix).

[0040] 4Mix inventory calculation (EM) (8): according to the group of piles (7) and their respective percentages the mix inventory (EM) (8) is calculated. For example, the worksheets below detail how the mix inventory calculation is done with regard to both quantity and quality.

[0041] Mixing Process Comprises the Steps:

[0042] Step 1Quality planning of the mix: This step is the first stage of the mixes, where the quality of the next mixes is set. From available quality of the inventory (8) for the mix and quality (27) of the running mix, the quality (9) to be produced in the new mixes for the desired period is defined. In this step only the average quality of the mix inventory (8) is considered, since the average quality of each pile (6) and the individual quality of each bale (5) are considered only in steps 2 and 8 respectively.

[0043] Step 2Preparation of premix: This step is the second stage of the mixing process. Due to variability in the quality of the bales (5) within each pile (6) of the cotton inventory, a premix (10) with approximately 50% more bales (5) is prepared, for example, for a mix of 60 bales, a premix (10) of 90 bales is composed. In the next step the best combination of bales (5) to the mix will be select and one third of the premix bales is discarded. The bales discarded remain in premix (15a) will participate in the selection of the following mix. With the premix (10) methodologyusing 50% more bales (5)selects the best bales for the mix, ensuring full control of quality in mixes with no need to categorize them, reducing logistics and workforce (use of forklifts). It provides a more uniformed quality of mixes. At this stage both the average quality mix inventory (8) and the average quality of each pile (6) are considered, since the individual quality of each bale (5) is only considered in step 8. Based on percentage in the mix of each group of piles (7), in the quantity and quality of each pile (6), how many bales (5) will be obtained from each pile (6) is defined, in order to achieve the planned quality.

[0044] Step 3Generate mix: The third stage of the mixing process begins. From the premix (10) elaborated previously the new mix is generated (11).

[0045] Step 4Minimum and maximum value calculation: After generating the mix, the minimum and maximum value (12) permitted for each quality parameter in the new mix are calculated, based on the previous mixes made (25), the quantity of days to be controlled and the tolerance variation registered (13) for each quality parameter among mixes.

[0046] Step 5Inclusion of the bales which are at the allocated bales area: The allocated bales in the previous mix (151) which are at the allocated bales of the (Premix area) (15a) are included (14) into the new mix.

[0047] Step 6Picking of the missing bales at inventory: In this step, the report of the missing bales (16) to complete the premix (10) is generated and then they are picked according to the amount defined per pile (6). These bales are laid down at the new bales (152a) of the premix (152b).

[0048] Step 7Reporting the bales in a spreadsheet or computer program: After picking the missing bales at inventory, the code (18) of each bale (5) of the new bales area (152b) is informed in order to obtain the quality data of the bale.

[0049] Step 8Selection of the bales of the mix: This step completes the third stage of the mixing process. From the quality of each bale allocated in premix (15b), the bales that will compose the mix are selected (19) according to the mix percentage for each group of piles (7), and the quality for each parameter (characteristic) of the mix is between the minimum value and maximum value (12) previously calculated and is as close as possible to the planned quality (9) for the mixing.

[0050] Step 9Bales laydown into production line (works with the variability inside the laydown set into production line):

[0051] To have a well-uniform distribution in the layout (map), after selecting the bales that will compose the mix (19), the distribution of bales for consumption in the production line is made. The mix is fractioned (group of 8 bales) (21), so that the quality of cotton of each fractioned mix (21) is as close as possible to the average quality of the mix.

[0052] Step 10Separation of bales in the premix: After bale selection (19) and distribution/laydown in the production line (26), coding labels to be placed on each selected (15d) bale are generated, identifying its position in the production line (26), then the bales are physically separatedas in the attached example (FIG. 2)in the pre-mixing area (15d); the selected bales go to the production line (26) and the non-selected ones go to the allocated bales area (151) of the premix area (15a).

[0053] The invention disclosed in this report allows cotton spinning mills to control in the mixes all import quality parameters to achieve greater uniformity in the yarn production. The method controls all the quality parameters of the mix without categorizing bales into class right after obtaining the quality data report. Consequently companies have reduction in logistics whenever managing bales by the means of forklifts and better optimization of spaces in the cotton inventory. The main benefit of this method is to provide total quality control in cotton mixes resulting in better efficiency of the producing machines and greater stability and uniformity of the produced yarn. With the implementation of this method reduction in defects is obtained, which can ensure the customer uniformed products and the quality of the cotton used within the limits considered ideal.

[0054] The worksheets below show the calculation formula and an example of the mix inventory per production line calculated according to the groups of piles. They show the definitions for quality tolerance control among mixes and an example of the calculation of the minimum and maximum value for the quality parameter in the mixing.