TIME-EFFICIENT WEIGHING IN A PRODUCTION PROCESS

Abstract

A method is provided for optimizing the time required for a scale to weigh a set of ingredients. A weighing tolerance is obtained for each ingredient in the set. Based on the weighing tolerance, a readability parameter is determined for each ingredient. Based on the determined readability parameter, the scale is configured before each ingredient is weighed.

Claims

1. A method for optimizing the time required for a scale to weigh each ingredient in a set of said ingredients in a production process, comprising the steps of: obtaining a weighing tolerance for each ingredient; determining a readability parameter of the scale for each ingredient, based upon the weighing tolerance; and configuring the scale according to the readability parameter before weighing the ingredient.

2. The method of claim 1, wherein the step of determining the readability parameter is further based upon a safety factor.

3. The method of claim 2, wherein the step of determining the readability parameter comprises the substeps of: determining an optimal readability parameter based upon the weighting tolerance and the safety factor; obtaining a set of readability values available for the scale; and if the optimal readability parameter is less than the highest readability value of the readability set, setting the readability parameter to the highest readability value for the scale that is less than or equal to the optimal readability parameter; or if the optimal readability parameter is greater than or equal to the highest readability value available for the scale, setting the readability parameter to the highest readability value for the scale.

4. The method of claim 3, further comprising the substep of: generating an error message, indicating that the scale is not accurate enough to weigh said ingredient, if the optimal readability parameter is less than or equal to the smallest available readability value of the readability set.

5. The method of claim 1, further comprising the steps of: for each ingredient of the set, obtaining an expected weight of said ingredient; determining a tare parameter of the scale based on the expected weight; and additionally configuring the scale, based on the tare parameter, before weighing said ingredient.

6. A module for managing the time necessary for a scale, in a production process, to weigh a set of ingredients and/or components, wherein the management module is configured, for each ingredient of the set, to do at least the following: obtain a weighing tolerance; determine a readability parameter of the scale according to the weighing tolerance; and configure the scale according to the readability parameter before weighing said ingredient.

7. The management module of claim 6, wherein the management module is configured to determine the readability parameter according to the weighting tolerance and a safety factor.

8. The management module of claim 7, wherein the management module is configured to determine the readability parameter by: determining an optimal readability parameter based on the weighting tolerance and a safety factor; obtaining a readability set of available readability values for the scale; setting the readability parameter to the highest available readability value of the readability set that is less than or equal to the optimal readability parameter if the optimal readability parameter is less than the highest available readability values of the readability set; and setting the readability parameter to the highest available readability values of the set if the optimal readability parameter is greater than or equal to the highest available readability values of the readability set.

9. The management module of claim 8, wherein the management module is configured to generate an error message indicating that the scale is not accurate enough to weigh said ingredient, if the readability parameter is less than or equal to the smallest available readability value of the readability set.

10. The management module of claim 9, wherein the management module is configured, for each ingredient of the set, to do the following: obtain an expected weight of said ingredient to measure; determine a tare parameter of the scale based on said expected weight; and additionally configure the scale based on the tare parameter for each ingredient of the set, before weighing said ingredient.

11. A system comprising scale and a management module according to claim 6.

12. The system of claim 11, further comprising: a terminal, comprising: a display adapted to present information related to the production process, and/or a user interface adapted to allow an operator to enter, consult and/or modify information related to the production process.

13. The system of claim 11, wherein: the scale is configured to a default readability parameter before being configured by the management module according to the readability parameter.

14. A program for implementation on a computer, comprising instructions for causing implementation of the method according to claim 1, when said program is run by a processor associated with the scale.

15. A means for storing the computer program according to claim 14, when the stored information is read therefrom and run by a processor.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0062] In the following, the invention will be explained in more detail through examples and references to the attached drawings, wherein:

[0063] FIG.1 illustrates a weighing system that can be used to carry out the method of the present invention;

[0064] FIG. 2 represents a flowchart of the method according to the invention; and

[0065] FIG. 3 represents a flowchart of the sub-step of the step S300 according to one embodiment of the method according to the invention.

DETAILED DESCRIPTION

[0066] FIG. 1 schematically illustrates a weighting system that can be used to carry out the method of the present invention. The weighting system comprises a scale 10, a management module 20 and a terminal 30. In the exemplary embodiment represented on FIG. 1, the scale 10, the management module 20 and the terminal 30 are shown as separated modules. Different arrangements can be considered, depending on integration constraints into the production environment, as for instance the physical distance between the weighing area and the operator. In particular, the management module 20 and/or the terminal 30 may be integrated in one device embed into the scale 10. Conversely, the management module 20 and/or the terminal 30 may be remotely positioned relatively the scale 10.

[0067] The scale 10 comprises an interface 12 adapted to couple the scale to the management module 20 in order to allow the reception of configuration messages sent by the management module 20 to the scale 10. The scale 10 further comprises a configuration module 14 and a weighing module 16 adapted to weigh ingredients. The configuration module 14 is adapted to control the scale module so as to adapt configurable features of the weighing module 16, such as a tare setting and a readability parameter. Moreover the configuration module is adapted to interpret the configuration messages sent by the management module 20 to the scale 10, and configure the corresponding configurable features of the weighing module 16 accordingly. For instance, the configuration module 14 may receive configuration messages comprising information describing a tare setting and/or a readability parameter, and process said message to adapt the corresponding configurable features of the weighing module 16. The configuration module 14 may also be configured to use a default readability parameter and/or a default tare parameter, until at least one configuration message comprising an instruction related to the next ingredient that will be weighted by the scale 10 for the readability parameter and/or the tare parameter is received from the management module 20.

[0068] The terminal 30 comprises a display 32 and a user interface 34. The display 32 may be used in particular to present information related to the scale 10, and more particularly configurable features of the weighing module 16, such as a tare setting and a readability parameter. The display 32 may comprise one or a plurality of screens. The display 32 may also be used to present information related to the production process, in particular related to the set of ingredients used in the production process, and in particular a name for each ingredient, a weight for each ingredient, a weighing tolerance for each ingredient, an order according to which the ingredients of the set should be weighed, etc. The terminal 30 also comprises a user interface 34, adapted to allow notably an operator to enter information and/or navigate into available information and/or adapt the presentation of the available information. The user interface 34 may be used enter and/or navigate into information related to the production process, in particular related to the set of ingredients used in the production process, and in particular a name for each ingredient, a weight for each ingredient, a weighing tolerance for each ingredient, an order according to which the ingredients of the set should be weighed, etc. The management module 20 may include (not represented in FIG. 1) a communication interface 18 adapted to allow remote transmissions of information to the scale 10 and/or the management module 20 through a communication network.

[0069] The management module 20 comprises a processing module 22, for example a module provided with at least one Central Processing Unit and a Random-Access Memory. The management module 20 may further comprises storage means 16, for example a Hard-Drive and/or a solid-state memory, for storing data and allowing the processing module 22 to read and/or write said data. The management module 20 may include (not represented in FIG. 1) a communication interface 18 adapted to allow remote transmissions of information to the scale 10 and/or the terminal 30 through a communication network.

[0070] Any and all steps of the method described hereafter with regard to FIGS. 2 and 3, may be implemented in software by execution of a set of instructions or program by a programmable computing machine, such as a PC (Personal Computer), a DSP (Digital Signal Processor) or a microcontroller; or else implemented in hardware by a machine or a dedicated component, such as an FPGA (Field-Programmable Gate Array) or an ASIC (Application-Specific Integrated Circuit).

[0071] FIG. 3 delineates the method of the invention in the form of a flowchart. The management module 20 is adapted to implement the steps of the method according to the invention.

[0072] In a step S100, for each ingredient of the set, a weighing tolerance is obtained. The management module 20 may either obtain the weighing tolerance for the corresponding ingredient from a local memory, or from the terminal 30. The weighing tolerances for all the ingredients of the set are known information defined according to the production process.

[0073] In a step S200, for each ingredient of the set, a readability parameter of the scale is determined according to the weighing tolerance, obtained in the step S100. During the step S200, the readability parameter may be determined according to the weighting tolerance and a safety factor.

[0074] In an embodiment, as illustrated in FIG. 3, the readability parameter is determined by: [0075] in a sub-step S210, determining an optimal readability parameter according to the weighting tolerance and a safety factor; [0076] in a sub-step S220, obtaining a readability set of available readability values for the scale; and [0077] in a sub-step S230, [0078] if the optimal readability parameter is smaller than the highest available readability values of the readability set, setting the readability parameter to the highest available readability value of the readability set that is inferior or equal to the optimal readability parameter; and [0079] if the optimal readability parameter is greater than or equal to the highest available readability values of the readability set, setting the readability parameter to the highest available readability values of the set.

[0080] In this embodiment, in an optional sub-step S240, if the readability parameter is smaller than or equal to the smallest available readability value of the readability set, to generate an error message indicating that the scale is not accurate enough to weigh said ingredient. The error message can be sent to the terminal 30 to be presented to the operator, and/or to other coupled systems (not represented in the figures).

[0081] In this embodiment, the method may further comprise the following optional sub-steps. In an optional sub-step S250, for each ingredient of the set, an expected weight is obtained. The management module 20 may either obtain the expected weight for the corresponding ingredient from a local memory, or from the terminal 30. The expected weight for each ingredient of the set is known information defined according to the production process. In an optional sub-step S260, for each ingredient of the set, a tare parameter of the scale is determined according to said expected weight obtained in the sub-step S250.

[0082] In a step S300, before weighing the corresponding ingredient, the scale is configured according to the corresponding readability parameter, and optionally according to the tare parameter determined during the optional sub-step S260. The management module 20 may in particular send a message to the configuration module 14 containing an instruction to set the readability parameter of the scale 10 to the readability parameter determined during the step S200. The management module 20 may also send a message to the configuration module 14 containing an instruction to set the tare setting of the scale 10 to the tare parameter determined during the optional sub-step S260.

[0083] It should be noted that the step S100, the step S200 and the step S300, and their respective optional sub-steps, are all performed before the start of the actual weighing operation of the corresponding ingredient.