Patent Publication Number: US-2023136290-A1

Title: Grating separation method and system for separating grating

Description:
CROSS REFERENCE AND PRIORITY CLAIM UNDER 35 U.S.C. § 119 
     The present Application for a Patent claims priority to U.S. Provisional Patent Application Ser. No. 63/273,460 entitled “Grating Separation Method and System for Separating Grating,” filed on Oct. 29, 2021, both of which are assigned to the assignees hereof and hereby expressly incorporated by reference herein. 
    
    
     FIELD 
     This application relates generally to the field of grating systems and methods, and more particularly, to improvements in grating separation methods and systems. 
     BACKGROUND 
     Grating may be used for many different purposes, such as but not limited to stairs, factory flooring, drainage coverings, walkways, platforms for walking or parking, security applications, fencing, shelving, safety guards, transportation supports, or the like. Grating with apertures allow for material (e.g., solids, liquids, or the like, or combinations thereof) to pass through the grating, provide structural support at reduced weights and costs, and/or provide other benefits. It may be formed into a lattice pattern (e.g., overlapping, intersecting, or the like) and formed from steel, aluminum, or other materials. Grating is typically formed to standard or custom sizes and/or cut manually in order to achieve the desired widths of the grating. 
     BRIEF SUMMARY 
     Grating is formed from longitudinal members and transverse members that are operatively coupled together, such as through welding, press-locking, swage-locking (e.g., for aluminum grating), or formed through other like connections. The grating may be formed of any material, but in particular the grating may be formed of steel or aluminum. It should be understood that the longitudinal members and the transverse members may be the same types of members or different types of members. In particular embodiments, the longitudinal members may be described as bearing members and the transverse members may be described as cross members. However, it should be understood that the longitudinal members may be the cross members, and the transverse members may be bearing members. In some embodiments, the bearing members may be bearing bars, such a bearing bars formed from sheet steel that has been split into strips. In some embodiments, the cross members may be cross-bars made of rods (e.g., of any shape). The cross members may be welded to the bearing bars. However, it should be understood that the bearing members and the cross members may have any shape and may be operatively coupled together in any configuration using any connection (e.g., welds, fasteners, interference fit, or the like). The grating members, such as the bearing members and/or the cross members, may be smooth or may be serrated (e.g., for improving grip for walking or for storing products) depending on the application for the grating. 
     The grating, such as the initial grating formed having an initial grating width, as well as the one the or more grating sections created from the initial grating (e.g., having grating widths that are less than the initial grating width), have an upper surface, a lower surface, two edges (e.g., first and second edges), and two ends (e.g., first and second ends). The separation system (otherwise described as a separation machine, or the like) may comprise one or more drives (e.g., motor, or the like), one or more shafts operatively coupled to the one or more drives (e.g., a proximal shaft and a distal shaft for each die), and a die assembly operatively coupled to the one or more shafts. The die assembly may comprise opposing dies, such as a proximal die and a distal die, opposing knives, such as proximal knives and distal knives, and one or more spacers. The knives and spacers may be set up on the proximal dies and the distal dies in order to guide the initial grating through the die assembly and/or to separate the initial grating into one or more grating sections having grating widths less than the initial grating width. The knives may be set up in different configurations in order to create any number of gratings having flush cross members (e.g., flush with the bearing members) and/or overhanging cross members (e.g., hang over the bearing members), as will be described herein. 
     An embodiment of the present disclosure comprises a method of separating grating. The method comprises passing an initial grating through a proximal die with one or more proximal knives and a distal die with one or more distal knives, wherein the initial grating has an initial grating width. The method further comprises forming one or more gratings from the initial grating by the one or more proximal knives and the one or more distal knives. The one or more gratings have grating widths that are less than the initial grating width. The initial grating and the one or more gratings each comprise a plurality of bearing members and a plurality of cross members that extend across the plurality of bearing members. The initial grating is separated into the one or more gratings by the one or more proximal knives of the proximal die and the one or more distal knives of the distal die that separate at least a portion of the plurality of cross members from each other. 
     In further accord with embodiments, the method further comprises identifying a number of gratings, one or more widths of the gratings, overhanging cross members, or flush cross members, and selecting the one or more proximal knives and the one or more distal knives to form the one or more gratings having the one or more widths, the overhanging cross members, or the flush cross members. 
     In other embodiments, the method further comprises assembling the one or more proximal knives to the proximal die, assembling the one or more distal knives to the distal die, and assembling one or more spacers to the proximal die and one or more spacers to the distal die. 
     In still other embodiments, when forming a grating having overhanging cross members, the one or more proximal knives comprise a first proximal knife on the proximal die, and the one or more distal knives comprise a first distal knife on the distal die adjacent to and opposing the first proximal knife. 
     In yet other embodiments, when forming a grating having overhanging cross members, the one or more proximal knives comprise a first proximal knife on the proximal die, and the one or more distal knives comprise a first distal knife on the distal die adjacent to and opposing the first proximal knife, and an offset spacer, and wherein a first distal knife width and an offset spacer width fit within adjacent bearing members. 
     In other embodiments, when forming a grating having flush cross members the one or more proximal knives comprise a first proximal knife adjacent to a second proximal knife on the proximal die, and the one or more distal knives comprise a first distal knife on the distal die aligned between and opposed to the first proximal knife and the second proximal knife on the proximal die. 
     In further accord with embodiments, the proximal die interacts with an upper surface of the initial grating and the one or more gratings. 
     In other embodiments, the distal die interacts with a lower surface of the initial grating and the one or more gratings. 
     In still other embodiments, the one or more distal knives have a distal knife width to extend between two adjacent bearing members of the plurality of bearing members where adjacent cross members are separated. 
     In yet other embodiments, the one or more distal knives are used without the one or more proximal knives to serve as a guide to aid in passing the initial grating between the proximal die and distal die without separating the initial grating where the guide is located. 
     Another embodiment of the present disclosure comprises a die assembly for separating an initial grating into one or more gratings. The die assembly comprises a proximal die having one or more proximal knives, and a distal die having one or more distal knives. The one or more distal knives are located adjacent and opposite of the one or more proximal knives and are configured to separate the initial grating into the one or more gratings. The initial grating and the one or more gratings each comprise a plurality of bearing members and a plurality of cross members that extend across the plurality of bearing members, and wherein the one or more gratings have one or more grating widths that are less than an initial grating width of the initial gratin. The one or more proximal knives of the proximal die and the one or more distal knives of the distal die separate the initial grating into the one or more gratings by separating at least a portion of the plurality of cross members from each other. 
     In further accord with embodiments, when forming a grating having overhanging cross members, the one or more proximal knives comprise a first proximal knife on the proximal die, and the one or more distal knives comprise a first distal knife on the distal die adjacent to and opposing the first proximal knife. 
     In other embodiments, when forming a grating having overhanging cross members, the one or more proximal knives comprise a first proximal knife on the proximal die, and the one or more distal knives comprise a first distal knife on the distal die adjacent to and opposing the first proximal knife, and an offset spacer, and wherein a first distal knife width and an offset spacer width fit within adjacent bearing members. 
     In yet other embodiments when forming a grating having flush cross members the one or more proximal knives comprise a first proximal knife adjacent to a second proximal knife on the proximal die, and the one or more distal knives comprise a first distal knife on the distal die aligned between and opposed to the first proximal knife and the second proximal knife on the proximal die. 
     In still other embodiments, the proximal die interacts with an upper surface of the initial grating and the one or more gratings, and the distal die interacts with a lower surface of the initial grating and the one or more gratings. 
     In other embodiments, the one or more distal knives have a distal knife width to extend between two adjacent bearing members of the plurality of bearing members where the cross members are separated. 
     In further accord with embodiments, the one or more distal knives are used without the one or more proximal knives to serve as a guide to aid in passing the initial grating between the proximal die and distal die without separating the initial grating where the guide is located. 
     Another embodiment of the present disclosure comprises a grating separating machine. The grating separating machine comprises a drive, one or more drive shafts operatively coupled to the drive, and a die assembly operatively coupled to the one or more drive shafts. The die assembly comprises a proximal die having one or more proximal knives, and a distal die having one or more distal knives. The one or more distal knives are located adjacent and opposite of the one or more proximal knives and are configured to separate an initial grating into one or more gratings. The initial grating and the one or more gratings each comprise a plurality of bearing members and a plurality of cross members that extend across the plurality of bearing members. The one or more gratings have one or more grating widths that are less than an initial grating width of the initial grating. The one or more proximal knives of the proximal die and the one or more distal knives of the distal die separate the initial grating into the one or more gratings by separating at least a portion of the plurality of cross members from each other. 
     In further accord with embodiments, when forming a grating having overhanging cross members the one or more proximal knives comprise a first proximal knife on the proximal die, and the one or more distal knives comprise a first distal knife on the distal die adjacent to and opposing the first proximal knife. Alternatively, when forming a grating having overhanging cross members the one or more proximal knives comprise the first proximal knife on the proximal die, and the one or more distal knives comprise the first distal knife on the distal die adjacent to and opposing the first proximal knife, and an offset spacer, and wherein a first distal knife width and an offset spacer width fit within adjacent bearing members. 
     In other embodiments, when forming a grating having flush cross members the one or more proximal knives comprise a first proximal knife adjacent to a second proximal knife on the proximal die, and the one or more distal knives comprise a first distal knife on the distal die aligned between and opposed to the first proximal knife and the second proximal knife on the proximal die. 
     To the accomplishment of the foregoing and the related ends, the one or more embodiments of the invention comprise the features hereinafter fully described and particularly pointed out in the claims. The following description and the annexed drawings set forth certain illustrative features of the one or more embodiments. These features are indicative, however, of but a few of the various ways in which the principles of various embodiments may be employed, and this description is intended to include all such embodiments and their equivalents. 
    
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
       The accompanying drawings illustrate some of the embodiments of the invention and are not necessarily drawn to scale, wherein: 
         FIG.  1    illustrates a perspective view of a die assembly for separating an initial grating into multiple gratings with flush cross members, in accordance with some embodiments of the present invention. 
         FIG.  2    illustrates an enlarged perspective view of a portion of the die assembly of  FIG.  1   , in accordance with embodiments of the present invention. 
         FIG.  3    illustrates a perspective view of a die assembly for separating an initial grating into smaller gratings with overhanging cross members, in accordance with some embodiments of the present invention. 
         FIG.  4    illustrates an enlarged perspective view of a portion of the die assembly of  FIG.  3   , in accordance with some embodiments of the present invention. 
         FIG.  5    illustrates a perspective view of a die assembly of a separation system beginning to separate an initial grating into smaller grating sections with overhanging cross members, in accordance with some embodiments of the present invention. 
         FIG.  6    illustrates a perspective view of a die assembly of a separation system in the process of separating an initial grating into smaller grating sections with overhanging cross members, in accordance with some embodiments of the present invention. 
         FIG.  7    illustrates a perspective view of a die assembly of a separation system after separating an initial grating into smaller grating sections with overhanging cross members, in accordance with some embodiments of the present invention. 
         FIG.  8    illustrates an enlarged perspective view of grating after being separated and having overhanging cross members, in accordance with some embodiments of the present invention. 
         FIG.  9    illustrates a perspective view of a die assembly of a separation system beginning to separate an initial grating into smaller grating sections with flush cross members, in accordance with some embodiments of the present invention. 
         FIG.  10    illustrates a perspective view of a die assembly of a separation system in the process of separating the initial grating into smaller grating sections with flush cross members, in accordance with some embodiments of the present invention. 
         FIG.  11    illustrates an enlarged perspective view of a die assembly separating an initial grating into smaller gratings with flush cross members, in accordance with some embodiments of the present invention. 
         FIG.  12    illustrates an enlarged perspective view of grating after being separated and having flush cross members, in accordance with some embodiments of the present invention. 
         FIG.  13    illustrates a method of separating gratings, in accordance with some embodiments of the present disclosure. 
     
    
    
     DETAILED DESCRIPTION 
     Embodiments of the present invention now may be described more fully hereinafter with reference to the accompanying drawings, in which some, but not all, embodiments of the invention are shown. Indeed, the invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure may satisfy applicable legal requirements. Like numbers refer to like elements throughout. 
     Grating  1  (e.g., otherwise described as a grate) is formed from longitudinal members  10  and transverse members  14  that are operatively coupled together, such as through welding, press-locking, swage-locking (e.g., for aluminum grating), or formed through other like connections. The grating  1  may be formed of any material, but in particular embodiments, the grating  1  may be formed of steel or aluminum. It should be understood that the longitudinal members  10  and the transverse members  14  may be the same types of members or different types of members. In particular embodiments, the longitudinal members  10  may be described as bearing members  12  and the transverse members  14  may be described as cross members  16 . However, it should be understood that the longitudinal members  10  may be the cross members  16 , and the transverse members  14  may be bearing members  12 . In some embodiments, the bearing members  12  may be bearing bars, such a bearing bars formed form sheet steel that has been split into strips (e.g., having a rectangular shape). In some embodiments, the cross members  16  may be cross-bars made of rods (e.g., of any shape, such as circular, oval, square, rectangular, helical, non-uniform, or the like cross-section, which are straight, twisted, or the like). The cross members  16  may be welded to the bearing bars or may be operatively coupled in other ways through the use of other connections. However, it should be understood that the bearing members  12  and the cross members  16  may have any shape (e.g., strips, rods, or the like) and may be operatively coupled together in any configuration using any connection (e.g., welds, fasteners, or the like). The grating members, such as the bearing members  12  and/or the cross members  16 , may be smooth or may be serrated (e.g., for improving grip for walking or for storing products) depending on the application for the grating  1 . 
     The grating  1 , such as the initial grating  2  (e.g., otherwise described as an initial grate) formed before being separated into multiple grating sections  4  (e.g., otherwise described as a multiple grate sections  4 , or multiple grates  4 ), and/or the separated grating sections  4 , will have an upper surface  20 , a lower surface  22 , two edges  24  (e.g., first and second edges), and two ends (e.g., first and second ends)  26 . The cross members  16  may be located adjacent the upper portion of the bearing members  12 , and as such the cross members  16  and upper portion of the bearing members  12  form the upper surface of the grating  1 . The upper surface of the bearing members  12  and the upper surface of the cross members  16  may be on the same plane or may be offset from each other (e.g., the upper surface of the cross members  16  may be above or below the upper surface of the bearing members  12 ). The lower portion of the bearing members  12  form the lower surface  22  of the grating  1 . As will be described with respect to  FIGS.  1  and  2 , and  3  and  4   , the two edges  24  of the grating  1  may have flush cross members  18  or overhanging cross members  19  (e.g., having different lengths), based on the set up of the knives  56  of the die assembly  40 . 
     The separation system  30  (otherwise described as a separation machine) may comprise one or more drives  32  (e.g., a single motor, or multiple motors, such as a proximal motor, a distal motor, or the like), one or more shafts  34  operatively coupled to the one or more drives (e.g., a proximal shaft and a distal shaft for each die), a transport system (e.g., rollers, conveyor, or the like), and a die assembly  40  operatively coupled to the one or more shafts. The die assembly  40  may comprise opposing dies  50 , such as a proximal die  52  and a distal die  54 , opposing knives  56 , such as proximal knives  60  and distal knives  70 , and one or more spacers  58  on both the proximal die  52  and distal die  54 . 
       FIGS.  1  and  2    illustrate a knife set up in which the grating  1 , such as an initial grating  2  is separated into one or more grating sections  4  having flush cross members  18 . That is, the initial grating  2  is separated such that each of the gratings  4  formed at the separation locations  6  have flush cross members  18 . The flush cross members  18  indicate that the cross members  16  are in line with the bearing member  12  at the edge  24  of the grating section  4  created (e.g., in line with the outer surface of the bearing member  12  at the edge  24 ). It should be understood that the flush cross members  18  may extend slightly past the outer surface of the bearing member  12  or be set back from the outer surface of the bearing member  12  depending on the tolerance stacking of the grating, tolerance stacking of the die assembly  40 , the knife sharpness, or other like factors. In order to create the grating sections  4  with the flush cross members  18 , the one or more proximal knives  60  comprise a first proximal knife  62  adjacent to and spaced apart from a second proximal knife  64  on the proximal die  52  (e.g., spaced the same or similar distance as two adjacent bearing members  12  of the grating  1 ). The one or more distal knives  70  comprise a first distal knife  72  on the distal die  54  aligned between and opposed to the first proximal knife  62  and the second proximal knife  64  on the proximal die  52 . In some embodiments, the one or more distal knives  70  may comprise a single first distal knife  72 , or a first distal knife  72 , second distal knife, third distal knife, and/or the like stacked together. Regardless of the configuration, one of the one or more distal knives  70  may fit within two adjacent bearing members  12  of the grating  1  and the spaced first proximal knife  62  and second proximal knife  64 , and work in conjunction with the two or more proximal knives  60  (e.g., a first proximal knife  62  and second proximal knife  64 ) to separate the initial grating  2  into the one or more flush grating sections  4 . 
       FIGS.  3  and  4    illustrate a knife set up in which the grating  1 , such as an initial grating  2  is separated into one or more grating sections  4  having overhanging cross members  19  (e.g., otherwise described as overhung cross members, or the like). That is, the initial grating  2  is separated such that at least one of the grating sections  4  at the separation location  6  has overhanging cross members  19 . The overhanging cross members  19  indicate that the cross members  16  overhang the bearing member  12  at the edge  24  of the grating section  4  created. In the illustrated embodiments in  FIGS.  3  and  4   , the overhanging cross members  19  occur on one side of one of the grating sections  4 , while the other adjacent grating section  4  created by the separation system  30  would have a flush cross members  18 . In order to create the grating sections with the overhanging cross members  19 , the one or more proximal knives  60  comprise a first proximal knife  62  on the proximal die  52 . The one or more distal knives  70  comprise a first distal knife  72  on the distal die  54  aligned offset from the opposed first proximal knife  62  of the proximal die  52 . The intersection between the first proximal knife  62  and the first distal knife  72  is set at the location where the cross members  16  intersect with the bearing members  12 . In some embodiments, the first proximal knife  62  may be comprised of two or more proximal knives  62  stacked together, and the first distal knife  70  may be comprised of two or more distal knives  72  stacked together. Regardless of the configuration, one of the one or more distal knives  70  may fit within two adjacent bearing members  12  of the grating  1 , and work in conjunction with one of the one or more proximal knives  60  to separate the initial grating  2  into the one or more overhanging grating sections  4 . 
     In some embodiments, the overhanging cross members  19  may be created on both edges of adjacent gratings  4  being separated from each other. For example, by setting the intersecting edges of the opposing proximal knife  62  and distal knife  72  at the center of the cross member  16  between two adjacent bearing members  12 , two adjacent grating sections  4  may be formed with both having overhanging cross members  19 . In order to create adjacent grating sections  4  both having overhanging cross members  19 , an edge of a proximal knife  60  maybe set for alignment at approximately the centerline of cross members  19  (or another location of on the cross members  19  between adjacent bearing members  12 ). Alternatively, a distal knife  70  and a knife offset (not illustrated) may be used to set the location of the distal knife  70  opposing and offset from the proximal knife  60 . The knife offset width and the distal knife width may be sized to fit between two adjacent bearing members  12 ; however, the diameter of the knife offset is less than the distal knife  70 . As such, the knife offset may be the same structure, or a different structure, as the distal knife  70  (e.g., cylindrical knife), but may have a smaller outer diameter. As such, the knife offset will have a diameter to fit between two adjacent bearing members  12  but will not have the diameter to interact with the cross members  16  and/or the proximal knife  60 . In some embodiments the knife offset may be integral within the distal knife  70  (e.g., extending from the side of the distal knife  70 ). Regardless of the type of knife offset, in this configuration, the distal knife  70  that is opposing the proximal knife  60  at the centerline of the cross members  16  will interact to separate the initial grating  2  into two adjacent grating sections  4  at the centerline of the cross members  16  in order to form adjacent gratings both with overhanging cross members  19 . 
     In some embodiments, two distal knives  70  may be separated by a knife offset in order to allow the two distal knives  70  and knife offset to fit within two adjacent bearing members  12 , and to both interact with opposing proximal knives  60  to create one grating section  4  having an overhanging cross member  19  of a desired overhang length on one grating section  4 , and a flush cross member  18  on an adjacent grating section  4 . 
     The knives  56  of the present invention are illustrated as cylindrical knives having an outer diameter surface that is flat, and thus having a sharp edge on both sides of the outer diameter surface. However, it should be understood that the knives may have any type of shape, such as an outer diameter surface that is angled (e.g., converging or diverging), curved, non-uniform, or the like. 
     It should be understood, as illustrated in the figures, that multiple proximal knives  60  and multiple distal knives  70  may be utilized in order to form any number of gratings having the same or different widths, and having flush cross members  18  and/or overhanging cross members  19  (having the desired overhanging length) based on the need of customers. For example,  FIGS.  5  through  7    illustrate that a single proximal knife  60  and a single distal knife  70  are being used to separate an initial grating  2  into two gratings  4  having two different widths. The first grating having a smaller width than the second grating, and the second grating having overhanging cross members  19  with the first grating having flush cross members  18 . In alternate embodiments,  FIGS.  9  through  12    illustrate a configuration in which multiple proximal knives  60  are illustrated (e.g., three offset first and second proximal knife sets  62 ,  64 ), but only the third proximal knife set  62 ,  64  has an opposing distal knife  70 . As such, in  FIGS.  9 - 12    an initial grating  2  is being separated into two grating sections  4  having different widths and both with flush cross members  18 . 
     In some embodiments, more than two gratings  4  may be formed from a single pass of an initial grating  2  through the die assembly  40 . For example,  FIG.  1    illustrates that six proximal knives  60  (e.g., three offset first and second proximal knife sets  62 ,  64 ) and six distal knives  70  (e.g., illustrated as three stacked first and second distal knives  72 ,  74 , but could be three single distal knives  70 ). In the illustrated embodiment in  FIG.  1   , the initial grating  2  is being separated into four gratings each having flush cross members  18 . Three of the gratings have the same width and one of the gratings has a smaller width. It should be understood that any combination of proximal and distal knives  60 ,  70  may be used to create any number of gratings with flush or overhanging members  18 ,  19 , which is only limited by the size of the separating system  30  (or die set assembly  40  size) and/or the width of the initial grating  2 . 
     Moreover, while the separation system  30  is illustrated as receiving a single initial grating  2 , it should be understood that two separate initial gratings  2  may be inserted into the separation system  30  at the same time (e.g., side by side) in order to allow for alternate configurations to quickly separate gratings  1  to the desired sizes while reducing or eliminating waste. In some embodiments, the initial gratings  2  may be inserted into the separation system  30  in series in order to create a plurality of grating sections  4  quickly and efficiently from multiple initial gratings  4 . It should be further understood that in order to adjust the number of gratings being formed, only one of multiple proximal knives  60  of the proximal die  52  or one of multiple distal knives  70  of the distal die  54  may be removed because both proximal knives  60  and distal knives  70  may be required to separate the cross members  16 . Alternatively, in order to adjust the number of gratings being formed, the initial grating  2  being inserted into die assembly  40  may be inserted at different locations within the die assembly  40  such that the initial grating  2  may engage some of the knives  56  of the die assembly  40  while avoiding other knives  56  of the die assembly  40 . For example, the initial grating  2  may have a width that is less than the width of the die assembly  40 , and as such may be inserted into the die assembly  40  flush with one end of the die assembly  40 , flush with the other end of the die assembly  40 , or at any position between the ends of the die assembly  40 . Consequently, depending on the location of the knives  56 , this positioning of the initial grating would change the location at which the initial grating is separated. 
       FIG.  13    illustrates a process of separating a grating into multiple gratings. As illustrated by block  310 , the number of gratings, sizes of gratings (e.g., width), the number of grating edges having flush cross members  18 , and/or the number of grating edges having overhanging cross members  19  are identified based on an initial grating  2  being used (e.g., initial grating width). 
     Block  320  further illustrates that the knives  56  and spacers  58  are selected in order to meet the requirements determined in block  310 . For example, the one or more proximal knives  60 , the stacking and/or placement of the knives  60  with respect to the one or more distal knives  70 , the stacking and/or the placement thereof, and the number of spacers  58  and widths thereof are determined. 
       FIG.  13    further illustrates in block  330 , that the knives  56  and spacers  58  are assembled to the proximal die  52  (e.g., upper die) and the distal die  54  (e.g., lower die) of the grating separator system  30 . For example, the one or more proximal knives  60  and spacers  58  are assembled to the proximal die  52  by sliding the proximal knives and/or spacers  58  over at least one of the ends of the proximal die  52 . For example, the proximal knives  60  and/or the spacers  58  may have one or more keys and/or grooves, while the proximal die  52  may also have one or more keys and/or groves to order to aid in securing the proximal knives  60  and/or the spacers  58  to the proximal die  52 . Furthermore, the one or more distal knives  70  and/or the spacers  58  may be assembled to the distal die  54  in the same or similar way. 
     Block  340  illustrates that the grating separator system  30  is loaded with one or more initial gratings  2 . In some embodiments, an initial grating  2  is loaded one at a time. However, in some embodiments the initial gratings  2  may be loaded in parallel, such as if multiple initial gratings  2  are going to be separated into multiple one or more grating sections  4  at the same time. In other embodiments, multiple initial gratings  2  may be loaded in series if multiple initial gratings  2  are going to be split in the same way into the same sets of grating sections  4 . 
       FIG.  13    further illustrates in block  350  that the separation system  30  is activated, and the gratings  1  are moved to and/or through the die assembly  40 . In some embodiments the initial gratings  2  can be manually positioned in the die assembly  40 , such that the when the separation system  30  is activated the rotation of one or more of the dies  52 ,  54  in the die assembly  40  feed the initial grating  2  through the opposing dies  52 ,  54 . In other embodiments, the transport system  38  (e.g., driven rollers, conveyor, or the like) of the separator system  30  may move, or aid in moving, the initial grating  2  towards and/or through the die assembly  40 . 
     Block  360  of  FIG.  13    illustrates that the die assembly  40  separates (e.g., cuts, shears, rips, slices, or the like) the initial grating  2  into one or more gratings sections  4  having a smaller grating width that the initial grating width. That is, the opposing one or more proximal knives  60  and the one or more distal knives  70  separate the cross members  16  in order to form the one or more grating sections  4 , as previously described herein. 
     It should be understood that in some embodiments the one or more proximal knives  60  and the or more distal knives  70  may flipped within the separation system  30  and/or set up such that the upper surface  20  (as illustrated in the figures) actually faces downward in the separation system  30 . Consequently, the separation system  30  may be set up to separate the grating in different orientations (e.g., with the upper surface  20  facing up as illustrated in the Figures, with the upper surface  20  facing down, or the like). 
     The present invention provides improved efficiency, customization, repeatability, accuracy, or the like when compared with traditional manual separation of the initial gratings  2 . In traditional processes, gratings may be separated by hand using manual or power tools. However, this manual process requires a lot of time as each member of the gratings have to be manually separated. In particular, when flush members are needed, two manual cuts need to be made on both sides of the gratings. The separation system  30  and process  300  of the present disclosure can separate gratings much faster, such as forming multiple gratings within seconds, such as 10, 20, 30, 40 seconds, as opposed to creating individual gratings within minutes, such as 10, 20, 30, or the like minutes. Moreover, the gratings formed from the present disclosure can be customized with less waste (e.g., multiple gratings can be easily formed at the same time with the desired widths), as opposed to the manual process which requires individual splitting of gratings that can create waste. Furthermore, the gratings formed from the present disclosure allows for repeatable and accurate processes that include grating cuts that have the same look for the flush cross members and overhanging cross members, as opposed to the manual process which results in variability with respect to the cuts that are made in the gratings. 
     It should be understood that “operatively coupled,” when used herein, means that the components may be formed integrally with each other, or may be formed separately and coupled together. Furthermore, “operatively coupled” means that the components may be formed directly to each other, or to each other with one or more components located between the components that are operatively coupled together. Furthermore, “operatively coupled” may mean that the components are detachable from each other, or that they are permanently coupled together. 
     Also, it will be understood that, where possible, any of the advantages, features, functions, devices, and/or operational aspects of any of the embodiments of the present invention described and/or contemplated herein may be included in any of the other embodiments of the present invention described and/or contemplated herein, and/or vice versa. In addition, where possible, any terms expressed in the singular form herein are meant to also include the plural form and/or vice versa, unless explicitly stated otherwise. Accordingly, the terms “a” and/or “an” shall mean “one or more.” 
     Certain terminology is used herein for convenience only and is not to be taken as a limiting, unless such terminology is specifically described herein for specific embodiments. For example, words such as “top”, “bottom”, “upper”, “lower”, “first”, “second”, or the like may merely describe the configurations shown in the figures and described herein for some embodiments of the invention. Indeed, the components may be oriented in any direction and the terminology, therefore, should be understood as encompassing such variations unless specified otherwise. The terminology includes the words specifically mentioned above, derivatives thereof and words of similar import. 
     While certain exemplary embodiments have been described and shown in the accompanying drawings, it is to be understood that such embodiments are merely illustrative of and not restrictive on the broad invention, and that this invention not be limited to the specific constructions and arrangements shown and described, since various other changes, combinations, omissions, modifications and substitutions, in addition to those set forth in the above paragraphs, are possible. Those skilled in the art will appreciate that various adaptations, modifications, and combinations of the just described embodiments can be configured without departing from the scope and spirit of the invention. Therefore, it is to be understood that, within the scope of the appended claims, the invention may be practiced other than as specifically described herein.