Abstract:
A method is provided for assembling a bale tag and twine assembly to a baled crop during a baling process. The method includes providing the bale tag having a body with a first end and a second end, and a piece of twine having a defined length. The method also includes indicating at a location on the bale tag an identification indicia that corresponds to the bale tag, and orienting the first end of the bale tag relative to the twine such that the first end of the bale tag is to be passed through a twine tensioner during the baling process before the second end. The method further includes coupling the bale tag to the twine before executing the baling process, forming the baled crop during execution of the baling process, and assembling the bale tag and twine assembly to the baled crop.

Description:
FIELD OF THE DISCLOSURE 
       [0001]    The present disclosure relates to a work machine for baling crop, and more particularly to a system and method of identification tagging of baled crop. 
       BACKGROUND 
       [0002]    Hay and foraging equipment are utilized in the processing of plant material and include mowers, conditioners, flail choppers, windrowers, and balers for both dry and silage uses. The hay system, such as a square baler, includes a pickup mechanism, which picks crop material from the ground and supplies it to a bale-forming chamber. The bale-forming chamber receives the crop material and includes a plunger or piston that applies an axial force against an accumulation of the crop material to form a substantially square-shaped bale. The plunger or piston can further apply a force to a face of the bale to further densify the bale. Once the bale reaches a certain or desired density, the bale may be pushed and extruded out the rear of the baler. 
       SUMMARY 
       [0003]    In one embodiment of the disclosure, a bale tag for coupling to a piece of twine is provided. The bale tag includes an elongated body having a first end and a second end, the body defining a bore therethrough; a first portion of the body disposed at the first end; a second portion of the body disposed at the second end; and a third portion of the body disposed between the first portion and the second portion; wherein, the first portion is tapered at a first taper angle from a location adjoining the third portion to the first end, and the second portion is tapered at a second taper angle from a location adjoining the third portion to the second end. 
         [0004]    In one example of the bale tag, the first portion, the second portion, and the third portion each include a length. The length of the first portion is greater than the length of the second portion, and the length of the second portion is greater than the length of the third portion. In a second example, the bore includes a diameter, the first end of the body includes a first width, and the second end of the body comprises a second width. Here, the diameter is approximately the same as the first width and the second width. In a third example of this embodiment, the body is formed of nylon, a polymer, an elastomer, or a combination thereof. 
         [0005]    In another example, the bale tag includes an identification indicia disposed on the body, wherein the identification indicia comprises a bar code, a quick response code, an identification number, an alpha-numeric code, a color, or an embedded radio-frequency identification (RFID) chip and antenna. In a further example, the first taper angle is less than the second taper angle. In yet a further example, the first portion, the second portion, and the third portion each include a length, the length of the first portion and the second portion are approximately the same. 
         [0006]    In another embodiment of the present disclosure, a method is provided for assembling a bale tag and twine assembly to a baled crop during a baling process. The method includes providing the bale tag having a body with a first end and a second end, and a piece of twine having a defined length; indicating at a location on the bale tag an identification indicia that corresponds to the bale tag; coupling the bale tag to the twine before executing the baling process; forming the baled crop during execution of the baling process; and assembling the bale tag and twine assembly to the baled crop. 
         [0007]    In one example of this embodiment, the coupling step includes inserting the twine through a bore defined in the body of the bale tag, where the bale tag substantially surrounds the twine. Moreover, the method may include adhering the bale tag to the twine to limit movement of the bale tag along the length of the twine. In a second example, the coupling step includes embedding the bale tag inbetween the twine, where the twine substantially surrounds the bale tag. In a third example, the coupling step includes intertwining the bale tag with the twine. 
         [0008]    In a fourth example of this embodiment, the method may include visually indicating on the twine the location where the bale tag is coupled to the twine. The visually indicating step may include marking a color or other visual identifier on the twine to assist with locating the bale tag. In a fifth example, the assembling step may include tying a first end of the twine to a second end thereof, where a knot is formed during the typing step. In doing so, the knot defines an outer diameter and the bale tag defines an outer width. The outer width may be less than the outer diameter. 
         [0009]    In a further example, the method may include providing a second bale tag having a second identification indicia that corresponds to the second bale tag, the second identification indicia being different from the identification indicia of the first bale tag; and coupling the second bale tag to the twine at a location spaced from the first bale tag before executing the baling process. 
         [0010]    In a further embodiment of this disclosure, a method is provided for producing a bale tag and twine assembly for a baled crop formed during a baling process. The method includes providing a plurality of bale tags, where each of the plurality of bale tags includes a body and a unique identification indicia associated with the corresponding bale tag; coupling a first bale tag of the plurality of bale tags to a piece of twine having a defined length; coupling a second bale tag of the plurality of bale tags to the piece of twine at a location spaced from the first bale tag; and producing the bale tag and twine assembly. The coupling steps may be executed via one of an embedding process, an enveloping process, or an intertwining process. Moreover, the coupling steps are executed before the baling process. 
         [0011]    In one example of this embodiment, the enveloping process may include providing a bore defined through the body of each of the plurality of bale tags; inserting the twine into the bore; and pulling the twine through the bore so that each of the plurality of bale tags surround the twine. In a second example, the method may include fastening each bale tag to the twine to limit movement thereof relative to the twine. In a third example, during the baling process the twine is cut at a location along its length and tied to the baled crop. At least one of the plurality of bale tags is assembled to the baled crop. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0012]    The above-mentioned aspects of the present invention and the manner of obtaining them will become more apparent and the invention itself will be better understood by reference to the following description of the embodiments of the invention, taken in conjunction with the accompanying drawings, wherein: 
           [0013]      FIG. 1A  is a perspective view of an example baler towed by an agricultural vehicle; 
           [0014]      FIG. 1B  is a perspective view of the baler of  FIG. 1 , which portions of the cover of the baler removed; 
           [0015]      FIG. 2  is a perspective view of a baled crop; 
           [0016]      FIG. 3  is a side view of a bale tag; 
           [0017]      FIG. 4  is a cross-sectional view of the bale tag of  FIG. 3 ; 
           [0018]      FIG. 5  is a side view of another bale tag; 
           [0019]      FIG. 6  is a schematic view of the bale tag of  FIG. 3  and a twine knot; 
           [0020]      FIG. 7  is a side view and cross-sectional view of a combination of twine and a bale tag; and 
           [0021]      FIG. 8  is a side view and cross-sectional view of another combination of twine and a bale tag. 
       
    
    
     DETAILED DESCRIPTION 
       [0022]    The embodiments of the present disclosure described below are not intended to be exhaustive or to limit the disclosure to the precise forms disclosed in the following detailed description. Rather, the embodiments are chosen and described so that others skilled in the art may appreciate and understand the principles and practices of the present disclosure. 
         [0023]    Referring now to  FIG. 1A , large square baler  12  may be towed across a field by agricultural vehicle  10 . (It will be understood that various other configurations are also possible, For example, the disclosed sensor assembly and method may be utilized with a variety of balers or other equipment.) Baler  12  may include housing  14 , which may generally shield various internal components of baler  12 . As baler  12  moves across a field (e.g., as towed by vehicle  10  via connection  10   a ) and encounters a windrow or other arrangement of material (not shown), pick-up assembly  16  may gather the material and move it up and into housing  14  for processing. As a result of this processing, as described in greater detail below, bale  18  may be formed and may be ejected from the rear of baler  12 . 
         [0024]    In various embodiments, baler  12  (or vehicle  10 ) may include one or more computing devices, such as controller  34 . Various alternative locations for controller  34  are depicted in  FIG. 1A , including locations on vehicle  10  and baler  12 . It will be understood that one or more controllers  34  may be employed and that controller  34  may be mounted at various locations on vehicle  10 , baler  12 , or elsewhere. Controller  34  may be a hardware, software, or hardware and software computing device, and may be configured to execute various computational and control functionality with respect to baler  12  (or vehicle  10 ). As such, controller  34  may be in electronic or other communication with various components and devices of baler  12  (or vehicle  10 ). For example, controller  34  within baler  12  may be in electronic communication with various actuators, sensors, and other devices within (or outside of) baler  12 . Controller  34  may communicate with various other components (including other controllers) in various known ways, including wirelessly. The baler  12  and related embodiments thereto are further described in U.S. Publication Ser. No. 2015/0208586, the disclosure of which is hereby incorporated by reference. 
         [0025]    Referring now also to  FIG. 1B , various internal components of an example configuration of baler  12  are depicted. It will be understood that various other configurations may also be possible. Pick-up assembly  16 , for example, may include rotary tine pick-up  22  for gathering crop material from windrow (not shown). Material gathered by rotary tine pick-up  22  may be routed to feed auger  24 , which may further direct the material toward baling chamber  38  for compaction into a baler. 
         [0026]    Baling chamber  38 , which is depicted with upper panel  38   a  in place, may be a chamber of generally rectangular cross section extending axially along baler  12  in a generally front-to-back direction. Chamber  38  may be configured in various ways to receive material gathered by pick-up assembly  16 , hold the material for compaction, then release the resulting bale from the back (or other portion) of baler  12  (e.g., as depicted for bale  18 , in  FIG. 1A ). 
         [0027]    Baling chamber  38  may be bounded on one or more sides (e.g., to the right and left, from the perspective of the forward direction of baler  12 ) by tension panels  52 , which may be movable in order to control various aspects of a baling operation. For example, various actuators (not shown) may be mounted to baler  12  and one or more of tension panels  52  such that the actuators may cause tension panels  52  to vary the cross-sectional area of baling chamber  38 . In certain embodiments, for example, hydraulic pistons (not shown) may be configured to pivot tension panels  52  into (or out of) baling chamber  38 , in order to decrease (or increase) the cross-sectional area of chamber  38  and thereby increase (or decrease) the force required to push a given amount of compacted crop material through chamber  38  (e.g., the pressure required for plunger  54  to move the bale through chamber  38 ). In this way, for example, tension panels  52  may be utilized to vary the density of the resulting bale  18 . 
         [0028]    Compaction of crop material within baling chamber  38  may be driven in various ways. For example, as depicted in the various figures, plunger  54  (not shown in  FIG. 1B ) may be driven by a crank arm assembly. As depicted in  FIG. 1B , power take off (“PTO”) connection shaft  26  may be configured to receive rotational power from PTO shaft of vehicle  10  (e.g., via connection  10   a , as shown in  FIG. 1A ). In certain embodiments, accordingly, whenever the PTO output of vehicle  10  is engaged, PTO connection shaft  26  may be receiving rotational power from vehicle  10 . (It will be understood that various other configurations are also possible, such as configurations in which shaft  26  (or various other components of baler  12 ) may be selectively disengaged even if the PTO output of vehicle  10  is engaged.) 
         [0029]    In various embodiments, PTO connection shaft  26  may provide rotational power to gear box  28 . Through one or more internal gears (not shown in  FIG. 1B ), this power may be routed through gear box  28  to crank arms  30 , which may be connected to plunger  54  via connecting rod(s)  32 . (Connecting rods  32  have been partially removed in  FIG. 1B , for clarity of presentation.) In this way, rotational power may be provided from vehicle  10  to crank arms  30 . Crank arms  30 , accordingly, may then drive the reciprocating motion of plunger  54 , via connecting rod(s)  32 , in order to compact material within baling chamber  38  into formed bales  18 . It will be understood that various other configurations may be possible. For example, in certain embodiments, gear box  28  may be powered by an electrical or hydraulic machine rather than by direct mechanical power from a PTO interface. 
         [0030]    In various embodiments, rotation of PTO connection shaft  26  (e.g., as powered by the PTO output of vehicle  10 ) may additionally (or alternatively) provide rotational power to various components of baler  12 . For example, the motion of various components of pick-up assembly  16 , various tying mechanisms (not shown), pumps for hydraulic actuation of tension panels  38  (not shown), and so on, may be driven via power connections of various known types (e.g., chain or belt drives) to PTO connection shaft  26  or associated components. 
         [0031]    A twine tying arrangement (not shown) may be provided for wrapping and tying multiple loops of twine about a completed bale. The bale tying cycle may be initiated by a bale length sensor arrangement (not shown) including a toothed metering wheel (not shown) mounted on a shaft (not shown) extending horizontally across and being rotatably mounted to the top of the baling chamber  38 . The metering wheel may have a toothed periphery which extends into the baling chamber  38  and is contacted by a forming bale so as to be rotated as the bale grows in length. The rotation of the metering wheel is sensed and converted into a signal representing bale length, with a control signal being sent to initiate the tying cycle when the forming bale reaches a length corresponding to a desired bale length. An example of a twine tensioner or knotter system is described in U.S. Pat. No. 8,617,834 to Deere &amp; Company, the disclosure of which is hereby incorporated by reference. 
         [0032]    As the baled crop is formed in the baler  100 , certain parameters or qualities of the crop may be measured or determined, e.g., moisture quality, baling time, bale weight, bale length, etc. The ability to trace or track baling parameters can be useful to an end user. Baled products, such as hay or silage, may be fed to livestock, and the quality of the feed may be important to the diet of the livestock. To achieve this traceability of the baled product, a tagging system may be employed for storing or otherwise retaining the parameters or quality of the crop. For example, a higher quality feed may be fed to certain livestock, whereas feed with lesser quality may go to a different type of livestock (e.g., dairy cow versus a dry cow). 
         [0033]    In the organic food industry, for example, traceability of feed quality is desired. Many in the industry want to know where food products (such as milk) come from, what the livestock ate while it was being raised, etc. As a result, the tagging system may be employed in the baling process to provide this type of information to the consumer. 
         [0034]    Referring now to  FIG. 2  of the present disclosure, one embodiment of a baled crop  200  is shown. In this embodiment, a bale of hay  200  is shown formed in a rectangular shape with twine  202  wrapped around and fastened about the crop. The twine  202  may be fastened or tied along the length of the crop  200 , and there may be one or more pieces of twine  202  coupled thereto. As also shown, a first bale tag  204  and a second bale tag  206  may be coupled to the twine  202  at different locations along the length thereof. Each bale tag may include a different identification number, or in some instances, the identification number may be the same. Moreover, in at least one embodiment, only one bale tag may be coupled to the twine  202 . 
         [0035]    In at least one embodiment, the bale tag may be coupled to or integrated into the twine before the bale is made. This may happen, for example, by the twine manufacturer to improve or simplify the ease of use during the baling process (i.e., tagging issues may be avoided). The bale tag may be coupled to the twine via an adhesive, mechanical clamping or coupling, heat, or otherwise integrated in other known manners. In  FIGS. 3 and 4 , an example of a bale tag  300  is shown. The bale tag  300  may be formed by an elongated body  306  having an overall length, L, defined between a first end  302  and a second end  304 . The bale tag  300  may be formed of a nylon, polymer or elastomer material. 
         [0036]    In  FIG. 3 , the body  306  may include a first portion  308 , a second portion  310 , and a third portion  312 . The first portion  308  and the second portion  310  may be tapered, whereas the third portion  312  is disposed between the first and second portions. For instance, the first portion  308  may taper from where it adjoins the third portion  312  to the first end  302 . Likewise, the second portion  310  may taper from where it adjoins the third portion  312  to the second end  304 . 
         [0037]    A central bore or channel  314  is defined in the body  306  from the first end  302  to the second end  304 . The bore or channel  314  may be sized such that twine can pass therethrough. The bore or channel  314  may have an outer diameter, D B , whereas the body  306  may have a larger dimension, D. As shown in  FIG. 4 , the overall cross-section of the body  306  may be oval and the cross-section of the bore or channel  314  is circular. In other embodiments, the cross-section of the body  306  and bore  314  may take a different shape including circular, oval, square, rectangular, polygonal, etc. In  FIG. 4 , the oval-shaped body  306  may have a first dimension D and a second dimension, D x . As shown, the second dimension, D x , may be greater than the first dimension, D. 
         [0038]    The first portion  308  may have a defined length, L 1 , as shown in  FIG. 3 . The combined length of the second portion  310  and third portion  312  may be the same as the length of the first portion  308 , although this is only one example. In other examples, the lengths may differ. In the example of  FIG. 3 , the length of the second portion is L 3  and the length of the second portion is L 2 . Here, the length L 2  is closer to the length L 1  of the first portion  308  than the length L 3  of the second portion  310 . 
         [0039]    As noted above, the first portion  308  of the bale tag  300  tapers from the third portion  312  to the first end  302 . The taper angle, Θ 1 , may be less than 20° in one example. In a different example, the angle may be less than 10°. Further, in a third example, the angle may be less than 5°. As shown in  FIG. 3 , the second portion  310  may also taper from the third portion  312  to the second end  304 . Here, the taper angle, Θ 2 , may be less than 60°. In another example, the taper angle, Θ 2 , may be less than 45°. Moreover, in a further example, the taper angle, Θ 2 , may be greater than the first taper angle, Θ 1 , but less than 35°. In the embodiment of  FIGS. 3 and 4 , the bale tag  300  may be designed such that the first taper angle, Θ 1 , is less than the second taper angle, Θ 2 . In other embodiments, however, this may be different. 
         [0040]    In  FIG. 5 , for example, a second bale tag  500  is shown. The second bale tag  500  is structured similar to the first bale tag  300  of  FIG. 3  in that each tag envelopes or is designed in a collar-like fashion for coupling to a piece of twine  502 . As shown, the tag  500  includes a bore or channel through which the twine  502  passes when coupled. The tag  500  may be adhered or otherwise fastened to the twine  502  to limit its movement along a length of the twine  502 . 
         [0041]    The bale tag  500  may include a body  504  having a first end  506  and a second end  506 . The body  506  may have a smaller dimension at the first end  506  and second end  508 , and a larger dimension at a location therebetween. For example, in  FIG. 5 , the tag  500  may include a first portion  510  near the first end  502 , a second portion  512  near the second end  504 , and a third portion  514  disposed between the first portion  510  and the second portion  512 . In this embodiment, the bale tag  500  has an overall length of L. The first portion  510  and the second portion  512  may have a length, L B , and the third portion  514  may have a length, L A . 
         [0042]    In a non-limiting example, the overall length, L, of the bale tag  500  may be approximately 30 mm. The length, L B , of the first and second portions may be approximately 5 mm, and the length, L A , of the third portion may be approximately 20 mm. This, however, is only an example and is not intended to limit the scope of this disclosure. The size of the bale tag may differ in other embodiments, and thus the lengths in  FIGS. 3 and 5  are non-limiting. 
         [0043]    As previously described, the body  504  in  FIG. 5  may define an inner bore or channel through which the twine  502  is fed through during the twine manufacturing process. The twine  502  may have an outer diameter, D 3 , as shown in  FIG. 5 . The third portion  514  may have an outer diameter or dimension, D 1 , and the first and second portions may have an outer diameter or dimension, D 2 . Each of the first and second dimensions, D 1  and D 2 , are greater than the outer diameter, D 3 , of the twine  502 . Moreover, the first portion  510  and second portion  512  may taper from the first dimension, D 1 , to the respective first end  506  and second  508 . As shown in  FIG. 5 , the taper angle, Θ, may be less than 45° in one embodiment. In a second embodiment, the taper angle, Θ, may be less than 30°. In a further embodiment, the taper angle, Θ, may be less than 25°. In other embodiments, however, the taper angle may be less than 90°. 
         [0044]    In a non-limiting example, the twine  502  may have a diameter of approximately 4 mm. The first or largest dimension, D 1 , of the bale tag  500  may be approximately 10 mm, and the second or smallest dimension, D 2 , may be approximately 6 mm. This, however, is only an example and is not intended to limit the scope of this disclosure. The size of the bale tag may differ in other embodiments, and thus the dimensions or diameters in  FIGS. 3 and 5  are non-limiting. 
         [0045]    As previously described, the material of the bale tag can vary depending upon the embodiment. The material may include nylon, a polymer, or an elastomer. In  FIG. 5 , for example, the bale tag  500  may be formed of polypropylene. In  FIG. 3 , the first portion  308  of the bale tag  300  may be formed of a flexible yet resilient material, whereas the second portion  310  and third portion  312  may be formed of a more rigid or semi-rigid material compared to the first portion  308 . In this embodiment, the second and third portions may be formed of a more rigid material for encasing a radio-frequency identification (RFID) chip and an antenna (not shown). In other embodiments, visual identification mechanisms such as a quick response (QR) code, bar code, identification number, alpha-numeric code, or color may be printed or formed on the second and third portions of the bale tag  300 . 
         [0046]    The outer surface of the third portion  312  of the bale tag  300  may include a low friction surface. This low friction outer surface may also be the case with the first and second portions as well. In the embodiment of  FIG. 4 , the size of the bale tag  300  includes at least two dimensions, D and D x . The larger dimension, D x , is sized so that a bar code, for example, may be affixed or displayed on the surface of the tag. 
         [0047]    While the bale tag  300  in  FIG. 3  may include various shapes and sizes, it may be adhered to the twine to limit its movement therealong. Moreover, the twine manufacture may color-code the twine to provide a visual identification as to a location of the bale tag on the twine. For example, the twine may include a first color indicative of a location where a bale tag is located on the twine, and the rest of the twine may be a second color where no bale tag is located. This allows for easy location of the bale tag after the baled crop is extruded from the rear of the baler. 
         [0048]    In  FIGS. 3-5 , the bale tag is depicted as including tapered ends with a non-tapered section therebetween. In a further embodiment, however, the bale tag may include a first portion and a second portion. In this embodiment, only the first portion may be tapered and the second portion is non-tapered. When coupled to or integrated into the twine, the bale tag may be coupled to the twine such that the first portion functions as the leading end and the second end functions as the trailing end. With the tapered, leading end, the bale tag may pass more easily through the twine tensioners compared to a tag that does not include a leading tapered end. Thus, this embodiment may take the form, for example, of the bale tag  300  in  FIG. 3  without having the second portion  310 . In other words, the bale tag  300  of  FIG. 3  may be redesigned to include only the tapered, first portion  308  and the non-tapered third portion  312 , where the first portion  308  passes through the twine tensioners before the third portion  312 . 
         [0049]    During the baling process, opposite ends of a piece of twine may be tied into a knot. As shown in  FIG. 6 , a comparison  600  between a bale tag  602  and a twine knot  604  is shown. Here, it may be desirable for the outer dimension of the bale tag  602  to be less than an outer dimension of the bale knot  604 . As shown, the bale knot  604  may have an outer dimension that is greater than an outer diameter of a piece of twine  606 . As the twine is fed through the baler, wrapped around the baled crop, and tied thereto, the bale tag  602  may pass through tight spaces or around tight corners such that its relatively smaller outer dimension is desirable. This can reduce possible damage to the bale tag during the baling process. Moreover, the flexible first portion  308  may pass through the tight spaces or corners first before the more rigid second and third portions to provide better protection to the tag. 
         [0050]    Another example of a bale tag and twine arrangement  700  is shown in  FIG. 7 . Here, a bale tag  702  may be inserted into a piece of twine  704 . For example, the bale tag  702  may be embedded into the fibers of the twine  704 . In other words, the twine  704  surrounds or encloses the bale tag  702 . 
         [0051]    In a further example, another bale tag and twine arrangement  800  is shown in  FIG. 8 . The arrangement  800  may include a bale tag  802  and a piece of twine  804 . As shown, the bale tag  802  and twine  804  are intertwined with one another for coupling the bale tag  802  to the twine  804 . In other words, the bale tag  802  may be looped or intertwined between the fibers of the twine  804 . 
         [0052]    Other arrangements may be possible for coupling a bale tag to twine besides the illustrated embodiments. For instance, a bale tag may be clamped, snapped, fastened, adhered, or coupled using any number of fasteners. In at least one embodiment, the bale tag is coupled to the twine in such a way that there is limited movement of the tag along the length of the twine. In other embodiments, however, the bale tag may freely move along the twine. 
         [0053]    In a simplified bale forming process, twine may be provided in the form of a roll or other manner by a twine manufacturer. In addition, a plurality of bale tags may be provided. Each bale tag may include a unique identification number, a bar code, a QR code, an embedded RFID chip and antenna, etc. The bale tag may take the form of any design including those shown in  FIGS. 3-6 . As the twine is manufactured, one or more of the plurality of bale tags may be coupled to the twine. This may happen in accordance with any of the previously described embodiments, e.g., via an embedding process, an intertwining process, an enveloped process, etc. 
         [0054]    During the manufacturing process, the twine may be visually altered at the location at or near each bale tag to provide a means to locate the bale tag once it is disposed about the baled crop. The visual alteration may include a coloring (e.g., paint) process or any other known method. 
         [0055]    Once the bale tags have been assembled to the twine, the twine may be delivered and installed in a baler according to any known method. During the baling process, crop may be collected by the baler according to known methods and the baled crop is formed in the baler, e.g., the baling chamber. Once the baled crop is formed, the twine may be assembled and tied according to any known process. As the twine is assembled to the baled crop, one or more bale tags may be disposed along the crop. If the twine is visually altered at locations near or at the bale tag, the location of the bale tag may be readily identified via the twine. In any event, the bale tags are already assembled to the baled crop once the twine is tied. The one or more bale tags may thus be used for associating certain information about the baled crop to an end user, including moisture of the crop, length or weight of the crop, etc. Moreover, other information such as about the twine may also be associated to the baled crop via the bale tag. 
         [0056]    While embodiments incorporating the principles of the present disclosure have been disclosed hereinabove, the present disclosure is not limited to the disclosed embodiments. Instead, this application is intended to cover any variations, uses, or adaptations of the disclosure using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this disclosure pertains and which fall within the limits of the appended claims.