Patent Abstract:
In general the present invention provides an alignment assembly for aligning a strip before it is cut in a cutting station in a tire belt making machine, the alignment assembly including a guide that defines an axis, a surface adapted to support the strip adjacent to the guide, and an actuator adapted to move at least one of the guide toward the surface to contact an edge of the strip against the guide, thereby aligning the strip to the guide&#39;s axis.

Full Description:
TECHNICAL FIELD  
       [0001]     In general, the present invention relates to a tire belt making machine. More particularly, the present invention relates to a cutting station in a tire belt making machine. Most particularly, the present invention relates to a belt alignment system used in connection with the cutting station.  
       BACKGROUND OF THE INVENTION  
       [0002]     Tire belt making machines generally include an extruding station that produces a strip of elastomeric material that is transported to a cutting station where it is cut into plies that are spliced together to form a tire belt. To splice the plies together, they are placed on an indexing conveyor. After a ply is laid on the conveyor, it indexes a distance to receive the next ply. The index distance is based on the ply width and the type of splice used to join the plies. For example, when a butt splice is used, the conveyor indexes a distance substantially equal to the width of the ply so that adjacent plies lay next to each other without overlap. In some cases, lap splices may be used and the conveyor index would be less than the width of a strip.  
         [0003]     Existing tire belt making machines rely heavily on an operator that monitors the strip width and splice quality to determine the indexing distance of the conveyor. The operator also controls the speed of the extruder and cooling station. Coordinating these activities to create a good splice requires great skill. To develop this skill, the operator generally needs to spend many hours working at the machine. Even highly skilled operators tend to operate the extruder at a slower than optimal speed to ensure good splices every time.  
         [0004]     Recently, the applicants developed a tire making machine that decreases reliance on the operator by automating extruder speed, strip width monitoring, and indexing distance operations. While the automated tire belt making machine was able to make highly accurate adjustments of the index distance based on the strip width measurement taken by the machine, a few inaccurate splices were observed. It was discovered that since the strip entering the cutter was undergoing changes in its width, it was not always picked up in the same position as the previous strip. While the index distance reflected the strip width, the misalignment of incoming strips relative to each other resulted in poor splices. Consequently, there is a need for a system of aligning the strips before they are cut.  
       SUMMARY OF THE INVENTION  
       [0005]     In general the present invention provides an alignment assembly for aligning a strip before it is cut in a cutting station in a tire belt making machine, the alignment assembly including a guide that defines an axis, a surface adapted to support the strip adjacent to the guide, and an actuator adapted to move at least one of the guide toward the surface to contact an edge of the strip against the guide, thereby aligning the strip to the guide&#39;s axis.  
         [0006]     The present invention further provides a cutting assembly for cutting a tire strip in a tire belt making machine, the cutting assembly including a cutter, a table upstream of the cutter, the table having a surface adapted to support the tire strip, where the surface is moveable relative to a guide located adjacent to the surface. The guide defines an axis and extends upward from the plane of the surface and extends sufficient to contact an edge of the strip. The cutting assembly further includes an actuator engageable with the surface and adapted to selectively move the surface toward the guide to contact the strip with guide and align the strip along the axis.  
         [0007]     The present invention further provides a method for aligning the strip in a tire belt making machine before it is cut at a cutting station, the method including providing a guide that defines an axis upstream of the cutting station, and delivering the strip adjacent to the guide and moving the strip laterally to contact the guide and align it along the guide&#39;s axis.  
         [0008]     The present invention further provides a tire belt making machine including an extruder that produces a strip, a cutting station adapted to cut the strip into plies, an index conveyor adapted to receive the plies after they are cut, and a controller in communication with a strip width monitor adapted to measure the strip width before a strip is cut, wherein said controller is adapted to move a ply on said index conveyor a distance that takes the measured strip width into consideration; and an alignment assembly located upstream of the cutter including a guide that defines an axis and a surface on which a portion of the strip is received before it is cut, and an actuator adapted to move said surface having said strip thereon toward said guide to contact the strip with the guide and align it along the axis. 
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0009]      FIG. 1  is a schematic elevational view of a tire making machine according to the concepts of the present invention;  
         [0010]      FIG. 2  is a top plan view of a prior art cutting station;  
         [0011]      FIG. 3  is a top plan view of an alignment system according to the concepts of the present invention;  
         [0012]      FIG. 4  is a front elevational view of an alignment system similar to the one depicted in  FIG. 3 ;  
         [0013]      FIG. 5  is a left side elevational view of an alignment system similar to the one depicted in  FIG. 3 ;  
         [0014]      FIG. 6  is an enlarged top plan view of an alignment system according to the concepts of the present invention having a surface for supporting a tire strip in a first position relative to a guide that extends parallel to the flow of the strip; and  
         [0015]      FIG. 7  is an enlarged top plan view similar to the one shown in  FIG. 6  depicting the surface in a second position, where the surface has moved toward the guide to align the tire strip against the guide. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0016]     A tire belt making machine according to the concepts of the present invention is depicted in the drawings and generally referred to by the number  10 . Tire belt machine  10  generally includes an extruder assembly, generally indicated by the number  20 , a cooling station, generally indicated by the number  30 , and a cutting station, generally indicated by the number  40 , and an exit conveyor, generally indicated by the number  50 . The finished belt may be taken up from the exit conveyor  50  on drums or other processing may occur as is familiar to those of ordinary skill in the art.  
         [0017]     In making a tire belt, the extruder assembly  20  includes an extruder  22  that produces a tire strip S in a generally continuous fashion. The extruder may incorporate fibers or other reinforcement into the strip S. After exiting the extruder, the tire strip may be run through cooling station  30 , which may include a series of drums  32  on which the tire strip S is transported until it has cooled to a point where further processing may occur. Since the tire strip S is generally dimensionally stable as it exits the cooling station  30 , the cooling station  30  may include a strip width monitor, generally indicated by the number  35 , that measures the width of the strip S and reports it to a controller C. After strip S has cooled, it is delivered to the cutting station  40  where it is cut into plies P.  
         [0018]     In general, the strip S is laid onto a table, generally indicated by the number  41 , a selected length of strip S is drawn past a cutter, generally indicated by the number  42 , and the cutter  42  is then activated to cut that selected length of strip S into a ply P. Transport of the strip past the cutter  42  may occur in any known manner. For example, a pick-up assembly, generally indicated by the number  43  may be used to pull the strip S past the cutter  42  and on to a conveyor  50 . Vacuum pick-up  43  includes a vacuum head  44  that moves over a selected portion of the tire strip S while it is lying on the table  41 . A vacuum is then applied to the vacuum head  44  to pick-up the selected portion of the strip S and then vacuum head  44  is moved to draw the strip S past the cutter  42 . In the example shown, the vacuum head  44  lays the selected portion of strip S on the index conveyor  50 , and the cutter  42  is activated to cut that portion into a ply P. In the example shown, vacuum head  44  generally moves in a straight line substantially parallel to the axis of the strip S.  
         [0019]     Based on the strip width measurement and the desired splice, the controller C indexes the conveyor  50  a selected distance before the next ply P is cut. In this way successive plies are laid on the conveyor  50  and joined to form a belt B.  
         [0020]     Since indexing of the conveyor  50  is generally based on the edge-to-edge dimension (width) of the tire strip S, to ensure accurate placement of the strip S on the conveyor  50 , the present invention aligns at least one edge of strip S along an axis A before the strip S is cut. To that end the present invention includes an alignment assembly, generally indicated by the number  60  in the drawing. In the example shown, the alignment assembly  60  is used in connection with the cutting station  40  to align the tire strip S before it is cut. In general, alignment assembly  60  includes a surface  62  on which the strip S rests before entering the cutter. The alignment assembly  60  also includes a guide  64  that defines an axis A to which the strip S is aligned. The guide  64  may be any structure suitable for defining axis A. For example two or more contact points may be provided to define axis A. In the example shown, guide  64  includes a fence extending along one side of table  61 . The fence has a face  66  that contacts the strip S. In operation, alignment assembly  60  brings the strip S and guide  64  into contact to align strip S along axis A. In the example shown, the surface  62  moves relative to a stationary guide  64  to bring the strip S into contact with the guide  64 . It will be appreciated that the guide  64  or both the guide  64  and surface  62  may be moved to align the strip S.  
         [0021]     An actuator, generally indicated by the number  70 , is provided to move the surface  62 . Any actuator capable of moving the surface  62  relative to the guide  64  to cause the portion of strip S on surface  62  to contact the guide  64  may be used. In the depicted example, a linear actuator, such as an air cylinder, is used. This example is not to be considered limiting. The surface  62  may be mounted on suitable bearings  72  such as, for example, rails  74  oriented in the desired direction of travel for the surface  62 . In the example shown, the surface  62  travels generally perpendicularly to the guide  64 .  
         [0022]     As best shown in  FIGS. 6 and 7 , the surface  62  may be in a first position ( FIG. 6 ) when the strip S is initially placed on the surface  62 . To align the strip S with the guide  64 , the surface  62  shifts laterally to bring the strip S into contact with guide  64  ( FIG. 7 ). After the strip S is cut, the surface  62  returns to the first position to align the next incoming portion of strip S. The surface  62  may be returned by the actuator  70  or a biasing system may be used to bias the surface  62  toward the first position ( FIG. 6 ), such that release of the actuator would allow the surface  62  to return to the first position ( FIG. 6 ).  
         [0023]     To better hold the strip S on the surface  62 , a vacuum may be applied to the surface  62  to draw the strip S against the surface  62 . For example, one or more openings  75  may be defined within the surface  62  and connected to a vacuum source. The openings  75  may be formed in any arrangement and at any location on the surface beneath the tire strip S. In the example shown, plural openings  75  are located near the guide  64  to better hold the edge of the strip S that is being aligned along the guide  64 . As shown, the openings  75  may be aligned along a common line extending parallel to the guide  64 .  
         [0024]     In operation, the extruded strip S arrives at the table  61  and is provided onto the surface  62  before entering the cutter  42 . Surface  62  moves toward the guide  64  to cause the strip S to contact the guide  64  and align the strip S along axis A. With the strip S so aligned, operation of the cutting station  42  continues in an ordinary fashion. The vacuum assembly  43  picks up the selected portion of the strip S to be cut and moves it to the conveyor  50 . After the strip S has been moved, the cutter  42  is activated to cut the strip S into a ply P. After the cut has been made, the alignment assembly  60  aligns the strip S against the guide  64  and the process is repeated so that each strip S is aligned along a common axis A before it is cut. With the strip S aligned, the conveyor  50  may index a distance corresponding to the strip width as measured by the strip width monitor  35  and reported to the controller C. With the strips aligned along a common axis A, the indexing of the conveyor according to the strip width results in accurate placement of the subsequent ply relative to the ply on the conveyor. As a result, better splices are achieved improving overall belt quality.  
         [0025]     It will be appreciated that an alignment system according to the concepts of the present invention may also be used in existing machines to aid the operator. To that end the alignment assembly  60  or a cutting station  30  including an alignment assembly according to the concepts of the present invention may be retrofit to existing tire belt making machines.  
         [0026]     In accordance with the patent statutes only one embodiment of the present invention is depicted. Changes and modifications may be made to the depicted embodiment without departing from the present invention, and, therefore, to appreciate the scope of the present invention, reference should be made to the attached claims.

Technology Classification (CPC): 1