Patent Publication Number: US-11039976-B2

Title: Portable roller device

Description:
BACKGROUND OF THE INVENTION 
     The present disclosure relates generally to exercise and therapy equipment and, more particularly, to a portable roller device. 
     Roller devices can provide desirable physiological benefits in physical therapy and general fitness activities, such as exercise, and stretching activities. Roller devices enable individuals to target troubled muscle areas using their own body weight to massage away restrictions of their muscles. Additionally, roller devices allow individuals to exercise and perform self-myofascial release therapy without the need to visit a therapist or trainer for each session. 
     Roller devices have not only become an essential device for rehabilitation and training but have also become more common for personal home and office use. Users may be reluctant to purchase roller devices for personal use because of the burden of having to store the equipment if storage space in an office or at home is limited. In addition, individuals undergoing therapy may need to travel for business or may have vacations planned during a period when a therapy session is scheduled. In addition, often times athletes travel to various venues to participate in sporting events. While traveling the availability of space must be taken into consideration whether checking bags with an airline or storing items in the trunk of an automobile. Conventional roller devices are generally inflexible and take up large amounts of space. The problem of space limitations can be compounded if a team trainer or therapist needs to transport multiple roller devices for training multiple athletes or clients at a remote site. For all of these reasons storage and transportation of the roller devices can become problematic. 
     Traveling trainers and clients greatly prefer to have uninterrupted exercise and/or therapy regimens. Those faced with limited storage issues should not be deterred from continuing their exercise or therapy routines due to the inconvenience of storing and/or transporting bulky roller devices. It is therefore desirable to provide a roller device capable of being conveniently transformed from a configuration for storage and transportation to a configuration for use in therapy and exercise. 
     SUMMARY OF THE INVENTION 
     In accordance with an embodiment, a roller device is provided. The roller device includes a core layer, where the core layer includes an outer surface, an inner surface, a first edge, and a second edge, and a coupling mechanism, where the coupling mechanism being configured to secure the first edge and second edge of the core layer. The roller device can further include the core layer having a plurality of segments, where each segment of the plurality of segments includes a first edge, a second edge, an outer surface and an inner surface, where the first edge is opposite the second edge. The roller device further includes the plurality of segments including first neighboring segment and a second neighboring segment, and a plurality of segment connectors, where each segment connector connects one of the plurality of segments to one or more of the other plurality of the segments. 
     In accordance with an embodiment of the present disclosure, a roller device and a method of converting a roller device are provided. The method includes coupling a plurality of segments of the roller device, wherein the plurality of segments are configured to form a tubular shape, wherein each of the plurality of segments are coupled to neighboring segments of the plurality of segments, wherein each of the plurality of segments comprise a first edge and a second edge, wherein the first edge is opposite the second edge. The method also includes a coupling mechanism for coupling the first edge of a segment to a second edge of a first neighboring segment and coupling the second edge of the segment to a first edge of a second neighboring segment. The method includes converting the roller device from a first position to a second position and locking the plurality of segments. 
     In accordance with another embodiment, a method for relieving muscle tension is provided. The method includes providing a roller device. The roller device includes a plurality of segments, wherein each of the plurality of segments comprise a first edge, a second edge, an outer surface and an inner surface, wherein the first edge is opposite the second edge, the plurality of segments further comprising a first neighboring segment and a second neighboring segment. The device also includes a plurality of segment connectors, each segment connector connecting one of the plurality of segments to one or more of the other plurality of the segments. The device also includes a coupling mechanism connected to the first neighboring segment and the second neighboring segment. The method also includes applying the roller device to an area of a body. The method also includes rolling the device across that area of the body. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The subject matter which is regarded as the disclosure is particularly pointed out and distinctly claimed in the claims at the conclusion of the specification. The foregoing and other features and advantages of the disclosure are apparent from the following detailed description taken in conjunction with the accompanying drawings in which: 
         FIG. 1  illustrates an embodiment of a roller device; 
         FIG. 2  illustrates an alternate view of the roller device of  FIG. 1 ; 
         FIG. 3  illustrates another embodiment of a roller device; 
         FIG. 4  illustrates an alternate view of the roller device of  FIG. 3 ; 
         FIG. 5  illustrates a flow diagram of a method for converting the roller device; 
         FIG. 6  illustrates a diagram of a segment and textured layer of the roller device in accordance with an embodiment; 
         FIG. 7  illustrates a diagram of a locking mechanism of the roller device in accordance with an embodiment; 
         FIG. 8  illustrates a diagram of a locking mechanism of the roller device in accordance with an embodiment; and 
         FIG. 9  illustrates a diagram of a locking mechanism of the roller device in accordance with an embodiment. 
     
    
    
     DETAILED DESCRIPTION 
     In accordance with embodiments of the disclosure, a roller device and a method for converting a roller device are provided. An object of the present disclosure is to provide a roller device that is capable of converting from a first flat position to a second rigid or semi-rigid tubular position. Another object of the disclosure is to improve the storage and portability of the roller device without sacrificing the operability of the device to function as a roller device. The roller device is capable of maintaining its tubular position through rotational forces when being used by a client. The structure of the roller device can be created from a single component or multiple components formed of plastic, metal or other rigid materials. This rigid structure can be the roller in whole or a base structure supporting a layer of material offering a different durometers or ability to be compressed. The rigid structure can also incorporate the hinge or hinge like mechanisms. 
     In an embodiment, the roller device includes a single flexible material that is capable of lying flat and converting into a rigid tubular position. In an exemplary embodiment, the roller device comprises a plurality of segments. In some embodiments, each of the plurality of segments can be connected to one or more neighboring segments, such as two neighboring segments. For example, a segment can be connected to a neighboring segment on a first side and connected to a further neighboring segment on a second side, wherein the second side is opposite the first side. In some embodiments, one or more segments can have a defined arc that can allow the plurality of segments to form a tubular shape when connected together, while in other embodiments the plurality of segments can have a flat surface. When connected to one another the plurality of segments being parallel to one another lie in a horizontal plane in a flat position for transport and storage. Additionally, the plurality of segments can be formed into a tubular shape. In some embodiments, the tubular shape is a cylinder. In some embodiments, the tubular shape is a polygon, such as a pentagon, hexagon, heptagon, octagon, nonagon, or decagon. When configured in the tubular position the plurality of segments form an outer surface which provides a surface to treat the user&#39;s body during rolling. In some embodiments when the plurality of segments are connected an inner cavity is formed. 
     Now referring to  FIG. 1 , a roller device  100  is shown. The roller device  100  is shown in a first flat position. In the first flat position, the plurality of segments lie connected to one another in a parallel fashion in a horizontal plane. In some embodiments, the roller device is rectangular in shape when in a first flat position. As a non-limiting example, the rectangle can have a width W of 5 to 40 inches, or 5 to 30 inches, or 10 to 30 inches, or 10 to 20 inches, or 10 to 15 inches, or 14 inches. In some embodiments, the rectangle can have a length L of 5 to 40 inches, or 5 to 30 inches, or 10 to 30 inches, or 10 to 20 inches, or 10 to 15 inches, or 11.5 inches, and a thickness or height of 0.5 to 3 inches, or 1 to 3 inches, or 1 to 2 inches, or 1.7 inches. The first flat position can be convenient for storage and/or transportation of the device. In another embodiment, the roller device can be formed by a single flexible, semi-rigid material. The roller device can include a plurality of segments numbered,  102   a ,  102   b  . . .  102   h  forming a core layer or base layer of the device, where each of the plurality of segments has an inner surface  110  and an outer surface  104 , and where n represents the total number of segments in the device and is an integer from 1 to 100. In an embodiment, the outer surface  110  can have a flat or curved surface and the inner surface  110  can have a flat or curved surface. In a non-limiting example,  FIG. 1  depicts an exemplary roller device  100  having 8 segments. In some embodiments, the roller device has from 5 to 50 segments, such as 5 to 20 segments, or from 5 to 10 segments. Preferably, the device has from 5 to 10 segments. The outer surface  104  of each segment  102  provides a surface that makes contact with a user&#39;s muscles or target area during use. In an exemplary embodiment, the outer surface  104  as shown in  FIG. 1  can have a smooth surface. In another embodiment, the outer surface  104  can have a textured/patterned surface. Additionally, the outer surface  104  may have various densities which may be selected according to a selected level of treatment, comfort, or therapy. The plurality of segments  102  can be composed of a low density material, medium density material, high density material or any combination thereof offering various resistances to the user. The low density materials can provide a softer surface for the user and the high density materials can provide a firmer surface. The medium density material can be a compromise between the low and high density options. Non-limiting examples of foam materials include EVA (ethylene vinyl acetate) foam, urethane foam, poly-urethane foam. EPS (expanded polystyrene) foam, polyethylene foam, neoprene foam, and the like. Additionally, the foam materials can comprise open cell and closed cell configurations. 
     Each of the plurality of segments  102  include a first edge  106  and a second edge  108  where the first edge  106  is located opposite the second edge  108 .  FIG. 1  depicts the first edge  106  of segment  102   b  can be coupled to a second edge  108  of a first neighboring segment  102   a  and the second edge of  102   b  can be coupled to a first edge  106  of a second neighboring segment  102   c . Similarly, the first edge  106  and second edge  108  of segment  102   d  can be coupled to the second edge  108  of segment  102   c  and the first edge  106  of segment  102   e  respectively. In some embodiments, the first edge of a segment can complement the second edge of a neighboring segment allowing the plurality of segments to be coupled to one another and form the roller device. Complementary edges of neighboring segments are configured to be inserted into one another, such as a female receiving component and a male extension component complement one another. 
       FIG. 1  further depicts the plurality of segments  102   a - 102   h  is coupled to neighboring segments where each of the plurality of segments  102   a - 102   h  are coupled to the neighboring segments at a distal edge  114 , where the distal edge  114  is located on the outer surface  104 . A coupling mechanism can be any mechanism that joins the neighboring segments in a manner that allows the segments to move relative to one another. In an exemplary embodiment the coupling mechanism  112  is a hinge device secured by a structural pin. The coupling mechanism can allow the plurality of segments to maintain their ability to pivot around the coupling mechanism and convert between a first flat position and a second tubular position. 
     In an exemplary embodiment, a locking segment (“not shown”) may be used to allow the device to secure the roller device into position and maintain the rigid tubular position for when ready for use. In an exemplarly embodiment, the locking segment may have the same structure as the coupling mechanism of the other plurality of segments. In other embodiments, the locking segment may have a different mechanism for securing and releasing the roller device. These mechanisms can include a hinge mechanism, and further include hook and loop mechanisms (e.g., VELCRO®), zippers, magnets, push-buttons, compression couplings, dovetail joints, and the like. In an exemplary embodiment, the locking mechanism may be located on the side of the roller device or may further be actuated by a push button or other release mechanism. 
     In an exemplary embodiment, the exercise roller device  100 , as shown in  FIG. 1  includes the coupling mechanism  112  having a structural pin in combination with a first edge of a segment coupled to a second edge of a neighboring segment, where the structural pin is threaded through a portion of the first edge and a portion of the second edge. This exemplary configuration can allow the plurality of segments to be secured to one another during compressive force or pivot and separate with an outward radial force when the coupling mechanism  112  is released. 
     Other coupling mechanisms can be used, including a configuration that does not require structural pins to secure the plurality of segments, while maintaining each segment&#39;s mobility. In some embodiments, a plurality of segments may be able to snap into position and maintain its mobility while forming the rigid tubular shape. For example, the first edge of a segment can snap into a second complimentary edge of a neighboring segment. In other embodiments the coupling mechanisms include hook and loop attachments, zipper attachments, button attachments, magnetic attachments, hook type attachments, and the like. 
     In some embodiments, the roller device includes only one flexible, semi-rigid segment having a coupling mechanism for forming and maintaining the roller device. For example, a single continuous material capable of lying flat in a horizontal plane and converting into a tubular shape is within the scope of the disclosure. 
       FIG. 2  illustrates a second configuration of the roller device  200  of  FIG. 1 , where the plurality of segments  102   a - 102   h  can be connected to form a tubular shape. Each of the plurality of segments  102   a - 102   h  can be secured by the coupling mechanisms  112  joining the first edge  106  of a segment to a second edge of a neighboring segment. The second configuration is formed when the plurality of segments  102   a - 102   h  is coupled and the first segment  102   a  and last segment  102   h  of the plurality of segments are connected forming a rigid tubular structure. The plurality of segments  102   a - 102   h  form an inner cavity  114  when in the second configuration. In a different embodiment, a single flexible, semi-rigid material having a coupling mechanism can be converted into the second configuration and form an inner cavity. In an exemplary embodiment, the inner cavity  114  can be tubular, cylindrical, or polygonal in shape. The coupling mechanism can allow each of the plurality of segments to pivot around the coupling mechanism  112  to convert from a first flat position shown in  FIG. 1  to the second tubular shape position as shown in  FIG. 2 . When the exercise or therapy session is completed at least one of the plurality of segments  102   a - 102   h  can be disconnected and the roller device is returned to the first position shown in  FIG. 1  for storage/transport. In an exemplary embodiment, the user can engage and disengage the coupling mechanism to convert the roller device from a first configuration for storage to the second configuration for use. For example, the user may actuate a locking segment (“not shown”) to release the roller device from the second configuration. In an exemplary embodiment, the coupling mechanism can utilize springs to keep the structural pins engaged in the locked second position. 
     In an exemplary embodiment, the roller device is approximately a foot in length and six inches in diameter when locked in the second position. In some embodiments, a roller device can range from 1 to 3 feet in length. In some embodiments, the roller device is greater than or equal to 6 inches in diameter when in the second position. In one or more embodiments, the roller device can range from 2 inches to 5 feet. 
     Now referring to  FIG. 3 , another exemplary embodiment of the roller device  300  is shown. The roller device  300  includes a plurality of segments  302   a - 302   h  in a first flat position.  FIG. 3  illustrates each segment comprises a first edge  306  and a second edge  308  and further illustrates a coupling mechanism  312  for connecting the plurality of segments. Each segment  302  further includes an outer surface  304  and an inner surface  310 .  FIG. 3  further depicts a textured layer  320  that is applied to the outer surface  304 . In an exemplary embodiment, the textured layer  320  exhibits a plurality of peaks, mounds, ridges, grooves, and the like. In an exemplary embodiment, the textured layer  320  as shown in  FIG. 3  has two different shapes including peaks  322  and mounds  324 . Each segment as shown as two rows of peaks  322  having six peaks per row and a row of mounds  324  between the two rows of peaks having seven mounds in the row. It would be known to one of ordinary skill in the art that any number of shapes and patterns can be applied to the textured layer  320  and various heights and densities of the features of the textured layer  320  can be selected based on the comfort level of the user. In addition various spacing between the features can be selected. 
       FIG. 4  illustrates a roller device of  FIG. 3  in a second tubular position  400 . The plurality of segments  302   a - 302   h  form a core or base layer of the roller device  300  is coupled by the coupling mechanism  312  and is positioned in a second tubular position. The inner surface  310  of each of the plurality of segments form an inner cavity  314 . In an exemplary embodiment, the inner cavity is circular in shape. In some embodiments, the inner cavity can be other shapes, including but not limited to a tubular, cylindrical, or polygonal shape.  FIG. 4  further depicts a textured layer  320  being attached to outer surface  304 . In addition, the firmness of the outer surface  304  and textured layer  320  of the roller device  300  is dependent upon the material used for each of the plurality of segments  302  and textured layer  320 . The plurality of segments  302  of the roller device may be composed of the same material or different materials may be used simultaneously that can provide various/alternating levels of comfort based on an individual&#39;s needs. Non-limiting examples of foam materials include EVA (ethylene vinyl acetate) foam, urethane foam, poly-urethane foam, EPS (expanded polystyrene) foam, polyethylene foam, neoprene foam, and the like. Additionally, the foam materials can comprise open cell and closed cell configurations. In an exemplary embodiment, the roller device may be used in conjunction with a cover where the cover may slide over the device. Similarly, the cover may be comprised of different textures/patterns and may have varying levels of firmness. A number of different types of materials can be used to provide the desired density. In some embodiments, a cover can allow the user to have one rolling device but have a plurality of different textures/firmness for added variety. 
     In an exemplary embodiment, the outer surface  304  of each of the plurality of segments can have an textured layer  320  affixed to the core layer formed by one segment or a plurality of segments  302 , for example, that can provide different levels of treatment for the user. The affixed textured layer  320  may be attached to the core layer by an adhesive, slide on to the segment, or snap into position on the outer surface  304  of each segment. In an exemplary embodiment, the textured layer  320  is interchangeable. 
     Now referring to  FIG. 5 , the method  500  depicts a technique for converting a portable roller device. As shown in block  502 , the method  500  includes coupling a plurality of segment of the roller device. In an exemplary embodiment, the coupling of the plurality of segments can be accomplished by the coupling mechanisms including a hinge mechanism, hook and loop attachments, zipper attachments, magnetic attachments, push-buttons, and the like. Block  504  shows converting the plurality of segments from a first position to a second position. In an exemplary embodiment the first position is a flat position where the plurality of segments lie parallel to one another in a horizontal plane and the second position is a tubular position. Block  506  provides locking the plurality of segments to secure and maintain the second position. As shown in block  508 , the method  500  includes releasing the coupling mechanism of at least one of the plurality of segments. Block  510  provides converting the plurality of segments from the second position to the first position. 
     The roller device of the disclosure can be used for multiple purposes. In one embodiment, the roller device is used for exercise. In another embodiment, the roller device is used for correcting muscle imbalances. In other embodiments, the roller device is used for relieving muscle soreness and joint stress. An exemplary embodiment includes using the roller device to increase extensibility of musculotendinous junction. In another embodiment, the roller device is used to maintain normal function muscular length. In a further embodiment, the roller device is used for improving neuromuscular efficiency. In another embodiment, the roller device is used for home use for massage. 
     The roller device of the disclosure can have different types of coupling/interlocking mechanisms between the plurality of segments. Also the roller device can be composed of different materials types and include different sizes. The type of coupling mechanisms used can ensure the integrity and mobility of the roller device to facilitate portability. The type of material may be based on the firmness required by the user and the weight of the material to maximize portability. 
     Preferably, the materials used for the roller device can include a light weight material that is durable enough to withstand the force applied in massage or therapeutic applications. Various size roller devices may be selected based on the muscle groups the user intends to target during an exercise session. 
     In some embodiments, the disclosure provides a method for relieving muscle tension. The method includes applying the roller device of the disclosure to an area of a body and rolling the device across that area of the body. In some embodiments, the area of the body includes a leg. In some embodiments, the area of the body includes an arm. In other embodiments, the area of the body includes different muscle groups such the latissimus dorsi, hip flexors, trapezius, hamstrings, quadriceps, and the like. 
     Now referring to  FIG. 6 , a diagram  600  provides cross-sectional view of a segment  102  and related textured layer  320  of the foam roller device in accordance with an embodiment. The textured layer  320  is similar to that shown in  FIG. 3 . The textured layer  320  can be affixed to the outer surface  104  of the segment  102 . In one or more embodiments, the textured layer  320  can snap or slide into position on the outer surface  104  of the segment  102 . The textured layer  320  includes a bottom structure  614 . The bottom structure  614  can snap into the structure  616  on the outer surface  104  of segment  102 . As shown, the textured layer  320  can have a plurality of peaks  322  and mounds  324 . The pattern of the textured layer  320  depicted in  FIG. 6  is a non-limiting example of patterns included in embodiments of the invention. In other embodiments, different patterns and configurations can be used are within the scope of the textured layer  320 . Any pattern that can relieve muscle tension can be used. The segment  102  includes a female edge  108  and male edge  106  which can be coupled to their complementary edges (male and female, respectively) in neighboring segments  102 . The textured layer  320  can include a textured layer male edge  606  and textured layer female edge  608 . In some embodiments, the textured layer male edge  606  is positioned directly above male edge  106  and textured layer female edge  608  is positioned directly above female edge  108 . 
     In some embodiments, as noted previously a roller device can include a locking mechanism  706 .  FIG. 7  illustrates a cross-sectional side view of an exemplary locking segment  702  and locking mechanism  706  of a roller device in accordance with an embodiment. In one or more embodiments, the locking segment  702  includes an outer surface  704  having a textured layer  320  affixed to the outer surface  704 . In one or more embodiments, the textured layer  320  is similar to the textured layer references above. The textured layer  320  includes a textured layer male edge  606  and textured layer female edge  608  to complement the outer surface  704 . As shown in  FIG. 7 , the textured layer  320  can include a plurality of peaks  322  and mounds  324 . In one or more embodiments, the outer surface  704  and the locking segment  702  can be secured together by a fastener or adhesive, such as a plurality of screws  710 . The screws  710  can be screwed through the screw holes  720  of the locking segment  702  and the screw holes  722  of the outer surface  704 . In a different embodiment, the outer surface  704  and locking segment  702  can be secured to one another by snapping or sliding into position. In other embodiments, these components can be held together by an adhesive or other known mechanism. The locking segment  702  can also include one or more locking mechanisms  706 . The locking mechanism  706  as shown in  FIG. 7  includes one or more locking pins  728 . In this embodiment, the locking pin  728  comprises a non-linear shape, such as an angled shape or bent shape, wherein the portion of the locking pin  728  that may engage other segments is not necessarily in the same linear vector (e.g., the pin  728  is offset) as the locking mechanism  706 . The locking pin  728  of locking segment  702  can secure adjacent segments  102  to one another by threading the locking pin  728  through the holes  112  of the locking segment  702 . The locking mechanism  706  can be a bi-stable locking mechanism. A bi-stable locking mechanism is a locking mechanism that can be configured to be stable in either a locked or unlocked position where the locking mechanism can rest in one of the locked or unlocked positions due to the spring forces maintaining the positions. For example, in some embodiments, the locking mechanism  706  can be activated individually or in combination via other coupling techniques. The locking mechanism can be operated independently or with a coupling mechanism such as but not limited to a gear, belt or linkage system that can be used to synchronize the function of the locking mechanism together. In one or more embodiments, when one component of the locking mechanism is activated the other component can be activated directly without user intervention. A non-limiting set of examples of coupling means that allow combined activation includes gears, linkages, cables, and belt mechanisms. The locking mechanism  706  can be activated/released by the activate/release feature  708 . Examples of the activate/release feature  708  include a sliding switch, push button, tab, latch mechanism, and the like. The activate/release feature  708  when assembled can be accessed through an opening  724  to allow a user to activate/release the locking segment  702  of the roller device. The side opening  736  of the locking segment  702  allows the locking mechanism  706  to slide in/out of the locking segment  702  when being activated/released. 
     In an example wherein the locking mechanism  706  includes a sliding mechanism, the sliding mechanism can be positioned in a fully locked position such that the roller device is held in a cylindrical configuration. The sliding mechanism can also be positioned in a fully unlocked position, such that the roller device can be converted from a cylindrical configuration to a configuration suitable for travel. The internal structure of locking segment  702  can include a sliding component or track component. In some embodiments, a sliding component or track component can include a spring. For example, a spring feature can be used as part of the locking mechanism  706  to revert the locking mechanism to a default locked or unlocked position. In an embodiment, a sliding component or track component can include an integral spring feature such as a spring composed of the same material or a spring molded as part of the sliding component or track component of the internal structure. In one or more embodiments, a spring feature can be used to bias the sliding component to either the lock position or the unlock position to manipulate the configuration of the roller device. The spring feature being coupled to the locking mechanism  706  can be compressed/decompressed to configure the bias position of the spring feature. 
     Now referring to  FIG. 8 , a diagram  800  illustrating an internal view of the locking segment  702  and locking mechanism  706  of the roller device according to one or more embodiments of the present invention is shown. As shown, the locking mechanism  706  positioned within the locking segment  702  can be visible in some embodiments. The locking mechanism  706  can include a locking pin  728  that can be configured to be threaded through the locking segment hole  812  on the side of the locking segment  702  adjacent the locking segment female edge  808 . In some embodiments, the locking pins  728  that are threaded through the holes  812  can be configured to be threaded through a neighboring segment&#39;s complementary locking segment male edge  806  to secure adjacent segments  102  together. As shown, the locking pins  728  can be affixed to the locking mechanism  706  by a connection  814 . The locking segment  702  can include a plurality of screw holes  720  for attaching the bottom of locking segment  702  to an outer surface  704  (shown in  FIG. 7 ). In one or more embodiments, different techniques can be used to attach the bottom portion of the locking segment  702  to the outer surface  704  such as adhesive or complimentary snap fit features. 
     Now referring to  FIG. 9 , a diagram  900  illustrating a top view of a locking segment  702  and locking mechanism  706  of the portable roller device is provided. The locking mechanism  706  is shown positioned within the locking segment  702 . The locking segment  702  can include a locking segment male edge  806  and a locking segment female edge  808  for coupling the locking segment  702  to neighboring segments (not shown in  FIG. 9 ) forming the portable roller device. The locking segment  702  can include locking segment holes  812  for securing locking pins (not shown) used for coupling adjacent segments of the portable roller device.  FIG. 9  also demonstrates the plurality of screws  710  can be located within the plurality of screw holes  720  to connect the locking segment  702  to the outer  704  surface (not shown). As previously described other techniques can be used to attach the locking segment  702  with the outer surface  704 . The opening  724  of locking segment  702  provides access to an activate/release feature  708  of the locking mechanism  706  to activate/release the portable roller device. As previously described example activate/release features  708  can include a sliding switch, push button, tab, latch mechanism, and the like. As shown in  FIG. 8 , the side opening  736  of the locking segment  702  allows the locking mechanism  706  to slide in or out of the locking segment  702  when being activated or released. 
     It is apparent from the description above that the present embodiments provide a new and improved roller device which increases the portability of the device. While the present disclosure has been described in detail in connection with only a limited number of embodiments, it should be readily understood that the present disclosure is not limited to such disclosed embodiments. Rather, the present disclosure can be modified to incorporate any number of variations, alterations, substitutions or equivalent arrangements not heretofore described, but which are commensurate with the spirit and scope of the present disclosure. Additionally, while various embodiments of the present disclosure have been described, it is to be understood that aspects of the present disclosure may include only some of the described embodiments. Accordingly, the present disclosure is not to be seen as limited by the foregoing description.