The present disclosure relates generally to archery bows and more particularly pertains to an improved limb pocket spacer for use in limb pockets of archery bows and a method for manufacturing the same.
Compound archery bows generally including a bow frame having a handle or riser and two bow limbs (or four “quad” bow limbs), plus a cable system on the frame mounted to at least two rotational elements such as wheels. Archery bow limbs perform the important function of storing energy when the archer draws the bowstring. When the bowstring is drawn, the pre-stressed bow limbs, which are typically made of resilient material, are further flexed to store additional energy. When the bowstring is released, the stored energy propels the arrow. In conventional compound bows, each limb is typically formed of a single element with a rectangular cross section, where one end is attached to the bow handle and the other end has a limb tip slot formed therein, in which a rotational member such as a wheel, cam or pulley is mounted. In “quad” compound archery bows, two pairs of “quad” bow limbs are used, each having one end attached to the bow handle or riser and the other end coupled with the rotational member.
In certain archery bows, the ends or butt sections of the limbs are received and secured in limb pockets attached to ends of the riser. It is important for the limbs to be properly aligned with the riser and securely mounted to the riser to prevent movement of the limb ends. Fulcrums or spacers can be positioned within the limb pockets to contact portions of the archery bow limbs and move or rock with the bow limbs as they are flexed during use of the archery bow. To maintain the integrity of the archery bow limbs, it is helpful to provide sufficient contact surfaces on the spacer to sufficiently support the archery bow limbs. If the contact surfaces are not of sufficient size, the bow limbs are more likely to overstress and/or fail given flexion incurred by the limb during use of the archery bow. It is thus important to ensure that adequate contact area and engagement between the limb and the spacer is provided for.
There is a need for improved archery bow limb pocket spacers.
In one embodiment, an archery bow comprises a riser portion with an upper end and a lower end, and at least one bow limb portion having a butt section. The archery bow also includes at least one spacer member positioned between the riser portion and the bow limb portion such that the bow limb portion contacts the spacer member. The spacer member has a longitudinal axis and a width axis. Additionally, the spacer member includes at least one contact surface and a bottom portion extending along the longitudinal axis underneath the contact surface. The contact surface extends beyond the bottom portion to provide increased surface area contact with the quad bow limb members.
In another embodiment, an archery bow comprises a fulcrum member positionable within an archery bow limb pocket attachable to an archery bow riser. The fulcrum member includes a longitudinal axis and a width axis perpendicular to the longitudinal axis. Additionally, the fulcrum member includes at least one contact surface for contacting a portion of an archery bow limb and a part-rounded portion extending along the longitudinal axis underneath the contact surface. The part-rounded portion is configured to be received in a concave cavity of the archery bow limb pocket. The contact surface and the part-rounded portion each include a largest width along the width axis, the width of the contact surface being greater than the width of the part-rounded portion to increase the surface area contact with the archery bow limb.
In yet another embodiment, a flexible spacer member for use in an archery bow comprises a spacer member having a pair of contact portions for contacting a pair of archery bow limbs and a raised middle portion positioned between the pair of contact portions for separating the pair of archery bow limbs. The spacer member includes a rounded bottom surface defining a rounded bottom portion extending underneath the contact portions and the middle portion. Additionally, the contact portions each include a largest width generally parallel with the archery bow limbs and the middle portion includes a largest width, the widths of the contact portions each being greater than the width of the rounded bottom portion.
Other objects and attendant advantages of this disclosure will be readily appreciated as the same become more clearly understood by references to the following detailed description when considered in connection with the accompanying drawings in which like reference numerals designate like parts throughout the figures thereof.
For the purposes of promoting an understanding of the principles of the disclosure, reference will now be made to the embodiments illustrated and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope of the disclosure is thereby intended, such alterations, modifications, and further applications of the principles of the disclosure being contemplated as would normally occur to one skilled in the art to which the disclosure relates.
The present disclosure is directed to limb pocket fulcrums or spacers for use in limb pockets of archery bows. A compound archery bow comprises a riser portion with an upper end and a lower end, with bow limbs attached to and extending from the riser, each limb having a butt, tip and hinge section. An archery bow often includes a pair of limb pockets coupled to the upper and lower ends of the riser portion and configured to receive the butt sections of the limbs. Additionally, the archery bow may comprise a pair of spacer members positioned within the limb pockets, such that portions of the limbs contact the spacer members. The spacer members of the present disclosure have a longitudinal axis and a width axis, and each includes at least one contact surface extending beyond a bottom part-rounded portion along the width axis to provide increased surface area contact with the bow limbs. Additionally, in embodiments having a “quad” compound archery bow, the spacer members each include pair of flexible wings having contact surfaces, with a raised limb separator positioned between the flexible wings along the longitudinal axis.
Bowstring 34 includes upper end 28 and lower end 30 which are fed-out from pulleys 16 and 18 when the bow is drawn. Bowstring 34 may be mounted around pulleys 16 and 18 as is known in the art. As illustrated, Y-yoke anchor cables 32 and 33 each preferably extend from one pulley to the axle of the other pulley.
When the bowstring 34 is drawn, it causes eccentric pulleys 16 and 18 at each end of the bow to rotate, feeding out cable and bending limb portions 12 and 14 inward, causing additional energy to be stored therein. When the bowstring 34 is released with an arrow engaged to the bowstring, the limb portions 12 and 14 return to their rest position, causing the eccentric pulleys 16 and 18 to rotate in the opposite direction, to take up the bowstring 34 and launch the arrow with an amount of energy proportional to the energy initially stored in the bow limbs. Bow 10 is described for illustration and context and is not intended to be limiting. The present invention can be used with dual-cam compound bows, or can be used with single-cam bows as illustrated in
Bow 100 may also include limb pockets 102 attached to the upper and lower ends of riser 101. Pockets 102 are configured to receive butt sections 112a-115a of quad limbs 112-115 to secure the limbs to the riser. Pockets 102 may be conventional. Positioned within pockets 102 are fulcrums or spacers 104, as will be described in greater detail below. Spacers 104 are configured to contact portions of the bow limbs, and may be configured to at least slightly rotate or rock within the limb pocket corresponding to flexion of the bow limbs during use of the archery bow. In the illustrated embodiment, spacers 104 are used in conjunction with a “quad” archery bow having four total quad bow limbs, with each spacer contacting two quad bow limbs. Accordingly, spacer 104 is also configured to separate the two corresponding quad bow limbs. However, it should be appreciated that in other embodiments, each spacer or fulcrum could be used with an archery bow having single bow limbs at each end, such a spacer being illustrated in
The specific geometry of the illustrated spacer 104 will be discussed generally with reference to the various views illustrated in
Points along curved surface 142 at the top of part-rounded portion 140 define a chord across the top of the part-rounded portion being the illustrated width WC. In other words, part-rounded portion 140 defines a largest WC along width axis W. Wings 130 each include a width WW along a width axis W, and raised limb separator 134 includes a width WR along width axis W. In preferred embodiments, portions of wings 130 with contact surfaces 132 extend beyond part-rounded portion 140 along width axis W, such that the widths WW of wings 130 are each larger than width WC of part-rounded portion 140 (as best illustrated in
In the illustrated embodiment (see
Additionally, as best illustrated in
Wing 230 with contact surface 232 includes a width WW2 along width axis W2 and part-rounded portion 240 includes a width WC2 along width axis W2, with width WC2 being larger than WW2 such that contact surface 232 extends beyond part-rounded portion 240 along the width axis to allow for increased surface area contact with the bow limb which contacts spacer 204. Similar to part-rounded portion 140, portion 240 may also be part-cylindrical with surface 242 having a constant radius of curvature. However, it should be appreciated that portion 240 may be configured differently as would occur to one skilled in the art.
Optionally, spacer 204 may also include walls 244 extending up and generally perpendicular to contact surface 232 at ends thereof. In such embodiments, walls 244 assist in maintaining the positioning of the bow limb on contact surface 232 between the walls. In the illustrated embodiment, walls 144 extend relatively slightly above contact surface 232; however, it should be appreciated that walls 244, if present, can extend a greater or lesser distance above the contact surfaces. In other embodiments, walls 244 may be absent.
Spacers 104 and/or 204 are preferably at least slightly flexible and/or compressible to accommodate the varying radius of the bow limbs as they flex during use of the archery bow. Additionally, spacers 104 and/or 204 may be composed of one or more of a variety of appropriate materials, for examples including a plastic or rubber. In certain embodiments, spacers 104 and/or 204 may be composed of a nylon material. It is contemplated that spacers 104 and/or 204 may be formed using an injection molding process involving a mold assembly shaped and configured to form the spacers. In certain embodiments, the material is heated in the mold assembly and then cured by being placed in an oven and heated at a desired temperature. If necessary, final machining may be done to complete the forming process. In certain other embodiments, it is contemplated that spacers 104 and/or 204 may be formed by other appropriate manners. In the illustrated embodiment, a plurality of the corners within the spacers include radiused corner profiles. These are provided to avoid having to machine grind or cut stress-inducing sharp corners. In such embodiments, the radius corner profiles may be formed by molding in the radius via a mold assembly. However, it should be appreciated that there could be greater or fewer radius corner profiles than as illustrated. In other embodiments, radius corner profiles are absent from the spacers.
While the disclosure has been illustrated and described in detail in the drawings and foregoing description, the same is to be considered as illustrative and not restrictive in character, it being understood that only the preferred embodiment has been shown and described and that all changes and modifications that come within the spirit of the disclosure are desired to be protected.