ARCHERY BOW RISER

Abstract

An archery bow riser for an archery bow is disclosed. The archery riser, in an embodiment, includes a first section, a frame connected to the first section and a second section connected to the frame. The frame defines a cavity or inner space, and the frame is configured to reduce deformation of at least part of the archery bow riser.

Claims

1. An archery bow riser comprising: a first section comprising: a first section front configured to at least partially face in a forward direction toward a shooting target when the archery bow riser is aimed at the shooting target; a first section back configured to at least partially face in a backward direction away from the shooting target when the archery bow riser is aimed at the shooting target; a plurality of first section sides positioned apart from each other, wherein a lateral axis extends between the first section sides and intersects with the first section sides; a limb mount surface comprising a mount surface point located centrally between the first section sides, the mount surface point being located in a first vertical plane when the archery bow riser is vertically positioned, wherein the lateral axis intersects with the first vertical plane; a frame connected to the first section; wherein the frame comprises a plurality of frame members arranged to define: a first side opening extending in a first side plane, wherein the lateral axis intersects with the first side plane; a second side opening extending in a second side plane, wherein the lateral axis intersects with the second side plane; a front opening extending in a front plane, wherein the forward direction intersects with the front plane; and a back opening extending in a back plane, wherein the backward direction intersects with the back plane; wherein the frame comprises a frame point located centrally between the first and second side planes; wherein the first side plane, the second side plane, the front plane and the back plane surround an inner space; and a second section connected to the frame, wherein the second section comprises: a second section front configured to face in the forward direction when the archery bow riser is aimed at the shooting target; a second section back configured to face in the backward direction when the archery bow riser is aimed at the shooting target; a plurality of second section sides spaced apart from each other; and a second section point located centrally between the second section sides; wherein the second section point is located in a second vertical plane when the archery bow riser is vertically positioned; wherein the second vertical plane is offset from the frame point; wherein the second vertical plane is offset from the first vertical plane; and a third section connected to the second section, wherein the third section comprises a handle.

2. The archery bow riser of claim 1, wherein: the first section comprises a top riser section; the second section comprises a middle riser section; and the third section comprises a bottom riser section.

3. The archery bow riser of claim 1, wherein the frame members comprise a first top step and a second top step.

4. The archery bow riser of claim 1, wherein the third section comprises a bottom step extending to the second section, wherein the bottom step comprises an arrow shelf.

5. The archery bow riser of claim 1, wherein, when the archery bow riser is positioned vertically, at least one of the first and second side planes intersects with the first vertical plane.

6. The archery bow riser of claim 1, wherein, when the archery bow riser is positioned vertically, at least one of the first and second side planes is parallel with the first vertical plane.

7. The archery bow riser of claim 1, wherein the frame is configured to have a strengthening effect on the first section while the inner space has a weight reduction effect on the first section.

8. The archery bow riser of claim 1, wherein: the limb mount surface comprises a first limb mount surface that is configured to be engaged with a first flexible limb; the first flexible limb is configured to be coupled to a bowstring; the third section comprises a second limb mount surface that is configured to be engaged with a second flexible limb; the second flexible limb is configured to be coupled to the bowstring; and when the bowstring is retracted backward, the bowstring is configured to: apply a first force to the first limb mount surface, wherein the first force is transmitted through the mount surface point, through the frame members and then to the handle; apply a second force to the second limb mount surface, wherein the second force is directly or indirectly transmitted to the handle.

9. An archery bow riser comprising: a first section configured to be coupled to a limb, wherein the limb is configured to be coupled to a bowstring, wherein the bowstring is configured to be drawn in a backward direction, and wherein a segment of the bowstring is configured to travel in a forward direction within a bowstring plane after the bowstring is released, wherein the first section comprises: a first section front configured to face in the forward direction; a first section back configured to face in the backward direction; a plurality of first section sides positioned apart from each other, wherein a lateral axis extends between the first section sides and intersects with the bowstring plane; and a limb mount surface comprising a mount surface point located midway between the first section sides; a frame connected to the first section; wherein the frame comprises a plurality of frame members arranged to define: a first side opening extending in a first side plane, wherein the lateral axis intersects with the first side plane; a second side opening extending in a second side plane, wherein the lateral axis intersects with the second side plane; a front opening extending in a front plane, wherein the forward direction intersects with the front plane; and a back opening extending in a back plane, wherein the backward direction intersects with the back plane; wherein the first side plane, the second side plane, the front plane and the back plane surround an inner space; wherein the frame comprises a frame point within the inner space; wherein the frame point is located midway between the first and second side planes; wherein the frame point is located within a frame point plane; wherein the lateral axis intersects with the frame point plane; and wherein the frame point plane is located apart from the mount surface point; and a second section connected to the frame.

10. The archery bow riser of claim 9, wherein the second section comprises: a second section front configured to face in the forward direction; a second section back configured to face in the backward direction; a plurality of second section sides spaced apart from each other; and a second section point located centrally between the second section sides; wherein the second section point is located in a second section point plane; wherein the lateral axis intersects with the second section point plane; wherein the second section point plane is located apart from the mount surface point; wherein the second section point plane is located apart from the frame point.

11. The archery bow riser of claim 10, wherein the second section point plane is parallel to the bowstring plane.

12. The archery bow riser of claim 10, comprising a third section connected to the second section, wherein the third section comprises a handle.

13. The archery bow riser of claim 12, wherein: the first section comprises a top riser section; the second section comprises a middle riser section; the third section comprises a bottom riser section; the bottom riser section comprises a bottom step extending to the second section; the bottom step comprises an arrow shelf; and the frame members comprise a first top step and a second top step.

14. The archery bow riser of claim 9, wherein at least one of the first and second side planes intersects with the bowstring plane.

15. The archery bow riser of claim 9, wherein at least one of the first and second side planes is parallel with the bowstring plane.

16. The archery bow riser of claim 12, wherein: the limb comprises a first flexible limb; the limb mount surface comprises a first limb mount surface that is configured to be engaged with the first flexible limb; the first flexible limb is configured to be coupled to the bowstring; the third section comprises a second limb mount surface that is configured to be engaged with a second flexible limb; the second flexible limb is configured to be coupled to the bowstring; when the bowstring is drawn backward, the bowstring is configured to: apply a first force to the first limb mount surface, wherein the first force is transmitted through the mount surface point, through the frame members and then to the handle; apply a second force to the second limb mount surface, wherein the second force is directly or indirectly transmitted to the handle; and the frame is configured to have a strengthening effect on the first section while the inner space has a weight reduction effect on the first section.

17. A method to facilitate strengthening of an archery bow riser, the method comprising: structuring a first section to enable the first section to be coupled to a limb, wherein the limb is configured to be coupled to a bowstring, wherein the bowstring is configured to be drawn in a backward direction, and wherein a segment of the bowstring is configured to travel in a forward direction within a bowstring plane after the bowstring is released; structuring the first section to comprise a first section front configured to face in the forward direction; structuring the first section to comprise a first section back configured to face in the backward direction; structuring the first section to comprise a plurality of first section sides positioned apart from each other, wherein a lateral axis extends between the first section sides and intersects with the bowstring plane; structuring the first section to comprise a limb mount surface so that the limb mount surface comprises a mount surface point located centrally between the first section sides; structuring a frame to comprise a plurality of frame members; arranging the frame members so that the frame members define: a first side opening extending in a first side plane, wherein the lateral axis intersects with the first side plane; a second side opening extending in a second side plane, wherein the lateral axis intersects with the second side plane; a front opening extending in a front plane, wherein the forward direction intersects with the front plane; and a back opening extending in a back plane, wherein the backward direction intersects with the back plane; structuring the frame so that the first side plane, the second side plane, the front plane and the back plane surround an inner space; structuring the frame to comprise a frame point within the inner space so that the frame point is located centrally between the first and second side planes; connecting the frame to the first section; structuring a second section; and connecting the second section to the frame; wherein the frame point is located within a frame point plane; wherein the lateral axis intersects with the frame point plane; wherein the frame point plane is located apart from the mount surface point.

18. The method of claim 17, comprising: structuring the second section to comprise a second section front configured to face in the forward direction; structuring the second section to comprise a second section back configured to face in the backward direction; and structuring the second section to comprise a plurality of second section sides spaced apart from each other so that a second section point is located centrally between the second section sides; wherein the second section point is located in a second section point plane; wherein the lateral axis intersects with the second section point plane; wherein the second section point plane is located apart from the mount surface point; wherein the second section point plane is located apart from the frame point.

19. The method of claim 18, wherein: structuring the first section comprises structuring a top riser section; structuring the second section comprises structuring a middle riser section; structuring the frame comprises providing the frame members so that the frame members comprise a first top step and a second top step; and the method further comprises: structuring a third section to comprise a bottom riser section, wherein the third section comprises a bottom step extending to the second section, wherein the bottom step comprises an arrow shelf; and connecting the third section to the second section.

20. The method of claim 18, wherein: the limb comprises a first flexible limb; the first flexible limb is configured to be coupled to the bowstring; and the limb mount surface comprises a first limb mount surface that is configured to be engaged with the first flexible limb; wherein the method comprises: structuring the second section to comprise a handle; structuring the third section to comprise a second limb mount surface that is configured to be engaged with a second flexible limb, wherein the second flexible limb is configured to be coupled to the bowstring; and structuring the first and second sections so that, when the bowstring is drawn backward, the bowstring is configured to: apply a first force to the first limb mount surface, wherein the first force is transmitted through the mount surface point, through the frame members and then to the handle; and apply a second force to the second limb mount surface, wherein the second force is directly or indirectly transmitted to the handle; and structuring the frame so that the frame causes a strengthening effect on the first section.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] So that the manner in which the features of the invention can be understood, a detailed description of the invention may be had by reference to certain embodiments, some of which are illustrated in the accompanying drawings. It is to be noted, however, that the drawings illustrate only certain embodiments of this invention and are therefore not to be considered limiting of its scope, for the scope of the invention encompasses other equally effective embodiments. The drawings are not necessarily to scale, emphasis generally being placed upon illustrating the features of certain embodiments of the invention. In the drawings, like numerals are used to indicate like parts throughout the various views. Thus, for further understanding of the invention, reference can be made to the following detailed description, read in connection with the drawings in which:

[0009] FIG. 1A, FIG. 1B and FIG. 1C are side, front and perspective views of an exemplary riser;

[0010] FIG. 2A, FIG. 2B and FIG. 2C are side, front and perspective views of another exemplary riser that includes a second step;

[0011] FIG. 3 is an expanded view of a section of the riser of FIG. 2B;

[0012] FIG. 4 is an expanded view of the riser of FIG. 2C;

[0013] FIG. 5 is another view of the riser of FIG. 4; and

[0014] FIG. 6 is a view of an exemplary bow that uses the riser of FIG. 4.

DETAILED DESCRIPTION OF THE INVENTION

[0015] FIG. 1A, FIG. 1B and FIG. 1C depict a riser 100 that comprises a top riser section 102 and a bottom riser section 104. The top riser section 104 and the bottom riser section 104 define a first plane 108. Bow limbs (see FIG. 6) may be attached to the top riser section 102 and the bottom riser section 104, respectively. An arrow shelf 106 is provided by a middle riser section 110 that defines a second plane 112. The first plane 108 and the second plane 112 are separated by a gap. The middle riser section 110 joins with the bottom riser section 104 at a bottom step 114. The middle riser section 110 joins with the top riser section 102 at a top step 116. A handle 118 is provided below the arrow shelf 106 for an archery to grip the riser 100. During use, the top riser section 102 experiences stresses that causes undesirable deformations. To compensate for such deformations, the riser section 102 may be formed from strong, heavy materials. Unfortunately, this increases both the cost and the weight of the riser 100.

[0016] FIG. 2A, FIG. 2B, and FIG. 2C and FIG. 5 depict a riser 200 that comprises a first section or top riser section 202, a second section 203 and a third section or bottom riser section 204. The first section or top riser section 202 has a plurality of first section sides 205a, 205b intersected by a lateral axis 207. The top riser section 204 202 and the bottom riser section 204 define a first vertical plane or first plane 208. An arrow shelf 206 is provided by a middle riser section 210 of the second section 203. The middle riser section 210 that defines a second vertical plane or second plane 212. The second section 203 has: a plurality of second section sides 203a, 203b; a second point 203c located centrally between the second section sides 203a, 203b; a second section back 203d (FIG. 5); and a second section front 203e (FIG. 6). The second section point 203c is located in the second plane 212. The first plane 208 and the second plane 212 are separated by a gap. The middle riser section 210 joins with the bottom riser section 204 at a bottom step 214. The middle riser section 110 joins with the top riser section 202 at a first frame member or first top step 216. A handle 218 is provided below the arrow shelf 206 for an archer to grip the riser 200. Unlike the riser 100, the riser 200 further comprises a second frame member or second top step 300. The configuration, structure or frame 301 shown in FIG. 2A, FIG. 2B, and FIG. 2C and FIGS. 3-6 improves riser strength by as much as 30% and reduces deformation by as much as 20% compared to a riser without such a second top step 300. Due to the increased strength provided by the second top step 300, the riser may be formed using less material. This reduces the weight and cost of the riser without negatively impacting its performance.

[0017] As shown in FIG. 3, the first frame member or first top step 216 and the second frame member or second top step 300 join at a first junction 302 where they both contact the top riser section 202. The first top step 216 and the second top step 300 separate to form an inner space or a cavity 304 and then reunite at a second junction 306 where they both contact the middle riser section 210. The cavity 304 and the second top step 300 provide additional strength to the riser 200 while minimizing the amount of material used. This results in a reduction in weight and manufacturing costs. The first junction 302 is in the first plane 208 while the second junction 306 is in the second plane 212. The first top step 216 is disposed below the second top step 300. As illustrated in FIG. 5, frame members 216, 300, 300a, 300b and 300c of frame 301 define: the inner space or cavity 304 (FIG. 3); front opening 301a extending in front plane 301b (FIG. 6); back opening 301c extending in back plane 301d (FIG. 6); first side opening 301e extending in first side plane 301f (FIG. 3); second side opening 301g extending in second side plane 301h (FIG. 3); and a frame point 301i centrally located between a point on the first side plane 301f and a point on the second side plane 301h.

[0018] As shown in FIGS. 4-6, the cavity 304 comprises a forward-facing opening or front opening 301a 402 (facing in a forward direction 405) and a backward-facing or back opening 301c 404 that define a direction 404 that is parallel to a plane defined by the arrow shelf 206. The first section or top riser section 202 comprises: a limb mount surface 202a (facing in a riser direction 200a); a mount surface point 202b (FIG. 2B) located centrally between the first section sides 205a, 205b; a first section front 202c (FIG. 6) configured to face in the forward direction 405 when the riser 200 is aimed at a shooting target 700 (FIG. 6); a first section back 202d configured to face in the backward direction 407 when the riser 200 is aimed at the shooting target 700 (FIG. 6); and a plurality of holes 406 that extend from a first lateral side 408 to a second lateral side 412. The plurality of holes 406 are perpendicular to the forward-facing or front opening 402301a and the backward-facing or back opening 404301c. The presence of the plurality of holes 406 permits the riser 200 to be formed using less materials, thereby reducing the weight and cost of the riser 200. The presence of the shoulder or second top step 300 increases the strength of the riser 200 to minimize undesired deformation. Additional holes 410 in the lower riser section 204 and the middle riser section 210 further reduce the weight and cost of the riser 200. In the embodiment of FIG. 4, the cavity 304 comprises four openings: the forward-facing or front opening 402301a, the backward-facing or back opening 404301c, and two side openings 301e, 301g facing the lateral sides 408, 412, respectively. In another embodiment, not shown, the cavity 304 comprises at least one lateral facing opening and the forward-facing and backward-facing sides are solid plates.

[0019] As shown in FIG. 5, the cavity 304 has a length 500 and a width 502. In one embodiment, the length 500 is at least about 10% of an overall length 504 of the top riser section 202. In another embodiment, the length 500 is at least about 15% of the overall length 504. In another embodiment, the length 500 is at least about 20% of the overall length 504. In yet another embodiment, the length 500 is about 25% of the over length 504. The width 502 is less than the length 500. In one embodiment, the width is about 50% of the length 500.

[0020] FIG. 6 depicts a compound bow 600 that comprises the riser 200, a first bow limb 602 (having a riser engagement surface 603), and a second bow limb 604 (having a riser engagement surface 605), and a plurality of fasteners 607 and 609 that couple the limbs 602 and 604, respectively, to the riser 200. A first cam 606 and a second cam 608 are attached to the first bow limb 602 and the second bow limb 604, respectively. Bowstrings 610, configured to be drawn backward in bowstring plane 611, are stretched between the first cam 606 and the second cam 608. When the bowstrings 610 are actuated, the first bow limb 602 and the second bow limb 604 bend and apply a strain to the riser 200. The second top step 300 (see FIG. 3) minimizes the deformation in the riser 200 caused by the strain. The presence of cams in the compound 600 permits a bowstring to be drawn with high force which results in significant strain on the riser 200. Accordingly, the riser 200 is particularly useful with compound bows.

[0021] In one embodiment, the riser is monolithic such that the top riser section, the bottom riser section and the middle riser section are formed as a single piece. The riser may be formed from a lightweight material, such as aluminum.

[0022] This written description uses examples to disclose the invention, including the best mode, and also to enable any person skilled in the art to practice the invention, including making and using any devices or systems and performing any incorporated methods. The patentable scope of the invention is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they have structural elements that do not differ from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal language of the claims.