1. Field of Invention
The present invention relates to a crossbow, and more particularly to a bow for a crossbow that can prolong the useful life of a limb of the crossbow and replace a worn-off pivot of the crossbow easily.
2. Description of the Related Art
With reference to
When the string (73) of the conventional crossbow is stretched for projecting a bolt, the limbs (72) are bent toward the rear end of the stock and the pockets (74) are pivoted respectively relative to the retainers (71). Pivotal rotation of the pockets (74) is achieved easily by the rotation of the semicircular pivots (741) in the semicircular recesses (711).
However, after a long-term of use, the semicircular pivots (741) may be worn off because the force applied to the semicircular pivots (741) from the limbs (72) is quite large. When the semicircular pivots (741) are worn off, the pockets (74) must be replaced and discarded but this is rather uneconomical. In addition, when the limbs (72) are bent, cracks may occur gradually at the place where the limbs (72) abut with the pockets (741) because of stress concentration. The limbs (72) will break when the limbs (72) are unable to bear the force applied from the string (73), and this is very dangerous for a user and reduces the useful life of the crossbow.
To overcome the shortcomings, the present invention provides a bow for a crossbow to mitigate or obviate the aforementioned problems.
The primary objective of the present invention is to provide a bow for a crossbow that can prolong the useful life of a limb of the crossbow and replace a worn-off pivot of the crossbow easily.
A bow in accordance with the present invention comprises a retainer, two holders, two limbs, two buffers, two mounting members and two fastening members. The retainer has two inclined surfaces and each inclined surface has an inner end, an outer end, two side edges, a mounting hole, a receiving recess, two flanges and a fastening hole. The mounting hole is defined in the inclined surface near the inner end of the inclined surface. The receiving recess is defined in the outer end of the inclined surface. The flanges are formed respectively on the side edges of the inclined surface. The fastening hole is defined in the inclined surface near the outer end of the inclined surface.
Each holder is mounted on one of the inclined surfaces of the retainer and comprises a base, a cover and a semicircular pivot. The base is mounted on the inclined surface of the retainer and has an inner end, an outer end, a mounting hole and a fastening hole. The mounting hole is defined through the base near the inner end of the base and is aligned with the mounting hole of the inclined surface. The fastening hole is defined through the base and is aligned with the fastening hole of the inclined surface. The cover is mounted on the base and has an inner end, an outer end, two side edges and a mounting hole. The mounting hole is defined through the cover near the inner end of the cover and is aligned with the mounting hole of the base. The semicircular pivot is mounted detachably on the outer end of the base and corresponds to and abuts with the receiving recess of the inclined surface.
Each limb is mounted in one of the holders, extends longitudinally and has an inner end mounted in the holder.
Each buffer is mounted between one of the limbs and the base of a corresponding holder in which the limb is mounted and has a middle, a mounting hole and a fastening hole. The mounting hole is defined through the buffer and is aligned with the mounting hole in the base of the holder. The fastening hole is defined through the buffer and is aligned with the fastening hole in the base of the holder.
Each mounting member comprises a bolt. The bolt is extended through the mounting holes in one of the buffers and in the base and cover of a corresponding holder in which the buffer is mounted and is screwed into the mounting hole in a corresponding inclined surface on which the holder is mounted.
Each fastening member comprises a bolt. The bolt is extended through the fastening holes in one of the buffers and in the base of a corresponding holder in which the buffer is mounted and is screwed into the fastening hole in a corresponding inclined surface of the retainer on which the holder is mounted.
Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
With reference to
Each holder (20) is mounted on one of the inclined surfaces (11) and comprises a base (21), a cover (22) and a semicircular pivot (23). The base (21) is mounted on the inclined surface (11) and has an inner end, an outer end, a mounting hole (211), an positioning flange (212) and a fastening hole (213). The mounting hole (211) is defined through the base (21) near the inner end of the base (21) and is an elongated hole extending longitudinally and aligned with the mounting hole (111) in the inclined surface (11). The positioning flange (212) is formed around the inner end of the base (21). The fastening hole (213) is defined through the base (21) and is aligned with the fastening hole (114) in the inclined surface (11).
The cover (22) is mounted on the base (21) and has an inner end, an outer end, two side edges and a mounting hole (221) and may has a notch (222) and two positioning flanges (223). The mounting hole (221) is defined through the cover (22) near the inner end of the cover (22) and is an elongated hole extending longitudinally and aligned with the mounting hole (211) in the base (21). The notch (222) is defined in the outer end of the cover (22) and corresponds to the mounting hole (213) in the base (21). The positioning flanges (223) are formed respectively on the side edges of the cover (22) on the outer end of the cover (20) and correspond to the positioning flange (212) on the base (21).
The semicircular pivot (23) is made of plastic material and is mounted detachably on the outer end of the base (21). The semicircular pivot (23) corresponds to and abuts with the receiving recess (112) in the corresponding inclined surface (11). When the semicircular pivot (23) is worn off, the semicircular pivot (23) can be detached from the base (21) and replaced easily and conveniently without discarding the entire holder (20).
Each limb (30, 30A) is mounted in one of the holders (20) and extends longitudinally.
In a first embodiment of the bow in accordance with the present invention, each limb (30) comprises two limb rods (31). Each limb rod (31) has an inner end. The inner ends of the limb rods (31) are mounted in the holder (20).
In a second embodiment of the bow in accordance with the present invention, each limb (30A) has an inner end mounted in the holder (20).
Each buffer (40) is mounted between one of the limbs (30, 30A) and the base of a corresponding holder (20) in which the limb (30, 30A) is mounted for absorbing the force applied to the limb (30, 30A) and reducing stress concentration. The buffer (40) is made of plastic material and has a middle, a mounting hole (41) and a fastening hole (44) and may have a positioning element (43) and a positioning rib (42). The mounting hole (41) is defined through the buffer (40) and is an elongated hole extending longitudinally and aligned with the mounting hole (211) in the base (21) of the holder (20). The fastening hole (44) is defined through the buffer (40) and is aligned with the fastening hole (213) in the base (21) of the holder (20). The positioning element (43) is mounted in the buffer (40) and the base (21) of the holder (20) for positioning the buffer (40) on the base (21).
In the first embodiment, the positioning rib (42) is formed on the middle of the buffer (40) and abuts with the limb rods (31) of the corresponding limb (30) for separating the limb rods (31).
Each mounting member (50) comprise a bolt (51) and may have a washer (52) and a spacer (53). The bolt (51) is extended through the mounting holes (41, 211, 221) in one of the buffers (40) and in the base (21) and cover (22) of a corresponding holder (20) in which the buffer (40) is mounted and is screwed into the mounting hole (111) in a corresponding inclined surface (11) on which the holder is mounted. When the limb (30, 30A) is bent, the bolt (51) is allowed to move slightly relative to the elongated mounting holes (41, 211, 221) and this prevents the bolt (51) from bending. The washer (52) is mounted around the bolt (51) and has a conical surface (521). The conical surface (521) of the washer (52) is mounted around the bolt (51) and allows the washer (52) to pivot slightly when the limb (30, 30A) is bent. The spacer (53) is mounted around the bolt (51) between the washer (52) and the cover (22).
Each fastening member (60) comprises a bolt (61) and may have a washer (62) and a spacer (63). The bolt (60) is extended through the fastening holes (213, 44) in one of the buffers (40) and in the base (21) of a corresponding holder (20) in which the buffer (40) is mounted and is screwed into the fastening hole (114) in the corresponding inclined surface (11) on which the holder is mounted. The washer (62) is mounted around the bolt (61) and has a conical surface (621). The conical surface (621) of the washer (62) is mounted around the bolt (61) and allows the washer (62) to pivot slightly when the limb (30, 30A) is bent. The spacer (63) is mounted around the bolt (61) between the washer (62) and the limb (30, 30A).
With further reference to
Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only. Changes may be made in detail, especially in matters of shape, size and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
Number | Name | Date | Kind |
---|---|---|---|
3821946 | Griggs | Jul 1974 | A |
5339790 | Smith | Aug 1994 | A |
5433792 | Darlington | Jul 1995 | A |
5507270 | Smith | Apr 1996 | A |
5515836 | Martin et al. | May 1996 | A |
5720267 | Walk | Feb 1998 | A |
6360734 | Andrews | Mar 2002 | B1 |
6543432 | Andrews et al. | Apr 2003 | B2 |
7308890 | Wheeler | Dec 2007 | B1 |
Number | Date | Country | |
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20080072888 A1 | Mar 2008 | US |