1. Field of the Invention
The present invention relates to an adjustable cam for a crossbow, and more particularly to an adjustable cam that is used to adjust tension degrees and draw lengths of bowstrings on the crossbow.
2. Description of Related Art
Conventionally, a crossbow usually contains a bow assembly, at least one bowstring and two cams. The two cams are respectively attached to two distal ends of the bow assembly to reel the bowstring when the crossbow is drawn to shoot an arrow. Therefore, the cams are used to only provide guiding efficiency to hold the bowstring steady when the crossbow is operated and do not provide any adjusting capability to the crossbow. Each crossbow has particular bowstring tension and draw length so that the crossbow is only suitable for a specific person and is seldom suitable for use by someone else having different physical condition.
To overcome the shortcomings, the present invention provides an adjustable cam for the crossbow to obviate the aforementioned problems.
The main objective of the invention is to provide an adjustable cam that adjusts the bowstring to have different tension degrees and draw lengths.
Other objects, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
An adjustable cam for a crossbow in accordance with the present invention comprises a main disk, a weight-adjusting block and a length-adjusting block. The main disk has two sides, a group of string hooks, a group of weight-selecting holes, and a group of length-selecting holes. The group of string hooks is formed on one side of the main disk. The group of weight-selecting holes and the group of length-selecting holes are defined through the main disk in different areas. The weight-adjusting block and the length-adjusting blocks are pivotally and coaxially mounted on the other side of the main disk. Each block has a securing hole to engage the one hole in a corresponding group.
By selectively attaching a bowstring to different string hooks and engaging the blocks to the corresponding groups of holes, tension degrees and draw lengths of the crossbow are adjustable in various modifications to make the crossbow have more versatile options to satisfy different users.
With reference to
With reference to
The main disk (20) is a kidney-shaped plate and has two sides, an edge periphery, a recess (22), a pivotal hole (24), a string rail (26), a mounting hole (28), a group of string hooks (I), a group of weight-selecting holes (II) and a group of length-selecting holes (III). The recess (22) is defined in one side of the main disk (20) and extends to the edge periphery to provide an opening (222) and make the main disk (20) have a C-shaped platform on the side. The C-shaped platform has two ends and the pivotal hole (24) is defined in one end of the C-shaped platform. The string rail (26) is formed on the edge periphery around the main disk (20) until the string rail (26) closes the opening (222) of the recess (22).
The group of string hooks (1) includes three string hooks (code: A, B, C) arranged in a curved line. The three string hooks (code: A, B, C) are formed on the main disk (20) inside the recess (22). The group of weight-selecting holes (II) is composed of five weight-selecting holes (No. 1, 2, 3, 4, 5) arranged in a curved line on the C-shaped platform. The weight-selecting holes (II) are arranged substantially in parallel with the string hooks (I). Additionally, the mounting hole (28) is defined through the C-shaped platform near the No. 4 weight-selecting hole. A string wheel (23) is secured on the mounting hole (28) by means of a screw.
The group of length-selecting holes (III) is composed of five length-selecting holes (code: D, E, F, G, H) arranged in same radius paths relative to the length-adjustable block (30) and close to the pivotal hole (24).
Particularly referring to
The weight-adjusting block (40) is pivotally mounted on the main disk (20) and partially overlapped with the length-adjusting block (30). The weight-adjusting block (40) is substantially a C-shaped plate and has an outer edge, an inner edge, a zenith (a), a pivotal end (42), an engaging end (44), a string rail (46), a sunken area (422), a pivotal hole (48) and a mounting hole (442). The sunken area (422) is defined at the pivotal end (42) to engage with the sunken area (322) on the length-adjusting block (30). The sunken area (422) gradually broadens and extends to the inner edge so that the sunken area (422) allows the length-adjusting block (30) to pivot freely when the engagement of the length-adjusting block (30) with the main disk (20) is changed. The string rail (46) is formed on the outer edge of the weight-adjusting block (40). The mounting hole (442) is defined in the engaging end (44) to selectively align with the group of weight-selecting holes (No. 1, 2, 3, 4, 5) by pivotally securing the weight-adjusting block (40) on the main disk (20).
The modifications of the adjustable cam are complex because interactions between elements of the adjustable cam are various. Therefore, the following table demonstrates all modifications of the adjustable cam and the corresponding tensile degrees and draw lengths for further illustration about the preferred embodiment shows in the drawings.
With reference to
After attaching the outer bowstring (50) on the string hook of No. A, the mounting hole (442) aligns with the weight-selecting hole of No. 5. As shown in
Secondly, the user has to decide a desired draw length according to arm length. Take 29.5 inch as the desired draw length under the desired tension of 60 lbs as an example, the length-matching hole No. 10 on the length-adjusting block (30) has to specifically align with the length-selecting hole of code E on the main disk (20) according to the table. With reference to
With further reference to
According to the above description and the table, the adjustable cam for the crossbow in the present invention has variable modifications in the tension degrees and the draw lengths by adjusting the engagements between the main disk (20) and the blocks (30, 40). Therefore, the crossbow can be adjusted to satisfy different users having different physical conditions.
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.