Archery bow with bow speed specific sight pin block

Information

  • Patent Grant
  • 6732727
  • Patent Number
    6,732,727
  • Date Filed
    Friday, August 25, 2000
    24 years ago
  • Date Issued
    Tuesday, May 11, 2004
    20 years ago
Abstract
An archery bow including a bow speed specific sight pin block having sight pin openings for sight pins located therein relative to each other at fixed distances for a given bow speed, so that when a single sight pin is manually positioned to indicate its corresponding arrow flight range, each of the other sight pins in the other openings will be in position to indicate their corresponding arrow flight range. The sight pin block may be mounted in a riser opening and allen screws may be included in the bowsight pin block frame for moving wedges located in the bowsight pin block frame into engagement with a sidewall of the riser opening for mounting the bowsight pin block in the riser opening.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




This invention relates to the field of archery bowsights which are mounted on archery bows to assist the shooter in determining the range of a shot and more specifically to a bowspeed specific sight pin block in which the sight pins may be readily positioned to indicate their corresponding arrow flight range.




2. State of the Art




For aiming a bow, an experienced archer will typically nock an arrow in the same position on the bowstring and draw the bowstring until a particular portion of the archer's hand touches a particular portion of the archer's head. With the drawn arrow in this position, the remaining variable in control of the archer during the shot is the desired arrow flight range. For increased range, the bow is raised, and for decreased range the bow is lowered.




Vertically spaced pin sights, well known in the prior art, assist the archer in determining the extent to which the bow should be raised or lowered to achieve the desired range. The vertical location of each pin sight is set by the archer to aim for the desired range. For example, in a bow shooting 280 feet per second, the pin sights may be set by the archer to shoot 20, 30, 40, 50 and 60 yards, with the highest pin calibrated to shoot the shortest yardage, 20 yards, and the lowest pin calibrated to shoot the longest yardage, 60 yards. The archer will select the pin sight which is calibrated for the desired range and raise or lower the bow until the selected pin sight is at eye level.




Setting the vertical location of each individual pin sight for its corresponding arrow flight range is a time consuming effort. It may, for example, take an archer three dozen or so shots to determine the proper vertical location for each pin sight. Since it is not unusual for five or more pin sights to be utilized, an archer may spend several hours adjusting the pin sights. Should the bow speed be changed because of a heavier arrow being shot, or for other reasons, so that the pin settings no longer accurately indicate the arrow range, the archer will be required to repeat the time consuming pin setting procedure for the new arrow range.




Certain prior art bowsights, such as disclosed in U.S. Pat. No 5,560,113 to Simo et al., include a pin block in which a number of vertically adjustable sight pins were located. Simo et al. is an example of a bow sight in which the archer was required to laboriously determine the vertical position of each individual pin sight for its corresponding arrow flight range. The Simo et al. patent is also an example of a bow sight which requires an independent bracket member mounted on the bow riser. At least one prior art bowsight, sold by the Fred Bear Company under the designation “Bear Field Model Premier”, included an opening in the bow riser in which a bowsight was mounted. In contrast, to the vertically moveable sight pins disclosed in Simo et al., a patent to Howe, U.S. Pat. No. 2,332,080 disclosed a pin block having fixed openings therein for mounting the pin sights.




SUMMARY OF THE INVENTION




According to the present invention, the locations of openings for mounting pin sights corresponding to different arrow flight ranges for a given bow speed are determined and sight pins are mounted in the openings. In an embodiment of the present invention, the openings are located in a modular self contained sight pin block. Because the locations of the pin sight openings are fixed with respect to each other, when a single sight pin in one of the openings is manually positioned to indicate its corresponding arrow flight range, each of the sight pins in the other openings will be in position to indicate their corresponding arrow flight range.




The bow speed specific sight pin block of the present invention may be simply and securely mounted in the sidewalls of an opening in the riser, although it is emphasized that the bow speed specific pin block of the present invention need not be mounted in an opening in the bow riser. The pin block may, for example, be mounted to the archery bow by a bracket, such as, but not limited to, the type sold by Impact Archery, under the designation “Impact 3-pin Fiber Optic Lite #6521-003”, or the type sold by Game Warning Systems under the designation “4-Pin Fiber Optic, Black #6522-044”. In the illustrated embodiment, the bowsight pin block frame includes internal allen screws which move wedge elements in the bowsight pin block frame into and out of engagement with sidewalls. To mount the bowsight pin block, the wedge elements are moved into engagement with the sidewalls. To remove the bowsight pin block from the riser, the wedge elements are moved out of engagement with the sidewalls.




It is an object of the present invention to provide an archery bow with bow speed specific pin sight openings so that when a single pin sight in one of said openings is manually positioned to indicate its corresponding arrow flight range, each of the pins in the other openings will be in position to indicate their corresponding arrow flight range.




It is a further object of the present invention to provide an archery bow having a bow speed specific sight pin block, including pin sight openings therein so that when a single sight pin in one of said openings is manually positioned to indicate its corresponding arrow flight range, each of the sight pins in the other openings will be in position to indicate their corresponding arrow flight range.




It is a still further object of the present invention to provide a modular self contained bow speed specific sight pin block which may be conveniently packaged, identified and stored for use or sale according to bow speed.




It is an additional object of the present invention to provide a modular self contained bow speed specific sight pin block wherein the sight pins are readily positioned to indicate their corresponding arrow flight range and wherein the sight pin block may be conveniently packaged, identified and stored for use or sale according to bow speed.




It is also an object of the present invention to provide a bowsight pin block which may be simply and securely mounted in a riser opening without the need for a separate bracket connecting the bowsight to the riser.




Additional objects and advantages of the invention will become apparent to those skilled in the art upon reference to the detailed description taken in conjunction with the combined figures.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1A

is a perspective view of an archery bow riser with which the bowsight pin block of the present invention may be used.





FIG. 1B

is a perspective view of the archery bow riser shown in FIG.


1


and wherein the bowsight pin block of the present invention is mounted in the riser.





FIG. 2

is a perspective view of the archery bow including the bowsight pin block of the present invention.





FIG. 3

is a side elevation of the bowsight of the present invention in which the sight pins are mounted in the openings in the bowsight pin block;





FIG. 4

is a transverse section taken on the line


4





4


of

FIG. 3

with the sight pins removed from the openings in the bowsight pin block;





FIG. 5

is a side elevation of the bowsight pin block of the present invention in which an upper wedge is in its extended position and the lower wedge is in its retracted position;





FIG. 6

is a side elevation of the bowsight shown in

FIG. 5

wherein the bowsight pin block has been rotated ninety degrees counterclockwise;





FIG. 7

is an enlarged side elevation of the bowsight shown in FIG.


6


and wherein the upper wedge is in engagement with a sidewall of the riser opening and the lower wedge is out of engagement with the sidewall;





FIG. 7A

is a transverse section taken on the line


7


A—


7


A of FIG.


7


and showing an enlarged top plan view;





FIG. 7B

is a transverse section taken on the line


7


B—


7


B of FIG.


7


and showing an enlarged top plan view; and





FIG. 8

is a side elevation similar to FIG.


7


and wherein both the upper and lower wedges are in engagement with a sidewall of the riser opening.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS




With reference to

FIGS. 1A and 1B

, there is shown a riser


2


including a hand grip portion


4


, a reinforcement bridge


6


, and a number of openings for the purpose of reducing the weight of riser


2


. The openings in, the upper portion of riser


2


are identified by reference numerals


8


,


10


,


12


and


14


. The openings in the lower portion of riser


2


are identified by reference numerals


16


and


18


. Weight reducing opening


14


, having sidewalls


15


, includes a recess


22


around its periphery for receiving the bow speed specific sight pin block


24


. The shape and number of the openings will vary with particular bows. Riser


2


further includes an arrow receiving portion


20


.




With reference to the archery bow


3


shown in

FIG. 2

, which is of the type sold by Bear Archery L.L.C. under the “T-MASTER” trademark, riser


2


is connected to upper bow limb


5


and lower bow limb


6


. A wheel


7


is located within the limb tip of upper bow limb


5


and a cam


9


is located within the limb tip of lower bow limb


6


. An anchor cable


11


and feed out cables


13


are provided in known manner. A cable guard


17


is connected to riser


2


.




With reference to

FIG. 3

it is seen that bowsight pin block


24


comprises a general rectangular frame


26


having a rectangular opening


28


therein. Sight pins


30


,


32


,


34


,


36


and


38


are located in openings


30


′,


32


′,


34


′,


36


′ and


38


′ of frame


26


. For illustration purposes, the following discussion refers to a bowsight for use in a bow having a speed of 280 feet per second, and, in particular, for determining the relative locations of the openings


30


′,


32





34


′,


36


′ and


38


′ so that, when a single sight pin in one of the openings, such as sight pin


30


, is manually positioned to indicate its corresponding arrow flight range, each of the other sight pins in the other openings, i.e., openings


32


′,


34


′,


36


′ and


38


′ will be in position to indicate their corresponding arrow flight range. Thus, it will be understood that only one sight pin need be manually positioned to position all the other sight pins.




In the present example, the opening


30


′ will correspond to an arrow flight range of twenty yards; the opening


32


′ will correspond to an arrow flight range of thirty yards; the opening


34


′ will correspond to an arrow flight range of forty yards; the opening


36


′ will correspond to an arrow flight range of fifty yards and the opening


38


′ will correspond to an arrow flight range of sixty yards.




To determine the locations of the openings, it is assumed that the archer has ascertained that the bow speed is 280 feet per second by, for example, shooting the arrow through a chronograph. The archer then shoots the bow seeking a predetermined arrow flight range, for example, 20 yards. The pin sight location at which the 20 yard shot is achieved is determined and a sight pin opening is provided at this location (i.e. in the illustrated example, opening


30


′ is provided for mounting sight pin


30


). Next, the bow is shot to determine the pin sight location at which the 30 yard shot is achieved and at this location, opening sight pin


32


′ is provided for mounting sight pin


32


. As noted in the following table, the fixed distance between opening


30


′ and opening


32


′ is 0.089 inches. The procedure is continued until the locations are fixed for a 40 yard arrow flight, opening


34


′; a 50 yard arrow flight, opening


36


′; and a 60 yard arrow flight opening


38


′.























Distance from




Pin gap







Opening





20 yard pin




(pin to pin)







number




Yardage




(inches)




(inches)













30′




20









0   







32′




30




.089




.089







34′




40




.212




.123







36′




50




.347




.135







38′




60




.495




.148















The effect of having sight pins in each of these fixed locations relative to the sight pin in opening


30


′, is that whenever the bow speed specific sight pin block


24


is inserted in an archery bow having a bow speed of 280 feet per second, only a single sight pin in one of the openings need be manually positioned, by raising or lowering pin block


24


, to indicate its corresponding arrow flight range. The other sight pins will be in position to indicate their corresponding arrow flight ranges. For example, when the archer raises or lowers pin block


24


within opening


14


of hand grip portion


4


, so that sight pin


34


is in position to indicate an arrow flight range of 40 yards, all of the other sight pins will be in position to indicate their corresponding arrow flight ranges.




It is noted that the same pin block can be utilized for two different arrow velocities by, for example, placing the sight pins in openings


30


′ through


36


′ for a bow shooting 280 feet per second or openings


32


′ through


38


′ for a bow shooting 260 feet per second. Thus, the extra hardware needed for individual pin elevation adjustments are eliminated making the sight more compact. If the archer wishes to fine tune the distances between pins, the pins can be rotated or bent to bring them into the desired positions for the particular set up.




For securing pin block


24


, within opening


14


a raised ridge


29


on both sides of frame


26


of bow speed specific sight pin block


24


is adapted to sit within recess


22


of opening


14


. It is again emphasized that pin block


24


may be mounted to the bow by various mounting means and need not be mounted within a recess in the riser. In the illustrated embodiment, Allen screws


37


and


40


extend into the side of fame


26


and are screwable into contact with wedges


42


and


44


, also located in frame


26


for moving wedges


42


and


44


into locking engagement with one of the sidewalls


15


of opening


14


.




When the sight pins have been aligned to indicate their corresponding arrow flight ranges, to secure pin block


24


within opening


14


, pin block


24


is perpendicularly inserted, in opening


14


of hand grip portion


4


as shown in FIG.


2


. In this position, raised rib


29


on frame


26


is seated within recess


22


of opening


14


. To insert pin block


24


in opening


14


it is necessary that wedge


42


and wedge


44


be in its retracted position within frame


26


. Any extension of wedge


42


or wedge


44


outside of frame


25


would prevent the close fit of pin block


24


in opening


14


. For illustration purposes, in

FIGS. 5

,


6


,


7


and


7


B, lower wedge


44


is shown as being in its retracted position within frame


26


while in

FIGS. 5

,


6


,


7


and


7


A upper wedge


42


is shown in its extended position outside of frame


26


. In order for pin block


24


to be inserted in opening


14


, it is necessary that both wedges


42


and


44


be in the retracted position of wedge


44


, i.e., within frame


26


. When wedges


42


and


44


are in their retracted position within frame


26


, allen screws


37


and


40


are in the position of allen screw


40


shown in

FIGS. 5

,


6


,


7


and


7


B.




After pin block


24


is inserted in its desired height within opening


14


, it is locked therein. To do so, allen screws


37


and


40


are screwed into contact with the taper portion of wedges


42


and


44


and move wedges


42


and


44


into the position shown by wedges


42


and


44


in FIG.


8


. In this position wedges


42


and


44


press against a sidewall


15


of opening


14


to lock the pin block


24


in opening


14


.




It will thus be appreciated that there is disclosed herein a modular self contained bow speed specific sight pin block, which in the illustrated embodiment requires no external bracketing, and wherein the sight pins are readily positioned to indicate their corresponding arrow flight range and wherein the sight pin block may be conveniently packaged, identified and stored for use or sale according to bow speed.




While particular embodiments of the invention have been described, it is not intended that the invention be limited thereto, as it is intended that the invention be as broad in scope as the art will allow and that the specification be read likewise.



Claims
  • 1. A method for producing a bow speed specific sight pin block for use in an archery bow comprising the steps of:a. determining the bow speed; b. firing the bow a first predetermined distance and determining a first location on the pin block for a first opening in which a first sight pin will be located to indicate the first predetermined distance; c. providing a first opening in the first location of said pin block; d. firing the bow at least a second predetermined distance and determining at least a second location in the pin block for at least a second opening in which a second sight pin will be located to indicate the at least second predetermined distance; and e. providing at least a second opening in the at least second location of said pin block.
  • 2. A method for producing a bow speed specific sight pin block as recited in claim 1 and further including the step of transferring the sight pin block to a bow of the same known bow speed and whereby when placed in the bow of the same known bow speed only a single sight pin will have to be manually positioned to indicate its specific arrow flight range without any of the other sight pins having to be manually positioned to indicate their respective arrow flight range.
  • 3. A method for producing a bow speed specific sight pin block as recited in claim 2, wherein said transferring includes placement of the bow speed specific sight pin block in an opening in the bow riser.
  • 4. A method for producing a bow speed specific sight pin block as recited in claim 3, wherein the bow speed specific sight pin block includes a wedge which engages a wall in the opening in the bow riser.
  • 5. A method for producing a bow speed specific sight pin block as recited in claim 1, further comprising the step of locating the first sight pin in the first opening in the pin block.
  • 6. A method for producing a bow speed specific sight pin block as recited in claim 5, further comprising the step of locating the second sight pin in the second opening in the pin block.
  • 7. A method for producing a bow speed specific sight pin block as recited in claim 1, further comprising the steps of:a. firing the bow a third predetermined distance and determining a third location on the pin block for a third opening in which a third sight pin will be located to indicate the third predetermined distance; b. providing a third opening in the third location of said pin block.
  • 8. A method for producing a bow speed specific sight pin block as recited in claim 7, further comprising the step of locating the third sight pin in the third opening in the pin block.
  • 9. A method for producing a bow speed specific sight pin block as recited in claim 1, further comprising the steps of:a. firing the bow a plurality of predetermined distances and determining a plurality of locations on the pin block for a plurality of openings in which a plurality of sight pins will be located to indicate the plurality of predetermined distances; and, b. providing a plurality of openings in the plurality of locations of said pin block.
  • 10. A method for producing a bow speed specific sight pin block as recited in claim 9, further comprising the step of locating a plurality of sight pins in the plurality of openings in the pin block.
US Referenced Citations (15)
Number Name Date Kind
2332080 Howe Oct 1943 A
2574599 Steiber Nov 1951 A
2998652 Zielnski Sep 1961 A
3310875 Kowalski Mar 1967 A
3579839 Kowalski May 1971 A
3822479 Kowalski Jul 1974 A
4328625 Carella May 1982 A
4543728 Kowalski Oct 1985 A
5406712 Slates Apr 1995 A
5442861 Lorocco Aug 1995 A
5560113 Simo et al. Oct 1996 A
5649526 Ellig Jul 1997 A
5682871 Walk Nov 1997 A
5685081 Winegar Nov 1997 A
5836294 Merritt Nov 1998 A
Non-Patent Literature Citations (1)
Entry
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