Firearm Shooting Rest

Abstract

A weapon support and associated components and methods. The weapon support includes a frame including one or more legs, and the weapon support includes a weapon support head supported by the frame. The weapon support head includes a cradle including first and second jaws configured to selectively clamp the weapon. The cradle can be pivoted relative to the frame to adjust an aim of the weapon relative to the frame.

Description

FIELD

The present disclosure generally relates to equipment supports, and more particularly to stands such as monopods, bipods, tripods, etc., for supporting equipment such as weapons, optics, cameras, or other equipment.

BACKGROUND

Monopods, bipods, tripods, and other types of equipment stands are used to support various types of equipment. For example, hunters may use such stands to support an optic (e.g., spotting scope), a weapon (e.g., rifle), or a camera. Such equipment supports are also used in other activities.

SUMMARY

In one aspect, a weapon support head for supporting a weapon comprises a base defining a bed configured to support the weapon. The weapon support head comprises first and second jaws supported by the base and extending upward relative to the bed. The first and second jaws are moveable relative to the base to change a distance between the jaws to clamp the weapon between the jaws. A first jaw guide extends from the first jaw to the base and is configured to guide movement of the first jaw relative to the base. A first second jaw guide extends from the second jaw to the base and is configured to guide movement of the second jaw relative to the base. A jaw driver supported by the base is configured to move the first and second jaws toward and away from each other relative to the base. The jaw driver is between the first jaw guide and the first second jaw guide.

In another aspect, a weapon support head for supporting a weapon comprises a base defining a bed configured to support the weapon. The weapon support head includes first and second jaws supported by the base and extending upward relative to the bed. The first jaw is moveable relative to the base to change a distance between the first and second jaws to clamp the weapon between the jaws. A jaw driver is supported by the base and configured to move the first jaw outward and inward relative to the base. A first jaw guide extends from the first jaw to the base and is configured to guide movement of the first jaw relative to the base. The first jaw guide includes a stop configured to stop outward movement of the first jaw relative to the base.

Other objects and features of the present disclosure will be in part apparent and in part pointed out herein.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective of a weapon support of the present disclosure;

FIG. 2 is a fragmentary perspective of the weapon support;

FIG. 3 is a section of the weapon support taken in a plane extending widthwise of the weapon support; and

FIG. 4 is a section of a cradle of the weapon support taken in a plane extending heightwise of the cradle.

Corresponding reference numbers indicate corresponding parts throughout the drawings.

DETAILED DESCRIPTION

Referring to FIG. 1, a weapon support of the present disclosure is indicated generally by the reference number 10. The weapon support 10 may be used to support a variety of weapons, such as firearms (e.g., rifle, shotgun, etc.) or crossbows. The weapon support 10 may assist the shooter in maintaining the weapon in a stable position to facilitate aiming of the weapon at a desired target.

The weapon support 10 includes a frame 20 comprising three extendable legs 22 and a leg mount 24. The three legs are connected to the leg mount and are pivotable between stowed positions (e.g., FIG. 1) and deployed positions (not shown) with respect to the leg mount. The illustrated frame 20 is a tripod with three legs 22, but it will be appreciated weapon supports according to the present disclosure could have other types of frames, such as other numbers of legs (e.g., two, one, none), without departing from the scope of the present disclosure.

Referring to FIG. 2, the weapon support 10 includes a support head 30 (e.g., tripod head) including a cradle 32 configured to engage the weapon (not shown) to support the weapon. The support head 30 includes a stem 40, a base 50, and first and second jaws 56, 58. The base 50 defines a bed 52 having a weapon support surface 54 that supports the weapon when the weapon is between the first and second jaws 56, 58. The bed has a length L extending between forward and rear ends of the cradle. The bed has a width W extending widthwise of the cradle between the jaws. The first and second jaws 56, 58 are located outboard of the bed 52 and extend upward relative to the bed. In the illustrated embodiment, both jaws 56, 58 are moveable with respect to the bed 52 to change a distance between the jaws. The jaws 56, 58 can be moved inward and outward, as described in greater detail below, to selectively clamp and unclamp the weapon in the cradle 32. Other configurations can be used without departing from the scope of the present disclosure.

The stem 40 includes a hub 42 and a yoke 44. The hub 42 is received on a boss portion 26 extending upward from the leg mount 24. The hub 42 is pivotable about the boss portion 26 to permit the user to adjust a horizontal aim of the weapon. A yaw actuator 60 is provided to permit the user to selectively permit horizontal aim adjustment. The yaw actuator 60 comprises a knob 62 connected to a collar of the hub. Rotation of the yaw 60 actuator in a first direction loosens the collar to increase freedom of pivoting of the cradle 32 about the stem 40. Rotation of the yaw actuator 60 in a second direction opposite the first direction tightens the collar on the boss portion 26 to restrict pivoting about the boss portion. The collar 44 can be tightened on the boss portion 26 sufficiently to create a friction lock that prevents pivoting of the cradle 32 about the boss portion. The yoke 46 is pivotable with respect to the hub 42 to permit the user to change vertical aim of the weapon in the cradle 32. The yoke 46 includes two arms 48 on opposite sides of the hub 42. A pitch actuator 70 is provided to permit the user to selectively permit vertical aim adjustment. The pitch actuator 70 comprises a knob 72 connected to the two arms 48. Rotation of the pitch actuator 70 in a first direction loosens the arms 48 relative to the hub 42 to permit more freedom in pivoting of the yoke 46. Rotation of the pitch actuator 70 in an opposite second direction tightens the arms 48 relative to the hub 42 and can create a friction lock to lock a vertical aim of the weapon in the cradle 32. Other configurations can be used without departing from the scope of the present disclosure.

The cradle 32 includes a jaw driver 80 configured to change the distance between the first and second jaws 56, 58 for selectively clamping the weapon with the jaws. The jaw driver 80 includes a jaw actuator 82 and a threaded shaft assembly 90 including a first shaft 92 and a second shaft 100. The jaw actuator 82 comprises a knob 84 secured to the first shaft 92 to rotate conjointly with the first shaft. The first shaft 92 is received in a bushing 88 (e.g., bearing) in the first jaw 56. The first jaw 56 is captured between a shoulder 94 of the first shaft 92 and a lip 86 of the jaw actuator 82 to prevent translation of the first shaft and knob 84 relative to the first jaw. However, the first shaft 92 and knob 84 are permitted to rotate relative to the first jaw 56 via the bushing 88. The second shaft 100 is secured to the second jaw 58 and does not rotate or translate relative to the second jaw. The first shaft 92 includes a female threaded section 96 (first threaded section) that is in threaded engagement with a male threaded section 102 (second threaded section) of the second shaft 100. The first shaft 92 includes a male threaded section 98 (third threaded section) that is received in a female threaded passage 106 (fourth threaded section) of the bed 52. In the illustrated embodiment, the threaded passage 106 of the bed 52 is formed by a threaded insert 104 (e.g., shaft) formed separately from and mounted in a body of the bed. In use, rotation of the jaw actuator 82 causes rotation of the first shaft 92 relative to the first jaw 56, the second shaft 100, and the threaded bed passage 106. Depending on the direction the jaw actuator 82 is rotated, the jaws 56, 58 move inward together toward each other or outward together away from each other. The external threads 98 of the first shaft are right-handed. The internal threads 96 of the first shaft 92 are left-handed and are two times the pitch of the external threads 98 of the first shaft. This arrangement results in the first and second jaws 56, 58 moving inward and outward relative to the bed 52 at the same time, same speed, and same distance. This keeps the bed 52 at the midpoint between the jaws regardless of how much the jaw actuator 82 is turned. Cradles having other configurations (e.g., one moveable jaw and one static jaw) can be used without departing from the scope of the present disclosure.

Movement of the jaws relative to the bed is guided by respective sets of jaw guides. In the illustrated embodiment, the guides 110, 120, 130, 140 comprise slides in the form of rods. First and second first jaw guides 110, 120 extend from the first jaw 56 through passages in the bed 52, and first and second jaw guides 130, 140 extend from the second jaw 58 through additional passages in the bed. The proximal ends 112, 122 of the first jaw guides 110, 120 are secured to the first jaw 56 to cause conjoint movement of the first jaw guides and first jaw relative to the bed 52. The proximal ends 132, 142 of the second jaw guides 130, 140 are secured to the second jaw 58 to cause conjoint movement of the second jaw guides and second jaw relative to the bed 52. The first jaw 56 includes guide receivers 134, 144 configured to receive the distal ends 136, 146 of the second jaw guides 130, 140, and the second jaw 58 includes guide receivers 114, 124 configured to receive the distal ends 116, 126 of the first jaw guides 110, 120. The guide receivers permit the jaws to be moved toward each other without the distal ends of the guides impeding inward movement of the jaws. Other configurations can be used without departing from the scope of the present disclosure.

It will be appreciated that the cradle 32 is configured to be relatively compact. The jaw driver 80 (e.g., the first and second shafts) is located between the first jaw guides 110, 120 and between the second jaw guides 130, 140. The arrangement is such that the jaw driver 80 (e.g., the first and second shafts) and the first and second jaw guides are intersected by a plane (e.g., the plane in which the section of FIG. 3 is taken) below the weapon support surface 54 of the bed 52. Moreover, the jaw actuator is configured to move inward with the first jaw to decrease the footprint of the cradle when the jaws are moved toward each other. Other configurations can be used without departing from the scope of the present disclosure.

It will be apparent that modifications and variations are possible without departing from the scope of the invention defined in the appended claims. As various changes could be made in the above constructions and methods without departing from the scope of the invention, it is intended that all matter contained in the above description and shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.

Claims

1. A weapon support head for supporting a weapon, the weapon support head comprising: a base defining a bed configured to support the weapon,first and second jaws supported by the base and extending upward relative to the bed, the first and second jaws being moveable relative to the base to change a distance between the jaws to clamp the weapon between the jaws,a first jaw guide extending from the first jaw to the base and configured to guide movement of the first jaw relative to the base,a first second jaw guide extending from the second jaw to the base and configured to guide movement of the second jaw relative to the base,a jaw driver supported by the base and configured to move the first and second jaws toward and away from each other relative to the base, the jaw driver being between the first jaw guide and the first second jaw guide.

2. A weapon support head as set forth in claim 1, further comprising a second first jaw guide extending from the first jaw to the base and configured to guide movement of the first jaw relative to the base.

3. A weapon support head as set forth in claim 2, wherein the jaw driver is between the first jaw guide and the second first jaw guide.

4. A weapon support head as set forth in claim 3, further comprising a second jaw guide extending from the second jaw to the base and configured to guide movement of the second jaw relative to the base.

5. A weapon support head as set forth in claim 4, wherein the jaw driver is between the first second jaw guide and the second jaw guide.

6. A weapon support head as set forth in claim 5, wherein the bed defines a support surface configured to support the weapon when the weapon is between the jaws, and wherein a plane below the support surface intersects the jaw driver, the first jaw guide, the second first jaw guide, the first second jaw guide, and the second jaw guide.

7. A weapon support head as set forth in claim 1, wherein the bed defines a support surface configured to support the weapon when the weapon is between the jaws, and wherein a plane below the support surface intersects the jaw driver and the first jaw guide and the first second jaw guide.

8. A weapon support head as set forth in claim 1, further comprising a yaw actuator configured to selectively permit pivoting of the cradle to adjust a horizontal aim of the weapon.

9. A weapon support head as set forth in claim 1, further comprising a pitch actuator configured to selectively permit pivoting of the cradle to adjust a vertical aim of the weapon.

10. A weapon support head as set forth in claim 1, wherein the first jaw guide includes a stop configured to stop outward movement of the first jaw relative to the bed.

11. A weapon support head as set forth in claim 1, wherein the jaw driver comprises a threaded shaft assembly including a first threaded shaft and a second threaded shaft in threaded engagement with the first threaded shaft, the threaded shaft assembly being between the first jaw guide and the first second jaw guide.

12. A weapon support head as set forth in claim 1, further comprising a frame including multiple legs, the frame being coupled to the weapon support head, the legs being configured to support the weapon support head, the legs being pivotable between stowed and deployed positions.

13. A weapon support head for supporting a weapon, the weapon support head comprising: a base defining a bed configured to support the weapon,first and second jaws supported by the base and extending upward relative to the bed, the first jaw being moveable relative to the base to change a distance between the first and second jaws to clamp the weapon between the jaws,a jaw driver supported by the base and configured to move the first jaw outward and inward relative to the base,a first jaw guide extending from the first jaw to the base and configured to guide movement of the first jaw relative to the base, the first jaw guide including a stop configured to stop outward movement of the first jaw relative to the base.

14. A weapon support head as set forth in claim 13, wherein the stop is configured to engage the bed to stop outward movement of the first jaw relative to the base.

15. A weapon support head as set forth in claim 13, wherein the first jaw guide comprises a rod extending from the first jaw guide to the base.

16. A weapon support head as set forth in claim 15, wherein the stop comprises a screw threaded in the rod.

17. A weapon support head as set forth in claim 13, wherein the second jaw is moveable relative to the base to change a distance between the first and second jaws, the weapon support head further comprising a first second jaw guide extending from the second jaw to the base and configured to guide movement of the second jaw relative to the base.

18. A weapon support head as set forth in claim 17, wherein the first second jaw guide includes a stop configured to stop outward movement of the second jaw relative to the base.

19. A weapon support head as set forth in claim 18, wherein the first jaw includes a jaw receiver configured to receive the first second jaw guide.

20. A weapon support head as set forth in claim 13, wherein the jaw driver comprises a threaded shaft assembly including a first threaded shaft and a second threaded shaft in threaded engagement with the first threaded shaft.