101 |
Bench rest for firearms |
US557828 |
1983-12-05 |
US4558531A |
1985-12-17 |
Gregory G. Kilby |
A weapon bench rest (10) including a base (12) and a pair of spaced upright guide members (18) extending upwardly from the top side (14) of the base. A bridge (20) extends between the guide members (18) parallel to the top side (14) of the base and presents a weapon support surface (22) including a resilient pad (64) on the top (24) of the bridge. A height adjustment mechanism (26) incrementally adjusts and then arrestably maintains the distance between the weapon support surface (22) and the base (12). The base (12) is provided with a handle (40) and is supported by legs (42) the projecting length of which is adjustable and removable for storage within a suitable compartment (50) of the base. |
102 |
Gun sighting apparatus |
US176223 |
1980-08-07 |
US4333385A |
1982-06-08 |
W. Jay Culver |
An apparatus for adjusting gun sights, particularly telescopic sights on rifles, wherein the rifle is mounted upon and rigidly clamped to, a gun support which is slidably supported upon a base structure so that the rifle can move a short distance parallel with the axis of the gun barrel when the gun is fired without damaging the apparatus or the gun because of the force of the recoil. The gun support includes a pair of spaced cradles, one of which supports the barrel and the other of which supports the butt. The barrel-supporting cradle is vertically adjustable and clamp means are provided for engaging the barrel and the butt stock adjacent said cradles for firmly holding the rifle with respect to the support.This invention relates in general to an apparatus for adjusting the sights of a gun and, more particularly, to a gun sighting apparatus adapted to adjust the telescopic sight on a rifle. |
103 |
Shooting support for rifle |
US664642 |
1976-03-08 |
US4026057A |
1977-05-31 |
Wayne A. Cady |
A mechanical support for rifle shooting providing two open top cradles to receive a rifle with the forward cradle providing compound vertical adjustment for optimum elevational positioning. The rifle support provides three point contact upon an underlying supporting surface with two support points swivelly mounted to allow simple and proper use on uneven or sloping terrain. The support is readily portable for use primarily in field shooting. |
104 |
Adjustable rifle rest |
US581689 |
1975-05-28 |
US4012860A |
1977-03-22 |
Arnold J. Auger |
A lower base is provided and an elongated generally horizontal support member is oscillatably supported from the base for angular displacement about a generally horizontal axis. The support member extends in a direction transverse to the axis of oscillation thereof and includes structure spaced above its axis of oscillation for removably stationarily supporting a long gun therefrom with the long gun extending longitudinally of the support member. Adjustment structure is operatively connected between the base and the support member for infinite angular adjustment of the support member relative to the base throughout at least a limited sector of adjustment. In addition, electric motor driven structure is also provided for removable support from a long gun supported from the support member and includes features for operative association with the trigger of the associated long gun, whereby the trigger may be gradually actuated without causing vibration of the long gun. |
105 |
Rifle zeroing device |
US9747671 |
1971-02-16 |
US3805608A |
1974-04-23 |
BRIGGS J; SCHMIDT G |
A mechanical holder consisting of two adjustable clamps, rigidly secured to two shafts to form a carriage adapted to move horizontally through four self-aligning bearings bolted to an angle iron frame. A coil spring embracing each of the shafts provides compressional force for control of the movement of the shafts within the bearings. When this holder is securely fastened to an immovable base, the rifle is to be clamped at the butt and forend and when the rifle is discharged it allows the rifle to recoil. The springs absorb the kinetic energy and return the rifle to its original position in such a manner as not to interfere with the rifle''s normal performance.
|
106 |
Stand for pistols |
US42744354 |
1954-05-04 |
US2877689A |
1959-03-17 |
PRIBIS HERMAN K |
|
107 |
Collapsible gun rest |
US38672753 |
1953-10-19 |
US2774563A |
1956-12-18 |
PRIBIS HERMAN K |
|
108 |
Pistol mount for shooting tests |
US2731829D |
|
US2731829A |
1956-01-24 |
|
|
109 |
Sighting-in support for firearms |
US66607346 |
1946-04-30 |
US2589039A |
1952-03-11 |
BOOTH MORRIS F |
|
110 |
Shooting rest |
US12555349 |
1949-11-04 |
US2582140A |
1952-01-08 |
LEEK WAYNE E |
|
111 |
Rifle demonstrator |
US48875721 |
1921-08-01 |
US1457407A |
1923-06-05 |
PHELPS STOKES JAMES G |
|
112 |
Gun-rest. |
US23942418 |
1918-06-11 |
US1277435A |
1918-09-03 |
LESKO MIKE |
|
113 |
Gun-carriage. |
US9724216 |
1916-05-13 |
US1211130A |
1917-01-02 |
FRATESCHI JOSEPH |
|
114 |
Rifle-trying device. |
US1912703660 |
1912-06-14 |
US1042357A |
1912-10-22 |
LIVTSCHAK JOSEF |
|
115 |
borchardt |
US499315D |
|
US499315A |
1893-06-13 |
|
|
116 |
leerbech |
US271251D |
|
US271251A |
1883-01-30 |
|
|
117 |
一种高度可调的射击靶台 |
CN201520658918.5 |
2015-08-28 |
CN205079676U |
2016-03-09 |
孙国宏 |
本实用新型涉及一种高度可调的射击靶台,包括基座(1),所述基座(1)内设有一个顶部带有开口的腔体(1a),在所述腔体(1a)内通过滑轨(8)配合连接射击托台(2),在所述射击托台(2)的中间设有一个弧形板(2a),其特征在于:在所述射击托台(2)的下侧设有支架(12),在所述腔体(1a)内还设有气弹簧(3),在所述气弹簧(3)的顶端支撑连接所述支架(12),所述气弹簧(3)的上侧设有控制其升降的把手(7)。本实用新型的优点:本装置结构简单,通过气弹簧能够随意调整拖台的高度,操作方便,保证了不同身高的射手与依托物之间的自然融合,从而提高了射击训练的精度。 |
118 |
可调式步枪射击支架 |
CN200920093144.0 |
2009-03-10 |
CN201364085Y |
2009-12-16 |
亓开 |
可调式步枪射击支架,属于武器领域,用于射击训练,增加枪身的稳定性和高度的适应性,克服现有的卧姿有依托射击枪身支撑物存在的高度不能随意调整的不足。由鞍形沙袋,承载沙袋的沙袋槽,固定在沙袋槽上的带有外螺纹的沙袋槽支撑立柱,立柱装配套管,与套管下端相固定的底座组成。其中的立柱与套管滑动配合,套管上装有透过管壁带有手柄的立柱定位螺杆,在套管上端的立柱上装配有立柱与套管相对高度锁定螺帽。本实用新型的有益效果是用于步枪卧姿射击,承托稳定,高度可调,方便使用和携带,有利于提高训练效率,提高射击的准确性。 |
119 |
AUTOMATIC DEVIATION CORRECTION METHOD |
US15825537 |
2017-11-29 |
US20190162508A1 |
2019-05-30 |
Danyang LI; Ming Chen; Yayun Gong |
An automatic deviation correction method, which is applied to a shooting sighting telescope. The automatic deviation correction method includes the following steps: converting an optical image obtained by a shooting sighting telescope into an electronic image, extracting a target paper area from the electronic image, and performing pixel-level subtraction on the target paper area and an electronic reference target paper to detect points of impact, calculating a center point of each of the points of impact to obtain a deviation of the center point of each of the points of impact and a center point of the target paper area; and inputting the deviation into the shooting sighting telescope for automatically correcting subsequent shooting. |
120 |
STABILIZING MOUNT |
US15889629 |
2018-02-06 |
US20180224062A1 |
2018-08-09 |
Joseph Paul YOKIEL; Joseph Paul YOKIEL, II |
The present invention relates to a stabilizing mount for being removably attached to an object, the stabilizing mount including a cylindrical element and a leveling system adjustably connected to the cylindrical element. The leveling system includes a sleeve adjustably connected to the cylindrical element, wherein the sleeve can be adjusted 360 degrees about the cylindrical element along a first axial direction and a first arm adjustably connected to the sleeve, wherein the first arm can be adjusted at least 180 degrees along a second axial direction that is substantially perpendicular to the first axial direction. The leveling system further includes a mount connector for removably attaching a device to the stabilizing mount. |