专利检索_.用于往复式枪固定或枪管移动的轴承装置专利检索_.用于往复式枪固定或枪管移动的轴承装置专利检索查询

子分类：

F41A25/24：..使用球轴承或滚珠轴承

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
1	模块式武器	CN201680040852.0	2016-07-05	CN107850416B	2020-12-29	H·施耐德
本发明基于这样的构思，即，完全模块式地构成武器(100)。为此，武器特定地将武器(100)分成组件，这些组件用作武器(100)的零件和/或模块式组件的载体单元。第一组件这里可以是模块式的武器壳体(3)。所述武器壳体(3)包括载体单元，武器闭锁系统连同其零件安装到所述载体单元中。另一个模块式的组件是武器架(2)。在这个模块式的载体单元中置入带有闭锁系统的武器壳体(3)模块。武器壳体(3)模块可以加装武器管模块。在武器架(2)上安装有另外的模块式组件，即武器驱动装置(1)。零件在模块式的组件上的机械连接或各模块式组件之间的机械连接通过零件上的轨道和导向部(15.1、21.1)和所述组件(3)的互补的轨道和导向部(3.1、3.2)、压紧件(31)和支座(33)、通过销(33、34)、销栓(31.1、2.6)和快速连接件(22.2)来实现。
2	带内移动式锚固件的长枪械外部底座装置	CN201880080127.5	2018-12-05	CN111465817B	2023-03-28	何塞·安东尼奥·多明格斯·巴斯克斯; 奥斯卡·德·卡斯特罗·勒吉多
本发明涉及一种长枪械用外部底座，其精准度基于以下方式得以提高：1.加装一个外部底座，所述枪械安装在所述底座内部；2.通过低摩擦滑动环以可伸缩的方式将所述枪械锚固在所述外部底座内部；3.包括一个运动吸收元件；4.包括若干导引衬套，其可将所述枪械的运动限制在单个轴上。如图所示安装上述元件后，本发明可抑制并吸收枪械在射击时由于枪托‑射弹组件或枪托‑发射系统的反作用效应而产生的固有后坐力，从而使枪托保持不动，且不会有任何运动传递到射击者身上。通过这种方式，枪械的精准度大幅提高，光学瞄准部件不受突然移动的影响，从而保护这些元件免受可能的损坏，并防止其移位。所述元件还确保枪械仅沿枪管的轴线移动，从而保证枪械精准度。此外，由于本发明的设计，该外部底座不仅适用于具有特定新设计的枪械中，也适用于现有枪械中。
3	带内移动式锚固件的长枪械外部底座装置	CN201880080127.5	2018-12-05	CN111465817A	2020-07-28	何塞·安东尼奥·多明格斯·巴斯克斯; 奥斯卡·德·卡斯特罗·勒吉多
本发明涉及一种长枪械用外部底座，其精准度基于以下方式得以提高：1.加装一个外部底座，所述枪械安装在所述底座内部；2.通过低摩擦滑动环以可伸缩的方式将所述枪械锚固在所述外部底座内部；3.包括一个运动吸收元件；4.包括若干导引衬套，其可将所述枪械的运动限制在单个轴上。如图所示安装上述元件后，本发明可抑制并吸收枪械在射击时由于枪托-射弹组件或枪托-发射系统的反作用效应而产生的固有后坐力，从而使枪托保持不动，且不会有任何运动传递到射击者身上。通过这种方式，枪械的精准度大幅提高，光学瞄准部件不受突然移动的影响，从而保护这些元件免受可能的损坏，并防止其移位。所述元件还确保枪械仅沿枪管的轴线移动，从而保证枪械精准度。此外，由于本发明的设计，该外部底座不仅适用于具有特定新设计的枪械中，也适用于现有枪械中。
4	模块式武器	CN201680040852.0	2016-07-05	CN107850416A	2018-03-27	H·施耐德
本发明基于这样的构思，即，完全模块式地构成武器(100)。为此，武器特定地将武器(100)分成组件，这些组件用作武器(100)的零件和/或模块式组件的载体单元。第一组件这里可以是模块式的武器壳体(3)。所述武器壳体(3)包括载体单元，武器闭锁系统连同其零件安装到所述载体单元中。另一个模块式的组件是武器架(2)。在这个模块式的载体单元中置入带有闭锁系统的武器壳体(3)模块。武器壳体(3)模块可以加装武器管模块。在武器架(2)上安装有另外的模块式组件，即武器驱动装置(1)。零件在模块式的组件上的机械连接或各模块式组件之间的机械连接通过零件上的轨道和导向部(15.1、21.1)和所述组件(3)的互补的轨道和导向部(3.1、3.2)、压紧件(31)和支座(33)、通过销(33、34)、销栓(31.1、2.6)和快速连接件(22.2)来实现。
5	フィールドガン(FIELDGUN)	JP2015536214	2013-10-10	JP6017696B2	2016-11-02	ドーソン、キース; ハーバート、フレデリック; ウェブ、マイケル・ジョン

6	フィールドガン（ＦＩＥＬＤＧＵＮ）	JP2015536214	2013-10-10	JP2015534634A	2015-12-03	ドーソン、キース; ハーバート、フレデリック; ウェブ、マイケル・ジョン
グランドプレーンの上の配備に適切な榴弾砲であって、榴弾砲は、砲弾を発射させるための大砲を備える。大砲は、バレルを備え、バレルは、バレル軸線を画定し、榴弾砲の前方部端部に向けてマズルを有しており、バレルの後端部においてブリーチアッセンブリを有しており、クレードルは、所定のトラバースおよび所定のエレベーションにおいて大砲を保持するためのものであり、2つのトラニオンピンは、前記クレードルの上に位置付けされており、前記クレードルは、サドルの上の受け入れトラニオン軸受と同一場所に設置されており、ここにおいて、第1の位置において、前記ブリーチは、前記トラニオンの前方に位置付けされており、第2の位置において、反動ストロークの最後に、前記ブリーチは、実質的に前記トラニオンの後ろに後退させられ、ここにおいて、前記反動ストロークは、エレベーションの選択に応じて可変である。【選択図】図1
7		JP50137682	1982-04-29	JPS58500622A	1983-04-21
PCT No. PCT/AT82/00015 Sec. 371 Date Dec. 30, 1982 Sec. 102(e) Date Dec. 30, 1982 PCT Filed Apr. 29, 1982 PCT Pub. No. WO82/03910 PCT Pub. Date Nov. 11, 1982.An automatic pistol comprises a frame, a barrel slidable on the frame and having a cartridge-receiving rear end, a breech slidable on the frame and engageable over the rear end of the barrel to form a cartridge chamber, and firing mechanism including a firing element and a firing pin operatively linked thereto. The element is movable on the breech toward and away from the barrel between a rear position in which the firing pin is out of the cartridge chamber and a front position with the firing pin projecting forward into the cartridge chamber for firing a cartridge in the chamber when the firing element moves from the rear to the front position. A spring is braced against the element and urges same into the front position. A trigger is movable on the frame between an actuated and an unactuated position. An abutment engageable with the firing element in an intermediate position thereof between its front and rear positions is displaceable backward on the frame. A link is connected between the trigger and the abutment for displacing same backward into the rear position from the intermediate position on displacement of the trigger from the unactuated to the actuated position and for displacing the abutment out of operative engagement with the firing element on displacement of the trigger into the actuated position for displacement of the firing element by the spring means into the front position. Thus the starting position of the abutment for the firing bolt or hammer is at an intermediate location in the travel path of same.
8	Gun barrel weapons	JP2003380014	2003-11-10	JP4444631B2	2010-03-31	ボーンサックエッケハルト; クネーリッヒフリードヘルム; バウマンベルトールト

9		JP50137682	1982-04-29	JPH0575960B2	1993-10-21	GLOCK GASTON
PCT No. PCT/AT82/00015 Sec. 371 Date Dec. 30, 1982 Sec. 102(e) Date Dec. 30, 1982 PCT Filed Apr. 29, 1982 PCT Pub. No. WO82/03910 PCT Pub. Date Nov. 11, 1982.An automatic pistol comprises a frame, a barrel slidable on the frame and having a cartridge-receiving rear end, a breech slidable on the frame and engageable over the rear end of the barrel to form a cartridge chamber, and firing mechanism including a firing element and a firing pin operatively linked thereto. The element is movable on the breech toward and away from the barrel between a rear position in which the firing pin is out of the cartridge chamber and a front position with the firing pin projecting forward into the cartridge chamber for firing a cartridge in the chamber when the firing element moves from the rear to the front position. A spring is braced against the element and urges same into the front position. A trigger is movable on the frame between an actuated and an unactuated position. An abutment engageable with the firing element in an intermediate position thereof between its front and rear positions is displaceable backward on the frame. A link is connected between the trigger and the abutment for displacing same backward into the rear position from the intermediate position on displacement of the trigger from the unactuated to the actuated position and for displacing the abutment out of operative engagement with the firing element on displacement of the trigger into the actuated position for displacement of the firing element by the spring means into the front position. Thus the starting position of the abutment for the firing bolt or hammer is at an intermediate location in the travel path of same.
10	Gun barrel arm	JP2003380014	2003-11-10	JP2004163097A	2004-06-10	BAUMANN BERTHOLD; BOHNSACK ECKEHARD; KNOERICH FRIEDHELM
PROBLEM TO BE SOLVED: To provide a gun barrel arm that almost avoids lifting effect of an arm gun barrel, requires no complex guide groove in a gun cradle pipe and no beam of the arm gun barrel, and is slidably pivoted into the gun cradle pipe. SOLUTION: An elastically deformable first slip bush bearing 5 is disposed on a muzzle side of the arm gun barrel, and a slip bush bearing 6 is disposed on the bottom side with a predetermined engaging looseness. A gun barrel bush 7 surrounded by the first slip bush bearing is supported on the inner wall of the gun cradle pipe 3 via four sector support webs 14 uniformly distributed on the periphery. The gun barrel bush has recessed parts 16 outside the sector shape between adjacent support webs, and recessed parts 19 inside the sector shape on the inner wall 17 opposite to the support webs. Therefore, when the arm gun barrel 2 expands, the gun barrel bush elastically deforms so that a region of the gun barrel bush adjacent to the arm gun barrel bends outwardly into the outside recessed parts, and a region of the arm gun barrel that is not adjacent to the inner wall can displace into the recessed parts inside the gun barrel bush. COPYRIGHT: (C)2004,JPO
11		JP50463285	1985-09-28	JPS62500397A	1987-02-19

12	FIELD GUN	PCT/GB2013/000424	2013-10-10	WO2014057235A1	2014-04-17	DAWSON, Keith; HERBERT, Frederick; WEBB, Michael John
A howitzer suitable for deployment on a ground plane, the howitzer comprising an ordnance for firing a projectile. The ordnance comprising a barrel defining a barrel axis and having a muzzle towards the front end of the howitzer and a breech assembly at the back end of the barrel; and a cradle for holding the ordnance at a traverse and an elevation; two trunnion pins located on said cradle, which co-locate with receiving trunnion bearings on a saddle, wherein in a first position said breech is located forward of said trunnion, in a second position, at the end of the recoil stroke, said breech is retracted substantially behind said trunnion, wherein said recoil stroke is variable depending on the selection of the elevation.
13	GUN TUBE SUPPORT ASSEMBLY	EP03783817.4	2003-12-08	EP1570225A1	2005-09-07	PAUL, Lothar Alwin; KOTZE, Theunis Gerhardus Nicolaas; DE SWARDT, Rolf Reitz
This invention relates to a gun tube support assembly (10), which comprises four support sections (12) arranged annularly around a gun tube (13) and received in an opening in a cradle (15) of a gun. Each support section (12) comprises a bush housing (14), a cradle bush (16) and a damping means sandwiched between the bush housing (14) and cradle bush (16). The damping means is in the form of a rubber pad (18) made of relatively high-temperature silicon rubber. The rubber pad (18) includes a plurality of protrusions 18.1 extending from a face of the pad (18) for abutting an outer surface of the cradle bush (16). The protrusions (18.1) accommodate compression of the pad (18), the arrangement being such that the rubber pad (18) absorbs and dampens kinetic energy emanating from the gun tube (13) during firing of a projectile.
14	Precision device for hand guns	EP97830624.9	1997-11-26	EP0845651A3	1998-07-08	Beretta, Ugo Gussalli
This invention regards a precision device for semiautomatic handguns, of the type that includes a single block barrel and recoil obturator carriage (11,12), where the barrel is susceptible to axial movement relative to the obturator carriage. On a cylindrical section (16) of the barrel, an alignment bush (17) is mounted, with a biconical external surface that has a first conical part (17') designed to fit in a conical hole (13) in the obturator carriage; and a second conical part (17"), of the opposite conical shape, designed to protrude forwards from the obturator carriage and be used with a blocking nut (18).
15	HEAVY SUPPORT WEAPON.	EP85905249	1985-09-28	EP0198881A4	1988-05-16	ROSTOCIL CHARLES E
The weapon (10) includes a barrel (13) joined to a barrel yoke (21) in a receiver (14) aft of a front housing assembly (15). The recoil system includes a main recoil spring (30), a secondary spring (23), a buffer group including rods (60), springs (61) and plate (63). A slide bolt assembly (40) includes a slide (41), a bolt (42), a face (43), bolt face levers (44) and actuating pins (45), all within the receiver (50). The bolt face (43) is driven vertically by the bolt face levers (44) to receive a new found round (91), load it and remove and discharge a spent casing (90). The slide bolt assembly (40) travels forward and aft during the firing cycle. On rearward travel it is accelerated rearward by accelerator (70) until reaching the buffer group and transfers its kinetic energy to the buffer group which in turn transfers that energy to the barrel (13) and the recoil spring (30) where it is absorbed without transferring the impact loading to the weapon mount (11).
16	DISPOSITIF DE GUIDAGE D'UNE MASSE RECULANTE PAR UN ORGANE D'UN LIEN ÉLASTIQUE.	PCT/IB2021/053690	2021-05-03	WO2021224763A1	2021-11-11	SEPTFONS, Pierre; BALBO, Patrick
L'invention a pour objet un système d'arme (1) comprenant une masse reculante (2) et un berceau (3), la masse reculante comprenant un tube d'arme (2a) et un manchon de culasse (2b) et se translatant lors du tir par rapport au berceau (3) et un moyen de guidage étant prévu pour assurer le guidage de ce mouvement de recul de la masse reculante. Ce système d'arme est caractérisé en ce que le moyen de guidage comprend au moins un organe (10) d'un lien élastique, dont le corps (11) est solidaire de la masse reculante (2) et comporte un profil externe prismatique coopérant avec un rail complémentaire solidaire du berceau (3).
17	GUN RECOIL	PCT/GB2009/050650	2009-06-10	WO2010142932A1	2010-12-16	EAGLESTONE, David, Andrew; WILDGOOSE, Stephen
A gun comprising: a generally tubular barrel defining a barrel axis and having an external barrel surface about the perimeter of the tubular barrel a cradle having a cradle bore for accommodating a section of the barrel wherein the barrel is slidably mounted in the cradle bore such that the barrel can move relative to the cradle along the barrel axis across a range of barrel positions and wherein an interface defined by the slidable contact between external barrel surface and the cradle bore-i) prevents rotation of the barrel relative to the cradle about the barrel axis; and ii) is maintained at a single section of the cradle over the entire range of barrel positions.
18	SELF-LOADING PISTOL	PCT/EP1997003982	1997-07-23	WO1998003833A3	1998-01-29

19	Recoil exerciser	US17012243	2020-09-04	US11105578B1	2021-08-31	James Parsekian; Paul McDonald
An electric winch provides motive force, allowing the cannon to be pulled out of battery and returned to battery in a safe and controlled manner. After the system is attached to the large caliber weapon system, the operator can stand a safe distance away and control the complete operation with a remote. The recoil exerciser can be quickly attached to any large caliber weapon system via hooks and a wear-resistant sling.
20	Field gun aim	US13708605	2012-12-07	US08726784B2	2014-05-20	Keith Dawson; Frederick Herbert; John Michael Webb
A howitzer suitable for deployment on a ground plane, the howitzer having an ordnance for firing a projectile. The ordnance can include a barrel defining a barrel axis and having a muzzle towards the front end of the howitzer and a breech assembly at the back end of the barrel; a cradle for holding the ordnance at a traverse and an elevation; two trunnion pins located on the cradle, which co-locate with receiving trunnion bearings on a saddle, wherein in a first position said breech is located forward of the trunnion, in a second position, at the end of the recoil stroke, the breech is retracted substantially behind the trunnion, wherein a recoil stroke is variable depending on the selection of the elevation.

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