SE501476C2 - Cylinder bolt mechanism at repeater rifle - Google Patents

Abstract

A cylinder bolt mechanism in a repeating rifle comprises a receiver (1) and a bolt (4) with a bolt body (18), which mechanism can be closed and opened by a recti-linear movement of a handle (76), wherein a bolt head (28) in the front end of the bolt is caused to be rotated in order to close and to open the mechanism, respectively, by positioning radially directed lugs (38) on the bolt head to positions in front of inwardly directed studs in the receiver at the rear of a locking chamber (7). A hammer (83) and a main spring (84) are provided in a trigger mechanism (5). The main spring is provided to act upon the hammer, so that the hammer when trigging the rifle will strike a firing pin (30) provided in the bolt by turning the hammer from a cocked position, in which the hammer lies under the bolt and mainly in the trigger mechanism to a released firing position, in which at least a substantial part of the hammer is located in the region of the bolt.

Description

501 476 10 15 20 25 30 35 necessary details, which would have further complicated the production were not included in the design. A more complete pull-action type system is described in my U.S. Patent No. 4,672,762, but this design also did not involve any breakthrough, mainly because it too was too expensive to manufacture.

BRIEF SUMMARY OF THE INVENTION The object of the invention is therefore to offer a cylinder mechanism in repeater rifles with rectilinear handle movement, ie so-called straight-pull action, in which superior technical performance is combined with good manufacturing economy.

According to a first aspect of the invention, these and other objects can be achieved in that the bolt comprises front elements comprising said bolt head, which are rotatable about the center axis of the mechanism, and rear elements which are axially movable relative to said front element by means of the handle; that one of said front and rear elements is provided with a helical groove; and that in said groove in one of said elements a loose carrier device is arranged in the form of a spherical ball extending into a recess or groove in the other of said element, which ball is arranged in cooperation with the helical groove to transmit an axial relative movement of the rear element to rotational movement of the front element.

According to a second aspect of the invention, a male and a percussion spring are arranged in a trigger mechanism, the percussion spring being arranged to be able to actuate the male, so that when fired it strikes against a percussion pin arranged in the bolt by turning from a tensioned position in which the male lies below. the bolt and mainly in the firing mechanism, to a triggered firing position, in which at least a considerable part of the male is within the area of the bolt.

According to a third aspect of the invention, a rotating unit is mainly arranged in the bolt body, comprising said bolt head, which rotating unit is rotatable but not axially movable relative to the bolt body and furthermore a clamping unit which is axial but not rotatable. movable relative to the bolt body. In this case, the handle forms part of or is connected to the clamping unit, and a rear portion of the rotation unit is inserted into a front, sleeve-shaped portion of the clamping unit.

Either said rear portion of the rotation unit has an outer helical groove or the front sleeve-shaped portion of the clamping unit has an inner helical groove, wherein from the region of the front sleeve-shaped portion of the clamping unit respectively in the front sleeve-shaped part of the clamping unit, so that when the clamping unit is caused to move axially relative to the rotating unit by means of the handle, the rotating unit is rotated relative to the clamping unit and relative to the bolt body.

Through the features of the invention, the cylinder bolt mechanism can be manufactured from standardized, tubular blanks, which at least applies to the box and the bolt body as well as larger parts of the rotation unit and the clamping unit, a feature which considerably simplifies the manufacture of the cylinder bolt mechanism. Preferably, it is also a characteristic feature of the invention that essential parts of at least the box and of the bolt body and preferably also essential parts of the rotation unit and of the clamping unit have the shape of cylindrical tubes.

Further aspects, advantages and features of the invention will become apparent from the appended claims and from the following description of a preferred embodiment.

BRIEF DESCRIPTION OF THE DRAWINGS In the following description of a preferred embodiment, reference will be made to the accompanying drawing figures, of which 501 476 10 15 20 25 30 35 Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6 Fig. 7 Figs. Fig. 9 Fig. 10 Fig. 11 Fig. 11a Fig. 11b Fig. 11c is a perspective view of the bolt according to the preferred embodiment; shows the box from the side, partly cut; shows the box in cross section along a line III-III in Fig. 2; shows the trigger mechanism from the side and the rest of the mechanism in the closed position in the longitudinal section; shows the cylinder bolt mechanism in a position showing the weapon opened; shows the bolt body in a view from below; shows the bolt body from the side; shows from above a bolt neck included in a rotary unit, partially cut away; shows the bolt neck in a view along the line IX-IX in Fig. 8; shows a clamping sleeve included in the clamping unit from below; constitutes a longitudinal section through a back pressure included in the clamping unit; is a plan view of a rotation lock included in the back piece shown in Fig. 11; constitutes a vertical section through the lock of rotation along the line XIb-XIb in Fig. 11a; constitutes a side view of the rotation lock along the line XIc-Xlc in Fig. 11a; '01 10 15 20 25 30 35 501 476 Fig. 12 is a plan view of the firing mechanism; Fig. 13 is a plan view of the housing in which the various details of the firing mechanism are arranged; Fig. 14 shows the same housing in a side view along a line XIV-XIV in Fig. 13; Fig. 15 shows the interior of the firing mechanism; Fig. 16 is a perspective view of the strut spring included in the firing mechanism; Fig. 17 is a longitudinal section through a male included in the firing mechanism; Fig. 18 is a side view of a clamping slide included in the firing mechanism; Fig. 19 shows the clamping slide in a view along the line XIX-XIX in Fig. 18; and Fig. 20 is a longitudinal section through a securing slide included in the firing mechanism.

DESCRIPTION OF THE PREFERRED EMBODIMENT The main parts of the weapon system consist of a box 1 which is made of and which has the main shape of circular-cylindrical tubes, a barrel 2 screwed into the box 1 in a manner known per se * with a cartridge position 4 and a bolt firing mechanism S. A locking ring 6 is clamped behind a locking chamber 7 between the rear edge of the barrel 2 and a stop in the box 1. The locking ring 6 is designed as described, for example, in my U.S. patent 4,672,762, which is hereby incorporated by reference into this description. .

A cartridge magazine 8 is releasably attached under the box 1 in a manner known per se. The box 1 has a smooth, cylindrical inside with a diameter corresponding to that of the bolt 4. In the right side of the rear part of the box 501 476 10 15 20 25 30 35 there is a guide groove 9 for a bolt guide rail 74 milled into the wall of the box. In the underside of the box there are brackets for the firing mechanism 5, which can be designed in a manner known per se, and a rectangular, elongated hole 10 for a male 83 in the upper part of the firing mechanism. Furthermore, a spring-actuated bolt stop 11, which is designed in a manner known per se, is arranged in and on the box. An ejector opening for empty sleeves has been designated 12, and an opening for feeding new cartridges has been designated 13.

The bolt 4 consists of three main parts, namely a cylindrical bolt body 18, a rotating unit 19 arranged substantially in the bolt body and a clamping unit 20 also arranged substantially in the bolt body 18.

The bolt body 18 consists in principle of a circular-cylindrical tube and is made of such a circular-cylindrical tube, the outer diameter of which corresponds to the inner diameter of the tubular box. At the front, the bolt body has three protruding claws 21, arranged to fit by claw coupling into three corresponding claw grooves between three radially inwardly directed lugs in the locking ring 6 in a manner known per se from my above-mentioned U.S. patent 4,672,762. At the rear end there is in the right side of the bolt body a groove 22 milled for said bolt guide rail 74 in the same way as the guide groove 9 in the box. In the upper surface of the groove 22, which lies slightly higher than the corresponding upper surface 129 of the guide groove 9 in the box, there is a recess 23 in the form of a notch for a rotation lock 131. In its underside the bolt body has a rectangular, longitudinal hole 24 for the male 83 on the same way as the hole 10 in the box 1. On the left side of the bolt body there is externally a longitudinal bolt stop groove 25, which extends along most of the length of the bolt body 18 to accommodate the bolt stop 11 in the box, Fig. 3.

By manually releasing the bolt stop 11, the bolt 4 can be completely pulled back out of the box. A pair of expansion channels in the bolt body have been designated 27.

The rotating unit 19 has three main parts, namely a bolt head 28, a bolt neck 29 and a percussion pin 30. The bolt head 28 and the bolt neck 29 are connected via threads 31 to a cohesive unit which is rotatable in the bolt body 18. but prevented from moving axially in the bolt body 18 by a resilient locking ring 32. A locking pin 33 extending from a bore 34 in the bolt head 28 into a recess in the bolt neck 29 prevents the bolt head and the bolt neck from being unscrewed from each other. The locking pin 33 is held in place in the recess in the bolt neck and between the bolt neck and the bolt head by a spring 35, which at its outer end presses against an empty sleeve ejector 36, which is held in place with some resilient clearance by a screw 37, which allows the empty sleeve ejector 36 to move slightly in the hole 34. By loosening the screw 37, the empty sleeve ejector 36, the spring 35 and the locking pin 33 can be removed, after which the entire bolt can be disassembled. The bolt head 28 has at its front end in a known manner also three lugs 38 arranged to co-operate with corresponding lugs in the locking ring 6 in a manner known per se. A sleeve extractor of known construction has been designated 39.

The bolt head 28 extends with the lugs 38 past the bolt body 18.

The lugs 38 have an outer diameter which corresponds to the outer diameter of the bolt body 18 and the inner diameter of the cylindrical box 1. Along the main part of its length, however, the rotating unit, i.e. the screwed-together unit consisting of the bolt head 28 and the bolt neck 29, has a diameter corresponding to the inner diameter of the bolt body 18, and at its rear end the bolt neck 29 has an even smaller outer diameter. This rear portion is referred to in this specification as bolt neck shaft 40.

Extending through the entire rotating unit 19 is a central, continuous bore for the striker pin 30, which has a central, thicker portion 41 arranged in a corresponding portion 42 of the bore in the bolt neck 29. Between the thicker striker pin portion 41 and an annular stop 43, forming one end of the portion 42 in the bolt neck 29, there is a flat brass washer 44. The total length of the thicker striking pin portion 41 and the brass washer 44 is slightly smaller, about 1.5 mm, than the corresponding portion 42 in the bolt neck 29, so that a gap 49 is formed at the front end of the portion 42 of the bore in the bolt neck 29. Hereby the percussion pin 30 can move a distance corresponding to the short length of the gap 49, so that the percussion pin tip 45 can hit and fire the cartridge. A return spring for the percussion pin 30 has been designated 46. The force 501 476 'UI 10 15 20 25 30 35 of the return spring is negligible compared to that of the percussion spring 84 not yet described. In the bolt neck 29 there are expansion channels - not shown - in the middle of the expansion channels 27 in the bolt body 18. In the bolt neck 29, adjacent the bolt neck shaft 40, there are a pair of recesses 48 (one on each side).

In the bolt neck shaft there is on the outside a groove 52 with a semicircular cross section. Counted from the front, the groove 52 first has a straight axial portion 53, which has a length equal to the depth of the recesses 48 in the bolt neck 29. Then follows a helical portion 54, which extends backwards along the shaft 40, so that the groove 52 totally spans an angle of 60 °, Fig. 9. The total length of the groove 52 according to the embodiment amounts to 20 mm.

The clamping unit 20 consists of a clamping sleeve 57, a back piece 58 and a key lock 59. The latter can be designed in a manner which is known per se by, for example, the middle of the above-mentioned US patent 4,672,762 and which prevents unauthorized use of the weapon.

The clamping sleeve 57 has a front, sleeve-shaped portion 60 with a bore having the same diameter as the outer diameter of the bolt neck shaft 40. The sleeve-shaped portion 60 also has the same length as the shaft 40, which is rotatable and axially (telescopically) displaceable in the sleeve-shaped portion 60.

In the middle part of the clamping sleeve 57 there is a recess 61. The recess 61 extends from the lower part of the clamping sleeve up to a level above the center axis of the bolt mechanism, as shown in Fig. 4. The width of the recess 61 in the transverse direction is slightly greater than the thickness of the male 83. The recess 61 is facing the holes 10 and 24 in the box 1 and in the bolt body 18, respectively, when the weapon is closed, Fig. 4. Between the recess 61 and the bore 62 for the bolt neck shaft 40 there is a partition 63 and in the partition 63 a through hole 64 for the percussion pin 30 which with its rear end 65 extends into the recess 61.

In the front sleeve 60 of the clamping sleeve 57 there is a continuous hole 66 with a radially directed center axis and arranged in the middle of the straight portion 53 of the groove 52 in the bolt neck shaft 40, when the weapon is closed.

The front sleeve 60 of the clamping sleeve 57 has a wall thickness which is equal to 24 hours a day on the groove 52 in the bolt neck shaft 40. The hole 66 in the sleeve-shaped portion 60 is thus the same length as the groove 52 is deep.

A spherical steel ball 68 is arranged in the hole 66 and in the groove 52, so that half of the ball is arranged in the hole 66 and half in the groove 52. The ball may also be made of another hard metal or of a suitable ceramic.

The ball 68 is completely spherical and has the same radius as the groove 52. It will be appreciated that the ball 68 is trapped in the groove 52 and the hole 66 of the bolt body 18 when the bolt 4 is mounted.

A pair of projections (noses) 67 in the front end of the collet 57 have the same shape as the two recesses 48 in the bolt neck 29 in order to be able to be inserted into x and engage therein.

The back piece 58 is connected to the rear part 71 of the clamping sleeve 57 by means of screws. The screws have not been shown, but in Fig. 11 the screw holes have been designated 72, 73. The back piece 58 further has on its right side a guide rail shape in the form of a projection 74 which extends in the axial direction.

This rail 74 has a thickness in the direction perpendicular to the plane of the paper (with reference to Fig. 11) which almost corresponds to the width of the groove 9 in the box 1. The length of the rail 74 corresponds to the length of the groove 9, so that the rail 74 can trapped on track 9.

The guide rail 74, in cooperation with the groove 9, prevents the clamping unit from rotating relative to the box and thus also relative to the bolt head, since the bolt head is prevented from rotating relative to the box by means of the bolt stop groove 25 and the bolt stop 11. Groove 9 functions at the same time as supplementary guide for the bolt 4- A rounded recess 128 is arranged in the upper wall 129 of the groove 9.

The guide rail 74 has at its front end a lateral extension 75, which merges into a downwardly bent handle 76.

In the rear piece 58 of the clamping unit there is further in the area of the guide rail 74 501 476 10 15 20 25 30 35 10 10 an oval recess 77. In the recess 77 there is a pin 78, which has the same oval cross section as the recess, which acts as a rotation lock and resiliently arranged in the recess . The rotation lock 78 is arranged to be able to co-operate partly with the notch 23 in the bolt body, partly with the part of the box which forms the upper wall 129 in the groove 9 in the box, and also with the upper / rear edge 103 on the box 1. When the weapon is locked, the latch 78 arranged to cooperate with the rounded recess 128 in the front part of the groove 9.

For co-operation with the notch 23 in the bolt body, the inner half of the upper end portion of the rotation lock 78 is inclined as a wedge 131, which slopes backwards, Fig. 11c. The inclined portion 131 does not extend beyond the outside of the bolt body. For said engagement with the wall 129 and with the trailing edge 130 of the box, there is also a rounded recess 128 in the front part of the groove 9, the outer half 132 of the upper end portion of the rotation lock 78 being rounded at the front and rear, so that it has the main shape of a half cylinder. A compression spring acting on the rotation lock 78 at the bottom of the oval recess 77 has been designated 133.

The firing mechanism 5 will now be explained with reference to Fig. 4 and Figs. 12-20. The main parts shown in Fig. 4 consist of a housing 80 countersunk in the log (not shown), a safety bar 81, a trigger 82, a male 83 and an impact spring 84.

The housing 80 is attached to the box 1 by means of a hub 85 and a screw (not shown). The main part 86 of the housing 80 consists of a one-piece metal body which is provided with a number of bores and milled-out spaces, which are covered by a side wall 87. A front recess for the male 83 has been designated 88. This front recess extends vertically through the housing 80. Behind and at a distance from the front recess 88 a second, narrower recess in the form of a vertical groove 89 extends from a shelf 90 up to a horizontal groove 91. Behind said vertical recess or groove 89 there is a rear, vertical groove 92, extending from a lower recess 93 of the trigger 82 up to the rear end of the horizontal groove 91. The cock 83 consists of a disc with the general shape of a sector of a circle comprising about 100 °. The thickness of the male corresponds approximately to the width of the recess 61 in the clamping sleeve 57 and to the holes 10 and 24 in the bolt body 18 and in the box 1, respectively. The thickness also corresponds substantially to the depth of the front recess 88 in the housing 80. A straight front abutment and sliding surface has designated 94. Other straight edges are designated 95 and a circular-arcuate surface is designated 96. In the arcuate surface 96 there is a notch 97. When the cock 83 is tensioned so that the strut spring 84 is fully compressed, the edges 95 abut against a front wall 98 in the house 80.

A recess 99 for the strut spring in the front part of the male is limited backwards by a rear wall 100.

The impact spring 84, Fig. 16, can be described as a compression-jumper torsion spring consisting of a coil (helical) coiled spring wire with two legs 101, 102. The impact spring is mounted on a pin 103 in the recess 99 and is clamped in said recess 99 in that one leg 101 abuts the front wall 98 of the housing 80 while the other leg 102 is pressed against the rear wall 100 of the recess 99.

The notch 97 in the circular arc-shaped surface 96 of the male 83 has partly a straight edge 104 in the direction of the abutment surface 94, and partly a bevel surface 105 in the direction of the strut spring 84. In the thus formed notch 97 the correspondingly shaped tip 112 of a first slide is called a clamping slide 108, which is slidably arranged in the horizontal groove 91. At its lower side, the clamping slide 108 has a notch 109 and at its rear end a step-shaped recess 100, Figs. 18 and Fig. 19. A spring 111 presses the clamping slide against the male 83 with some force. .

In the first vertical groove 89 a firing slide 113 is movable by means of the trigger 82. At its upper end the firing slide has a tip 114 with the same shape as the notch 109 in the tensioning slide 108. When the trigger 82 is in the rest position, and the cock 83 is tensioned, the tip 114 of the firing slide 113 is inserted into the notch 109 in the clamping slide 108 by means of a spring 115 and fixes the clamping slide 108 in its position, so that the male 83 is fixed in its initial position with the striking spring 84 fully tensioned. An adjusting screw 116 is provided on the trigger 82 for setting 501 476 10 15 20 25 30 35 12 of the pressure. A lever 117 on the trigger 82 engages with its nose in a recess of corresponding shape on the firing slide 113. The trigger 82 is rotatable about a trigger pin 118. A return spring for the trigger 82 has been designated 119.

In the rear vertical groove 92, a securing slide 122 is movable between a lower unsecuring position, Fig. 15, and an upper securing position (not shown) by means of the securing bracket (fuse) 81. The securing bracket 81 is rotatable about 45 ° about an axis of rotation 124, Figs. 4. In Fig. 4, the safety bar 81 is shown in its non-securing position. An elongated hole 125 in the securing bracket is then horizontal. A pin 126 on the securing slide 122 engages the elongate hole 125, more specifically in its left part, when the securing bracket is advanced to an unsecured position and the hole 125 is horizontal. At its upper end, the securing slide 122 has a lug which is removed from engagement with the recess 110 in the clamping slide 108 in the unsecured position. ) The operation of the system described above will now be explained.

The starting position is assumed to be that the weapon is loaded, closed and secured.

The bolt 4 here has the position in the box 1 shown in Fig. 4. The male 83 is tensioned and the impact spring 84 is maximally compressed. The safety bar 81 is in its rear, lower position, ie it is turned approximately 45 ° counterclockwise with reference to Fig. 4, so that the elongate hole 125 stands obliquely upwards. The lug 127 on the securing slide 122 thereby engages in the recess 110 on the clamping slide 108 and fixes it in the horizontal groove 91 with the tip 112 engaging the notch 97 in the tensioned male 83. The weapon is thus secured by means of the securing slide, so that the tensioned male 83 is locked in its tense position.

When the weapon is to be fired, first turn the safety bar 81 about 45 ° clockwise about the axis of rotation 124 to the position shown in Fig. 4. Through this rotational movement, the pin 126 in the elongate hole 125 will actuate the securing slide 122, so that it slides downwards, so that the projecting lip (lug) 127 engages with the recess 110 in the rear end of the clamping slide 108. The safety slide 122 can now no longer prevent the clamping slide 108 from moving backwards in the horizontal groove 91. However, this is prevented by the tip 114 of the firing slide 113 engaging the notch 109 in the clamping slide. 108.

The weapon can now be fired by means of the trigger 82. When the trigger 82 is rotated clockwise about its trigger pin 118 to the firing position shown in Fig. 12, the tip 114 leaves the notch 109, so that the clamping slide 108 is released. The unlocked and released clamping slide 108 now slides with the tip 112 out of the notch 97 on the male 83 by the strut spring 84 pressing the cock 83 by sliding between the bevel surface 105 and the corresponding bevel surface 107 on the clamping slide 108, so that the clamping slide is pressed out of the notch 97. Under impact of the strut spring 84, the cock 83 then continues to move very rapidly clockwise around the shaft 79 through the holes 24 and 10 in the box 1 and in the bolt body 4 respectively up in the recess 61 in the clamping sleeve 57 to finally with the abutment and sliding surface 94 hit the end 65 with full force on the striker pin 30. In its initial position, the front end of the striker pin tip 45 is flush with the impact base. Through the stroke of the male 83, the percussion pin 30 projects the piece corresponding to the narrow gap 49, i.e. according to the embodiment approx. 1.5 mm, so that the percussion pin tip 45 strikes the cartridge (not shown), which is then fired.

The weapon must now be repeated. In the initial position, the rotation lock 78 does not per se function as a "rotation lock" but with its rounded outer part 132 engages with the rounded recess 128 in the front part of the guide groove 9 for the bolt. This is possible due to the fact that the upper wall of the groove 22 in the bolt body lies slightly above the corresponding wall 129 in the groove in the box, which gives sufficient space for the wedge-shaped inner part 131 of the latch 78 to spring up. The engagement of the rotation lock 78 in the recess 128 prevents the rifle from being opened unintentionally. The force required to open the weapon can be controlled by selecting a suitable spring 133 or by adjusting the spring force.

The shooter now moves the handle 76 and thus the entire clamping unit backwards. In the initial phase of the traction movement, the rotation lock 78 with its outer rounded part 132 leaves the rounded recess and is then pressed down by the drawer wall 129 over the groove 9. 501 476 10 15 20 25 30 35 The non-operative rotation lock 78 cannot prevent axial movement between the clamping unit At the same time, during the initial phase of the rearward movement of the clamping unit, the rotating unit 19 is prevented from being pulled backwards because the lugs 38 on the bolt head engage in front of corresponding lugs on the locking ring 6. The bolt body 18 also remains in its front during this moment. position, since it is connected to the rotating unit through the spring ring 32, which prevents relative axial movements between the bolt body 18 and the rotating unit 19. This means that the clamping unit 20 initially moves backwards from the rotating unit 19, sliding in the bolt body 18. This rearward axial movement of the clamping unit 20 begins with the projections 27 on the clamping sleeve 57 leaving urt At the same time, the ball 68, which is trapped in the hole 66 in the front sleeve-shaped portion 60 of the bolt body 18 of the bolt body 18, rolls a corresponding piece backwards in the straight portion 53 of the groove 52 in the bolt neck shaft 40, which does not cause any rotational movement. at the rotary unit 19.

During the continued pulling of the clamping unit 20 backwards by means of the handle 76, the ball 68 runs into the helical portion 54 of the groove 52. The clamping unit 20 is prevented from rotating by the guide rail 74 engaging the groove 9 in the box 1. By the force action between the clamping the unit 20 and the rotation unit 19 via the ball 68 trapped in the hole 66 and the helical portion 54 of the groove 52, the rotation unit 19 is thus forced to rotate 60 ° about its center axis relative to the clamping unit and also relative to the bolt body 18. This rotational movement is completed when the ball 68 reaches the rear stop in track 52.

At the same time, the lugs 38 on the bolt head 28 have been brought into the release position in the locking chamber 7 in front of the locking ring 6, so that the bolt 4 in its entirety can now be moved backwards in the box 1, bringing the empty sleeve to the position shown in Fig. 3, the empty sleeve being ejected through the ejector opening. 12 and a new cartridge is fed into the box from the magazine 8 to a position in front of the bolt 4.

When the entire bolt 4 has been moved so far back in the box, the rotation lock 78 has been moved out of engagement between the outer rounded part 133 and the box wall 129 in the area of the groove 9 by passing the rear edge 130 of the box, For example, the latch 78 can spring up so that the inner portion 131 of the rotation latch 78 is brought into locking engagement with the notch 23 in the bolt body. When the inclined part 131 is brought into engagement with the notch A 23, Fig. 3, the clamping unit 20 is prevented from moving in any way relative to the bolt body and thus also relative to the rotating unit 19.

In other words, the rotation lock 78 is now in operation and prevents all rotation of the rotation unit 19.

When the weapon is opened in the manner described above, the cock 83 is tensioned by compressing the impact spring 84. How this is done will now be explained. After the shot is fired, the cock 83 remains with its abutment surface 94 against the rear end 65 of the percussion pin. When the clamping unit 20 is pulled back - initially back relative to the rotating unit and also relative to the bolt body 18 - the cock 83 is not affected at all during the first small piece of the backward movement of the clamping unit 20. After a very short initial moment, however, the clamping sleeve 57 abuts with its partition 63 against the striking and sliding surface 94 of the cock 83. As the clamping unit 20 continues to move backwards, the clamping unit 20 exerts a force against the cock 83 - first of the back of the partition, then of the lower the edge 53 and finally of the lower portions 55 and 51 on the sleeve-shaped portion 60 of the collet, respectively, on the bolt body 18 in front of the opening 24, so that the cock 83 is successively turned counterclockwise with reference to Fig. 12 to the position shown in Fig. 15. During this rotational movement, the percussion spring 84 recessed in the male 83 is increasingly tensioned.

The force action on the male striking and sliding surface 94 from the partition 63 of the clamping sleeve, edge 56, lower part 55 and from the lower part 51 of the bolt body, which takes place by sliding between these parts and the surface 94 of the male 83, thus takes place during a relatively long section of the clamping unit. 20 or the rearward movement of the bolt body 18, respectively. The work performed results in the strut spring 84 being tensioned. Since "the work = the force x the road" only a small force is required to compress the strut spring and tension the cock, since the distance of the road is relatively long during which the work is performed. 501 476 10 15 20 25 30 35 16 It is therefore very easy to compress the impact spring 84 and clamp the cock 83 by co-operation between the 4 different parts of the bolt and the cock 83.

This important effect of the invention is achieved partly by the "long tensioning distance" described above, and partly by the use of the free, rolling ball 68 as a force transmission means between the tensioning unit and the rotating unit.

When the strut spring 84 is fully compressed and the cock 83 is simultaneously fully tensioned, the clamping slide 108 with its tip 112 engages the notch 97, the firing slide 113 with its tip 114 engages the notch 109 in the clamping slide 108, and the bolt 4 is moved so far back into the box 1 that the empty sleeve has been ejected, a new cartridge can be fed into the cartridge position 3.

The bolt 4 is then advanced in the box 1 with the bolt stop 11 sliding in the bolt stop groove 25 on the outside of the bolt body 18, Fig. 5. The rotation lock 78 is in operation during the main part of this movement, but when the outer part 132 of the rotation lock 78 comes into contact with the rear end 130 on the box 1, it is pressed down so that it slides in under the box wall 129 over the groove 9, so that the rotation lock is released, ie becomes inactive, which takes place at the same time as the bolt head enters the lock chamber 7 with its lugs 38 in front of the locking ring 6. the bolt head 28 has reached its foremost position in the locking chamber 7 and the claws 21 on the bolt body run completely into the locking ring 6, the front sleeve 57 of the rotary unit 20 is driven back forward on the bolt neck shaft 40. The ball 68 rolls forward in the groove 52 while rotating the rotary unit back 60 °. so that the weapon is locked by engaging the lugs 38 of the bolt head in the locking chamber 7 in front of the lugs on the locking ring. Finally, the ball 68 of the collet 57 is rolled the final straight distance 53 on the groove 52, the projections 67 sliding into the recesses 48 in the bolt neck 29. Only when these projections 67 have got into the recesses 48, which they can do only when the rotational movement of the rotary unit has been completed , the striker pin tip 45 with its front end reaches the level of the impact base and the rounded part 132 of the latch 78 falls into the rounded recess 128 in the front part of the guide groove 9 for the bolt in the box 1.

At the same time, the short gap 44 has been established, which is maintained by means of the return spring 46. Thereafter, the new cartridge can be fired. 10 15 20 25 30 35 501 476 17 The weapon can thus be fired by the various parts of the system occupying the positions shown in Fig. 4. Alternatively, the weapon can be secured.

The securing bar 81 is then moved backwards by approximately 45 ° counterclockwise rotation (with reference to Fig. 4) around the securing pin, so that the hole 125 'will stand obliquely upwards. In this case, the securing slide 122 is raised in the groove 92 by the pin 126, so that the lug 127 on the securing slide engages in the recess 110 on the clamping slide 108. The clamping slide can then not be moved backwards in the groove 91, which means that the slide 108 is secured in the notch 97 in the cock 83 through its tip 94, which cannot be pushed out of the notch 97 by means of the strut spring 84, since the lug 127 on the securing slide 122 is obstructed behind.

In case of sleeve bursting, which causes detonation gases to move backwards, the gases will throw the percussion pin with its middle part 41 as a piston against the brass washer 44, so that the washer is compressed against the annular surface 43 and widened by permanent deformation. The washer will in this case function as a seal, which prevents the gases from flowing further backwards to instead escape through the ventilation holes (not shown) in the bolt neck 29 and through the ventilation holes 27 in the bolt body.

Claims (11)

501 476 l0 l5 20 25 30 35 l8 PATENT CLAIMS Cylinder bolt mechanism in repeater rifles comprising a box (1) and a bolt, so-called bolt (4) with bolt body (18), which mechanism can be closed and opened by rectilinear actuation of a handle (76), wherein a bolt head (28) in the front end of the bolt is arranged to be rotated to thereby open or close the mechanism by positioning radially outwardly directed lugs (38) on the bolt head to position between and in front of radially inwardly directed lugs in the box behind a cartridge position (7), characterized in that the bolt comprises front elements (19) comprising said bolt heads (28) which are rotatable about the center axis of the mechanism, and rear elements (20) which are axially movable relative to said front elements by means of the handle; that one of said front and rear elements is provided with a helical groove (52); and that in said groove in one of said elements a loose carrier (68) is arranged in the form of a spherical ball extending into a recess or groove (00) in the other of said element, which ball in cooperation with the helical groove is arranged to transmit an axial relative movement of the rear element to rotational movement of the front element. A mechanism according to claim 1, characterized in that said front element is constituted by a rotating unit, comprising the bolt head (28); that said rear element consists of a clamping unit; that the handle forms part of / or is connected to the clamping unit (20): and that a rear portion (40) of the rotation unit is inserted into a front, sleeve-shaped portion (60) of the clamping unit arranged in the bolt body. 3. A mechanism according to claim 2, characterized in that said helical grooves are arranged in the rear portion (40) of the rotating unit. A mechanism according to any one of claims 2-3, characterized in that the rotating unit (19) comprises a bolt head (28) and a bolt neck (29), which houses a percussion pin (30). Mechanism according to any one of claims 2-4, characterized in that the clamping unit comprises a clamping sleeve (57), the front part of which is constituted by said front sleeve-shaped portion (60) of the clamping unit, that at least a part of the collet and a part of the bolt neck have a cylindrical outside with the same diameter as the inside of the bolt body, that said ball (68) extends up into a hole (66) in the collet, and that the bolt body surrounds said cylindrical parts of the clamping unit and the rotating unit, including the sleeve-shaped portion of said clamping unit (66), so that the bolt body encloses the ball in said hole and in said helical grooves. Mechanism according to any one of claims 2-5, characterized in that a strut spring (84) is arranged in a firing mechanism, that a recess (61) is arranged in the clamping unit, which recess opens towards the firing mechanism and extends upwards to a level past the center axis of the mechanism, that the striking pin (30) with its rear end (65) extends into said space in the clamping unit, or that a striking actuable part extends into said space (61), and that a clamped male (83 ) under the action of the percussion spring (84) is arranged to be able to rotate about an axis of rotation from a tensioned starting position mainly in the firing mechanism to an abutment position mainly in said space (61) for firing the weapon by striking the rear end of the percussion pin or said detail in said space (61). Mechanism according to claim 6, characterized by an opening (24) in the underside of the bolt body (18), which opening (24) at least partially coincides with the mouth of said recess (61) in the clamping unit, when the weapon is closed, so that the male (83) can pass through said opening up into said space to strike the percussion pin. Mechanism according to claim 7, characterized in that the box (1) also has an opening (10) in its lower part, so placed that the opening (24) in the bolt body is at least partially arranged between the recess (61) in the clamping unit and the opening (10) in the drawer. Mechanism according to any one of claims 1-8, characterized in that the weapon is arranged to be secured by locking the cock in a tensioned position in the firing mechanism by means of at least one securing means (108, 122) in the firing mechanism. 501 476 10 l5 20 25 30 35 20 Mechanism according to any one of claims 1-9, characterized in that at least the box (1) and the bolt body (18) are made of and have the main shape of circular-cylindrical tubes. 11. ll. Mechanism according to any one of claims 2-10, characterized in that a rotation lock (78) is arranged to prevent the clamping unit and the rotating unit from moving relative to each other during any other phase of the repeater movement than when the locking lugs (38) on the bolt head are located in the locking chamber (7).