DE1728593C3 - Bolt catching device for an internal combustion bolt setter - Google Patents

Description

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The invention relates to a bolt catching device for an internal combustion bolt setter, its barrel bore with bolt guide grooves, an annular space in the area of the barrel muzzle - this annular space is bordered by a shoulder on the cargo side, in which the guide grooves terminate, and shoulder on the mouth side, the one Bolzenabfangschulter forms - and a mouth hole is provided in which approximately the cross-section of the Guide grooves are arranged accordingly, offset in the circumferential direction to these, removal grooves.

In this known bolt interception device (US-PS 31 81 760) allows the leadership in the bullet barrel to be desired; Otherwise, the loosening of the fastening element from the internal combustion bolt setters relatively complicated. Also in the area of the muzzle there is no protection against a jumping off fastening element given. In addition, it is not a device that is suitable for high rates of fire.

Furthermore, cartridges for loading are more powder operated Tools are known (z. B. US-PS 27 70 194), but the fastening element, d. H. the bolt, at Firing leaves the barrel of the tool. There only precautions have been taken, which of course also is important to make the launcher suitable for different calibers, this being done by Bendable elements happens.

In contrast, the invention is based on the object of providing a bolt interception device of the initially introduced described type to create a better guidance in the bullet barrel while at the same time precisely predictable Limitation of the depth of penetration into the workpiece as well as faster loosening of the fastening element enables

This object is achieved according to the invention in that .that the bolt for guiding in the guide grooves is provided with guide ribs which are in the longitudinal grooves of the Engage cartridge case liner, these longitudinal grooves to the curved, the outer circumference of the Cartridge forming peripheral surfaces are arranged symmetrically and that the inner peripheral surfaces of the Cartridge chamber to the Bolzenfühmmgsnuten have the same position.

The bolt-firing cartridge is preferably open-chamber ammunition triangular cross-section, which is in the internal combustion bolt setter with open chamber lock is ignitable

The bolt expediently has a front sharpened shaft part and a rear enlarged one Safety head and in between a ring-like, forward-facing shoulder to prevent a Penetration of the bolt into the workpiece.

The measures according to the invention thus ensure proper guidance in the projectile barrel at the same time, they allow a precisely predictable limitation when introducing the fastening element in the. Workpiece with simultaneous possibility of internal combustion bolt setter and fastening element to separate quickly from each other.

Due to the possibility of precisely accommodating the fastening element (bolt) in the cartridge case and to wedge it in this practically by ribs on the fastener and by the Measure, the cartridge case through the ignition chamber due to its preferably triangular shape position, the possibility is created that the ribs of the fastener on the projectile barrel grooves align and these grooves are offset from the grooves in the safety collar so that the Fastener after it is fired is prevented from leaving the barrel. All of this will be achieved without having to be reloaded by hand.

A relatively large number of shots can be ignited in a minimum of time, practically the same The tools can be quickly brought into the ignition position and operated.

Regardless of the number of fasteners to be driven in, their depth of penetration can be Due to the novel restraint effect, the same can be chosen. Nevertheless, the safety stop is a quick release possible.

Propellant-operated tools with an open-chamber locking effect are known per se

An example embodiment of the invention will be explained in more detail with reference to the drawings will.

It shows

F i g. 1 shows a longitudinal section through an internal combustion bolt setter with an interception device, the tool is in its normal rest position,

F i g. 2 shows an enlarged illustration in the direction of arrows 5-5 in FIG. 1,

F i g. 3 is an enlarged section along line 6-6 in Fig. 1,

F i g. 4 shows an enlarged section along the line 7-7 in FIG. 5,

Fig. 5 is a longitudinal section through the tool in the position ready for ignition,

F i g. 6 is e ^; n Section along the line 9-9 in FIG. 5 and

F i g. 7 shows a bolt that is inserted into a component by the Internal combustion bolt setter of the type shown was driven.

Due to the novel shackling effect for the bolt or generally for the fastening element, this is only released consciously. Not only will it be complete Migration of the bolt through and through the workpiece is avoided. The security head lock on the ammunition projectile and the front safety stop on the internal combustion bolt setter and So tie the shot fastener in the manner described. A quick release from each is However, fastening element is possible.

In the figures, as an embodiment, an internal combustion pin setter designed according to the open-chamber locking system is shown provided, the open lock chamber of which a cartridge suitable for open locks 10, consisting of propellant charge 14 and fastening bolt 12 is supplied. The ammunition can be coated or be sleeveless. As shown, ammunition is jacketed with an outer cartridge case 16 is used, a firing pin 18 being provided in the rear end of the sleeve

The cartridge 16 of each ammunition projectile has the same substantially triangular-round shape in Cross-section like known open-chamber ammunition. The cartridge case is made of a suitable, flexible, non-combustible material, preferably a non-combustible plastic such as in the U.S. Patent No. 3,046,890 or 3041939. Lengthways into the front end of the cartridge 16 An opening 20 is sufficient. Inside this opening and complementing it on the outside is a cartridge case lining 22 with a central bore 24 open through the ends is attached to the wall of this The bore has a number, in the illustrated case three, longitudinal grooves 26 uniformly spaced apart. The liner and liner 22 are made of a suitable non-combustible material consisting of the the same plastic as the cartridge case can. The liner is slightly smaller in length than that of the cartridge case opening 20 and is with the front end flush with the front end of the cartridge case The cartridge case lining is at a distance from the rear end of the cartridge case and thus forms a wipe here a chamber in which the propellant charge 14 is received.

The fastening element shown preferably consists of an externally threaded one Bolt with a front, pointed shadow part 28, a body with an external thread 30 and a rear safety head 3Z The safety head is with the bolt body by a relatively slim Connecting shaft 34 connected. The rear safety head 32 has a central cylindrical part 36 of the same diameter (safety head) as the externally threaded part 30 and a number uniformly spaced radially projecting longitudinally extending guide ribs 38. These ribs are in the same number as the Longitudinal grooves 26 and slidably guided in these in the cartridge case lining 22 The screw body part 30 of the bolt and the cylindrical safety head 36 are dimensioned so that they Slidably fit into the chalking hole 24. The bolt has the same overall length as the Liner 22 and has its ends flush with the ends of the shell liner arranged.

A protective shield 46 is placed on the outside of the barrel 42, while at the breech of the barrel 42 an open-chamber lock to be described is located in the bore 44 of the barrel 42 The fastening bolts located are pushed forward into the component or workpiece by the propellant gas pressure, if the tool is constantly brought into contact with it, driven. For a high repeating effect the locking mechanism 48 has an ammunition carrier 50 for receiving the ammunition to be ignited Ammunition 10 on. As a first fuse, an ammunition carrier drive 52 includes a coupling 58 between Shield 46 and ammunition carrier 50. The coupling is arranged so that the carrier through the coupling is actuated as soon as the axis of the barrel 42 is at a suitable angle, in the present case normal to the workpiece surface, is located If the tool is removed from the workpiece without igniting, so the ammunition carrier 50 is again actuated automatically by the clutch 58 and throws the unignited Bullet off. To restrain the bolt, the muzzle end of the barrel 42 can be fitted with a safety ring be provided, which cooperates with a safety head of each ignited projectile to a complete To prevent the stud from penetrating a workpiece. The illustrated open chamber closure 48 has an elongated shutter frame 62 having a bracket and a cylinder receiving chamber 64 A pistol knob 66 with a front trigger protection 68 in which a Release opening 70 is provided. The ammunition carrier 50 is rotatable within the chamber 64 as a cylinder Rotation about a longitudinal axis 72 of the closure frame 62. The chamber 64 is cylindrical Cross-section and dimensioned so that it receives the lock cylinder 50 with a relatively tight sliding fit. the facing cylinder and chamber surfaces are closely adjacent or in mutual Sliding contact arranged.

The ammunition carrier or cylinder 50 is driven while rotating for feeding in an ammunition projectile from one of the magazines in the ignition position, depending on the engagement of the devices 46 that come into contact with the workpiece W. The breech mechanism 48 is provided with detonators 94 for detonating each projectile which is thus transported into the detonation position. The illustrated firing mechanism is a conventional trigger actuated firing pin mechanism.

This mechanism has a spring loaded firing pin 96, a trigger 98 and a snap action working trigger and firing pin connecting linkage 100. The firing pin% is in the rear end of the Bolt frame 62 mounted so that it is on the rear firing pin 18 of each ammunition projectile 10 is aligned when the latter is in the ignition position. The trigger 98 is slidable within of the trigger opening 70 and is urged forward to its normal position by a spring 101 The trigger can be pulled back against the spring pressure by pressing the trigger with your finger will. The trigger linkage 100 is a conventional snap action linkage arrangement

effectively the trigger 98 is connected to the firing pin 96 such that when the trigger is depressed first the firing pin is withdrawn against the spring pressure and then the pin for the spring advance of the The pin abruptly in percussion contact with the firing pin 18 of the ammunition projectile 10, which is constantly in Ignition position is up, released and the projectile is ignited.

The pressure protection 46 of the weft plug shown 40 has a protective shield 102 and a safety linkage 104. The protective shield 102 consists of a hollow, substantially cylindrical shell ίΟ6 with a cylindrical side wall 103 and a rear end wall 110. The front of the Shell is open. A supporting sleeve is attached to the rear of the rear shell wall 110 and protrudes axially from this, in which the weft dowel barrel 42 is slidably received. Also at the rear shell wall 110 and the supporting sleeve 112 attached and rearward from the rear wall below A second supporting liner 114 is arranged protruding laterally from the liner. The latter Bushing slidably receives a spindle 116 with a rear shaft portion 118. The shaft part is rotatable, penetrating the front end of the locking frame 62 on the axis 72 of the locking cylinder 50 and is attached at the rear end to the cylinder within the front end of the spindle sleeve 114 sits a compression spring 120. This spring comes between the wall 110 of the rear protective shield and the forward end of the spindle 116 to act to yield the shield 102 at the front along the barrel 42 in the fully extended position according to FIG. 1 to press. The travel of the shield is by engaging the forward end of the liner 112 limited to the rear end of the safety collar 60 on the barrel. The protective shield 102 is towards the rear along the barrel 42 into the fully retracted position according to FIG. 1 against the action of the compression spring 120 draggable. In the fully retracted position, the front face of the safety collar 60 and the front end ring edge of the shield essentially in a common plane normal to the axis of the The safety shield spindle sleeve 114 and the locking cylinder spindle 116 form one barrel Part of the cylinder drive coupling 58. This drive coupling also has a movement transmission device to the axial movement of the protective shield 102 in an intermittent in a Direction effective rotary movement of the locking cylinder 50 to convert. To this end, the illustrated Motion transmission means a spring loaded cam follower pin 124 which passes through the spindle sleeve 114 is worn on. The plunger pin 124 is with his Axis arranged normal to the axis of the spindle 116 and slidably engages in a double screw groove 126, which is formed in the outer surface of the spindle. The plunger pin 124 and screw groove 126 are like this constructed and arranged to permit retraction of the safety shield 102 from its fully extended position Position in its fully retracted position the lock cylinder 50 counterclockwise by one Angle equal to half the angular distance between the adjacent cylinder ignition chambers, in this case over an angle of 60 ° C, drives a spring return the shield to its fully extended position propels the cylinder in the same direction about the same Angle

As shown, the sieve linkage 104 has three workpiece feeler pins 128 parallel to the axis of the barrel, uniformly spaced around the interior of the protective shield shell. Each pin is slidably mounted in brackets 130 attached to the outer surface of the tray side wall 108 and is urged forward into the extended position by a spring 132. Each workpiece feeler pin 128 has a locking pin 134 associated therewith. Each locking pin extends from the rear end of its corresponding ^{Werkstückfühlerst; r} les radially inwardly against the barrel 42 and is slidably mounted in supports 136 which are attached to the back of the back shell wall 110th The locking pins are urged inwardly against the barrel by springs 138. The inboard ends of the locking pins slidably extend through bores in the forward end of the barrel 112. A recess 142 is formed in the outer surface of the barrel 42 so that the inboard ends the locking pins 134 are received once the shield 102 is fully extended. By engaging the locking pins in this groove, the protective shield is apparently locked against retraction relative to the sleeve to the rear. The outer end of each locking pin 134 is bent at right angles to form an arm 144 which engages the rear end of the corresponding workpiece feeler pin 128, the rear end of the workpiece feeler pin is beveled and forms a wedge-shaped end 146 which brings the corresponding locking pin 134 radially out of engagement with the barrel locking recess 142 when the workpiece pin rearwards into its position according to FIG. 4 is withdrawn. Only if all of the locking pins 134 are withdrawn at the same time will the protective shield 102 be released. A simultaneous retraction of the locking pins 134, however, requires the engagement of the tool against a workpiece W, the axis of its barrel 42 must be normal to the workpiece surface. Only when the protective shield is fully retracted can the trigger 98 be pressed in order to simultaneously ignite the projectile in the ignition position and thereby bring about a forward propulsion of the bolt 12 contained therein into the workpiece.

As mentioned previously, the guide ribs 38 of the safety head 32, which are used for securing, engage slidable in the longitudinal grooves 26 in the cartridge case liner. The wall of the bore 44 in the barrel 42 carries similar guide grooves 148, which on the Äüskieidungsnuten 126 each cartridge case are aligned when the latter is in the firing position These projectile barrel grooves are sized so that they slidably the guide ribs 38 each ignited Pick up the bolt. By way of the triangular, round shape of the cartridge 10 shown, each Ammunition projectile assume one of three different angular positions in the breech cylinder firing chambers. Each cartridge can thus be placed in an ignition chamber, with any of the three curved sides of the projectile against the open side of the chamber exposed the longitudinal grooves 26 and the Bolt guide grooves 148 are automatically aligned in every position of the projectile thus igniting a cartridge in the internal combustion bolt setter according to the invention, the bolt contained therein is

12 driven forward through the bore 44 such that the guide ribs of the bolt penetrate into the bolt guide grooves 148 and slide along the barrel.

Under normal conditions, each fired bolt 12 penetrates the workpiece W until the forward end of the threaded element 30 engages the workpiece surface. Each cartridge 10 thus contains the correct propellant charge 14 for the particular size or type of bolt and the particular workpiece material into which the bolt is driven in order to bring it to the correct depth. The possibility is given, in the known internal combustion bolt coasters that a non-matching propellant charge is associated with a collectible bolt is so reduced as much as possible, if not virtually eliminated by the 5 zer Brenr.kraftbolzer.set-! According to the invention.

There is, however, the possibility in the art that a bolt could be shot into a workpiece which is softer than assumed, which would cause the fired bolt to migrate entirely through the workpiece if it were not tied in the manner described. A safety collar 60 of the internal combustion bolt setter cooperates with the safety head 32 of the bolt 12 of each cartridge to bring about the bolt shackle effect. The safety collar 60 has a front wall 150 and an inner ring groove 154 in this to bring about the pin shackle effect. This groove has an outside diameter which is slightly larger than the diameter of a circle which would be centered on the axis of each bolt 12 and which would circumscribe safety ribs 38 (not shown) of the bolt. In the event of excessive penetration, the bolt is locked by security groups 38 (not shown) on the front wall 150 of the security collar. Thus he is tied up by the bullet plug until he is released. For this purpose, the tool is rotated relative to the driven bolt into a position in which the safety collar notches are aligned with safety head ribs on the driven bolt, after which the tool is then withdrawn backwards from the bolt. The bullet plug is made ready for detonation by removing ammunition magazines 56a, 566 from breech frame 52 and loading the correct number of rounds 10 into each magazine. Magazines are then re-attached to the tool during this use is the Schußdübler forward against a workpiece W is pressed, wherein the axis of the bullet barrel 42 to lie normal to the workpiece surface comes By this action, the work piece feeler pins are first withdrawn 128 relative to the shield 102, and thereby the locking pin e 134 brought out of locking engagement with the bullet barrel 42, thereby releasing the shield 102 ζ xm pulling back relative to the barrel. A second forward pressure exerted by the tool against the workpiece now leads to an extension of the barrel relative to the shield forwards and thus to a relative retraction of the shield relative to the barrel until the front end of the safety collar rests against the workpiece surface on the ground Withdrawal of the protective shield 102 along the barrel 42 drives the lock cylinder 50 in order to transport an ammunition projectile 10 from one of the ammunition mags 56a or 566 into the firing position. At this point the trigger 98 of the projectile is depressed in order to ignite the projectile, which is permanently in the ignition position, and thereby cause the bolt 12 contained therein to snap forward into the workpiece. In the event that the tool is pressed with the axis of the barrel 42 at an angle other than perpendicular relative to the workpiece surface, at least one of the three workpiece feeler pins 128 will not be fully retracted, thereby releasing the shield 102 for retraction relative to the barrel . The ammunition projectile 10 is therefore not transported in the ignition position. Even if the tool is pressed forward against the workpiece, wherein the axis of the bullet barrel normally located to the workpiece surface 42, the tool can only be "Eiürdci wsrdsn when the K4unitions ^cT eschoß the entire path has been transported in its ignition position, in which the firing pin 18 of the projectile with the firing pin 96 Π, in which the safety collar is locked against the workpiece surface. There is therefore no possibility of igniting the projectile in the weft plug according to the invention, unless the projectile is correctly in the ignition position relative to the plank 44 positioned.

If the projectile dowel is removed from the workpiece JV, the protective shield spring 120 returns the protective shield 102 to its fully extended position and thereby causes the locking cylinder 50, the cylinder firing chamber, which is permanently in the firing position, to turn from this position into the ejecting position, the used cartridge case 16 the just fired projectile is then ejected through the breech frame ejector opening. If the tool is withdrawn from the workpiece without being ignited or fired, the unignited projectile is ejected from the tool.

The above-mentioned action or rotation of the lock cylinder 50 takes place as a function of Engagement of the locking plug with or after subsequent removal from a workpiece. Every intervention of the Tool with a workpiece thus transports a live ammunition projectile 10 from one of the ammunition magazines in ignition position. A subsequent removal of the tool from the workpiece leads to ejection of the spent cartridge cases of the ignited projectile or possibly not ignited sharp projectile. During the infeed movement of the ammunition projectiles 10 from the ammunition magazines into the cylinder ignition chambers subsequent ignition of the projectile plug initially to empty the magazine, then to empty it of the magazine. This is also possible from FIG. 3 out, which shows that each cylinder ignition chamber initially one Rotates past the magazine and then rotates past the magazine. Each firing chamber receives So one ammunition projectile from the magazine as long as the magazine still contains at least one projectile Projectile entering each ignition chamber from the magazine blocks entry into the ignition chamber for one Ammunition projectile from the magazine. As a result, the ammunition projectiles do not begin to eat until then from the magazine when the magazine is completely empty The magazine arrangement shown is only for Selected illustration purposes, the weft dowel according to the invention can be with only one or with more than two Magazines. For example, a bullet plug according to the invention can have a single ammunition magazine within the handle 66, whereby one obtains a relatively compact tool

Any excessive penetration of a fired fastening bolt 12 into the workpiece W is prevented or limited in that the bolt safety ribs come into engagement with the front wall 150 of the safety collar. The tool is removed from a fired bolt by rotating the tool to a position in which the

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front safety wall notches 158 on the bolt ribs are aligned and the tool is then withdrawn from the bolt towards the rear. After everyone When the bolt is driven into the workpiece, the safety head of the bolt can be easily removed, by breaking the slim connecting shaft 34 between the head and the actual bolt.

For this purpose 2 sheets of drawings

Claims (3)

Patent claims: 1. Bolt catching device for an internal combustion bolt setter whose barrel bore with bolt guide grooves, an annulus in the area of the muzzle - this annulus is bordered by a shoulder on the cargo side, in which the guide grooves terminate, and shoulder on the mouth side, the one Bolt support shoulder forms - and a muzzle bore is provided in the approximately corresponding to the cross section of the guide grooves, in the circumferential direction offset to these, removal grooves are arranged, characterized in that the Bolt (12) for guiding in the guide grooves (148) is provided with guide ribs (38) which are shown in Engage longitudinal grooves (26) of the cartridge case lining (22), these longitudinal grooves (26) to the curved, the outer circumference of the cartridge (10) forming peripheral surfaces (10 ') arranged symmetrically and that the inner peripheral surfaces of the cartridge chamber to the bolt guide grooves (148) have the same position. 2. bolt interception device according to claim 1, characterized in that the bolt setter cartridge consists of open-chamber ammunition of triangular cross-section, which in the breech of the open-chamber design of the internal combustion bolt setter is ignitable 3. bolt interception device according to claim 1 or 2, characterized in that the bolt (12) has a front sharpened shaft part (28) and a rear enlarged safety button (36) and in between a ring-like, forward-facing shoulder to prevent the penetration of the Has bolt in the workpiece