DE3640484A1 - Process for securing a shearing pin - Google Patents

Abstract

The invention relates to a process for securing a shearing pin in at least two flat, thin-walled components. For specific applications, it is sometimes not possible, owing to spatially constricted conditions and special requirements, to use known fastening means such as countersunk rivets. Shearing pins may then be used in their place. In order to prevent shearing pins (3) from moving out laterally in the event of high stressing of the interconnected components (1, 2), the invention provides that, within one component (1, 2), the shearing pin (3) is fixed, within a bore widening (5), restricted in the longitudinal direction of the bore, by deformation or enlarging the cross-section. Such shearing-pin connections of flat components are used, in particular, in weapon technology, e.g. for the connection of a trigger-securing means to the weapon casing. <IMAGE>

Description

The invention relates to a method for security tion of a shear pin with the characteristics of the upper part handles from claim 1. The invention relates further towards one used according to the security procedure Shear pin.

In practice, flat components are used in particular mostly with rivets or shear pins tied, the rivet heads on their two outer sides indicate which a selection when the components are stressed prevent or move in the longitudinal direction of the rivet. As a rule, one of the rivet heads is already preformed and the second rivet head is pressed or hammer blows with the help of a rivet head Forming die molded onto the rivet.

Round-head rivets, which are located on the outside of the the respective component surface and preferably for thin sheets or the like can be used and countersink rivets with rivets not over the top of the component protrude surface, but conical in itself outwards opening extensions are inserted. At be certain use cases it is due to spatial limited circumstances and special requirements not possible to use known countersunk rivets.

The object of the present invention is accordingly reasons, a method for securing shear pins or Specify rivets, especially when space is limited ratios of the components to be connected as well as a shear pin shape of an inserted and deformed  ten shear pin to indicate, even with strong, ins special intermittent shear stresses on the connecting components a lateral migration of the Shear pin prevented with certainty.

The object is achieved in that the cross-sectional enlargement of the shear pin within a bore extension limited in the longitudinal direction of the bore tion takes place within the one component. Through the Arrangement of an enlarged cross section of the shear pin within a component or by shifting egg nes "rivet head" inside into the hole the shear pin regardless of spatial conditions and other conditions absolutely safe in the Bore or fixed in the components and against one side Lich emigration of the pen even after strong impact and Shear stress on components secured.

In an embodiment of the invention it is provided that the Extension of the Boh limited in the longitudinal direction of the bore tion by piercing an annular groove, preferably with semicircular cross section in at least one of the flat components is manufactured. On this simple one A rivet or shear pin can be used before emigration be secured in both directions, for example what in the case of a rivet with only one outer rivet head ben is. To achieve the same effect, sen with a conventional rivet at least two outer Rivet heads can be provided, what a countersunk head rivets double operation or sinking of the borehole required. The inner borehole width according to the invention In contrast, only a single injection is required operation achieved.

When arranging two or more shear pins in It is boreholes of the components to be connected according to the Invention very advantageous if the extension of the Boh  is alternately provided in the components.

Further advantageous features of the invention are in the contain the following subclaims.

A shear pin, according to the fuse according to the invention process fixed in at least two flat components was pointing in its two to the outer surface of the Exterior areas facing components have the same size Diameter and in the central area at least one ver largest diameter. Its advantageous shape after fixation is not visually recognizable from the outside, because the bore hole is advantageously small on the outside remains.

The invention is based on in the drawing illustrated embodiments explained in more detail. Show it:

Fig. 1, two flat components with various From guide possibility of shear pins according to the invention,

Fig. 2 shows a shear pin blank and

Fig. 3 shows the configuration of a hole in a fla chen component for a shear pin according to the invention.

The reference numeral 1 denotes a flat component I in FIG. 1 and the reference numeral 2 denotes a further flat component II. In the present exemplary embodiment, I represents a part of the weapon housing of a machine gun, e.g. B. in caliber 20 mm and II are part of the trigger holder, which are usually firmly connected to one another by countersunk rivets. Machine guns have a high cadence with z. B. 600 rounds per minute. Therefore, these parts I and II are exposed to extremely high shear stresses.

In particular in the constructive weapon technology usually restricted installation space. So is with riveting gun case I and trigger holder due to the limited spatial conditions Selection of the rivet head shape according to DIN not possible and the The number of rivets to be used is limited. This often results in the trigger holder becoming loose II at higher numbers of shots.

In the partial representation of Fig. 1 a), a known rivet or shear pin is shown with double-sided countersunk head according to the prior art. For this purpose, the aligned drilling must be conically expanded by the two flat components on the outer surface of each in two work steps. This results in large diameters on the component surface with a small internal shear cross section of the shear pin. The rivet heads must be flush with the component surfaces; a lowering of the shear pin or rivet is not possible, since otherwise the holding function of the rivet head is reduced.

In order to eliminate these disadvantages, a solution according to the partial representations of FIG. 1 b), c) or d) is provided according to the invention.

A shear pin blank 3 according to FIG. 2 with a length 7 (e.g. 19 mm) and a diameter 6 (e.g. 9 mm) is inserted into a bore 4 aligned with both components and having a bore diameter 10 (e.g. B. 9 mm or slightly larger) used, as shown in Fig. 3, in the weapon housing 1 within the bore 4, an annular groove 5 with a width 8 (z. B. 4 mm) and a diameter 9 (z. B. 13 mm) is provided, which is arranged by means of an insertion process at a distance 11 (for example 5 mm) from the surface of the construction part 1 which comes into contact with the component 2 . As a rule, the bore expansion should be in the order of 2% to 15%, preferably 10%, of the predetermined bore diameter.

When fixing the shear pin blank using partial verfor Pressing material flows into the shear pin material the pierced ring groove and the migration of the pin will be prevented.

If the shear pin diameter 6 is, for example, the same size as the head diameter of a conventional countersunk head rivet, a larger shear surface can be achieved even in tight installation conditions. With the inventive method for securing shear pins there is also the possibility of knocking out rivet holes z. B. to drill on rivet head diameter, to provide the bore with an inner annular groove and to repair the corresponding assembly with the shear pins according to the invention. An annular groove with a semicircular cross section is half preferred because it favors the material flow of the shear pin when pressing. However, taking into account the properties of different shear pin materials (e.g. aluminum, copper, steel), the annular groove cross section can also be triangular or conical or rectangular.

In the partial representation of Fig. 1 c) the annular groove 5 is arranged in the plane of contact of the two components I and II. As a result, the shear area of the shear pin is further increased and the resistance of the shear pin increases, since the material of the pin is additionally solidified in this area by the deformation.

Sometimes it may be necessary to arrange a shear pin in a lowered position. The depression 12 does not reduce its function in the embodiment of the shear pin according to the invention. The distance 13 between two shear pin arrangements can be small, in particular if, when two or more shear pins are arranged, the expansion of the bores is alternately provided in the components.

The partial illustration in FIG. 1 d) shows the arrangement of two bore extensions within a bore, a bore extension being provided in each of the components of sufficient material thickness. By means of this shear pin fixation, three or more flat components can preferably also be connected to one another.

The shear pins according to the invention show in their the outside areas of the same size and in the middle Area with an enlarged diameter on them the ring bead corresponding to a rivet head that has an axial prevents the pen from moving inside the Hole has been relocated.  

• 1 flat component I
  2 flat component II
  3 shear pin blank
  4 holes ( 1 ), ( 2 )
  5 ring groove ( 4 )
  6 diameters ( 3 )
  7 length ( 3 )
  8 width ( 5 )
  9 diameter ( 5 )
  10 diameter ( 4 )
  11 distance ( 1 )
  12 depression ( 1 )
  13 distance

Claims (7)

1. A method of securing a shear pin, which is used for connecting flat, particularly thin, sheared components, in which the shear pin or rivet is inserted into an aligned bore through the components and by means of forming by means of pressure applied in the longitudinal direction of the shear pin undergoes an increase in cross-section, so that the components are firmly connected to one another and the shear pin is also immovably anchored in the bore in its longitudinal direction, characterized in that the increase in cross-section of the shear pin ( 3 ) within a bore extension ( 5 ) limited in the longitudinal direction of the bore within the bore a component ( 1 , 2 ). 2. The method according to claim 1, characterized in that the widening of the bore ( 4 ) limited in the longitudinal direction of the bore is made by inserting an annular groove ( 5 ) in at least one of the flat components ( 1 , 2 ). 3. The method according to claim 1 or 2, characterized in that when two or more shear pins ( 3 ) are arranged in bores ( 4 ) of the components ( 1 , 2 ), the expansion ( 5 ) of the bores alternately in the components ( 1 , 2 ) is provided. 4. The method according to claim 1, 2 or 3, characterized in that the extension ( 5 ) of the bore ( 4 ) in the contact plane of the components ( 1 , 2 ) is provided in half in both components ( 1, 2 ). 5. The method according to claim 1, 2, 3 or 4, characterized in that in each case a bore extension ( 5 ) within a through the components ( 1 , 2 ) aligned bore ( 4 ) in at least two of the components to be connected ( 1 , 2 ) are provided. 6. The method according to any one of the preceding claims 1 to 5, characterized in that the bore enlargement ( 5 ) is of the order of 2% to 15%, preferably 10%, of the predetermined bore diameter ( 10 ). 7. shear pin, which was fixed according to the securing method according to the preceding claims 1 to 6 in flat components, characterized by one in its two to the outer upper surface of the components ( 1, 2 ) facing outer areas of the same diameter ( 6 ) and at least one in the central area provided enlarged diameter ( 9 ).