CA1097002A - Return pawl for powder actuated tool - Google Patents
Return pawl for powder actuated toolInfo
- Publication number
- CA1097002A CA1097002A CA322,521A CA322521A CA1097002A CA 1097002 A CA1097002 A CA 1097002A CA 322521 A CA322521 A CA 322521A CA 1097002 A CA1097002 A CA 1097002A
- Authority
- CA
- Canada
- Prior art keywords
- pawl
- barrel
- holder
- piston
- fastening tool
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
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Abstract
ABSTRACT
A powder-actuated fastening tool is provided with a return pawl slideable within a pawl-holder fixed to the barrel-holder, between a piston engaging position, wherein the pawl, protruding through a longitudinal slot in the barrel engages the piston during the opening of the tool, while at least one boss, formed on the pawl, engages a first plane milled surface of the barrel, and a cocked position, where a second plane milled surface of the barrel, more remote fron the barrel axis than the first surface, engages the boss to retract the pawl, the two milled surfaces being connected by a transverse groove which the boss can engage to maintain the barrel in its locked and non-cocked position.
A powder-actuated fastening tool is provided with a return pawl slideable within a pawl-holder fixed to the barrel-holder, between a piston engaging position, wherein the pawl, protruding through a longitudinal slot in the barrel engages the piston during the opening of the tool, while at least one boss, formed on the pawl, engages a first plane milled surface of the barrel, and a cocked position, where a second plane milled surface of the barrel, more remote fron the barrel axis than the first surface, engages the boss to retract the pawl, the two milled surfaces being connected by a transverse groove which the boss can engage to maintain the barrel in its locked and non-cocked position.
Description
R-l 111 1'~)97C~(~Z
sACKGRouND
The present invention relates to a powder-actuated fastening tool with a hammer piston and, more particularly, to a pawl for returning the hammer piston in its ~firing position.
Powder-actuated fastening tools are known in the art wherein cocking i5 achieved by pressing the tool muzzle against the surface of the material intended for receiving the anchoring member, causing retraction of the pawl, the pawl resuming its idle position during the opening of the apparatus, in order to return the piston to its firing position.
The barrel of such an apparatus is formed with a longitudinal slot and two plane milled surfaces parallel to the barrel axis and connected through a ramp. The pawl of -such an apparatus is slidably mounted within a pawl holder fixed to the casing. The pawl is biased to its idle position by resilient means, and comprises bosses shaped for engaging the barxel milled surfaces. The operative end o~
the pawl projects into the slot and i9 9haped SO as to engage, in its idle posi~ion, the pis~on.
The pawl being in its idle position, that is in the position where the piston is in an upward position, its bosses engage the first milled surface closest to the barrel axis. When the apparatus is pressed against the material, the bosses slide, agaLnst the action of the re~ilient means, ; from the first mllled surface to the second milled surface, which is more remote from the barrel axis than the first, .. . . . . . .
,, : ~ . . , R-llll 10970(~
causLng the operative end of the pawl to retract so as not to project into the barrel.
For safety reasons, the cocking of such an apparatus is achieved by pressing it against the material intended for receiving the anchoring member. In order to facilitate the handling of the apparatus once a cartridge has been loaded, means may be provided which are arranged in such manner as to maintain the barrel in its closed but non-cocked position.
Generally, the closing is resilient, but it requires an extra part such as a clip.
SUMMARY OF T~E I~VE~TION
The primary object of the present invention is, therefore, to eliminate this extra part. To this end, the invention relates to a fastening tool having a hammer piston and a hammer piston return pawl slidably mounted in a pawl-holder fixed to the barrel-holder of the apparatus and movable between a piston engaging position, to which the pawl is returned by resilient means, wherein it projects through a longitudinal 910t of the barrel into tha bore of said barrel, and engages tha piston during the opening of the apparatus, at least one bo~s formed on the pawl engaging a first plane milled surface provided on the barrel, and an apparatus cocking position, in which a second plane milled surface, provided on the barrel and more remote from the barrel axis than the first surface, engages the boss for retracting the pawl, the two milled surfaces being connected by means of a R-llll ~)97~02 transverse groove which the boss in intended to engage ~or maintaining the barrel in its closed but non-cocked position.
By means of this invention, the return of the hammer piston during the opening of the fastener tool arranged and constructed according to the invention, and the maintaining of the barrel in its closed position before cocking the apparatus, are achieved without the help of an extra part.
When the apparatus is pressed against the material intended for receiving the anchoring member, the barrel-holder, and the pawl are brought forward, in relation to the barrel, against the action of its biasing means; the pawl is then urged outside the barrel bore for engaging the second milled surface. After firing, when the apparatus is no longer pressed against the material, the barrel-holder slides rearwardly in relation to the barrel, and the pawl is disengaged from the second milled surface and returns to seat within the transverse groove of the barrel which is thus resiliently re-locked, a voluntary opening of the apparatus being nonetheless possible.
20 ~ In a preferred embodiment o~ the apparatus according to the invention, the transverse groove is formed with a plane bottom connected to said milled surfaces through ramps inclined in reverse directions.
Conventional fastening tools suffer from the possibility of an eventual fault in the installation of the pawl in its pawl-holder, whereby the barrel may be blocked in its cocked position, thus overriding the safety device which prevents discharge of the tool unless the muzzle is pressed against the workpiece.
~3--R-llll lO9~00Z
A further object of the present invention is to eliminate such a disadvantage. To this end, the pawl and the pawl-holder are arranged so as to form at least one recess, orientation means, comprising at least one pin, being provided for cooperating with the recess and guiding the pawl in the pawl-holder.
If the pawl is incorrectly inserted into the pawl-holder, the pin cannot cooperate with the recess and the pawl is prevented from being introduced further into the pawl-holder in such manner that no action applied on the pawl may bring it into cooperation with the tool barrel.
To further ensure that the pawl is not installed ~ackwards, it is formed of a length such that the closure cap of the pawl-holder cannot be secured to the latter if the pawl is not completely and-therefore correctly put in position in the pawl-holder.
A further object of the present invention is to provide a pawl with a third function in relation with the evacuation of the combustion gases. In some conventional powder-a~tuated fastening tools, no particular means are provided for allowing such an evacuation, only a minute portion escaping through the barrel-holder, so that the combustion wastes accumulate in the forward portion of the barrel which very quickly becomes fouled.
In the case where the hereabove mentioned recess is formed in the fastening tool of the invention, said recess may extend in such manner as to from a passageway for the R-llll ~9~oz gases and combustion wastes. Such a passageway offers the advantage of allowing wastes which would otherwise accumulate on the pawl to be evacuated outside.
Finally, a last object of the invention relates to over-power firing. After such an over-power firing, the piston shank protrudes from ~he tool muzzle while the piston head may have passed down the barrel beyond the pawl. With- conventional fastening tools, it is in such a case, necessary to dismantle the tool in order to "re-cock"
the pawl, that is to position again the reaxward end of the piston behind the pawl. An object of the invention is, therefore, to remedy such a disadvantage. To this end, a ~astening tool is provided in which the rearward end of the piston head is formed with a bevelled edge in such manner that when the piston is urged back by pressing against its forward end, which protrudes outside of the apparatus, the piston may retract the pawl against the action of its biasing means until it resumes a position ahead of the operative part of the piston; this being accomplished without having to dismantle the tool.
~G~9700Z
In accordance with a particular of the invention there is provided a pGwder-actuated fastening tool of the type including a hammer piston, a barrel holder, a barrel movably carried within the barrel-holder for reciprocation, from an open position through a closed, but non-cocked, position to a ~ocked position and return, and a piston-biasing pawl, slidably mounted within a pawl-holder fixed to said barrel-holder, movable between a piston-engaging position, wherein said pawl protrudes through a longitudinal slot in said barrel and engages said piston during ~0 the opening of the tool while at least one boss, formed on said pawl, engages a first plane milled surface of said barrel, and a cocked position, wherein a second plane milled surface of said barrel, more remote from the barrel axis than said first surface engages said boss to retract said pawl, the improvement comprises: a transverse groove, formed in said barrel, connect-ing said first and second milled surfaces and adapted for en-gagement with said boss to retain said barrel in said closed, but non-cocked, position.
- 5a -R-llll ~097~ Z
DESCRIPTION OF ~HE DRAWI~GS
The invention will become more apparent from the following description of a preferred embodiment of the apparatus of the invention, with reference to the accom-panying drawings wherein:
FIGURE 1 is a fragmentary axial cross-sectional view of a tool arranged in accord with the invention, in closed position, after loading;
FIGURES 2 are enlarged fragmentary, cross-sectional views, showing the pawl of FIGURE 1 in its three barrel engaging positions;
FIGURE 3 is a transverse cross-sectional view of the tool of the invention, taken along line III-III of FIGURE 4 is a fragmentary view, partly in axial ~; cross-section of the tool of the invention, in cocked : position after an over-power firing;
FIGURE 5 is a fragmentary view, similar to that of FIGURE
: 4, after an over-power firing, when the tool i9 open;
FIGURE 6 is a transverse cross-sectional view of the pawl and the pawl-holder, along line VI-VI of FIGURE 4; and . ~
: FIGURES 7 show a series of axial cross-sectional views of the pawl in various orientations in the pawl-holder.
. R-llll ~)970(~2 DESCRIPTION OF THE PREFERRED EMBODIMENT
FIGURE 1 shows tool 1 according to the invention having its barrel 2 formed with a longitudinal slot 3 parallel to its axis. The barrel-holder 4 of apparatus 1 has fixed thereto a pawl-holder 5 within which is slidably mounted a pawl 6, and which is closed by a cap 40. Two plane milled surfaces 8 and 9 are provided on barrel 2, connected by a transverse groove 10. Pawl 6, whose operative end 11 is adapted for engaging head 70 of hammer piston 7 comprises two bosses 12, symmetrical in relation to the pawl axis, which are intended for engaging the milled surfaces 8, 9 and the transverse groove 10 of barrel 2 of tool 1. Tool 6 is returned to the piston engaging position by a spring 13 bearing against cap 40 and the bottom of a blind bore 41 formed inside pawl 6.
The operation of tool 1 is illustrat-ed in FIGURES 2.
FIGURE 2A shows pawl 6 in pawl-holder 5 in its upward position, wherein the piston 7 (not shown) is retained in its initial position, bosses 12 bearing on the milled surface 8 of barrel 2. This respective position of pawl 6 and piston 7 is achieved during the opening of tool 1 when the barrel 2 moves forward in relation to the barrel-holder ; 4. FIGURE 2B shows the position of the pawl when the tool is in its cocked position bearing on the material intended for receiving an anchoring member. While the tool muzzle is pressed against the material, which action brings forward the barrel-holder 4 in relation to barrel 2, bosses 12 are R-llll 9~(~02 disengaged from the milled surface 8 and are urged tQ engage the milled surface 9 more remote fxom the barrel axis 2 than the milled surface 8, the cooperation of the miLled surface g and the bosses 12 causing the retraction of the operative end 11 of pawl 6 so as not to protrude into the barrel bore.
FIGURE 2C shows the pawl, the tool being closed, bosses 12 of pawl 6 engaging the plane bottom of groove 10 which connects the two plane milled surfaces 8 and 9 through the inclined ramps 20 and 21. In this position of pawl 6, barrel 2 of tool 1 is resiliently locked. In order to now cock tool 1 by pressing it against the material intended for receiving the anchoring member, the force of the biasing spring 13 of pawl 6 must be counteracted in order to slide bosses 12 first along ramp 21, then outside groove 10, before bosses 12 engage, in the cocked position of tool 1, the milled surface 9, in which position pawl 6 is retracted.
It is also necessary to counteract the force of the same biasing spring 13 in order to slide bosses 12 of pawl 6 in reverse direction along ramp 20, then outside of groove 10 before the bosses cooperate, in the open position of tool 1, with the milled aurface 8 in the position shown in FIGURE 2A
in which the pawl can cooperate with piston 7. When, after firing, the tool is no longer pressed against the workpiece, the barrel-holder 4 slides rearwardly in relatlon to barrel 2, bosses of pawl 6 again protruding inside the transverse slot of barrel 2 which is therefore automatically relocked.
~97(~0Z
Pawl 6 is formed with two flat parts 30 and 31, s~metrical in relation to the pawl axis and orthogonal to bosses 12, which parts provide, between pawl 6 and the inner wall of pawl holder 5, both of which are cylindrical in the embodiment shown on the drawing, two ducts 32, 33 provided for orienting pawl 6 inside pawl-holder 5 and for evacuating the combustion wastes. Cap 40 is also formed with two passages 42, 43 corresponding to ducts 32, 33 through which the gases and combustion wastes may be evacuated.
The cylindrical general shape of pawl 6 and pawl-holder 5 shown in the drawing should not be considered as limitative for the invention. Other milled surfaces than flat parts, as for instance grooves or even bores, may also be considered for the evacuation of the gases through the pawl and pawl-holder, for instance parallelepipedal.
It is also within the spirit of the invention not to form the flat parts 30 and 31 along the whole length of pawl 6, and to provide only two blind recesses, provided only for orienting pawl 6 inside the pawl-holder 5 which i9 discussed herebelow, without therefore allowing the evacua-tion of the combustion wastes.
FIGURES 7 show the different orientations of pawl 6 in pawl-holder 5. In FIGURE 7A, pawl 6 is in a correct position and a pin 50 protruding inside the pawl-holder 5 to which it is fixed, can engage the flat part 31 of pawl 6.
Furthermore, the length of pawl 6 is such that cap 40 is completely screwed on the pawl-holder 5. Finally, a second pin 51 is seated in the blind core of pawl 6.
R-llll ~ 7~2 FIGURE 7B shows an orientation in which pawl 6 is inserted in the pawl holder after rotating 90 degrees in relation with its position as shown in FIGURE 7A. In this orientation, the upper end of one of bosses 12 comes into abutment against pin 50 and, taking into account the length of the pawl, it is not possible to screw cap 40 onto pawl-holder 5. FIGURE 7C shows an orientation in which pawl 6 is inserted backwards. In this event, pin 50 can ~till engage the flat part 32, but pin 51 comes into abutment against end 11 of pawl 6 which is not formed with a bore and it is still not possible, due to the pawl length, to screw cap 40 onto pawl-holder 5. FIGURE 7D shows an orientation in which pawl 6 is inserted in reverse direction to that of FIGURE 7B . Here, pin co, against which one of bosses 12 comes in abutment, as well as the pin 51,.which comes in abutment against end 11 of pawl 6, and the length of the latter, prevent cap 40 frorn being screwed onto pawl-holder 5. The securing of cap 40 onto pawl-holder 5 by screwing is of course non-limitative of the invention.
If~ therefore, pawl 6 is incorrectly inserted into pawl holder 5, it is impossible to install and maintain it in engagement with barrel 2 of tool 1, thus eliminating the possîbility of blo~king barrel 2 in its cocked position.
Head 70 of piston 7 is formed, at its rearward end, with a bevelled edge 60. After an over-power firing, as shown in FIGURE 4, head 70 has assumed a position preventing, when the tool is opened, the return of pawl 6 ~1')97~(?2 to its cooperation position with the forward part of head 70. This opening causes head 70 to pass ahead of pawl 6;
pawl 6, under the action of spring 13, is then biased to its idle posi ion in which the end 11 protrudes inside the barrel bore 2 as shown in FIGU~E 5. The forward end of piston 7 protruding outside of the apparatus, it is easy to push back the forward end of the piston. During the rearward movement of piston 7, and owing to bevelled edge 60, the rearward end of head 70 does not come into abutment against head 11 of pawl 6, but, on the contrary, causes retraction of pawl 6, against the action of spring 13, thereby allowing passage of head 70. The tool 1 of the invention is, therefore, arranged in order to be able, after an over-power firing, to recock pawl 6 without having to dismantle the tool. This arrangement also provides the possibility of assembling the tool without taking in account the relative position of the piston head and the pawl.
sACKGRouND
The present invention relates to a powder-actuated fastening tool with a hammer piston and, more particularly, to a pawl for returning the hammer piston in its ~firing position.
Powder-actuated fastening tools are known in the art wherein cocking i5 achieved by pressing the tool muzzle against the surface of the material intended for receiving the anchoring member, causing retraction of the pawl, the pawl resuming its idle position during the opening of the apparatus, in order to return the piston to its firing position.
The barrel of such an apparatus is formed with a longitudinal slot and two plane milled surfaces parallel to the barrel axis and connected through a ramp. The pawl of -such an apparatus is slidably mounted within a pawl holder fixed to the casing. The pawl is biased to its idle position by resilient means, and comprises bosses shaped for engaging the barxel milled surfaces. The operative end o~
the pawl projects into the slot and i9 9haped SO as to engage, in its idle posi~ion, the pis~on.
The pawl being in its idle position, that is in the position where the piston is in an upward position, its bosses engage the first milled surface closest to the barrel axis. When the apparatus is pressed against the material, the bosses slide, agaLnst the action of the re~ilient means, ; from the first mllled surface to the second milled surface, which is more remote from the barrel axis than the first, .. . . . . . .
,, : ~ . . , R-llll 10970(~
causLng the operative end of the pawl to retract so as not to project into the barrel.
For safety reasons, the cocking of such an apparatus is achieved by pressing it against the material intended for receiving the anchoring member. In order to facilitate the handling of the apparatus once a cartridge has been loaded, means may be provided which are arranged in such manner as to maintain the barrel in its closed but non-cocked position.
Generally, the closing is resilient, but it requires an extra part such as a clip.
SUMMARY OF T~E I~VE~TION
The primary object of the present invention is, therefore, to eliminate this extra part. To this end, the invention relates to a fastening tool having a hammer piston and a hammer piston return pawl slidably mounted in a pawl-holder fixed to the barrel-holder of the apparatus and movable between a piston engaging position, to which the pawl is returned by resilient means, wherein it projects through a longitudinal 910t of the barrel into tha bore of said barrel, and engages tha piston during the opening of the apparatus, at least one bo~s formed on the pawl engaging a first plane milled surface provided on the barrel, and an apparatus cocking position, in which a second plane milled surface, provided on the barrel and more remote from the barrel axis than the first surface, engages the boss for retracting the pawl, the two milled surfaces being connected by means of a R-llll ~)97~02 transverse groove which the boss in intended to engage ~or maintaining the barrel in its closed but non-cocked position.
By means of this invention, the return of the hammer piston during the opening of the fastener tool arranged and constructed according to the invention, and the maintaining of the barrel in its closed position before cocking the apparatus, are achieved without the help of an extra part.
When the apparatus is pressed against the material intended for receiving the anchoring member, the barrel-holder, and the pawl are brought forward, in relation to the barrel, against the action of its biasing means; the pawl is then urged outside the barrel bore for engaging the second milled surface. After firing, when the apparatus is no longer pressed against the material, the barrel-holder slides rearwardly in relation to the barrel, and the pawl is disengaged from the second milled surface and returns to seat within the transverse groove of the barrel which is thus resiliently re-locked, a voluntary opening of the apparatus being nonetheless possible.
20 ~ In a preferred embodiment o~ the apparatus according to the invention, the transverse groove is formed with a plane bottom connected to said milled surfaces through ramps inclined in reverse directions.
Conventional fastening tools suffer from the possibility of an eventual fault in the installation of the pawl in its pawl-holder, whereby the barrel may be blocked in its cocked position, thus overriding the safety device which prevents discharge of the tool unless the muzzle is pressed against the workpiece.
~3--R-llll lO9~00Z
A further object of the present invention is to eliminate such a disadvantage. To this end, the pawl and the pawl-holder are arranged so as to form at least one recess, orientation means, comprising at least one pin, being provided for cooperating with the recess and guiding the pawl in the pawl-holder.
If the pawl is incorrectly inserted into the pawl-holder, the pin cannot cooperate with the recess and the pawl is prevented from being introduced further into the pawl-holder in such manner that no action applied on the pawl may bring it into cooperation with the tool barrel.
To further ensure that the pawl is not installed ~ackwards, it is formed of a length such that the closure cap of the pawl-holder cannot be secured to the latter if the pawl is not completely and-therefore correctly put in position in the pawl-holder.
A further object of the present invention is to provide a pawl with a third function in relation with the evacuation of the combustion gases. In some conventional powder-a~tuated fastening tools, no particular means are provided for allowing such an evacuation, only a minute portion escaping through the barrel-holder, so that the combustion wastes accumulate in the forward portion of the barrel which very quickly becomes fouled.
In the case where the hereabove mentioned recess is formed in the fastening tool of the invention, said recess may extend in such manner as to from a passageway for the R-llll ~9~oz gases and combustion wastes. Such a passageway offers the advantage of allowing wastes which would otherwise accumulate on the pawl to be evacuated outside.
Finally, a last object of the invention relates to over-power firing. After such an over-power firing, the piston shank protrudes from ~he tool muzzle while the piston head may have passed down the barrel beyond the pawl. With- conventional fastening tools, it is in such a case, necessary to dismantle the tool in order to "re-cock"
the pawl, that is to position again the reaxward end of the piston behind the pawl. An object of the invention is, therefore, to remedy such a disadvantage. To this end, a ~astening tool is provided in which the rearward end of the piston head is formed with a bevelled edge in such manner that when the piston is urged back by pressing against its forward end, which protrudes outside of the apparatus, the piston may retract the pawl against the action of its biasing means until it resumes a position ahead of the operative part of the piston; this being accomplished without having to dismantle the tool.
~G~9700Z
In accordance with a particular of the invention there is provided a pGwder-actuated fastening tool of the type including a hammer piston, a barrel holder, a barrel movably carried within the barrel-holder for reciprocation, from an open position through a closed, but non-cocked, position to a ~ocked position and return, and a piston-biasing pawl, slidably mounted within a pawl-holder fixed to said barrel-holder, movable between a piston-engaging position, wherein said pawl protrudes through a longitudinal slot in said barrel and engages said piston during ~0 the opening of the tool while at least one boss, formed on said pawl, engages a first plane milled surface of said barrel, and a cocked position, wherein a second plane milled surface of said barrel, more remote from the barrel axis than said first surface engages said boss to retract said pawl, the improvement comprises: a transverse groove, formed in said barrel, connect-ing said first and second milled surfaces and adapted for en-gagement with said boss to retain said barrel in said closed, but non-cocked, position.
- 5a -R-llll ~097~ Z
DESCRIPTION OF ~HE DRAWI~GS
The invention will become more apparent from the following description of a preferred embodiment of the apparatus of the invention, with reference to the accom-panying drawings wherein:
FIGURE 1 is a fragmentary axial cross-sectional view of a tool arranged in accord with the invention, in closed position, after loading;
FIGURES 2 are enlarged fragmentary, cross-sectional views, showing the pawl of FIGURE 1 in its three barrel engaging positions;
FIGURE 3 is a transverse cross-sectional view of the tool of the invention, taken along line III-III of FIGURE 4 is a fragmentary view, partly in axial ~; cross-section of the tool of the invention, in cocked : position after an over-power firing;
FIGURE 5 is a fragmentary view, similar to that of FIGURE
: 4, after an over-power firing, when the tool i9 open;
FIGURE 6 is a transverse cross-sectional view of the pawl and the pawl-holder, along line VI-VI of FIGURE 4; and . ~
: FIGURES 7 show a series of axial cross-sectional views of the pawl in various orientations in the pawl-holder.
. R-llll ~)970(~2 DESCRIPTION OF THE PREFERRED EMBODIMENT
FIGURE 1 shows tool 1 according to the invention having its barrel 2 formed with a longitudinal slot 3 parallel to its axis. The barrel-holder 4 of apparatus 1 has fixed thereto a pawl-holder 5 within which is slidably mounted a pawl 6, and which is closed by a cap 40. Two plane milled surfaces 8 and 9 are provided on barrel 2, connected by a transverse groove 10. Pawl 6, whose operative end 11 is adapted for engaging head 70 of hammer piston 7 comprises two bosses 12, symmetrical in relation to the pawl axis, which are intended for engaging the milled surfaces 8, 9 and the transverse groove 10 of barrel 2 of tool 1. Tool 6 is returned to the piston engaging position by a spring 13 bearing against cap 40 and the bottom of a blind bore 41 formed inside pawl 6.
The operation of tool 1 is illustrat-ed in FIGURES 2.
FIGURE 2A shows pawl 6 in pawl-holder 5 in its upward position, wherein the piston 7 (not shown) is retained in its initial position, bosses 12 bearing on the milled surface 8 of barrel 2. This respective position of pawl 6 and piston 7 is achieved during the opening of tool 1 when the barrel 2 moves forward in relation to the barrel-holder ; 4. FIGURE 2B shows the position of the pawl when the tool is in its cocked position bearing on the material intended for receiving an anchoring member. While the tool muzzle is pressed against the material, which action brings forward the barrel-holder 4 in relation to barrel 2, bosses 12 are R-llll 9~(~02 disengaged from the milled surface 8 and are urged tQ engage the milled surface 9 more remote fxom the barrel axis 2 than the milled surface 8, the cooperation of the miLled surface g and the bosses 12 causing the retraction of the operative end 11 of pawl 6 so as not to protrude into the barrel bore.
FIGURE 2C shows the pawl, the tool being closed, bosses 12 of pawl 6 engaging the plane bottom of groove 10 which connects the two plane milled surfaces 8 and 9 through the inclined ramps 20 and 21. In this position of pawl 6, barrel 2 of tool 1 is resiliently locked. In order to now cock tool 1 by pressing it against the material intended for receiving the anchoring member, the force of the biasing spring 13 of pawl 6 must be counteracted in order to slide bosses 12 first along ramp 21, then outside groove 10, before bosses 12 engage, in the cocked position of tool 1, the milled surface 9, in which position pawl 6 is retracted.
It is also necessary to counteract the force of the same biasing spring 13 in order to slide bosses 12 of pawl 6 in reverse direction along ramp 20, then outside of groove 10 before the bosses cooperate, in the open position of tool 1, with the milled aurface 8 in the position shown in FIGURE 2A
in which the pawl can cooperate with piston 7. When, after firing, the tool is no longer pressed against the workpiece, the barrel-holder 4 slides rearwardly in relatlon to barrel 2, bosses of pawl 6 again protruding inside the transverse slot of barrel 2 which is therefore automatically relocked.
~97(~0Z
Pawl 6 is formed with two flat parts 30 and 31, s~metrical in relation to the pawl axis and orthogonal to bosses 12, which parts provide, between pawl 6 and the inner wall of pawl holder 5, both of which are cylindrical in the embodiment shown on the drawing, two ducts 32, 33 provided for orienting pawl 6 inside pawl-holder 5 and for evacuating the combustion wastes. Cap 40 is also formed with two passages 42, 43 corresponding to ducts 32, 33 through which the gases and combustion wastes may be evacuated.
The cylindrical general shape of pawl 6 and pawl-holder 5 shown in the drawing should not be considered as limitative for the invention. Other milled surfaces than flat parts, as for instance grooves or even bores, may also be considered for the evacuation of the gases through the pawl and pawl-holder, for instance parallelepipedal.
It is also within the spirit of the invention not to form the flat parts 30 and 31 along the whole length of pawl 6, and to provide only two blind recesses, provided only for orienting pawl 6 inside the pawl-holder 5 which i9 discussed herebelow, without therefore allowing the evacua-tion of the combustion wastes.
FIGURES 7 show the different orientations of pawl 6 in pawl-holder 5. In FIGURE 7A, pawl 6 is in a correct position and a pin 50 protruding inside the pawl-holder 5 to which it is fixed, can engage the flat part 31 of pawl 6.
Furthermore, the length of pawl 6 is such that cap 40 is completely screwed on the pawl-holder 5. Finally, a second pin 51 is seated in the blind core of pawl 6.
R-llll ~ 7~2 FIGURE 7B shows an orientation in which pawl 6 is inserted in the pawl holder after rotating 90 degrees in relation with its position as shown in FIGURE 7A. In this orientation, the upper end of one of bosses 12 comes into abutment against pin 50 and, taking into account the length of the pawl, it is not possible to screw cap 40 onto pawl-holder 5. FIGURE 7C shows an orientation in which pawl 6 is inserted backwards. In this event, pin 50 can ~till engage the flat part 32, but pin 51 comes into abutment against end 11 of pawl 6 which is not formed with a bore and it is still not possible, due to the pawl length, to screw cap 40 onto pawl-holder 5. FIGURE 7D shows an orientation in which pawl 6 is inserted in reverse direction to that of FIGURE 7B . Here, pin co, against which one of bosses 12 comes in abutment, as well as the pin 51,.which comes in abutment against end 11 of pawl 6, and the length of the latter, prevent cap 40 frorn being screwed onto pawl-holder 5. The securing of cap 40 onto pawl-holder 5 by screwing is of course non-limitative of the invention.
If~ therefore, pawl 6 is incorrectly inserted into pawl holder 5, it is impossible to install and maintain it in engagement with barrel 2 of tool 1, thus eliminating the possîbility of blo~king barrel 2 in its cocked position.
Head 70 of piston 7 is formed, at its rearward end, with a bevelled edge 60. After an over-power firing, as shown in FIGURE 4, head 70 has assumed a position preventing, when the tool is opened, the return of pawl 6 ~1')97~(?2 to its cooperation position with the forward part of head 70. This opening causes head 70 to pass ahead of pawl 6;
pawl 6, under the action of spring 13, is then biased to its idle posi ion in which the end 11 protrudes inside the barrel bore 2 as shown in FIGU~E 5. The forward end of piston 7 protruding outside of the apparatus, it is easy to push back the forward end of the piston. During the rearward movement of piston 7, and owing to bevelled edge 60, the rearward end of head 70 does not come into abutment against head 11 of pawl 6, but, on the contrary, causes retraction of pawl 6, against the action of spring 13, thereby allowing passage of head 70. The tool 1 of the invention is, therefore, arranged in order to be able, after an over-power firing, to recock pawl 6 without having to dismantle the tool. This arrangement also provides the possibility of assembling the tool without taking in account the relative position of the piston head and the pawl.
Claims (7)
1. A powder-actuated fastening tool of the type including a hammer piston, a barrel holder, a barrel movably carried within the barrel-holder for reciprocation, from an open position through a closed, but non-cocked, position to a cocked position and return, and a piston-biasing pawl, slidably mounted within a pawl-holder fixed to said barrel-holder, movable between a piston-engaging position, wherein said pawl protrudes through a longitudinal slot in said barrel and engages said piston during the open-ing of the tool while at least one boss, formed on said pawl, engages a first plane milled surface of said barrel, and a cocked position, wherein a second plane milled surface of said barrel, more remote from the barrel axis than said first surface engages said boss to retract said pawl; the improvement comprising: a transverse groove, formed in said barrel, connecting said first and second milled surfaces and adpated for engagement with said boss to retain said barrel in said closed, but non-cocked, position.
2. A fastening tool according to claim 1, wherein said transverse slot comprises a plane bottom and ramps connecting said bottom to said first and second milled surfaces, said ramps being inclined in reverse directions relative to each other.
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3. A fastening tool according to claim 1, further comprising orienting means, said pawl and said pawl-holder defining at least one recess, and said orienting means cooperating with said recess to insure proper orientation of said pawl within said pawl-holder.
4. A fastening tool according to claim 3, wherein said pawl-holder is formed with at least one through bore, said bore and said recess together comprising a duct communicating between the interior of said barrel-holder and the atmosphere whereby combustion gases and wastes may be exhausted from the tool.
5. A fastening tool according to claim 3, wherein said recess is defined by a milled surface on said pawl and the interior surface of said pawl-holder.
6 A fastening tool according to claim 3, wherein said pawl-holder includes a removable end cap, said orient-ing means comprises a pin fixedly attached to said end cap;
and said pawl includes an axially extending blind bore, said pin being insertable into said blind bore during assembly of said pawl and said pawl-holder, the lengths of said pawl, said pawl-holder and said pin and the depth of said blind bore being such as to prevent assembly of said parts if said pawl is inserted wrong-end first into said pawl-holder.
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and said pawl includes an axially extending blind bore, said pin being insertable into said blind bore during assembly of said pawl and said pawl-holder, the lengths of said pawl, said pawl-holder and said pin and the depth of said blind bore being such as to prevent assembly of said parts if said pawl is inserted wrong-end first into said pawl-holder.
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7. A fastening tool according to claim 1, wherein the rearward end of said piston is formed with a bevelled edge.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA322,521A CA1097002A (en) | 1979-02-27 | 1979-02-27 | Return pawl for powder actuated tool |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA322,521A CA1097002A (en) | 1979-02-27 | 1979-02-27 | Return pawl for powder actuated tool |
Publications (1)
Publication Number | Publication Date |
---|---|
CA1097002A true CA1097002A (en) | 1981-03-10 |
Family
ID=4113648
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA322,521A Expired CA1097002A (en) | 1979-02-27 | 1979-02-27 | Return pawl for powder actuated tool |
Country Status (1)
Country | Link |
---|---|
CA (1) | CA1097002A (en) |
-
1979
- 1979-02-27 CA CA322,521A patent/CA1097002A/en not_active Expired
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