Source: http://www.google.com/patents/US5593079?dq=%22melissa+white%22
Timestamp: 2015-05-23 15:22:50
Document Index: 73147910

Matched Legal Cases: ['art 25', 'art 25', 'art 25', 'art 25', 'art 25', 'art 25', 'art 25', 'art 25', 'art 25', 'art 26', 'art 25', 'art 26', 'art 25', 'art 25']

Patent US5593079 - Nailing machine - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inAdvanced Patent SearchPatentsA nailing machine includes a body, a driver extending downwardly from the body and vertically reciprocally movable for driving nails, and a driver guide for guiding the driver. A contact arm is movable between a lower first position and an upper second position and has a lower end for abutment on a work....http://www.google.com/patents/US5593079?utm_source=gb-gplus-sharePatent US5593079 - Nailing machineAdvanced Patent SearchPublication numberUS5593079 APublication typeGrantApplication numberUS 08/402,520Publication dateJan 14, 1997Filing dateMar 10, 1995Priority dateMar 11, 1994Fee statusPaidPublication number08402520, 402520, US 5593079 A, US 5593079A, US-A-5593079, US5593079 A, US5593079AInventorsKenji Mukoyama, Noriaki HayashiOriginal AssigneeMakita CorporationExport CitationBiBTeX, EndNote, RefManPatent Citations (8), Referenced by (41), Classifications (11), Legal Events (5) External Links: USPTO, USPTO Assignment, EspacenetNailing machine
US 5593079 AAbstract
A nailing machine includes a body, a driver extending downwardly from the body and vertically reciprocally movable for driving nails, and a driver guide for guiding the driver. A contact arm is movable between a lower first position and an upper second position and has a lower end for abutment on a work. A magazine is mounted on the body for feeding the nails into the driver guide. A trigger is operable by an operator for driving the driver. A trigger control device is interlocked between the trigger and the contact arm for permitting the driver to be driven by the operation of the trigger only when the contact arm is positioned in the upper second position. An idle driving prevention device is operable independently of the trigger control device for preventing the driver from being driven through operation of the trigger when the amount of the nails has been reduced to a predetermined amount.
1. A nailing machine comprising:a body; a driver extending downwardly from said body and vertically reciprocally movable for driving nails; a driver guide for guiding said driver; a contact arm capable of movement between a lower first position and an upper second position and having a lower end for abutment on a work; a magazine mounted on said body for feeding the nails into said driver guide; a trigger to be operated by an operator for driving said driver; trigger control means interlocked between said trigger and said contact arm for permitting said driver to be driven by the operation of said trigger when said contact arm is positioned in said upper second position; and idle driving prevention means adapted to prevent said driver from being driven while said trigger is operated when the amount of the nails has been reduced to a predetermined amount, said idle driving prevention means being operating independently of the operation of said trigger control means caused by the movement of said contact arm. 2. The nailing machine as defined in claim 1 wherein:said trigger is movable between an ON position and an OFF position for driving and stopping said driver, respectively; said trigger control means permits said driver to be driven through movement of said trigger from said OFF position to said ON position only when said contact arm is positioned in said second position; and said idle driving prevention means is operable to prevent said trigger from moving from said OFF position to said ON position when the amount of the nails within said magazine has been reduced to said predetermined amount. 3. The nailing machine as defined in claim 2 wherein:said idle driving prevention means includes a movable member and an engaging member; said movable member is operably connected to said trigger; said engaging member is mounted on said magazine and is movable in response to the amount of the nails stored in said magazine; and said engaging member is operable to engage said movable member so as to prevent said trigger from movement from said OFF position to said ON position when the amount of the nails within said magazine has been reduced to said predetermined amount. 4. The nailing machine as defined in claim 3 further including a trigger lock means operable by the operator to fix said movable member in position for preventing said trigger from movement from said OFF position to said ON position.
5. The nailing machine as defined in claim 3 wherein:said movable member of said idle driving prevention means includes a link and a stopper bar connected to said link; said link is vertically movably supported by said body; said stopper bar has a part for abutment on said trigger and is normally biased in a direction for abutment on said trigger; said trigger control means includes a stopper vertically movably supported by said body within a predetermined range corresponding to the distance between said first position and said second position of said contact arm; said contact arm is connected to said stopper; and said body includes a support portion for supporting said link and said stopper such that said link and said stopper are vertically movable relative to said support portion independently of each other. 6. The nailing machine as defined in claim 1 further including driving depth adjusting means for adjusting the driving depth of the nails, said driving depth adjusting means being operable to vary said second position of said contact arm independently of said trigger control means.
7. The nailing machine as defined in claim 6 further including a second trigger lock means operable to fix said contact arm to said second position for permitting said driver to be driven when said trigger is moved from said OFF position to said ON position, and wherein said driving depth adjusting means is operable independently of said second trigger lock means.
8. The nailing machine as defined in claim 7 wherein:said trigger control means includes a stopper vertically movably supported by said body within a predetermined range corresponding to the distance between said first position and said second position of said contact arm; said contact arm is connected to said stopper; and said second trigger lock means is operable to fix the position of said stopper relative to said body. 9. A nailing machine comprising:a body; a driver extending downwardly from said body and vertically reciprocally movable for driving nails; a driver guide for guiding said driver; a contact arm movable between a lower first position and an upper second position and having a lower end for abutment on a work; a magazine mounted on said body for feeding the nails into said driver guide; a trigger operable by an operator for driving said driver; trigger control means interlocked between said trigger and said contact arm for permitting said driver to be driven by the operation of said trigger when said contact arm is positioned in said upper second position; and idle driving prevention means adapted to prevent said driver from being driven through operation of said trigger when the amount of the nails has been reduced to a predetermined amount, said idle driving prevention means being operable independently of the operation of said trigger control means caused by the movement of said contact arm; said trigger being movable between an ON position and an OFF position for driving and stopping said driver, respectively; said idle driving prevention means including a movable member and an engaging member; said movable member being operably connected to said trigger; said engaging member being mounted on said magazine and being movable in response to the amount of the nails stored in said magazine; said engaging member being operable to engage said movable member so as to prevent said trigger from movement from said OFF position to said ON position when the amount of the nails within said magazine has been reduced to said predetermined amount; said movable member of said idle driving prevention means including a link and a stopper bar connected to said link; said link being vertically movably supported by said body; said stopper bar being interlocked with said trigger; said trigger control means including a stopper vertically movably supported by said body within a predetermined range corresponding to the distance between said first position and said second position of said contact arm; said contact arm being connected to said stopper; and said body including a support portion for supporting said link and said stopper such that said link and said stopper are vertically movable relative to said support portion independently of each other. 10. A nailing machine comprising:a body; a driver extending downwardly from said body and vertically reciprocally movable for driving nails; a driver guide for guiding said driver; a contact arm movable between a lower first position and an upper second position and having a lower end for abutment on a work; a magazine mounted on said body for feeding the nails into said driver guide; a trigger operable by an operator for driving said driver; trigger control means interlocked between said trigger and said contact arm for permitting said driver to be driven by the operation of said trigger when said contact arm is positioned in said upper second position; idle driving prevention means adapted to prevent said driver from being driven through operation of said trigger when the amount of the nails has been reduced to a predetermined amount, said idle driving prevention means being operable independently of the operation of said trigger control means caused by the movement of said contact arm; driving depth adjusting means for adjusting the driving depth of the nails, said driving depth adjusting means being operable to vary said second position of said contact arm independently of said trigger control means; and trigger lock means operable to fix said contact arm to said second position for permitting said driver to be driven when said trigger is moved from said OFF position to said ON position, said driving depth adjusting means being operable independently of said trigger lock means; said trigger control means including a stopper vertically movably supported by said body within a predetermined range corresponding to the distance between said first position and said second position of said contact arm; said contact arm being connected to said stopper; and said trigger lock means being operable to fix the position of said stopper relative to said body. 11. The nailing machine as defined in claim 10 wherein said driving depth adjusting means is interposed between said stopper and said contact arm for adjusting the position of said contact arm relative to said stopper.
The present invention relates to a nailing machine, and particularly to a nailing machine having an idle driving prevention device.
Japanese Utility Model Publication No. 2-28007 discloses a nailing machine having an idle driving prevention device which serves to prevent damage to a damper of the nailing machine or to prevent damage to a work. The nailing machine of this publication includes a driver guide and a contact arm which is vertically movably mounted on the driver guide. The contact arm is interlocked with a trigger in such a manner that the operation of the trigger is not effectuated unless the contact arm is moved to an upper position through abutment on the work. The idle driving prevention device is provided between the contact arm and a pusher of a magazine. The pusher is operable to feed nails stored within the magazine one after another into a nail guide channel formed in the driver guide. When no nails exist in the magazine or when only a few nails remain within the magazine, the idle driving prevention device mechanically stops the vertical movement of the contact arm, so that the trigger cannot be operated to drive the nails.
However, with this conventional nailing machine, the idle driving prevention device cannot function effectively when an operator performs an operation called "dragging nail driving operation" or "continuous nail driving operation" where the operator repeatedly pulls the trigger with the contact arm held in abutment on the work. Thus, since the contact arm is held in the upper position, the operation of the trigger is kept effective even if the nails within the magazine have been driven out.
A similar problem may be caused with a nailing machine which has been proposed recently and which has a lock mechanism for fixing a contact arm in its upper position for the convenience of "dragging nail driving operation".
It is, accordingly, an object of the present invention to provide a nailing machine having an idle driving prevention device which is effectively operated when a driving operation is repeatedly performed with a contact arm kept in its upper position for continuously driving nails.
It is another object of the present invention to provide a nailing machine which is excellent in operability.
It is a further object of the present invention to provide a nailing machine which is excellent in safety.
a driver extending downwardly from the body and vertically reciprocally movable for driving nails;
a driver guide for guiding the driver;
a contact arm movable between a lower first position and an upper second position and having a lower end for abutment on a work;
a magazine mounted on the body for feeding the nails into the driver guide;
a trigger operable by an operator for driving the driver;
a trigger control device interlocked between the trigger and the contact arm for permitting the driver to be driven by the operation of the trigger only when the contact arm is positioned in the second position; and
an idle driving prevention device operable independently of the trigger control device for preventing the driver from being driven through operation of the trigger when the amount of the nails has been reduced to a predetermined amount.
FIG. 1 is a left side view of a nailing machine according to an embodiment of the present invention;
FIG. 2 is right side view of a front portion of the nailing machine;
FIG. 3 is a front view of the front portion of the nailing machine;
FIG. 4 is a view similar to FIG. 3, with a driver guide removed;
FIG. 5(a) is a sectional view taken along line Va--Va in FIG. 4;
FIG. 5(b) is a sectional view taken along line Vb--Vb in FIG. 4;
FIG. 5(c) is a sectional view taken along line Vc--Vc in FIG. 4;
FIG. 5(d) is a sectional view taken along line Vd--Vd in FIG. 4;
FIG. 6 is a left side view, with a part broken away, of the front portion of the nailing machine where the nailing machine is set to drive nails at greatest driving depth;
FIG. 7 is a view similar to FIG. 6 but showing the nailing machine set to drive the nails at shortest driving depth;
FIG. 9(a) is a sectional view taken along line IXa--IXa in FIG. 8;
FIG. 9(b) is a sectional view taken along line IXb--IXb in FIG. 9(a);
FIG. 10 is a view showing the essential parts of a driving depth adjusting device of the nailing machine with a protrusion of a stopper being in engagement with cam recesses having different heights;
FIG. 11 is a view similar to FIGS. 6 and 7 but showing the essential parts of an idle driving prevention device of the nailing machine;
FIG. 12 is a left side view of a trigger lock device of the nailing machine;
FIG. 13(a) is a sectional view taken along line XIIIa--XIIIa in FIG. 12; and
FIG. 13(b) is a sectional view taken along line XIIIb--XIIIb in FIG. 12.
Referring to FIG. 1, there is shown the whole construction of a nailing machine 1. The nailing machine 1 generally comprises a substantially cylindrical body 2, a driver guide 10, a handle 4 and a magazine 5. A piston 3 is disposed within the body 2 and is reciprocally driven by compressed air. The driver guide 10 is mounted on a lower end of the body 2 and extends downwardly therefrom. The handle 4 is mounted on a rear side of the body 2 and extends substantially perpendicular to the body 2. The magazine 5 is positioned in parallel to the handle 4 and has a front end connected to a guide recess 6a formed in the driver guide 10. The magazine 5 stores nails therein which are connected in series with each other. The magazine 5 is operable to supply the nails into the guide recess 6a one after another.
A trigger 6 is mounted on the handle 4 at a position adjacent the body 2 and is operable by an operator to open and close a trigger valve 8. The trigger 6 is normally held in an OFF position for closing the trigger valve 8 and is moved to an ON position for opening the trigger valve 8 when the operator pulls the trigger 6. When the trigger valve 8 is opened, the compressed air supplied from a compressed air source (not shown) enters the body 2 through a head valve (not shown) disposed within an upper portion of the body 2, so that the piston 3 is moved by the compressed air. Then, a driver 7 connected to the piston 3 is moved downwardly under the guide of the guide recess 10a, so that the nails supplied into the guide recess 10a are driven out from the lower end of the driver guide 10 one after another (through a nail driving passage 12 which will be explained later). The handle 4 includes therein an air chamber (not shown) which is connected to the compressed air source by means of a hose (not shown) which in turn is connected to a rear end of the handle 4. Thus, when the trigger valve 8 is opened, the head valve is opened to permit the compressed air to enter the body 2.
The driver guide 10 has a substantially flat plate-like configuration and is fixed in face-to-face relationship with a contact arm 11 having a configuration similar to the driver guide 10, so that the driver guide 10 is movable together with the contact arm 11. Further, a substantially flat set plate 13 is positioned in contact relationship with the rear surface of the contact arm 11. The front end of the magazine 5 is fixed to the rear surface of the set plate 13. The set plate 13 has an upper end fixed to mounting bases 2b formed on the body 2 by means of bolts 14, so that the set plate 13 extends downwardly from the body 2. The mounting bases 2b are formed integrally with the lower end of the body 2 and protrude downwardly therefrom.
As shown in FIGS. 4 and FIGS. 5(a) to 5(d), a block-like support protrusion 13a is formed integrally with the set plate 13 on the front side thereof. The support protrusion 13a has a longitudinal axis in a longitudinal direction of the set plate 13. A nail insertion hole 13b having an elongated configuration in the vertical direction is formed in the support protrusion 13a and extends throughout the thickness of the set plate 13, so that the interior of the magazine 5 for storing the nails is in communication with the front side of the set plate 13 through the insertion hole 13b. As best shown in FIG. 4, a plurality of recesses are formed on both lateral sides of the insertion hole 13b so as to receive heads of the nails having different lengths and to receive a plurality of nail guide rods 18 which are mounted on the magazine 5 at different heights. Two pairs of support tabs 13c are formed on an upper end and a lower end of the support protrusion 13a, respectively, and extend laterally outwardly from the protrusion 13b on both lateral sides, so that a gap is formed between each of the support tabs 13c and the front surface of the set plate 13. A hole 11a is formed in the contact arm 11 and extends along the central axis of the contact arm 11. The hole 11a has an open upper end and a closed lower end. Two pairs of thin plate portions 11b are formed integrally with the contact arm 11 and are positioned on an upper end and a lower end of the hole 11a, respectively. Each pair of the thin plate portions 11b are positioned on both lateral sides of the hole 11a and protrude inwardly therefrom, respectively. The contact arm 11 is positioned in face-to-face relationship with the set plate 13 such that the hole 11a receives the support protrusion 13a and that the plate portions 11b are positioned within their corresponding gaps formed between the set plate 13 and support tabs 13c of the support protrusion 13a, so that the contact arm 11 is movable vertically relative to the set plate 13 by a predetermined distance. The driver guide 10 is positioned in face-to-face relationship with the front surface of the contact arm 11 and is fixed to the contact arm 11 by means of bolts 15 in such a manner that the lower end of the driver guide 10 is positioned at the same height as the lower end of the contact arm 11.
As shown in FIG. 5(a), a guide recess 10a is formed on the rear surface of the driver guide 10 which confronts the contact arm 11. The guide recess 10a extends throughout the length of the driver guide 10 in the longitudinal direction thereof. As shown in FIG. 5(b), the nail insertion hole 13b of the support protrusion 13a is in communication with the guide recess 10a. Thus, the guide recess 10a is in communication with the interior of the magazine 5 through the nail insertion hole 13b. A part of the guide recess 10a positioned downwardly of the nail insertion hole 13b confronts a flat lower portion 11c (see FIG. 4) of the contact arm 11 so as to form the nail driving passage 12 for guiding the nails when the nails are driven into the work. Thus, the nail driving passage 12 is formed between the driver guide 10 and the contact arm 11 which are fixed together such that their lower ends are positioned at the same height with each other. Further, the driver guide 10 as well as the contact arm 11 is movable vertically relative to the set plate 13 under the guide of the set plate 13. Therefore, even if the upper stroke end of the driver guide 10 has been varied for adjustment of the driving depth of the nails, the lower ends of the driver guide 10 and the contact arm 11 are held at the same height with each other, so that the nail driving passage 12 is held to extend to the lower end of the driver guide 10.
As shown in FIG. 4, a pusher plate 17 is disposed within the magazine 5 and serves to push the nails stored in series within the magazine 5 toward the guide recess 10a by a predetermined pitch corresponding to a distance between two adjacent nails, so that the nails are fed into the guide recess 10a one after another as the driver 7 is driven to be moved downwardly. The nail guide rods 18 are mounted on a cover of the magazine 5 and are positioned at different heights in response to various nails having different lengths. The whole magazine 5 including the pusher plate 17 and the nail guides 18, etc. is shown in FIG. 1.
As shown in FIGS. 2, 4 and 5(b), a connecting arm 16 is fixed to the upper portion of the contact arm 11, so that the connecting arm 16 is movable vertically together with the contact arm 11. As shown in FIG. 2, the lower portion of the connecting arm 16 has an L-shaped configuration so as to detour one of the mounting bases 2b at its lower position. The upper portion of the connecting arm 16 is connected to a stopper 24 of a trigger control device 20. In response to the vertical movement of the stopper 24, the trigger control device 20 is operable to prevent and permit the trigger valve 8 to be opened when the trigger 6 is turned on. More specifically, the trigger valve 8 may not be opened to move the piston 3 for driving the nails unless the contact arm 11 is pressed on the work so as to be moved upwardly. The construction of the trigger control device 20 will be explained later.
As shown in FIGS. 6 to 8, a pair of parallel support wall portions 2c are formed on the rear side of the body 2 at a position adjacent the lower end of the body 2. The support wall portions 2c extend outwardly from the body 2 so as to receive the front portion of the trigger 6 therebetween. The front portion of the trigger 6 is vertically pivotally mounted on the support walls 2c by means of a support pin 21 as shown in FIG. 6. An idler plate 23 is vertically pivotally mounted on the trigger 6 by means of a support pin 22 and confronts the trigger valve 8. With the stopper 24 positioned at its upper stroke end shown in FIG. 6, the trigger valve 8 is opened by the idler plate 23 through the pulling operation of the trigger 6. When the operator releases the trigger 6, the trigger 6 and the idler 23 is pivoted to return to their original positions by the biasing force of the trigger valve 8.
As shown in FIG. 8, between the support wall portions 2c, the stopper 24 and a link 40 are positioned in juxtaposed relationship with each other. The link 40 is bent to have a substantially U-shaped configuration in section. More specifically, an arm lock pin 25, a trigger lock pin 26 and a support pin 27 extend across the support wall portions 2c. The pins 25, 26 and 27 are positioned in parallel to and in spaced relationship by a predetermined distance from each other. The stopper 24 is supported by all the pins 25, 26 and 27 (see FIG. 6), while the link 40 is supported by the trigger lock pin 26 and the support pin 27 (see FIG. 12). Each of the pins 25 and 26 is pivotable around its own axis relative to the support wall portions 2c and is movable ill the vertical direction relative thereto. The support pin 27 is a spring-biased pin and is fixed in position relative to the support wall portions 2c.
The stopper 24 has insertion holes 28, 29 and 30 for insertion of the pins 25, 26 and 27, respectively. The link 40 has insertion holes 41 and 42 for insertion of the trigger lock pin 26 and the support pin 27, respectively. Thus, the arm lock pin 25 is inserted into the insertion hole 28 of the stopper 24, the trigger lock pin 26 is inserted into the insertion hole 29 of the stopper 24 and the insertion hole 41 of the link 40, and the support pin 27 is inserted into the insertion hole 30 of the stopper 24 and the insertion hole 42 of the link 40. Each of the insertion holes 28, 29 and 30 formed in the stopper 24 and the insertion holes 41 and 42 formed in the link 40 has an elongated configuration in the vertical direction, so that the stopper 24 and the link 40 are vertically movable independently of each other by a predetermined distance. Here, the insertion holes 29, 30 and 42 have simple elongated configurations. On the other hand, the insertion holes 28 and 41 have unique configurations as will be explained later.
As shown in FIGS. 6 and 7, a compression coil spring 31 is interposed between the stopper 24 and a wall portion 2d formed on a part of the body 2 between the support wall portions 2c, so that the stopper 24 is normally biased in the downward direction. Further, as shown in FIG. 12, a compression coil spring 43 is interposed between the link 40 and a wall portion 2f formed on the body 2 at a position different from the wall portion 2d, so that the link 40 is also normally biased in the downward direction. The link 40 constitutes a part of a trigger lock device 44 which will be explained later.
The connecting arm 16 fixed to the contact arm 11 is connected to the stopper 24 which is vertically movably supported as described above, via a driving depth adjusting device 36. Thus, when the contact arm 11 is moved upwardly, the stopper 24 is moved upwardly against the biasing force of the compression coil spring 31. When the contact arm 11 has been released, the stopper 24 as well as the contact arm 11 is moved downwardly by the biasing force of the coil spring 31. In other words, the contact arm 11 is moved upwardly against the biasing force of the compression coil spring 31 and is moved downwardly by the biasing force of the same.
When the stopper 24 as well as the contact arm 11 is moved upwardly to its upper stroke end shown in FIG. 6, the idler 23 is pivoted upwardly to reach a position adjacent the trigger valve 8. At this stage, when the trigger 6 is pulled, the trigger valve 8 is opened by the idler 23, so that the operation of the trigger 6 is effectively performed. On the other hand, when the trigger 6 is pulled with the stopper 24 held in its lowermost position as shown in FIG. 11 (where the contact arm 11 is not pressed on the work), the forward end of the idler 23 is moved rearwardly away from the upper surface of the stopper 24 as the support pin 22 is moved upwardly. Thus, the idler 23 is moved away from the trigger valve 8, and therefore, in this case, the trigger valve 8 is not opened even if the trigger 6 has been pulled. This means that the pulling operation of the trigger 6 is canceled. The pulling operation of the trigger 6 to open the trigger valve 8 is therefore effective only when the contact arm 11 is moved upwardly to its upper stroke end. This is the essential function of the trigger control device 20.
As best shown in FIG. 8, a part 25a of the arm lock pin 25 which is positioned within the insertion hole 28 does not have a cylindrical configuration but has a flat plate-like configuration. On the other hand, as shown in FIG. 6, the insertion hole 28 has an elongated portion 28a and a circular portion 28b formed in series with the lower end of the elongated portion 28a. The circular portion 28b has a diameter slightly greater than the diameter of the arm lock pin 25. The elongated portion 28a has a width smaller than the diameter of the arm lock pin 25 but slightly greater than the width of the flat plate-like part 25a. Therefore, with the flat plate-like part 25a positioned within the circular portion 28b or with the stopper 24 positioned at its upper stroke end, when the arm lock pin 25 is rotated to a lock position where the flat plate-like part 25a is in a horizontal position or is positioned perpendicular to the elongated portion 28a as shown in FIG. 6, the flat plate-like part 25a cannot be moved to enter the elongated portion 28a. Thus, the stopper 14 is locked at the upper stroke end and is prevented from moving downwardly. When the arm lock pin 25 is rotated from the lock position by an angle of 90�, the flat plate-like part 25a is positioned vertically in alignment with the elongated portion 28a, so that the flat plate-like part 25a is permitted to enter the elongated portion 28a. Then, the stopper 31 is moved downwardly by the biasing force of the compression coil spring 31.
Further, as shown in FIG. 8, the arm lock pin 25 has a left side end which extends outwardly from the left side support wall portion 2c and which has a stopper ring 25d fixed thereto. A compression coil spring 32 is interposed between the stopper ring 25d and the left side support wall portion 2c, so that the arm lock pin 25 is normally biased in the leftward direction. On the other hand, a knob 25b is mounted on the right side end of the arm lock pin 25 which extends outwardly from the right side support wall portion 2c. The knob 25b has a left side surface on which a pair of engaging protrusions 25c are formed in opposed relationship with each other or in spaced relationship with each other by an angle of 180�. Each of the engaging protrusions 25c has a substantially triangular configuration having an apex directed leftwardly. Four engaging recesses 2e for engagement with the engaging protrusions 25c are formed on the right side surface of the right side support wall portion 2c and are spaced from each other by an angle of 90�. Each of the engaging recesses 2e has a substantially V-shaped configuration in section. With this construction, since the arm lock pin 25 is biased in the leftward direction in FIG. 8 or the direction for engagement of the engaging protrusions 25c with the engaging recesses 2e, the arm lock pin 25 is held in position upon rotation by each angle of 90� through engagement between the engaging protrusions 25c and their corresponding two engaging recesses 2e opposed to each other. Therefore, the flat plate-like part 25a can be reliably held in any of the vertical and horizontal positions.
Here, when the flat plate-like part 25a is held in the horizontal position to fix the stopper 24 at its upper stroke end, the trigger 6 is effectively operated to open the trigger valve 8 without moving the contact arm 11 upwardly through pressing on the work. Thus, such a locking operation of the stopper 24 at its upper stroke end serves to release the trigger control device 20. This may permit to efficiently and readily perform an operation called "dragging nail driving operation" or "continuous nail driving operation" often performed at a working place, so that the operability of the nailing machine 1 is greatly improved.
The driving depth adjusting device 36 will now be explained. As shown in FIG. 6, a headed pin 33 is vertically slidably inserted into the stopper 24 and is normally biased upwardly by a compression spring 34 interposed between a head of the pin 33 and the stopper 24. The lower portion of the pin 33 extends downwardly from the lower end of stopper 24. A disc-like adjustor 35 is rotatably mounted on the pin 33 at a position adjacent the lower end of the pin 33. The adjustor 35 is fixed in position relative to the pin 33 in an axial direction of the pin 33. As shown in FIG. 10 in developed form, a cylindrical cam 35a is formed integrally with an upper surface of the adjustor 35. The cylindrical cam 35a has an upper end on which a plurality of V-shaped cam recesses 35b are formed in the circumferential direction in spaced relationship with each other by a predetermined distance. The heights of the cam recesses 35b from the upper surface of the adjustor 35 are varied gradually in the circumferential direction. On the other hand, a protrusion 24a having a substantially triangular lower end is formed on the lower surface of the stopper 24 for engagement with the cam 35a. With this construction, as the adjustor 35 is rotated, the protrusion 24a in turn engage the higher or lower cam recess 35b, so that the vertical position of the headed pin 33 as well as the vertical position of the adjustor 24 relative to the stopper 24 is gradually changed.
As the vertical position of the headed pin 33 relative to the stopper 24 is thus varied, the vertical position of the connecting arm 16 connected to the headed pin 33 is varied relative to the stopper 24, so that the position of stroke movement of the driver guide 10 fixed to the contact arm 11 is varied. More specifically, as shown in FIG. 7, when the adjustor 35 is rotated to a position where the protrusion 24a engages the highest cam recess 35b (as indicated by solid lines in FIG. 10), the headed pin 33 is moved downwardly relative to the stopper 24, so that the position of the stroke movement of the driver guide 10 is moved downwardly and so that the upper stroke end of the driver guide 10 is moved downwardly. Since the stroke of the driver 7 is invariable, the stroke of the nails driven by the driver 7 becomes shorter, and consequently, the driving depth of the nails becomes shorter. In contrast, when the protrusion 24a is moved to engage the lower cam recess 35b, the headed pin 33 is moved upwardly relative to the stopper 24, so that the position of the stroke movement of the driver guide 10 is moved upwardly and so that the upper stroke end of the driver guide 10 is moved upwardly. The driving depth becomes greater as the upper stroke end is moved upwardly. Thus, the driving depth is greatest when the protrusion 24b is in engagement with the lowermost cam recess 35 as shown by chain lines in FIG. 10. The range of adjustment of the driving depth therefore coincides with the difference of height between the highest cam recess 35b and the lowest cam recess 35b. Consequently, the driving depth of the nails can be adjusted by rotating the adjustor 35 to vary the upper stroke end of the driver guide 10.
The construction of the trigger lock device 44 will now be explained. The trigger lock device 44 serves to directly lock the trigger 6 not to be pulled by the operator, so that an accidental driving of nails can be prevented when the nails are not to be driven. As described above, the link 40 constitutes the element of the trigger lock device 44 and includes the insertion holes 41 and 42 for insertion of the trigger lock pin 26 and the support pin 27. Further, the link 40 is vertically movably supported between the support wall portions 2c and is biased by the compression coil spring 43 in the downward direction.
As shown in FIG. 12, the insertion hole 42 for insertion of the support pin 42 has an elongated configuration similar to the insertion hole 30 of the stopper 24. On the other hand, the insertion hole 41 for insertion of the trigger lock pin 26 has an elongated portion 41a and a circular portion 41b similar to the insertion hole 28 of the stopper 24. However, in contrast to the insertion hole 28, the circular portion 41b is positioned at the upper end of the elongated portion 41a. Further, the link 40 has an upper end which extends horizontally toward the trigger 6 and which includes an engaging tab 40a positioned on the back side of the trigger 6. The engaging tab 40a is normally pressed on the back surface of the trigger 6 by the biasing force of the compression coil spring 43, so that the trigger 6 cannot be pulled or cannot be moved from the OFF position to the ON position unless the engaging tab 40a is permitted to be moved upwardly or is not fixed in position as will be explained later. In addition to the returning force of the trigger valve 8, the biasing force of the compression spring 43 applied to the trigger 6 via the engaging tab 40a also serves to return the trigger 6 to the OFF position.
As shown in FIG. 8, a part 26a of the trigger lock pin 26 inserted into the insertion hole 41 has a flat plate-like configuration similar to the part 25a of the arm lock pin 25. The trigger lock pin 26 has a left side end which extends outwardly from the left side support wall portion 2c and which has a stopper ring 26d fixed thereto. A compression coil spring 45 is interposed between the stopper ring 36d and the left side support wall portion 2c so as to normally bias the trigger lock pin 26 in the leftward direction. The trigger lock pin 26 has a right side end which extends outwardly from the right side support wall portion 2c and which has a knob 26b mounted thereon. The knob 26b has a left side surface on which a pair of engaging protrusions 26c are formed in opposed relationship with each other or in spaced relationship with each other by an angle of 180�. Each of the engaging protrusions 26c has a substantially triangular configuration having an apex directed leftwardly. Four engaging recesses 2g for engagement of the engaging protrusions 26c are formed on the right side surface of the right side support wall portion 2c and are spaced from each other by an angle of 90�. Each of the engaging recesses 2g has a substantially V-shaped configuration in section. With this construction, when the trigger lock pin 26 is rotated with the knob 26b grasped by the operator, the trigger lock pin 26 is held in position upon rotation by each angle of 90� through engagement between the engaging protrusions 26c and their corresponding two engaging recesses 2g opposed to each other. Therefore, the flat plate-like part 26a can be reliably held in any of the vertical and horizontal positions. When the flat plate-like part 25a is held in the horizontal position, the link 40 cannot be moved upwardly, so that the trigger 6 cannot be pulled to open the trigger valve 8 or the trigger 6 is locked not to be pulled. When the knob 26b is rotated by an angle of 90� to move the flat plate-part 25a to the vertical direction, the link 40 can be moved vertically against the biasing force of the compression spring 43, so that the trigger 6 can be switched from the OFF position to the ON position. Thus, the trigger lock is released.
With the nailing machine 1 of this embodiment, an idle driving prevention device 50 is interlocked with the trigger lock device 44. As shown in FIG. 12, a stopper bar 51 is fixed to the lower end of the link 40 and extends downwardly therefrom. The stopper bar 51 has a lower portion which is inserted into the magazine 5 as shown in FIG. 11. A forward and a rearward cut-out recess 51a and 51b are formed on the lower portion of the stopper bar 51. The forward and the rearward cut-out recesses 51a and 51b are formed on the left side of the stopper bar 51 but have different configurations from each other. As shown in FIG. 13(a), the forward cut-out recess 51a has a substantially semicircular configuration in section and extends by a predetermined distance in an axial direction of the stopper bar 51, so that the forward cut-out recess 51a is spaced from the lower end of the stopper bar 51. As shown in FIG. 13(b), the rearward cut-out recess 51b has a substantially quadrant configuration in section and is formed in series with the forward cut-out recess 51a. The rearward cut-out recess 51b extends downwardly to reach the lower end of the stopper bar 51.
On the other hand, as shown in FIG. 11, the pusher plate 17 disposed within the magazine 5 is biased by a compression spring 52 in the forward direction for pressing the nails stored in the magazine 5 toward the guide recess 10a of the driver guide 10. Thus, the pusher plate 17 is gradually moved forwardly as the number of the nails within the magazine 5 is reduced through driving operation of the nails one after another. When the number of the nails remaining within the magazine 5 is reduced to one, an engaging plate 17a mounted on the rear end of the pusher plate 17 is brought to enter the rearward cut-out recess 51b. Since the rearward cut-out recess 51b extends to the lower end of the stopper bar 51, the engaging plate 17a does not serve to prevent the stopper bar 51 from moving upwardly. Thus, at this stage, the trigger 6 can be pivoted from the OFF position to the ON position. When the last nail has been driven into the work, with a result that no nail exists within the guide recess 10a of the driver guide 10, the pusher plate 17 is further moved forwardly, so that the engaging plate 17a enters the forward cut-out recess 51a. As described above, the forward cut-out recess 51a extends in the axial direction of the stopper bar 51 not to reach the lower end of the stopper bar 51. Therefore, when the engaging plate 17a enters the forward cut-out recess 51a, the upward movement of the stopper bar 51 is prevented by the engaging plate 17a through abutment of the engaging plate 17a on an lower wall 51c of the forward cut-out recess 51a. Consequently, the link 40 is prevented from moving upwardly, and therefore, the trigger 6 is locked not to be pivoted from the OFF position to the ON position irrespective of non-operation of the trigger lock device 44. The idle driving of the driver 7 is thus prevented when no nails exist in the magazine 6.
The operation and effect of the nailing machine 1 of this embodiment will now be explained.
The trigger control device 20 permits the nails to be driven out from the driver guide 10 through the pulling operation of the trigger 6 only when the contact arm 11 is moved to the upper stroke end through abutment on the work. The nails may not be driven irrespective of the operation of the trigger 6 when the contact arm 11 is at its lower stroke end. Thus, as the contact arm is moved to its upper stroke end, the stopper 24 is moved upwardly by the driving depth adjusting device 36, so that the idler 23 is moved to a position adjacent the trigger valve 8. When the trigger 6 is pulled at this stage, the trigger valve 8 is opened, so that the nails are driven out from the lower end of the driver guide 10.
On the other hand, with the idle driving prevention device 50, when all of the nails within the magazine 5 have been ejected, the pusher plate 17 reaches its forward stroke end where the engaging plate 17 enters the forward cut-out recess 51a of the stopper bar 51 so as to prevent the link 40 as well as the stopper bar 51 from upward movement. Then, the trigger 6 cannot be pulled but is fixed in position.
Thus, the trigger control device 20 operates in connection with the movement of the stopper 24, while the idle driving prevention device 50 operates in connection with the movement of the link 40. Since the stopper 24 and the link 40 are vertically movable independently of each other as described above, the idle driving prevention device 50 is effectually operated even if the contact arm 11 is held at the upper stroke end (where the stopper 24 is moved upwardly) for "dragging nail driving operation" or "continuous nail driving operation". Here, the idle driving prevention device 50 is effectually operated even if "dragging nail driving operation" is performed with the contact arm 11 held in the upper stroke end by the pressing force on the work or by locking the contact arm 11 through fixing the position of the stopper 24 by means of the arm lock pin 25. Thus, the idle driving prevention device 50 is effectually operated independently of the operation of the trigger control device 20.
Meanwhile, in general, an adjustment of a driving depth of nails can be made by varying the position of a driver guide relative to a body of a nailing machine. In case of the nailing machine 1 of this embodiment, the driver guide 10 is fixed to the contact arm 11, and therefore, the upper stroke end of the contact arm 11 is varied when the position of the driver guide 10 has been varied. This means that the lower end of the driver guide 10 may contact the work to be driven irrespective of adjustment of the driving depth, so that the nails can be stably driven into the work. More specifically, the nail driving passage 12 of the nailing machine 1 of this embodiment is held to extend to the lower end of the contact arm 11 irrespective of the adjustment of the driving depth. Further, with the nailing machine 1 thus constructed to enable the stable driving of the nails, the driving depth adjusting device 50 can be easily operated for adjusting the driving depth. Particularly, the driving depth adjusting device 50 of this embodiment has the cam 35a including the cam recesses 35 positioned at different heights is formed on one side (on the side of the contact arm 11 in this embodiment). The protrusion 24a for engagement with the cam recesses 35b is formed on the other side (on the side of the stopper 24 in this embodiment). By rotating the adjustor 35, the protrusion 24a in turn engages the next cam recess 35b, so that the distance between the contact arm 11 and the stopper 24 can be varied. With this construction, the driving depth adjusting device 50 is operable irrespective of the position of the contact arm 11 or irrespective of the operation of the trigger control device 20. Therefore, the adjustment of the driving depth can be independently made with the contact arm 11 held at the upper stroke end, so that the operability of the nailing machine 1 is considerably improved.
In addition, the nailing machine 1 of this embodiment includes the trigger lock device 44 which is operable independently of the trigger control device 20. Thus, the stopper 24 of the trigger control device 20 and the link 40 of the trigger lock device 44 are supported between the support wall portions 2c and are vertically movable independently of each other, so that the link 40 is movable irrespective of the position of the stopper 24. For this reason, with the driver guide 10 permitted to be moved (with the trigger control device 20 permitted to be operated), the trigger 6 can be fixed in position not to be pulled by the operator so as to prevent an accidental driving of the nails. This may be also applied when the driver guide 10 is fixed at its upper stroke end for "dragging nail driving operation".
Consequently, with the nailing machine 1 of this embodiment, the prevention of idle driving of the nails, the adjustment of the driving depth and the locking of the trigger 6 for preventing the accidental driving of the nails can be performed independently of the operation of the trigger control device 20, so that the nailing machine 1 can be conveniently operated in various operational modes and so that the safety of the nailing machine 1 can be improved.
Further, the nailing machine 1 has a compact construction where the stopper 24 of the trigger control device 20, the link 40 of the trigger lock device 44, the arm lock pin 25 and the trigger lock pin 26 for supporting them, and the driving depth adjusting device 36 are disposed between the support wall portions 2c at positions adjacent the trigger 6. Therefore, the nailing machine 1 has a smaller size.
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DECKER INC.Contact trip mechanism for nailerEP2226160A2 *Apr 1, 2005Sep 8, 2010Black & Decker Inc.Contact trip mechanism for nailerWO2007133329A2 *Mar 15, 2007Nov 22, 2007Illinois Tool WorksFastener-driving tool having trigger control mechanism for alternatively permitting bump firing and sequential firing modes of operationWO2007133329A3 *Mar 15, 2007Jun 26, 2008Illinois Tool WorksFastener-driving tool having trigger control mechanism for alternatively permitting bump firing and sequential firing modes of operation* Cited by examinerClassifications U.S. Classification227/8, 227/120, 227/142, 227/130International ClassificationB25C1/04, B25C7/00, B25C1/00Cooperative ClassificationB25C1/008, B25C1/047European ClassificationB25C1/04D, B25C1/00DLegal EventsDateCodeEventDescriptionJul 3, 2008FPAYFee paymentYear of fee payment: 12Jul 14, 2004FPAYFee paymentYear of fee payment: 8Jul 11, 2000FPAYFee paymentYear of fee payment: 4Mar 10, 1995ASAssignmentOwner name: MAKITA CORPORATION, JAPANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:MUKOYAMA, KENJI;HAYASHI, NORIAKI;REEL/FRAME:007384/0669Effective date: 19950306Mar 10, 1995AS02Assignment of assignor's interestOwner name: MAKITA CORPORATION 11-8, SUMIYOSHI-CHO 3-CHOME ANJEffective date: 19950306Owner name: HAYASHI, NORIAKIEffective date: 19950306Owner name: MUKOYAMA, KENJIEffective date: 19950306RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services