COMPRESSED AIR NAILER WITH AUTOMATIC OPERATING MODE AND A PLACING SENSOR

Abstract

A device for measuring absorbent bodies that are spaced from each other on a continuous web comprises at least two microwave resonators configured to measure values of a shift of a resonance frequency and a spreading of a resonance frequency. The continuous web moves through the at least two microwave resonators and the at least two microwave resonators are positioned at an offset with respect to each other in the transverse and transport direction relative to a direction of transport of the continuous web in order to measure the entire width of the continuous web. At least one of a moisture and a density of the absorbent bodies is determined using the at least two microwave resonators to continuously determine the values of the shift of the resonance frequency and the spreading of the resonance frequency.

Claims

1-13. (canceled)

14. A compressed air nailer comprising: a working piston connected to a driving tappet and configured to drive in a fastener, wherein compressed air is supplied when a driving process is triggered; a triggering apparatus comprising a manually actuable trigger; a placing sensor; and a force transmission element, wherein the placing sensor and the force transmission element are configured to interact with the manually actuable trigger and the placing sensor to actuate a control valve and trigger the driving process when the manually actuable trigger and the placing sensor are actuated together, wherein the placing sensor comprises an adjustment path between a first position that is fully actuated and a second position that is fully non-actuated, wherein the compressed air nailer is configured to continuously drive in fasteners in an automatic operating mode when the manually actuable trigger and the placing sensor are permanently actuated, and wherein the triggering apparatus is configured so that the force transmission element does not actuate the control valve when the placing sensor is displaced from the second position into the first position with the actuation of the manually actuable trigger.

15. The compressed air nailer according to claim 14, wherein in the automatic operating mode with the manually actuable trigger being actuated, the control valve remains actuated until the placing sensor is displaced starting from the first position along the adjustment path into an intermediate position that has a specified distance from the first position.

16. The compressed air nailer according to claim 15, wherein the specified distance is at least 30% of the adjustment path.

17. The compressed air nailer according to claim 16, wherein the specified distance is at least 3 mm.

18. The compressed air nailer according to claim 17, wherein the adjustment path has an overall length of at least 8 mm.

19. The compressed air nailer according to claim 14, wherein the control valve comprises a switching pin configured to move along an actuating path between a fully actuated first position and a fully non-actuated second position, and wherein the switching pin comprises a switching point that is arranged at an intermediate position of the switching pin at a distance from the first position.

20. The compressed air nailer according to claim 19, wherein the force transmission element is arranged relative to the trigger and the placing sensor such that an engagement between the force transmission element and one of the trigger and the placing sensor is eliminated when the placing sensor passes the intermediate position on the actuating path from the first position into the second position.

21. The compressed air nailer according to claim 20, wherein the force transmission element is rotatably mounted on the trigger.

22. The compressed air nailer according to claim 21, wherein the force transmission element comprises a stop that moves with the placing sensor on the actuating path from the second position into the first position when the placing sensor passes the intermediate position with the trigger actuated.

23. The compressed air nailer according to claim 14, wherein the force transmission element comprises an actuating surface configured to interact with a control pin of the control valve.

24. The compressed air nailer according to claim 22, wherein the force transmission element is a rocker, and wherein one end of the rocker is rotatably mounted on the trigger and another end of the rocker comprises the stop.

25. The compressed air nailer according to claim 14, further comprising a time control configured to specify a timing for the continuous driving in of fasteners in the automatic operating mode.

26. The compressed air nailer according to claim 25, wherein the time control comprises a throttle with an adjustable opening cross-section, and wherein the adjustable opening cross-section determines the timing.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] The invention is explained in greater detail below based on an exemplary embodiment represented in seven figures. In the figures:

[0025] FIG. 1 illustrates a cross sectional view of an embodiment of a compressed air nailer;

[0026] FIG. 2 illustrates an enlarged view of a portion of the embodiment of FIG. 1 in a non-actuated position;

[0027] FIG. 3 illustrates an enlarged view of a portion of the embodiment of FIG. 1 in a partially actuated position;

[0028] FIG. 4 illustrates an enlarged view of a portion of the embodiment of FIG. 1 in a fully actuated position;

[0029] FIG. 5 illustrates an enlarged view of a portion of the embodiment of FIG. 1 where the trigger and control valve are in an non-actuated position;

[0030] FIG. 6 illustrates an enlarged view of a portion of the embodiment of FIG. 1 where the trigger and control valve are in an actuated position; and

[0031] FIG. 7 illustrates an enlarged view of a portion of the embodiment of FIG. 1 where the trigger is in an actuated position and the compressed air nailer is arranged at a short distance from the workpiece due to a jump.

DETAILED DESCRIPTION OF THE INVENTION

[0032] First, the most important elements of the compressed air nailer are represented, partially in the form of an overview, with reference to FIG. 1. The compressed air nailer has a handle 10, on the rear end of which a central compressed air connection 12 is arranged. The handle 10 is located on a lower housing part 80 that is closed at the top by a housing cap 82.

[0033] The manually actuatable trigger 14 is mounted on the housing of the compressed air nailer in a pivotable manner about a pivot axis 16 and is arranged so that it can be actuated comfortably with the index finger by a user who is holding the compressed air nailer by the handle 10. FIG. 1 shows the trigger 14 in the actuated position.

[0034] In the arrangement shown in FIG. 1 with the compressed air nailer removed from a workpiece, the placing sensor 24 projects downwards with its front end over a mouth 26 of an outlet tool 28. This is the fully non-actuated second position of the placing sensor 24. If the compressed air nailer is placed onto a workpiece, the placing sensor 24 is displaced upwards against the force of a spring (not shown) until it terminates mostly flush with the mouth 26. It is then located in its fully actuated first position.

[0035] The placing sensor 24 has a slider 18 that moves up and down together with the front end of the placing sensor 24 when the placing sensor 24 is moved back and forth along the adjustment path between the first position and the second position. In the slider 18, an elongated hole 20 is formed, through which the pivot axis 16 of the trigger 14 passes.

[0036] A rocker 30 that serves as a force transmission element is mounted on one end in a pivotable manner about a pivot axis 22 on the trigger 14. The other, free end of this rocker 30 forms a stop 32 that can be taken along the adjustment path by a driver 34 designed on the slider 18 when the placing sensor 24 moves upwards. In this case, a control pin 36 of a control valve 38 is displaced upwards by an actuating surface 40 arranged on the upper side of the rocker 30 approximately in its middle, whereby a driving process is triggered. Details of the triggering apparatus with the placing sensor 24, force transmission element (rocker 30) and trigger 14 will be explained in greater detail below with reference to FIGS. 2 to 7.

[0037] The outlet tool 28 has a receiver 46, to which a fastener is fed from a magazine 48. From this position within the receiver 46, the fastenerfor example a nail, a pin or a stapleis driven in by a driving tappet 50 that is connected to a working piston 52 of the compressed air nailer. For this, the working piston 52 is guided in a working cylinder 54. Above the working cylinder 54 and closing it in a sealing manner, a main valve 56 is arranged, and to the right of this a pilot valve 58.

[0038] A control space 42 is ventilated when the control valve 38 is actuated. In this manner, a control piston 44 of the pilot valve 58 is displaced upwards against the force of a spring 60. As a result, a chamber 62 is vented via the pilot valve 58 so that the main valve 56 opens and compressed air flows into the working cylinder 54 above the working piston 52, i.e., a driving process is triggered.

[0039] While the main valve 56 is open, compressed air also flows through a hole 64 to an intermediate chamber 66 and from there flows via a throttle 68 to a control space 70 of the pilot valve 58. This is arranged above the control piston 44 of the pilot valve 58. If a pressure threshold in the control space 70 is exceeded, the control piston 44 returns to the marked, lower position so that the chamber 62 is ventilated again, the main valve 56 closes and the working piston 52 is guided back into its marked initial position.

[0040] When the control piston 44 is displaced into the lower position, the control piston 44 is simultaneously driven out of the seal of the O-ring 72. If the control valve 38 continues to be actuated at this point, the control piston 44 is then once again displaced upwards and a further driving process occurs. The timing of the driving processes following each other in this automatic operating mode can be adapted by adjusting the adjustable throttle 68.

[0041] It is explained with reference to FIGS. 2 to 4 how the interplay of the trigger 14, placing sensor 24 and rocker 30 can prevent unintentional triggerings. FIG. 2 shows the initial position of the triggering apparatus, i.e., the trigger 14 in the non-actuated position and the placing sensor 24 with the slider 18 in its second position.

[0042] The control pin 36 is located in a second position, below a switching point of the control valve 38, so that the control valve 38 is not actuated.

[0043] Starting from the situation from FIG. 2, if the trigger 14 is first actuated, the arrangement shown in FIG. 3 results. The rocker 30 continues to point transversely downward from the pivot axis 22 so that that control valve 38 is not actuated. The displacement of the pivot axis 22 as a result of the actuation of the trigger 14 displaces the rocker 30 to the right overall in relation to the arrangement from FIG. 2 so that the stop 32 is arranged at a lateral distance from the driver 34.

[0044] If the compressed air nailer is subsequently placed onto a workpiece, this leads to a displacement of the placing sensor 24 with the slider 18 from the second position from FIGS. 2 and 3 along the adjustment path into the first and fully actuated position shown in FIG. 4. Due to the lateral distance between the driver 34 and stop 32 of the rocker 30, the driver 34 does not take the stop 32 of the rocker 30 with it along this adjustment path so that the position of the rocker 30 in relation to the situation from FIG. 3 remains unchanged and the control valve 38 is not actuated. An accidental triggering with the trigger 14 actuated by an unintentional contact of the placing sensor 24 is hereby excluded.

[0045] It is explained with reference to FIGS. 5 and 6 how an individual triggering occurs when the placing sensor 24 and the trigger 14 are actuated in the correct sequence. For this, FIG. 5 first shows the arrangement that results when the compressed air nailer, starting from the base state shown in FIG. 2, is placed onto a workpiece, first with the trigger 14 not actuated. This displaces the placing sensor 24 with the slider 18 into its first position, shown in FIG. 5. Along this adjustment path, the driver 34 takes the stop 32 of the rocker 30 with it so that the rocker 30, starting from the pivot axis 22, points transversely upward with the trigger 14 not actuated. In this position, the control valve 38 is not yet actuated.

[0046] Starting from the arrangement from FIG. 5, if the trigger 14 is actuated when the compressed air nailer is still placed onto the workpiece, the situation shown in FIG. 6 results. Actuating the trigger 14 moves the pivot axis 22 upwards, while the stop 32 of the rocker 30 is supported on the driver 34. The rocker 30 thereby reaches a nearly horizontal position, in which the actuating surface 40 of the rocker actuates the control valve 38.

[0047] More exactly, this displaces the control pin 36 of the control valve 38 into the first position, shown in FIG. 6. In this position, it is located above a switching point of the control valve 38, and the control valve 38 is correspondingly actuated. Once the control valve 38 is actuated, a first driving process is triggered, as explained above with reference to FIG. 1. If the placing sensor 24 and trigger 14 then remain in their respective actuated positions, the compressed air nailer is in the automatic operating mode and fasteners are continuously driven in.

[0048] FIG. 7 shows the triggering apparatus with the trigger 14 actuated in a situation in which the compressed air nailer is arranged at a short distance from the workpiece due to a jump. The placing sensor 24 with the slider 18 is located in a middle position shortly before it reaches the intermediate position on the path from the first position into the second position. The stop 32 of the rocker 30 is just barely supported on the driver 34 in this middle position of the placing sensor. The distance 74 marked in FIG. 7 between an upper end 76 of the slider 18 and a stop 78 designed on the lower housing part 80 which the upper end 76 of the slider abuts in the first position of the placing sensor 24 (which is recognizable in FIG. 6) is somewhat smaller than the specified distance 84 between the first position and the intermediate position which is also marked in FIG. 7.

[0049] If the placing sensor 24 and therefore the slider 18 with the driver 34, starting from the position in FIG. 7, is only displaced downwards slightly further, it reaches its intermediate position, in which the stop 32 of the rocker 30 slips off from the driver 34 and the control pin 36 of the control valve 38 reaches its intermediate position and exceeds the switching point so that the control valve 38 no longer remains in the actuated position and the automatic operating mode ends. In the case of jumps of the compressed air nailer up to a height that corresponds to the position of the placing sensor 24 from FIG. 7, the automatic operating mode can, however, be continued without faults.

LIST OF REFERENCE NUMBERS

[0050] 10 Handle [0051] 12 Compressed air connection [0052] 14 Trigger [0053] 16 Pivot axis of the trigger 14 [0054] 18 Slider [0055] 20 Elongated hole [0056] 22 Pivot axis of the rocker 30 [0057] 24 Placing sensor [0058] 26 Mouth [0059] 28 Outlet tool [0060] 30 Rocker [0061] 32 Stop [0062] 34 Driver [0063] 36 Control pin [0064] 38 Control valve [0065] 40 Actuating surface [0066] 42 Control space [0067] 44 Control piston [0068] 46 Receiver [0069] 48 Magazine [0070] 50 Driving tappet [0071] 52 Working piston [0072] 54 Working cylinder [0073] 56 Main valve [0074] 58 Pilot valve [0075] 60 Spring [0076] 62 Chamber [0077] 64 Hole [0078] 66 Intermediate chamber [0079] 68 Throttle [0080] 70 Control space [0081] 72 Spring [0082] 74 Distance [0083] 75 Upper end of the slider 18 [0084] 78 Stop [0085] 80 Lower housing part [0086] 82 Housing cap [0087] 84 Specified distance