Hand-held drive-in tool

Abstract

A hand-held drive-in tool (10) for fastening elements (60) includes a driving unit (30) for a drive-in ram (13) which is displaceably mounted in a guide (12), and has at least one driving element for the drive-in ram (13) formed by an elastomeric band (31) and tensioned by a tensioning device (70).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings:

FIG. 1 shows a side longitudinal cross-sectional view of a drive-in tool according to the invention in its initial position; and

FIG. 2 shows a view similar to that of FIG. 1 in actuated position of the drive-in tool.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

The drive-in tool 10 according to the present invention, which is shown in FIGS. 1 and 2, has a housing 11 and a driving unit, designated in its entirety by 30, for a drive-in ram 13. The driving unit 30 is arranged in the housing 11. The drive-in ram 13 has a drive-in portion 14 for driving a fastening element 60 and a head portion 15. The drive-in portion 14 is displaceable in a guide 12 while the head portion 15 has a guide channel 37 which provides for displacement of the head portion 15 on a guide rod 38.

A bolt guide 17 adjoins the end of the guide 12 in drive-in direction 27 (see FIG. 2) and extends coaxially with the guide 12. A fastening element magazine 61, in which fastening elements 60 are stored, is arranged so as to project laterally from the bolt guide 17.

The driving unit 30 has driving elements which are formed as elastomeric bands 31 and which are secured at one end to a support point 36, which is stationary with respect to the housing, and at the other end to the head portion 15 of the drive-in ram 13.

In the initial position 22 of the drive-in ram 13 shown in FIG. 1, the drive-in ram 13 is elastically biased by means of the elastomeric bands 31 and lies with the free end of its head portion 15 in a rear area of the housing 11 remote from the bolt guide 17.

In the initial position 22, the drive-in ram 13 is held by a locking device, designated in its entirety by 50 and having a pawl 51 that engages, in a locking position 54 (see FIG. 1), a locking surface 53 of a projection 58 of the drive-in ram 13 and holds the drive-in ram 13 against the force of the elastomeric bands 31. The pawl 51 is supported on an actuating motor 52 and can be moved by the latter into a releasing position 55 shown in FIG. 2, as will be described further below. The actuating motor 52 is connected to a control unit 23 by a first electric control conductor 56.

The drive-in tool 10 further has a handle 20 on which a trigger switch 19 is arranged for initiating a drive-in process with the drive-in tool 10. In the handle 20, there is further arranged a power supply, designated in its entirety by 21, which supplies electrical energy for the drive-in tool 10. In the present instance, the power supply 21 contains at least one storage battery. The power supply 21 is connected to both the control unit 23 and the trigger switch 19 by electric power conductors 24. The control unit 23 is also connected to the trigger switch 19 by a switch conductor 57.

Switching means 29 which are electrically connected to the control unit 23 by a switching means 28 are arranged at a tool muzzle 62 of the drive-in tool 10. The switching means 29 sends an electric signal to the control unit 23 as soon as the drive-in tool 10 is pressed against a workpiece W, as is shown in FIG. 2, and accordingly ensures that the drive-in tool 10 can only be actuated when it is pressed against the workpiece W in the proper manner.

Further, a tensioning device, designated in its entirety by 70, is arranged in the drive-in tool 10. This tensioning device 70 has an electric driving motor 71 by which a driving roller 72 can be driven. The electric driving motor 71 is electrically connected to the control unit 23 by a second control lead 74 and can be set in operation by means of this control unit 23 when, e.g., the drive-in ram 13 is located in its end position in the drive-in direction 27 or when the drive-in tool 10 is lifted off the workpiece W. The electric driving motor 71 has output means 75 such as a driven wheel which can be coupled with the driving roller 72. To this end, the driving roller 72 is rotatably mounted on a longitudinally adjustable adjusting arm 78 of adjusting means 76 formed as a solenoid. The adjusting means 76 is connected to the control unit 23 by an adjusting lead 77. During operation, the driving roller 72 rotates in the direction indicated by arrow 73 which is shown with dashed lines.

When the drive-in tool 10 is put into operation by means of a main switch, not shown, the control unit 23 first ensures that the drive-in ram 13 is in its initial position 22 shown in FIG. 1. If this is not the case, then the driving roller 72 is advanced by the adjusting means 76 toward output means 75, which have already been set in rotation by the electric driving motor 71, and engages the output means 75. Simultaneously, the driving roller 72 engages the drive-in ram 13 so that the latter is displaced farther away from the bolt guide 17 into the housing 11 in direction of its movement axis A by its head portion 15 by means of the driving roller 72 which rotates in the direction shown by the arrow 73. In this manner, the elastomeric bands 31 of the driving unit 30 are tensioned. If the drive-in ram 13 has reached its initial position 22, the pawl 51 of the locking device 50 drops into the locking surface 53 at the drive-in ram 13 and holds the latter in the initial position against the tensile force of the elastomeric bands 31. The electric driving motor 71 can then be switched off by the control unit 23, and the adjusting means 76 move the driving roller 72 again, so as to be controlled by the control unit 23, from its engaged position at the output means 75 and the drive-in ram 13 into its disengaged position (see FIG. 2).

When the drive-in tool 10 is pressed against a workpiece W as is shown in FIG. 2, the control unit 23 is first brought into its setting-ready postion by the switching means 29. When the trigger switch 19 is actuated by a user, the control unit 23 displaces the locking device 50 into its release position 55, and the pawl 51 is lifted off the locking surface 53 at the drive-in ram 13 by the actuating motor 52. The pawl 51 can be spring-loaded in direction of the drive-in ram 13 for this purpose.

The drive-in ram 13 is then moved in the drive-in direction 27 by the elastomeric bands 31 of the driving unit 30, and a fastening element 60 is driven into the workpiece W.

To return the drive-in ram 13 and to tension the elastomeric bands 31, the tensioning device 70 is activated by the control unit 23 at the end of a drive-in process when the drive-in tool 10 is lifted off the workpiece W. The switching means 29 supply a signal to the control unit 23 for this purpose. The drive-in ram 13 is moved by means of the tensioning device 70 in the manner already described above against the elastomeric bands 31 of the driving unit 30 and the elastomeric bands 31 are tensioned once again until the pawl 51 can again drop into its locking position 54 at the locking surface 53 of the drive-in ram 13.

The occasional holding of the drive-in ram 13 by the locking device 70 ensures that the elastomeric bands 31, which may possibly start to oscillate during the tensioning process, can stop oscillating before a new setting process is begun.

Though the present invention was shown and described with references to the preferred embodiment, such is merely illustrative of the present invention and is not to be construed as a limitation thereof and various modifications of the present invention will be apparent to those skilled in the art. It is therefore not intended that the present invention be limited to the disclosed embodiment or details thereof, and the present invention includes all variations and/or alternative embodiments within the spirit and scope of the present invention as defined by the appended claims.

Claims

1. A hand-held drive-in tool for driving fastening elements in, comprising a drive-in ram (13); a guide (12) in which the drive-in ram (13) is displaceable; a driving unit (30) for displacing the drive-in ram (13) and having at least one elastomeric band (31) that displaces the drive-in ram (13); a device (70) for tensioning the at least one elastomeric band (31); and a locking device (50) for releasably securing the drive-in ram (13) in a tensioned position of the at least one elastomeric band (13).

2. A drive-in tool according to claim 1, comprising at least two elastomeric bands (31) extending parallel to each other.

3. A drive-in tool according to claim 1, wherein the at least one elastomeric band (31) is arranged parallel to a movement axis (A) of the drive-in ram (13).

4. A drive-in tool according to claim 1, wherein the locking device (50) has a pawl (51) for holding the drive-in ram (13) in the tensioned position of the elastomeric band (31) and movable into a releasing position (55) of the drive-in ram (13) by a trigger switch (19).

5. A drive-in tool according to claim 1, comprising additional guide means for guiding the drive-in ram (13).

6. A drive-in tool according to claim 5, wherein the guide means comprises a guide channel (37) in the drive-in ram (13) in which a guide rod (38) is guided.