Hand-held power tool and device comprising the hand-held power tool

Abstract

The invention relates to a hand-held tool, in particular a nail-setting device, comprising a handle for manual actuation of the hand-held tool, an interface for fastening the hand-held tool to a remote actuation device, a control apparatus for controlling the hand-held tool in a manual mode and in a remote actuation mode, and a querying apparatus for querying whether the hand-held tool is fastened to a remote actuation device, wherein the control apparatus controls the hand-held tool in the manual mode if the querying apparatus detects that the hand-held tool is not fastened to a remote actuation device, and wherein the control apparatus controls the hand-held tool in the remote actuation mode if the querying apparatus detects that the hand-held tool is fastened to a remote actuation device.

Claims

1. A hand-held device comprising a power nail-setting tool operable in a manual mode and in a remote actuation mode; the hand-held device further comprising a handle for manually actuating the power nail-setting tool; an interface for providing communication between the power nail-setting tool and a remote actuation device; an interrogator for interrogating whether the power nail-setting tool is actuated by the remote actuation device through the interface, wherein the power nail-setting tool is operable in the manual mode if the interrogator detects that the power nail-setting tool is not actuated by the remote actuation device, and wherein the power nail-setting tool is operable in the remote actuation mode if the interrogator detects that the power nail-setting tool is actuated by the remote actuation device through the interface.

2. The hand-held device as recited in claim 1, wherein the interrogator comprises a switch.

3. The hand-held device as recited in claim 2, wherein the switch is actuatable.

4. The hand-held device of claim 3, wherein the switch is actuatable by any one of the following: mechanically, electromechanical, optically, inductively, and capacitively.

5. The hand-held device as recited in claim 1, further comprising a pressing sensor for detecting whether the power nail-setting tool is pressed against a substrate, wherein in the manual mode triggering of the power nail-setting tool is enabled only if the power nail-setting tool is pressed against the substrate, and wherein in the remote actuation mode triggering of the power nail-setting tool occurs if the power nail-setting tool is pressed against the substrate.

6. The hand-held device as recited in claim 1, wherein the detection device comprises an actuation element, wherein the actuation element actuates the switch when the hand-held device is actuated by the remote actuation device.

7. The hand-held device as recited in claim 1 wherein the remote actuation device has a handle element.

8. The hand-held device of claim 7, wherein the handle element comprises a pole.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING(S)

(1) FIG. 1 shows an open device for remote actuation, having an inserted hand-held power tool;

(2) FIG. 2 shows in an oblique view a closed device for remote actuation, having a hand-held power tool accommodated therein; and

(3) FIG. 3 shows in a top view a closed device for remote actuation, having a hand-held power tool accommodated therein.

DETAILED DESCRIPTION OF THE INVENTION

(4) FIGS. 1 through 3 show a device 10 for the remote actuation of a hand-held power tool 20 having a trigger switch 30. Device 10 has a first half shell 40 and a second half shell 50 having a viewing window 100 which preferably is made at least partially out of plastic. Furthermore, device 10 has an actuation device for actuating trigger switch 30, of which an actuation element 60 positioned directly opposite of trigger switch 30 is shown. First half shell 40 and second half shell 50 are permanently connected to each other via two hinges 70 defining a pivot axis 80.

(5) Furthermore, device 10 has a releasable closure, which, when device 10 is closed, is situated on a side of hand-held power tool 20 opposite of pivot axis 80. The closure is formed by a screw connection, which includes two screws 150 at second half shell 50 and two respective threaded holes 140 at first half shell 40.

(6) Furthermore, device 10 has a pole shaped handle element 90 having a remote trigger (not shown) for actuation by a user and a transmission unit for transmitting an actuation of the remote trigger to the actuation device to actuate trigger switch 30 by way of actuation element 60.

(7) Hand-held power tool 20 includes a handle 120 for the manual actuation of hand-held power tool 20 and a housing 130 forming an interface for fastening hand-held power tool 20 at device 10. Hand-held power tool 20 furthermore includes a pressing sensor 180 for detecting whether hand-held power tool 20 is pressed against a substrate. In housing 130, a control device not shown in greater detail for controlling hand-held power tool 20 as well as a position detection device are disposed for detecting how hand-held power tool 20 is oriented in the space. An interrogator configured as a switch 160 for interrogating whether hand-held power tool 20 is fastened to device 10, is situated at the interface. For actuating the interrogator, device 10 has a detection device configured as actuation element 170. Furthermore, a mechanical energy store not shown in greater detail, for example a helical spring or a flywheel, is disposed in housing 130.

(8) As long as switch 160 is not pressed, the control device controls hand-held power tool 20 in a manual mode, in which a triggering of hand-held tool 20 is possible only if pressing sensor 180 detects that hand-held power tool 20 is pressed against the substrate. Thus, hand-held power tool 20 is triggered only if trigger switch 30 is pressed after hand-held power tool 20 has been pressed against the substrate. In contrast, a pressing of hand-held power tool 20 against the substrate when trigger switch 30 is pressed does not trigger hand-held tool 20. The mechanical energy store is respectively charged as soon as possible after a positioning, for example, if the pressing sensor detects that hand-held power tool 20 is no longer pressed against the substrate.

(9) As long as switch 160 is pressed, the control device controls hand-held power tool 20 in a remote actuation mode, in which a triggering of hand-held power tool 20 already occurs when hand-held power tool 20 is pressed against the substrate. This triggering however is enabled only if the position detection device detects that hand-held power tool 20 is oriented substantially vertically upward, thus, when for example a nail is inserted into a ceiling. In this case, pressing sensor 180 projects vertically upward from hand-held power tool 20. Furthermore, the mechanical energy store is charged in the remote actuation mode only when the hand-held power tool is moved from a horizontal position to the vertical position. For exemplary embodiments which are not shown, the remote actuation device has its own control device, which communicates via an electrical, preferably wireless, or optical interface of the hand-held power tool and a respective counter-interface of the remote actuation device, and, for example, has its own power supply or is supplied with power from the hand-held power tool. A position detection device or a pressing sensor in the form of a proximity or distance measurement sensor is also disposed at or in the remote actuation device. Then, the remote trigger is, for example, configured as an electrical trigger switch and the information which has been triggered is transmitted via the interface and the counter-interface to the hand-held power tool, whereupon the hand-held power tool is triggered.

(10) The present invention has been illustrated on the basis of the example of a nail setting tool. It should however be noted that the present invention may also be used otherwise.