Tools – Including tool driving by impact delivering component or... – Motor or gear driven
Reexamination Certificate
2001-07-03
2003-03-04
Meislin, D. S. (Department: 3723)
Tools
Including tool driving by impact delivering component or...
Motor or gear driven
C173S117000
Reexamination Certificate
active
06526852
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a screw driving tool including a housing, a hollow spindle rotatably supported in the housing, a screw-in spindle at least partially extending in the hollow spindle and supported for a limited axial displacement relative thereto, an impact mass supported in the housing for a limited axial displacement therein for displacing the screw-in-spindle in a screw-in direction, and a drive motor for rotating the screw-in spindle.
2. Description of the Prior Art
At present, for dividing a space in a structure, partition walls are used. A partial wall is formed of a sheet metal frame to the opposite sides of which gypsum plasterboards are secured with rapid screw-in screws having sharp tips. The advantage of using such screws consists in that they can form, upon being screwed-in, a bore in the sheet metal frame the wall of which is engaged by the threaded section of a screw. However, when these screws are screwed in with conventional screw driving tools, a user needs to apply a rather high press-on force to the tool.
German Patent No. 1,478,914 discloses a pneumatically driven screw driving tool which permits to reduce the press-on force that needs to be applied. The disclosed tool has a screw-in spindle displaceable relative to the tool housing in a direction opposite to the screw-in direction against a biasing force of a spring. A clutch, which is located between the screw-in spindle and a hollow spindle driven by the tool drive motor, connects the screw-in spindle with the hollow spindle to provide for their joint rotation when the screw driving tool is pressed against a constructional component. The clutch becomes engaged as a result of displacement of the screw-in spindle toward the hollow spindle.
When a gypsum plasterboard is secured to a sheet metal frame, the screw-in spindle is driven by the tool drive motor as a result of the screw-in spindle being connected with the hollow spindle, and the rapid screw-in screw (further simply screw) is drilled through the plasterboard until the screw tip contacts the surface of the sheet metal frame. Finally, an accelerated in the screw-in direction, impacts mass impacts the screw-in spindle. The screw-in spindle is accelerated in the screw-in direction, and the screw tips forms a bore in the sheet metal frame into which the screw is driven-in. Because the connection between the screw-in spindle and the hollow spindle breaks upon the axial displacement of the screw-in spindle, the screw is displaced axially, without being rotated. The screw thread expands the bore in the sheet metal frame to such an extent that with a subsequent screw-in step, the remaining portion of the screw thread cannot form a matching screw in the bore wall, and the screw is stopped.
Compressed air, which is necessary for driving the known pneumatically driven screw driving tool is fed from an external compressor and, e.g., can be stored in a likewise external compressed air container. The external arrangement of the compressor or the compressed air container requires use of a compressed air hose which makes the handling of the screw driving tool much more difficult.
Accordingly, an object of the present invention is to provide a manually operated screw driving tool that would insure a high quality screw fitting in the sheet metal frame.
Another object of the present invention is to provide a manually operated screw driving tool that would require an application of a substantially reduced press-on force.
A further object of the present invention is to provide a manually operated screw driving tool in which the displacement of the screw-in spindle in the screw-in direction as a result of a impact applied thereto by the impact mass is not accompanied by rotational disengagement of the screw-in spindle from the hollow spindle.
SUMMARY OF THE INVENTION
These and other objects of the present invention, which will become apparent hereinafter are achieved by providing a screw driving took in which the hollow spindle is rotatably supported in the tool housing with a possibility of a limited axial displacement relative thereto, and a clutch is located between the hollow spindle and the drive motor output shaft for transmitting rotational movement to the hollow spindle and thereby to the screw-in spindle.
In the screw driving tool according to the present invention, the rotational movement is transmitted from the drive motor to the screw-in spindle via the hollow spindle which is supported in the tool housing with a possibility of a limited axial displacement. Because the hollow spindle is axially displaceable, it is possible to impact the screw-in spindle as it rotates, together with the hollow spindle, i.e., without breaking the rotational connection of the screw-in spindle with the hollow spindle. The screw forms a bore in the sheet material frame, and the screw thread forms a matching thread in the bore wall, with the screw being reliably retained in the bore.
A particularly reliable and strong rotational connection between the hollow spindle and the screw-in spindle is advantageously obtained by using at least one ball-shaped locking member received in a radial bore provided in the hollow spindle and projecting into a groove formed in the screw-in spindle.
An automatic displacement of the hollow spindle in the screw-in direction to its initial position and the release of the rotational connection between the hollow spindle and the output shaft of the drive motor is effected by at least one spring of the clutch upon lifting of the screw driving tool off the gypsum plasterboard.
A particularly compact structure of the screw driving tool, in particular with respect to its length, is obtained with, advantageously, the hollow spindle extending through the clutch and through a tooth gear which transmits the rotational movement of the output shaft of the drive motor to the hollow spindle.
For manufacturing and assembly reasons, preferably, the hollow cylinder is fixedly connected with first, screw-in direction side, member of the clutch and is displaceable against a biasing force of the first clutch spring, in the direction opposite the screw-in direction, toward a second, freely rotatable and axially displaceable relative to the hollow spindle, member of the clutch. The second member is also displaceable in the direction opposite the screw-in direction against a biasing force of a second spring into engagement with a tooth gear that transmits the rotational movement of the output shaft of the drive motor to the hollow spindle. Because the components of the clutch and the rotational movement transmitting gear are all located in the immediate vicinity of the hollow spindle, the clutch, the gear, and the hollow cylinder, together with the screw-in spindle, can be formed as a pre-fabricated unit and inserted, during the assembly of the screw driving tool, into the tool housing in a single step.
Advantageously, the impact mass, which advances the screw-in spindle in the screw-in direction, is accelerated in this direction by an electromagnet. The electromagnet permits to obtain uniform impacts which positively influences the quality of the screw connection.
The impact mass, e.g., can be formed of at least two coaxial, separate impact masses, with the screw-in direction side, first impact mass being formed of a non-magnetizable material, and the second mass being formed of a magnetizable material. The magnetizable impact mass is not permanently magnetized but rather remains magnetized as long as the magnet coil remains under tension. The impact mass, however, can be formed as a piston displaceable in a cylinder in an operational direction, against a biasing force of a spring, under a fluid, e.g., air pressure applied thereto. It is, however, possible to have the pressure applied for displacing the piston in a direction opposite the operational or screw-in direction. In this case, the piston pre-loads a spring that would accelerate the piston in the operational direction at a determined point of time.
Bader Thomas
Hofbrucker Thomas
Looser Markus
Rahmsdorf Horst
Hilti Aktiengesellschaft
Meislin D. S.
Sidley Austin Brown & Wood LLP
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