Percussion mechanism for an electrical hand-held tool with a...

Tool driving or impacting – Impacting devices – Hammer head driven by pulsating fluid pressure

Reexamination Certificate

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Details

C173S109000, C173S212000

Reexamination Certificate

active

06467555

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an electrical hand-held power tool, such as a hammer drill or a chisel hammer, and including a percussion mechanism with a blank blow cut-off and, in particular, to such a percussion mechanism.
2. Description of the Prior Art
Electrical hand-held power tools including a pneumatic percussion mechanism for generating blows applied to a working tool are known. The known percussion mechanism includes a guide tube, and a gas spring arranged between spaced from each other and sealingly displaceable in the guide tube, drive and percussion pistons. The percussion piston impacts and anvil that applies blows to a working tool secured in the chuck of a power tool. The application of the blows to the working tool, which is secured in the chuck with a possibility of a limited axial displacement, is interrupted in case of insufficient counter-pressure.
In a power tool described in European Publication EP 759 341 A3 for a blank blow cut-off, the gas spring is aerated into a surrounding environment through a radial ventilation opening the closing and opening of which is controlled by an axially displaceable, spring-biased ventilation control sleeve located outside of the guide tube. Thereby, an increase of the blow-producing pressure differences is prevented. The gas spring is aerated in a blank blow position of the anvil which the anvil occupies upon a return stroke as a result of an increase of the no-load run. The drawback of the solution suggested in EP 759 341 A3 consists in the use of heavily loaded oscillating components such as spring-biased ventilation sleeve. The spring force should be compensated by an additional counter-force applied by a user.
In the power tool disclosed in European Publication EP-0 438 029, an axially limited air channel is provided in the guide tube. Dependent on the position of the percussion piston, the air channel connects the impact and return impact shock absorption, providing for a non-linear system performance. In this tool, the gas spring is aerated through a radial opening in the blank blow position of the percussion piston that directly impacts the stem of the working tool. In this tool, the ventilation opening is provided in or behind the percussion piston in the region of the gas spring. The drawback of the solution suggested in EP-0 438 029 consists in that for the blank blow cut-off, a large blank or no-load run is needed which increases the weight of the percussion mechanism and dust penetration. In addition, because of the own weight of the percussion piston, the blank blow cut-off cannot be insured.
German publication DE 41 11 127 disclosed a tool in which for blank blow cut-off, the gas spring is aerated. For aerating the gas spring, radial, communicating with the surrounding environment, openings are formed in a axially displaceable drive piston formed as a hollow cylinder open at one side. The ventilation opening, which are formed in the wall of the drive piston, are connected, in a vicinity of the reverse point of the drive piston, via an annular channel formed in the guide tube, with axially extending grooves communicating with the surrounding environment. The grooves form an air channel for aerating the gas spring and the air flow in which is controlled by the ventilation openings. The ventilation openings become open only in the no-blow position of the percussion piston and aerate the gas spring. In other positions of the percussion piston, the ventilation openings are sealingly closed as a result of the surface contact of the associated surfaces of the drive piston wall and the percussion piston. Thus, the blank blow cut-off is caused directly by the no-blow position of the percussion piston. However, a reliable blank blow cut-off cannot be insured because of a one-sided pressure compensation with respect to the percussion piston and, in particular, because of temperature variations.
Accordingly, an object of the present invention is to provide a pneumatic percussion mechanism with a reduced wear of movable, heavily loaded components.
Another object of the present invention is to provide a pneumatic percussion mechanism with a reliable blank blow cut-off.
SUMMARY OF THE INVENTION
These and other objects of the present invention, which will become apparent hereinafter, are achieved by forming the air channel so that it extends from the axial region of the gas spring to the axial region of the anvil, with ventilation openings, which provide for aeration of the gas spring, being closed by the anvil when the anvil is in its operational position, and being open in the blank blow position of the anvil.
With the ventilation openings being closed or open dependent on the position of the anvil, no heavily loaded, movable components are necessary for effecting the blank blow cut-off. Thereby, the service life of these components and, thereby, of the entire percussion mechanism is increased. A reliable cut-off is insured as the pressure compensation takes place on both sides of the percussion piston.
Advantageously, the end surface of the anvil, adjacent to the percussion piston, has a flange-;like, centrally offset, annual groove region having a reduced diameter. In the non-impact position of the anvil, the groove region provides for communication of the ventilation opening with the surrounding environment via radial aeration openings. The aeration openings are formed advantageously in front of the axial region of the percussion piston.
Advantageously, a ring-shaped ventilation sleeve with a plurality of opening is provided in the guide tube between the air channel and the anvil. The ventilation sleeve determines the radial spacing between the air channel and the ventilation opening that is determined by the associated sealing outer diameter of the anvil.
Advantageously, the air channel is formed as an axially extending grooves in an outer surface of the guide tube, and it is adapted to fit in a chuck of the electrical hand-held power tool in which the percussion mechanism is used.
The novel features of the present invention, which are considered as characteristic for the invention, are set forth in the appended claims. The invention itself, however, both as to its construction and its mode of operation, together with additional advantages and objects thereof, will be best understood from the following detailed description of preferred embodiment, when read with reference to the accompanying drawings.


REFERENCES:
patent: 5111890 (1992-05-01), Ranger et al.
patent: 5873418 (1999-02-01), Arakawa et al.
patent: 6112830 (2000-09-01), Ziegler et al.
patent: 6116352 (2000-09-01), Frauhammer et al.
patent: 6196330 (2001-03-01), Matthias et al.
patent: 6227309 (2001-05-01), Henke et al.

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