Hand-held tool with electromagnetic hammer mechanism

Details Hand-held tool with electromagnetic hammer mechanism Hand-held tool with electromagnetic hammer mechanism

2001-05-14

2003-02-18

Smith, Scott A. (Department: 3721)

Tool driving or impacting

Impacting devices

Hammer head driven by electric motor

C173S114000, C173S217000

Reexamination Certificate

active

06520269

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a percussion hand-held tool, e.g., a chisel hammer or a hammer drill, with an electromagnetic hammer mechanism.
2. Description of the Prior Art
In hand-held tools with an electromagnetic hammer mechanism, a striking piston, which imparts axial blows to a working tool primarily via an intermediate piston, reciprocates under an action of timewise changeable magnetic field.
U.S. Pat. No. 4,215,297 discloses a hand-held tool in which a striking piston, which is supported for a limited axial movement relative to the working tool, cooperates with a ferromagnetic insert coaxially arranged inside of a coil that produces an intermittently changeable magnetic field. The striking piston is connected with a storage spring for storing the recoil energy. The drawback of such an arrangement consists in a poor electrical efficiency of the percussion or impact energy that can be achieved. The increase of the electrical efficiency is only possible with an unacceptable decrease of the service life of the hand-held tool.
German Publication DE 198 39 464A1 discloses a hand-held tool in which an electrodynamic actuator is arranged in a magnetic flux circuit which passes through a permanent magnet, a coil, and an anchor formed of a soft ferromagnetic material. The yoke, here the anchor and the coil, is supported for a limited movement transverse to the magnetic flux, which passes through adjoining surface regions of the U-shaped stator, by springs provided on opposite sides of the yoke. An alternate current passing through the coil can produce constrained oscillations of the obtained spring-mass system. The drawback of this solution consists in that in order to be able to use the above-described striking system as a hammer mechanism for a hand-held tool, piston-forming components should have large masses. Another drawback of this solution is a need to provide additional elements for feeding current to the movable coil, which reduce the service life of the hammer mechanism.
In the hand-held tool disclosed in WO 9940673 A1, an oscillating linear drive functions in accordance with a principle of a polarized reluctant actuator (PRA). In the disclosed hammer mechanism, a yoke, here an anchor and a magnet, are displaceably supported in a magnetic flux circuit, with the magnetic flux passing through the permanent magnet, the coil, and the anchor which is formed of a soft ferromagnetic material. The yoke is displaced by a flux passing transverse to the magnetomotive regions of the yoke and having a variable flux density which is varied between both pole shoes by the control magnetic field of a coil of a U-shaped stator, or is displaced by electric field gradients provided in the magnetomotive region in the direction of a minimal total forward resistance. The drawback of the proposed solution consists in that the magnetic and mechanical characteristics of permanent magnets, which are to be used in hammer mechanisms of hand-held tools, are very sensitive to impacts.
An object of the present invention is to provide a hand-held tool with an eletromagnetic hammer mechanism having an increased impact or percussion energy efficiency without any reduction of the service like in comparison with conventional electromagnetic hammer mechanisms.
SUMMARY OF THE INVENTION
This and other objects of the present invention, which will become apparent hereinafter, are achieved by providing an electromagnetic hammer mechanism including at least one stator, at least one coil with an axis extending transverse to the oscillation axis of the working tool, a striking piston formed as a yoke supported in a magnetic flux for a limited displacement along the oscillation axis and having at least one magnetomotive region formed of a soft magnetic ferroelectric material, and at least one magnet associated with the stator, magnetizable along the oscillation axis, and arranged along and adjacent to at least one segment of the coil located at an end of the stator.
According to the present invention, as a hammer mechanism, an oscillating linear motor, which is based on a principle of a polarized reluctance actuator (PRA) is used. A magnetic flux-generating magnet is magnetized in the percussion direction of the working tool which corresponds to the direction in which the working tool oscillating axis extends. The magnet is arranged along and adjacent to a coil segment located at an end of the U-shaped stator.
According to the present invention, a pole shoe, which is associated with the segment located at the U-shape stator end, is divided by a gap transverse to the working tool oscillation axis and the coil axis in two half-pole shoes, with the magnetic flux being divided between the two half-pole shoes by a control magnetic field of the energized coil. The yoke, which bridges both pole shoes of the stator and is supported for a limited movement along the working tool oscillation axis, has a magnetomotive region associated with the pole shoes. This region, at least along the working tool oscillation axis, consists of a soft magnetic ferroelectic material. The joke has, with respect to the two half-pole shoes, respective positions along the working tool oscillation axis in which the resulting total magnetic resistance in the gross flux circuit is at a minimum.
In this way, by changing the direction of the current flow through the coil, a bipolar behavior with respect to the anchor position can be realized or, the forces, which can be used for producing oscillations, can be applied to the yoke, which forms an anchor of a linear motor and which is located between the two positions, in both directions. The linear motor anchor functions as a striking piston and because the striking piston-forming anchor can have a small mass, only light vibrations of the hand-held tool are generated.
Advantageously, the strength of the coil current is selected in accordance with the condition of the increase of the flux, which is generated by the magnet, in a half-pole shoe. This permits to double the flux in another half-pole shoe. In this way, the coil provides for an optimal controlled behavior of the anchor.
Advantageously, the anchor has its end surface, remote from the working tool, connected to the hand-held tool housing by a storage spring for storing the recoil energy. The resulting energy-storing, self-oscillating system further increases the efficiency of the inventive hammer mechanism.
In accordance with a further advantageous embodiment of the present invention, a pole-shoe, which is divided by a gap into two half-pole shoes, is associated with each of two opposite segments of the coil provided at respective ends of the stator having a U-shape cross-section in the longitudinal direction. The anchor is formed with two magnetomotive regions associated with respective pairs of half-pole shoes and extending in the direction of the half-pole shoes. The anchor is so formed that it has a minimal magnetic resistance in the magnetomotive regions. As a result, the forces, which are generated due to the energization of the coil and by apportioning of the flux, are added to each other. With mirror-symmetrical arrangement of the system in a plane perpendicular to the working tool oscillation axis, the forces are doubled.
Advantageously, a spacer, which is provided between the two magnetomotive regions of the anchor, can be formed with a small mass, while maintaining an adequate stability. This permits to reduce the mass of the striking piston, by preferably symmetrical narrowing of the anchor, i.e., of the yoke anchor cross-section. However, care should be taken to maintain a minimal necessary flux cross-section.
In accordance with a further advantageous embodiment of the present invention, a further stator, which has a longitudinal U-shaped cross-section and which is arranged rotationally symmetrically with the first stator with respect to the working tool oscillation axis, is associated with the common, anchor. The further or second stator is associated with further magnetize

Affiliated with

Also associated with

Rating

Hand-held tool with electromagnetic hammer mechanism does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Hand-held tool with electromagnetic hammer mechanism, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Hand-held tool with electromagnetic hammer mechanism will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFUS-PAI-O-3157682