DE2951644A1 - MOTOR DRIVEN TOOL - Google Patents

Description

PATENT LAWYERS " _{Λ Α} , DIPL.-ING. DK.-ING DIPL.-PHYS. BERTHOLD SCHMID GERHARD BIRN HEINRICH QUARDER FALBENHENNENSTRASSE 17 7000 STUTTGART 1 TELEPHONE (0711) 608893 OUR SIGN

13 662 B / sw

Mafeil machine factory Rudolf Hey KG

7238 Oberndorf a.N.

Motor-driven ·; -, hand tools

The invention relates to a notorized Hand tool, the processing tool of which is apart from one Rotary movement also executes an axial reciprocating movement and the tool holder or holder is mounted at least axially displaceably in the housing of the hand tool. Such hand tools are in various embodiments, for example as electrically operated hose ^ - Drills and the like, known. That of rotary motion

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superimposed linear movement of the machining tool causes a better work result and / or a protection or better utilization of the tool and / or Workpiece. When machining certain workpieces or using special machining tools it is not fundamentally desirable that the rotary movement is superimposed on the displacement movement, and from this Basically, it is advantageous if the displacement drive can be switched off or decoupled.

The back and forth movement is generated by the fact that the inner end facing away from the processing tool the tool holder or holder or a component firmly connected to it in the direction of displacement is acted upon at preferably equal time intervals. That means in the case of a cam drive or the like that a complete axial stroke is carried out at least per revolution. There are, however, use cases where you can would like to assign several or even many revolutions of the machining tool to each back and forth stroke. This is but not possible with the conventional axial drives, at least in a simple and inexpensive way.

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The object of the invention is therefore to to create a motor-driven hand tool of the type mentioned, which with a simple, robust and inexpensive drive is equipped for the reciprocating movement of the movable tool and in which the Number of strokes can be smaller or even significantly smaller than the number of revolutions performed per stroke of the editing tool.

To solve this problem, the invention proposes that a motor-driven hand tool according to the preamble of claim 1 is designed according to the characterizing part of the first claim. Due to the lateral arrangement of the displacement drive causing the back and forth movement, the number of strokes can be determined within wide limits regardless of the speed of the machining tool. In addition, this Make the drive relatively compact and uncomplicated. The number of parts can be independent of whether you have this Drive connects directly or only indirectly to the tool holder or holder, be relatively small. It is only necessary to ensure that the displacement drive does not hinder the rotary movement of the machining tool

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and vice versa, the rotary drive is designed so that he the Shifting movement readily allows. A preferred field of application of such a hand tool are hand tools with an end mill or a corresponding one shaped whetstone, especially with an electric drive. For example with a tile processing device namely, it is preferable if the milling cutter or a cylindrical grindstone held on a shaft is not is driven only in the direction of rotation, but also in the axial direction. This is especially true when the processing tool is set with diamonds. Without the back and backward movement, which has not been known so far in such tile processing devices, is namely the milling cutter or Grinder stressed and worn over only part of its circumference. In the case of diamond-studded machining tools in particular, this is not only uneconomical, but also in the long run, also disadvantageous. This is due to the fact that the processing tool is in the course of Time clogs with chips or sanding dust and then decreases in its effect. This leads to heating and reducing the service life of the machining tool. If you now use the hand tool according to the invention, too in such a tile processing device for the first time

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can superimpose a to-and-fro movement on the rotary movement, on the one hand the tool can be better utilized and on the other hand the service life can be improved. Overall, the shortening of the machining time, the extension of the service life and the complete utilization of the machining tool to a greater part of its length, a better and economically more favorable result can be achieved. If it says at the beginning that the number of strokes - of course within certain limits - can be chosen independently of the number of revolutions that the machining tool executes per stroke, then the design leeway that is available to the technician is enjoyed. If drives for the rotation and the back and forth movement of the processing tool and, if necessary, also certain transmission ratios have been selected, in the end there is of course a fixed allocation of the number of revolutions of the processing tool performed per total stroke, unless there is still incorporates an additional adjustment device which allows this ratio to be changed, but the latter is a question of cost and less of a technical problem.

The preferred variant of the invention with a rotatably mounted Tool holder or holder provides that the

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Tool holder or holder with an eccentric drive is coupled, which in turn connects to the motor drive shaft. Again, it is equivalent the indirect actuation of the tool holder or holder by the eccentric drive via an intermediate, Component coupled with the tool holder in terms of movement. The shape and arrangement of the eccentric drive are so too choose that its rotary motion will reciprocate of the coupled component and thus ultimately of the machining tool.

A further development of the invention provides in this context suggest that the eccentric drive is a rotatably mounted disc with an eccentric which is open at the edge in the axial direction has attached to its bearing shaft annular groove, in which a control pin engages, which moves on a with the tool holder or holder connected component is attached and transversely to the direction of displacement extends. It is also conceivable to attach the control pin to the disk and to one that interacts therewith Wall opening or recess on the component mentioned. Because the planes of rotation of the disc and the tool holder run perpendicular to each other, the wall recess or a slot for receiving the control pin at least, but preferably also about so wide that the control pin moves in the course of one revolution of the disc

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can move in it from left to right and back again. In the axial direction of the machining tool one chooses the slot width preferably according to the diameter of the control pin to leg joints Transition from upward to downward movement and vice versa to avoid. In addition, the length of the tenon must be dimensioned in such a way that it can also be assigned to the lateral Slit or recess ends are still sufficient engages deeply. It should not be overlooked here that the slot extends in an arc shape in a plane perpendicular to the longitudinal axis of the machining tool, because it yes is incorporated into the wall of a cylindrical component. The first alternative has the advantage that the Component only performs an axial movement.

A further embodiment of the invention provides that the component with the control pin has a guide bushing, which is at least slidably mounted in the housing, for the rotatable Storage of the tool holder is. Appropriately c this bushing takes two rotary bearings, for example a radial roller bearing and a needle bearing, for the rotary movement the tool holder or the processing tool. More precisely, are then in this sleeve, the corresponding Inner stops can be equipped, the outer rings of said bearings held.

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The inner rings are pushed onto the tool holder or a rotatably connected shaft. aside from that The radial roller bearing also takes on the task of one Driver that does not hinder the rotary movement and in which provided feed drive is indispensable.

In the mentioned second variant of the eccentric drive, the up and down movement of the guide bush is one rotating back and forth movement superimposed in a corresponding housing bore. The size of these two oscillating Movement depends on the degree of the eccentric arrangement dc: i crank pin.

Since one usually relies on a non-displaceable arrangement of the motor, in particular an electric motor or of its Drive shaft, it is very advantageous that the tool holder with the motor drive shaft via a Telescopically extendable connecting device, in particular a spline connection or the like. Is coupled. This enables the necessary back and forth movement of the guide bush when the motor drive shaft is axially immovable.

In a further development of the invention it is proposed that the rotatably mounted disc be designed as a worm wheel

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is that interacts with a snail, which with the drive motor for the machining tool in drive connection stands. This leads to a very simple and compact construction. It is also necessary that relatively high reductions are possible with a worm gear. An even stronger reduction can be achieved in that the bearing axis of the worm According to another embodiment of the invention, a gear carries, which cooperates with a pinion of the motor drive shaft, wherein the longitudinal axes of the screw and the drive shaft are parallel to one another. aside from that this has the advantage that there is no separate drive for the disc or the displacement drive Drive motor required, but also use the one for the rotary movement of the machining tool can.

Another embodiment of the invention provides that the Bearing shaft of the rotatable disc is mounted in an eccentric bore of an adjusting sleeve rotatable in the housing is, which is designed at its outwardly facing, closed end as an actuator or such

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trä ^ t. With the help of this Hxzoriter one can learn about the Bearing and thus the bearing shaft of the disk lift the worm wheel off the worm and thus the displacement drive for the machining tool inoperative or in operation. Of course it must not necessarily done with the help of an eccentric, but you can also use the worm and the worm wheel in other well-known i / oi se separate and couple, jeuuch the construction mentioned appears to be particularly useful. In this context it is of particular advantage that " the adjusting sleeve in at least two rotational positions offset by 90 can be locked and / or locked, so that the on and off position of the sliding drive can be easily adjusted can find or secure it properly.

In the drawing, an embodiment of the invention partly in side view and partly in a I. ^": inr; sruittelschnitt by the motor drive shaft and the axis of the screw shown.

The motorized hand tool of the embodiment is mainly used for processing ceramic work-

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fabrics, in particular wall and floor tiles. In his only schematically drawn tool holder 1 v, -ird a machining tool 2 designed as an end mill or grinder is used, in the latter case in particular a grinder with diamond chips is intended. When the tool holder is designed as a three-jaw chuck is held, the is held and released 'ierkzeugschafts 3 in a known manner by means of a key. You can of course also use it in other places Hold the type, for example by screwing an adjusting screw (not shown) into a thread provided for this purpose the tool holder 1. The latter is via a spline connection 5 or another telescopically extendable connection device suitable for torque transmission form-fit with the free end of the motor drive shaft 6 coupled. As a result, the machining tool 2, in addition to the rotary movement, also perform a to and fro movement in the sense of the double arrow 7. As a drive motor an electric motor ο comes into question, which can be seen partially cut in the drawing iuu; from conventional Can be type of construction. It is operated by means of a switch that is not shown in detail and has a pusher 9.

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The area of the drive shaft assigned to the engine mount 10 6 is designed as a pinion 11. Its teeth are in the kin <i * riff with those of a gear 12 and they can advantageously have the same pitch as the wedge roller of the wedge shaft connection 5. For storage the gear shaft 13 are used by two bearings, in particular roller bearings 14 and 15. The gear shaft 13 is integral with it a screw 16 manufactured or partially designed as such. The latter works with a worm wheel together, the bearing shaft of which is denoted by 18 and supported in two bearings, preferably roller bearings 19 and 20 is. The worm wheel 17 has an eccentrically attached annular groove 23 which is open at the edge against the bearing shaft 18, in which a control pin 21 engages. This one is to one as a guide bush 24 designed component and the guide bush 24 is in the sense of the double arrow 7 in a Guide 25 of the housing 26 slidable up and down. From the above it follows that the rotational movement of the The pinion 11 is transmitted via the gear 12 to the worm 16 and from there to the worm wheel 17. The ring groove 23 causes the control pin to move up and down and thus also the guide bushing 24 in the direction of the Arrow 7. Because the guide bushing 24 via the bearing 28 with

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the tool holder 1 is coupled in terms of movement in the upward and downward direction, the machining tool 2 makes their Up and down movement with. The machining tool receives its rotary movement directly via the motor drive shaft 6 and the tool receptacle 1, the latter elements such as already explained, od via a spline connection S. Like. Are coupled.

The bore 30 of an adjusting sleeve 31, which the outer- rings of the two rolling bearings 19 and 20 is attached eccentrically to the cylinder outer surface of this adjustment sleeve. However, this cannot be seen in the drawing because the eccentricity is in the position shown the adjusting sleeve 31 extends perpendicular to the plane of the drawing. By means of the molded, for example toggle-like Actuating member 32, this sleeve can, if necessary, after previously loosening a locking screw 33 in the housing bore 34 to be turned around. Due to the eccentricity of the bore 30, such a rotation causes a parallel displacement of the bearing shaft 18 and thus a lifting of the worm wheel 17 from the worm 16. A further turning or turning back

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then leads to the approach of the worm wheel to the worm or to the engagement of the worm and worm wheel flange. In the disengaged state, the screw 16 runs to a certain extent empty below the worm wheel 17, so that the up and down movement of the guide bush 24 and thus ultimately also the machining tool 2 is omitted. So you can use this comparatively easily built device can work very quickly with or without an oscillating movement. Otherwise are the gear ratios of the two gears 11, 12 and 16, 17 selected so that the machining tool about Performs 300 revolutions per stroke. Are conceivable, of course also other sub or gear ratios.

To support the hand tool and at the same time also to guide the machining tool along the not shown workpiece, so for example a tile, a support foot 35, which can be pivoted if necessary, for example around an axis located in the image plane. If the head of the screw 33 or one A similar, for example spring-loaded element, engages in a notch 37 of the adjusting sleeve 31 one in this way a rotation lock. It is easily possible to have at least two notches offset by 90 ° on the circumference of this type to be provided.

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L e r s e i t e

,, COPY

Claims (9)

Ans ρ r il c Ii e 1. Motor-driven hand tool, the machining tool of which, in addition to a rotary movement, also has an axial and performs reciprocation and its tool holder or holder is at least axially displaceable in the housing of the hand tool is stored, characterized in that the tool receptacle (1) or holder with a side attacking displacement drive (17, 24, 28) is coupled. 2. Hand tool according to claim 1, with rotatably mounted tool holder or holder, characterized in that that the tool holder (1) or holder with a u Eccentric drive (17, 21) is coupled, which in turn is connected to the motor drive shaft (6). 3. Hand tool according to claim 1 or 2, characterized in that the eccentric drive is a rotatably mounted Disc (17) with an annular groove which is open at the edge in the axial direction and is attached eccentrically to its bearing shaft (18) (23), in which a control pin (21) engages, the one in terms of movement with the tool holder (1o) or bracket connected component (24) is attached and transversely to its direction of displacement (7) extends. 130027/0345 ORJGlNAL INSPECTED 4. Hand tool according to claim 5, characterized in that the component with the control pin (21) one in the housing (26) at least slidably mounted guide bush (24) for the rotatable mounting of the lierkzeugaufnahme (1). 5. Hand tool according to claim 4, characterized by daij the tool holder (1) with the motor drive shaft (6) via a telescopically extendable connection device, in particular a spline connection (5) od. Like., is coupled. 0. Hand tool according to one or more of claims 3 to 5, characterized in that the rotatably mounted disc is designed as a worm wheel (17) which cooperates with a worm (16) which with the drive motor (8) for the Machining tool (2) is in drive connection. 7. Hand tool according to claim 6, characterized in that that the bearing shaft (18) of the worm (16) carries a gear (12) which, with a pinion (11) of the motor drive 130027 / 03AS shaft (ό) interacts, the longitudinal axes of the screw and the drive shaft run parallel to each other. 8. Handi ^ erzeug according to one or more of the claims 3 to 7, characterized in that the bearing shaft (18) of the rotatable disc is in an eccentric bore (30) an adjusting sleeve (31) rotatable in the housing (26) is mounted, which is closed at its outwardly facing, closed linden tree is designed as an actuator (3 ?.) or carries such. 9. Hand tool according to claim 8, characterized in that the! Uns partial sleeve (31) offset by 90 at least in two Rotary positions can be locked and / or locked. 130Q27 / 034S