DE2653082A1 - TOOL HOLDER - Google Patents

Description

State of the art

The invention is based on a tool holder according to the preamble of the main claim. It has been shown that the penetrating into the receiving bore of a known tool holder Cuttings, which occurs particularly when drilling upwards into the ceiling, lead to very heavy wear on the one hand on the tool holder and on the other hand of the tool insertion side leads. That Drill dust has the effect of an abrasive.

Advantages of the invention

In a tool holder designed according to the invention effectively prevents drill cuttings from penetrating the inside of the tool holder. The sealing of the tool holder is included designed so that the tool - so about the insertion end of a drill - compared to the tools previously used hardly or only little has to be changed and that the service life of the seal is as long as possible.

The measures listed in the subclaims are advantageous developments and improvements of the main claim specified tool holder possible. So z. B. Tool holder that arn falling down from an O-ring have secured actuating sleeve, can easily be retrofitted with the protective cap designed according to the invention if the rear end of the protective cap has an annular bead on the inside, which is inserted into the annular groove of the Tool holder engages and the end of the protective cap as a stop part is designed for the actuating sleeve. A particularly long service life of the protective cap results when the the tool shaft sealing lip of a ring inserted on the inside of the bottom part of the protective cap is made of foam. When the display material ring closes

809821 / OAAO ~ ³

ORIGINAL! NSPECIED

it can easily be exchanged for a new one.

drawing

Exemplary embodiments of the invention are shown in the drawing using several figures and in the description below explained in more detail. FIG. 1 shows a tool holder in longitudinal section, and FIG. 2 shows a second exemplary embodiment of a tool holder in longitudinal section and FIG. 3 a third exemplary embodiment of a protective cap according to FIG. 1.

Description of the invention

The tool holder shown in Figure 1 of the drawing is on the tool spindle 1 of a not shown in the drawing The hammer drill. This tool spindle protrudes from the front of the housing of the hammer drill; it performs in itself known manner a rotary movement and also an axial impact movement. The tool holder consists of a coupling sleeve 2, with a first mounting hole 3 on the free End of the tool spindle 1 is pushed. Strip-shaped rotary drivers 4 are arranged on the inner wall of the receiving bore 3, the in assigned rotary driving grooves 5 of the tool spiral intervention. Coaxial with the first receiving bore 3, the coupling sleeve 2 has a tool receiving bore opening out at the front end 6 for a shank 7 of a tool - here a drill 8. On the inner wall of the receiving bore 6 are again two strip-shaped rotary drivers arranged diagonally to one another, which engage in assigned rotary drive grooves 9 which open out in the rear end of the tool shank 7. Of the Tool shank 7 has a rear bearing surface provided with a bevel, which rests axially on an assigned front receiving surface of the tool spindle, via this towards each other

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ORIGINAL INSPECTED

Ordered contact surfaces become the axial blows on the tool shaft 7 transferred. Around 90 compared to the rotary driving grooves 9 offset on the outer surface of the tool shank 7 are two groove-shaped recesses closed on both sides in the axial direction

10 arranged in the as a locking body or holding element two balls 11 engage. The balls 11 are movably guided in radial bores 12 of the coupling sleeve 2.

On the coupling sleeve 2, an actuating sleeve 14 is axially displaceable against the force of a spring 13, the outer Outlets of the radial bores 12 overlap. In the operating position shown in Figure 1, the balls

11 prevented from their radial mobility and so the shank 7 pushed into the tool receiving bore 6 from falling out prevented. The spring 13 holds the actuating sleeve 14 in the illustrated operating position of the tool holder against the rear end of a protective cap 13 pushed over the front part of the tool holder facing the tool tip. The rear end of the protective cap 15 facing away from the tool tip has an annular bead 16 with a semicircular shape on the inside Cross section which engages in an associated annular groove 17 in the coupling sleeve 2. The diameter of the annular bead is l6 determined so that it sits in the annular groove 17 of the * coupling sleeve 2 only with a relatively loose tension.

At the front, pierced by the tool 8 Boderi part l8 of the Protective cap 15 is a tool shank 7 that makes a sealing contact Sealing lip 19 is formed. The sealing lip 19 sits with a certain bias on the cylindrical outer surface of the tool shank 7 and thus prevents the penetration of drill cuttings into the interior of the tool mounting hole 6. The preload can for example be described by the fact that the diameter of the sealing lip 19, the protective cap made of an elastomer 15 is nine millimeters if the outer diameter of the work

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ORIGINAL INSPECTED

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testimony at least in the area in which the contact occurs the sealing lip 19 takes place is ten millimeters.

On the bottom part 18 of the protective cap 15 there is also a forwardly projecting friction ring 20, which is a larger one Has the friction radius than the friction radius of the annular bead 16.

During operation, the tool movement is transmitted from the tool spindle 1 to the tool shank 7 in the manner already mentioned. The tool 8 can be removed from the tool holder when the actuating sleeve 15 is pushed backwards against the force of the spring 13, so that the balls 11 can escape outwards in widenings 21, whereby the tool can be pulled out of the tool receiving bore 6. If the drill 8 is used to drill so deep into a wall, for example, that the protective cap 15 hits the wall, then the protective cap 15 remains on the wall despite further turning of the tool holder, which prevents unnecessarily rapid wear of the protective cap. This is achieved by the already mentioned larger friction radius of the friction ring 20 compared to the friction radius of the annular ring 16 and the relatively loose tension of the annular ring 16 in the associated annular groove 17, which is also mentioned.

Of course, the friction ring 20, which is smooth here, can be used to increase the friction torque with a friction-increasing surface, e.g. B. knobs or barb teeth are provided.

The second exemplary embodiment of a tool holder shown in FIG. 2 differs from the previous exemplary embodiment by a slightly modified protective cap 25 The protective cap 25 is provided with a sleeve-shaped extension 26, which is looking over the front end of the actuating sleeve

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ORIGINAL INSPECTED

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1 * 1 extends. This way, when drilling is overhead also prevents drill dust from getting into the between the inner surface the actuating sleeve 14 and the outer surface of the coupling sleeve 2 formed the annular gap and there its destructive Work can begin.

In the third exemplary embodiment shown in FIG. 3, only the coupling sleeve 2 of the tool holder with a modified protective cap 35 is shown for the sake of simplicity. In this protective cap, the sealing lip 39 is formed by a ring HO made of foam, which is inserted on the inside of the bottom part 38 of the protective cap 35. The foam ring again rests against the outside of the tool shank 7 (not shown in FIG. 3) with a certain pretension and seals the inside of the coupling sleeve 2 against the penetration of drill cuttings. The diameter of the arranged in the bottom part 38 hole kl for the shank 7 of the drill 8 is in this embodiment by a small amount of play greater than the outer diameter of the shank 7. The foam ring _{3 of} the z. B. can be made of polyurethane foam, it can be easily exchanged should it be locked.

The protective cap 35 can of course with a sleeve-shaped Extension 26 - as shown in Figure 2 - are provided.

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Claims (8)

Expectations 1. Tool holder for the coupling of percussive and / or rotating tools, with which a radial tool mounting hole protruding holding element engages in an associated recess of the tool shank, characterized in that over the front part of the tool holder facing the tool tip has a cup-like protective cap made of an elastomer (15, 25, 35) is inverted, on the bottom part (18, 38) of which the tool (8) pierces a tool shank (7) sealingly contacting sealing lip (19, 39) is formed. 2. Tool holder according to claim 1, characterized in that the rear end of the protective cap facing away from the tool tip (15, 25, 35) on the inside has an annular bead (16), preferably with a semicircular cross-section, which is in an associated The ring groove (17) of the tool holder engages. 3 · Tool holder with a movable tool that locks the tool shaft Ilalteelement, which is hindered in its mobility in the operating position by an actuating sleeve, wherein the actuating sleeve with its, the tool tip facing end face on a releasably attached annular Supporting stop part according to claim 2, characterized in that the rear end of the protective cap which has the annular bead (16) (15, 25, 35) is designed as a stop part. 809821 / OUO " ⁸ " ORIGINAL INSPECTED R. ■ · 4. Tool holder according to one of the preceding claims, characterized in that the rear end of the protective cap (25) with a sleeve-shaped extension (26) extending backwards over the tool holder is provided. 5- tool holder ¹ according to one of claims 2 to 4, characterized in that a forwardly protruding friction ring (20) is arranged on the bottom part (18, 38) of the protective cap, which has a larger friction radius than the friction radius of the annular bead (16). 6. Tool holder according to claim 5, characterized in that the Friction ring (20) at least on its front side a friction-increasing one Has surface such as knobs or teeth. 7 · Tool holder according to one of the preceding claims, characterized characterized in that the protective cap (15, 25, 35) consists of a wear and temperature-resistant elastomer. 8. Tool holder according to one of the preceding claims, characterized in that the sealing lip (19, 39) on one of the Inside of the bottom part (18, 38) of the protective cap (35) inserted ring (40) made of foam, preferably with an inner diameter which is smaller than the outer diameter of the tool shank. 809821 / OUO