DE2165066A1 - IMPACT DRILL - Google Patents

Description

Patent attorneys ^DR · ^{INa DIPL PHYS} · ^H " ^STURIES 2165066

Dipl. Ing. P. EiCHLER

56 WUPPERTAL 2, BRAH MSSTRASSE 29

2 December 7th,

Company "Impex-Essen" Sales of tools GmbH, 88 Ansbach, Dürrner Str.l

"Impact drill"

The invention relates to a hammer drill with a shaft of the drilling tool used, by means of a gear shaft arranged axially parallel to be driven in rotation and a tool spindle projecting into it Striker, which is caused by a cam body that is seated on the gear shaft and rotates around it periodically to tension against the action of a striker spring and for its forward striking movement is free to give.

In known percussion drills of the above type, which can be used for percussion drilling by switching the percussion drive on or off or can only be set for drilling, the impact mechanism continues to work even when the machine is not pressed against the processing point, but away from it is lifted off, so it runs empty. The resulting impact energies are then no longer outward via the tool

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usefully dissipated, but remain in the device, where they are often through complex means, such as by as a shock buffer serving disc spring assemblies, are converted into harmful heat and material deformation. In any case strong vibrations of the drilling machine occur, which not only make it difficult to handle, but also cause it cause correspondingly strong vibration loads on all machine parts, such as the armature, whereby the service life of these parts is shortened. In addition, there is a striking mechanism that works when the machine is idling associated with unpleasant noise.

The invention is based on the object of creating a hammer drill that does not have the aforementioned shortcomings has, rather has an automatically stopping impact mechanism when lifting from the processing point. In a machine of the type mentioned at the outset, this object is achieved according to the invention in that the impact striker when the drilling tool is lifted from the processing point flies forward beyond its usual impact plane and thereby the rotational movement of the with the gear shaft over a clutch connected cam turns off or blocked. When the machine is lifted, the drilling tool slips slightly forward, which gives the hammer the way above its normal level of impact on the tool shank to get out to the front and thereby the driving force

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To prevent the cam body from rotating further on the gear shaft. So it becomes theirs when the machine is lifted off The impact mechanism is automatically interrupted, eliminating the stresses and disruptions otherwise associated with it Appearances such as vibration and additional noise the machine do not idle ..

According to a further feature of the invention, the cam body is rotatable and axially displaceable on the gear shaft arranged as well as standing under the action of a compression spring, which it in rotationally fixed clutch engagement with a on the transmission shaft Seeks to keep the coupling body non-rotatably arranged. However, this clutch is disengaged as soon as the impact striker When the machine is lifted, it flies far forward and thus blocks the curve body, which is consequently opposite the coupling body sitting on the transmission shaft moves axially correspondingly far and thus out of rotational engagement comes with the coupling body. For this purpose, the ones on the coupling body and cam bodies provided coupling claws with correspondingly sloping flanks.

To the cam in the most advanced position of the striker with security out of engagement with respect to the To keep coupling body is a radially displaceable in the cam body arranged locking bolt provided with a resiliently supported locking ball. This takes part its inner end in a machined in the gear shaft

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An annular groove, provided that the clamping collar that is provided on the striker and interacting with the cam body is in the outermost one The forward position of the hammer lies against the locking ball of the locking bolt.

The striker is also preferably locked in its outermost forward position. For this purpose is on the hammer there is a circumferential groove into which in the outermost forward position of the hammer an on the tool spindle Existing catch ring, e.g. an O-ring, engages.

To switch the machine from percussion or hammer drilling to pure drilling mode, there is an external device in the machine housing rotationally adjustable switching pin is provided, which allows the cam to be disengaged from the coupling body by moving it axially, thereby stopping the impact drive.

Finally, the invention also provides that in the hollow striker, both the striker spring as a spring catch bolt protrude and the spring either with its front end depending on the position of the hammer on an inner shoulder provided on the latter or on an outer shoulder of the spring catch bolt. To this In this way, the striker spring is caught by the catcher bolt just before the striker hits the tool shaft or held back, so that the striker still has a low

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makes free flight before striking the tool. This ensures that the kinetic energy of the striker is fully transferred to the tool and the striker spring is not also on the striker Supports the tool and thus cause unpleasant recoil on the machine. Furthermore, through the catcher bolt The pressing in of the tool when pressing the machine is also facilitated to the extent that it is for this purpose no longer has to be worked against the force of the striker and the striker.

In the drawing, an embodiment according to the invention is shown. Show it

Fig. 1, 2 and 3 in a largely schematic representation, the impact mechanism in different work or setting phases and

4 shows the parts essential to the invention

of the new impact drill in axial longitudinal section.

The hammer drill shown in Fig. 4 has a multi-part housing 1, not in its rear The part shown is housed an electric motor. Its armature shaft 2 is in the middle housing part 1 'over the roller bearing 3 stored and provided with a pinion 4 at the front. This is in engagement with the one seated on the gear shaft 5 Pinion 6. The gear shaft transmits the rotary drive of the

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Armature shaft 2 via the engaged gear pair 7 to the tool spindle 8, which is rotatably mounted in the front housing part and whose roller bearings are denoted by 9 and Io. The tool spindle 8, the gear shaft 5 and the armature shaft 2 run axially parallel to one another. In the front of the tool spindle 8, the drilling tool 11 is inserted with its shaft which, like the receiving opening 8 ¹ in the tool spindle 8, has a corresponding polygonal profile.

ψ The shaft 12 'of the hammer 12 protrudes from the rear into the tool spindle 8. The striking anvil 12 is provided with an all-round groove 13 into which, in the outermost forward position of the striking anvil, the catch ring 14 located in the rear part of the tool spindle 8, advantageously a conventional O-ring, engages. As a result, the striking anvil is held positively in its outermost forward position.

The hammer spring 15 and the spring catch bolt 16 protrude into the interior of the hammer 12 from the rear. The spring 15 is supported at its rear end on the spring plate 15 'in the central housing part I ^1, while the spring catch bolt 16 is fixed at its rear end by the transverse pin 17 in the central housing part I. ¹ The front end 16 'of the spring catch bolt is widened like a trumpet and, as FIG. 4 shows, forms an outer shoulder serving as a spring stop. The spring 15 can vary depending on the location of the

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Support striking anvil 12 just as well on the inner shoulder 12 ¹¹ present on the striking anvil 12. As a result, the kinetic energy of the hammer 12 can be fully transferred to the tool without the spring 15 resulting in unpleasant recoils.

Furthermore, the clamping collar 12 ′ ″ is provided on the hammer head 12. This works with the one on the gear shaft 5 rotatably and axially displaceably mounted cam body ■ 18 together, which via coupling claws 18 'with the one on the gear shaft 5 rotatably seated coupling body 19 can be brought into rotationally fixed engagement. The feather The aim is to keep the cam body 18 in this coupling engagement with the coupling body 19. Through the encircling Cam body 18, on whose inclined sliding surface 18 '' the striker clamping collar 12 '"is able to slide off the striking striker 12 periodically counter to the action of the striking striker spring 15 tensioned and released for its forward flapping movement.

Fig. 1 shows the normal working position of the impact mechanism. The tool 11 extends with its shank II ¹ into the tool spindle 8 so far that the hammer 12 with its clamping collar 12 '"only comes to rest on the sliding surface 18' of the cam 18. In this case, the cam 18 is entrained is guaranteed by the coupling body. Since the curve or sliding angle δ>, which the sliding surface 18 ″ includes with the plane running through the anvil clamping collar 12 ′ ″, is smaller than the flank

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is the angle ρ of the coupling claws 18 ', so is the force P is greater than the force Q, so that consequently the cam body 18 is not on the inclined flanks 19 'of the coupling body 19 can climb up, rather remains firmly engaged.

If, on the other hand, the drilling machine with its tool is lifted from the processing point, the anvil 12 can, as 2 particularly illustrates, flying forward beyond its normal level of impact, where it passes through the in

its groove 13 engaging O-ring 14 is held.

Since in this position & he the aforementioned sliding angle (λ- is greater than the flank angle β , the force Q is also greater than the force P. Therefore, the cam 18 is axially displaced here relative to the coupling body 19 and thus disengaged from the latter to the position shown in Fig. 3 idle position. It is held in this position by the radially displaceable therein arranged locking pin 21 which is provided externally with the through W, the spring 21 · supported detent ball 22. against this detent ball 22 presses the clamping collar 12 ''· Of the hammer 12 in its outermost forward position. As a result, the locking bolt 2o is pressed inwardly into the annular groove 5 ¹ machined into the gear shaft 5, whereby the cam 18 is axially displaced by a corresponding amount, so that between its coupling claws and the coupling body A sufficient idle gap 23 remains at 19. When the hammer drill is pressed again against the Machining

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place is pushed back via the drilling tool 11 of the hammer 12 from its foremost forward division, whereby the Locking bolt 12 is held on the clamping collar 12 '"of the anvil loses. As a result, the cam body 18 is pushed in the direction of the coupling body 19 by the spring 20 acting on it, so that the coupling claws 18 again into the corresponding Jump in the coupling recesses on the coupling body 19. The working position shown in FIG. 1 is thus restored.

In order to be able to convert the machine from percussion drilling to pure drilling, there is still in the front part of the housing a shift pin 26 to be locked in different setting positions, which is rotatably mounted at its inner end is provided with an inclined end face 26 ″ 18 from its rotationally fixed coupling position solve with the coupling body 19 by corresponding axial displacement, whereby the rotary movement of the cam and so that the entire impact mechanism remains switched off even when the machine is pressed against the work site, thus working in pure drilling operation.

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Claims (8)

- Io claims 1. Impact drill with a the shaft of the inserted Drilling tool receiving, arranged by an axially parallel Gear shaft to be driven rotating tool spindle and a striking hammer protruding into it, the through one sitting on the gear shaft and through it k periodically counter to the cam to be moved around the action of a striker spring is to be tensioned and released for its forward striking movement, thereby characterized in that the hammer head (12) when the drilling tool is lifted from the machining point via its usual impact plane also flies forward and thereby the rotary movement of the-.mit the gear shaft (5) over a Clutch (19, .19 ') connected cam (18) turns off or blocked. 2. Impact drill according to claim 1, characterized that the cam (18) on the gear shaft (5) rotatably and axially displaceably arranged is as well as under the action of a compression spring (2o), which it in non-rotatable clutch engagement with a on the gear shaft (5) seeks to hold the coupling body (19) non-rotatably attached. 309827/0171 3. Impact drill according to claims 1 and 2, characterized in that the coupling body (19) and cam body (18) coupling claws (18 ¹ ) with inclined flanks (19 ') are present, the angles of which are greater than that on the cam body (18) existing sliding angle (λ, which the sliding surface (18 ¹¹ ) of the cam body forms with the plane running ^{through a hammer head clamping collar (12 111) sliding on it.} 4. Impact drill according to claims 1 to 3, d a through characterized in that in the cam .body (18) a radially displaceable arranged with a resiliently supported locking ball (22) provided locking bolt (21) is provided, which in the outermost forward position of the striker (12) holds the cam (18) at an axially uncoupled distance from the coupling body (19). 5. Impact drill according to claim 4, characterized in that the locking bolt (21) ^{engages with its inner end in an annular groove (5 1} ) incorporated in the gear shaft (5), provided that the hammer (12) provided on the hammer (12) is connected to the cam ( 18) lays cooperating clamping collar (12 ¹¹¹ ) in the outermost forward position of the striking bolt (12) against the locking ball (22) of the locking bolt (21). 6. Impact drill according to claims 1 to 5, d a d u r ch characterized in that in the machine housing (1) an externally rotatably adjustable switch pin (26) is provided is that, to switch to pure drilling mode, use the curve 309 827/017 1 allowed to bring body (18) out of engagement with the coupling body (19) by axial displacement. 7. Impact drill according to one or more of the claims 1 to 6, characterized in that the hammer striker (12) has an all-round groove (13) is provided in the outermost forward position of the hammer a catch ring on the tool spindle (8), e.g. an O-ring (14) engages. 8. Impact drill according to one or more of claims 1 to 7, characterized in that both the hammer spring (15) and a spring catch bolt (16) protrude into the hollow hammer (12) and the spring (15) extends with its front End ^ e, depending on the position of the striker (12), is supported either on an inner shoulder (12 ¹¹ ) provided on the latter or on an outer shoulder (16 ') of the spring catch bolt (16). 309827/01 71 Blank page