DE2165066C3 - - Google Patents

Description

The invention relates to a rotary percussion drill with an axially parallel arrangement Gear shaft designed to receive a drilling tool shaft, rotatably drivable tool spindle and an impact striker protruding into this, which is driven by one on the gear shaft arranged and rotatably driven by this cam periodically against the force of a striker spring back and freely flying forward is movable.

With known rotary percussion drill !! of the above type, which can be achieved by switching the impact drive on or off optionally: uin rotary percussion drilling or just for drilling can be used, the impact mechanism continues to work even when the machine is not is pressed against the processing point, but is lifted from it, so it runs empty. The occurring Impact energies are then no longer usefully dissipated to the outside via the tool, but remain in the device, where they are often used by expensive means, such. B. by serving as a shock buffer Disc spring assemblies are converted into harmful heat and material deformation. In each In this case, strong vibrations of the rotary percussion drill occur, which not only affect its handling difficult, but also to correspondingly strong vibration loads on all machine parts such as the motor armature, which shortens the life of these parts. Also, having the impact mechanism working when the machine is idling is an awkward one Noise formation connected.

The invention is based on the object of creating a rotary percussion drill that has the aforementioned Does not have any defects, but rather automatically when you lift off from the processing point has arresting impact mechanism. In the case of a machine, this task becomes the one mentioned at the beginning Genus solved according to the invention in that the cam with the gear shaft via a Coupling is connected and that the striker in the absence of contact with the shaft of the drilling tool is movable beyond its front end position specified by the drilling tool used, blocking the rotation of the cam. When the machine is lifted, the drilling tool slides slightly forward, which gives the hammer the way over its normal level of impact on To get toolsichaft out to the front and thereby the cam driving him on his To prevent further rotation on the gear shaft. When the machine is lifted, it becomes its impact mechanism automatically interrupted, eliminating the stresses and strains otherwise associated with it Disturbing phenomena such as vibrations and additional noise from the machine when idling are avoided.

Basically, it is known in rotary hammers to bring animals Scnlagmechanisinus then stop when the shank of the inserted tool of the percussion piston or -döppers is aulkr range, _w ie the example in from the work site lifted hammer drill the case. However, it is a question of feeding, compressed air-operated drills, which enable the hammer to be stopped automatically

accordingly controlled shutdown of the air supply / MiuBnsinuuur u «muei KuiguuH.». !! .. »^ -

In another known hand hammer with io this way, the striker spring is caught or interrupted by the spring catching bolt shortly before the electric motor drive. Finally, there is also no hand hammering, so that the striking hammer still has a small h-eien nier with an electric motor drive that over
an interposed compressed air cylinder piston ends pneumatically impact striker

hen to disengage from the coupling body is, whereby the impact drive is stopped.

Finally, the invention also provides that in the hollow striker, both the striker spring and a Fcdcrfangbolzen protruding is arranged, the front end of the spring at one depending on the position of the striker the latter provided inner slide or on one Outer shoulder of the catch bolt is removable. on

> 5

a small one

Makes flight before striking the tool. This ensures that the kinetic energy of the Striker is fully transferred to the tool and the Schlagdöpperfedcr is not also over supports the hammer around the tool and thus

Pinem corresponds to L-iic.iu u ,, ^ ,,.,. ^ ,,. ^ ₁ . ₆ , <. " _E .. unpleasant recoils on clic machine henwnik ·))

n 'by blanks on the inserted io would. Furthermore, the spring pin also avoids the need to keep tools, but not the pressure, which makes it easier to press the tool again when the machine is pressed on

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and the latter, with the hammer lifted from the place of work, leaps forward so far that he can move into catches a correspondingly arranged clamping ring.

air cylinder-piston unit stopped so that this Part of the percussion mechanism remains in operation. Incidentally, the last-mentioned are also Hand hammers are entirely unrelated to the genre, as they do not allow the tool to be driven, still with one seated on a gear shaft arranged parallel to the tool spindle Cam body for driving the hammer

are provided. _{,, cr} , · ι

According to a further feature of the invention, the cam is rotatable on the gear shaft and axially displaceable and arranged by a

nnirkfeder acted upon, by which he in torsion-proof ^ ". ^ ^. - ... _D ■

Clutch engagement with a part not shown on the gear shaft ₃ 5 like an electric motor and

Sfesf attached coupling body is held. is brought. Its armature shaft 2 .s in the m Iu

However, this clutch is disengaged as soon as the housing part 1 'is supported by the roller bearing 3 and ν

When the machine is raised, the Sch agdöppe is provided with a pinion 4 that is abnormally normal. This stand, in En g, iff m

we! flies forward and thereby the cam body of the R. zel 6 you sitting on the gear shaft 5.

^World "is therefore transferred to that on the 40 gear shaft. The ^ Drehnmneb dc, ^ Anke, -

Coupling body

45

pressing in the tool is made easier to the extent that it is used no longer has to be worked against the force of the striker and the striker.

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

Fig. 1, 2 and 3 in a largely visual representation of the impact mechanism in different Work or adjustment phases and

Fig. 4 the parts of the new rotary percussion drill essential for the invention in an axial longitudinal section.

The rotary percussion drill shown in Fig. 4 a multi-part housing 1, in the rear of which

seated coupling body moves axially correspondingly far and thereby except Rotational engagement with the coupling body comes. For this purpose, the coupling claws are on the coupling body and cam body attached with sloping flanks. .

To the cam in the most advanced position of the striker with security except To keep engagement with respect to the coupling body, a radially displaceable, provided with a resiliently supported locking ball provided locking bolt. This engages with his inner end into an annular groove machined in the gear shaft, provided that the one on the hammer

Tool spindle 8, the roller bearings of which are denoted by 9 and. The tool spindle 8, the gear shaft 5 and the armature shaft 2 run axially parallel to one another. In the tool spindle 8 is the front Drilling tool 11 used with its shaft 1Γ, the just like the receiving opening 8 'in the tool spindle 8 has a corresponding polygonal profile.

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

In the interior of the striker 12 protrude from

provided, with the cam cooperating clamping collar in the outermost forward position of the Striker lays against the locking ball of the locking bolt.

Even the hammer in its outermost m ua »mnuv uv ... ~ _{o ri}

Forward position preferably locked. For this purpose, the striker spring 15 as well as the Fecler-

Striker an all-round groove locking bolt 16 into it. The spring 15 is based on her

hand, in the outermost forward position of the rear end on the spring plate 15 'in the middle

Striker a present on the tool spindle housing part 1 'from, while the spring catch bolt 16 on

ner catch ring, z. B. an O-ring engages. its rear end through the cross pin 17 in the

To switch the machine from the rotary percussion drill 65 housing middle part Γ is attached. The front end of the

ren on pure drilling operation is a spring catch bolt is expanded like a trumpet in the machine housing and

from the outside rotatably adjustable switching pin provided, forms, as F i g. 4 shows one serving as a spring stop

by means of which the cam body by axially displacing the outer shoulder 16 '. The spring 15 can, however, depending on

The position of the striker 12 is just as good on the inner shoulder 12 "on the striker 12" prop up. As a result, the kinetic energy of the hammer 12 can be fully transferred to the tool without that there would be unpleasant recoils via the spring 15.

Furthermore, the clamping collar 12 '″ is provided on the striking striker 12. This works with the one on the C-etiiebewelle 5 rotatable and axially displaceable mounted cam body 18, which via coupling claws 18 'with the on the drive shaft 5 Drchfcst seated coupling body 19 in rotary connection fixed Kingriff can be brought. The spring 20 strives to the cam 18 in this Kiipoppelseengriff with the coupling body 19 to echo. Through the circumferential cam body 18, on the inclined sliding surface 18 ″ of the striking bolt clamping collar 12 '"is able to slide off, the striker 12 is periodically counter to the action of the Schlagdöpperfeder 15 stretched and released for its leading Schlagbewegting.

The I "ig. I shows the normal working position of the Impact mechanism. The tool 11 extends so far with its shaft 1Γ into the tool spindle 8 in that the striking striker 12 with its clamping collar 12 ″ is only on the sliding surface 18 ″ of the cam body 18 comes to the point. In this case, the cam body 18 is entrained by the coupling body 19 guaranteed. Since the curve or sliding angle λ that the sliding surface 18 "with the through the Döpper clamping collar 12 '"includes running Kbcne, smaller than the flank angle / J of the coupling claws 18 ', then the force /' is greater than the force C), so that consequently the cam 18 does not hit the . Inclined flanks 19 'of the coupling body 19 can rise, rather remains cantilevered!

If, on the other hand, the drilling machine with its tool is lifted from the machining socket, the anvil 12, as shown in particular in FIG . Since the aforementioned sliding angle λ is greater than the Fkmkenwinkel β in this position, the claw Q is also greater than the force P. Therefore, the cam 18 is axially shifted relative to the coupling body 19 and thus disengaged from the latter. The cam 18 thus reaches the idle position shown in FIG. Ij- is held in this position by the locking bolt 21 which is arranged radially displaceably in it and which is provided on the outside with the locking ball 22 supported by the spring 2V. The clamping collar 12 '"of the striking bolt 12 presses against this locking pin 22 in its outermost forward position. As a result, the locking bolt 21 is pressed inwardly into the annular groove 5' incorporated in the gelation roller 5, whereby the cam 18 is axially displaced by a corresponding amount so that a sufficient idle gap 23 remains between its coupling claws and the coupling body 19. When the hammer drill is pressed again against the processing tool, the hammer 12 is pushed back from its foremost forward position by means of the drilling tool 11, whereby the locking bolt 21 is held on the clamping collar 12 '" of the striker 12 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 'snap back into the corresponding 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 hammer drilling operation to pure drilling operation, is in the front Housing part also mounted in a rotatably movable manner to be locked in various adjustment positions which is given away at its inner end with an inclined end face 26 '. Depending on the dci Rotary setting of the switching bolt 26 removes the cam body 18 from its rotary connectionfcn coupling piece. Loosen ment with the coupling body 19 by corresponding axial displacement, whereby the rotary movement of the cam 18 and thus the gcsamu impact mechanism also when on the job remain switched off with the machine pressed down, so that you are working in pure drilling mode.

For this purpose 2 sheets of drawings

Claims (8)

Claims; 1. Rotary percussion drill with a rotary drivable by a gear shaft arranged parallel to the axis, for the inclusion of a drilling tool shaft and a tool spindle in this protruding hammer, which is arranged by a on the gear shaft and periodically against the force of a striker spring through this rotary cam that can be driven is movable back and forth freely flying, characterized in that the cam (18) is connected to the drive shaft (5) via a coupling and that the hammer (12) if there is no contact with the shaft (H ') of the drilling tool (U) via its front, through the used drilling tool (H) predetermined end position is also movable, the rotation of the Cam body (18) is blocked. 2. Drilling machine according to claim I, characterized in that the cam (18) on the Gear shaft (5) arranged to be rotatable and axially displaceable and supported by a compression spring (20) is acted upon, by means of which it engages in non-rotatable coupling with one on the gearbox shaft (5) non-rotatably attached coupling body (19) is held. 3. Drilling machine according to claim 2, characterized in that the coupling body (19) and cam body (18) coupling claws (18 ') with inclined flanks (19') are attached, the angle (ß) greater than that on the cam body (18) The existing sliding angle (er.) is formed by the sliding surface (18 ") of the cam body with the radial plane running through an impact striker clamping collar (12 '") sliding on it. 4. Drill according to Claims 2 and 3, characterized in that the cam body (18) a radially displaceable one provided with a resiliently supported locking ball (22) There is a locking bolt (21) through which, in the outermost forward position of the hammer (12) the cam body (18) is held at an axially uncoupled distance from the coupling body (19). 5. Drill according to claim 4, characterized in that the locking bolt (21) in the extreme forward position of the hammer (12) against the locking ball (22) of the locking bolt (21) placed clamping collar (12 '") with one end in an annular groove formed in the gear shaft (5) (5 ') can be inserted. 6. Drill according to claims 2 to 5, characterized in that in the machine housing (1) a shift bolt (26) that can be rotated from the outside is provided, by means of which, to switch to the rotary drilling position, the cam (18) through axial displacement is to be brought out of engagement with the coupling body (19). 7. Drilling machine according to one or more of claims 1 to 6, characterized in that the Striker (12) is provided with a circumferential groove (13) into the outermost Forward position of the hammer a catch ring (14) on the tool spindle (8) is insertable. 8. Drilling machine according to one or more of claims 1 to 7, characterized in that in the hollow striker (12) both the Schiagdöppcrfeder (15) and a Fedcrfangbolzen (16) is arranged protruding, the spring (15) with its front end depending on the position of the striker (12) on an inner shoulder (12 ") provided on the latter or on one Outer shoulder (16 ') of the spring catch bolt (16) can be paid off.