DE2916499A1 - ELECTRIC HAND DRILLING MACHINE WITH DEVICE FOR ADJUSTMENT FOR ROTATING OR IMPACTING DRILLING - Google Patents

Description

The invention "relates to an electric hand drill for stone and the like with device for optional changeover for rotary drilling and percussion drilling with one The tool or the tool holder or an element which transmits the impact pulses of the impact organ, in the absence of working pressure, moves the tool into a position suitable for rotary drilling Energy storage, in which position the tool is outside the impact area of the impact organ and with a Actuator through which the tool can be axially locked and unlocked directly or indirectly in this position

In known electric hand drills of this type, this is Actuator a sleeve arranged coaxially on the drilling axis, manually adjustable in the axial direction, which the tool holder or takes the tool with it during manufacture and thereby moves the latter into a position for rotating or striking Drilling leads. The tool can be locked in the above-mentioned positions with the aid of the actuator, which is designed as a sleeve. In this case, the actuator in a 3PaIl is a threaded sleeve indirectly supported on the housing, which thanks to its rotation axial movement component axially adjusts the beam of the tool holder (CH-PS 356 396). In another case it is the actuator designed as a sliding sleeve and can be in the manner of a bayonet lock in the working positions lock (DE-AS 1 652 685).

Hisrron, based on the invention is based on the object an office hand drill of the type mentioned above © toe significant increase in weight and overall length so Further training that they can also be used for drilling boreholes in multi-layer wall, floor or basin structures specifically is suitable, the layers of which are of different material properties and hardness and therefore partly a twist. © ades, sometimes require hammering drilling. One of the most important examples of such a structure is one

with ceramic plates "or covered with tiles, by masonry stones Jointed or made of concrete wall (ceiling, floor). When drilling holes in such a system, it is essential on a precise drilling of the ceramic plates or tiles, with rotating drilling and then after drilling through the often relatively thin ceramic layer on a quick, timely switch to percussive drilling, without doing so the manual guidance of the hand drill is impaired.

The stated object is achieved according to the invention in that the actuator is a locking element which is movable transversely to the drilling axis and is arranged asymmetrically to the latter and which is in the locking position a shoulder of the tool or the tool holder or a Distance sleeve engages behind.

Such a device ensures that after drilling through an extremely quick, timely switchover to another working position is possible and at the same time the drill does not jump out of the borehole and slip on the surface of the ceramic plate, for example, as it does occurs frequently. Exact, fast switching is also possible with carefully metered drilling pressure, especially with very thin tiles.

From rotating to percussive drilling, e.g. when transitioning from a ceramic layer to a concrete layer, you can switch in a flash when the locking element ends at the rear in the region of the base of an adjacent handle in such a way that it old a finger that the hand grip in the rest of the tightly enclosing hand can be actuated.

Due to its structural design, the device is the Electric hand drill can also cope with the strong contact pressure, which is particularly necessary when drilling holes of relatively large diameter over long periods of time are.

030045/0150

Further refinements of the invention emerge from the subclaims.

The invention is explained below with reference to the drawing using a few exemplary embodiments.

Show it:

1 shows a section from the electric hand drill, partly in longitudinal section, in a set position for rotary drilling,

Fig. 2 is a section along line II-II of Fig. 1,

3 shows a detail according to FIG. 1 in a set position of the device for percussive drilling,

Fig. 4 is a section along line IV-IV of Fig. 3,

Figures 5 and 6

another embodiment in a representation according to FIGS. 1 and 3 »

7,8 a further embodiment in a Sar position according to FIGS. 1, 3,

9 shows a further exemplary embodiment in a representation according to FIGS. 7 and

Fig. 10 shows a detail from Fig. 9

The electric hand drill has an outer housing 10 and an inner housing 11. The housing is designed in such a way that the operator can hold the machine with one hand at the rear arranged handle and with the other hand on a radial arranged approximately at the level of the tool spindle Handle 12 can be held or guided. In a guide cylinder 13 which is coaxial with the drilling axis a-a, the one of a Connecting rod 16 driven drive piston 14 and a hammer 15 stored. The in the air cushion 40 of the reciprocating Drive pistons 14 generated pressure mini, and axiaa in alternation

030045/0150

.._ ORIGINAL INSPECTED

let the hammer 15 swing in the guide cylinder, the with the front edge of its shank 15b over the tool 27 an element 26 conveys axial impact pulses »In the set position according to FIGS. 1-2 is the striking organ 15 in an extremely forward position, in which it can come when there is no working pressure or when the tool holder 28 locked with tool 27 in a front end position and thus the element 26 lies outside the striking area of the striking organ 15. The impact organ I5, which has been put out of operation in this way is caught by brake rings 24, which engage in annular grooves, between the piston portion 15a and the shaft 15b of the Impact organ I5 lie. A bearing piece 20 is coaxial with the Guide cylinder 13 arranged and via a flange 20a with Screws. 22 attached to this. The bearing piece 20 encloses the ¥ erkaeugspindel 21, in which the element 26 for transmission the impact pulse is received axially displaceably to a limited extent «is in the axial oscillation range of the shaft 15b inside, the guide cylinder I3 and the bearing piece 20 A guide sleeve 23 is arranged for said shaft. The torque of the armature shaft of the drive motor is over

'© in © Gear axis 25a with bevel pinion 25 on a bevel gear transmitted in the bevel gear portion 13a of the guide cylinder I3. The Eührungsylinder I3 and bearing piece 20 consisting of the ball bearing 1? and the needle bearing 18 received structural unit thanks to driver 19 provides the torque on the Plant suction spindle 21 »This stands with the tool holder 28 in the

• Get-find operation. Serving as an energy store, coaxial to The axis of rotation a-a arranged coil spring 41 is on the guide sleeve 23 ifider stored. If there is no working pressure, it will hold Behraubenfeder 41 the tool spindle 21 and thus the tool holder 28 including the tool in a front axial end position, in which it is also located on the back on a hanging shoulder this tool spindle is adjacent element 26. In this position, the element 26 can no longer reach the shaft 15b The impact © rgan 15 is ia in the absence of resistance

thrown a position according to Figure 1 and held there by brake rings 24-. In a working position according to the Figs. 1, 2, 5, 7, 9 for rotary drilling is the movement unit consisting of tool 27, tool holder 28 and tool spindle 21 ″ with the help of a locking element JO or 130 or axially fixed, i.e. locked.

In the embodiment of FIGS. 1-4 is the locking element 30 rotatably mounted in a sleeve 29. This sleeve is arranged outside the drilling axis a-a and asymmetrically to this. It is pivotable in a bearing 3 ^ formed by the housing recorded. The bearing part 29a of the bushing, which serves as a pivot axis, extends through a circular one which serves as a pivot bearing Recess of the housing 10 and engages behind by means of splash the housing wall. A brake ring 33 ″ which rests on the bearing part 29a of the sleeve 29 generates relatively small amounts when pivoting Erictive forces. At the rear, the lying element 30 is in the ball bearing 32 and received in the front area of the sleeve 29 by a needle bearing 31, which is just about from the pivot axis b-b is cut. This engages behind in the locking position Bending element 30 with its free end 30a the annular shoulder of the tool holder 28, so that it cannot retreat even when the working pressure is high. The pivot axis b-b runs Accordingly, the axis of rotation c-c of the locking element 30 runs parallel to the drilling axis 5, perpendicular to the drilling axis. The locking element 30 extends about the same distance on both sides of the pivot axis o-b. The end of the actuation facing away from the drilling axis 29b of the sleeve 29 is in the area of the adjacent, on Housing 10, 11 attached handle 12. Therefore, it is possible. That the operator with a Singer the sleeve 29 with the locking element 30 out of Megelposition (Pign 3, 4) or can pivot in the locking position (FIGS. 1, 2) without letting go of the handle 12 with the hand in question or in the Strength of access to be impaired.

In the embodiment of the Pign. 5, 6 the sleeve 129 is one

-Q-

Shape of the housing 10. It is in the shoulder area 35, so open in section d-d, so that the non-rotating locking element 130 on the one hand there on the rotating shoulder 35 can rest and on the other hand is well supported within the sleeve 129 », especially at the rear. The locking element 130 is approximately rectangular in cross section and has a cylindrical shaft 130a, which penetrates the sleeve 129 at the rear. On the protruding portion of the shaft 130a is a grip disk 37 arranged in the base area of the handle 12 is, so can also be reached with a finger of the hand placed around this handle. The locking element I30 is linearly displaceable in the sleeve 129 with respect to the drilling axis a-a in the radial direction. In latch position it slides in the area of a reinforcement 36 made of abrasion-resistant, heat-resistant material on the rotating shoulder 35

Nothing stands in the way of also designing the locking element I30 in a bolt-like manner and thus rotating it in the bushing. In this case, the locking element I30 rotates passively in the locking position as a result of the frictional forces occurring in the contact area. With such a design, it is necessary to mount the grip disk 37 also rotatably on the shaft 130a so that this grip disk does not rotate when actuated. The bushing space 38 is sealed at the rear and with respect to the housing space 39. ^;

As shown in FIGS. 2, 4 can be seen in the exemplary embodiment of FIGS. 1-4 the pivoting movement of the locking element 30 with sleeve 29 by a stop cam. 10a of the housing 10 and a nose 29c of the sleeve 29 is limited.

In the further exemplary embodiments of FIGS. 7, 8 on the one hand and FIGS. 9 and 10, on the other hand, the locking element 130 or 131 is guided within the housing 10. In the locking position, it rests against the shoulder 43 of a coaxial spacer sleeve 42. This rests against the rear of the tool holder 28 with an inner flange 42a. That does not rotate

face bar element 130 or I3I is of angular cross-section in the area of the shoulder 43 is provided with a reinforcement 36. The guide for the locking element is formed by a recess 10b of the housing 10. The arrangement of the locking element inside the housing 10 has the advantage that the sliding surface of the shoulder 43 and the axial guidance of the locking element I30 or 131 lubricated by the oil mist in the housing space will.

The embodiment of FIGS. 9 »10 differs from the variant of FIGS. 7, 8 in that the locking element I31 held in the locking position counter to the action of an energy store 44 by means of a manually operable locking element 45 is. The force storage device 44, designed as a spring, is at the front. side on an inner formation 10c of the housing 10 and on the rear supported on a transverse pin 47 of the locking element I3I. The locking element I3I projects slightly beyond the guide 10b at the rear. The locking element 45 is rotatable on the handle 12 mounted disc, which rests on the back of the locking element 131. In the contact area, the disc is marked with a sectoral Control cam 46 provided. With the help of this, an incline. comprehensive control cam, the locking element I3I is rotated of the locking element 45 against the action of the force store 44 moved to the bolt position. When rotating the locking element in the opposite sense, the locking element is for one by the Energy storage 44 caused movement released out of the bolt position. By stops 48, 49 the rotation of the locking el β ^ ηβη-tes 45 limited to the sector of the control cam 46.

The locking element 45 can also be firmly connected to the handle 12. In this case, the locking element I3I is passed through a limited rotation of the handle in the locking position or released for unlocking.

0301045/0150

Claims (10)

PATeNTANWXLTE Dfi: FRIEDRICH B. MAYER DtfL-PHYS. G. FRANK WESTLICHE 24 7530 PFORZHEIM Friedrich Duss, Maschinenfabrik GmbH & Co., 7265 Neubulach Electric hand drill with device for optional conversion for rotating or percussive drilling Patent claims 1. Electric hand drill for rock and the like With device for the optional changeover for rotary drilling and percussion drilling with one the tool or the tool holder or an element which transmits the beat impulses of the percussion organ in the absence of working pressure in a to rotary drilling suitable position leading energy storage, in which position the tool or the tool holder or the element lies outside the impact area of the sole element and with an actuator through which the tool is axially lockable and unlockable directly or indirectly in this position, characterized in that the Actuator a locking element (30 or 130 resp. UDist, which is a shoulder in the locking position (Fig. 1, 5, 7, 9) (35 or 43) of the tool (27) or the tool holder (28) or a spacer sleeve (42) engages behind. 2. Apparatus according to claim 1, characterized in that the locking element (30) in a Bucheβ serving as a guide (29) is mounted and pivotally received with this on the housing (10) (Pign. 1-4). 030045/0150 ORIGINAL INSPECTED 3. Apparatus according to claim 1 or 2, characterized in that the bolt-like .Biegelelement (30) rotatable in the Bush (29) is mounted and engages behind the shoulder (35) with its free end (30a) in the locking position. 4. Device according to one of the preceding claims 1-31 characterized in that the actuating end (29b) of the bushing (29) facing away from the drilling axis (a-a) is in the region of the adjacent handle (12) attached to the housing (10, 11). 5. Apparatus according to claim 1, characterized in that the element (130) in a sleeve (129) in the direction of the drilling axis (a-a) is slidably mounted (Fig. 5-9). 6. Apparatus according to claim 5 * characterized in that the sleeve (129) as a molding of the housing (10) in a section (d-d) projecting into the area of the shoulder (35) for the plant of the control element (130) on the shoulder (35) is open is. 7. Device according to one of claims 5, 6, characterized in that the locking element (130) the sleeve (129) on the back surmounted by a guide shaft, which is in the area the handle (12) ends. 8. Device according to one of the preceding claims, characterized in that the locking element (130 or 131) guided within the housing (10) and that the shoulder (43) is formed by a spacer sleeve (42) (Fig. 7-9) . 9. Device according to one of the preceding claims 1, 5, 8, characterized in that the locking element (131) is held in the bending position counter to the action of an energy store (44) by means of a manually operated locking element (45) . 030045/0150 10. The device according to claim 9 »characterized in that the locking element (45) is a rotatably mounted on the handle Disc with control cam (46). ■ 03CHH5 / Ö1