DE4300021C2 - Hand tool with safety shutdown when the spindle is blocked - Google Patents

Description

State of the art

The invention is based on a hand machine tool the preamble of claim 1. From EP 326 783 B1 Such a handheld power tool is already known, in which if the tool suddenly locks, the housing has a Wrap spring is coupled to the fixed spindle. The Effectiveness of this measure depends largely on the Braking torque from that between wrap spring and spindle arises. Because the case is rigid before reaching one Coupling on the spindle turns even further Angle of rotation for a secure hold of the Hand machine tools are getting too big.

Advantages of the invention

The hand tool according to the invention with the characteristic features of claim 1 has in contrast the advantage that they start to rotate the housing abruptly couples with the blocked spindle. This can either cause the tool to be torn away again and the drilling process can continue or that a safety clutch in the rotary drive train of the Hand machine tool the motor still running Spindle separates.  

The triggering of the safety shutdown depends on this the operator's holding force, d. that is, only if the handheld machine tool is too weak to grip the Hand of the operator winds, the Safety device triggered.

By those listed in the dependent subclaims Measures are advantageous training and Improvements to those specified in claim 1 Hand tool possible.

drawing

Several embodiments of the invention are shown in the drawing and explained in more detail in the following description. Fig. 1 shows a longitudinal section through a first embodiment. Fig. 2 shows a cross section along line II-II in Fig. 1, Fig. 3 shows in detail a section along line III-III in Fig. 2. Figs. 4 and 5 show a second embodiment. FIGS. 6 and 7 show a third embodiment.

Description of the embodiment

A handheld power tool designed as a hammer drill has a housing 2 in which an electric motor 3 , a striking mechanism 4 and a rotary drive gear 5 are accommodated. The rotary drive is transmitted to a hollow clockwise spindle 6 , to which a gear 7 is connected in a rotationally fixed manner. The rotary drive gear 5 contains a safety clutch 8 in the drive train between the motor 3 and the spindle 6 .

The spindle 6 is connected to a tool holder 10 , in which a drilling tool 11 can be inserted in a rotationally locking manner. However, the tool holder 10 could also be arranged in a rotationally fixed manner on the housing 2 , so that only the front end of the spindle 6 is connected to the drilling tool 11 in a rotationally locking manner. The pneumatic striking mechanism 4 is located within the spindle 6 and has a piston 12 driven mechanically to and fro, a racket 13 and a striker 14 . The latter acts directly on the shaft end of the drilling tool 11 .

A safety device 16 for switching off the rotary drive is also arranged in the housing 2 . Its essential parts are a mass piece 17 and a switching element 18 . The mass piece 17 has approximately the shape of a spool of thread and is movably mounted with its central bore 19 on a housing-fixed receptacle designed as an axis 20 . This runs at a distance from the spindle 6 in the tangential direction to this. The mass piece 17 is pushed to the right by a weak return spring 21 arranged on the axis 20 to the left of it in the direction of view of the drilling tool 11 , so that when the housing 2 is turned to the left in the direction of the arrow, a displacement path to the left against the return spring 21 acts as an inert mass remains. In its central circumferential section, the mass piece 17 has an annularly closed notch 23 as the switching piece 22 . When the mass piece 17 is rotatably supported on the axis 20, this could also extend elongated in the axial direction. In addition to the notch 23, there remains a raised collar 24 on which a switching alarm 25 of a switching element 18 rests in normal operation.

The switching element 18 is pivotably mounted on a pin 26 held parallel to the spindle 6 in the housing 2 . In addition to the switching arm 25, it has a locking arm 27 , which extends approximately tangentially to the spindle 6 away from the pin 26 and carries a locking hook 28 at the end. This is designed such that it can engage in a toothing 29 on the spindle or on the gearwheel 7 connected to it in a rotationally locking manner when the switching element 18 is pivoted.

A spring 30 acts on the locking arm 27 in an approximately radial direction to the spindle 6 . In normal operation, however, the latch arm 27 is kept out of engagement with the toothing 29 by the switching arm 25 . The switching element 18 also has a reset device 31 , which is attached here as a lever to the switching arm 25 and is accessible from the outside via a housing opening 32 . To protect against unintentional actuation or blocking, the reset device 31 is arranged sunk. The reset 31 can also, for. B. can be actuated by an electromagnet in an electromechanical way via a suitable switch on the housing 2 .

The safety clutch 8 is designed such that a spur gear 35 which meshes with the pinion 34 of the motor 3 is connected to the shaft 37 thereof via spring-loaded latching members 36 . The shaft 37 carries a bevel gear 38 which meshes with the gear 7 . If a predetermined limit torque between the spur gear 35 and the (blocked) bevel gear 38 is exceeded, the locking members 36 snap over and thus decouple the tool holder 10 from the motor 3 . The limit torque, because of the safety device 16 is either z. B. to perform heavy work by powerful operators high or can - set low - offer redundant security.

In Fig. 3 the mounting of the switching element 18 on the pin 26 is shown. The pin 26 itself is relentlessly held in an eyelet 40 of the housing 2 and fixed by means of a locking ring 41 . Between an eye 42 of the locking arm 27 and the pin 26 , a ring 43 made of rubber or another elastic material is inserted for damping.

The elements of the safety device 16 are in the normal position shown in FIGS. 1 and 2 during normal operation of the rotary hammer. If the right hand drilling tool 11 z. B. because of a reinforcing iron suddenly hooked in the bottom of the drill and no longer rotates, the housing 2 suddenly begins to turn to the left in the direction of the arrow. The mass piece 17 remains silent on the axis 20 due to its inertia and its mobility, ie it shifts relative to the housing 2 and the switching element 18 to the left. The switching arm 25 enters the notch 23 and the spring 30 presses the locking arm 27 against the spindle 6 in the toothing 29 thereof. The housing 2 is now suddenly rotatably coupled to the stationary spindle 6 . With the motor 3 still running, the drilling tool 11 can be torn off under certain circumstances and the drilling work can be continued. If this does not occur, the safety clutch 8 separates the motor 3 from the fixed spindle 6 . After the motor 3 has been switched off and the drilling tool 11 has been cleared, the rotary drive is activated again by manually actuating the reset device 31 . The switching arm 25 leaves the notch 23 so that the spindle 6 can be freely rotated relative to the housing 2 again. At the same time, the return spring 21 moves the mass piece 17 to the right into its starting position for the drilling operation.

As an additional safety measure, it can be provided that the switching element 18 is assigned a limit switch for switching off the motor 3 . This would e.g. B. actuated by the locking arm 27 when snapping into the toothing 29 . Because of the running of the motor armature and the rotary drive gear 5 , a safety clutch 8 is nevertheless required in most cases.

Of the second embodiment according to FIGS. 4 and 5, only the functional parts of the safety device are shown schematically. For functionally identical individual elements, reference numbers increased by 100 compared to the first exemplary embodiment are used.

A spindle 106 with teeth 129 is rotatably mounted in a housing 102 . A mass piece 117 is designed as a ring and is also mounted in the housing 102 in a low-friction bearing 150 coaxial to the spindle 106 . The mass piece 117 is held in its initial position on a radial projection 149 by a weak return spring 121 supported on the housing 102 . The switching piece 122 is arranged as a short groove 123 of a few angular degrees on the circumference of the mass piece 117 . In addition to the groove 123 , a non-notched circumference 124 of the mass piece 117 bears a switching roller 125 mounted on the switching element 118 , which is designed as an outer ring of a ball bearing. The switching element 118 is pivotally mounted about a pin 126 fixed to the housing and is prestressed in the direction of the spindle 106 by means of a spring 130 . At the upper end, the switching element 118 has a latching hook 128 , which is provided for engaging in the toothing 129 of the spindle 106 . On the outside of the housing 102 there is a reset 131 , which is designed as a spring-loaded slide with a lug 151 which extends through a housing opening 132 .

In the normal operation shown in FIGS . 4 and 5, the switching roller 125 rests on a notched circumference 124 and the spindle 106 can rotate freely to drive a drilling tool. If the drilling tool blocks in the borehole, the housing 102 suddenly begins to rotate to the left in the direction of the arrow. Due to its inertia, the mass piece 117 remains in its position without rotating. This leads to the switching roller 125 rolling on the circumference 124 and falling into the groove 123 . As in the first exemplary embodiment, the latching hook 128 engages in the toothing 129 and fixes the spindle 106 relative to the housing 102 .

To release the safety device, the reset mechanism 131 is displaced against the force of its spring, the lug 151 engaging the latch arm 127 and pivoting it back against the spring 130 . The mass piece 117 is also brought into its initial position by the return spring 121 .

From the third exemplary embodiment according to FIGS. 6 and 7, only the functional parts of the safety device are also shown schematically. For functionally identical individual elements, reference numbers increased by 200 compared to the first exemplary embodiment are used.

The mass piece 217 of the safety device is rotatably mounted coaxially behind the spindle 206 on an axis 220 fixed to the housing and is held in its initial position by a return spring 221 which engages a radial projection 249 . Like the mass piece 117 in the second exemplary embodiment, it has a groove 223 as the switching piece 222 and a circumferential piece 224 with a further diameter. A switching arm 225 of a switching element 218 rests thereon. This is mounted on a pin 226 fixed to the housing and extends parallel to the spindle 206 . At its end opposite the pin 226 , it carries a locking hook 228 for engaging a toothing 229 on the spindle 206 . The latching hook 228 can optionally be supported elastically on the housing ribs 252 on the side. A lever protruding from the housing 202 at the rear acts as a reset 231 .

The function of the safety device corresponds to that in the second exemplary embodiment. When released, the locking arm 227 pivots downwards and engages with the locking hook 228 in the toothing 229 . The housing rib 252 prevents lateral evasion. The hard engagement can be dampened by means of a rubber pad applied to the housing rib 252 . To restore the operability of the rotary hammer, the reset 231 is operated manually in the direction of the arrow.

In addition to drilling rigs, the invention also applies to others Hand machine tools with a rotating working movement, e.g. B. Sawing, application.

Claims (9)

1. Handheld power tool, in particular a drilling device, with a housing ( 2 , 102 , 202 ), preferably an electric motor ( 3 ) and a spindle ( 6 , 106 , 206 ) driven in rotation by it, and with a by rotating the housing ( 2 , 102 , 202 ) triggerable mass piece ( 17 , 117 , 217 ), characterized in that the mass piece ( 17 , 117 , 217 ) is relative to the housing ( 2 , 102 , 202 ) and approximately tangential or in the circumferential direction to the spindle ( 6 , 106 , 206 ) has a movable switching element ( 22 , 122 , 222 ) which interacts with a switching element ( 18 , 118 , 218 ) stopping the spindle ( 6 , 106 , 206 ) so that the switching element ( 18 , 118 , 218 ) is approximately in the radial direction Spindle ( 6 , 106 , 206 ) is pivotally mounted in the housing ( 2 , 102 , 202 ) and that when triggered by the mass piece ( 17 , 117 , 217 ) from an operating or starting position, in particular by spring force into the still rotating spindle ( 6 , 106 , 206 ) can be snapped into place , 2. Hand tool according to claim 1, characterized in that the switching piece ( 22 , 222 ) as an axially or radially arranged projection or recess ( 23 , 223 ) on the on a housing-fixed receptacle ( 20 , 120 , 220 ) arranged mass piece ( 17 , 217 ) is formed. 3. Hand tool according to Claim 1 or 2, characterized in that the position of the switching piece ( 22 , 122 , 222 ) arranged on the mass piece ( 17 , 117 , 217 ) changes with jerky rotation of the housing ( 2 , 102 , 202 ) relative to Housing ( 2 , 102 , 202 ) causes the switching member ( 18 , 118 , 218 ) to pivot into the latching position. 4. Hand tool according to one of claims 1 to 3, characterized in that the mass piece ( 17 ) is mounted in a translationally movable manner on an axis ( 20 ). 5. Hand tool according to one of claims 1 to 3, characterized in that the mass piece ( 217 ) in the extension of the spindle ( 206 ) is rotatably mounted coaxially behind this on an axis ( 220 ). 6. Hand tool according to one of claims 1 to 5, characterized in that the spindle ( 6 , 106 , 206 ) is toothed on its outer circumference in the region of the switching element ( 18 , 118 , 218 ). 7. Hand tool according to one of claims 1 to 6, characterized in that in the drive train between the motor ( 3 ) and the spindle ( 6 , 106 , 206 ) a preferably locking, releasable safety clutch ( 8 ) is arranged. 8. Hand tool according to one of claims 1 to 7, characterized in that the switching element ( 18 , 118 , 218 ) for shock absorption is elastically mounted in the housing ( 2 , 102 , 202 ). 9. Hand tool according to one of claims 1 to 8, characterized in that the switching element ( 18 , 118 , 218 ) has a manually or electromechanically actuable reset device ( 31 , 131 , 231 ) which, after blocking the spindle ( 6 , 106 , 216 ) the switching element ( 18 , 118 , 218 ) for releasing the rotary drive is returned to its starting position.