EP1819486A1

EP1819486A1 - Handheld machine tool, especially a drill hammer and/or a percussive drill

Info

Publication number: EP1819486A1
Application number: EP05771980A
Authority: EP
Inventors: Karl Frauhammer; Heinz Schnerring; Willy Braun; Axel Kuhnle
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2004-09-30
Filing date: 2005-07-22
Publication date: 2007-08-22
Also published as: JP2008514440A; CN100544896C; DE102004047470A1; JP4778516B2; WO2006034899A1; CN101031393A

Abstract

The invention relates to a handheld machine tool, especially a drill hammer and/or a percussive drill. Said machine tool comprises a hammer tube (15) which is rotatably arranged in a housing (11) and is used to rotatably drive a tool receiving element (16) holding a tool in a rotationally fixed and axially displaceable manner, a motor-driven drive toothed wheel which is arranged on the hammer tube (15) and is used to rotatably drive the hammer tube (15), and a latch coupling (24) comprising concentric coupling parts that are engaged by means of torque-transmitting elements (26) and can be latched against a radial force of a coupling spring when a threshold torque is exceeded. One of said coupling parts is formed by the hammer tube (15), and one is a motor-driven percussive mechanism (18) which is arranged in the hammer tube (15) and is used to drive the tool in a translatory manner. The aim of the invention is to produce a robust latch coupling (24) that can be used both for a hammer tube (15) that is axially fixed in relation to the housing (11) and for a hammer tube (15) that can be axially displaced in relation to the housing (11), said hammer tube (15) being embodied as a single component or in several parts. To this end, the other coupling part of the latch coupling (24) is formed by a coupling sleeve (25) that is arranged on the hammer tube (15) in a sliding manner and can be coupled to the drive toothed wheel (14) for the fixed rotary connection.

Description

Hand tool, in particular drilling and / or Schlaqhammer

State of the art

The invention relates to a hand tool, in particular a drill and / or percussion hammer, according to the preamble of claim 1.

Known handheld power tools of this type are provided with a safety coupling, which allows the operator to stop the power tool abruptly, e.g. when jamming a drilling tool, to protect against too high a reaction torque.

In a known power tool designed as Überrastkupplung safety coupling is arranged on the two-part executed hammer tube and between the outer hammer tube part and the

Tool holder preferably integrally supporting inner hammer tube part, which is inserted with an end portion slidably inserted into the outer hammer tube part, effective. The Überrastkupplung has a plurality of over the circumference of the hammer tube equidistantly arranged locking balls, which engage radially displaceable and form-fitting in holes of the outer hammer tube part and tangentially positively tangentially positively immerse in the end portion of the inner hammer tube portion formed axial and on the other hand radially project beyond the circumference of the outer hammer tube portion , An axially displaceably arranged on the outer hammer tube part coupling ring is pressed by a trained as a compression spring clutch spring with an inner cone on the projecting portion of the detent ball, whereby the detent balls radially acting force component is generated, which determines the limit torque of Überrastkupplung. When exceeding this limit torque, the detent balls are pressed against the force of the coupling ring acting on the coupling spring radially outward, move the coupling ring against the force of the clutch spring and emerge from the axial recesses in inner hammer tube part off. Thereby, the connection of outer and inner hammer tube part is separated, and the outer hammer tube part can rotate freely on the inner hammer tube part, which is held over the tool in the workpiece, for example. The rotary drive of the hammer tube via the rotatably mounted on the outer part of the hammer tube drive gear, which is designed as a bevel gear and is driven by a reduction gear by an electric motor.

In a likewise known hand tool of the type mentioned, the hammer tube is made in one piece and carries at its front end preferably integrally the tool holder. On the hammer tube, which in turn is formed as a bevel gear drive gear, which is driven by a reduction motor of an electric motor. By means of an axially displaceable on the hammer tube Schaltrings the hammer tube is either with the drive gear rotatably connected (operating mode impact drilling or drilling) or non-rotatably mounted on the housing (chiseling mode). The Überrastkupplung is arranged in a gear stage of the reducer.

Advantages of the invention

The hand tool of the invention with the features of claim 1 has the advantage that the novel Überrastkupplung is compact and robust and can be realized with low-cost components. The hand tool can be equipped without structural changes of Überrastkupplung both with a relative to the housing axially immovable and with a relative to the housing axially displaceable hammer tube, the hammer tube can be made one or more parts. Since the Überrastkupplung is arranged even with a one-piece hammer tube on the hammer tube itself - and not as in the known hand tool with a one-piece hammer tube in the reducer - the Überrastkupplung works at the low hammer tube speed, so that significantly longer service life of Überrastkupplung be achieved with constant torque. Also, the catching of the clutch is due to the lower speed much less wear intensive than in the known hand tool with arranged in the transmission overrunning clutch.

The coupling sleeve of the novel Überrastkupplung can be easily expanded into a multi-functional part by next to the actual coupling function still a bearing function for the hammer tube, a control function for the percussion and a carrier function for a switching ring for switching the operating modes "drilling" or "Schlagbohren "," Chisel "and" Neutral "can be assigned.

The measures listed in the further claims advantageous refinements and improvements of the claim 1 hand tool are possible.

According to an advantageous embodiment of the invention, the slidably seated on the hammer tube coupling sleeve is received in a fixed bearing in the housing, so that the coupling sleeve also assumes a bearing function for the hammer tube. The plain bearing can be used in accordance with an embodiment of the invention explained below for controlling the striking mechanism.

According to an advantageous embodiment of the invention, the coupling between the coupling sleeve and drive gear by means of a on the

Coupling sleeve seated switching rings made with axial toothing. The axial toothing engages with an axial toothing formed on the coupling sleeve, preferably in a rear sleeve section facing away from the coupling ring. The switching ring can be coupled by axial displacement either with the drive tooth edge or the housing in a rotationally fixed manner. By means of this switching ring, the various operating modes of the power tool - A -

adjustable, namely "drilling / impact drilling" and "chiselling" and a neutral or zero position in which the coupling sleeve is neither coupled to the drive wheel, nor fixed to the housing. In this embodiment of the invention, the coupling sleeve also assumes carrier function for the switching ring for switching the operating modes of the power tool.

According to an advantageous embodiment of the invention, the hammer tube is axially displaceably mounted in the housing against the force of a return spring and limits the axial displacement by means of two stops formed on the housing and a counter-stop formed on the hammer tube. The front stop sets at axially unloaded hammer tube an idle position and the rear stop defines a working position for the hammer mechanism with axially loaded hammer tube. This makes it easy to idle the impactor by removing the contact pressure from the tool, e.g. by lifting or lifting the hand tool from the workpiece cause.

According to an advantageous embodiment of the invention, the percussion mechanism is designed as Luftpolsterschlagwerk and has a guided in the hammer tube, translationally driven piston and a piston spaced axially displaceable in the hammer tube, acting on the tool firing pin, wherein in the hammer tube of the piston and firing pin an air cushion is included. In the air cushion area congruent radial bores are provided in the hammer tube and in the coupling sleeves whose arrangement is adapted to the displacement of the hammer tube so that they are covered in the working position of the hammer tube from the sliding bearing and pushed out in the idle position of the hammer tube from the sliding bearing and thus are open. With these radial bores and the plain bearing a sleeve control for the impact mechanism is realized. Due to the large mass and the axial travel of the hammer tube, in conjunction with the opening of the radial bores, energy from the bat and the striker at the transition of the Hammer tube in the idle rapidly degraded. This protects the components, saves a striking pin catching device and allows a longer service life of the power tool. In addition, a short displacement of a between the firing pin and the tool in the hammer tube axially displaceable Döppers is possible. This short displacement of the striker in turn allows a good seal with little wear of the striker seal.

drawing

The invention is described in more detail below with reference to an embodiment shown in the drawing. Show it:

1 is a schematic side view of a hand tool, partially cut,

2 shows a detail of a longitudinal section of the power tool in FIG. 1 with a hammer tube located in the working position, FIG.

3 is a same view as in Fig. 2 with befindlichem in idle position hammer tube,

Fig. 4 is an enlarged view of the detail IV in Fig. 2 at

Response of the overrunning clutch.

Description of the embodiment

The machine tool shown schematically in FIG. 1 in side view and in the scope of interest here also in longitudinal section is called a hammer drill and / or percussion hammer, also known as a combination hammer. It has a housing 11 which contains a particular electric drive motor 12, which works via a gear 13 on a downstream drilling and / or impact mechanism. For this purpose, the gear 13 is in engagement with a drive gear 14, which is coupled to the rotary drive of a hammer tube 15 with this. The drive gear 14 is preferably formed as a bevel gear. By means of the drive motor 12 and the gear 13 are on the drive gear 14, the hammer tube 15 and by means of this a tool holder 16, in which a tool 17 is held non-rotatably and axially displaceable, rotationally driven. Of the drive motor 12 is also a percussion mechanism 18 via the gear 13 by means of an upstream crank mechanism 19 driven in translation. The percussion mechanism 18 arranged in the hammer tube 15, which is designed as a so-called air cushion impact mechanism, has - as can be seen in particular in FIGS. 2 and 3 - a piston 20 reciprocally driven by the crank mechanism 19 and one of which is spaced apart from the piston 20 an air cushion 22 enclosing bat or firing pin 21, and a striker 21 in the hammer tube 15 downstream striker 23, which acts directly on the tool holder 16 held in the tool 17. Piston 20, striker 21 and striker 23 are axially displaceably guided in the hammer tube 15 and sealed against the inner wall of the hammer tube 15 airtight. Between the drive gear 14 and the hammer tube 15 a Überrastkupplung 24 is provided which separates the drive connection between the drive gear 14 and the hammer tube 15 when a limit torque is exceeded.

The coupling 24 is z. B. designed as Überrastkupplung. The Überrastkupplung 24 is shown in Fig. 2 and 3 only with the upper half-section. The Überrastkupplung 24 has two, by means of torque transmitting transmission elements in engagement coupling parts which are latched when a predetermined limit torque against a force is exceeded. The one coupling part is slidable from the hammer tube 15 or a part connected to the hammer tube 15 and the other coupling part from one on the hammer tube 15 seated coupling sleeve 25 is formed. The transmission elements are formed by locking balls 26 which are offset by equal circumferential angle to each other in radial bores 27 in the coupling sleeve 25 are guided radially displaceable. The radial bores 27 have a bore diameter which is slightly larger than the ball diameter of the detent balls 26. The detent balls 26 dive on the one hand in frustoconical detent recesses 28, which are offset by the same circumferential angle as the radial bores 27 in the coupling sleeve 25 in the hammer tube 15, and on the other hand project radially beyond the outer sleeve wall of the coupling sleeve 25. The conical locking recesses 28 have a decreasing to the bottom of the locking recesses 28 clear cross-section, wherein the cross section corresponds to the coupling sleeve 25 facing the bore hole cross-section of the radial bores 27 in the coupling sleeve 25. A coupling ring 29 which sits axially displaceable on the coupling sleeve 25, has an inner cone 291, with which he under the action of a clutch spring 30 on the

Projecting region of the locking balls 26 is pressed. The clutch spring 30 is formed for example as a compression spring which concentrically surrounds the hammer tube 15 and on the one hand on the coupling ring 29 and the other hand supported on the hammer tube 15 and the inner cone 291 the locking balls 26 acted upon by a radial force component, the locking balls 26 in the

Press latching depressions 28, so that the coupling sleeve 25 and the hammer tube 15 are rotatably connected to each other. This radial force component determines the magnitude of the limit torque at which the lockup clutch 24 disengages. The clutch spring 30 presses at the same time on the coupling ring 29 and the locking balls 26, the coupling sleeve 25 against a formed on the hammer tube 15 radial shoulder 31 and on the other hand puts a pushed onto the hammer tube 15 spring plate 32 to a snap ring 34 which is incorporated into a machined in the hammer tube 15 annular groove 33 is used.

The hammer tube 15 is rotatably mounted in the housing 1, in its the tool holder nahliegenden, front area by means of a housing 11th fixed pivot bearing 35 and in its rear region by means of a near the Überrastkupplung 24 arranged plain bearing 36 which is also fixed in the housing 11 and the coupling sleeve 25 receives. The coupling sleeve 25 is provided in a side facing away from the coupling ring 29, the rear sleeve portion with an axial toothing 37 (FIG. 4), which meshes with a similar axial toothing 38 of an intermediate ring 46. The intermediate ring 46 forms the radial distance to a drive gear 14 formed on the axial toothing 47. In the axial spline 38 of the intermediate ring 46 with a similar spline engaging switching ring 39 is connected by axial displacement either on the one hand with the drive gear 14 via the splines 47 rotatably connected and on the other hand Housing 11 can be fixed non-rotatably via a toothing formed on this, wherein in both displacement positions the Axialverzahnungen 37, 38 of the coupling sleeve 25 and intermediate ring 46 on the one hand and the splines 38 on the intermediate ring 46 and the axial teeth on the switching ring 39 on the other hand engage each other. If the switching ring 39 is shifted to the left in FIG. 2, the coupling sleeve 25 is fixed to the housing 11, and if the switching ring 39 is displaced to the right in FIG. 2, the coupling sleeve 25 is connected in a rotationally fixed manner to the drive gear 14. The hammer tube 15 is housed axially displaceable in the housing 11 against the force of a return spring 35 in the pivot bearing 35 and the plain bearing 36, wherein the axial displacement of the hammer tube 15 is limited by means of two formed on the housing 11 attacks and a trained on the hammer tube 15 counter-attack. The left in Fig. 2 and 3, front stop, which is formed by the pivot bearing 35, places at axially unloaded hammer tube 15 is an idle position and in Figs. 2 and 3 right, rear stop, which is formed by an annular shoulder 41 formed in the housing 11 is, specifies the working position for the percussion mechanism 18 at axially loaded hammer tube 15. The axial load of the hammer tube 15 is effected by the axial pressing of the tool 17 to the workpiece. The arranged on the hammer tube 15 counter-stop is formed by the spring plate 32, at the up to the

Inner wall of the housing 11 reaching Tellerrand itself as a compression spring trained and concentric with the hammer tube 15 and the clutch spring 30 arranged return spring 40 is supported. The counter bearing of the return spring 40 is formed by a formed in the housing 11 radial shoulder 42.

In the air cushion area of the hammer tube 15 between the piston 20 and the firing pin 21 radial bores 43 and in the coupling sleeve 25 radial bores 44 are introduced into the hammer tube 15, which are congruent. Preferably, the radial bores 43, 44 are arranged offset by the same circumferential angle to each other. In this case, the radial bores 43, 44 arranged in coordination with the displacement of the hammer tube 15 so that they are in the

Working position of the hammer tube 15 (Fig. 2) are covered by the sliding bearing 36, the air cushion 22 is thus hermetically sealed. In the neutral position of the hammer tube 15, however, the radial bores 43, 44 are pushed out of the sliding bearing 36 (Fig. 3), so that open, and the air cushion 22 is in air exchange communication with the interior of the housing 11. By opening the air cushion 22 enclosing space between the piston 20 and the firing pin 21 via the radial bores 43, 44, the energy of firing pin 21 and striker 23 is rapidly degraded at the transition of the power tool in the idle, and the power tool goes well in idle. This protects components, also saves a safety gear for the

Striker 21 and allows a short culvert, which in turn ensures a good seal and a low wear of Döpperdfchtung 45.

In the operating mode "percussion drilling" and in the "drilling" mode with the impact mechanism turned off, the hammer tube 15 is moved from the tool 17 via the striker 23 against the force of the tool 17 when the tool 17 is held in the tool holder 16 and the workpiece is pressed axially against the hand tool Return spring 40 pushed into the working position shown in Fig. 2. In Fig. 2, the switching ring 39 is shown in its neutral or zero position. If the switching ring 39 is shifted in Fig. 2 to the right, so the coupling sleeve 25 is rotatably coupled to the drive tooth edge 14. If the drive motor 12 is now engaged, the hammer tube 15 is set in rotation via the rotating drive gearwheel 14 and the detent coupling 24, which rotatorily drives the tool 17 via the tool receptacle 16, which is connected to it in a rotationally fixed manner. If the predetermined by the clutch spring 30 limit torque exceeded, for example, the fact that the rotating tool 17 sets in the workpiece, the detent balls 26 are pressed out of the cone-like detent recesses 28 under axial displacement of the coupling ring 29 against the clutch spring 30 radially outward until they are out of the Locking recesses 28 in the hammer tube 15 emerge (Fig. 4) and now the coupling sleeve 25 can rotate relative to the hammer tube 15.

If the hand tool is lifted from the workpiece, the axial pressure exerted by the tool 17 on the striker 23 on the hammer tube 15, away, and the return spring 40 pushes the hammer tube 15 via the spring plate 32 in the in Fig. 3rd shown idle position. As a result, the radial bores 43, 44 slide out of the sliding bearing 36, so that the space between the piston 20 and the firing pin 21 containing the air cushion 22 is opened to the outside. By opening the air cushion space, the piston 20 can no longer suck the firing pin 21. Striker 21 and striker 23 are in the neutral position.

Instead of the described one-piece hammer tube 15 and a two- or multi-part hammer tube in the housing 11 may be rotatably mounted and axially fixed or axially displaceable. As in the known, initially described hand tool then z. B. the two hammer tube parts, of which the front hammer tube part integrally carries the tool carrier, inserted into one another, but now rigidly connected. Compared with the known hand tool with two-piece hammer tube now to be produced hammer tube is much cheaper because the two hammer tube parts not rotate into each other and therefore not the contact surfaces of the hammer tube parts must be ground.

In the hand-held power tool described, the hammer tube 15 can also be arranged axially fixed and executed in one or more parts. Then, however, eliminates the simple, described above "sleeve control" for opening the air cushion space at the transition of the impact mechanism in the idle.

Claims

claims

1. Hand tool, in particular drill and / or percussion hammer, with a in a housing (11) rotatably mounted hammer tube (15) for rotatably driving a tool holder (16), with a motor driven drive gear (14) for rotatably driving the hammer tube (15 ), with a when exceeding a limit torque, the rotary connection to the tool holder (16) interrupting clutch (24) having two means of torque transmitting transmission elements engaging coupling parts, one of which coupling the hammer tube (15) or a with the hammer tube (15) is connected part, characterized in that the other coupling part is a on the hammer tube (15) slidably seated coupling sleeve (25) which is coupled to the drive gear (14) for rigid rotary connection.

2. Hand tool according to Claim 1, characterized in that the coupling sleeve (25) circumferentially offset from each other arranged guides and the hammer tube (15) congruently arranged latching recesses (28), that the

Transmission elements are held radially displaceably in the guides and on the one hand dipping in the locking recesses (28) and on the other hand project beyond the outer periphery of the coupling sleeve (25), and that a coupling ring (29) pressed by the coupling spring (30) to the protruding portion of the transmission elements in that a force component directed radially inwards towards the hammer tube (15) acts on the transmission elements.

3. Hand tool according to Claim 2, characterized in that the coupling ring (29) slidably seated on the coupling sleeve (25) and has a voltage applied to the transmission elements inner cone (291), and that the coupling spring (30) is formed as a compression spring concentrically surrounding the hammer tube (15), which is supported on the coupling ring (29) on its front end remote from the inner cone (291) and on the hammer tube (15) on the other hand.

4. Hand tool according to Claim 3, characterized in that the coupling sleeve (25) through the coupling spring (30) via the coupling ring (29) and the transmission elements against a hammer tube (15) formed radial shoulder (31) is stretched.

5. Hand tool according to one of claims 2 - 4, characterized in that the transmission elements are latching balls (26), which in each case offset by preferably the same circumferential angle offset from each other in the coupling sleeve (25) radial bores (27) are added, the bore diameter little bigger than that

Ball diameter, and that the locking recesses (28) in the hammer tube (15) are frusto-conical with the bottom of the locking recesses decreasing clear cross-section.

6. Hand tool according to one of claims 1-5, characterized in that the coupling sleeve (25) in a housing (11) fixed slide bearing (36) is accommodated.

7. Hand tool according to one of claims 1-6, characterized in that the coupling between the coupling sleeve (25) and

Drive gear (14) by means of a switching ring (39) is made via an intermediate ring (46) with axial teeth (38) with a on the coupling sleeve (25), preferably in a of the coupling ring (29) facing away from the rear sleeve portion of the coupling sleeve (25 ), formed axial toothing (37) is engaged, and that the Shift ring (39) by axial displacement optionally with the drive gear

(14) or the housing (11) is rotatably coupled.

8. Hand tool according to one of claims 1-7, characterized in that the hammer tube (15) in the housing (11) against the

Force of a return spring (40) is axially displaceably mounted and that the axial displacement by means of two on the housing (11) formed stops and a hammer tube (15) formed counter stop is limited, of which a front stop at axially unloaded hammer tube (15) has an idle position and a rear stop at axially loaded hammer tube (15) a working position for a hammer tube

(15) arranged striking mechanism (18) determines.

9. Hand tool according to Claim 8, characterized in that the front stop of a the hammer tube (15) in one of

Tool holder (16) near, front portion of the hammer tube (15) receiving, in the housing (11) fixed pivot bearing (35) and the rear stop of a in the housing (11) formed annular shoulder (41) is formed.

10. Hand tool according to Claim 8 or 9, characterized in that the counter-stop of a spring plate (32) is formed on the hammer tube (15) and arranged by the coupling spring (30) on a hammer tube (15) formed radial shoulder, preferably to a in a ring groove (33) received snap ring (34) is pressed.

11. Hand tool according to one of claims 8 - 10 .dadurch in that the return spring (40) is designed as a compression spring which surrounds the hammer tube (15) concentrically and on the one hand on Spring plate (32) and on the other hand on a on the housing (11) formed radial shoulder (42) is supported.

12. Hand tool according to one of claims 8 - 11, characterized in that the percussion mechanism (18) is designed as Luftpolsterschlagwerk and one in the hammer tube (15) out, translationally driven piston (20) and one of the piston (20) spaced, in the hammer tube (15) axially displaceably guided, acting on the tool firing pin (21), between which an air cushion (22) is enclosed, and that in the air cushion area in the hammer tube (15) and in the coupling sleeve (25) congruent radial bores (43, 44) are provided, whose arrangement on the displacement of the hammer tube (15) is tuned so that they are covered in working position befindlichem hammer tube (15) from the sliding bearing (36) and in idle position befindlichem hammer tube (15) due

Ausschiebens from the sliding bearing (36) are open.