EP2512752B1 - Hand-power tool - Google Patents

Description

State of the art

As the closest prior art is EP2 127 820 A1 considered. From the DE 34 05 922 is a hand tool, in particular a hammer drill, known with a gear, a machine housing and an inner housing disposed within the machine housing, wherein the inner housing is provided to receive transmission elements of the transmission. Here, the transmission elements are mounted by means of bearing elements in the inner housing. The inner housing supports the transmission elements along an axial and along a radial direction.

Disclosure of the invention

The invention according to claim 1 is based on a hand tool, in particular a drill and / or chisel, with a gearbox, with a machine housing and with an inner housing disposed within the machine housing, which is provided to at least partially receive at least one transmission element of the transmission.

It is proposed that a bearing of the at least one transmission element is divided between the inner housing and the machine housing. The term "gear" should be understood here in particular a mechanism comprising at least two components, in particular transmission elements, which are provided by means of an interaction to at least change an amount of force, torque and / or speed and / or with their help one Movement form, such as a rotation, in another form of movement, such as translation, can be converted and / or are intended to transmit impact pulses. The components, in particular gear elements, can here be embodied as gears, shafts, clubs, firing pin, hammer tubes, wobble bearings, bearings and other components that appear to be appropriate to a person skilled in the art. Advantageously, the at least one transmission element is designed as a hammer tube and / or as a shaft, in particular as an output shaft and / or intermediate shaft. In this context, "intended" should be understood to mean in particular specially equipped and / or specially designed.

The term "machine housing" should in particular define an outermost shell that encloses components of the handheld power tool, so that the components of the handheld power tool are substantially protected from external influences, wherein the shell is provided to an operator of the power tool gripping and operation, in particular a guide to enable the hand tool machine. In this case, the machine housing may be formed from a unit which comprises at least two housing half-shells, which can be joined together along a connecting plane. Particularly preferably, the machine housing is formed of a plurality of units, in particular of a gear housing and a motor housing, wherein the gear housing and the motor housing are pot-shaped. To form the machine housing, the cup-shaped gear housing and the pot-shaped motor housing are connected to one another by means of connecting elements known to the person skilled in the art in a connecting plane. However, it is conceivable that the gear housing and the motor housing each have two housing halves, which can each be joined together along a connecting plane. The machine housing may be formed from various materials that appear appropriate to those skilled in the art, such as a metal, a non-ferrous metal, etc., preferably a plastic. The term "inside" should in particular define a spatial position of at least the inner housing relative to the machine housing, wherein the inner housing is substantially enclosed by the machine housing, in particular in a common plane which is substantially perpendicular to a rotational axis of a disposed within the inner housing gear member and / or to a rotation axis of a tool holder of the power tool runs. The term "partially absorb" is to be understood here in particular an arrangement of the at least one transmission element in the inner housing, wherein at least portions of the at least one transmission element are received by the inner housing, in particular substantially positively surrounded, so that at least one degree of freedom of movement of the at least one Transmission element can be at least partially limited. In connection with a bearing of the at least one transmission element is to be understood by "split" in particular a decoupling of the inner housing of the machine housing with respect to a bearing function, in particular a radial bearing function, the at least one transmission element. It is thus at least a bearing force of the at least one transmission element via the inner housing and at least one bearing force of the at least one transmission element decoupled from the inner housing supported on the machine housing.

By means of the embodiment of the hand tool according to the invention, a summation of tolerances of a bearing of gear elements can be counteracted particularly advantageously. In this way, a game of the transmission elements dependent on the tolerances can be kept particularly low. Particularly in the case of rotationally driven gear elements, such as, in particular, an output shaft and / or an intermediate shaft, a high running accuracy, in particular a high concentricity, can advantageously be achieved by the configuration according to the invention. Thus, a vibration development can be counteracted advantageous.

Preferably, the inner housing is provided to support the at least one transmission element at least axially. The term "axially support" is to be understood here in particular an arrangement of at least the inner housing relative to the at least one transmission element, wherein the at least one transmission element at least partially directly or indirectly against the inner housing, so that a force flow between the at least one transmission element and the Inner housing can take place, in particular a force flow, which is substantially parallel to the axis of rotation of a disposed within the inner housing gear member and / or the axis of rotation of a tool holder the hand tool runs. Furthermore, by means of the axial support at least one degree of freedom of movement of the at least one transmission element along at least one direction, in particular substantially parallel to the axis of rotation of a disposed within the inner housing gear member and / or to the axis of rotation of the tool holder of the power tool to be limited. The term "essentially parallel" should in particular define a direction which, relative to a reference direction, has a deviation, in particular less than 8 °, advantageously less than 5 °, and particularly advantageously less than 2 °. The inner housing can be formed with a small wall thickness, which material and cost can be saved particularly advantageous.

Furthermore, it is proposed that the machine housing is provided to at least radially support the at least one gear element decoupled from the inner housing. The term "radially support" should be understood here in particular an arrangement of the machine housing relative to the at least one transmission element, wherein the at least one transmission element at least partially directly or indirectly to the machine housing, so that a power flow between the at least one transmission element and the machine housing can take place, in particular a force flow which is substantially perpendicular to the axis of rotation of a disposed within the inner housing gear member and / or to the axis of rotation of the tool holder of the power tool. As a result, radial bearing forces, which originate from the at least one gear element, can be supported on the machine housing in a particularly advantageous manner, so that a running accuracy of the at least one gear element can be positively influenced in terms of design.

As shown in claim 1,
For example, the handheld power tool has at least one support element that at least partially penetrates the inner housing along a radial direction. In this context, a "support element" is to be understood in particular as a component which is intended to transmit forces and / or torques occurring in one component to another component. A "radial direction" is to be understood here in particular as meaning a direction which is essentially perpendicular to the axis of rotation of one inside the inner housing arranged gear element and / or extends to the axis of rotation of the tool holder of the power tool. In this context, the term "substantially perpendicular" should be understood to mean a direction which encloses an angle with a reference direction, which in particular has an angle between 85 ° and 95 °. Particularly preferably, the at least one support element bears against the machine housing, so that a radial support, in particular a radial support decoupled from the inner housing, of the at least one gear element on the machine housing can be achieved. By means of the embodiment according to the invention, a decoupling of the inner housing from a radial support of the at least one transmission element can advantageously be achieved.

Preferably, the support element is designed in one piece with a support element which is provided to axially support the inner housing. In particular, the support element is integrally formed with an intermediate flange, which is intended to axially support the inner housing. The term "integral" should in particular be formed in one piece and / or from a cast and / or formed as a component, which is separable only with the aid of a cutting and / or cutting tool. In a preferred embodiment, the support element has a radially outwardly facing free end. It is conceivable, along the radial direction between the free end of the support member and the machine housing to arrange a damping means, so that vibrations that emanate from the at least one transmission element, can be particularly advantageously damped. The damping means can be formed from various materials that appear appropriate to the person skilled in the art. Particularly preferably, the damping means is formed from an elastomer. As a result, a relief of an operator during operation of the power tool can advantageously be achieved. Furthermore, by means of the embodiment according to the invention of the portable power tool advantageous space, cost and installation costs can be reduced.

In addition, it is proposed that the inner housing has at least one radial recess which is provided to at least partially receive the support element. A "radial recess" is to be understood here in particular as a continuous recess of a lateral surface through which it is perpendicular to the axis of rotation of a disposed within the inner housing gear member and / or to the axis of rotation of the tool holder of the power tool, a component is feasible. By means of an interaction of the radial recess of the inner housing and the support element structurally simple advantageous support can be realized.

In a particularly preferred embodiment, the handheld power tool comprises an intermediate flange which has at least one support element which is provided to axially support at least the inner housing. As a result, structurally simple axial support of the inner housing can be achieved. It can be advantageously saved components for realizing the axial support of the inner housing.

Preferably, the hand tool according to the invention has at least two storage levels, in which the at least one transmission element is decoupled from the inner housing radially supported on the machine housing. The bearing planes in this case run essentially perpendicular to the axis of rotation of a gear element arranged within the inner housing and / or to the axis of rotation of the tool receptacle of the hand tool machine. Preferably, the at least two bearing planes along an axial direction, which is substantially parallel to the axis of rotation of a disposed within the inner housing transmission element and / or to the axis of rotation of the tool holder of the power tool, spaced from each other, preferably with an axial distance of at least 2 cm. Particularly preferably, at least one radial bearing is arranged in the at least two storage levels. In this way, a particularly advantageous power flow can be achieved.

Furthermore, it is proposed that the inner housing is formed like a shell. The term "shell-like" is to be understood here in particular as meaning a structure in which the inner housing is formed from at least two housing half-shells, which can be connected to one another along a connecting plane by means of connecting elements known to the person skilled in the art. Particularly preferably, the connecting plane of the housing half-shells of the inner housing extends through the axis of rotation of a transmission element arranged within the inner housing and / or through the axis of rotation of the tool holder of the power tool. In this way, advantageously, accessibility of components arranged in the inner housing, in particular gear elements, for maintenance and / or assembly and / or repair purposes can be achieved.

drawing

Further advantages emerge from the following description of the drawing. In the drawing, an embodiment of the invention is shown. The drawing, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

Fig. 1

eine erfindungsgemäße Handwerkzeugmaschine,

Fig. 2

die erfindungsgemäße Handwerkzeugmaschine mit geöffnetem Maschinengehäuse,

Fig. 3

eine Detailansicht eines montierten Innengehäuses der erfindungsgemäßen Handwerkzeugmaschine,

Fig. 4

eine schematische Schnittdarstellung des Maschinengehäuses entlang der Linie IV-IV aus Figur 2 der erfindungsgemäßen Handwerkzeugmaschine und

Fig. 5

die erfindungsgemäße Handwerkzeugmaschine mit geöffnetem Innengehäuse.

Show it:

Fig. 1

a hand tool according to the invention,

Fig. 2

the hand tool of the invention with the machine housing open,

Fig. 3

a detailed view of a mounted inner housing of the hand tool of the invention,

Fig. 4

a schematic sectional view of the machine housing along the line IV-IV FIG. 2 the hand tool of the invention and

Fig. 5

the hand tool of the invention with an open inner housing.

Description of the embodiment

FIG. 1 shows a hand tool 10 according to the invention, which is designed as a drill and / or chisel hammer. The hand tool 10 comprises a gear 12, a machine housing 14 and an inner housing 16 (FIG. FIG. 2 ), which is intended to be a transmission element 18 of the transmission 12 record. Here, a bearing of the transmission element 18 is divided on the inner housing 16 and the machine housing 14. The transmission 12 includes a percussion unit 36 for generating a shock pulse. The transmission 12 is connected to a drive torque generating drive unit 38 (not shown here). The impact impulse of the percussion mechanism unit 36 and a rotation of an intermediate shaft of the percussion unit 36, a hammer tube of the percussion unit 36 and a tool holder 40 of the power tool 10 are generated in a manner known to those skilled in the art, so that will not be discussed further here. The tool holder 40 of the hand tool 10 is arranged in a front region 42 of the hand tool 10 and is intended to receive a tool 44. On a side 46 facing away from the front region 42, the handheld power tool 10 comprises a main handle 48 for actuating the handheld power tool 10 and for applying a force emanating from an operator to the handheld power tool 10. The handheld power tool 10 is also designed with a detachable auxiliary handle 50. In this case, the auxiliary handle 50 can be detachably fastened to the handheld power tool 10 via a latching connection or other connections which appear meaningful to a person skilled in the art. The auxiliary handle 50 is arranged to guide the hand tool 10 by the operator in the vicinity of the tool holder 40 on the power tool 10. A main extension direction 52 of the power tool 10 extends from the main handle 48 in the direction of the tool holder 40. The main extension 52 runs parallel to a rotation axis 54 of the tool holder 40 located in the tool 44 and a rotation axis 54 of the hammer tube designed as a transmission element 18. Within the designed as a hammer tube gear member 18 are a firing pin, a racket and a hammer pin for transmitting the impact pulse on the tool 44 are arranged (not shown here).

FIG. 2 The machine housing 14 comprises a pot-like gear housing 56 and a pot-like motor housing 58. The gear housing 56 and the motor housing 58 are in a mounted state in a connecting plane 60 in a manner known in the art separable connected with each other. The connecting plane 60 runs perpendicular to the axis of rotation 54 of the tool 44 located in the tool holder 40 and to the axis of rotation 54 of the hammer tube designed as a transmission element 18. The motor housing 58 is partially formed integrally with the main handle 48. Further, within the motor housing 58 designed as an electric motor drive unit 38 is arranged (not shown here). The arranged in an assembled state of the transmission case 56 within the transmission housing 56 inner housing 16 is provided to axially support the transmission element 18 designed as a hammer tube.

Trained as a hammer tube transmission element 18 is mounted by means of a bearing bush 64 designed as a bearing element 66 and a ball bearing 68 formed as a bearing member 70 within the inner housing 16 ( FIG. 5 ). The bearing bush 64 is hereby arranged in an intermediate flange 30 of the portable power tool 10, which is arranged partially within the assembled inner housing 16. Furthermore, the intermediate flange 30 has a support element 20, 24, which is intended to support the inner housing 16 axially. The support member 20, 24 is in this case formed integrally with the intermediate flange 30. The inner housing 16 has a radial recess 28 which is provided to partially receive the support member 20, 24. Furthermore, the inner housing 16 to a receptacle of the ball bearing 68 and the intermediate flange 30 grooves 72, which extend along a circumferential direction 74 in the inner housing 16. The circumferential direction 74 extends in a plane which extends perpendicular to the axis of rotation 54 of the tool 44 located in the tool holder 40 and to the axis of rotation 54 of the gear element 18 designed as a hammer tube. By means of an interaction of edge regions 76 of the grooves 72, the radial recesses 28 of the inner housing 16 and the support member 20, 24, the inner housing 16 is supported along the axial direction 62 on the intermediate flange 30. The trained as a hammer tube gear member 18 is supported via the arranged in one of the grooves 72 of the inner housing 16 ball bearing 68 and one of the edge portions 76 of the grooves 72 axially on the inner housing 16.

Furthermore, the handheld power tool 10 has a support element 20, 24, which partially penetrates the inner housing 16 along a radial direction 22.

This support element 20,24 is integral with the support member 20, 24, which is intended to support the inner housing 16 axially. The support member 20, 24 extends in an assembled state of the machine housing 14 and the inner housing 16, starting from the intermediate flange 30 in the direction of the transmission housing 56 through the recess 28 of the inner housing 16 therethrough. The support member 20, 24 has a radially outwardly facing free end 26 which rests in an assembled state of the power tool 10 to the transmission housing 56. Trained as a hammer tube transmission element 18 is decoupled from the inner housing 16 radially on the machine housing 14, in particular on the transmission housing 56, supported. Overall, the intermediate flange 30 six support elements 20, 24, which are partially formed integrally with the intermediate flange 30. The inner housing 16 in this case has six recesses 28 for receiving the six support elements 20, 24. The six support elements 20, 24 are in this case arranged uniformly along the circumferential direction 74 on the intermediate flange 30. Furthermore, the six recesses 28 are also arranged uniformly along the circumferential direction 74 on the inner housing 16. However, it is conceivable that, depending on the requirement, more than six support elements 20, 24 or less than six support elements 20, 24 are provided, so that the skilled person will provide a meaningful number of support elements 20, 24 and recesses 28 for a specific requirement.

FIG. 3 shows a detailed view of the assembled inner housing 16 of the hand tool 10 according to the invention, wherein the gear housing 56 is dismantled. On one of the tool holder 40 facing side 78 of the inner housing 16, the ball bearing 68 for supporting the formed as a hammer tube gear member 18 in one of the grooves 72 is arranged in an assembled state of the inner housing 16. The inner housing 16 has on this side 78 a recess 80 which is intended to receive a radial element 82 of the gear housing 56. Overall, the inner housing has six recesses 80 for receiving a radial element 82. The radial element 82 is formed as a radial extension 84 of the transmission housing 56 ( FIG. 4 ). The radial extension 84 is arranged on an inner side 86 of the transmission housing 56, which faces the inner housing 16 in an assembled state of the transmission housing 56. Overall, the gear housing 56 six radial extensions 84 which mounted in one State of the gear housing 56 each engage in one of the six recesses 80 of the inner housing 16. However, it is conceivable that more than six radial extensions 84 or fewer than six radial extensions 84 are provided depending on the requirement, so that the skilled person will provide a meaningful number of radial projections 84 and recesses 80 for a specific requirement. The arranged in the inner housing 16 ball bearing 68 includes an outer ring 88 which rests in the mounted state of the gear housing 56 to the radial extensions 84. It is conceivable that between the radial extensions 84 of the gear housing 56 and the outer ring 88 of the ball bearing 68 damping means are arranged, which are intended to dampen vibrations. By means of an interaction of the outer ring 88 of the ball bearing 68 and the radial extensions 84 of the gear housing 56, designed as a hammer tube gear member 18 supports radially on the gear housing 56 from. As a result, radial forces which emanate from the transmission element 18 embodied as a hammer tube are transmitted to the transmission housing 56. The radial extensions 84 of the gear housing 56 are inserted in an assembly of the gear housing 56 along the axial direction 62 in the recesses 80 of the already mounted inner housing 16.

Furthermore, the inner housing 16 comprises a bearing extension 90, which extends along a radial direction 22. In a mounted state of the gear housing 56, the bearing extension 90 extends from the inner housing 16 in the direction of the transmission housing 56. The bearing extension 90 is provided to receive a ball bearing 92 designed as a bearing element 94. For this purpose, the bearing extension 90 has a groove 96 which runs along the circumferential direction 74 in the bearing extension 90 of the inner housing 16. The ball bearing 92 is intended to support a formed as an intermediate shaft 98 shaft 100 of the transmission 12. An axial support of the intermediate shaft 98 in this case takes place by means of an interaction of the ball bearing 92 and edge portions 102 of the groove 96 in the inner housing 16. For a radial support of the intermediate shaft 98, the bearing extension 90 has a recess 104 which is provided to a support member 106 of the transmission housing 56 record. Overall, the bearing extension 90 comprises three recesses 104 (FIG. FIG. 4 ) and the transmission housing 56 comprises three support elements 106, wherein in each case a recess 104 receives a support element 106.

The support elements 106 of the gear housing 56 are provided to radially support the intermediate shaft 98 via the ball bearing 92. The support members 106 of the gear housing 56 are inserted in an assembly of the gear housing 56 along the axial direction 62 in the recesses 104 of the bearing extension 90 of the already mounted inner housing 16.

The hand-held power tool 10 comprises two bearing levels 32, 34, a first bearing plane 32 and a second bearing plane 34, in which the transmission element designed as a hammer tube is decoupled from the inner housing 16 radially on the machine housing 14. The two bearing planes 32, 34 in this case run perpendicular to the axis of rotation 54 of the tool holder 40 located in the tool 44 and the axis of rotation 54 of the hammer tube designed as a transmission element 18. In the first bearing plane 32 are in a mounted state of the machine housing 14 and the inner housing 16, the support elements 20, 24, a portion of the intermediate flange 30, the bearing bush 64 and a portion of the hammer tube designed as a transmission element 18 is arranged. In the second bearing plane 34, in a mounted state of the machine housing 14 and the inner housing 16, the radial extensions 84 of the gear housing 56, the ball bearings 68 and a portion of the transmission element 18 designed as a hammer tube are arranged.

FIG. 4 2 shows a schematic sectional representation of the machine housing 14, in particular of the gear housing 56, of the handheld power tool 10 according to the invention. The radial extensions 84 of the gear housing 56 are arranged in a plane 108 (FIG. FIG. 2 ) arranged in an assembled state of the gear housing 56 perpendicular to the axis of rotation 54 of the tool holder 40 located in the tool 44 and the axis of rotation 54 of the hammer tube designed as a transmission element 18. Furthermore, the radial extensions 84 are arranged uniformly along the circumferential direction 74 in the plane 108. The plane 108 forms the second bearing plane 34 of the power tool 10 in an assembled state of the gear housing 56.

The support elements 106 of the gear housing 56 are arranged in a plane 110 that runs parallel to the plane 108 ( FIG. 2 ), in which the radial extensions 84 the transmission housing 56 are arranged. Here, the plane 110 in which the support elements 106 are arranged, along the axial direction 62 in the direction of the main handle 48 spaced from the plane 108, which has the radial extensions 84 of the gear housing 56. The plane 110 forms in a mounted state of the gear housing 56, a third bearing plane 112 of the power tool 10. The third bearing plane 112 comprises in a mounted state of the power tool 10, a portion of the bearing extension 90 of the inner housing 16, the support members 106, the ball bearing 92 of the intermediate shaft 98th and a portion of the intermediate shaft 98.

FIG. 5 shows the hand tool 10 according to the invention with an open inner housing 16 and disassembled gear housing 56. The inner housing 16 is cup-shaped. In this case, the inner housing 16 comprises two inner housing half-shells 114, 116, which are separably connected to one another in a connecting plane. The connection plane extends through the axis of rotation 54 of the tool 44 located in the tool holder 40 and through the axis of rotation 54 of the gear element 18 designed as a hammer tube.

Claims (9)

1. Portable power tool, in particular a rotary and/or demolition hammer, having a transmission (12), having a machine housing (14) and having an inner housing (16) arranged inside the machine housing (14), said inner housing (16) being provided to at least partially receive at least one transmission element (18) of the transmission (12), wherein the at least one transmission element (18) is mounted in a manner distributed between the inner housing (16) and the machine housing (14), characterized by at least one supporting element (20, 24) which penetrates at least partially through the inner housing (16) in a radial direction (22).
2. Portable power tool according to Claim 1, characterized in that the inner housing (16) is provided to at least axially support the at least one transmission element (18).
3. Portable power tool according to either of the preceding claims, characterized in that the machine housing (14) is provided to at least radially support the at least one transmission element (18) in a manner uncoupled from the inner housing (16).
4. Portable power tool according to one of the preceding claims, characterized in that the supporting element (20, 24) is configured in one piece with a supporting element (20, 24) which is provided to axially support the inner housing (16).
5. Portable power tool according to one of the preceding claims, characterized in that the supporting element (20, 24) has a free end (26) that is directed radially outward.
6. Portable power tool according to one of the preceding claims, characterized in that the inner housing (16) has at least one radial cutout (28) which is provided to at least partially receive the supporting element (20, 24).
7. Portable power tool according to one of the preceding claims, characterized by an intermediate flange (30) which has at least one supporting element (20, 24) which is provided to axially support at least the inner housing (16).
8. Portable power tool according to one of the preceding claims, characterized by at least two bearing planes (32, 34) in which the at least one transmission element (18) is supported radially on the machine housing (14) in a manner uncoupled from the inner housing (16).
9. Portable power tool according to one of the preceding claims, characterized in that the inner housing (16) is formed in a shell-like manner.

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