EP1391269A2 - Hand tool, especially screwdriver - Google Patents

Abstract

A central shaft (9) holds a sunwheel which meshes with planet wheels in mesh with the internal teeth (7) of the ring gear (8). Balls (15) engage with sloping faces (20,21) on a spring-loaded (27) support ring (19), and are accommodated in apertures (14) in a bearing ring (13). The balls project inside the bearing ring and engage in cutouts (16) in the outer rim of the ring gear.

Description

The invention relates to a hand tool, for example Screwdriver, with a machine engine and one over Gearbox from machine engine to a rotary motion driven, connectable with a tool drive shaft, wherein the transmission with at least one epicyclic gear with a rolling in operation on the inner ring gear of a ring gear Gear assembly includes and wherein the ring gear a safety device is assigned by spring force towards the ring gear loaded, movably mounted locking balls which, when occurring with respect to a turn-off torque smaller torques on the ring gear with the Ring gear are in Verrastungseihgriff and this rotatably hold and upon reaching the turn-off torque from the ring gear displaced from its engaged position against the spring force be so that the ring gear vorbeiratschen past the locking balls can.

For example, in the case of a screwdriver, with a Screw is screwed into a workpiece, should the screwing To avoid overloads only up to a certain torque on the screw attack, at the screw is securely tightened. For this purpose, a safety device be provided for the said type, the depends on the torque. The required for screwing Torque becomes under the support of the gear assembly transferred to the ring gear on the drive shaft. there the ring gear is locked by the latching balls latched to it held against rotation. When reaching the turn-off torque is the force exerted by the ring gear on the detent balls force large, that the detent balls back against the spring force, so that the ring gear no longer held but of the Getrieberadanordnung driven to a rotational movement becomes.

It is understood that it is instead of a screwdriver too to any other hand tool can act in the case of one torque-dependent shutdown makes sense.

The present invention is based on the object, the Safety device as simple and inexpensive and in such a way that the turn-off torque from the user adjusted and easy to handle in a simple manner can be adapted to the respective application.

This object is achieved in that the Ring gear enclosed by a machine-mounted bearing ring is, distributed over the circumference, in radial direction through bearing recesses for recording each having a detent ball, wherein the wall thickness of Bearing ring is smaller than the diameter of the detent balls, that associated with the locking balls on the outer circumference of the ring gear Locking recesses are arranged, that the bearing ring of a is enclosed in the axial direction movable support ring, which is loaded by the spring force in the axial direction and via an inclined surface arrangement against the from the Verrastungsausnehmungen protruding and on the other hand on the ring gear adjacent resting balls is held, that the support ring of arranged externally rotatable on the power tool is and that the bevel arrangement of over the circumference distributed, each assigned to a detent ball and in Circumferentially extending inclined surface areas formed within which in the circumferential direction the in Cross-section seen inclined surface slope changed, so that depending on the rotational position of the support ring, the inclined surface areas rest against the detent balls with a different pitch.

At the inclined surface areas becomes in the axial direction deflected on the support ring spring force deflected, so that the on the inclined surface areas adjacent detent balls inside be acted upon the ring gear out. It determines besides the spring force the inclined surface slope on the detent balls applied force. Therefore, the detent balls depending on the Rotational position of the support ring with a different force against held the ring gear. In this way, the turn-off torque can be change and to the respective application to adjust. The handling is very simple, since the Support ring only needs to be twisted.

Advantageous embodiments of the invention are in the subclaims specified.

Figur 1

eine Handwerkzeugmaschine in Gestalt eines Schraubers in schematischer Seitenansicht,

Figur 2

eine Umlaufgetriebestufe des Schraubers nach Figur 1 mit der zugehörigen Sicherungseinrichtung in gesonderter Darstellung in axialer Richtung gemäß Pfeil II in Figur 1 gesehen,

Figur 3

die Anordnung nach Figur 2 im zur Zeichenebene der Figur 1 parallelen Halbschnitt gemäß der Schnittlinie III-III in Figur 2, wobei die innerhalb des Hohlrades angeordnete Getrieberadanordnung der Übersichtlichkeit wegen weggelassen ist und die Rastkugeln am Hohlrad eingerastet sind,

Figur 4

die Anordnung nach Figur 3, wobei das auf das Hohlrad einwirkende Drehmoment das Abschalt-Drehmoment erreicht hat, so dass die Rastkugeln aus den Rastausnehmungen des Hohlrads ausgetreten sind,

Figur 5

den Stützring der Sicherungseinrichtung nach den Figuren 2 und 4 in gesonderter Darstellung im den Figuren 3 und 4 entsprechenden Schnitt,

Figuren 6, 7 und 8

die Stützringwandung in Umfangsrichtung mit Abstand zueinander angeordneten Schnitten, wobei die Schnittebene der Figur 6 der Schnittebene der Figur 5 entspricht und die Schnitte gemäß den Figuren 7 und 8 etwa bei den Schnittlinien gemäß den Pfeilen VII-VII und VIII-VIII gelegt sind,

Figur 9

eine der Figur 3 entsprechende Darstellung einer variierten Sicherungseinrichtung, bei der der Stützring anschließend an die Schrägflächenbereiche jeweils einen Neigungsbereich größerer Steigung aufweist und

Figur 10

die gleiche Variante in der Figur 4 entsprechender Darstellung.

An embodiment of the invention will be explained with reference to the drawing. Show it:

FIG. 1

a hand tool in the form of a screwdriver in a schematic side view,

FIG. 2

an epicyclic gear stage of the screwdriver of Figure 1 with the associated safety device in a separate representation in the axial direction as indicated by arrow II in Figure 1,

FIG. 3

the arrangement according to FIG. 2 in the half-section parallel to the plane of the drawing according to the section line III-III in FIG. 2, wherein the gear wheel arrangement arranged within the ring gear has been omitted for reasons of clarity and the locking balls are engaged on the ring gear,

FIG. 4

the arrangement of Figure 3, wherein the torque acting on the ring gear has reached the turn-off torque, so that the locking balls have exited from the locking recesses of the ring gear,

FIG. 5

the support ring of the safety device according to Figures 2 and 4 in a separate representation in the figures 3 and 4 corresponding section,

FIGS. 6, 7 and 8

the support ring wall in the circumferential direction with spaced-apart sections, wherein the sectional plane of Figure 6 corresponds to the sectional plane of Figure 5 and the sections are placed according to the figures 7 and 8 approximately at the section lines according to the arrows VII-VII and VIII-VIII,

FIG. 9

3 shows a representation corresponding to a varied safety device, in which the support ring then has an inclination range of greater pitch, following the oblique surface areas, and

FIG. 10

the same variant in Figure 4 corresponding representation.

In the resulting from Figure 1 hand tool 1 it is a screwdriver. It could, however For example, a drill or other machine be driven with a tool to a rotational movement becomes.

The hand tool 1 includes a not shown Machine engine and one from the engine engine via a gearbox drivable drive shaft 2, with a not shown Tool, for example, a screwing in shape a bit, can be rotatably connected. During operation leads the drive shaft 2 with the tool a rotational movement around the axis line of the drive shaft 2 corresponding Rotation axis line 3 off.

The transmission includes a planetary gear 4 (it can several successive gear stages available ), which is a planetary gear with a central Sun gear 5, three distributed over the circumference arranged planetary gears 6 and an inner ring gear 7 having Ring gear 8 is formed. In the sun gear 5 and the planetary gears 6, the respective external gears are simplicity not shown, so that these wheels only as Circles are drawn. The sun gear 5 is seated against rotation the motor shaft 9 or another from the machine motor ago driven shaft and meshes with those around the sun gear 5 around arranged planetary gears 6, located on the radially outside to roll arranged inner ring gear 7 of the ring gear 8. The Planetenradachsen 10 are components of the otherwise not shown web of the planetary gear, on the the subsequent gear stage or the drive shaft 2 driven becomes. The training and the operation of such Planetary gear is well known, so that a further description is unnecessary. It will only be noted that in normal operation, the planet gears 6 each for example, according to the direction of rotation of the drive shaft 2 in the direction of arrow 11 to the sun gear 11 circle. there is the over the Planetenradachsen 10 and the web of the planetary gear passed torque from the ring gear. 8 added.

In normal operation, when acting on the ring gear 8 Torque is less than a turn-off torque, that is Ring gear 8 arranged rotatably. Achieved the torque, however the value of the turn-off torque, the non-rotatable stop the ring gear 8 is released, so that the ring gear 8 on the Planet wheels 6 to a rotational movement in the direction according to Arrow 12 is driven. In this way, the drive shaft 2 or connected to this tool only with torques work that is smaller than the turn-off torque are.

To achieve this, the ring gear 8 is a safety device assigned. This safety device has a arranged fixed to the machine, the ring gear 8 enclosing bearing ring 13 on, arranged distributed over the circumference, in includes radial bearing through recesses 14, each one detent ball 15 movable in the radial direction take up. The wall thickness of the bearing ring 13 is smaller as the diameter of the detent ball 15. The locking balls 15 are during normal operation below the turn-off torque with the ring gear 8 in latching engagement, so that the ring gear 8 is held against rotation (Figures 2, 3 and 9). For this Verrastungseingriff are on the outer circumference of the ring gear 8 via the circumference distributed recesses 16 arranged. there Each detent ball 15 is associated with such a recess 16. In Figure 2, the ring gear 8 six bearing recesses 16 on. In contrast, only three detent balls 15 are present so that only three locking recesses 16 with a detent ball 15 are occupied.

The locking between the locking balls 15 and the recesses 16 is formed so that the ring gear 8 after outwardly directed force on the locking balls 15 exerts. For this are the embodiment in the circumferential direction each other opposite flanks 17, 18 of the recesses 16 accordingly inclined.

The locking balls 15 are by means of a spring force to the ring gear. 8 loaded so that when the machine and during normal operation under the spring force on the ring gear 8 facing inside of the bearing ring 13 from the bearing recesses Protrude 14 and engage in the recesses 16. The spring force does not apply directly but over a support ring 19 to the locking balls 15 at. The support ring 19 encloses the bearing ring 13 and is movable in the axial direction arranged. In this case, the support ring 19 in axial Direction by the spring force applied. The support ring 19 also has a the locking balls 15 facing inclined surface arrangement 20, with the support ring 19 on the bearing balls 15 is present. With the machine switched off and in normal operation Below the turn-off torque are the locking balls 15 not only inside but also outside of the recesses 16 before, so that the inclined surface arrangement 20 under the spring force in the axial direction of the locking balls 15 abut can. In this case takes place on the inclined surface arrangement 20th a force deflection, so that the locking balls 15 a radial directed force component acts.

Reaches the ring gear 8 pending torque the value of Shutdown torque is from the respective flanks 17th or 18 of the recesses 16 such a strong force from the inside forth on the detent balls 15 exercised that this is after move outside and about the inclined surface arrangement 20th the support ring 19 against the spring force in the axial direction shift (see Figures 4 and 10). The locking balls 15 are when reaching the turn-off torque thus counter to the ring gear displaced the spring force from its engaged position, so that the ring gear 8 is released and can rotate. there it rattles past the locking balls 15 past.

In this way, no greater torque than the turn-off torque be transmitted to the drive shaft 2.

The force with which the support ring 19 on the locking balls 15th acts and thus determines the turn-off torque, depends not only on the spring force but also on the spring Cross-section (Figures 3 to 10) seen slope of the inclined surface arrangement from.

In the hand tool according to the invention is the turn-off torque adjustable. For this purpose, the support ring 19 rotatably arranged on the hand tool 1 from the outside. Furthermore, the oblique surface arrangement of the above Scope distributed, each associated with a detent ball 15 and circumferentially extending inclined surface areas 21, 22, 23 are formed, within which in the circumferential direction the oblique surface slope seen in cross-section changed. This is in particular from FIGS. 6 to 8 seen, the support ring 19 at three within the same Bevel area 21 at a distance in the circumferential direction show each other arranged locations. The three bevel areas 21, 22, 23 are the same. Thus lie the inclined surface areas 21, 22, 23 depending on the rotational position of the Support ring 19 with a different pitch on the locking balls 15th at. Accordingly, depending on the rotational position of the support ring 19 another shutdown torque is required in which the locking balls 15 under axial displacement of the support ring 19th move out of the recesses 16.

In the illustrated embodiment, the support ring 19 rotatably, but in the axial direction movable with a him surrounding adjusting ring 24 connected to the outside is arranged accessible to the machine tool ago, as is apparent from Figure 1. In this case, the adjusting ring 24th rotatable and fixed in the axial direction on the machine housing stored. The non-rotatable and axially displaceable Connection of the support ring 19 and the adjusting ring 24th with each other can be made by, for example, that distributed outside on the support ring 19 over the circumference, axially directed guide grooves 25 and the adjusting ring 24 in the Guide grooves 25 engaging guide ribs 26 arranged be. Of course, it would also be possible, the Führungsnuten inside the adjusting ring and the guide ribs on the support ring provided.

The spring force, the support ring 19 against the locking balls 15th is held by one in the embodiment of several distributed over the circumference arranged coil springs 27 formed Spring assembly generated in the axial direction on the one hand on the adjusting ring 24 and on the other hand on the support ring 19 supported. For this purpose, the adjusting ring 24 has a radial inwardly directed ring section 28, at which the Support coil springs 27.

There are applications in which the safety device, i.e. the torque shutdown, should be ineffective. To this to reach is on the inner circumference of the support ring 19 between the inclined surface regions 21, 22, 23 each one to the bearing ring 13 projecting retaining portion 29 arranged. takes the support ring 19 such a rotational position, in which the Hold retaining parts 29 over the locking balls 15, prevent the retaining parts 29 an exit of the locking balls 15th from the recesses 16 of the ring gear 8, so that the Detent balls 15 regardless of the torque occurring on the ring gear 8 kept in their latched with the ring gear position become.

The shutdown when reaching the shutdown torque should as quickly as possible. Therefore, the support ring should 19 as fast as possible in the axial direction, that over the locking balls 15 enough space for their exit is created from the recesses 16. The path of movement However, the support ring 19 is of the reference to the axial direction measured slope of the inclined surface arrangement 20 dependent. The smaller this slope is, the longer is the path of movement of the support ring 19. This corresponds a smaller slope a larger turn-off torque. Therefore, one designed for larger turn-off torques Safety device, you can see no further action slower than one for smaller turn-off torques designed safety device.

To enter now despite a relatively small slope get fast shutdown, is in the variant after Figures 9 and 10 provided that in the axial direction to the inclined surface regions 21, 22, 23 each one in the circumferential direction of the respective inclined surface area, for example, the inclined surface region 21, along extending Slope area 30 connects, which is a larger Slope as the adjacent inclined surface portion 21 has. In this way, the support ring 19 has only one move short piece until the locking balls 15 so to speak about between the flatter inclined surface regions 21, 22, 23 and the steeper slope surface areas 30, respectively Tip edge 31 and thus get out quickly can.

Finally, it is clear from the drawing that the Support ring 19 in the axial direction subsequent to the inclined surface areas 21, 22, 23 (Figures 2 to 7) and to the slope surface areas 30 (Figures 9 and 10) one in axial Direction projecting ring portion 32 as failover for having the locking balls 15. The ring section 32 covers radially outside the receiving space 33, in the from the recesses 16 of the ring gear 8 displaced detent balls 15 pass.

In the described embodiment, the planetary gear three planet gears on. It is understood that too a different number of planetary gears could be present.

Further, instead of the six bearing recesses 16 and three Locking balls 15 and more or less bearing recesses or Detent balls possible.

Claims (6)

Hand tool, for example, screwdriver, with a Maschinenmotor and via a gearbox from the engine engine forth to be driven by a rotational drive, connectable with a tool drive shaft, the transmission includes at least one epicyclic gear with a rolling in operation on the inner ring gear of a ring gear gear assembly and wherein the ring gear a Assembled securing device, which loaded by spring force to the ring gear out, movably mounted detent balls which are in the occurrence of with respect to a turn-off torque smaller torques on the ring gear with the ring gear in latching engagement and hold this rotationally fixed and upon reaching the turn-off torque of Ring gear are displaced against the spring force from its engaged position, so that the ring gear can vorbeiratschen past the detent balls, characterized in that the ring gear (8) of a fixed machine-mounted bearing ring (13) is enclosed, the ü Bearing recesses (14) which are distributed over the circumference and extend in the radial direction, for receiving in each case one detent ball (15), wherein the wall thickness of the bearing ring (13) is smaller than the diameter of the detent balls (15), that on the outer circumference of the ring gear (8 ) the latching balls (15) zugeorndete latching recesses (16) are arranged, that the bearing ring (13) by a movable axially movable support ring (19) is loaded by the spring force in the axial direction and an inclined surface arrangement (20) against the from the latching recesses (16) projecting and on the other hand on the ring gear (8) resting detent balls (15) is held, that the support ring (19) is rotatably arranged from the outside to the power tool and that the inclined surface arrangement (20) of distributed over the circumference, each of a detent ball (15) associated and extending in the circumferential direction inclined surface regions (21, 22, 23) is formed, within dene n changes in the circumferential direction seen in cross-section inclined surface pitch, so that depending on the rotational position of the support ring (19) the inclined surface regions (21, 22, 23) abut with a different pitch of the locking balls (15). Hand tool according to claim 1, characterized in that in the axial direction of the inclined surface areas (21, 22, 23) in each case in the circumferential direction of the respective inclined surface area extending along inclining surface area (30), wherein the inclined surface areas (30) with respect to the axial direction greater slope than the inclined surface regions (21, 22, 23). Hand tool according to claim 1 or 2, characterized in that the support ring (19) in the axial direction subsequent to the inclined surface regions (21, 22, 23) or to the inclined surface areas (30) projecting in the axial direction of a ring portion (32) as a fail-safe having the detent balls (15). Hand tool according to one of claims 1 to 3, characterized in that on the inner circumference of the support ring (19) in the circumferential direction between the inclined surface regions (21, 22, 23) each one to the bearing ring (13) projecting retaining portion (29) is arranged, so that in which the detent balls (15) are rotated by the detent balls (15), the detent balls (15) are held in the detent recesses (16) of the ring gear (8) independently of the torque occurring on the ring gear (8). Hand tool according to one of claims 1 to 4, characterized in that the support ring (19) rotatably, but axially movable with an enclosing him, externally accessible, rotatable and axially fixed mounted adjusting ring (24) is connected, wherein a Spring-force generating spring arrangement (27) in the axial direction on the one hand on the adjusting ring (24) and on the other hand on the support ring (19) is supported. Hand tool according to claim 5, characterized in that on the outside of the support ring (19) or inside of the adjusting ring distributed over the circumference, axially directed guide grooves (25) and on the adjusting ring (24) or on the support ring in the guide grooves (25) engaging guide ribs (26) are arranged.

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