DE102007025078A1 - Torque transmission device with switchable detent ball - Google Patents

Abstract

The invention relates to a device for transmitting a torque to a screwing tool element (1) in the form of a socket for wrenches, a ratchet extension or the like, with a polygonal output stub (5) for inserting into a matching polygonal opening (2) of the screwing tool element (1), with a latching ball (6) which lies in a ball-receiving cavity (7) of a polygonal surface (8) of the polygonal output stub (5) and is intended for entering a latching cutout (4) of a polygonal surface (3) of the polygonal opening (2), with a transmission element which is arranged in an axial cavity (9) and acts with a first section (12) on the latching ball (6) and the second section (10, 21') of which is displaced in the axial direction of the axial cavity (9) by a switch-over switch (13, 22) when switching over from a release position into a locking position in such a manner that the screw tool element (1) can be pulled off from the polygonal output stub (5) in the release position and is held on the polygonal output stub (5) in the locking position. In order to develop the screwing tool simply in terms of production and advantageously in terms of use, it is proposed that the transmission element has an elastic element (11) which is arranged between the first section (12) and the second section (10, 21') of the transmission element and is compressed during the switching over from the release position into the locking position.

Description

The The invention relates to a device for transmitting a Torque on a screwing tool element in the form of a socket wrench insert, a ratchet extension or the like, with a drive polygon for insertion into a shape - adapted polygonal opening of the Wrenching tool element, with one in a ball receiving cavity a Mehrkantfläche the output Mehrkantes einliegen Detent ball for entry into a detent recess of a polygonal surface the polygonal opening, with one in a Axialhöhlung arranged transfer member, which with a first section the detent ball attacks and its second section by a switch when switching from a release position to a locking position in Axialhöhlung axial direction is shifted so that the Schraubwerkzeugelement in the release position of the output polygon removable and in the locking position to the output polygon is tied up.

A device of this kind is from the DE 202 09 159 U1 previously known. It has a drive polygon, which is the end portion of a drive shaft with which a rotational movement on a socket or a ratchet extension can be applied. The output shaft has at its other end a polygonal receptacle into which a drive polygon of another device, such as a ratchet head of a ratchet can be used. The generally designated as Schraubwerkzeugelement sockets or ratchet extensions have a standardized polygonal opening into which the standard polygonal section of the device can be inserted. Usually, the output polygon has a square plan. In one of the polygonal surfaces of the output Mehrkantes is a ball receiving cavity, in which a detent ball rests. The edge of the ball receiving cavity is caulked so that the ball can not fall out. However, the ball can protrude with a portion of its spherical surface of the Kugelaufnahmehö ment. In its maximum forward position is due to the Randverstemmung the ball receiving cavity. The can be brought into a complete immersion position, so that the output polygon can be inserted into the corresponding polygonal opening of the socket wrench. The polygonal surface of the polygonal opening corresponding to the polygonal surface of the output polygon has a latching recess, into which a section of the latching ball protruding from the ball receiving cavity can enter. In order to move the detent ball from the full immersion position in the maximum position, a control pin is provided in the known device, which forms a transmission element in a Axialhöhlung with which a locking movement or release movement of a switch can be transmitted to the detent ball. The switch is arranged in a transverse bore of the Axialhöhlung pin with a control edge on which abuts one end of the transmission member. The other end of the transmission element is in touching contact with the detent ball. If the transfer member controlled by the switch in the Axialhöhlung longitudinally displaced, the detent ball can be moved from its full immersion position in the maximum forward position. In this position, the socket wrench is tied to the output polygon.

A similar device shows the EP 0 747 174 A1 , Again, in an axial cavity, an axially displaceable pin is formed, which forms two different high levels, on which rests the detent ball in the release position or in the locked position. Again, a switch in a transverse bore radially displaceable switch is provided. The pin lying in the Axialhöhlung is acted upon by a compression spring in the locking position.

From the US 3, 467,231 is a drive polygon known in the polygonal surface a blind hole is introduced. The locking ball arranged in the blind bore is supported on a compression spring, which is supported with its other end against the ground.

From the US 4,218,940 a screwing tool with a drive polygon is known, in which the lying in a ball receiving cavity locking ball is also displaced by a control pin. The control pin is supported by a compression spring against a bottom of a Axialhöhlung. A similar solution show the US 4,614,457 and US 4,367,663 ,

outgoing from the aforementioned prior art, the invention is the Task, the generic device, So a screwing manufacturing technology simple and nutzsvorteilhaft continue to form.

Solved The object is achieved by the specified in the claims Invention, each claim being an independent solution represents the task and can be combined with any other claim.

First and foremost, it is provided that the transmission element has an elastic element arranged between its first section and its second section, in particular in the form of a compression spring, which is compressed when switching from the release position into the locking position. The compression spring is now between detent ball and switch. While in the prior art, a rigid transmission limb is provided, the invention preferably an elastic transmission member. The distance between the two sections of the transmission member thus decreases when switching from the release position to the locking position. According to this embodiment, it is not only possible to hold the detent ball in the locked position spring force. It is also possible to hold the detent ball in the release position spring force. The compression spring acts here in the release position with a lower spring force against the detent ball than in the locked position. This makes it possible that the Schraubwerkzeugelement, which may be a socket wrench or a ratchet extension or the like, by hand from the output polygon is removable. This is done without the help of an additional tool. In the locking position, the detent ball is acted upon by such a large spring force that the Schraubwerkzeugelement can not or can not be deducted without the aid of a tool from the output polygon. The transmission member also has a simple structure, if it consists only of balls and springs. According to a first variant, the transmission member consists only of two balls and a pressure spring arranged between the two balls. A pressure ball is acted upon directly by the switch. A blocking ball lies in surface contact with the spherical surface of the detent ball. In another variant of the invention more than two balls are arranged in the Axialhöhlung. These additional balls are used to transmit motion. Instead of the motion transmission balls and motion transmission pins can be arranged in the Axialhöhlung. As is generally known in the prior art, the changeover switch can be arranged to be radially displaceable in a transverse bore to the axial cavity. It may have a control edge, which displaces the pressure ball in the radial displacement of the switch in the Axialhöhlung. Along with the displacement of the switch from the release position to the locking position, the compression spring is tensioned, so that the force acting on the detent ball force is increased. The switch can also be arranged rotatably in a transverse cavity to Axialhöhlung. It can have a radial recess in which the pressure ball rests in the release position. If the switch is rotated, the pressure ball exits under an axial displacement of the radial recess and biases the compression spring. This radial recess of large radial depth can be opposite to a radial recess of low radial depth. This radial recess of low radial depth can serve as a latching recess when in the locking position, the pressure ball engages there. As a result, the switch is held in its rotational position. In an analogous manner, a longitudinally displaceable changeover switch can also have such depressions arranged one behind the other in its axial direction, into which the pressure ball can enter in its two operating positions, so that the longitudinal displacement position of the changeover switch is thereby fixed. In addition, it is possible to arrange the switch axially displaceable in an extension of the Axialhöhlung. The switch acts in this variant together with a pressure pin. The pressure pin is located in the Axialhöhlung and is displaced axially when adjusting the switch. One end of the pressure pin then acts instead of the above-mentioned pressure ball with the compression spring, which acts with its other end against the locking ball acting on the locking ball. The pressure pin may have radially projecting control cam, which cooperate with a housing-fixed control edge. The latter can be formed by an insert. A quarter turn of the pressure pin thus leads to a shift from a release position to a locking position or vice versa. The rotation of the pressure pin is done with the switch. This can be firmly connected to the pressure pin. The switch can in this case be a turntable which rests in a front recess of a ratchet head. The switch can also be in a threaded hole, which is substantially flush with the Axialhöhlung. By turning this switch, its end face, against which the pressure ball bears, displaces in the axial direction to the axial cavity and thereby influences the tension of the compression spring acting on the blocking ball. In a particularly preferred variant of the invention, the individual helical turns of the pressure spring in the locking position are so small spaced apart that the detent ball can not be pushed back by applying a large radial force in its full entry position into the ball receiving cavity. Before the detent ball reaches its immersed position, the individual helical turns of the compression spring come into contact with each other, so that further compression of the compression spring is blocked. If the changeover switch is moved starting from a locking position into a release position, the pressure spring is released as a result of the associated axial displacement of the compression spring. It only loads the locking ball with a smaller spring force. As a result, a small radial force on the detent ball is sufficient to displace the locking ball in the direction of the pressure ball against the restoring force of the compression spring. This force can be applied by hand, so that the Schraubwerkzeugelement, so the socket wrench with little effort on the output polygon can be postponed, the detent ball is first urged from the edge of the polygonal opening against the restoring force of the largely relaxed compression spring in the ball receiving cavity. When fully inserted socket insert the detent ball then occurs along with a relaxation of the compression spring and an axial displacement of the locking ball in the locking recess a. The screwing tool element is thereby temporarily fixed. If the changeover switch is then moved out of the release position into the locking position, the screwdriving tool element can no longer be pulled off the output polygon by hand. The device may be a torque wrench. The device may also be a ratchet with reversible ratchet or freewheel gear. In this variant, the switch is preferably the above-mentioned pressure pin or the threaded pin which rests in a bore aligned with the Axialhöhlung and which can be actuated by the opposite end of the output polygon a gear head of the gun. There may also be arranged the direction of rotation switching member for the cogged transmission. The device may also be a ratchet extension or a cross wrench. The switch can then be arranged in an output shaft of cylindrical shape. In a further variant of the invention, the switch is also designed as a circular cylindrical pin which is inserted in a bore of the output shaft. The switch has two at an angle of 90 ° to each other standing stages which have a different distance to the center of rotation of the switch.

These Stages are scanned by an end portion of a push pin, which indicates with its other end to the compression spring and the compression spring applied. By turning the switch only by 90 ° be switched between locking position and release position, wherein the end of the pressure pin in the locking position a flat step and in the release position on a deep Level is.

embodiments The invention will be described below with reference to the accompanying drawings explained. Show it:

1 in a perspective view of a first embodiment of the invention in the form of a ratchet extension,

2 a socket,

3 a section along the line III-III in 1 in a release order,

4 a representation according to 3 in a locking position,

5 an enlarged view 4 .

6 A second embodiment of the invention in a perspective view,

7 a section along the line VII-VII in a release position,

8th a representation according to 7 in a locking position,

9 A third embodiment of the invention in the form of a ratchet head in the release position,

10 the embodiment according to 9 in the locked position,

11 a section along line XI-XI in 9 .

12 a representation according to 11 in the locked position and

13 A fourth embodiment of the invention, in which the switching rotational angle is only 90 °,

14 an enlarged view of the pressure pin of the fourth embodiment,

15 a section along the line XV-XV in 13 in the release position,

16 a representation according to 15 in the locked position and

17 a section along the line XII-XII in 16 ,

With the reference number 1 is called a socket wrench. This has a suitable for placement on a screw head hexagonal opening and one of these opposite polygonal opening 2 which is a square opening in the embodiment. This has four polygonal surfaces 3 each having a latching recess 4 form.

The device according to the invention is a ratchet extension with an output shaft in the first two embodiments 18 which has a circular cross-section. The one end of the output shaft 18 has an insertion opening for a drive polygon. The other end of the output shaft 8th is as a drive polygon 5 designed. The output polygon 5 has a square floor plan and is in the polygonal opening 2 inserted.

A polygonal surface 8th of the output more edge 5 has a radial opening that has a ball receiving opening 7 formed. The ball receiving opening 7 opens into an axial cavity 9 , which can be formed by a hole of circular cross section, in the central axis of the output more kantes 5 runs. In the ball receiving cavity 7 there is a detent ball 6 , which in the radial direction to the axis of the output mehrkantes 5 can be displaced, but by caulking the edge of the Kugelaufnahmehöhlung 7 is prevented from falling out.

In the axial cavity 9 there is initially a blocking ball 12 whose diameter corresponds to the diameter of the axial cavity 9 corresponds to and is smaller than the diameter of the detent ball 6 , This locking ball 12 lies in area investment on the detent ball 6 and is backed by a compression spring 11 applied. The compression spring 11 is located between the blocking ball 12 and one of the same diameter as the locking ball 12 having transmission ball 10 ' , The transmission ball 10 ' lies in contact with a pressure ball 10 ,

In the same way, it is also possible to have several motion transmission balls 10 ' or provide a motion transfer pin instead of a motion transfer ball.

The pressure ball 10 relies on a switch 13 from. In the first embodiment, the switch is inserted 13 in a transverse bore 14 for Axialhöh development 9 and has a substantially circular cylindrical shaft, the two opposite radial recesses 15 . 16 forms, wherein the radial recess 15 has a greater radial depth than the radial recess 16 , The radial recesses 15 . 16 are arranged so that they depend on the rotational position of the switch 13 the bottom of the axial cavity 9 form, on which the pressure ball 10 supported.

With a switching arm 17 can the switch 13 from a release position in which the pressure ball 10 in the deeper radial recess 15 rests, are brought into a locking position in which the pressure ball 10 in the less deep radial recess 16 rests. In both positions is the pressure ball 10 from the compression spring 11 Federkraftbeaufschlagt in the respective radial recess 15 . 16 one. Depending on this, the blocking ball 12 subjected to a large or a lower spring force. As a result, in the release position, the detent ball 6 with a lower radial force in the receiving cavity 7 be pressed into it, in which case the locking ball 12 against the restoring force of the compression spring 11 axially in the axial cavity 9 relocated.

In the locking position, the compression spring acts 11 with a large biasing force against the locking ball 12 , so that it requires a considerably larger radial force to the detent ball 6 into the ball receiving cavity 7 to relocate.

Preferably, the individual helical turns of the helical gear compression spring 11 so close in the locking position next to each other that they already at a slight displacement of the detent ball 6 be brought from their full Vortrittsstellung in an investment position. In this investment position is a further compression of the compression spring 11 no longer possible, which is why the locking ball 12 in the locking position only a small distance in the axial direction is displaced, which is less than the path that would be necessary to the detent ball 76 completely into the ball-receiving cavity 7 to relocate. In the drawings, the compression spring 11 already shown completely compressed in the locking position.

In the in the 6 to 8th illustrated second embodiment, the switch 13 displaced in the radial direction. Again, a pressure ball stored 10 in the release position in a radial recess 15 of the switch 13 which has a large radial depth. Will the switch 13 shifted, so the pressure ball moves 10 from this deep radial recess out into the less deep radial recess 16 and reaches the locking position.

The switch 13 lies in a cross hole 14 that lie in opposite depressions 19 . 20 empties. The length of the switch 13 is doing so to the wells 19 . 20 adapted that the end of the switch 13 not over the outer contour shell surface of the output shaft 18 protrudes. The relocation of the switch 13 takes place by exerting a face pressure and a subsequent displacement to the end face of the switch 13 each flush in the bottom surface of the recess 19 . 20 rests.

In the in the 1 to 8th Illustrated embodiments is an optional transmission ball 10 ' intended. But it is also possible that the pressure ball 10 directly on the compression spring 11 acts.

In the in the 9 to 12 illustrated third embodiment is a ratchet head. This is located in a fork-shaped opening, not shown, of the arm of the ratchet. For this purpose project from the fork opening, not shown, driving pins, which are in mounting holes 24 a gear head 23 intervention.

From the gearhead 23 protrudes a drive polygon 5 from. In one of its polygonal surfaces 3 there is a detent ball 6 in a ball receiving cavity 7 one. Like that 11 and 12 can be seen, has the output polygon 5 an axial cavity 9 into which the ball-receiving cavity 7 empties. The diameter of the detent ball 6 is bigger than that too Wall of Axialhöhlung 9 so that a section of the detent ball 6 both outward from the ball receiving cavity 7 protrudes as well as into the axial cavity 9 protrudes.

In the axial cavity 9 there is a blocking ball 12 , which has a smaller diameter than the detent ball 6 , The blocking ball 12 is from a tensioned compression spring 11 applied. Against the compression spring 11 the end works 21 ' a pressure pin 21 , which lies in a bore which is aligned with the Axialhöhlung 9 followed.

The end of the print 21 ' opposite end of the pressure pin 21 is fixed with a switch 22 connected in the form of a turntable. The latter lies in a front side recess of the gear head 23 one. In detail, the front opening of the central opening of a Umschaltringes 25 designed for a non-illustrated freewheel gear.

The the switch 22 forming switching disc is from another compression spring 26 applied. The pressure pin 21 is in an insert 29 stored, which with a front edge edge a control edge 28 forms, at the two diametrically opposite, radially projecting from the pressure pin control cam 27 support. A deepest section 28 '' the control edge 28 corresponds to the release order. Are the control cams 27 in the area of this lowest point 28 '' so own the end 21 ' of the pressure pin 21 the largest distance to the blocking ball 22 , The compression spring 11 has its lowest preload in this position. The detent ball can in this condition in the ball receiving cavity 7 be displaced in the radial direction, where they are the blocking ball 12 towards the pressure pin 21 repressed. If the displaced detent ball is released, then the compression spring can 11 relax. It is about the blocking ball 12 the detent ball 6 back in the 11 shifted represented Vortrittsstellung.

A quarter turn of the switch 22 leads to a quarter turn of the control cam 27 along the fixed control edge 28 to the position 28 ' , There can be the control edge 28 form a locking recess, not shown, in which the control cam 27 can enter to fix it in the locked position. Along with the axial displacement of the pressure pin 21 from the in 11 shown release position in the in 12 shown locking position also shifts the switch 22 in the axial direction within the end face recess. The compression spring 11 is stretched and acts with a higher force on the locking ball 22 so that the effect discussed above with reference to the first two embodiments occurs.

The end 21 ' of the pressure pin 21 has a cross-section reduced extension 30 in the windings of the compression spring 11 intervenes. In the locking position, the end face of the extension 30 such a small distance to the blocking ball 12 own that locking ball 12 at a radially inward displacement of the detent ball 6 in contact with the end face of the extension 30 butts before the detent ball 6 from the locking recess 4 of the socket wrench insert 1 has stepped out. So here it is also a positive trigger lock possible, so that the socket set also not with the help of a tool in the locking position of output polygon 5 can be deducted.

That in the 13 to 17 illustrated embodiment has a switch, in which by turning the switch only 90 ° between the release position and the locking position can be switched back and forth. Again, there is the switch 13 from a substantially circular-cylindrical bolt, which is in a shape-matched transverse bore 14 to axial cavity 9 rests. At the height of the axial bore 9 owns the switch 13 a recess 31 , the two essentially flat steps 32 . 33 formed.

Opposite the axis of rotation, so the center line of the switch 13 have the two at a 90 ° angle to each other standing stages 32 . 33 a different-sized distance. It becomes a flat step 32 and a deep level 33 educated.

The compression spring 11 is in this embodiment of a pressure pin 21 which is in the Axialhöhlung 9 is slidably mounted. That to the switch 13 indicative end 21 ' of the pressure pin 21 has a reduced diameter and protrudes into the recess 31 into it. Depending on the rotational position of the switch 13 lies the end face of the end 21 ' of the pressure pin 21 either on the flat level 32 ( 16 ) or at the deep level 33 ( 15 ).

Regarding the blocking ball 12 , the feather 11 and the detent ball 6 occur while the effects described above. The pressure pin is supported 21 at the flat step 32 From, the device assumes its locking position, the pressure pin is supported 21 on the deep level 33 From, the device takes its release position.

All disclosed features are essential to the invention (in itself). In the disclosure of the application is hereby also the disclosure content the associated / attached priority documents (Copy of the advance notice) fully involved, including the purpose, features of these documents in claims present Registration with.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 20209159 U1 [0002]
• EP 0747174 A1 [0003]
• - US 3467231 [0004]
• - US 4218940 [0005]
• US 4614457 [0005]
• US 4367663 [0005]

Claims (18)

Device for transmitting a torque to a screwing tool element ( 1 ) in the form of a socket, a ratchet extension or the like, with a drive polygonal ( 5 ) for insertion into a shape-adapted polygonal opening ( 2 ) of the screwing tool element ( 1 ), with one in a ball receiving cavity ( 7 ) of a polygonal surface ( 8th ) of the output polygon ( 5 ) resting ball ( 6 ) for entry into a latching recess ( 4 ) of a polygonal surface ( 3 ) of the polygonal opening ( 2 ), with one in an axial cavity ( 9 ) arranged with a first section ( 12 ) on the detent ball ( 6 ) and its second section ( 10 . 21 ' ) from a switch ( 13 . 22 ) when switching from a release position to a locking position in the axial direction of the axial cavity ( 9 ) is displaced such that the screwing tool element ( 1 ) in the release position of the output polygon ( 5 ) removable and in the locking position to the output polygon ( 5 ), characterized in that the transmission member has one between its first section ( 12 ) and its second section ( 10 . 21 ' ) arranged elastic element ( 11 ), which is compressed when switching from the release position to the locking position. Device according to claim 1 or in particular according thereto, characterized in that the elastic element ( 11 ) in the release position with such a small spring force on the detent ball ( 6 ) acts that the screwing tool element ( 1 ) without the aid of a tool from the output polygon ( 5 ) can be deducted. Device according to one or more of the preceding claims or in particular according thereto, characterized in that the Elastikele ment ( 11 ) in the locking position with such a large spring force on the detent ball ( 6 ) acts that the screwing tool element ( 1 ) not or not without the help of a tool from the output polygon ( 5 ) can be deducted. Device according to one or more of the preceding claims or in particular according thereto, characterized in that the first portion and / or the second portion of the transmission member is a ball ( 10 . 12 ). Device according to one or more of the preceding claims or in particular according thereto, characterized in that the elastic element ( 11 ) directly between two balls ( 10 ' . 12 ) is arranged. Device according to one or more of the preceding Claims or in particular according thereto, characterized that the elastic element is a compression spring, in particular consisting of steel is. Device according to one or more of the preceding claims or in particular according thereto, characterized in that the transmission member consists exclusively of balls ( 10 . 10 ' . 11 ) and springs ( 12 ) consists. Device according to one or more of the preceding claims or in particular according thereto, characterized in that the switch ( 13 ) radially longitudinally displaceable or rotatable in a transverse bore ( 14 ) to Axialhöhlung ( 9 ) or axial längsverlagerbar in axial extension to Axialhöhlung ( 9 ) is arranged. Device according to one or more of the preceding claims or in particular according thereto, characterized in that the radial ver storable in a transverse bore ( 14 ) switch ( 13 ) forms a control edge for the axial displacement of a ball ( 10 ) in the axial cavity ( 9 ). Device according to one or more of the preceding claims or in particular according thereto, characterized in that the rotatable in the transverse bore ( 14 ) arranged switch ( 13 ) a radial recess ( 15 ), in which the in the Axialhöhlung ( 9 ) embedded ball ( 10 ) rests in the release position. Device according to one or more of the preceding claims or in particular according thereto, characterized by one of the radial cutouts ( 15 diametrically opposite second radial recess ( 16 ) with a smaller radial depth, in which the ball ( 10 ) rests in the locking position. Device according to one or more of the preceding claims or in particular according thereto, characterized in that the axially displaceable switch ( 22 ) with one in the axial cavity ( 9 ) inserted pressure pin ( 21 ) cooperates. Device according to one or more of the preceding Claims or in particular according thereto, characterized that the pressure pin is cam-controlled from its release position is displaceable in its locking position. Device according to one or more of the preceding claims or in particular according thereto, characterized by the pressure pin ( 21 ) radially projecting control cam ( 27 ), to which a control edge ( 28 ) assigned. Device according to one or more of preceding claims or in particular according thereto, characterized in that the helical turns of the compression spring ( 11 ) are so little spaced apart in the locking position that they at a Radialeinwärtsverlagerung the detent ball ( 6 ) from its maximum forward position from the ball receiving cavity ( 7 ) before reaching their full immersion position in the ball receiving cavity ( 7 ) in a the movement of the detent ball ( 6 ) Blocking investment position occur. Device according to one or more of the preceding claims or in particular according thereto, characterized in that the diameters of the balls formed by the transmission element ( 10 . 12 ) is less than the diameter of the detent ball ( 6 ). Device according to one or more of the preceding claims or in particular according thereto, characterized in that the switch ( 13 ) two steps that are at an angle to each other ( 32 . 33 ) having recess ( 31 ), wherein the steps have a different distance to the center of the switch ( 13 ) and with the end ( 21 ' ) of a pressure pin ( 21 ) interact. Device according to one or more of the preceding claims or in particular according thereto, characterized in that the two different levels ( 32 . 33 ) are at an angle of 90 ° to each other.