DE19958302A1 - Bit holder esp. for electric or compressed air screw driver has extra-length hexagonal socket and shaft extending into socket - Google Patents

Abstract

The bit holder main body (2) has a rear shaft (3) for clamping in a screw driver, and a front section with hexagon socket (20) for screw driver bits (4,4'). The socket is lengthened towards the shaft by at least the length of the bit. The shaft extend up to or into hexagon socket, and shaft and main body are relatively moveable over a distance, which is limited by two stops and corresponds to at least the length of a bit.

Description

The present invention relates to a bit holder, be standing out of a basic body, with one, behind end of a shaft for clamping in a screw mechanism stuff, especially an electric or pneumatic screwdriver, is non-rotatably connected and at its other, front end of a hexagon socket section for receiving a interchangeable screwdriver bits with a cross section hexagonal bit body is provided.

Bit holders of the type mentioned are due to their wide Commonly known among craftsmen and do-it-yourselfers. In the known bit holders, the shaft is either firmly connected to the base body, for example ver presses, or formed in one piece. The hexagon socket Section has a length that is essentially the Corresponds to the length of the bit body of a screwdriver bit. At The bit holder can be screwed in the screwing tool remain; if a screwdriver bit with a different size If the shape or shape is required, this will be in the bit holder manual screwdriver bit pulled out to the front and replaced by a different screwdriver bit.

With the known bit holders, a quick change is possible sel a screwdriver bit possible, but is a disadvantage notice that for each just not needed separate screwdriver bits or  places are needed. This leads to how practical experience stations often show that a desired screw berbit cannot be found because it is stored somewhere and the user did not remember where he was going has placed the screwdriver bit beforehand. Due to the required Search is often a relatively long time, what is economically disadvantageous and leads to dissatisfaction leads to the user of the bit holder.

Therefore, for the present invention Task to a bit holder of the type mentioned create, which avoids the disadvantages and where there is a possibility, not even one required screwdriver bit captively available hold.

This object is achieved according to the invention by a bit holder of the type mentioned at the outset, which is characterized in that

• - That the hexagon section to the shaft around one corresponds at least to the length of a screwdriver bit length is extended,
• - That the shaft is up to or in the hexagon-Ab cut stretches and
• - That the shaft and the base body in their axial direction tion are relatively displaceable.

The bit holder according to the invention offers the advantageous Possibility of little in its hexagon section to accommodate at least two or more screwdriver bits, where the front screw bit is in the one sentence position is. If other than the front one Screwdriver bit is required can be moved by The screwdriver base body and shaft relative to each other bits out of the hexagon socket section pushed and in a different order again from the beginning inserted or from behind into the base body "nachge  load ". The screwdriver bits can thus in a ge wished changed order immediately back in hexagon section are inserted so that then after moving the base body and shaft back into their out the desired other screwdriver bit Position. The invention is advantageous appropriate bit holder even with just a single screwdriver bit can be used, in which case it is only ensured who it must be that the base body and the shaft in one ner corresponding displacement position relative to each other are located in the front end of the shaft on the back of the screwdriver bit. In this Shear forces can be exerted by the screwing tool over the condition Shaft are transferred to the screwdriver bit, so that ensure a safe function in all screwing operations is accomplished.

In a first development of the invention, it is provided hen that the shaft one with the bit body cross section has matching hexagonal cross section and that the hexagon socket section turns out to be hexagon socket Edge channel over the entire axial length of the base body pers extends. In this version of the bit holder ha ben the basic body and the shaft simple shapes and can thus be produced at low cost. The Transfer of the turning required for screwing operations Moments are then independent of the displacement position of base body and shaft relative to each other over the hexagonal outer circumference of the shaft and the Hexagon socket channel of the base body.

Alterna to the embodiment described above tive development of the invention suggests that the Shank a size compared to the bit body cross section ren hexagonal cross section and that the inside hexagon section itself as a stepped hexagon socket Channel with two different internal diameters  ser over the entire axial length of the base body stretches. This version is then particularly before tighten when transmitting particularly high torques and / or if the shaft and base body are not so far can interlock because of a particularly short construction form is sought.

Another advantageous embodiment of the bit holder according to the invention provides that the base body in its longitudinal direction, in its extent brought breakthrough that is dimensioned and contoured rated is that they go back far enough a screwdriver bit from the outside to the inside insertable into the hexagon socket section or channel is. This version makes the advantageous possibility created a screwdriver bit in the radial direction of the Introduce the basic body from the outside into this and so into the hexagon socket section or channel. This is no longer necessary when changing a screwdriver bit required complete pushing out of all or several screwdriver bits; it only has to do that now front screwdriver bit manually out of the basic body to be pulled. After a sufficiently wide advance ben of the base body on the shaft can do this beforehand removed screwdriver bit through the side opening be inserted into the base body where it is now the last of the series in the base body union screwdriver bits. After pushing back the The body is on the shaft again ready to go. The desired screwdriver bit can be used on this Way conveniently and without several screwdriver bits are loosely outside the base body and without The base body and shaft are to be separated from one another in Be brought into position.

An undesirable separation of the base body and the shaft or an unwanted pushing out of a screwdriver  It is intended to avoid bits from the base body, that the displacement path of the shaft and body right relative to each other by preferably two stops is limited, the displacement path at least that Corresponds to the length of a screwdriver bit.

These stops can be advantageous by the two En that of a groove made lengthways in the shaft and through one installed in the base body and protruding into the groove Pen be formed. A reverse order in which the pin is attached to the shaft and the groove in the base body is provided by, is of course also think bar.

In a further embodiment it is proposed that the Pin slidable in its axial direction and out thrust direction is preloaded by a spring force and that the end of the pin pointing into the groove on The bottom of the groove is in frictional contact. In this Ausge staltung provides the pin for a braking effect, so that the movement of the base body and shaft relative to each other which is only possible against a certain mechanical resistance is one hand, an automatic undesirable Excludes displacement of the base body and shaft and which, on the other hand, with manual shifting from the bottom body and shaft easily overcome relative to each other is cash.

To the base body and the shaft relative to each other in the preferred displacement end positions to lock ren, it is provided that the groove is seen along its length has a variable depth, the groove at their En the deepest and the flattest in its middle area is.

So with screwdriving work, where the screwdriver bits point down, this automatically a screw hal  can lie on the inside of the body a permanent magnet at the front end of the shaft brought, e.g. B. glued or pressed. At off sufficient strength of the magnet, the magnet will plant itself field also over several screws arranged one behind the other berbits away, so that a screw is still sufficient is held securely on the front screwdriver bit.

It is expedient inside the hexagon section or channel at least one latching locking device hen with which at least one is in use ch, from the basic body protruding screwdriver bit in its position can be locked.

Regarding this latching lock is in the off design preferably provided that in the hexagon socket Section or channel two or more locking detents (each) correspond to the length of a screwdriver bit distance are provided.

In order to implement the snap lock as simply as possible can and reliable function at the same time is preferably provided that this (each) through one in the hexagon socket section or channel on Basic body held by a ring spring or with a their legs tangential to the hexagon down section or channel extending U-spring is formed.

So that the bit holder the occurring torques and absorb other forces without damage and with little wear and can transmit, it is preferably provided that the Shaft is a steel part.

For the same reason, it is also expedient to provide that the base body is a turned and milled part from a me tall, preferably not or only slightly magnetic is, or a die-cast part from a sufficiently strong  Alloy is light alloy.

An embodiment of the invention is as follows explained using a drawing. The figures of the drawing show:

Fig. 1 shows a bit holder with two screwdriver bits in a set state, in longitudinal section and

Fig. 2 shows the bit holder of Fig. 1 during a change of the screwdriver bit to be used, also in longitudinal section.

Fig. 1 of the drawing shows a bit holder 1 in its state of use in which a screwdriver bit 4 from the prede reindeer, right end in the drawing of the bit holder 1 before projecting. At the other end, in the drawing on the left, the bit holder 1 is with a screwing tool, for. B. a Electro or pneumatic screwdriver, connectable to perform screwdriving.

The bit holder 1 consists of two essential parts, namely a base body 2 and a shaft 3 . The base body 2 has in the illustrated Ausführungsbei game an elongated, rotationally symmetrical shape and has an internal hexagon section or channel 20 , which runs here over the entire length of the base body 2 . The hexagon section or channel 20 is dimensioned such that it can receive conventional and standardized screwdriver bits 4 , 4 'with an externally hexagonal bit body by 41 , 41 ' axially displaceable but non-rotatably.

Through the rear, in the drawing left part of the hexagon section or channel 20 of the shaft 3 , which is also designed with a hexagonal outer circumference, the contour and dimensions of which correspond here to the contour and dimensions of the bit bodies 41 , 41 ' . The shaft 3 is limited axially displaceable within the hexagon section or channel 20 relative to the base body 2 . To limit the displacement in the shaft 3 a longitudinally extending groove 36 is provided in the drawing, the groove ends 36 ', 36 "in the displacement end positions in contact with a pin 26 gelan gene. The pin 26th is displaceably guided in the base body 2 in a stepped bore 25 , which runs in the radial direction of the base body 2. In addition, the pin 26 is preloaded with a spring 27 in the extension direction, ie in the direction of the shaft 3. The step bore is on the outside 25 closed by a pressed-in closure plate 28 , the spring 27 being supported with its outer end on the inside on the closure plate 28 .

As the drawing further shows, the groove 36 has a variable depth over its length, the groove being the deepest near its groove ends 36 ′, 36 ″ and the flattest in its central region. This locks the base body 2 and the shaft 3 In addition, the end of the pin 26 exerts a frictional force on the bottom of the groove 36 , which causes a braking effect to prevent unwanted displacement of the base body 2 and shaft 3 relative to one another.

In the right of the front end 32 of the shaft 3 are the part of the hexagon section or channel 20 here two screwdriver bits 4 , 4 'are arranged one behind the other. The screwdriver bits 4 , 4 'have heads 40 , 40 ' of different sizes, which fit screws of different sizes and cross slots provided therein. In their position relative to the base body 2 , the screwdriver bits 4 , 4 'are locked by ring springs 24 which catch the notches in the outer circumference of the bit body 41 , 41 ' which are not visible in FIG. 1. For magnetic table mounting a screw on the front screwdriver bit 4 , a permanent magnet 33 is attached to the front end 32 of the shaft 3 , glued here, which attracts the screw by its magnetic field. If such a magnet 33 is used, a non-magnetic or only slightly magnetic metal is expediently used for the base body 2 in order to maintain the magnetic field at the tip of the front screwdriver bit 4 as strongly as possible.

In the position shown in Fig. 1 of the base body 2 and shaft 3 , the bit holder 1 is in its one state, in which a screw can be rotated with the front screwdriver bit 4 and its outwardly projecting head 40 . The rear, further screwdriver bit 4 'is located directly behind the front screwdriver bit 4 and supports it during screwing work in the axial direction, so that from a screwdriver tool not shown here, thrust forces and torques introduced via the shaft 3 reliably up to the head 40 of the front screw bit 4 are transmitted.

Finally, it can be seen from Fig. 1 that in the circumference of the base body 2 there is an opening 23 pointing upwards, the length and width of which is so dimensioned that a screwdriver bit 4 , 4 'is inserted from the outside into the interior of the base body 2 can be when the shaft 3 is retracted accordingly far, ie in the drawing relative to the base body 2 is shifted to the left.

This state of the bit holder 1 is shown in FIG. 2. The front screwdriver bit 4 in FIG. 1 has been manually pulled out of its original position by the user of the bit holder 1 . By moving the base body 2 relative to the shaft 3 to the right, the front end of the shaft 3 is moved back past the opening 23 . Through this breakthrough 23 through the screwdriver bit 4 can now be guided into the interior of the base body 2 and into the hexagon section or channel 20 running therein, similar to inserting a cartridge into a rifle. As soon as the screwdriver bit 4 lies in the hexagon section or channel 20 , the screwdriver bit 4 can first be brought into contact with the back of the screwdriver bit 4 'still remaining in the base body 2 by advancing the shaft 3 ; by subsequent further advancement into the end position of the shaft 3 shown in FIG. 1, the two screwdriver bits 4 'and 4 immediately behind one another are pushed forward until the front screwdriver bit 4 ' reaches its use position. The screwdriver bit 4 then lies behind the screwdriver 4 'within the base body 2 and is, as before, there the other screwdriver 4', kept captive. In the now he handed position, the two screwdriver 4 'and 4 th back supported by the annular springs 24 in its position so that it falling out of the screwdriver bits 4', 4 is excluded from the basic body. 2

With the bit holder 1 , a very simple and quick change between at least two screwdriver bits 4 ', 4 is evident, the screwdriver bit 4 or 4 ' which is not currently required being kept safely inside the bit holder 1 , so that it is not lost can go. With a correspondingly greater length of the base body 2 , designs of the bit holder 1 can also be realized in which more than two screwdriver bits 4 , 4 'can be accommodated. There is also the possibility to use screwdriver bits, which are seen on both sides with a head of different shape or size, or which have a length that is twice as large as that of the usual bits shown here and which were originally used for direct clamping into the drill chuck of a drill driver.

Claims (14)

1. Bit holder ( 1 ), consisting of a base body ( 2 ), with one rear end ( 21 ) of which a shaft ( 3 ) for clamping in a screwing tool, in particular an electric or pneumatic screwdriver, is connected in a rotationally fixed manner and on the other, an internal hexagon section ( 20 ) is provided at the front end ( 22 ) for receiving an exchangeable screwdriver bit ( 4 , 4 ') with a bit body ( 41 , 41 ') with a hexagonal cross section, characterized in that

• - That the hexagon socket section ( 20 ) to the shaft ( 3 ) is extended by at least the length of a screw bit ( 4 , 4 ') corresponding length,
• - That the shaft ( 3 ) extends to or in the hexagonal section ( 20 ) and
• - That the shaft ( 3 ) and the base body ( 2 ) are displaceable relative to each other in their axial direction.

2. Bit holder according to claim 1, characterized in that the shaft ( 3 ) has a hexagonal cross section corresponding to the bit body cross section and that the hexagon section ( 20 ) as a hexagon channel ( 20 ) over the entire axial length of the Basic body ( 2 ) extends. 3. Bit holder according to claim 1, characterized in that the shaft ( 3 ) has a larger hexagonal cross section than the bit body cross section and that the hexagon section ( 20 ) as a stepped hexagon channel ( 20 ) with two accordingly different Internal diameters extends over the entire axial length of the base body ( 2 ). 4. Bit holder according to claim 1, 2 or 3, characterized in that the base body ( 2 ) has a running in its longitudinal direction, attached in its circumference opening ( 23 ) which is dimensioned and con tured that by them at accordingly A screw bit ( 4 , 4 ') which can be moved far back to the shaft ( 3 ) can be inserted into the hexagon socket section or channel ( 20 ) from the outside inwards. 5. Bit holder according to one of the preceding claims, characterized in that the displacement path of the shaft ( 3 ) and base body ( 2 ) relative to one another is preferably limited by two stops, where at least the length of a screwdriver bit ( 4 , 4 ') corresponds to the displacement path . 6. Bit holder according to claim 5, characterized in that the stops by the two ends (36 ', 36 ") of a longitudinally arranged in the shaft ( 3 ) groove ( 36 ) and by a in the base body ( 2 ) in the groove ( 36 ) projecting pin ( 26 ) are formed. 7. Bit holder according to claim 6, characterized in that the pin ( 26 ) is displaceable in its axial direction and preloaded in the direction of extension by a spring force and that the end face of the pin ( 26 ) pointing in the groove ( 36 ) at the base of the groove ( 36 ) is in frictional contact. 8. Bit holder according to claim 7, characterized in that the groove ( 36 ) seen over its length has a variable depth, the groove ( 36 ) at its ends ( 36 ', 36 ") being deepest and rich in its central region is flattest. 9. Bit holder according to one of the preceding claims, characterized in that a permanent magnet ( 33 ) is attached to the front end ( 32 ) of the shaft ( 3 ) lying inside the base body ( 2 ). 10. Bit holder according to one of the preceding claims, characterized in that in the interior of the inner hexagonal section or channel ( 20 ) at least one latching lock is provided with which at least one in use position, projecting from the base body ( 2 ) Screwdriver bit ( 4 , 4 ') can be locked in position. 11. Bit holder according to claim 10, characterized in that in the hexagon section or channel ( 20 ) two or more locking detents (each) are provided at a distance corresponding to the length of a screwdriver bit ( 4 , 4 '). 12. Bit holder according to claim 10 or 11, characterized in that the locking (in each case) by an in the hexagon section or channel ( 20 ) on the base body ( 2 ) held ring spring ( 24 ) or by a tangentially with their legs transverse to Inside hexagonal section or channel ( 20 ) extending U-spring is formed. 13. Bit holder according to one of the preceding claims, characterized in that the shaft ( 3 ) is a steel part. 14. Bit holder according to one of the preceding claims, characterized in that the base body ( 2 ) is a turned and milled part made of a metal, which vorzugwei se is not or only slightly magnetic, or a die-cast part made of a sufficiently strong light alloy.