DE20108605U1 - Screwdriver, bit and screw head - Google Patents

Description

Screwdriver. Bit and screw head

The present invention relates to a screwdriver bit and a screw head.
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Screwdriver bits are used as inserts for machine-operated screwdrivers or as the head of manually operated screwdrivers. The screwdriver bit is inserted into a drive of a suitably designed screw head of a screw in order to screw the screw in or out by transmitting torque. There are now various types of screws and corresponding screwdriver bits, such as Phillips screws, Torx screws, etc. The disadvantage of all known screw heads and the corresponding screwdriver bits is that the screwdriver bit has to be inserted vertically into the drive of the corresponding screw head, i.e. the long axes of the screwdriver bit and the screw head have to be essentially parallel in order to enable the torque to be transmitted accordingly without the screwdriver bit slipping out of the drive of the screw head or deforming it. None of the known types of screw head allows screwing with the screwdriver bit at an angle in relation to the screw head. One exception here is the hexagon socket designed as a shark ball head. However, this design of a screwdriver bit has the disadvantage that, due to its principle, the positive overlap between the spherical screwdriver bit and the cylinder-shaped drive of the screw head is minimal and thus the transmittable torques are limited.

The object of the present invention is therefore to provide a screwdriver bit and a corresponding screw head which enable safe and reliable screwing even at an inclination angle and even at high torques between the screwdriver bit and the screw head.

This object is achieved by a screwdriver bit according to claim 1 and a screw head according to claim 7. Advantageous embodiments are specified in the subclaims.

The screwdriver bit according to the invention comprises a flat tip and three or more drive webs, wherein a circumferential edge is formed around the flat tip, which delimits an edge region that slopes sharply towards the drive webs, and the drive webs each have a convex outer region and a shoulder towards the flat tip, so that the shoulders and the edge region in the

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When inserted into the drive of a screw head, the screwdriver bit can be tilted and supported.

In particular, the shoulders, the steeply sloping edge area and the circumferential edge of the tip, in conjunction with the appropriately designed drive of the screw head, enable optimal transmission of torque from the screwdriver bit to the screw head and the entire screw.

The flat tip advantageously has a convex shape. The convex shape supports and facilitates the inclination or tilting of the screwdriver bit in relation to the screw head. Advantageously, the peripheral edge of the flat tip is essentially circular. The circular shape makes it possible to tilt the screwdriver bit in any direction in relation to the screw head. Advantageously, grooves are formed between the drive webs, the side walls of each of the drive webs being slightly convex and essentially parallel to one another. The shape of the drive webs with the grooves in between also makes it easier to tilt the screwdriver bit in relation to the screw head in any direction, ensuring reliable and safe transmission of torque without the screwdriver bit slipping out of the drive of the screw head. Advantageously, the center points of the outer areas of the drive webs and the flat tip lie essentially on a spherical surface. This also makes it easier to tilt and tilt the screwdriver bit in relation to the screw head in any direction. Advantageously, in this case, the outer areas and the flat tip are essentially partial surfaces of a spherical surface. The surface shapes make it much easier to tilt the screwdriver bit in relation to the screw head, since the surfaces, in conjunction with corresponding surfaces of the screw head drive, allow the screwdriver bit to be tilted in any direction without unnecessary resistance occurring.

This means that the screwdriver bit can be tilted in any direction in relation to the screw head, while at the same time ensuring maximum torque transmission and ensuring that the screwdriver bit cannot accidentally slip out of the drive of the screw head.

The screw head according to the invention comprises a drive for inserting a screwdriver bit, the drive having a recess with three or more grooves, the grooves each forming a shoulder towards the bottom of the recess, which is adjoined by a substantially vertical wall region, a peripheral edge being formed between the substantially vertical wall region and the bottom. The shoulders, the substantially vertical wall region and the peripheral edge ensure, in cooperation with the correspondingly designed screwdriver bit, as described above, for example, that the screwdriver bit can be tilted in any direction in relation to the screw head and at the same time maximum torque transmission is ensured. The bottom of the drive advantageously has a concave shape. The concave shape, in conjunction with a correspondingly designed tip of the screwdriver bit, enables easy tilting. The peripheral edge is also advantageously essentially circular. This supports the tiltability of the screwdriver bit in relation to the screw head in any direction. Advantageously, the groove is limited by two side walls that run essentially parallel to each other. This shape of the groove supports optimal torque transmission regardless of the direction in which the screwdriver bit is tilted in relation to the screw head. Another advantage is that the number of grooves is proportional to the size of the recess. The number of grooves of the screw head drive or the number of drive webs of the corresponding screwdriver bit can clearly show the user the graduated sizes of the screw heads and screwdriver bits in a way that is easy to recognize.

The present invention further relates to a combination of the screwdriver bit according to the invention and a screw with a screw head according to the invention, wherein the screwdriver bit and the screw head are adapted to one another in such a way that a torque transmission between the screwdriver bit and the screw head is possible up to an angle of 20 degrees, preferably 15 degrees between the longitudinal axes of the screwdriver bit and the screw head. The tilting of the screwdriver bit and the screw head relative to one another is advantageously limited by the interaction of the steeply sloping edge region and the circumferential edge of the screwdriver bit with the essentially vertical wall region and the circumferential edge of the recess of the screw head. Additionally or alternatively, the tilting of the screwdriver bit and the screw head relative to one another

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advantageously limited by the interaction of the shoulders of the screwdriver bit and the shoulders of the screw head.

In the following description, preferred embodiments of the screwdriver bit according to the invention and the screw head according to the invention are explained in more detail with reference to the attached figures, in which:

Fig. 1 is a schematic perspective view of a screwdriver bit according to the invention, Fig. 2 is a schematic perspective view of a screw head according to the invention,

Fig. 3 is a schematic perspective view of a screwdriver bit according to the invention and a screw head according to the invention,

Fig. 4 is a schematic sectional view of a screwdriver bit according to the invention and a screw head according to the invention in the assembled state, the two longitudinal axes being parallel,

Fig. 5 is a schematic sectional view of the screwdriver bit and screw head of Fig. 4, with the screwdriver bit tilted by 15 degrees with respect to the screw head, and

Fig. 6 to 9 top views of various embodiments of the screw head according to the invention in different sizes, each with a different number of grooves.

Fig. 1 shows a schematic perspective view of a screwdriver bit 1 according to the present invention. The screwdriver bit 1 is designed, for example, as an insert for a machine-operated cordless screwdriver or the like, or as the tip of a hand screwdriver.

The screwdriver bit 1 according to the invention comprises a flat tip 2, which can be flat, but advantageously has a convex shape, i.e. is curved outwards. The flat tip 2 has a surface center 10. The flat tip 2 is delimited by a circumferential, advantageously circular edge 3. The circumferential edge 3 further delimits an edge region 4 which slopes sharply towards five drive webs 5. The five drive webs 5 each have a convex outer region 6 and a shoulder 7 towards the flat tip 2. Grooves 8 are formed between the drive webs 5. Furthermore, the

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Drive webs 5 each have two lateral side walls 9a and 9b, which are essentially parallel to each other and slightly convex.

The five drive webs 5 are arranged symmetrically around the flat tip 2 and each have an identical shape. Each convex outer region 6 of the drive webs 5 has a center point 11. The center points 11 of the outer regions 6 lie on a circular path and, together with the center point 10 of the flat tip 2, lie on part of a spherical surface.

Advantageously, the outer regions 6 of the drive webs 5 and the flat tip 2 are designed such that they essentially form partial surfaces of a spherical surface.

The underside of the screwdriver bit 1 is designed with a hexagon for clamping into a mechanical screwdriver. Alternatively, the screwdriver bit 1 can merge into the handle of a manual screwdriver at its underside.

In Fig. 2, a screw head 20 according to the invention for a screw is shown in a schematic perspective view. The screw head 20 shown has a drive for inserting the screwdriver bit 1 shown in Fig. 1. For this purpose, the drive comprises a recess 21 with five grooves 22, each for receiving a drive web 5 of the screwdriver bit 1. The base 26 of the recess 21 has a concave shape that is adapted to the shape of the flat tip 2 of the screwdriver bit 1. The base 26 is surrounded by a substantially vertical wall region or torus partial surface 24, which is limited at the top by a circumferential edge 25 that is circular. The circumferential edge 3 of the tip 2 of the screwdriver bit 1 therefore engages in the transition region between the base 26 and the vertical wall region 24 of the screw head 20, wherein the edge region 4 of the screwdriver bit 1 comes to lie opposite the wall region 24 of the screw head 20.

The grooves 22 are each delimited by a shoulder 23 towards the bottom 26 of the screw head 20 and laterally by a side wall 28a and 28b. The side walls 28a and 28b of each groove 22 are essentially parallel to one another. The grooves 22 each have an identical shape and are distributed symmetrically around the longitudinal axis of the screw head 20.

Fig. 3 shows once again the combination of the screwdriver bit 1 shown in Fig. 1 with the screw head 2 shown in Fig. 2 in a perspective view. The screwdriver bit 1 and the recess 21 of the screw head 20 are designed and shaped in such a way that when the screwdriver bit 1 is inserted into the recess 21 of the

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screw head 20, tilting of the screwdriver bit 1 in the screw head 20 is possible while at the same time maintaining optimal torque transmission. The mechanism for this is explained in more detail in Figs. 4 and 5.

In Fig. 4 and 5, a cross section of a screwdriver bit 1 according to the invention is shown in the state in which it is inserted into a drive of a screw head 2 according to the invention, wherein in Fig. 4 the longitudinal axes of screwdriver bit 1 and screw head 20 are parallel, and in Fig. 5 the longitudinal axes of screwdriver bit 1 and screw head 20 are shown tilted by 15 degrees. The cross-sectional representation of the screwdriver bit 1 in Fig. 4 and 5 shows a cross section through two opposite drive webs 5, as are present, for example, in an embodiment of the screwdriver bit 1 according to the invention with four symmetrical drive webs.

As can be seen in Fig. 4 and 5, the outer areas 6 of the drive webs 5 and the flat tip 2 of the screwdriver bit 1 are designed such that they lie essentially on a spherical surface. The shape of the grooves 22 and the base 26 of the screw head 20 are corresponding partial surfaces of a spherical surface, so that the wobbling movement or tilting of the screwdriver bit 1 in any direction is possible easily and gently. When a maximum tilt angle is reached, in the example shown in Fig. 5 of 15 degrees between the longitudinal axis of the screwdriver bit 1 and the screw head 20, one or more shoulders 7 of the screwdriver bit 1 come into contact with the corresponding shoulders 23 of the recess 21 and support each other. The shape of the shoulders 7 of the screwdriver bit 1 and the shoulders 23 of the screw head 20 are designed accordingly, so that tilting beyond the maximum angle of inclination is not possible. The blocking of further tilting movement is supported by the support of the edge 3 of the flat tip 2 of the screwdriver bit 1 on the edge between the base 26 and the wall area 24 of the screw head 20. The edge area 4 of the screwdriver bit 1 comes to rest against the wall area 24 of the screw head 20 and further tilting of the screwdriver bit 1 is not possible. At the same time, the correspondingly adapted shapes of the respective elements of the screwdriver bit 1 and the screw head 20 enable the transmission of a maximum torque from the screwdriver bit 1 to the screw head 20.

In Figs. 6 to 9 are schematic plan views of a

Screw head shown with a respective recess in different sizes. :*\ :··· ·· ·· : ·· ·. ..

The drive of the screw head according to the invention and the corresponding screwdriver bit can have various graduated sizes, the size being proportional to the number of grooves of the drive or the drive webs of the screwdriver bit. Various designs are shown in Figs. 6 to 9.

Fig. 6 shows the top view of an embodiment of a screw head 30 according to the invention with a drive which consists of a recess 31 with three symmetrical grooves 32. The bottom 34 of the recess 31 is delimited by a circular peripheral edge 33.

Fig. 7 shows a plan view of the screw head 20 according to the invention shown in Figs. 2 and 3 with five grooves 22.

Fig. 8 shows a plan view of a further embodiment of a screw head 40 according to the invention with a drive which is formed from a recess 41 with seven symmetrically arranged grooves 42. The bottom 44 of the recess 44 is delimited by a circular peripheral edge 43.

Fig. 9 shows a plan view of a further embodiment of a screw head 50 according to the invention with a drive which consists of a recess 51 with nine symmetrically distributed grooves 52. The bottom 54 of the recess 54 is delimited by a circular peripheral edge 53.

The recesses 31, 41 and 51 and their respective elements have the identical designs and functions as explained above with respect to the recess 21 of the screw head 20. The size of the bases 34, 26, 44 and 54 and the corresponding peripheral edges 33, 25, 43 and 53 increases with the number of grooves. The user can easily and without confusion identify the size of a drive and the associated screw head based on the number of grooves and use the corresponding screwdriver bit.

Claims (14)

1. Screwdriver bit ( 1 ) with a flat tip ( 2 ) and three or more drive webs ( 5 ), wherein a circumferential edge ( 3 ) is formed around the flat tip ( 2 ), which delimits an edge region ( 4 ) that slopes sharply towards the drive webs ( 5 ), and the drive webs ( 5 ) each have a convex outer region ( 6 ) and a shoulder ( 7 ) towards the flat tip ( 2 ), so that the shoulders ( 7 ) and the edge region ( 4 ) enable the screwdriver bit ( 1 ) to be tilted and supported when inserted into a drive of a screw head. 2. Screwdriver bit ( 1 ) according to claim 1, characterized in that the flat tip ( 2 ) has a convex shape. 3. Screwdriver bit (I) according to claim 1 or 2, characterized in that the circumferential edge ( 3 ) is substantially circular. 4. Screwdriver bit ( 1 ) according to claim 1, 2 or 3, characterized in that grooves ( 8 ) are formed between the drive webs ( 5 ), the side walls ( 9a , 9b ) of each of the drive webs ( 5 ) being substantially parallel to one another and slightly convex. 5. Screwdriver bit ( 1 ) according to one of claims 1 to 4, characterized in that the surface centers ( 11 , 10 ) of the outer regions ( 6 ) and the flat tip ( 2 ) lie substantially on a spherical surface. 6. Screwdriver bit ( 1 ) according to claim 5, characterized in that the outer regions ( 6 ) and the flat tip ( 2 ) are essentially partial surfaces of a spherical surface. 7. Screw head ( 20 ) with a drive for inserting a screwdriver bit ( 1 ), the drive having a recess ( 21 ) with three or more grooves ( 23 ), the grooves ( 22 ) each forming a shoulder ( 23 ) towards the bottom ( 26 ) of the recess, which shoulder is adjoined by a substantially vertical wall region ( 24 ), a circumferential edge ( 25 ) being formed between the substantially vertical wall region ( 24 ) and the bottom ( 26 ). 8. Screw head ( 20 ) according to claim 7, characterized in that the base ( 26 ) has a concave shape. 9. Screw head ( 20 ) according to claim 7 or 8, characterized in that the peripheral edge ( 25 ) is substantially circular. 10. Screw head ( 20 ) according to claim 7, 8 or 9, characterized in that each groove ( 22 ) is delimited by two side walls ( 28a , 28b ) which run substantially parallel to each other. 11. Screw head ( 20 ) according to one of claims 7 to 10, characterized in that the number of grooves ( 22 ) is proportional to the size of the recess. 12. Combination of a screwdriver bit ( 1 ) according to one of claims 1 to 6 and a screw with a screw head ( 20 ) according to one of claims 7 to 11, wherein the screwdriver bit ( 1 ) and the screw head ( 20 ) are adapted to one another in such a way that a torque transmission between the screwdriver bit and the screw head up to an angle of up to 20°, preferably 15°, between the longitudinal axes of the screwdriver bit and the screw head is possible. 13. Combination according to claim 12, characterized in that the tilting of the screwdriver bit ( 1 ) and the screw head ( 20 ) relative to one another is limited by the interaction of the steeply sloping edge region ( 4 ) and the peripheral edge ( 3 ) of the screwdriver bit ( 1 ) with the essentially vertical wall region ( 24 ) and the peripheral edge ( 15 ) of the recess ( 21 ) of the screw head ( 20 ). 14. Combination according to claim 12 or 13, characterized in that the tilting of the screwdriver bit ( 1 ) and the screw head ( 20 ) relative to one another is limited by the interaction of the shoulders ( 7 ) of the screwdriver bit ( 1 ) and the shoulders ( 23 ) of the screw head ( 20 ).