WO2024223163A1 - Hand tool with storage device for tool bits - Google Patents

Abstract

The invention relates to a hand tool with a body element (1) extending along a central longitudinal axis (A) and shaped as a handle, wherein the body element (1) has a first receiving region for a storage device for tool bits which can be pivoted out of the body element (1) into a functional position. The dimensions of a hand tool of this type should be minimised and at the same time its ergonomic properties and, in particular, its usability should be improved. According to the invention, this is achieved in that the first receiving region is in the form of a through-opening (3) which completely penetrates the body element (1), forming two openings in opposing outer surfaces of the body element (1), and the storage device is in the form of at least one magazine, for receiving at least one tool bit (6), which is mounted in said through-opening (3) so as to be pivotable about a pivot axis oriented perpendicular to the central longitudinal axis (A) of the body element.

Description

Hand tool with storage device for tool bits

The invention relates to a hand tool with a body element extending along a central longitudinal axis and designed as a handle, wherein the body element has a first receiving area for a storage device for tool bits that can be pivoted out of the body element into a functional position.

Tool bits are used to transfer a torque generated by a drive to a screw. In most cases, these are replaceable screwdriver blades without an operating handle that can be inserted into the corresponding chuck of an operating tool. For this purpose, tool bits have a drive section that can be connected to the chuck of the operating tool in a rotationally fixed manner and via which the tool bit can be set in a rotational movement oriented around a rotation axis of the tool bit by means of motor drive force or manual operation by a person, as well as an output section with a front-side screw engagement profile, which can also be connected to the head of a screw to be tightened or loosened in a rotationally fixed manner. In this way, a large number of screws with different screw head drive profiles (such as slotted, Torx, Allen, external hexagon, etc.) and screw head sizes can be operated with a single operating tool. Double-sided tool bits with a screw engagement profile on each front end of the bit are also known. In this way, a single tool bit can be used for two different screw head drive profiles.

However, most users only need tool bits for a limited number of screw head drive profiles. Users of such screwing tools therefore often put together a selection of tool bits that are suitable for them in an individual assortment that can be stored by the user in a container and easily carried to the place of use. Carrying such an assortment of tool bits has also proven useful for users of mechanical everyday objects, such as bicycles, so that the required tool bit is always to hand in the event of any repairs. Hand tools with a bit wrench and an integrated A storage device has been developed for such an assortment of tool bits, so that no separate storage container for the tool bits needs to be carried.

US 6,640,675 B1 discloses a hand tool with a bit wrench and a magazine for tool bits, wherein the bit magazine can be pivoted between a first position in which the bit magazine is folded into a receiving area incorporated into the handle of the hand tool in the manner of a hollow space and is secured against removal, and a second unfolded functional position in which the bit magazine is accessible for removing or inserting tool bits. In order to store a plurality of tool bits, the bit magazine has a corresponding plurality of receptacles so that a tool bit can be inserted into each receptacle. The receptacles are arranged in series along a longitudinal extension of the bit magazine that is parallel to the central longitudinal axis of the hand tool (in the folded-in position). In order for all receptacles to be accessible to the user of the hand tool, the bit magazine must be folded out completely from the handle of the hand tool so that all receptacles are freely accessible to the user. However, since all tool bits are folded out of the hand tool at the same time, it is very easy for individual tool bits to accidentally fall out or be lost from the bit magazine during practical use of this hand tool. In addition, the hand tool is very difficult to handle in such a position with the bit magazine folded out. In addition, the large length of the bit magazine results from the serial arrangement of the individual tool bits. This means that the hand tool is also large and rather unwieldy. The longitudinal extension of the hand tool can be reduced - as is also known from the prior art - by means of holders in the bit magazine suitable for double-sided tool bits. However, this instead increases the depth or thickness of the required holder area in the handle of the hand tool, which in turn results in a hand tool that is very difficult to operate ergonomically and has a very thick handle.

The object of the present invention is therefore to provide a hand tool with a body element extending along a central longitudinal axis and designed as a handle, wherein the body element has a first receiving area for a pivotable tool that can be pivoted out of the body element into a functional position. Storage device for tool bits which overcomes the aforementioned problems. In particular, the dimensions of such a hand tool are to be minimized and at the same time its ergonomic properties and in particular its usability are to be improved.

This object is achieved in that the first receiving area is designed as a passage opening that completely penetrates the body element to form two openings in opposing outer surfaces of the body element, and the storage device is designed as at least one magazine that is pivotably mounted in this passage opening about a pivot axis oriented at right angles to the central longitudinal axis of the body element for receiving at least one tool bit.

In this way, a hand tool is realized which enables a particularly efficient and space-saving storage of tool bits within a body element designed as a handle and combines this with improved handling for the user.

The passage opening is designed in the body element in such a way that it penetrates two first, essentially opposite outer surfaces of the body element and forms an opening there in each case. In other words, the passage opening is designed as a receiving chamber arranged in the interior of the body element, which is open to the outside via two openings in essentially opposite outer surfaces of the body element. This receiving chamber serves to accommodate the at least one magazine in a first storage position. The second outer surfaces of the body element, which are oriented essentially rotated by 90° to the aforementioned first outer surfaces of the body element penetrated by the passage opening and are also essentially opposite one another, are designed as gripping surfaces for manually operating the hand tool. These second outer surfaces can either be designed to cover the entire surface or - for example, for reasons of weight saving - have additional recesses that can also open towards the passage opening or the receiving chamber. The at least one magazine is mounted within this passage opening of the body element so that it can pivot about a pivot axis that extends between the two aforementioned second outer surfaces of the body element and is aligned at right angles to the central longitudinal axis of the body element. In this way, the magazine can pivot in both directions along a pivot plane defined by the central longitudinal axis of the body element. By means of this pivotable mounting, the magazine can pivot between a storage position and two functional positions that are oriented differently with regard to the direction of their pivot angle in relation to the central longitudinal axis of the body element. A first functional position can therefore be reached by pivoting in a first direction about the pivot axis and a second functional position can be reached by pivoting in a second direction opposite thereto about the same pivot axis.

The storage position of the at least one magazine is characterized in that the magazine is completely pivoted into the passage opening or the receiving chamber of the body element or folded into it and thus a tool bit held in the magazine is not accessible to a user of the hand tool. In the storage position, the central longitudinal axis of the at least one magazine, which corresponds to the central longitudinal axis of a tool bit held in this magazine (for example by means of a plug-in socket), is aligned approximately parallel to the central longitudinal axis of the body element. In a functional position, however, the central longitudinal axis of the at least one magazine (and thus also the central longitudinal axis of a tool bit held in this magazine) is tilted by the aforementioned pivot angle in relation to the central longitudinal axis of the body element. Since the magazine can be pivoted in both directions within the pivot plane, the intermediate angle between the central longitudinal axes of the magazine and the body element can be oriented positively or negatively. In at least one of the two functional positions, the magazine is pivoted out of the passage opening or the receiving chamber of the body element by such an angle that the free end face of the magazine opposite the pivot point of the pivot bearing protrudes beyond the outer surface of the body element in such a way that a manual removal or insertion of a tool bit from or into the magazine is possible by an operator of the hand tool. Such a design of a pivotable storage device for tool bits within the body element of a hand tool enables a parallel alignment of the central longitudinal axes of the magazine (or tool bit) in the storage position, which significantly reduces the space required for a stored tool bit in the storage position. In addition, the body element only needs to have two opposing outer surfaces that delimit the passage opening and support the pivot bearing for the at least one magazine. Overall, this enables a particularly slim design of the body element, the outer circumference of which can be minimized, particularly in the area of its handle, to a value that only slightly exceeds the outer circumference of the at least one magazine. In this way, the outer circumference of the hand tool in the area of the handle and the first receiving area formed there for the storage device is essentially only determined by the dimensions of the at least one magazine and can therefore be designed to be very slim and ergonomic.

At the same time, the at least one magazine can be swung out of the storage position into a functional position by manually applying a pressure force acting on the magazine from a first side of the passage opening, with the magazine swinging out of the passage opening on the outer surface of the body element opposite the point of force introduction. This enables simple and intuitive operation of the at least one magazine with a low pressure force that can easily be applied by the finger of a human hand. In addition, the point of introduction of this pressure force onto the magazine does not have to be particularly precise, since even a small lever effect in relation to the pivot axis can overcome the low resistance of the pivot bearing. In any case, unlike in the previously known prior art, the storage device does not have to be laboriously grasped and pulled out of its respective receiving area provided in the body element by means of pulling force against spring return forces. This significantly simplifies and facilitates the use of such a generic hand tool.

The present invention therefore provides a hand tool with a storage device for tool bits integrated into the handle, which has low and has compact external dimensions and is at the same time very easy and very intuitive for the user to operate. Especially with miniaturized hand tools, such as those widely used in cycling, it is important that the reduction in the dimensions and weight of the hand tool does not come at the expense of its usability.

The invention also provides that the longitudinal extension of the passage opening in a direction parallel to the central longitudinal axis of the body element corresponds at least to the longitudinal extension of the at least one magazine equipped with a double-sided tool bit, wherein the free distance between the inner wall of the passage opening or receiving chamber and the exposed front side of the tool bit (i.e. the front side of the tool bit that is not held in the magazine) is reduced to a narrow gap. In this way, undesirable relative movements between the magazine and the tool bit are prevented in the storage position.

According to a particularly preferred embodiment of the basic idea of the invention, the storage device is formed from a first and a second magazine, each of which is pivotably mounted in the passage opening about a first or second pivot axis oriented at right angles to the central longitudinal axis of the body element, for accommodating at least one tool bit, wherein the first pivot axis and the second pivot axis are arranged offset in opposite directions from the central longitudinal axis of the body element. The first and the second pivot axes are each spaced apart by a specific distance from the central longitudinal axis in the direction of the outer surface of the body element, wherein the distances of both pivot axes from the central longitudinal axis of the body element do not necessarily have to be identical. In this way, the number of tool bits that can be stored using the magazines is doubled without this having a negative effect on the advantages associated with the basic inventive idea, in particular the small and compact dimensions of the hand tool. It is further provided that both magazines have magnetic means on their mutually facing side surfaces, which interact with each other when both magazines are in the storage position pivoted into the passage opening. When the magazines are pivoted from the storage position into the To reach the functional position, both magnets must be moved transversely against each other, which is only possible if the opposing magnetic attraction that both magnetic devices exert on each other is overcome. In this way, both magazines are held against each other in the storage position and secured against unintentional pivoting into a functional position.

The basic inventive idea also provides that each tool bit is held in the magazine by means of magnetic or mechanical holding means. This prevents a tool bit from falling out of the magazine, especially when the magazine is pivoted into the functional position.

According to the inventive basic concept, the at least one magazine is designed as a sleeve which has at least one longitudinal slot at least in sections along its longitudinal axis and on whose outer surface in the area of the at least one longitudinal slot two nubs are arranged diametrically opposite one another in relation to the sleeve's longitudinal axis. In this way, a simple pivot bearing of the magazine is realized, which enables easy removal or easy insertion of a magazine into the through-opening of the hand tool. To insert the magazine, the sleeve is pressed together in the area of the longitudinal slot and the nubs are inserted into recesses provided for this purpose in the second outer surfaces of the body element. To remove the magazine, in inverse logic, the nubs are disengaged by pressing the sleeve together in the area of the longitudinal slot, so that the magazine can be removed from the pivot bearing or the through-opening.

The inventive concept further provides that the body element has a second receiving area for a bit wrench that can be pivoted out of the body element into a functional position, the bit wrench being formed from a shaft, at the free first end of which a receptacle for a tool bit is formed and at the opposite second end of which a pivot bearing is formed that connects the shaft to the body element in an articulated manner. When not in use, such a bit wrench can be folded into a receiving area integrated in the body element in a space-saving manner. The shaft can thus easily be dimensioned with such a longitudinal extension that the bit wrench in Functional position has the usage characteristics and functional appearance of a conventional non-folding bit wrench or Allen key.

It is also provided that the receiving area for the bit wrench and the through-opening for accommodating the magazine(s) for the tool bits to be stored are arranged in series with one another along the central longitudinal axis of the body element. In this way, a small outer circumference of the body element and thus a slim design of the hand tool are ensured.

Furthermore, the bit wrench can advantageously be fixed in the functional position against the body element by means of a spring element that can be locked into the shaft. This enables the bit wrench to be fixed particularly easily in an unfolded functional position or a storage position folded into the receiving area. In this way, it is also possible to fix the bit wrench against the body element not only in these two aforementioned positions, but to provide a plurality of different fixable angular positions of the shaft in relation to the central longitudinal axis of the body element.

Finally, the invention provides that the body element has a sleeve rigidly connected to the body element at at least one end face for receiving a further tool bit. In this way, not only is an additional storage device for a further tool bit possible. This sleeve also enables screws to be turned quickly using the hand tool, without the need to transfer a high torque to the screw via the tool bit held in the sleeve.

The present invention is explained in more detail below using an embodiment and associated drawings. They show in perspective view:

Figure 1: Hand tool according to the invention in storage position

Figure 2: Hand tool according to the invention with magazines folded out on both sides Figure 3: Longitudinal section through hand tool in storage position

Figure 4: Longitudinal section through hand tool in functional position Figure 5: Detail from Figure 4 showing the arrangement of the pivot axes of the magazines in relation to the central longitudinal axis of the body element

Figure 6: Longitudinal section through hand tool in functional position

The hand tool according to the invention is essentially formed from a body element 1, which has recesses 2, 3 for receiving a bit wrench 7 and two magazines 4, 5 for storing tool bits 64, 65. The bit wrench 7 is hinged to a first front end of the body element 1 by means of a pivot bearing 73 and is thus pivotably mounted between a storage position in which the bit wrench is completely folded into the recess 2 recessed in the body element 1, and a functional position in which the bit wrench is oriented approximately at right angles to the longitudinal direction of the hand tool defined by the central longitudinal axis A of the body element 1. The hand tool with a bit wrench 7 folded out in the functional position thus has the functional appearance of a conventional bit wrench or Allen key. The bit wrench 7 further comprises a shaft 71, at the free end of which (i.e. the end opposite the pivot bearing 73) a sleeve 72 enables the accommodation of a tool bit 67. The sleeve 72 is magnetized to better fix the tool bit 67. By means of such a bit wrench 7, the hand tool is designed to apply a large torque to drive a screw or a bolt. Finally, the bit wrench 7 can be fixed against the body element 1 by means of a first spring element 74 that can be locked in the shaft 71. This first spring element 74 can be manually moved out of engagement in a first notch on the shaft 71 by an operator of the hand tool and the bit wrench 7, which can thereby be moved freely around the pivot bearing 73, can be pivoted into the recess 2. In this case, a second spring element 75 arranged within the recess 2 is displaced by the bit wrench 7 and is subjected to a preload; the first spring element 74 engages in a second notch on the shaft 71. When the first spring element 74 is actuated again, the second spring element 75 is relieved and pushes the bit key 7 out of the recess 2 again to such an extent that it can be manually grasped by the user and pivoted into the functional position again.

The body element 1 has on its opposite second front side At the end, the tool has a further sleeve 8 which is rigidly connected to the body element 1 for receiving a further tool bit 68, the central longitudinal axis of the sleeve 8 coinciding with the central longitudinal axis A of the body element 1. The sleeve 8 is also magnetized for better fixation of the tool bit 68. By means of such a front-side sleeve 8, the hand tool is suitable for quickly turning a screw or a bolt.

In an intermediate area arranged between the receptacle 2 for the bit wrench 7 and the front sleeve 8 and designed as a handle for a user of the hand tool, the body element 1 has a passage opening 3 that completely penetrates the body element 1. This comprises a receiving chamber located inside the body element 1, which is accessible via an opening from two opposing outer surfaces of the body element 1. This passage opening 3 serves to accommodate two magazines 4, 5 for storing additional tool bits 64, 65. Each of the two magazines 4, 5 is formed from a magnetized sleeve, in each of which a double-sided tool bit 64, 65 is held, the central longitudinal axis of the sleeve and the central longitudinal axis of a tool bit held in the sleeve coinciding. Both sleeves have a magnet 41, 51 on their side surfaces facing each other. These magnets 41, 51 are positioned on the sleeves and magnetically polarized in such a way that they interact with each other in an attractive manner when the central longitudinal axes D4, D5 of both magazines 4, 5 are aligned parallel to the central longitudinal axis A of the body element 1.

In addition to the two outer surfaces penetrated by the passage opening 3, the body element has two further outer surfaces opposite one another, which are oriented at a distance of approximately 90° from the aforementioned outer surfaces and whose outer surfaces are designed as gripping surfaces 11 for manually operating the hand tool. The two magazines 4, 5 are each mounted so as to be pivotable about a pivot axis B, C. Figure 5 illustrates the spatial position and orientation of these two pivot axes B, C in relation to the body element 1, whereby these two pivot axes appear only as point-shaped rotation poles B, C in the perspective chosen in Figure 5. However, it is clear that the two pivot axes B, C are each aligned at right angles to the central longitudinal axis A of the body element 1 and are each offset by a distance b, c from this in the direction of the outer surface. of the body element 1. In the visualized embodiment, these two distance dimensions b, c are the same size. In this way, both magazines 4, 5 can be pivoted in both directions along a pivoting plane defined by the central longitudinal axis A of the body element 1. Figure 5 shows a sectional view of the magazines 4, 5 in this aforementioned pivoting plane. Both magazines 4, 5 can be pivoted both anti-clockwise and clockwise about their respective pivot axes B, C.

By means of this pivotable mounting, both magazines 4, 5 can be pivoted between a storage position and a functional position. The storage position shown in Figure 3 for both magazines 4, 5 is characterized in that each magazine 4, 5 is pivoted completely into the passage opening 3 or folded into it and thus a tool bit 64, 65 held in the respective magazine 4, 5 is not accessible to a user of the hand tool. In the storage position, the central longitudinal axis D4, D5 of the respective magazine 4, 5 is aligned largely parallel to the central longitudinal axis A of the body element 1. In the functional position of the magazine 4 shown in Figure 4, however, its central longitudinal axis D4 is tilted out of the passage opening 3 of the body element 1 by such a pivot angle in relation to the central longitudinal axis A of the body element 1 that the free end face of the magazine 4 opposite the pivot axis B protrudes from the body element 1 in such a way that a manual removal or insertion of a tool bit 64 from or into the magazine 4 by an operator of the hand tool is possible.

Figure 2 visualizes a hand tool according to the invention with magazines folded out on both sides. However, this illustration serves only to illustrate the structural design of the hand tool according to the invention. In practical use, however, such a folding out of both magazines on both sides is not intended. Instead, when used as intended - as shown in Figure 4 and explained above - only one of the two magazines is in the functional position, while the second magazine is also deflected from the storage position or the position parallel to the central longitudinal axis A of the body element 1. This deflection of the second magazine takes place in the same pivoting direction as that of the first magazine. In the In the representation selected in Figure 4, the magazine 4 is in the functional position and releases the tool bit 64 held in the sleeve of the magazine 4 for removal. In the representation selected in Figure 4, the magazine 4 pivots out of the passage opening 3 in an anti-clockwise or anti-clockwise direction. To effect this pivoting, when the hand tool is used as intended, a user exerts a pressure force on the magazine 5 adjacent to the magazine 4, for example by pressing the magazine 5 into the passage opening 3 using finger force. The pivoting of the magazine 5 about its pivot axis C caused by this - also anti-clockwise - is transferred via the common contact surface of both magazines 4, 5 (this is formed by the side surfaces of both magazines 4, 5 facing each other) to the adjacent magazine 4, which thereby experiences a counterclockwise pivoting about its pivot axis B. Since the two magnets 41, 51 of the magazines 4, 5 are subjected to a relative transverse displacement movement to one another, a certain minimum force must be applied when the user pushes in the magazine 5 in order to overcome the holding forces of the magnets 41, 51 which are effective in this case, thereby preventing the magazines 4, 5 from swinging out of the passage opening 3 automatically or unintentionally.

It is easy for the expert to understand that pivoting of the second magazine 5 into the functional position - not shown in the embodiment - takes place in an analogous manner by pressing the first magazine 4 into the passage opening 3 - in each case clockwise or right-turning. This is possible without any problems since both magazines 4, 5 can be pivoted in both directions about their respective pivot axes B, C.

list of reference symbols

1 body element

11 grip surface

2 Bit key storage area (7)

3 passage opening

4 first magazine

41 Magnet of the first magazine (4)

5 second magazine

51 Magnet of the second magazine (5)

52 longitudinal slot

64, 65, 67, 68 tool bits

7 bit keys

71 Shaft of the bit wrench (7)

72 Holder for tool bit (67)

73 swivel bearings

74 first spring element

75 second spring element

8 sleeve

A Central longitudinal axis of the hand tool

B Swivel axis of the first magazine (4)

C Swivel axis of the second magazine (5)

D4 Central longitudinal axis of the first magazine (4)

D5 Central longitudinal axis of the second magazine (5)

Claims

patent claims 1. Hand tool with a body element (1) extending along a central longitudinal axis (A) and designed as a handle, wherein the body element (1) has a first receiving area for a storage device for tool bits that can be pivoted out of the body element (1) into a functional position, characterized in that the first receiving area is designed as a passage opening (3) that completely penetrates the body element (1) to form two openings in opposing outer surfaces of the body element (1), and the storage device is designed as at least one magazine for receiving at least one tool bit (6) that is pivotably mounted in this passage opening (3) about a pivot axis oriented at right angles to the central longitudinal axis (A) of the body element. 2. Hand tool according to claim 1, characterized in that the storage device is formed from a first and a second magazine (4, 5) pivotably mounted in the passage opening (3) about a first or second pivot axis (B, C) oriented at right angles to the central longitudinal axis (A) of the body element (1) for receiving at least one tool bit (64, 65), wherein the first pivot axis (B) and the second pivot axis (C) are arranged offset in opposite directions to the central longitudinal axis (A) of the body element (1). 3. Hand tool according to claim 2, characterized in that both magazines (4, 5) each have magnetic means (41, 51) on their mutually facing side surfaces, which interact with each other when both magazines (4, 5) are pivoted into the passage opening (3) in the storage position. 4. Hand tool according to one of claims 1 to 3, characterized in that each tool bit (64, 65) is held in the magazine (4, 5) by means of magnetic or mechanical holding means. 5. Hand tool according to one of claims 1 to 4, characterized in that the at least one magazine (5) is designed as a sleeve which has at least one longitudinal slot (52) at least in sections along its longitudinal axis (D5) and on whose outer surface in the region of the at least one longitudinal slot (52) two nubs are arranged which are diametrically opposite one another with respect to the sleeve longitudinal axis (D5). 6. Hand tool according to one of claims 1 to 5, characterized in that the body element (1) has a second receiving area (2) for a bit wrench (7) that can be pivoted out of the body element (1) into a functional position, wherein the bit wrench (7) is formed from a shaft (71), at the free first end of which a receptacle (72) for a tool bit (67) is formed and at the second end opposite thereto a pivot bearing (73) is formed that connects the shaft (71) to the body element (1) in an articulated manner. 7. Hand tool according to claim 6, characterized in that the bit wrench (7) can be fixed in the functional position against the body element (1) by means of a spring element (74) which can be locked in the shaft (71). 8. Hand tool according to one of claims 1 to 7, characterized in that the body element (1) has a sleeve (8) rigidly connected to the body element (1) at at least one front end for receiving a further tool bit (68).