GB2414210A - Plate shaped tool card - Google Patents

Abstract

A plate-shaped tool card 93 has a housing body comprising a base plate, a cover plate 99 extending parallel therewith, and a first housing area and a second housing area 102 in the housing body. The first housing area is designed to accommodate a first implement 10 which is displaceable from a stowed position inside the housing area into an operating position outside of the housing area. The second housing area 102 is designed to accommodate a second implement 10 which is also displaceable from a stowed position inside the housing area into an operating position outside of the housing area. The second implement 10 has a housing case with oppositely lying side walls and a slim face 169 extending between the side walls. An electric lighting means 37 is arranged on the slim face 169 so as to emit a beam outwardly from the housing body (100). The housing case is moveable between stowed and operating positions in a plane extending parallel with the base and cover plates.

Description

1 241421 0

PLATE-SHAPED TOOL CARD

The present invention relates to a plate-shaped tool card, with a housing body, at least certain regions of which are bounded by two mutually opposite side faces, with at least one housing area between the side faces, and at least a first implement which can be displaced from a stowed position inside the housing area into an operating position outside the housing area, which first implement has a housing case with two oppositely lying side walls spaced at a distance apart and substantially parallel with the side faces and slim faces extending between the side walls, as well as at least one electric lighting means, such as a LED, IRED, disposed on the housing case; DE 299;)4 917 U1 discloses a pocket tool, which has a housing body bounded by two oppositely lying side faces with at least one housing area between the side faces, and at least one implement which can be pivoted out of a stowed position inside the housing area into an operating position outside the housing area. This implement is mounted so as to pivot about an axis extending perpendicular to the side faces and incorporates a housing case with two mutually opposite side walls spaced at a distance apart and extending parallel with the side faces and a slim face extending between the side walls. A compartment for a W-LED is provided in the housing case and a housing compartment for a battery which can be pivoted about an axis extending perpendicular to the side walls. The W- LED is disposed in the region of one of the side walls of the housing case and an axis of symmetry of a conical light beam extends more or less at a right angle to the longitudinal axis of the pocket tool and parallel with the axis of the implement. A side wall is provided with an operating element for operating the W-LED. En order to operate the W-LED, the implement must firstly be pivoted out of its stowed position into the operating position in order to gain free access to the operating element of the W-LED. The W light can be used to check value markings and security features on bank notes, credit cards or identity cards. The pocket tool also has a knife blade and a pair of scissors, which can also be pivoted out of a stowed position inside another housing area into an operating position outside of the other housing area. The fact that the W- LED is disposed parallel with the axis of the implement means that the housing case and hence the pocket tool has to be made wider, which is undesirable and means that only a small number of implements can be provided on the pocket tool for a comparatively slim width of the pocket tool.

A pocket tool win a plurality of different implements is also known from patent specification WO 99/58303 Al and has a housing body bounded by two mutually opposite side walls with several housing areas between the side faces as well as a plurality of implements which can be pivoted out from a stowed position inside the respective housing area into an operating position outside the respective housing area. One of these implements is mounted on the first slim face of the pocket tool so that it can be pivoted about an axis extending perpendicular to the side faces and is provided with a housing case with two mutually opposite side walls and slim faces extending between the side walls. Provided in the side wall of the housing case remote from the housing body are an electronic display, in particular a LCD display, and operating buttons. The electronic display is supplied with voltage from a battery disposed inside this housing case. Other implements may be provided on the oppositely lying second slim face and can also be pivoted about an axis extending perpendicular to the side faces, including a knife blade, nail file, pair of scissors, etc..

In one of its end regions, the pocket tool also has a lighting means opposite the housing area which is permanently fixed in the housing area, in particular a LED, which can be switched on by means of an operating element arranged on the side face of the housing body.

Patent specification WO 99/07247 A discloses a pocket tool in the form of a pocket knife, which has one or more implements, such as knife blades, cork screw, screwdriver and similar, which are arranged between two mutually opposite cover plates and can be pivoted out of a stowed position inside the housing body into an operating position outside the housing body. These implements are usually mounted so that they pivot against the action of a spring and are retained in the retracted or extracted stowed or operating positions by means of the spring force. The functionality of this known pocket tool was enhanced by providing a lighting system in the housing body. As an integral element, the lighting system is arranged in the pocket tool, which is a disadvantage in terms of accessibility during replacement when a battery or a light source has to be changed, and special tools are needed for this purpose which the user of the pocket tool does not necessarily have to hand.

Another embodiment of a pocket tool is known from patent specification WO 01/ 39629 A, in particular a tool card, which has several housing areas for implements inside it between a base plate and a cover plate, which are accessible from the outside via housing openings. The base plate and cover plate as well as the handles of the implements are made from a transparent, in particular see-through, plastic and a lighting system is provided inside the tool card between the base plate and top plate.

The lighting system consists of a light means, a battery and an operating element, by means of which the light means can be operated as and when necessary. It has been found to be of advantage to use a transparent plastic for the base plate and cover plate to enable a housing area inside the tool card-case to be illuminated. However, the disadvantage of this pocket tool known from the prior art is that a working area external to the pocket tool cannot be satisfactorily illuminated, which severely restricts the applications for which it can be used.

Accordingly, an underlying objective of the invention is to provide a plate-shaped tool card in which the displaceable implement incorporating a power consumer is made to the smallest possible dimensions and is able to fulfil several additional functions, facilitates handling and is distinctive due to its compact design.

The invention consists in a plate-shaped tool card with a housing body comprising a base plate and a cover plate extending parallel therewith, and joined to one another, two mutually opposite side faces formed in at least certain regions by the base and cover plates, and a first housing area and a second housing area, arranged in a plane extending parallel to the base and cover plates adjacent to one another and partly separate from one another, wherein said first housing area is designed to accommodate a first implement which is displaceable from a stowed position inside the housing area into an operating position outside of the housing area, and said second housing area is designed to accommodate a second implement which is displaceable from a stowed position inside the housing area into an operating position at least partly outside of the housing area, and wherein the second implement has a housing case with oppositely lying side walls extending substantially parallel at a distance apart from one another, a slim face extending between the side walls and at least one electric lighting means arranged on the slim face of the housing case and to emit a beam outwardly from the housing body, the housing case is moveable between the stowed and operating position in a plane extending parallel with the base and cover plates and an axis of the beam emitted by the lighting means and a plane oriented perpendicular to a longitudinal axis of the tool card subtends an angle which is adjustable.

An advantage of the invention is that once the second implement has been moved into its operating position outside of the housing body, a desired working surface can be optimally illuminated due to the freely adjustable angle. The desired working surface can be optimally illuminated because the second implement carrying the lighting means merely has to be displaced from its stowed position inside the housing body into the operating position outside the housing body and not the tool itself.

Consequently, the axis of symmetry of the beam and the plane disposed perpendicular to the longitudinal axis of the tool card can subtend virtually any angle, which can be adjusted essentially irrespective of the position of the tool card. This also means that the beam can be projected onto those points of the working surface where particularly dense lighting is required. The lighting means is disposed on a side-end first slim face of the housing case remote from the housing body in a plane between the side walls extending substantially parallel with the side walls.

Consequently, a width as measured between the side walls of the housing case can be optimised so that the second implement may be of a slim design. The tool card can therefore be made to the smallest possible, yet ergonomic-to-handle, external dimensions whilst being equipped with a large number of implements.

In one embodiment of the invention, the angle subtended by the axis of symmetry of the conical beam and the plane perpendicular to the longitudinal axis of the pocket tool may be freely adjusted between 0 and 170 .

The lighting means is supplied with power by means of at least one energy storage device, which is expediently arranged inside the housing case of the implement, enclosed on all sides. s

Another embodiment of the tool card is one in which, in addition to the lighting means, the second implement incorporates at least one power consumer, which preferably sits inside housing case enclosed on all sides andlor in its freely accessible side wall andlor in the side-end first or freely accessible other slim face. This power consumer may be designed accordingly for different applications, which enhances the practical value of the individual implement.

It is also of advantage to provide an electronic circuit for the lighting means inside the housing case and enclosed on all sides. The lighting means is supplied with the requisite voltage by means of the electronic circuit. This electronic circuit is provided with appropriate electronic components, which may be disposed on a board or alternatively a film or optionally may be housed in a single electronic component.

The electronic circuit may also be provided with at least one energy storage device if necessary andlor at least one power consumer. Operating safety is high because the electronic circuit is arranged inside the housing case protected from external influences.

In another embodiment of the invention the implement is additionally provided with a switch mechanism for the lighting means, enabling the implement to fulfil all the tasks required of it. An operating element of the switch mechanism is expediently provided on another slim face of the housing case which is freely accessible to the user. The lighting means is switched on and off by means of the operating element.

This operating element may be arranged in such a way that it cannot be inadvertently operated.

The implements are preferably arranged adjacent to one another in a same plane, as a result of which the tool card-case can be designed with relatively small dimensions, even if a large number of implements are housed in the tool card. The external dimensions may correspond more or less to the dimensions of a credit card or bank card. By providing housing openings in the housing areas, the implements are readily accessible, making it easy to take the implements out. Preferably, rib- type thin webs between the base plate and cover plate form a plurality of ribs, giving the plate- shaped tool card a very stable structure, even though the base plate and cover plate as well as the webs have extremely thin wall thicknesses. Furthermore, being made out of plastic, the base plate and cover plate are very easy to manufacture using an injection moulding process and the webs can be made with a slim thickness.

Also of advantage is an embodiment of the housing case designed in the shape of a circle segment or half-circle. In this embodiment, the lighting means is arranged on the side-end first slim face remote from the housing body and offset from the corner region or centre point in a radial direction. Due to the fact that the lighting means is arranged externally to the housing body and as a result of the eccentric position of the lighting means relative to the axis about which the implement is mounted on the housing case, the angle of incidence of the conical beam can be freely adjusted so that it can be directed onto a work surface to be illuminated.

IN another embodiment, the electronic circuit for the lighting means and/or the at least one energy storage device and/or the at least one power consumer and/or the switch mechanism is integrated in the housing body separately from the first implement and externally to it or in the base plate and/or cover plate, and is electrically connected to the lighting means by wire connections and/or switch contacts. This enables the size of the implement incorporating the lighting means to be reduced considerably and makes better use of space that is provided inside the housing body anyway.

In another embodiment of the invention, the housing body is provided with a control block projecting out from the internal contour of the housing case and the implement incorporating the energy storage deice and the lighting means which can be displaced between a stowed position and an operating position has an adjusting element which can be moved between an initial position and an operating position by means of the control block. The adjusting element may be provided in the form of an electrically conductive switch contact or flexible arm. In the former case, the switch contact is electrically connected to a first terminal contact of the lighting means. In its initial position, the switch contact is electrically isolated from a first terminal face of the energy storage deice and in its operating position is in electrical contact with the first terminal face of the energy storage device. The second terminal contact of the lighting means is permanently in electrical contact with a second terminal face of the energy storage device. In the second situation, the flexible arm, which for practical purposes is electrically isolated, is coupled with the first terminal contact of the lighting means in displacement. The advantage of this is that the electric switch circuit is opened and closed merely by displacing the implement and housing case between the stowed position and the operating position, obviating the need to switch the light means on and off. This means that the operating element can be dispensed with.

It is of particular advantage to be able to lock the implement in its stowed position and operating position, to prevent any undesirable shifting.

By providing a pivotable seating on the implement for the lighting means, the angle can be adjusted over a bigger range and the conical beam can be directed in both directions in a symmetrical arrangement relative to the longitudinal axis of the pocket tool.

Also of advantage is the two-part design of the housing case. A dividing plane is formed between the housing parts so that the at least one energy storage device and at least the second implement incorporating at least one power consumer can be rapidly moved into its extracted position if operation of the lighting means fails or the empty energy storage device has to be changed rapidly.

In another embodiment, the housing compartments for the energy storage device and the compartment for the lighting means and/or the power consumer are arranged in a plane parallel with the side walls so that standard, commercially available batteries can be used as the energy storage device without incurring the disadvantage of having to opt for a bigger design of the implement integrating or incorporating the lighting means and, if necessary, the power consumer and energy storage device.

Consequently, if the designs of the switch mechanism described above are used, the implement can be made with a width, as measured between the side walls, of between only approximately 4 mm and 8 mm, for example 4.8 mm and a maximum length of the implement will correspond to approximately only half the length of the tool.

Another embodiment has advantages because the part-sections of the slim face adjoining the lighting means serve as a reflector for the emitted conical beam.

As a result of a stop nose arranged on the second side-end slim face of the housing case, the implement is fixed in its position when placed in the stowed position.

A gripping piece is provided on the second side-end slim face of the housing case, offset from the stop nose, and enables the implement to be easily moved out of the housing area wim little force.

The energy storage device may be provided in the form of a battery or a solar cell.

In another embodiment, the implement has a display unit or LCD (liquid crystal display), the advantage of which is that the display unit, which might be susceptible to stress due to pressure when being carried, for example in a trouser pocket, briefcase, etc., is protected from any inadvertent stress to which it might otherwise be subjected when the implement is pivoted into the stowed position inside the housing body. Any compression forces would then act exclusively on the high-strength cover plates of the pocket knife or base and cover plates of the tool card. If the display unit is additionally provided adjacent to the lighting means on or inside the implement, the functions of the implement can be further enhanced whilst nevertheless preserving the most compact structure, thereby making the pocket tool proposed by the invention suitable for a wide range of practical applications.

In another embodiment, the power consumer integrated in the implement may be provided in the form of an input device, so that the display unit may be used to perform mathematical calculations or input and output physical variables such as air pressure, temperature, altitude, etc.. The input and display unit is advantageously provided on the side wall of the housing case directed towards the user and is provided in the form of an altimeter, compass, barometer, thermometer, hygrometer, speedometer, wind meter, a scale, a measuring device for radioactive irradiation and/or a satellite navigation system, for example.

Also of advantage are the embodiments of implements in which a microprocessor or transmitter and/or receiver module are provided inside the housing case, since this provides a simple means to enable a contactless data transfer between the microprocessor or transmitter and/or receiver module and a PC, such as an optical or radio transmission, etc., for evaluation of physical variables. The detected physical variables may be temporarily stored in the data memory.

Embodiments of the invention will now be explained in more detail with reference to the accompanying drawings, in which: Fig. 1 is a schematic diagram, in perspective, showing a pocket tool in the form of a pocket knife having implements pivoted into the stowed position inside the housing body; Fig. 2 is a highly simplified diagram of the pocket tool illustrated in Fig. 1, seen from a side view; Fig. 3 is a schematic diagram showing a perspective view of the pocket tool illustrated in Fig. 1, with an implement pivoted out of the housing body into the operating position outside the housing body; Fig. 4 is a simplified diagram showing a side view of the pocket tool illustrated in Fig. 1, with the implements at its respective oppositely lying ends moved into the operating position outside the housing body; Fig. 5 is a simplified diagram showing a perspective of the displaceable implement and a housing case for the pocket tool illustrated in Fig. 1, Fig. 6 is a schematic diagram of the internal face of a second housing part of the housing case of the implement illustrated in Fig. 5 with a switch mechanism for operating a power consumer, in particular a lighting means, in its switched-off switch position, Fig. 7 is a schematic diagram similar to Fig. 6 with the switch mechanism in its switched-on position, Fig. 8 is another schematic diagram similar to Fig. 6 also with the switch mechanism in its switched- on position, Fig. 9 is a schematic diagram showing the internal face of the first housing part of the housing case illustrated in Fig. S. Fig. 10 is a schematic diagram showing a side view of a pocket knife illustrating an example of how it can be used as a stand-up lamp, with the implements extracted into the operating position outside the housing body; Fig. 11 is a highly simplified, schematic diagram showing a plan view of a plateshaped tool card according to the present invention with an implement pivoted into the stowed position inside the housing body; Fig. 12 is a simplified diagram showing a side view of the tool card illustrated in Fig. 1 1 along line XII-XII indicated in Fig. 11; Fig. 13 is a simplified diagram on a very much enlarged scale, showing the tool card illustrated in Fig. 11, in section along line XIII-XIII indicated in Fig. 11.

Fig. 14 is a simplified diagram showing a view onto the internal side face of a base plate of the tool card illustrated in Fig. 11; Fig. 15 is a simplified diagram showing a view onto the internal side face of a cover plate of the tool card illustrated in Fig. 11; Fig. 16 is a simplified diagram showing the implement, pivotably mounted on the base plate, viewed in section along line XVI-XVI indicated in Fig. 11; Fig. 17 shows the tool card illustrated in Fig. 11 with the implement pivoted out into its operating position.

Fig. 18 is a highly simplified diagram showing a plan view of the housing case of the implement; Fig. 19 is a highly simplified diagram showing the implement pivoted out into its operating position, viewed in section along line XIX-XIX indicated in Fig. 18; Fig. 20 is a highly simplified diagram showing a partially sectioned plan view of another embodiment of the tool card according to the invention having the implement pivoted into the stowed position inside the housing body; Fig. 21 depicts the tool card illustrated in Fig. 20 with the implement pivoted into an operating position outside the housing body; Fig. 22 is a schematic diagram showing a plan view of another embodiment of the tool card according to the invention with the implement retracted into the stowed position inside the housing body; Fig. 23 depicts the tool card illustrated in Fig. 22 with the implement extracted into the operating position outside the housing body; Fig. 24 is a diagram showing through the implement, along line XXIV-XXV indicated in Fig. 23; Fig. 25 is a diagram showing a section through the implement, along line XXV- XXV indicated in Fig. 22.

Figs. 1 to 4, which will be described together, illustrate different views of a pocket tool, in particular a pocket knife 1, with a housing body 2 made from metal and/or plastic, for example, which has a width 3 and a length 4 as measured at a right angle thereto. The housing body 2 has two mutually opposing external side walls 5, so- called external plates, which bound the housing body 2 along the width 3 and form parallel side faces 6 directed towards one another, covered on their mutually opposing external faces by a cover plate 7 made from opaque or transparent plastic, for example. In the embodiment illustrated as an example here, three dividing walls 8 or so-called centre plates are provided between the two external side walls 5, and a shaft-type housing area 9 is provided between two mutually adjacent dividing walls 8 or between an external side wall 5 and a dividing wall 8, for at least one or two implements 10 which project therein. Each of the housing areas 9 is at least partially bounded by a side wall S and dividing wall 8 or two dividing walls 8. The shaft-type housing areas 9 are at least partially separated from one another in several adjacently lying planes and extend parallel with the side faces 6 of the external side walls 5, running between mutually opposite terminal side end regions 11, 12 of the pocket tool. Although not illustrated in detail, the cover plates 7 have bores recessed in their respective internal face directed towards the external side, specifically provided to accommodate rivets 13, 14, as illustrated in Figs. 2 and 4, to affix the cover plates 7 on the external side walls 5 of the pocket knife 1, preferably by means of a push-fit seating. The rivets 13, 14 to be inserted in the bores connect the individual side and dividing walls 5, 8 to one another and the implements 10 disposed between them are mounted so as to be pivotable thereon.

The implements 10, which in the embodiment illustrated as an example here are a screwdriver 16, a bit holder 17 and knife blade 18, are mounted so as to pivot about an axis 15 indicated by dotted-dashed lines extending through the rivet 13 arranged closer to the terminal first end region 11, each of these implements 10 being spring- biased by means of a spring, not illustrated, so that they can be pivoted from the stowed position inside the housing body 2 illustrated in Fig. 1 or housing area 9 into the operating position outside the housing body 2 or housing area 9 illustrated in Fig. 4, preferably about 90 or 180 . Bit holders 17 of this type are already known from the prior art and are described in detail in our patent specifications DE 298 24 770 U and WO 01/39629.

Other implements 10, such as a screwdriver 19 and two knife blades 20a, 20b of different lengths as well as a housing case 22 which will be described in more detail below, are mounted so as to pivot about an axis 15, indicated by dotted-dashed lines, by means of the rivet 13 closer to the other terminal end region 12 between the external side and dividing walls 5, 8. In this embodiment, the screwdriver 19 and the knife blades 20a, 20b are spring-biased by a spring, not illustrated, preferably about 90 or 180 respectively, from the stowed position inside the housing area 9 into the operating position outside the housing area 9.

The other rivets 14 are arranged approximately in the middle region of the length 4 of the pocket knife 1 between the rivets l 3 provided in the end regions 12 and constitute other axes 15 about which other implements 10, such as a knife blade 21, are mounted so as to pivot by 90 or 180 from the stowed position inside the housing area 9 into the operating position outside the housing area 9. These implements 10 are intended as tools.

One of the implements 10 has a plate-type, substantially rectangular housing case 22, which is also mounted so as to be pivoted about the axis 15 from the stowed position inside the housing area 9 illustrated in Figs. 1, 2 into the operating position outside the housing area 9 illustrated in Figs. 3, 4.

As indicated by broken lines in Figs. I to 4, at least one of the cover plates 7 may be provided with at least an input and display unit 23 in the form of a LCD (liquid crystal display) display. The different applications and designs of such an input and display unit 13 and its advantages are known from patent specification WO 99/56918 A and constitute part of the subject matter of this disclosure.

Figs. 5 to 8, which will be described together, illustrate different views of the implement 10 which can be displaced relative to the housing body 2 or housing area 9. The implement 10 has two housing parts 24a, 24b which are detachably connected to one another. A first housing part 24a is provided in the form of a cover and has a side wall 25a extending substantially parallel with the first side face 6 of the housing body 2. The second housing part 24b has a side wall 25b extending substantially parallel with the second side face 6 of the housing body 2 and a preferably integral peripheral ridge 26 projecting out perpendicular fromits substantially flat internal face in the peripheral region, in particular a rib-type thin peripheral web, so that when the cover is placed on the second housing part 24b, as will be described in more detail with reference to Fig. 9, the side walls 25a, 25b sit at a distance apart from one another and bound a cavity. At its terminal end, the housing case 22, in particular the second housing part 24b, also has a pivot bearing region 27 with a mounting bore 28 disposed concentrically with the axis 15, which is mounted so as to be pivoted about the axis 15. The shape ofthe housing case 22 in the pivot bearing region 27 is that of a circle segment. The segment shape imparts good torsional strength to the implement because forces are absorbed over a large surface area between the plates.

In the embodiment illustrated as an example here, the housing case 22 has two housing compartments 30 Iying adjacent to one another for two energy storage devices 31, in particular batteries, disposed between the side walls 25a, 25b in a plane extending parallel with the side walls 25a, 25b and side faces 6 of the housing body 2, which are at least partially separated from one another by means of a positioning projection 29. A longitudinal axis of the batteries extends perpendicular to the side walls 25a, 25b and parallel with the axis 15 of the pivotable implement 10 or housing case 22.

The positioning projection 29 is integrally formed on the internal face and extends in a direction perpendicular to the internal face. Each of the housing compartments 30 is bounded by arcuately shaped part-sections 32 of the peripheral ridge 26 facing the housing area 9 and arcuately shaped support surfaces 33 on the positioning projection 29 respectively facing the oppositely Iying part-sections 32. The energy storage devices 31 to be respectively fitted in the housing compartments 30, which in this embodiment are cylindrically shaped batteries of a flat structure, fit respectively between the support faces 33 of the positioning projection 29 and support faces 34 of the part-sections 32 of the peripheral ridge 26 and are supported against a terminal face of the battery at the support faces 33,34. In a preferred embodiment, the energy storage devices 31 are retained in position in the housing compartments 30 by means of friction between the support faces 33 of the positioning projections 29 and support faces 34 of the part-sections 32 of the peripheral ridge 26. The positioning projection 29 used for this purpose may be made from a heat-deformable plastic, such as elastomer, for example.

As may also be seen from the individual drawings, the housing case 22 has at least one compartment 35 of a half-shell shape, which is open towards the internal face of the oppositely Iying cover and in which at least one power consumer 36 is partially inserted. In the embodiment illustrated as an example here, the power consumer 36 is a lighting means 37, such as lamp. This standard, commercially available lamp, for example a LED (light-emitting diode) or IRED (infrared-emitting diode), is primarily characterised by its long life, low energy consumption and the fact that it can be adapted to a whole range of applications in terms of the different colours of lamps which may be used. An end face of the compartment 35 is open towards the exterior at a side-end first slim face 38 extending between the mutually opposite side walls 25a, 25b in the transverse direction of the implement 10 and, when placed in the compartment 35, the power consumer 36 optionally stands slightly proud of the side- end, first slim face 38. A longitudinal axis of the lighting means 37 and/or the compartment 35 for the lighting means 37 extends at least at an angle, in particular substantially perpendicular to the side-end first slim face 38 of the housing case 22.

The housing case 22 is bounded by two oppositely lying side-end slim faces 38 and two other oppositely lying slim faces 38 extending between them.

Disposed in the housing case 22 is the power consumer 36, in particular the at least one lighting means 37, which can be switched on and off by means of a switch mechanism 39. The switch mechanism 39 for operating the lighting means 37 incorporating the implement 10 has a switch connecting system with a retaining arm for at least one switch contact 41a and an operating element 42. The retaining arm of the switch connecting system is of a strip-shaped design and is mounted so as to be guided between the two housing parts 24a, 24b and side walls 25a, 25b in an axial and transverse direction. The retaining arm 40 is connected to the operating element 42, in particular an operating button, which projects out from the top or other slim face 38 of the housing case 22 remote from the housing body 2 and freely accessible to the user.

A displacement path 44 of the operating element 42 for displacing the retaining arm and thus operating the power consumer 36 or lighting means 37 is restricted by mutually opposite end-side stop surfaces 45 of an orifice 43. The operating element 42 has a shaft linked to the retaining arm 40 and a gripping piece 46 with knurling, the shaft extending through the other slim face 38, in particular through an orifice 43 of the peripheral ridge 63 (see Fig.9) of the first housing part 24a and/or the peripheral ridge 26 (see Fig. 6) of the second housing part 24b. The retaining arm 40, a part of which is of an elastically resilient design, is preferably made from plastic by an injection moulding process.

In the region of its first terminal end 47 facing the power consumer 36 and in the region of its second terminal end 50 facing the energy storage device 31, the longitudinally extending retaining arm 40 forms a respective bearing surface 49 by means of which retaining arm 40 is slidingly supported on a switch block 48 on the one hand and on a guide block 51 on the other. The switch and/or guide blocks 48,51 each form a support surface facing the stop surfaces 49, extending perpendicular to the side wall 25b and substantially arcuately curved in the longitudinal direction of the retaining arm 40. The support surface of the switch block 48 may also be of a flat design, whereas at least the support surface of the guide block 51 is almost arcuately curved, and in particular is of a convex design facing the second bearing surface 49 of the second terminal end SO. In the region of its first terminal end 47, the retaining artn 40 is able to slide in its longitudinal direction with the first bearing surface 49 on the guide block 48 extending parallel with its longitudinal direction and pivot relative to its first bearing surface 49. The oppositely lying second terminal end SO sits so as to be guided by the second bearing surface 49 on the guide block 51 in the longitudinal direction of the retaining arm 40.

To this end, the positioning projection 29 described above is provided on the side incorporating the guide block S 1 so that the support surface faces the retaining arm and the support surface extends in a substantially arcuately curving arrangement between the arcuate support faces 33 oriented perpendicular to the internal face.

The switch block 48 is provided in the form of a spacing web SS oriented perpendicular to the internal face and extending at least across a part of an internal height as measured between the mutually facing internal faces of the two housing parts 24a, 24b.

The retaining arm 40 has a rocker arm section 53 extending across less than the half of its length, which is resistant to bending in the direction substantially perpendicular to the first bearing surface 49 or support surface of the switch block 48. Linked to the rocker arm section 53 is the operating element 42, which is disposed in the longitudinal direction of the retaining arm 40. More than half of the length 52 of the retaining arm 40, in particular the remaining part of the retaining arm 40, is provided in the form of a flexible arm section 54 tapering in the direction towards its second terminal end 50. The switch contact 41a on the flexible arm section 54 disposed in the region of the second terminal end 50 co-operates with a mating contact, in particular of the energy storage device 31, in the displacement region between the arcuate, in particular convex-shaped initial position of the retaining arm 40, as illustrated in Fig. 6, and the virtually extended operating position of the retaining arm 40, as illustrated in Figs. 7 and 8.

The strip-shaped retaining arm 40 forms mutually parallel side faces 56 which are also parallel with the side walls 25a, 25b and side faces 6. Two guide webs 58a, 58b are expediently arranged transversely to the longitudinal extension of the retaining arm 40, one above the other and at a distance apart on one side face 56, spaced at a distance from the second terminal end 50. The guide webs 58a, 58b each extend across a part of the length 52 of the retaining arm 40 and flexible arm section 54, forming a guide mechanism. The distance between the guide webs 58a, 58b at least matches a main dimension 57, e.g. diameter or wall thickness, of the first switch contact 41a or which is slightly bigger than the main dimension 57. The guide webs 58a, 58b are expediently disposed more or less at the centre of the flexible arm section 54. The flexible arm section 54 has a lower resistance to bending than me rocker arm section 53.

The switch contact 41 a extends from the first terminal end 47 facing the compartment 35 towards the second terminal end 50 lying opposite it and is guided between the guide webs 58a, 58b and preferably supported by the support face of the switch block. As may be seen from the drawing, the free end stands at least slightly proud of the first switch contact 41 a at the second terminal end 50 of the retaining arm 40.

The electrically conductive first switch contact 41a is electrically connected to the power consumer 36 or is the actual power consumer 36, and in the first of these cases, the switch contact 41 a is provided in the form of an electrically conductive leaf spring, for example, which can be connected by an adapter, e.g. plug connection, to a terminal contact of the power consumer 36 and in the latter case, the switch contact 41 a is provided in the form of the terminal contact, or the terminal wire forming it, of the power consumer 36, in particular the lighting means 37, in which case it will be in the form of a bar.

As may also be seen from Figs. 6 to 8, the power consumer 36 is electrically connected by means of an electrically conductive switch contact 41b to a negatively charged terminal face of the energy storage device 31, for example. The electrically conductive switch contact 41b is provided in the form of a wire connection, which can be connected via an adapter, e.g. a plug connection, to a terminal contact of the power consumer 36, or in the form of the terminal contact, or the wire forming it, of the power consumer 36, in particular the lighting means 37.

The two energy storage devices 31 are electrically connected to one another by a contact bridge 68, which will not be described in detail, and the current circuit consisting of the energy storage devices 31 and the lighting means is closed when the operating element 42 is biassed by a compression force applied in the direction perpendicular to the longitudinal extension of the retaining arm 40 - as indicated by arrow "F" in Fig. 7. As a result of this compression force "F", the rocker arm section 53 is pivoted about an axis extending perpendicular to the side face 56 of the retaining arm 40 and the flexible arm section 54 is elastically deformed so that the convexly shaped flexible arm section 54 is shifted from its initial position illustrated in Fig. 6 into the substantially extended operating position illustrated in Fig. 7 and, because of the bending line of the flexible arm section 42 resulting from the effect of the compression force, the free end of the switch contact 41a with its plurality of bends establishes an electrical connection with a mating contact, in particular a positively charged terminal face of the energy storage device 31. Under the effect of the compression force "F", the flexible arm section 42 is therefore elastically deformed so that the second bearing face 49 of the flexible arm section 54 is moved along the support face of the guide block S 1 during this deformation, towards the energy storage device 31. Since the switch contact 41a is coupled with the retaining arm 40, in particular the flexible arm section 54, in displacement, the free end of the switch contact 41a is also moved in the direction towards the energy storage device 31 and applied against the positive terminal face of the energy storage device 31.

Consequently, the electric power circuit is closed and the power consumer 36 draws electrical energy from the energy storage device 31 and starts to light up the lighting means 37 provided in this embodiment.

As long as a compression force "F" is applied to the operating button 42, the lighting means 37 is lit. Once the compression force "F" is released, the elastically deformed flexible arm section 54 of the retaining arm 40 is automatically returned from its operating position into its initial position and as it is so, the second bearing surface 49 of the retaining arm 40 slides along the support face of the guide block 51 towards the rocker arm section 53, and as the flexible arm section 54 is returned, the region of the switch contact 41 which is slightly elastically deformed when the retaining arm 40 is in the operating position is likewise deformed back to its original initial shape and the switch contact 41a is moved away from the energy storage device 31, causing the power supply to the lighting means 37 to be interrupted so that the lighting means 37 is turned off.

When the retaining arm 40 is in the operating position, the guide webs 58a, 58b serve as a counter bearing for the switch contact 41 a, ensuring that the switch contact 41 a itself is reliably pressed against and abuts with the opposite contact or the energy storage device 31 with a low compression force "F". The guide web 58b remote from the operating element 42 acts as a counter bearing for the switch contact 41 a as the retaining arm 40 is displaced into its initial position, as a result of which the switch contact 41 a is reliably moved away from and lifted off the opposite contact and the energy storage device 31. As illustrated, this means that the switch contact 41 a, in particular at least the free end of the slightly resiliently elastic switch contact 41 a, and/or the retaining arm 40, in particular the flexible arm section 54, may be designed so as to be displaceable relative to the opposite contact and the energy storage device 31.

As may be seen in more detail in the drawings, the guide webs 58a, 58b disposed on the flexible arm section 54 spaced at a distance apart from the free second terminal end 50 on the flexible arm section side and from the free end of the switch contact 41a. This spacing provides optimum leverage in the operating position, so that the switch contact 41a is able to establish an electrical contact with the energy storage device 31 with only a light compression force "F". As a result of this function illustrated in Fig. 7, the switch mechanism 39 co-operates with the switch block system as a push button.

As illustrated in Fig. 8, the electric circuit between the energy storage devices 31 and the at least one power consumer 36 is closed when the operating element 42 is pushed as indicated by arrow "F" in the direction parallel with the longitudinal direction of the retaining arm 40 and pivoted about an axis perpendicular to the side faces 56 of the retaining arm 40 shortly before reaching the stop surface 45 and displaced in the direction of the retaining arm 40, so that the retaining arm 40 is locked in its operating position, thereby allowing the pocket knife 1 to function as a torch, for example. In order to lock the retaining arm 40 in the operating position, a catch nose 60 is provided in the region of the top surface 45 which locates in a catch recess 59. This catch recess 59 is disposed on a top face of the retaining arm 40 or operating element 42 directed towards the catch nose 60 and is of a design complementing the catch nose 60, at least in certain regions.

Consequently, the retaining arm 40 is locked in its operating position, even if no compression force is acting in the direction perpendicular to the longitudinal extension of the retaining arm 40. The way in which the retaining arm 40 is displaced as well as its design were explained above and this part of the description may be read in conjunction with this drawing. When the retaining arm 40 is in the operating position, the circuit is closed and the lighting means 37 lights up.

In order to switch the lamp 37 off, a compression force must firstly be applied to the operating element 42 in a direction perpendicular to the longitudinal extension of the retaining arm 40 so that the catch recess 59 and catch nose 60, which are located with one another in a form-fit connection, can be released by lifting the catch recess 59 away from the catch nose 60, as a result of which the operating element 42 is displaced together with the retaining arm 40 in the direction of arrow "E". The switch contact 41a and retaining arm 40 are then in the initial position illustrated in Fig. 6.

The switch mechanism 39 therefore corresponds to a switch.

As may also be seen from Fig.6, the retaining arm 40 is locked when the retaining arm 40 is in the initial position, by means of another catch recess "R" which locates with the catch nose 60 in a form-fit arrangement. This catch recess "R" is provided on a top face of the retaining arm 40 or operating element 42 directed towards the catch nose 60 and complements the shape of the catch nose GO, at least in certain regions. The retaining arm 40, with its mutually opposite bearing surfaces 49 at the terminal ends 47,50 supported on the switch and guide blocks 48, 51, is pressed with its catch recess "R" against the catch nose 60 in the initial position and optionally with its catch recess 59 against the catch nose 60 in the operating position, and is so with a predetermined retaining force due to the resiliently elastic flexible arm section 54 in the initial position, so that the retaining arm 40 is prevented from inadvertently shifting of its own accord and can not change the operating state of the power consumer 36.

It should also be pointed out that the housing case 22 of the implement 10 may also be made up of at least two or three flat plates, which are joined to one another, in particular glued or bonded, at their mutually facing widthways faces and the housing compartments 30 for the energy storage device 31, the mounting bore 28, the opening 43 for the operating element 42 as well as the seating 35 for the power consumer 36 are recessed at the widthways face of one or both plates. However, this embodiment is not illustrated. The housing parts 24a, 24b of the housing case 22 and the retaining arm 40 are made from plastic, preferably by an injection moulding process. The retaining arm 40 may be manufactured by a multi-component injection casting process and may have different properties in terms of elasticity and bending resistance in the direction of its longitudinal extension.

Fig. 9 is a highly simplified schematic diagram showing a view onto the substantially flat internal face of a first housing part 24a or cover with a contour complementing that of the second housing part 24b making up the housing case 22. The first housing part 24a may be a single part or, as illustrated in this embodiment, made up of two parts. The first housing part 24a is preferably made from plastic and comprises a first and second housing part-section 61, 62 or cover part. The first housing part- section 61 is provided with a preferably integrally formed peripheral edge 63 in the peripheral region which stands out perpendicular from the internal face, in particular a peripheral web, and covers the housing compartments 30 for the energy storage devices 31 as well as a part- region of the switch connecting mechanism of the switch mechanism 39 illustrated in Figs. 6 to 8. This arrangement ensures that the sensitive region where the electronics are disposed is kept sealed and protected from water spray or high air humidity, so that it will be fully functional even during bad weather conditions, e.g. rain, snow, ice, etc..

The first housing part-section 61 is also provided with at least one hookshaped catch or snap-fit element 65, which locates behind a recess 64 on the second housing part 24b and, in the embodiment illustrated as an example here, three cylindrical pins 66 distributed about the internal face, which are pushed into complementary bores 67 in the second housing part 24b. The at least one catch or snap-fit element 65 and the pins 66 are aligned vertically to the internal face and extend out from the internal face, the catch or snap-fit element 65 and the pins 66 expediently being made from plastic and integrally moulded on the first housing part-section 62 by an injection moulding process.

As may also be seen from Fig. 9, the first housing part-section 61 is provided with an electrically conductive contact bridge 68 on the internal face, so that when the first housing part-section 61 is placed on the second housing part-section 24b the two energy storage devices 31 are electrically connected to one another.

When the first housing part-section 61 is placed on the second housing part 24b, the peripheral ridges 26, 63 or peripheral webs sit adjacent to one another in a preferred embodiment and to a certain extent form a double wall, and a sealing element made from plastic for example, in particular elastomer, not illustrated, is inserted between the adjacently lying peripheral ridges 26, 63. Otherwise, another option is for the peripheral ridges 26, 63 to sit immediately adjacent to one another and, when the first housing part-section 61 is placed on the second housing part 24b, mutually facing terminal edges of the peripheral ridges 26, 63 sit in abutment with one another with a flat seal inserted in between.

Consequently, when the first housing part-section 61 is placed on the second housing part 24b, a space is left free by means of at least one of the peripheral ridges 26, 63 between mutually facing internal faces of the first and second housing parts 24a, 24b.

The internal faces extend parallel with the side faces 6. The peripheral ridge 63 extending round the peripheral region of the first housing partsection 61 is interrupted at a slim face of the housing part-section 61, forming an orifice 69.

As mentioned above, in a preferred embodiment, the first housing part has a second housing part-section 62 adjacent to the first housing partsection 24, directly adjoining the slim face of the first housing partsection 61 and immediately adjoining the orifice 69 formed in the peripheral edge 63 at the slim face. As may be seen from the drawing, the second housing part-section 62 is provided with a complementary orifice 69, so that a passage is formed between the two housing part-sections 61, 62.

The second housing part-section 62 also has an integrally formed peripheral ridge 63 in the peripheral region, which projects out vertically from the internal face and is provided with the orifice 69 in a slim face facing the first housing part-section 61 as well as a terminal-end half-shell-shaped recess 71 open towards the exterior on the slim face lying opposite the orifice 69. The opening 43 is also provided in the peripheral ridge 63. This recess 71 is open towards the internal face of the oppositely lying second housing part 24b and partially accommodates at least one power consumer 36. This second housing-part section 62 has at least one integrally formed hook-shaped catch or snapfit element 65 and/or at least two pins 66, by means of which it is affixed in a positive and/or non-positive connection to the second housing part 24b. To this end, the second housing part 24b is provided with a recess 64, in which the catch or snap-fit element locates in a positive connection, and the internal face has recessed bores 67 in which the complementary pins 66 can be located in a non-positive connection.

A sealing element made from plastic, in particular elastomer, may also be provided between the second housing part-section 62 bridging a partregion of the switch connecting mechanism of the switch mechanism 39 and power consumer 36 and the second housing part 24b. This being the case, the power consumer 36 is retained in a positive and/or non-positive arrangement between the housing parts 24a, 24b in the compartments 35, 71, which are disposed in symmetrical mirror image relative to the dividing plane between the housing parts 24a, 24b.

In another embodiment of the first housing part 24a, although not illustrated, the latter is made as a single piece, in which case the peripheral ridges 63 need not sit in flat abutment with one another in the region of the orifices 69 as is necessary with the two-part embodiment, and instead, only a single peripheral ridge 63 is provided, which runs on the internal face around the entire peripheral region, extending along the slim face and merging into the recessed seating 71 for the consumer 36. The two housing part-sections 61, 62 are joined to one another in this case and form the single-piece first housing part 24a.

Naturally, another possibility would be for the first housing part 24a or housing part- sections 61, 62 and the second housing part 24b to be detachably or non- detachably connected to one another by a screw connection, adhesive, bonded or welded joint or clamp connection, thereby forming the implement 10.

Fig. 10 illustrates an example of one possible use of the pocket tool or pocket knife 1 proposed by the invention. In addition to the implements 10 which can be displaced relative to the first slim face 75, the pocket tool has several other implements 10, which can be pivoted out relative to a second slim face 76 extending parallel with the first slim face 75, against the action of springs, not illustrated, from the stowed position illustrated in Fig. 1 into the operating position illustrated in Fig. 10. A pre- settable pivot angle 77 between the stowed position and the maximum operating position of another implement 10 is between 0 and 135 and an operating position can be set within the range of the pivot angle 77 between 20 and 135 , in particular between 45 and 120 , for example 45 . In the embodiment illustrated as an example here, this other implement 10 is provided in the form of a hook 78, comprising a shaft-shaped element with the actual hook 78 at one end, whilst the other end is offset from the mid-axis of the shaft forming a pivot-bearing region and can be pivoted about an axis 15. The extracted other implement 10 preferably has a support surface 79 at its end lying opposite the housing body 2 and pivot-bearing region, by means of which the pocket tool can be placed on a working surface 81 and adjusted to a pre-settable angular position 80, for example inclined at 30O, 40 , 50 , 60 , 70 relative to the working surface 81. The other implement 10 is mounted so as to pivot between the side walls 5 about another axis 15 arranged offset from the axis 15 of the first implement 10 incorporating the lighting means 37 in the longitudinal direction of the pocket tool. Alternatively, the other implement 10 may also be mounted about the axis 15 ofthe first implement 10 incorporating the lighting means 37 in one of the end regions 11, 12.

In this embodiment, the pocket tool is provided with an eye 82 at its one end region 11, by means of which the pocket tool can be supported on the work surface 81 with the end region 11. A ring 83 is arranged through the eye 82. This ring 83 may have a nail or a screw, not illustrated, thereby enabling the position of the pocket knife 1 to be fixed once it has been set down.

As may be seen from this drawing, the implement 10 which can be displaced, in particular pivoted, relative to the first slim face 75 of the pocketknife 1 and incorporating a lighting means 37 which can be switched on and off, can be freely adjusted in terms of its angular position so that the working surface 81 is fully illuminated in a desired area. The implement 10 incorporating the lighting means 37 can be freely adjusted from the stowed position to the operating position within an adjustment angle 84 of between 0 and 120 subtended by a longitudinal axis of the pocket tool and a longitudinal axis of the implement 10.

To obtain optimum illumination and light intensity as well as brightness at the work surface 81, the adjustment angle 84 for the operating position is between 0 and 90 , in particular between 30 and 70 , for example 45 . By varying the adjustment angle 84 of the implement 10 within the operating position, the angle of incidence of the lighting means or a conical beam 85 emitted by a LED can be adjusted to an optimum setting, which is a major advantage if the ambient light undergoes considerable change.

To enable he energy storage device 31 and/or the power consumer 36, in particular at least one lighting means 37, to be replaced, the implement 10 can be pivoted out by between 90 and 120 within the adjustment angle 84 for the operating position, the first housing part 24a or first housing part-section 61 removed from the second housing part 4b and the replacement made. In this operating position between 90 and 120 , the housing compartments 30 are freely accessible once the first housing part 24a has been removed, unhampered by the spatially limited dimensions of the housing body 2 of the pocket tool.

AS may be seen from Fig. 10, an axis of symmetry 86 of the conical beam 85 emitted by the lighting means 37 and a plane 87 perpendicular to the longitudinal axis of the pocket tool subtend an angle 88. This angle 88 is freely adjustable and in this particular embodiment is approximately 90 when the implement 10 is in the stowed position and approximately 0 when the implement 10 is in the operating position.

Naturally, the lighting means 37 may be of different colours in order to cater for different uses and may be a red, green, yellow or blue lighting means 37. Disposed between the housing parts 24a, 24b, the lighting means 37 is arranged eccentrically relative to the bearing bore 28 on the sideend first slim face 38.

As also illustrated in Figs. 2 and 5, the implement 10 and the housing case 22 and first and/or second housing part 24a, 24b has a stop nose 90 on the second slim face 38 lying opposite its pivot axis 15, which is supported against an abutment surface 91 in the housing body 1 when the implement 10 is in the stowed position. The implement 10 or the housing case 22 or the first and/or housing part 24a, 24b has a gripping piece 92 on its side-end second slim face 38 standing slightly proud of the housing body 2 when the implement 10 is in the stowed position, the gripping piece 92 being offset from the stop nose 90.

Figs. 11 to 19, which will be described together, illustrate different views of a first embodiment of a pocket tool according to the invention. This pocket took is a plate- shaped tool card 93 made from metal or plastic and has a rectangular contour with a width 94 and a length 95 as measured at a right angle thereto. The width 94 space s two mutually parallel longitudinal side faces 96 apart from one another, extending at a right angle to transverse side faces 97 spaced apart from one another by the length 95. The plate-shaped tool card 93 has a base plate 98 and a cover plate 99 extending substan- tially parallel with it, non-detachably joined to one another by means of a bonded seam or welded seam or a catch or snap-fit connection, between which a housing body 100 is formed. Oppositely lying internal side faces 101 bound at least certain regions of the housing body 100 and several housing areas 102 which are separated from one another at least in certain regions are provided between the mutually facing side faces 101 and extend in a plane parallel with the base and cover plates 98, 99, to accommodate a plu- rality of implements 10, which are accessible from the outside via housing orifices 105. The implements 10 might be a knife 106, a nail file 107, a screwdriver 108 for screws of the standard type with a single slit, a screwdriver 109 for screws with cruci- form slits, tweezers l 10 and a tooth pick 1 1 1, for example. Each of these removable implements 10 has a handle piece 112, which projects into the housing orifice 105 when the respective implement 10 is in the stowed position.

At least one of the implements 10 is designed so that it can be pivoted out of the stowed position inside the housing area 102 into the operating position outside the housing area 102 and has at least one power consumer 36, in particular a lighting means 37, at least one energy storage device 31 and a switch mechanism 39 and op- tionally an electronic circuit, which may be mounted on a board or on a film or may optionally accommodated in a single electronic component. This implement I O has a housing case 113 to accommodate the power consumer 36, energy storage devices 31 and the switching mechanism 39 and optionally the electronic circuit if one is pro- vided. The implement 10 or the housing case 113 may be pivoted out about an axis l 15 extending perpendicular to the side faces 101 of the base and cover plates 98, 99 from the stowed position illustrated in Fig. 11 into the operating position illustrated in Fig. 17 within an angular range of between 0 and 80 . The implement 10 can be locked in its stowed position by means of a catch or snap-fit mechanism 1 14. It is dis- poscd between the housing case 1 13 and the housing body 100. More specific details of the structure of the implement 10 and its housing case] 13 as well as the individual components will be given below with reference to Figs. 16 and 18.

As may be seen from Figs. 11 and 12, one of the longitudinal side faces 96 is joined to an external face 118 of the cover plate 99 extending at a right angle to it by means of an oblique surface 119, extending at an angle from the longitudinal side face 96 in the direction of the external face 118 and is also provided with a rule 120. The base plate 99 also constitutes an external face 118.

Figs. 13 to 15 illustrate one possible design ofthe plate-shaped card tool 93. In this embodiment, several respective rib-like webs 121 to 136 are Conned on the side faces 101, distributed across the mutually facing side faces 101 of the base and cover plates 98, 99, arranged parallel with one another and at least partially separated from one another. The webs 121 to 133, 136, which project out from the base plate 98 towards the cover plate 99 and out from the cover plate 99 towards the base plate 98 perpendicular to the side faces 101, extend more or less across the entire internal height "H" between the side faces 101 and bound at least certain regions of the seating regions 102.

Distributed around the internal faces 101, the webs 121 to 136 keep the base and cover plates 98, 99 at a distance apart from one another and form the housing body 100 with the housing areas 102 for the implements 10 arranged therein. The webs 122 to 132 are arranged so that when the cover plate 99 is placed on the base plate 98, the two sit ad- jacent to one another. These webs 122 to 132 are joined by their respective terminal edges 137 to and facing the side faces 101 of the cover and base plate 98, 99 by means of a joining element 138, in particular a bonded or weld seam. To this end, connecting webs 139 are provided on the base and cover plate 98, 99 in the connecting regions between the terminal edge 137 of the respective web 122 to 133 and the side face 101 of the base or cover plate 98, 99 lying opposite it. These commenting webs 139 extend adjacent to the webs 122 to 135 along the respective side face l O l of the base and/or cover plate 98, 99 or are arranged on at least one of the mutually facing terminal edges 137 of the respective webs 121, 136. By preference the connecting webs 139 arc spaced at a distance apart from one another in the longitudinal direction of the webs 121 to 136 - as illustrated by thin lines in Figs. 14, 15 - and have a slimmer width and height than the thickness 140 and height 141 of the webs 121 to 136, the height and width being between 0.01 mm and O.S mm for example.

As may also be seen from Fig. 13, the webs 121, 136 formed on the base and cover plate 98, 99 may extend over only a part of the total internal height "H" between the mutually facing side faces 101, running towards one another, and when the cover plate 99 is placed on the base plate 98, the terminal edges 137 lie opposite one another and are joined to one another, preferably so that they can not be detached, by means of the joining element 138, in particular a bonded or weld seam. Accordingly, a continuous web 121, 136 is formed across the entire internal height "H" from the base to the cover plate 98, 99. In a preferred embodiment, the height 141 of the webs 121, 136 more or less corresponds to half of the total internal height "H". The connecting webs 139 or the adhesive applied is/or are arranged directly on the terminal edge 137 of the web 121 and/ or web 136 at points spaced apart from one another in the longitudinal direction, as may be seen from Fig. 14.

Parts ofthe material of the connecting webs 139 and/or the webs 121 to 133, 136 are fused by ultrasonic welding until the individual terminal edges 137 facing one another or the terminal edges 137 on the mutually opposite internal side faces 101 sit with their entire surfaces in abutment and the base and cover plates 98, 99 are non-detachably joined to one another.

In order to make the tool card 93 sufficiently resistant to bending even if the rib-type webs 121 to 136 are of a thin-walled design, at least some ofthe webs 121 to 133, 136 of the base and/or cover plate 98, 99 extend more or less across the entire length 95 of the tool card 93. By preference, a wall thickness 142 of the base and cover plate 98, 99 essentially corresponds to the thickness 140 of the webs 121 to 136 and is approxi- mately between 0.3 mm and 2 mm, in particular 0.5 mm and 1.2 mm, for example 0.8 mm.

As may also be seen from ligs. 11, 14 and 15, the peripheral webs 143, 144 bounding the seating openings 105 are provided in the peripheral region in the mutually opposite transverse side faces 97 of the tool card 93, as illustrated in Fig. 11. These peripheral webs 143, 144 are formed onto the side faces 101 of the base and/or cover plate 98, 99 and project out from the base plate 98 towards the cover plate 99 and from the cover plate 99 towards the base plate 98 perpendicular to the side faces 101. When the cover plate 99 is placed on the base plate 98, the respective oppositely lying peripheral webs 143, 144 on the base and/or cover plate 98, 99 run towards one another and together form a continuous web from the base to the cover plate 98, 99. These peripheral webs 143, 144 abut with one another at their mutually facing terminal edges and need not necessarily be joined to one another by a joining element, in particular an adhesive or weld seam.

When the implements 10, such as a knife 106, nail file 107, tweezers 110, toothpick 111, etc. are in their stowed positioned inserted in their respective housing area 102, they can be locked by means of a positive or non-positive connection between the re- spective implement 10 and the housing area 102, in particular the webs 121 to 133, 136 and/or peripheral webs 143,144 and/or side faces 101. To this end, at least one of the side faces 101 of the base and/or cover plate 98, 99 may be provided with a checking projection 145 in the housing area 102 and the implement 10, in particular the gripping piece 112 has a complementary recess facing the checking projection 145 so that the implement 10 is locked in its stowed position due to the positive connection between the checking projection 145 and the recess. Alternatively, the implement 10 may be locked in the seating region 102 by a non-positive connection. This is achieved by friction between the gripping piece 113 of the implement 10 and the peripheral webs 143, 144 and/or side faces 101 for example.

As illustrated in Figs.14 and 15, guide webs 147,148 are provided on the base and cover plate 98, 99 extending in the housing area 102 in the longitudinal direction of the tool card 93, which project out perpendicularly from the side faces 101 and extend across only a fraction of the entire internal height "H" between the side faces 101.

These guide webs 147, prevent the implement 10 from jamming or sticking as it is being pushed into the housing area 1()2. Stop webs 149,150 ensure that the imple meets 10 are always held firmly in the same position when inserted in the stowed po- sition. These stop webs are formed onto the base and/or cover plate 98, 99, projecting in the perpendicular direction from the side face 101 and, like the guide webs 147, 148, extend across only a fraction of the total internal height "PI" between the side faces 101. The stop webs 149, 150 extend transversely to the direction in which the imple- ment I O is inserted and are joined to the front end of the guide web 147, 148 in the direction in which the implement is inserted.

As may also be seen from Figs. 14 and 15, an arcuate web 155,156 extends on the side face 101 of the base and cover plate 98, 99 standing proud in the vertical direction between the longitudinal and transverse side faces 96, 97 running at a right angle to one another. Each of these webs extends more or less across the entire internal height "H" between the side faces 101 or alternatively may extend across only a part of the internal height "H" and face one another. Arranged on the side face 101 of the base plate 98 transversely to the web 155 and at a distance from it offset in the direction of the axis 115 and parallel with the web 155 is an arcuately shaped control block 157.

This control block 157 is preferably integrally formed on the side face 101 and projects out towards the cover plate 99 perpendicular to the side face 101 and has an oblique ramp 159 at a front end in the displacement direction - indicated by arrow 158 in Fig. 11 - and has a control surface 160 extending along the rest of its longitudinal exten- sion parallel with the side face 101.

In a preferred embodiment, the rear end of the control block 157 also has an oblique ramp 161 at the rear end of the control block 157 - indicated by arrow 158 in Fig. 11.

A height 164 of the conko1 block 157 perpendicular to the side face 101 is dimen- sioned so that it or a part-section of the oblique ramp 159, 161 and the control surface project partly or slightly out of an internal contour 165 of the housing case 113 of the pivotable implement 10 so as to co-operate with a positioning element 166, matching the contour of the oblique ramp 159 and the control surface 160. The height 164 corresponds at most to half the internal height "H" between the side faces l O l.

The switch mechanism 39 consists of the control block 157 and the positioning ele- ment 166. The control block 157 extends through an arcuately shaped longitudinal slot / 168 in the first side wall 167a adjacent to the base plate 98.

The housing case 113 has two side walls 167a,167b extending substantially parallel with the side faces 101 at a distance from one another and slim faces 169 extending between the side walls 167a, 167b. The first side wall 167a adjacent to the base plate 98 is formed by a housing part 170a incorporating the housing case 113 and the second side wall 167b remote from the base plate 98 is formed by a second housing part 170b incorporating the housing case 113, the slim faces 169 being formed by the peripheral ridges extending vertically out from the side walls 167a, 167b when the housing parts 170a, 170b are placed one on top of the other. The end faces 172, 173 of the peripheral ridges projecting out from the first housing part 170a and the second housing part 170b are joined to one another by at least one joining element, in particular a snap-ft or catch connection, screw connection, etc., although this is not illustrated, preferably so that they can be detached from one another. A compartment 35 for the lighting means 37 is provided in the housing case 113. This compartment 35 is formed respectively by half-shell-shaped recesses in the first and second housing part 170a, 170b in which part of the lighting means 37 fits.

The housing case 113 of the pivotable implement 10 is in the shape of a circle segment and a bearing bore 174 is provided in the corner region concentric with the axis 115.

The lighting means 37 is disposed on the side-end first slim face 169 of the housing case 113 remote from the housing body 100 and seating region 102 in an eccentric position and offset from the axis 115 in the radial direction. Slim faces 169 disposed at a right angle to one another and an arcuate slim face 169 extending between them bound the housing case 113.

The energy storage device 31, in particular the battery, and the positioning element 166 are arranged in front of the control block 157 when the implement 10 is pivoted in its displacement direction - indicated by arrow 158 - into the stowed position. When the implement 10 is in the stowed position, the positioning element 166 is in its initial po- sition (see Fig. 16), whereas when the implement 10 is in the operating position, the positioning element 166 is in its operating position (see Fig. 19). In this embodiment, the positioning element 166 co-operating with the negative terminal face is an electri- cally conductive switch contact 171 in the form of a resiliently elastic flexible tongue and is disposed on, in particular affixed to the first side wall 167a directly underneath the energy storage device 31. At its free end, the flexible tongue has a small boat- shaped contact web 176, the longitudinal edge regions of which are angled. The lon- gitudinal edge region of the contact web 176 facing the guide block 157 has an incli- nation which substantially matches the inclination of the oblique ramp I S9. This en- sures that during the movement of the implement 10 as the implement 10 is pivoted out from the retracted stowed position into the extracted operating position in the dis- placement direction - indicated by arrow 158 - an upward sliding movement on the oblique ramp 159 is assisted more or less in the direction perpendicular to the side face 101 of the contact web 176. The flexible tongue is made from an electrically conduc- tive material or from plastic. The end of the flexible tongue attached to the first side wall 167a is electrically connected to one of the two terminal wires 41 a. The other terminal wire 41b is mounted by means of retaining projections 177 on the second housing part 170b and its free end is run to a positive terminal face 179 of the energy storage device 31, and is placed against it to provide an electrical connection. The first terminal wire 41 a is also mounted on the first housing part 170a by means of retaining projections 177.

The at least one energy storage device 31 is replaceably arranged in a housing com- partment 178. I he housing compartment 178 has a circular section and an end-:ace flange 180 joined to it as well as at least two diametrically opposed bearing arms 181 attached to the free terminal end of the circular section. The bearing arms 181 engage round the battery on the negative terminal face 182 facing the flexible tongue. This housing compartment 178 which can be removed or taken out of the implement 10 is supported by means of the flange 180 in a recess 183 on the second housing part 170b, in particular the second side wall 167b. The housing compartment 178 is also closed off so as to be waterproof by means of a cover 185 also arranged inside a recess 184 of the second side wall 167b. As schematically indicated in Fig.18, the cover 185 can be detachably connected to the side wall 167b by means of screws. Naturally the cover could be attached to the side wall 167b by a screw, snap-tit or catch connections etc..

As may also be seen from Figs. 16 and 18, a spring element 186 is attached to an inter- nal face on the lid 185 facing the battery, by means of which the battery is pushed onto the side face 101 in the vertical direction onto the bearing arms 181. The biassing force of the spring element 186 is set so that even when the contact web 176 is pushed against the negative terminal face when the implement 10 has been pivoted into its operating position, is higher than the opposing pressing force exerted by the flexible tongue, thereby ensuring that the battery sits furrily on the bearing arms 181.

In order to make the lighting means 37 ready for operation, the implement 10 must be pivoted out of its stowed position inside the housing area 102 illustrated in Fig. 11 into the operating position outside the housing area 102 illustrated in Fig. 17. When the implement 10 is in the stowed position, the positioning element 166 and the switch contact 171 are in their initial position, as illustrated in Fig. 16.As the implement 10 is moved in the displacement direction - indicated by arrow 158 in Fig. 11 from the stowed position into the operating position, the positioning element 166 and switch contact 171 moves closer to the oblique ramp 159 during this movement and hits the contact web 176 on the oblique ramp 159 and slides along it. At the same time, the contact web 176 is moved towards a negative terminal face 182 of the battery. On reaching a transition region between the oblique ramp I S9 and the control surface 160, the contact web 176 slides along the control surface 160 extending parallel with the side face 101 and from there on, the positioning element 166 or switch contact 171 sits locked in its operating position whilst the contact web 176 lies against the negative terminal face 182 establishing an electrical connection. The electric circuit is therefore closed and the lighting means 37 switched on, as illustrated in Fig. 17. As a result of the invention, an axis of symmetry 86 of the conical beam 85 and the plane 87 perpen- dicular to the longitudinal axis of the tool card 93 subtend an angle 88, which can be adjusted as required between 20 and 90 .

Although not illustrated, an electronic circuit may be provided inside the housing case l 13. It may be provided on a board or on a film or optionally housed in a single elec Ironic component. This electronic circuit incorporates a power consumer in the form of a display and/or input unit or a microprocessor microchip with a memory or electrical transmitter and/or receiver module and may also be supplied with the requisite voltage for operating the lighting means 37. The display and/or input unit is expediently ar- ranged on the second side wall 1 67b remote from the housing body 100 or inside the sidewall 167b.

Figs. 20 and 21, which will be-described together, illustrate another embodiment of the pocket tool in the form of the tool card 93. The plateshaped tool card 93 has a base plate 98 and a cover plate 99 extending substantially parallel therewith, the two being joined to one another by an adhesive or weld seam or a catch or snap-fit connection so that they cannot be taken apart, between which a housing body 100 is formed. Between mutually facing side faces 101 of the base and cover plate 98, 99, several webs 190 to 194 are provided in a plane extending parallel therewith, which are separated from one another in at least certain regions, forming housing areas 102 for a plurality of imple- ments 10. In these drawings, however, only the displaceable implement 10 mounted between the side faces 101 of the base and cover plate 98, 99 is illustrated, whilst the other implements 10 which can be removed from the tool card 93 are not shown.

These implements 10 designed to be taken out and used outside ofthe housing areas 102 are accessible from outside via housing openings 105 and include a nail file, toothpick, pair of scissors, tweezers and a ballpoint pen, for example. The displaceable implement 10 is also accessible from the outside by means of a housing opening 105.

As may also be seen from the drawings, a part of the base and/or cover plate 98, 99 is mounted so that it can be displaced relative to at least one housing area 102 for the scissors. In a preferred embodiment, this displaceable part is provided in the form of a swivel plate 196 and is mounted so as to pivot about an axis 115 perpendicular to the side faces 101 of the base and cover plate 98, 99. When the swivel plate 196 is pivoted - as indicated by the arrow- the housing area 102 is accessible from outside and the scissors can be gripped by the scissor handles and taken out of the housing area l 02 for use. For more details of the layout of the webs 1 91 to 194, peripheral w ebs 143, 144, guide webs 147, 148 and connecting webs 139 of the base and/or cover plate 98, 99 and the layout of the removable implements 10, reference may be made to the teaching

disclosed in patent specification WO 97/19856 A.

The tool card 93 is also provided with a magnifying glass 198.

The at least one displaceable implement 10 is arranged between the side faces 101 of the base and cover plate 98,99 spaced apart from one another by the internal height "H" and is mounted so as to pivot about an axis 199 extending perpendicular to the side faces 101 of the base and cover plate 98, 99 and incorporates the housing case 113. The housing case 113 may be pivoted out of a stowed position inside the housing area 102 illustrated in Fig. 20 into an operating position outside the housing area 102 illustrated in Fig. 21.

The housing case 113 has two housing parts 170a, 170b, which are preferably joined to one another so that they can be taken apart and in order to retain clarity in the draw- ings, the second housing part 170b has been removed from the first housing part 170a.

The housing case 113 or housing parts 170a, 170b each form a side wall 167a, 167b extending parallel with the side faces 101 of the base and cover plate 98, 99, only the first side wall 167a being visible in this instance. The slim faces 169 extend between these two side walls 167a, 167b, which are formed respectively by the peripheral ridges standing vertically out from the side walls 167a, 167b when the housing parts 170a, 170b are placed one on top of the other. The compartment 35 for the lighting means 37 is arranged in the housing case 113, in particular the LED, the lighting means 37 being only partly disposed inside the housing case 113 and on the end-face first slim face 169 remote from the housing body 100 or housing area 1 i:2; The first housing part 170a adjacent to the base plate 98 has a pivot bearing region 200 in which a bearing bore 174 is provided for a pivot pin which extends through it.

The terminal contacts 41a, 41b or the terminal wires of the lighting means 37 project out from the external contour of the housing case 113, in particular on a side-end sec ond slim face 169 facing the housing area 102 and the free ends ofthe terminal wires are each electrically connected via a loop contact with two separate switch contacts 175a, 175b. The switch contacts 175a, 175b are affixed to the side face 101 of the base plate 98, each having a loop contact surface and a conductor bar projecting out from it, with the free end of the respective terminal wires lying on the loop contact surface.

The pivotably mounted implement 10 incorporating the lighting means 37 is mounted so as to be pivotable in the housing area 102 of the housing body 100. A guide mecha- nism 201 for the operating element 42 incorporating the switch mechanism 39 is pro- vided in this housing area 102.

The guide mechanism 201 is provided in the form of lateral guide webs 202 to 204.

The outer lateral guide web adjacent to the longitudinal side face 96 extends parallel with the longitudinal side face 96 and has an oblong slot 205. The inner lateral guide web 203 is disposed at a vertical distance from the longitudinal side face 96 and paral- lel with the outer lateral guide web 202. The outer lateral guide web 202 is joined to the innerlateral guide web 203 by means of a transverse web 206. The transverse web 206 is adjoined by a compartment web 207. The lateral guide web 204 is disposed in an end region of the guide mechanism 201 remote from the implement 10. The outer lateral guide web 202, the inner lateral guide web 203 and the lateral guide web 204 which has an arcuately shaped partsection have mutually facing guide surfaces 208, between which the operating element 42 of the switch mechanism 39 for the imple- ment 10, in particular the lighting means 37, is mounted so as to slide in the longitudi- nal direction of the tool card 93. The operating element 42 is provided in the form of a slide 209 in this embodiment.

The arcuately shaped lateral guide web 204 is adjoined by a locking web 210, which is joined to the web 190 at one end by another transverse web 211. This locking web 210 has one or more lock recesses 212, which are convex in shape in the direction towards the longitudinal side face 96.

The switch mechanism 39 comprises the operating element 42 or slide 209 with the gripping piece 46 which may or may not project slightly beyond the external contour of the card tool 93. The slide has two guide extensions 214 extending in opposite di- rections from one another and a housing compartment 217 for the energy storage de- vice 31, in particular a battery, as well as a locking projection 215 which is elastically resilient in the direction substantially perpendicular to the direction in which the slide 209 is <displaced. The guide extensions 214 are each bounded by guide surfaces 216 spaced apart from one another by a guide width. The guide width is slightly shorter than the distance between the mutually facing guide surfaces 208 of the lateral guide webs 202 to 204. The housing compartment 217 for the battery is provided in the form of a bore in the slide 209 and has inside it a mounting flange - indicated by broken lines - on which the battery is partly supported. However, the battery is placed in the housing compartment 217 so that a reliable contact is always established between it and the first switch contact 175a. As may be seen from Fig. 20, a stop web 163 is pro- vided on the base and/or cover plate 98, 99, against which the implement 10 or housing case 113 is positioned in the retracted stowed position.

As explained above, switch contacts 175a, 175b are provided for the implement 10 on the side face 101 inside the housing area 102, and in particular are glued. The first switch contact 175a, in particular the conductor bar, extends parallel with the longitu- dinal side face 96 and congruently with a mid-axis 218 of the battery. Whilst the guide surfaces 208 of the guide mechanism 201 provide a lateral guiding action for the slide 209 of the switching mechanism 39, the first switch contact 175a, in particular the conductor bar, constitutes a guide surface in the height direction and simultaneously acts as a contact surface for the negative terminal face of the battery. Naturally, the slide 209 could also be guided by the guide surfaces 208 and side faces 101, in which case at least the first contact 175a will be recessed in the side face 101 of the base plate 98. The second switch contact 175b, in particular the conductor bar, extends at an an- gle to the longitudinal side face 96 or mid-axis 218 of the battery so that when the switch mechanism 39 is in the non-operated switch position, the second switch contact l 75b and a circular external surface of the battery constituting the positive terminal face are spaced at a distance 219 apart. When the switch mechanism 39 together with the battery is pushed in the direction towards the implement 10 or lighting means 37, the guide surfaces 216 of the slide 209 slide along the guide surfaces 208 of the lateral guide webs 202 to 204. The locking projection 215 is simultaneously moved out of a first lock recess 212 and the slide 209 pushed, so that the negative terminal face of the battery extending parallel with the side face 101 slides along the contact face of the first switch contact 1 75a facing it, in particular the conductor bar. Once the positive terminal face oriented perpendicular to the side face 101 reaches the second switch contact 1 75b, the electric circuit is closed and the lighting means 37 is in operation.

The locking projection 215 simultaneously latches into the other lock recess 212, thereby preventing the slide 209 from shifting of its own accord.

Before operating the switch mechanism 39, the implement 10 can be pivoted out of the stowed position (see Fig. 20) into the operating position (see Fig. 21), in which a working surface can be optimally illuminated by making any desired adjustment of the angle 88 or the lighting means 37 replaced if spent. Consequently, the lighting means 37 can be switched on by operating the switch mechanism 39 both when the imple- ment 10 is in the retracted stowed position and when the implement 10 is in the extracted operating position.

Although not illustrated, another option is to provide an electronic circuit inside the housing body 100, in particular in the housing area 102 for the displaceable implement 10. This may be disposed on a board or on a film or alternatively may be housed in a single electronic component. This electronic circuit incorporates one or more electrical power consumers in the form of a display and/or input unit or a microprocessor or a microchip with a memory or an electrical transmitter and/or receiver module and may be provided with the requisite voltage for supplying the lighting means 37. The elec- tronic circuit may therefore be supplied with voltage by means of the energy storage device 31 of the switch mechanism 39 or by an additional energy storage device, for example a battery, solar cell, not illustrated, provided in the housing body 100.

I-dgs. 22 to 25, which will be described together, illustrate another embodiment of the tool card 93. The plate-shaped tool card 93 consists of the base plate 98 and the cover plate 99 extending essentially parallel with it, the two being joined to one another so that they can not be taken apart, between which a housing body 100 is fonned. Mutu- ally opposite side faces 101 bound at least certain regions ofthe housing body 100 and several housing areas l 02 at least partially separated from one another extend between the mutually facing side faces 101 in a plane parallel with the base and cover plate 98, 99 for a plurality of implements 10, as described in detail above in connection with the preceding drawings and therefore not explained in further detail in connection with these drawings. As illustrated in these drawings, at least one of these implements 10, is mounted so that it can be displaced from the stowed position inside the housing area 102 into the operating position outside the housing area 102. At least certain regions of the housing area 102 for this displaceable implement 10 are bounded by webs 220, which are formed onto the side face 101 of the base and cover plate 98, 99 and project vertically out from the base plate 98 towards the cover plate 99 and out from the cover plate 99 towards the base plate 98 perpendicular to the side faces 101, extending re- spectively across half the internal height "H" between the side faces 101 of the base and cover plate 98, 99. The respective mutually opposite webs 220 of the base and cover plate 98, 99 extend towards one another when the cover plate 99 is placed on the base plate 98, as illustrated in Figs. 24, 25, and together form a continuous web from base plate to cover plate 98, 99.

The displaceable implement 10 has a housing case 113 with side walls 167a, 167b ex- tending opposite and at a distance from one another substantially parallel with the side faces 101 and slim faces 169 extending between the side walls l 67a, 167b. The side walls 167a, 167b are formed by the first housing part 170a adjacent to the base plate and the second side wall 167b is Conned by the second housing part 170b adjacent to the cover plate 99 and the slim faces 169 respectively by peripheral ridges projecting vertically out from the side wall 167a, 167b when the housing parts 170a, 170b are placed one on top of the other, the housing part 170b and the side wall 167b being left out of Figs. 22 and 23 in order to retain clarity.

I'he implement 10 or housing case 113 is mounted so as to slide inside the housing area 102 parallel with floe longitudinal axis ofthe tool card 93. 'loo this end, a guide mechanism is provided between the mutually opposite webs 220 and the housing case 113, in particular the first housing part 170a. The guide mechanism has two mutually opposite guide rails 221 on parallel slim faces 169 projecting vertically out from the first side wall and guide grooves 222 complementing the webs 220. The guide rails 221 extend parallel with one another and parallel with the side faces 101 of the base and cover plate 98, 99 and project beyond the external contour of the housing case 113.

One of the webs 220 of the base and/or cover plate 98, 99 at least partially bounding the housing area 102 has a control block 157 projecting out from the internal contour of the housing case 113. The control block 157 extends through an oblong slot 223 in the housing case 113, in particular in the first housing part 170a, extending parallel with the side faces 101. As explained above, the control block 157 may be designed so that the front end in the displacement direction - indicated by arrow 158 - has the oblique ramp 159, not illustrated, to enable the contact web 176 to slide along the electrically conductive flexible tongue forming the positioning element 166 without the need to apply a strong force. The switch mechanism 39 consists of the positioning element 166 and the control block 157.

As may be seen more clearly from the diagrams illustrating sections, the housing case 113, in particular the first housing part 170a has a housing compartment 178 for the energy storage device 31, in particular the battery, on the first side wall 167a. This consists of two diametrically opposite shell- shaped housing segments 224, by means of which the battery is laterally guided. The housing compartment 178 with the energy storage device 31 is positioned at the rear end in the displacement direction indicated by arrow 158 - whereas the lighting means 37 is disposed at the front end in the dis- placement direction - indicated by arrow 158 - on the side-end first slim face 169 of the housing case 113. The lighting means 37 is arranged inside a lighting means hous- ing 225, mounted so that it can be pivoted about an axis 226 perpendicular to the side faces 101 on or in the implement 10, in particular the housing case 113. This lighting means housing 225 consists of two shells, each having a half-shell-shaped recess to accommodate certain regions of the lighting means 37, in particular a l ED. The free ends of the terminal contacts 41a, 41b of the lighting means 37 are electrically con- nected via a plug connection, not illustrated, to connecting lines 227.

The first connecting line 227 is connected to the electrically conductive first switch contact 171. The second connecting lie 227 sits on a negative terminal face of the bat- tery extending parallel with the side faces 101 and therefore establishes an electrical connection with the battery. The connecting lines 227 may be provided in the form of a flm-type conductor track or by hard wiring. In another possible design, the housing compartment 178 for the battery and also the connecting lines 227 and the positioning element 166 may be arranged on a board, which can be fixed inside the housing case 113.

The battery is located underneath the contact web 176 so that when the implement 10 is moved in displacement - as indicated by arrow 158 - from the stowed position, il- lustrated in Fig. 22, into the operating position illustrated in Fig. 23, the contact web 176 moves in the direction towards the control block 157, optionally on the oblique ramp 159, and sits against the latter and, as a result of continued displacement down- wards in the direction of the positive terminal face of the battery - as indicated by 158 - is brought into contact with it, thereby closing the electric switch circuit, illuminating the lighting means 37. Once the implement 10 has been moved into its operating posi- tion, the inclination of the lighting means housing 225 and the angle 88 between the axis of symmetry 86 of the conical beam 85 and the plane 87 oriented perpendicular to the longitudinal axis of the card tool 93 can be adjusted as required. The angle 88 may be freely adjusted between approximately 10 and 170 . Accordingly, the conical beam can be projected onto a desired working surface, irrespective of the position of the card tool 93, and the angle of incidence of the conical beam 85 varied.

The second housing part 170b is detachably connected to the first housing part 170a by means of a snapshot or catch mechanism, not illustrated. As may also be seen from these drawings, at the end region remote from the lighting means 37 and disposed on one of the slim faces 169 parallel with the longitudinal side face 96, the housing case 113 has a resiliently elastic locking projection 228, which is able to latch alternately in a positive connection into one of two lock recesses 229 arranged at a distance apart from one another in the displacement direction - indicated by arrow 158 -- of a shape complementing that of the locking projection. The lock recesses 229 are provided on the web 220 of the base and/or cover plate 98, 99 lying opposite the control block 157.

Since the implement 10, in particular the housing case 113, is locked in the retracted stowed position and the extracted operating position, the implement 10 is prevented from vibrating and-the implement 10 is reliably prevented from moving of its own ac- cord out of the operating position into the stowed position, for example. In order to make the implement 10 convenient to operate, a freely accessible gripping depression 230 is provided in the external face of the housing case 113, in particular the second housing part 170b.

In the embodiments described above, the positioning element 166 is electrically con- ductive and a first terminal contact of the power consumer 36 is connected to it, either directly or with a connecting line 227 connected in between. In another embodiment, which is not illustrated, the switch mechanism 39 consists of the control block 157 and the positioning element 166. The control block 157 is Conned onto at least one web 155, 220 bounding at least certain regions of the housing area 102 for the displaceable implement I O and has an oblique ramp 161 at a front end of the control block 157 in the direction in which the implement 10 is displaced, with a control surface 160 ad- joining it. The oblique ramp 161 and control surface 160 are oriented perpendicular to the side faces 101 of the base and cover plate 98, 99. The control block 157, in par- ticular the oblique ramp 161 and control surface 160, project out from the internal contour 165, at the slim face 169 of the housing case 113 facing the control block 157 when the implement 10 is pivoted out and is able to co-operate with the positioning element 166, conforming to the contour of the oblique ramp 159 and the control sur- face 160. To this end, the slim face 169 of the housing case 113 is provided with an oblong slot 168,223 extending parallel with the side faces 101 of the base and cover plate 98, 99. The housing case 113 comprises the first and second housing parts 170a, 170b with the two side walls 167a, 167b extending parallel with the side faces 101 of the base and cover plate 98, 99 and slim faces 168 extending between them. The slim laces 69 are formed by peripheral ridges projecting vertically out from the side walls 167a, I 67b when the housing parts 170a,170b are placed one on top of the other. T he at least one energy storage device 31 and the at least one lighting means 37 are disposed inside the housing case 1 13.

The positioning element 166 is provided in the form of an arcuately curved flexible arm and has a guide mechanism with at least two guide webs 58a, 58b spaced at a dis- tance apart from one another, between which a first switch contact 41a, in particular the terminal contact of the lighting means 47, is guided. The guide mechanism is pref- erably arranged on a side face of the flexible arm extending parallel with the side faces 101 of the base and cover plate 98, 99. The flexible arm may be formed onto the pe- ripheral edge of the first and/or second housing part 1 70a, 1 70b of the housing case 1 13 facing the control block 157 and the free end of the flexible arm preferably tapers and is slimmer in thickness. A free end of the switch contact 41 a projects slightly be- yond the free upstanding end ofthe flexible arm. The second switch contact 41b, in particular the terminal contact of the lighting means 47, is electrically connected to the negative terminal surface of the battery, for example.

As the implement 10 is displaced between the stowed position and operating position, the flexible arm, which is made from a non-conducting material such as plastic for example, is moved by the control block 157 between an initial position and an operat- ing position. When the implement 10 is displaced from the stowed position into the operating position, the free end of the flexible arm slides along the control block 157 so that the free end of the first switch contact 41 a is simultaneously moved in the di- rection towards the positive terminal face of the battery. As soon as the free end of the resilient arm sits against the control surface 160, the free end of the first switch contact 41 a establishes a contact with the positive terminal face of the battery.

The positioning element 166 and the first switch contact 41a or terminal contact are coupled in displacement by means of the guide mechanism so that when the position- ing element 166 is in the initial position, the first switch contact 41a is spaced at a dis- tance apart from the positive terminal face of the battery and is electrically isolated and when the positioning element 166 is in the operating position, the first switch contact 41a sits against the positive terminal face ofthe battery so that the lighting means 37 is switched on. The positioning element l 66 is located in the initial position when the implement 10 is moved into its stowed position and into its operating position when the implement l O is moved into its operating position. The lighting means 37 is again disposed on the side-end first slim face 169 of the housing case 113 remote from the housing area 102 and the angle 88 is freely adjustable, as explained at length above.

In another embodiment, not illustrated, the implement 10 illustrated in Figs. 11 to 25 incorporates a switch mechanism 39 with an operating element 42, at least one energy storage device 31 and at least one lighting means 37. The lighting means 37 is operated by means of the operating element 42. The operating element 42 projects out from the external contour, in particular from the freely accessible side wall 167b of the housing case 113 and is provided in the form of a switch or push buKon. This design of switch mechanism 39 with an operating element 42 and at least one energy storage device 31 and at least one lighting means 37, is already known from the prior art and is illus- trated in detail in Figs. l 9 to 22 of patent specification WO 99/07247 A filed by the present applicant and is included by reference in this application.

Finally, it should be pointed out that the tool card 93 illustrated in Figs.11 to19 may also be provided with the displaceable implement 10 or housing case 22. This being the case, the housing case 22 is mounted so as to pivot about the axis 115 between the side faces 101 of the base and cover plate 98, 99. Another advantage is the fact that at least one energy storage device 31 and the lighting means 37 are arranged in a plane extending parallel with the side faces 6; l O1 of the housing body 2; 100, which results in a narrow construction width of the implement 10. Naturally, it would also be possible for only one of the housing parts 24a, 24b; 170a, 170b to be provided with the periph- eral ridge forming the slim faces 38; 169 projecting out perpendicular to the side wall 25a, 25b; 167a, 167b, in which case the oppositely lying housing part 24a, 24b; 170a, 170b will be of an essentially flat design. The implement 10 illustrated in Figs. 1 to 10 has the housing case 22, consisting of two oppositely lying side faces extending paral- lel with the side walls 5 and a peripheral-face slim face 38 extending in the transverse direction between the side faces of the implement l O. The power consumer 36 to be inserted in the seating 35 between the housing case 22 and a cover is positioned off centre from the bearing bore 28 on the slim face 38 extending between the mutually opposite side faces 34 of the housing case 22. The compartment 35 is open to the exte- rior at an end face on the slim face 38 and the power consumer 36, in particular the lighting means, stands slightly proud of the slim face 38. The slim face 3 8 is made up of the peripheral ridges 26, 63.

For the sake of good order, it should finally be pointed out that in order to provide a clearer understanding of the design of the pocket tool, it and its constituent parts are illustrated to a certain extent out of proportion anchor on an enlarged scale and/or on a smaller scale. r

Claims (31)

1. Plate-shaped tool card with a housing body comprising a base plate and a cover plate extending parallel therewith, and joined to one another, two mutually opposite side faces formed in at least certain regions by the base and cover plates, and a first housing area and a second housing area, arranged in a plane extending parallel to the base and cover plates adjacent to one another and partly separate from one another, wherein said first housing area is designed to accommodate a first implement which is displaceable from a stowed position inside the housing area into an operating position outside of the housing area, and \ said second housing area is designed to accommodate a second implement which is displaceable from a stowed position inside the housing area into an operating position at least partly outside of the housing area, and wherein the second implement has a housing case with oppositely lying side walls extending substantially parallel at a distance apart from one another, a slim face extending between the side walls and at least one electric lighting means arranged on the slim face of the housing case and to emit a beam outwardly from the housing body, the housing case is moveable between the stowed and operating position in a plane extending parallel with the base and cover plates and an axis of the beam emitted by the lighting means and a plane oriented perpendicular to a longitudinal axis of the tool card subtends an angle which is adjustable.

2. Plate-shaped tool card as claimed in claim 1, wherein the angle is adjustably approximately between 0 and 170

3. Plate-shaped tool card as claimed in claim 2, wherein the angle is adjustably between 30 and 140 .

4. Plate-shaped tool card as claimed in claim 2, wherein the angle can be set at boo

5. Plate-shaped tool card as claimed in any preceding claim, wherein the second implement has at least one energy storage device.

6. Plate-shaped tool card as claimed in any preceding claim, wherein the second implement has at least one power consumer in addition to the lighting means.

7. Plate-shaped tool card as claimed in any preceding claim, wherein the second implement has an electronic circuit for the lighting means, for the energy storage device or the power consumer.

8. Plate-shaped tool card as claimed in any preceding claim, wherein the second implement has a switch mechanism for the lighting means.

9. Plate-shaped tool card as claimed in any preceding claim, wherein the housing areas are separated from one another in at least certain regions by means of } t, in', ' f' webs, the webs are disposed substantially parallel with one another are distributed across the internal side face of the base or cover plate and are formed onto the side face at least partially separated from one another and project out perpendicular to the side face Mom the base or cover plate in the direction towards the base or cover plate dispersed opposite them, and wherein their height extends across at least a part of the total internal height between the side faces of the base and cover plates, the webs bounding at least certain regions of the respective housing areas when the cover plate is placed on the base plate and being joined at their terminal edges facing the respective side face of the base or cover plate to the respective side face of the base or cover plate by means of a joining element.

10. Plate-shaped tool card as claimed in any preceding claim 1 to 8, wherein the housing areas are separated from one another in at least certain regions by means of webs, the webs are disposed substantially parallel with one another, are distributed across the internal side faces of the base and cover plates and are formed on the side face at least partially separated from one another, and wherein the which webs project from the base plate in the direction towards the cover plate and from the cover plate in the direction towards the base plate, and their height extends across at least a part of the total internal height between the internal side faces of the base and cover plates the webs bounding at least certain regions of the respective housing areas when the cover plate is placed on the base plate.

11. Plate-shaped tool card as claimed in claim 10, wherein the webs are formed on the base plate and the cover plate and the height of the webs respectively substantially corresponds to the total internal height between the internal side faces of the base and cover plate, and whereas the webs are disposed adjacent to one another when the cover plate is placed on the base plate, abut at their terminal edges facing the internal side faces of the base and cover plate with internal the side faces of the base and cover plate and are joined by means of a joining element.

12. Plate-shaped tool card as claimed in claim 9 or 11, wherein the joining element comprises an adhesive or weld seam.

13. Plate-shaped tool card as claimed in claim 10, wherein the webs are respectively arranged opposite one another on the base and cover plates and, when the cover plate is placed on the base plate, extend towards one another and together form a continuous web from the base to the cover plate.

14. Plate-shaped tool card as claimed in any preceding claim, wherein the housing case of the second implement is mounted so as to pivot on the base plate or the cover plate about an axis extending perpendicular to the internal side faces or to be slidable relative to the base plate and the cover plate in a plane extending parallel with the side faces.

15. Plate-shaped tool card as claimed in claim 14, wherein the housing case of the second implement is designed in the shape of a circle segment or half-circle and is provided with a bearing bore disposed concentrically with an axis in the corner region or mid-point, and the lighting means is disposed on the side-end first slim face facing outwardly from the housing body and offset from the corner region or mid- point in the radial direction.

16. Plate-shaped tool card as claimed in claim 1, wherein an electronic circuit for at least one of the lighting means, the at least one energy storage device, the at least one power consumer, and the switch mechanism is arranged separately from the second implement, externally to it, and integrated in at least one of the housing body; the base plate; and the cover plate and is electrically connected to the lighting means via at least one of line connections and switch contacts.

17. Plate-shaped tool card as claimed in any preceding claim, wherein the housing body is provided with a control block projecting beyond an internal contour of the housing case, and the second implement incorporating an energy storage device and the lighting means has a positioning element which can be moved via the control block between an initial position and an operating position.

18. Plate-shaped tool card as claimed in claim 17, wherein the positioning element is provided in the form of an electrically conductive switch contact which is electrically connected to a first terminal contact of the lighting means, the switch contact is electrically isolated from a first terminal face of the energy storage device in its initial position and is electrically connected to the first terminal face of the energy storage device in its operating position, and the second terminal contact of the lighting means is permanently electrically connected to a second terminal face of the energy storage device.

19. Plate-shaped tool card as claimed in claim 17, wherein the positioning element is provided in the form of a flexible arm and is coupled by displacement with a first terminal contact of the lighting means and, when the positioning element is in its initial position, the first terminal contact of the lighting means is electrically isolated from a first terminal face of the energy storage device and, when the positioning element is in its operating position, the first terminal contact of the lighting means is electrically connected to the first terminal face of the energy storage device, and the second terminal contact of the lighting means is permanently electrically connected to the second terminal face of the energy storage device.

20. Plate-shaped tool card as claimed in any preceding claim, wherein the second implement can be locked in at least one of its stowed and operating positions by means of a catch or snap-fit mechanism provided between it and the housing body.

21. Plate-shaped tool card as claimed in any preceding claim, wherein the second implement has a lighting means housing mounted on it so as to be pivotable about an axis oriented perpendicular to the internal side faces and in which at least one lighting means is accommodated.

22. Plate-shaped tool card as claimed in any preceding claim, wherein the housing case consists of two housing parts respectively forming the side walls, the slim face projecting perpendicularly from the side walls, and are releasably joined to one another by a catch or snap-fit or plug-in or clamp connection.

23. Plate-shaped tool card as claimed in claim 22, wherein the housing case has at least one housing compartment accessible via a removable housing part or cover for the at least one energy storage device.

24. Plate-shaped tool card as claimed in claim 22, wherein sections of the housing parts of the housing case have at least one compartment for at least one of the lighting means and the power consumer.

25. Plate-shaped tool card as claimed in claim 24, wherein the compartment is open towards the outside of the housing case between the housing parts, at an end face of the housing case on a first side at the slim face and the lighting means projects beyond the slim face on a second side.

26. Plate-shaped tool card as claimed in claim 5 or 17, wherein the energy storage device is a battery or a solar cell.

27. Plate-shaped tool card as claimed in claim 6 or 24, wherein the power consumer is a display unit, in particular a LCD display.

28. Plate-shaped tool card as claimed in claim 6 or 24, wherein the power consumer is an input unit, in particular a key pad, tip switch, pressure sensor or touch screen.

29. Plate-shaped tool card as claimed in claim 6 or 24, wherein the power consumer is a microprocessor, which may or may not have a data memory.

30. Plate-shaped tool card as claimed in claim 6 or 24, wherein the power consumer is an electronic transmitter and/or receiver module.

31. Plate-shaped tool card constructed, arranged and adapted to operate substantially as hereinbefore described with reference to Figs 11 to 19 or Figs 20, and 21 or Figs 22 to 25 of the accompany drawings.