WO2015173218A1 - Tool holder base insert, tool holder arrangement and method for installing the at least one tool holder base insert in the tool holder arrangement - Google Patents

Abstract

The invention is based on the object of proposing a tool holder base insert for a perforated panel, which forms an alternative to the known holders. This object is achieved by a tool holder base insert 3 for a perforated panel 2; 2a, b, c having a bearing surface 11 for bearing the tool holder base insert 3 on the perforated panel 2; 2c in an installed state of the tool holder base insert 3, having at least one hook device 8, wherein the hook device 8 projects beyond the bearing surface 11 in a plug-in direction E, and therefore the hook device 8, in the installed state of the tool holder base insert 3, can engage through one of the accommodating holes 4, wherein, in the installed state of the tool holder base insert 3, a peripheral panel region is arranged in a panel-accommodating region 9, and having at least one securing device 14, wherein the securing device 14, in the installed state of the tool holder base insert 3, is arranged in one of the accommodating holes 4 and secures the tool holder base insert 3 in a form-fitting manner against being displaced counter to the loading direction B, wherein the tool holder base insert 3 has a main-body portion 5 and a securing portion 6, wherein the main-body portion 5 defines the bearing surface 11 and carries the hook device 8, and wherein the securing portion 6 carries the securing device 14, wherein the main-body portion 5 and the securing portion 6 are arranged for movement in relation to one another, and therefore the securing device 14 can be deflected elastically, counter to the plug-in direction E, relative to the hook device 8.

Description

 Tool holder base insert, tool holder assembly and method for mounting the at least one tool holder base insert in the

 Tool holder assembly

The invention relates to a tool holder base insert for a perforated grid plate, wherein the perforated grid plate is formed as a plate body having a plurality of receiving holes, wherein the receiving holes define a plate hole grid, with a support surface for supporting the tool holder base insert on the breadboard in an assembled state of the tool holder base insert, with at least one Hook means, wherein the hook means projects beyond the support surface in a plug-in direction over the support surface, so that the hook means in the assembled state of the tool holder base insert can pass through one of the receiving holes, wherein the hook means comprises a hook leg and a hook head, which together form a plate receiving area for receiving a Forming hole facing plate edge portion of the plate body, so that in the assembled state of the tool holder base insert the Plattenrandbere The hook leg provides a bearing surface for the plate edge region in a loading direction for the tool holder base insert and the hook head engages over the plate edge region in the loading direction, and at least one securing device, wherein the securing device in the mounted state of the tool holder base insert in one of Receiving holes is arranged and the tool holder base insert secured against displacement against the loading direction positively. The invention also relates to a tool holder assembly comprising the breadboard plate and the tool holder base insert, and a method of mounting the tool holder base insert to the breadboard plate of the tool holder assembly. In garages, perforated sheets are often used to clean up tools so they are easily accessible. It is possible that a tool is suspended via a hook or similar mounting elements in the perforated plate. However, it is also known to use mounting devices which can be inserted into the perforated plate and which, for example, wireforms or round material structures for receiving tools.

For example, the document EP 180 836 A1, which is probably the closest prior art, shows a holder for a perforated plate, wherein the holder has a base body with a first hook element, which can be inserted into a first hole of the perforated plate and other hook elements which can be inserted into a second hole of the perforated plate. The second hook elements are integrally formed on legs of the main body, which are elastically deflectable, so that by squeezing the legs by a user, the second hook elements can be pressed to each other. In the mutually pressed state, the hook elements can then be inserted into the second hole. When the user releases the legs, they relax and the second hook elements press laterally against the boundaries of the hole thereby locking the holder in the perforated plate. On the main body of the holder, a sheet of a round material or wire is arranged, can be arranged in or on the tools. The invention has for its object to provide a tool holder base insert for a breadboard, which forms an alternative to the known holders. This object is achieved by a tool holder base insert having the features of claim 1, by a tool holder assembly having the features of claim 13, and by a method of mounting the at least one tool holder base insert having the features of claim 15. Preferred or advantageous embodiments of the invention will become apparent from the dependent claims, the following description and the accompanying drawings. In the context of the invention, a tool holder base insert is proposed which is suitable and / or designed for a breadboard. Functionally, the tool holder base insert is configured to hold at least one tool or tool holding device. The tool may be, for example, a screwdriver, ring spanner, open-end wrench, drill, pliers, cordless screwdriver, etc. Optionally additionally, the tool holder base insert can also be designed for holding workpieces, such as screws, nuts, etc. Preferably, the tool holder base insert has at least one mechanical interface which is suitable and / or designed for holding a tool or for holding a tool holding device.

The breadboard is formed as a plate body, for example, as a plate having a plurality of receiving holes. The receiving holes define a plate-hole pattern. Particularly preferably, it is a regular plate-hole grid, with particular preference the grid spacing of the receiving holes in a transverse direction and a longitudinal direction perpendicular thereto are equal. The perforated grid plate is particularly preferably a sheet metal, wherein the receiving holes have a size of 9.2 millimeters x 9.2 millimeters and a spacing of 38.1 millimeters. This panel perforation has established itself - at least in Germany - as a well-known measure. The tool holder base insert has a support surface, wherein the tool holder base insert in the assembled state rests with the support surface on the perforated grid plate, in particular on a front side of the perforated grid plate.

The tool holder base insert has at least one hook device, wherein the hook device protrudes beyond the support surface in a plug-in direction of the tool holder base insert into the perforated grid plate, in particular perpendicular to the support surface. The at least one hook means, some or all of the hook means is arranged relative to the support surface such that the hook device in the assembled state of the tool holder base insert can each pass through one of the receiving holes and project or project on the opposite side. Looking more closely at the hook device, it has a hook leg and a hook head, the hook head being arranged on the hook leg. In particular, the longitudinal extension of the hook head is aligned perpendicular to the longitudinal extent of the hook leg. In particular, these form a reversed L-shaped hook in a side view. Together, the hook leg and hook head form a plate receiving portion for receiving a portion of the plate body, namely a plate edge portion facing the receiving hole into which the hook means is inserted. The hook device thus engages around the plate edge region forming the receiving hole. The hook leg forms a positive contact surface for the plate edge region and extends in particular perpendicular to the support surface. Over the contact surface, the tool holder base insert can be supported on the perforated grid plate, in particular on the facing plate edge region, in a loading direction. For example, if the breadboard is a vertically arranged breadboard, the loading direction is directed from top to bottom so that the hook means is opened downwardly and / or in the loading direction. The hook device lies with the contact surface on the plate edge area. The hook head engages over the plate edge region in the loading direction, so that the plate edge region is arranged between the hook head and the bearing surface.

Furthermore, the tool holder base insert comprises at least one securing device, which is arranged in the assembled state of the tool holder base insert in one of the receiving holes, in particular such that the securing device engages in or engages through the receiving hole. The securing device serves to secure the tool holder base insert in a form-locking manner against displacement relative to the perforated grid plate counter to the loading direction. Thus, the tool holder base insert is in the loading direction by the positive Contact surface of the hook leg and against the loading direction by the securing device positively secured.

In the context of the invention it is proposed that the tool holder base insert has a main body portion and a securing portion. The body portion defines the bearing surface and carries the at least one hook means. The securing section, in contrast, carries the securing device. The main body portion and the securing portion are arranged to be movable relative to one another, wherein the securing means is elastically deflectable relative to the hook means against the insertion direction, in particular in a straight line or in a pivoting movement. For a deactivation of the securing device, this is deflected relative to the at least one hook device against the insertion in a Entsicherungsposition. For activation of the securing device is preferably provided that this automatically and / or elastically returns to the securing position.

It is a consideration of the invention that a tool holder base insert can be created by the use of a securing device which is deflectable in a direction opposite to the insertion and thus deactivated, which represents a different attachment approach than the known prior art and also against lateral loads is less sensitive than for example the holder mentioned in the prior art.

In a preferred embodiment of the invention, the main body portion and the securing portion are connected to each other via a pivot joint. The pivot axis is particularly preferably arranged parallel to the support surface. The pivot joint allows the pivoting of the securing device relative to the hook device. Characterized in that the pivot axis is arranged parallel to the support surface, the movement of the securing device against the insertion direction is made possible as a pivoting movement.

In a preferred embodiment of the invention, the securing portion is formed as a U-shaped securing bracket, which is the main body portion at least partially surrounds and is connected at the free ends on the pivot joint with the main body portion. In particular, the pivot joint forms two pivot sections. In the embodiment as a U-shaped securing bracket, the securing portion can be operated particularly easily by a user, since the connecting leg of the two free legs is easy to grip. Thus, it is possible, for example, to pull for disassembly of the tool holder base insert on the securing bracket, thereby elastically deflecting and deactivating the securing device against the insertion direction, so that the tool holder base insert can be dismantled. Particularly preferably, the base body portion is T-shaped, wherein the standing leg of the "T" between the legs of the "U" of the securing bracket is arranged. Particularly preferably, the end region of the upright leg of the "T" is designed as a first operating region, wherein the assembly can be effected by pressure loading on the first operating region. In this embodiment, the tool holder base insert presents itself as an easy-to-use, shapely and / or compact workshop component.

In a preferred development of the invention, the tool holder base insert has at least two of the hook devices. The hook heads of the at least two hook devices are arranged to be compatible with an imaginary positioning hole grid. The Positionierlochraster corresponds in the pitch of the plate hole grid and is used in the present description as a first auxiliary construction. The hook legs of the at least two hook devices are arranged to be compatible with an imaginary fixing hole grid. The grid dimension of Fixierlochrasters corresponds to the grid dimension of the plate hole grid, wherein the Fixierlochraster represents a second auxiliary construction. In particular, the hook heads may be arranged in the positioning hole grid and / or the abutment surfaces of the hook legs in the Fixierlochraster. The Positionierlochraster is offset from the Fixierlochraster in a mounting direction of the tool holder base insert. When mounting the tool holder base insert in the perforated grid plate, it is first positioned in a positioning position so that the Hook heads of at least two hook means are arranged in the receiving holes. In the positioning position, the plate-hole grid forms the positioning-hole grid. In a subsequent step, the tool holder base insert is moved in the mounting direction to achieve a fixing position, wherein the hook legs are arranged in the plate hole grid and these bear against the bearing surfaces in the loading direction at the plate edge regions. In the fixing position, the plate-hole grid forms the fixing-hole grid. Due to the sliding movement in the assembly direction, the tool holder base insert is transferred from the positioning position into the fixing position.

Particularly preferably, the at least two hook means, some hook means, preferably all hook means, are oriented the same so that the tool holder base insert can be inserted in the insertion direction into the perforated grid plate and subsequently displaced in the mounting direction, the hook means engaging over the edge portions of the panel.

It is particularly preferred that the at least one securing device is arranged to be compatible with the fixing hole grid and / or incompatible with the positioning hole grid. Compatible means in particular that the securing device etc. fits into the corresponding grid and / or is arranged in the receiving holes. Incompatible means, in particular, that the securing device etc. does not fit into the corresponding grid and / or is arranged outside, in particular shifted, to the receiving holes. In particular, the tool holder base insert is designed so that in the arrangement of the tool holder base insert in the positioning position, the securing device is elastically deflected relative to the hook device against the insertion direction and is in particular inevitably in the armed position. Only after the transfer of the tool holder base insert into the fixing position can the transition of the securing device into the securing position take place.

The securing device is particularly preferably designed such that it is in the positioning position of the tool holder base insert on the breadboard, In particular, it rests on a front side of the perforated grid plate and is inserted into the corresponding receiving hole or elastically snapped only after transfer of the tool holder base insert into the fixing position. In order to simplify the insertion into the corresponding receiving hole is proposed to introduce a control slope on the securing device. The control slope is arranged on the securing device such that the edge region of the perforated grid plate can slide in the receiving hole during insertion of the securing device. Due to the control slope, the securing device and thus the tool holder base insert is displaced in the assembly direction at a pressure load perpendicular to the perforated grid plate on the tool holder base insert. In particular, the control slope thus forms an auxiliary gear section for mounting the tool holder base insert. In a particularly preferred embodiment of the invention, the securing device is designed as a web section, wherein the web section can be positively supported with a web end counter to the loading direction on the plate edge region. Thus, the fixing position of the tool holder base insert is fixed to the web end opposite to the loading direction and on the other by the contact surface of the hook leg in the loading direction. Optionally, in addition, it can be provided that the web portion can also be supported with the other web end in the loading direction on the plate edge region. However, since this can lead to an over-definition of the tool holder base insert, it is more preferred that in the loading direction, the web end is set back slightly relative to the contact surface.

It is particularly preferred that the securing device and one of the hook devices are arranged in the assembled state of the tool holder base insert and / or in the fixing position in a common receiving hole. Alternatively or additionally, the securing device and the hook device are positioned in the Justierlochraster in a common receiving hole. This positioning has the advantage that the two-sided positive-locking support of the securing device, in particular the web end, and the hook leg, in particular the contact surface, takes place within a very small area, so that no tilting or other disturbances can occur. Further, the number of required receiving holes for mounting the tool holder base insert is reduced, so that more of the tool holder base inserts or the tool holder base inserts can be arranged closer to each other on the breadboard, since no separate receiving hole for the securing device must be kept free. In one possible implementation of the invention, the tool holder base insert is designed as a base tool holder base insert, which has at least or exactly four hook devices and has at least or exactly two securing devices. It is preferably provided that the hook devices are arranged in a square pattern and / or in a 2x2 matrix. Particularly preferably, the two securing devices are arranged in the manner of a clip around two of the hook devices within a row, preferably around the two hook devices which are down in the loading direction. It is further preferred that the pivot axis is arranged between, in particular centrally between the two rows of the 2x2 matrix.

In another embodiment of the invention, the tool holder base insert is designed as a supplementary tool holder base insert which has at least or exactly two hook devices and at least or precisely comprises a securing device. It is particularly preferably provided that the hook devices are arranged one above the other in the loading direction and the securing device is positioned next to the lower hook device in the loading direction.

In an advantageous embodiment of the invention, the tool holder base insert has at least one mechanical plug-in interface for a tool holder device, wherein the plug-in interface is designed, for example, as a passage opening. For example, the passage opening may have a circular cross section, so that a round material, such as a rod can be introduced. In an alternative or additional embodiment of the invention, the tool holder base insert comprises at least one mechanical slide interface for a tool holder device, wherein the tool holder device can be pushed onto the tool holder base insert. It is particularly preferred that the tool holder base insert comprises both the mechanical plug-in interface and the mechanical slide interface.

For the slide interface, the tool holder device has a slide holder and the tool holder base insert has a slide portion. Slide holder and slide portion together form the slide interface for coupling the tool holder device with the tool holder base insert. The tool holder device can be pushed onto the at least one tool holder base insert. This is done by a sliding movement in a mounting direction. The mounting direction is rectified or parallel to a mounting plane or is in the mounting plane. The mounting plane is preferably rectified or parallel to a front side of the breadboard. In the state where the tool holder device is completely pushed onto the at least one tool holder base insert, in particular as far as an end stop, the tool holder device and the tool holder base insert are in a connected state. The slider section has at least one rail section and the slider receiving section has at least one rail wing section. During the sliding movement, in particular in a sliding state, the rail section and the rail wing section come into direct contact and / or operative connection, wherein the at least one rail wing section is guided by the at least one rail section.

Optionally, it is additionally proposed that, in the connection state, the at least one rail section comprises the at least one rail wing section a direction perpendicular to the mounting plane secures positively. In particular, it is provided that the rail wing section engages behind the at least one rail section and thereby secures positively against the rail section. Due to the positive locking ensures that a movement of the tool holder device is positively locked in a direction perpendicular to the mounting plane and thus perpendicular, substantially perpendicular or angled to the surface extension of the hole grid plate. More specifically, in the connection state, the rail wing portion is disposed between the breadboard plate and the tool holder base insert.

It is a further consideration that by the dual function of the sliding interface components rail section and rail wing section, namely both the guide function in the sliding state and the backup function in the connection state, an improved connection of the tool holder device can be implemented on the tool holder base insert. The fact that the sliding interface components rail section rail wing section are already used during assembly, they can be made very large or long in the surface extension, especially in the mounting direction, so that a secure and stable support of the rail section on the rail section and thus a secure connection Tool holder device can be achieved via the tool holder base insert on the breadboard.

In a preferred constructional realization, the rail section has a sliding surface and the rail wing section has a mating sliding surface, these two surfaces being rectified. In particular, the sliding surface and / or the counter sliding surface are rectified and particularly preferably arranged or aligned parallel to the mounting plane. In a preferred structural embodiment, the mating sliding surface and / or the sliding surface or portions thereof define the mounting plane. Through this structural realization is achieved that the tool holder device can be slid in the mounting direction on the tool holder base insert slidably and at the same time secured in a form-fitting manner. In a preferred embodiment of the invention, the slide portion has a support area and the slider receiving a support area, wherein the support area rests positively in the connection state in the mounting direction on the support area. In particular, the support region forms an end stop for the support region of the slide holder of the tool holder device. Through this development it is achieved that the tool holder device is held positively in the mounting direction and preferably in a loading direction. Together with the positive locking perpendicular to the mounting plane, the tool holder device can be fastened in a form-fitting manner to the tool holder base insert.

In a preferred embodiment of the invention, the tool holding device, in particular the slide holder, a latching device and the tool holder base insert, in particular the slide portion, a locking receptacle. Alternatively, the tool holder device may comprise the latching receptacle and the toolholder base insert may comprise the latching device. Locking device and latching receptacle together form a latching interface, wherein in the connection state of the slide portion in the slide holder against an opening of the tool holding device, ie a method against the mounting direction, is latched by the latching interface. By the latching interface is achieved that the tool holder device can not be accidentally dismantled by a slight movement against the mounting direction.

In an optional development of the invention, the tool holding device, in particular the slide holder, a guide wing, which extends in a transverse direction to the mounting direction and at the same time rectified, in particular parallel to the mounting plane. The guide wing is used for centering and / or guidance of the free end of the tool holder base insert, in particular of the slide portion, during the sliding movement. In particular, in the connection state, the guide wing between the perforated grid plate and the free end of the tool holder base insert, in particular the slide portion arranged.

In a preferred development of the invention, it is provided that the tool holder base insert has a guide surface and the tool holder device has a counter guide surface. The guide surface or the counter guide surface are aligned rectified to the mounting plane and / or define the mounting plane. In particular, the guide surface is located on a front side of the tool holder base insert facing away from the perforated grid plate or the plate interface. In contrast, the counter guide surface is located on a rear side or inside of the tool holder device facing the tool holder base insert in the connection state. When the tool holding device is slid on, it is guided by an operative connection, in particular a sliding against one another by the guide surface and the counter guide surface during the sliding movement.

In particular, it is provided that the tool holder base insert is guided from the rear side through the mating sliding surface and on the front side through the mating guide surface relative to the tool holding device. Due to the two-sided relative guidance a tilt-free and easy mounting of the tool holder device on the tool holder base insert is possible.

It is particularly preferably provided that the mounting direction for the rectified for the tool holder base insert and for the tool holder device, parallel or identical and optionally complementary rectified, is parallel or identical to the loading direction

In a preferred embodiment of the invention, the tool holder base insert is formed as a one-piece injection molded part. In particular, the pivot joint is formed as an integral part of the injection molded part and can be implemented, for example, by a material taper. In this realization, the tool holder base insert can be produced very simply and thus inexpensively. The invention may also relate to a set comprising one of the tool holder inserts and one of the tool holder devices. Another object of the invention relates to a tool holder assembly comprising the perforated grid plate and at least one of the tool holder inserts and at least one of the tool holder devices, as described above or according to one of the preceding claims.

The tool holder assembly may be formed, for example, as a tool cart, wherein the hole grid plate is arranged on a front side of the tool carriage and secured thereto. The tool holder inserts can be optionally placed on the breadboard. In particular, the tool holder inserts make it possible to form rows and columns and in particular to arrange the tool in a more visually ordered manner in any desired manner.

Particularly preferably, the tool holder device and / or the tool holder base insert are designed as a plastic part, in particular in each case as a one-piece plastic part, in particular a plastic injection-molded part. In the training as a plastic injection molded parts results in addition to or as an alternative to the division of functions of the two parts and the ability to set the Entformungsrichtungen for the plastic injection molded parts such that the tools for the plastic injection molded parts can be easily designed. It is preferred that the Entformungsrichtung for the tool holder base insert is aligned perpendicular or substantially perpendicular to the mounting plane and / or the surface extension of the breadboard. Thus, the Entformungsrichtung is rectified rasterwand with a plug of the tool holder base insert in the hole. In contrast, it is preferred that the Entformungsrichtung the tool holder means is oriented perpendicular or substantially perpendicular to the Entformungsrichtung for the tool holder base insert and / or rectified to the mounting direction. Thus, the Entformungsrichtung to the mounting direction and on the other hand rectified in many cases to a Placement direction for equipping the tool holder device oriented with tools.

Another object of the invention relates to a method for mounting the at least one tool holder base insert on the perforated grid plate of the tool holder assembly according to one of the preceding claims.

The method comprises placing the tool holder base insert on the perforated grid plate in the positioning position, the at least one hook device with the hook head each being inserted into a receiving hole of the perforated grid plate. The at least one securing device, however, stands on the breadboard.

In a subsequent step, the securing device is deflected into the releasing position, which can be implemented, for example, by a pressure load on the basic body section, in particular on the first operating area, the hook heads dipping further into the receiving holes, but the securing device on the front side of the perforated grid plate positive fit.

In a subsequent step, the tool holder base insert is displaced relative to the hole grid plate in the mounting direction, so that the plate edge portions of the plate body of the grid plate can enter into the plate receiving portions of the hook means. This sliding movement can be supported by the control slope or bevels of the fuse elements, as they slide during insertion or immersion along the edge regions of the perforated plate grid along, while moving the tool holder base insert in the mounting direction. In a subsequent step, the securing devices snap into the receiving holes and move into the securing position, so that the tool holder base insert is in the fixing position in the perforated grid plate in the mounted state. Upon release of the tool holder base insert, the securing portion is raised manually, so that the securing device is transferred from the securing position to the releasing position. Subsequently, the tool holder base insert is transferred from the fixing position into the positioning position and can be removed from the perforated grid plate. Particularly preferably, the securing portion has a second operating area for manual lifting, wherein the second operating area is arranged so that the tool holder base insert is pushed in the disassembly direction or at least loaded.

Both the mounting and the demounting of the tool holder base insert can each be done with a simple hand movement.

Further features, advantages and effects of the invention will become apparent from the following description of preferred embodiments of the invention and the accompanying drawings. 1 shows a schematic three-dimensional representation of a tool holder base insert of a tool holder arrangement as a first exemplary embodiment of the invention;

Figure 2 is a schematic side view of the tool holder base insert in the tool holder assembly in Figure 1;

Figure 3 is a schematic rear view of the tool holder base insert in Figure 2; Figure 4 a, b, c, d is a schematic sectional view of the tool holder base insert with a hole grid plate for describing the method for mounting the tool holder base insert; Figure 5 is a first rear view of the toolholder assembly of Figure 1 with the toolholder base insert in a positioning position;

Figure 6 in the same representation as Figure 5, wherein the tool holder base insert is in a fixing position;

Figure 7 is a front view of a tool holder base insert as a second embodiment of the invention; Figure 8 is a rear view of the tool holder base insert in Figure 7;

Figure 9a, b is a schematic three-dimensional representation of a tool holder assembly having a plurality of tool holder inserts in different embodiments;

Figure 10 a, b a forceps holder device as one of the tool holder inserts in a rear view and an oblique rear view;

Figure 1 1 a, b, c, the tool holder assembly with the forceps holding device of Figures 10 a, b when mounted on one of the tool holder base inserts;

12 shows the forceps holding device of Figures 10 a, b in a schematic three-dimensional oblique view from the front. Corresponding or identical parts are each provided with the same reference numerals in the figures.

1 shows a schematic three-dimensional representation of a tool holder assembly 1 as a first embodiment of the invention. The tool holder assembly 1 may be formed, for example, as a workshop car, with other components of the workshop car in the figure 1 are suppressed drawing. The tool holder assembly 1 comprises a perforated grid plate 2 and a tool holder base insert 3, which is arranged on or in the perforated grid plate 2 and fixedly connected thereto. The breadboard 2 is formed as a plate body, particularly as a plate, specifically as a metal plate, and has a plurality of receiving holes 4. The receiving holes 4 are square in plan view and have for example a size of 9.2 millimeters x 9.2 millimeters. The receiving holes 4 are distributed in a grid having a transverse direction Q and a longitudinal direction L, wherein the distance between the individual receiving holes 4 in the transverse direction Q or in the longitudinal direction L is 38.1 millimeters. The plate body has, for example, a thickness of less than 2 millimeters. The tool holder base insert 3 is formed as a one-piece plastic injection molded part and can be divided into two different sections as part of its function. A main body portion 5 is T-shaped in plan view from the front, wherein the transverse or Q extending leg of the "T" extends in the extension in the longitudinal direction L to about 50 percent of the total length of the tool holder base insert 3. Further, the Tool holder base insert 3 has a securing portion 6 which is U-shaped The U-shaped securing portion 6 is opened to the main body portion 5 and surrounds the standing leg of the T-shaped main body portion 5. Specifically, the securing portion 6 forms a securing bracket U-shaped securing portion 6 are integrally formed on the transverse leg of the T-shaped main body portion 5, wherein the transition between the securing portion 6 and the base body portion 5 forms a pivot joint 7, which defines a pivot axis S. The pivot axis S is aligned parallel to the breadboard 2 t and is also located approximately in the middle in the direction of the longitudinal extent L of the tool holder base insert 3. The encompassed by the U-shaped securing portion 6 portion of the base body portion 5 forms a first operating area 19, which for easy identification by a user a corrugation or having other friction-increasing structure. During assembly of the tool holder base insert, the user presses on the first operating area 19.

By engaging on the lying leg of the U-shaped securing portion 6, the securing portion 6 can be pivoted about the pivot axis S and deflected relative to the base body portion 5. To facilitate engagement, the securing portion 6 may have a recess as a second operating area 20. The tool holder base insert 3 is formed in plan view rectangular to square. The surface extension is dimensioned such that a further tool holder base insert 3 can be mounted directly adjacent to the tool holder base insert 3 in the adjacent receiving holes 4, without interline or intermediate gap.

FIG. 2 shows a schematic side view of the tool holder base insert 3, wherein it can be seen that it has hook devices 8 which are arranged offset in height in an assembly direction M. Although only two hook devices 8 can be seen in the view shown, the tool holder base insert 3 in the embodiment shown in FIG. 1 has four hook devices 8 which are arranged in a 2x2 matrix, matching the grid dimension of the breadboard 2. The hook devices 8 each have a plate receiving region 9, into which a plate edge region of the perforated grid plate 2 can be introduced, the plate edge region coming against a load direction B in a form-locking manner on a contact surface 10 for positive engagement. As a result, the tool holder base insert 3 is held positively in the loading direction B via the hook device 8. The tool holder base insert 3, in particular the base body portion 5, rests with a bearing surface 1 1 in the assembled state or in the fixing position on the front of the perforated grid plate 2 in a form-fitting manner. The hook means 8 extend perpendicularly or approximately perpendicular to the support surface 11. The contact surfaces 10 are perpendicular or substantially perpendicular to the support surface 1 1 aligned. The hook devices 8 can each be subdivided into a hook leg 12 and into a hook head 13, their longitudinal extensions being arranged perpendicular to one another. The hook leg 12 extends perpendicular or approximately perpendicular to the support surface 1 1, the hook head 13 extends perpendicular or substantially perpendicular to the hook leg 12 and / or parallel or substantially parallel to the support surface 1 first Hook leg 12 and hook head 13 form in the side view shown an L-shaped form and form the disc receiving area 9. Further, in the side view in Figure 2, a securing device 14 can be seen, which is designed as a web portion which is integrally formed on the securing portion 6 , The securing device 14, in particular the web section, extends in the mounting direction M and / or load direction B and / or in the longitudinal direction L of the breadboard 2. The one end of the web section is formed as a control slope 21 whose function in connection with the figures 4 a - d is explained. The hook devices 8 and the securing devices 14 together form a plate interface for fastening the tool holder base insert 3 to the perforated grid plate 2. FIG. 3 shows a schematic three-dimensional illustration of the rear side of the tool holder base insert 3. For orientation, attention should again be drawn to the T-shaped body portion 5 and the U-shaped securing portion 6, which are connected to each other movable via the pivot joint 7. The hook devices 8 are integrally formed on the main body section 5. The support surface 1 1 is formed by various structures, such as webs, etc. on the base body portion 5, so that the base body portion 5, the support surface 1 1 defines. By contrast, the two securing devices 14 are integrally formed on the securing section 6 so that they pivot about the pivoting section 6 about the pivoting joint 7 about the pivot axis S relative to the adjacent hook means 8 in a direction perpendicular to the surface extension of the perforated grid plate 2 and / or the support surface. 1 1 can be deflected. In the illustration, it can also be seen that the securing devices 14, while adjacent to the hook devices 8 in the are arranged lower row, but are arranged in the longitudinal extension L to these shifted or staggered.

FIG. 4 a shows a schematic sectional illustration in order to describe the mounting of the tool holder base insert 3 on or in the perforated grid plate 2. The perforated grid plate 2 is shown in triplicate in FIG. 4a, wherein the perforated grid plate 2 is designated here as 2a, b, c. The perforated grid plate 2a is arranged in a plug-in direction E, which is oriented perpendicular to the surface extension of the perforated grid plate 2a, b, c and / or perpendicular to the support surface 1 1, spaced from the tool holder base insert 3. This relative positioning is also shown in FIG. 4b.

The breadboard 2b is positioned so that the tool holder base 3 is in a positioning position. In the positioning position, the hook heads 13 of the hook devices 8 are already immersed in the receiving holes 4 of the breadboard 2. In the adjustment position of the tool holder base insert 3, however, the securing devices 14 are supported on the front side of the perforated grid plate 2b. This relative position is shown in FIG. 4c. If one looks in parallel to this Figure 5, which shows a rear view of the tool holder assembly 1, wherein the tool holder base insert 3 is in the Justierlage, it can be seen that the hook heads 13 are positively received in the longitudinal and transverse direction of the breadboard 2b. The breadboard 2b defines a positioning hole pattern relative to the tool holder base 3.

By loading the main body portion 5 in the region of the upright leg on the first operating area 19 according to arrow A in the insertion direction E is achieved that the hook means 8 of the lower row and the hook means 8 of the upper row are further performed by the receiving holes 4, at the same time the securing means 14 are deflected relative to the lower row of hook means 8 and / or relative to the adjacent hook means 8 against the insertion direction E. As soon as the Hook heads 13 are so deeply immersed in the receiving holes 4 that the back of the hole grid plate 2b can retract into the receiving areas 9, the tool holder base insert 3 in the mounting direction M and / or later loading direction B relative to the breadboard 2b are moved, so that the tool holder base insert third is transferred to a fixation. In particular, the insertion movement is strictly and / or exclusively parallel to the front of the breadboard 2 and 2a, b, c. During the transfer to the fixing position, the securing device 14 slides over the front side of the perforated grid plate 2b. Once the control slope 21 reaches the edge region of the receiving hole 4, the securing device 14 can slide into the receiving hole 4. By the control slope 21 of the tool holder base insert 3 is further pushed in the mounting direction M, as this translates a translation of the pressurization in the direction of E and / or perpendicular to the breadboard 2 in a translational movement in mounting direction M.

The fixing position of the tool holder base insert 3 is shown relative to the perforated grid plate 2c or in the figure 4d. In the fixing position, the hook devices 13 are supported in the loading direction B via the contact surfaces 10 of the hook legs 12 in a form-fitting manner against the edge regions of the perforated grid plate 2c. Due to the offset of the tool holder base insert 3 relative to the perforated grid plate 2b, the securing devices 14 are now brought congruently to the receiving holes 4, so that they can be inserted in the insertion direction E in the receiving holes 4. In contrast, the hook heads 13 engage over the edge areas of the plate.

This state is shown again in FIG. 6, it being apparent from the synopsis of FIGS. 4 and 6 that the securing devices 14 are positively supported at one end, in particular at the web end, against the mounting direction M and / or the direction of loading B. Thus, the tool holder base insert 3 is arranged both in and against the loading direction B and / or mounting direction M positively in the hole grid plate 2c. Against a removal of the tool holder base insert 3 against the insertion direction E is a backup on the overarching hook heads 13th and the plate edge portions of the breadboard 2c accommodated in the receiving areas 9. Thus, the tool holder base insert 3 is positively secured in each direction of movement. When dismantling the tool holder base insert 3, the securing section 6 is pivoted relative to the main body section 5 about the pivot joint 7 by a pull on the second operating region 20, so that the securing device 14 is pulled out of the receiving hole 4. Due to the pulling movement on the second operating region 20, the tool holder base insert 3 is pressure-loaded against the mounting direction, that is to say in a dismounting direction, so that the tool holder base insert 3 can be removed from the perforated grid plate 2 in an overall movement. This is achieved in that the pulling movement is oriented counter to the extension direction of the hook heads 13 on the hook means 8.

The position of the hole grid plate 2c relative to the tool holder base insert 3 defines a fixing hole pattern, the fixing hole pattern being disposed offset to the positioning hole pattern with respect to the tool holder base insert 3 in the mounting direction M.

As shown particularly in FIG. 6, the hook devices 8 of the upper row are formed as wide hook means 8, which are also supported in the transverse direction Q at the plate edge portions of the receiving holes 4. In contrast, the hook means 8 are formed in the lower row as narrow hook means 8, which are supported on one side only of the transverse direction Q form fit to the edge areas of the plate. On the opposite side, in contrast, one of the securing devices 14 is arranged in each case in the same receiving hole 4. By arranging both a securing device 14 and a hook device 8 in a common receiving hole 4, tilting and similar interference, which could occur when these components are arranged in different receiving holes 4, are minimized. As can be seen in particular from FIG. 3, the tool holder base insert 3 has a plurality of tubular carrier sections 15, which are closed on the front side in the embodiment shown in FIG. However, these can be opened by a separating machining, for example a hole, and thereby form plug-in interfaces for insertion of a round material, which can be designed as a tool holding device.

Further, the tool holder base insert 3 on the transverse leg of the T-shaped main body portion 5 edge-extending in the longitudinal direction L rail sections 16 a, b, on which a cap body, such. one of the tool holders 18 described below, can be pushed so that they form a common sliding interface.

The tool holder base insert 3 shown in Figures 1 to 6 is square or nearly square in shape and exhibits a 2x2 matrix of hook means 8. This may be referred to as a base tool holder base insert.

In Figures 7 and 8, a tool holder base insert 3 is shown as a supplementary tool holder base insert in front view and rear view, having only two hook means 8 superimposed in a 2x1 matrix. The tool holder base insert 3 has exactly one securing device 14, which, however, can again be introduced together with the lower hook device 8 into a common receiving hole 4. The tool holder base insert 3, which is designed as a supplementary tool holder base insert, also has a base body section 5 formed in the shape of a T and a securing section 6 formed in a U-shaped manner, so that the function is referred to the preceding description. FIGS. 9a and 9b illustrate a tool holding assembly 1 with the breadboard 2 and a plurality of tool holding inserts 3 with different tool holders 18 to illustrate the versatility and modularity of the tool holder assembly 1. The Further figures show exemplary embodiments of different tool holder devices 18. The tool holding inserts 3 are arranged substantially in a row, but could also be arranged in any distribution selected by the user himself. The tool holder inserts 3 are made as follows:

I: supplementary tool holder base insert as shown in Figs. 6 and 7;

II: basic tool holder base insert as in Figs. 1 to 5;

III: supplementary tool holder base insert with three through-holes 17 in the support sections 15 as mechanical plug-in interfaces;

 IV: Basic tool holder base insert with five continuous

Through openings 17 in the support sections 15 as mechanical plug-in interfaces;

V: supplementary tool holder base insert with a single holding rod formed from a round material as a tool holding device 18;

VI: Supplementary tool holder base insert with two formed from a round material holding rods as a tool holder 18;

VII: Supplementary tool holder base insert with a slightly thicker single support rod formed from a round material as tool holder 18; VIII: Supplementary tool holder base insert with two, made of a round material, slightly thicker Einzelhaltestangen as a tool holder 18; IX: basic tool holder base insert with a bracket formed from a round material as tool holding device 18;

X: basic tool holder base insert with a single holding rod formed from a round material as a tool holding device 18;

XI: Basic tool holder base insert with a somewhat thicker bracket formed of a round material as tool holder 18;

XII: Basic tool holder base insert with a somewhat thicker bracket formed of a round material as tool holder 18;

The round material is formed, for example, of metal, in particular of an aluminum alloy. XIII-XV: supplementary tool holder base insert with a plastic clamping device as a tool holding device 18, wherein the clamping device has a plurality of plastic bolts which engage in the through holes 17.

In the figure, 9b different tool holder inserts 3 in the use of the rail sections 16 a, b for pushing tool holder devices 18 are shown. By way of illustration, FIGS. 10 a, b show the tool holder device 18 and the tool holder base insert 3 with the tool holder device 18 in detail. The tool holder device 18 is designed as a sliding cap, which can be pushed onto the trained as rail sections 16 a, b rail interface of the tool holder base insert 3 from above in the loading direction B and the tool holder base insert 3 engages positively. The tool holder device 18 may have different holding members, wherein in the examples XVI and XVII hook elements are shown. In Examples XVIII-XXI, sorting boxes for tool inserts or other small parts are shown as tool holding means 18. While in the examples XVI-XIX the tool holding device 18 designed as sliding caps are only pushed onto a single tool holder base insert 3, the tool holding device 18 of the examples XX and XXI is pushed onto two tool holder inserts 3, which are also arranged offset to one another.

FIGS. 10a, b show the tool holder device 18 in a schematic rear view and in an oblique view from the rear. The tool holder device 18 has a slide receptacle 22 into which a slide portion 23 (FIG. 3) can be inserted in the mounting direction. The slider portion 23 is formed as a free end or as a free end portion of the tool holder base insert 3.

The tool holder device 18, more precisely the slide holder 22, has two rail wing sections 24a, b, which extend in the mounting direction M or in the loading direction B. The rail sections 16 a, b (Figure 3) each have a sliding surface 25a, b, however, the rail wing sections 24a, b each have a mating sliding surface 26a, b. The sliding surfaces 25a, b face the perforated grid plate 2 in the assembled state, whereas the counter-sliding surfaces 26a, b face away from the perforated grid plate 2. In particular, the rail wing sections 24a, b engage behind the rail sections 16a, b in the insertion direction E, so that the rail wing sections 24a, b and in particular the counter sliding surfaces 26a, b are located between the perforated grid plate 2 and the rail sections 16a, b or the sliding surfaces 25a, b.

The tool holder base insert 3 further has a guide surface 27 which is formed by the front side of the tool holder base insert 3. In contrast, the tool holder device 18 comprises a counter guide surface 28, which is arranged in the slide holder 22 and the tool holder base insert 3 faces so that when mounting the tool holder 18 on the tool holder base insert 3, the counter guide surface 28 can slide on the guide surface 27 along. The counter-guide surface 28 may be formed continuously, or - as shown in Figures 10a, b - be realized only as running in the mounting direction M ribs.

The slide receptacle 22 forms a hood, wherein the end of the hood is formed by a support region 29 to which the free end of the tool holder base insert 3, in particular of the slide portion 23, with a support portion 30 (Figure 3) rests positively. In particular, the support region 30 forms an end stop for the support region 29 in the mounting direction M and / or in the loading direction B.

In order to further improve insertion and threading, a guide wing 31, which engages behind the free end of the tool holder base insert 3 in a connecting state, extends in the transverse direction Q. The guide wing 31 is integrally formed on the tool holder device 18. With the aim of preventing accidental release of the tool holder 18 of the tool holder base insert 3, the tool holder 18 has two locking device 32a, b, which are designed as latching hooks and which engage latching recesses 33a, b of the tool holder base insert 3 detent. The latching devices 32a, b each form a latching interface with the latching receivers 33a, b, which secures the tool holder device 18 with the toolholder base insert 3 detachably against the mounting direction.

Figures 1 1 a, b, c show three states during the sliding of the tool holder device 18 on the tool holder base insert 3 along or rectified to the mounting direction M. By pushing a mounting plane ME is defined at the same time, which is rectified or parallel to the mounting direction M. Further, the mounting plane ME is rectified or aligned parallel to the front of the breadboard 2, In the figure 11a, the tool holder base insert 3 between the mating surface 28 and the mating surfaces 26a, b positively caught and thereby centered in the sliding movement. The game in the direction perpendicular to the mounting plane is large, so that the tool holder device 18 can be easily placed on the tool holder base insert 3.

In FIG. 11b, the tool holder device 18 is slid so far onto the tool holder base insert 3 that the free end of the tool holder base insert 3 is already engaged behind by the guide blade 31, thereby further centering the movement.

Upon further pushing the tool holder device 18 onto the tool holder base insert 3, the latching devices 32a, b are latched into the latching receptacles 33a, b and the connection state is reached. The mating guide surface 28 and the mating sliding surfaces 26a, b hold the tool holder base insert 3 over the guide surface 27 and the sliding surfaces 25a, b without play, almost free of play or even with a certain prestress. By engaging behind the rail sections 24 a, b behind the rail sections 23, the tool holder device 18 in a direction perpendicular to the Surface extension of the hole grid plate 2 and / or the mounting plane positively secured.

The sliding surfaces 25a, b, counter-sliding surfaces 26a, b, guide surface 27 and counter-guide surface 28 can be dimensioned such that in the transition shown in FIGS. 11a-c the play becomes steadily narrower in the direction perpendicular to the mounting plane and / or the centering so that from a rough recording to a biased state, a narrowing occurs. In FIG. 12, the tool holding device 18 in this case is designed as a forceps holder device in a three-dimensional representation obliquely from the front in a detailed view. Trained as a forceps holder device tool holding device 18 has two receptacles 34a, b, the receiving direction is vertically aligned and forms a receiving channel for a first leg of a pair of pliers. In the tool holder device 18 thus shown, two pliers can thus be inserted in parallel. It should be emphasized that two cheek sections 35a, b are arranged at the edge of the tool holder device 18, which extend in the plane extension approximately perpendicular to the Lochrasterpaltte 2 and / or to the mounting plane and form a lateral boundary for each second leg of the forceps. Together with the boundaries of the receptacles 34 a, b, the cheek portions 35 a, b form a U-shaped area for the second leg of the pliers. In the inserted state of the forceps, the first leg of the forceps is thus caught by the receptacle 34a, b, and the second leg of the forceps is laterally guided by the cheek portions 35a, b, so that the forceps can not oscillate or oscillate uncontrollably. In particular, this ensures that the installation space for receiving the pliers is limited to the extension in the transverse direction Q of the tool holder device 18.

It should be noted that the tool holding inserts 3 in the embodiment as a base tool holder base insert or supplementary tool holder base insert for the tool holding devices 18 in Figures 9a and 9b are each designed to be identical. In particular, these can each be made in a tool and thereby form a highly functional module mounting plate for the tool holder assembly. 1

LIST OF REFERENCE NUMBERS

1 tool holder assembly

 2a, b, c Breadboard

 3 tool holder base insert

 4 receiving holes

 5 body section

 6 securing section

 7 swivel joint

 8 hook devices

 9 plate receiving area

 10 contact surface

 1 1 contact surface

 12 hook legs

 13 hook head

 14 safety devices

 15 carrier sections

 16 a, b rail sections

 17 passages

 18 tool holder device

 19 first operating area

 20 second operating area

 21 control slope

 22 slide holder

 23 slide section

 24a, b rail wing sections

 25a, b sliding surfaces

 26a, b Gegengleitflächen

 27 guide surface

28 mating surface 29 circulation area

30 support area

31 guide wings

32a, b locking devices

33a, b snap shots

34a, b shots

35a, b cheek sections

B loading direction

E insertion direction

L longitudinal direction

M mounting direction

S pivot axis

Q transverse direction

ME mounting level

Claims

Claims: 1. A tool holder base insert (3) for a breadboard plate (2; 2a, b, c), wherein the breadboard plate (2; 2a, b, c) is formed as a plate body having a plurality of receiving holes (4), the receiving holes (4) being one Plate grid with a support surface (1 1) for supporting the tool holder base insert (3) on the perforated grid plate (2, 2c) in an assembled state of the tool holder base insert (3), with at least one hook means (8), wherein the hook means (8) the support surface (1 1) protrudes over the support surface (1 1) in a plug-in direction (E) so that the hook device (8) can pass through one of the reception holes (4) in the mounted state of the tool holder base insert (3), the hook device ( 8) has a hook leg (12) and a hook head (13), which together have a plate receiving area (9) for receiving a receiving hole (4) facing the plate edge region of the plate body such that, in the installed state of the tool holder base insert (3), the plate edge region is arranged in the plate receiving region (9), the hook limb (12) having a contact surface (10) for the plate edge region in a loading direction (B) for the tool holder base insert (3) and the hook head (13) overlaps the plate edge region in the loading direction (B), and at least one securing device (14), the securing device (14) being arranged in one of the receiving holes (4) in the mounted state of the tool holder base insert (3) and the tool holder base insert (3) positively secured against displacement against the loading direction (B), characterized in that the tool holder base insert (3) has a main body section (5) and a securing section (6), the main body section (5) defining the bearing surface (11) and carrying the hook device (8), and wherein the securing section (6) comprises the securing device (14) carries, wherein the base body portion (5) and the securing portion (6) are arranged movable to each other, so that the securing means (14) relative to the hook means (8) against the insertion direction (E) is elastically deflectable.

2. tool holder base insert (3) according to claim 1, characterized in that the base body portion (5) and the securing portion (6) via a pivot joint (7) are interconnected.

3. Tool holder base insert (3) according to any one of the preceding claims 1 or 2, characterized in that the securing portion (6) is designed as a U-shaped securing bracket, wherein the securing bracket the body portion (5) engages in sections and at the free ends on the Swivel joint (7) with the main body portion (5) is connected.

A tool holder base insert (3) according to any one of the preceding claims, characterized in that the tool holder base insert (3) comprises at least two of the hook means (8), the hook heads (13) of the at least two hook means (8) being arranged compatible with an imaginary positioning hole pattern wherein the hook legs (12) of the at least two hook means (8) are arranged compatible with an imaginary fixing hole pattern, the positioning hole pattern being offset from the adjustment hole pattern in a mounting direction (M) of the tool holder base insert (3).

5. tool holder base insert (3) according to claim 4, characterized in that the at least one securing means (14) is arranged to be compatible with the Justierlochraster and / or is arranged incompatible with the positioning hole grid.

6. tool holder base insert (3) according to any one of the preceding claims, characterized in that the securing means (14) is formed as a web portion, wherein the web portion with a web end against the loading direction (B) at the plate edge region and / or with another web end in the direction of movement (B) on the plate edge region for positive locking of the tool holder base insert (3) can be supported.

7. tool holder base insert (3) according to any one of the preceding claims, characterized in that the securing means (14) and the or one of the hook means (8) are arranged in the assembled state of the tool holder base insert in a common receiving hole (4).

A tool holder base insert (3) according to any one of the preceding claims, formed as a base tool holder base insert, wherein

Base tool holder base insert at least or exactly four hook means (8) and at least or exactly two securing means (14), wherein the hook means (8) are arranged as at least or exactly 2x2 matrix.

A toolholder base insert (3) according to any one of the preceding claims, formed as a supplemental toolholder base insert, wherein the supplemental toolholder base insert has at least or exactly two hook means (8) and at least or exactly one securing means (14), said hook means (8) being at least or precisely 2x1 matrix are arranged.

10. Tool holder base insert (3) according to one of the preceding claims, characterized by at least one mechanical plug-in interface (15) for a tool holder device (18), wherein the plug-in interface (15) as a through-hole (17) is formed.

1 1. Tool holder base insert (3) according to one of the preceding claims, characterized by at least one mechanical sliding interface (16 a, b) for a tool holding device (18), wherein the sliding interface (16 a, b) is formed as a rail section.

12. Tool holder base insert (3) according to any one of the preceding claims, characterized as an injection molded part.

13. Tool holding arrangement (1) with at least one of the tool holder inserts (3) according to one of the preceding claims and at least one tool holder device (18) and the perforated grid plate (2, 2a, b, c), wherein the tool holder means (18) on the tool holder base insert (3 ) is attached.

14. Tool holding arrangement according to claim 13, characterized in that it is designed as a workshop trolley.

15. A method of mounting the at least one tool holder base insert on the perforated grid plate, comprising the steps of: placing the tool holder base insert (3) on the perforated grid plate (2, 2a) in a positioning position; Deflecting the securing device (14); Moving the tool holder base insert (3) in the mounting direction (M); Inserting the securing device (14) into the receiving holes (4).