EP3142831B1 - Ensemble porte-outil pour plaque à matrice de trous - Google Patents

Ensemble porte-outil pour plaque à matrice de trous Download PDF

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Publication number
EP3142831B1
EP3142831B1 EP15725526.6A EP15725526A EP3142831B1 EP 3142831 B1 EP3142831 B1 EP 3142831B1 EP 15725526 A EP15725526 A EP 15725526A EP 3142831 B1 EP3142831 B1 EP 3142831B1
Authority
EP
European Patent Office
Prior art keywords
tool holder
base insert
holder base
hook
tool
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
EP15725526.6A
Other languages
German (de)
English (en)
Other versions
EP3142831A1 (fr
Inventor
Christoph BÖHLER
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to PL15725526T priority Critical patent/PL3142831T3/pl
Publication of EP3142831A1 publication Critical patent/EP3142831A1/fr
Application granted granted Critical
Publication of EP3142831B1 publication Critical patent/EP3142831B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25HWORKSHOP EQUIPMENT, e.g. FOR MARKING-OUT WORK; STORAGE MEANS FOR WORKSHOPS
    • B25H3/00Storage means or arrangements for workshops facilitating access to, or handling of, work tools or instruments
    • B25H3/04Racks
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47FSPECIAL FURNITURE, FITTINGS, OR ACCESSORIES FOR SHOPS, STOREHOUSES, BARS, RESTAURANTS OR THE LIKE; PAYING COUNTERS
    • A47F5/00Show stands, hangers, or shelves characterised by their constructional features
    • A47F5/08Show stands, hangers, or shelves characterised by their constructional features secured to the wall, ceiling, or the like; Wall-bracket display devices
    • A47F5/0807Display panels, grids or rods used for suspending merchandise or cards supporting articles; Movable brackets therefor
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47FSPECIAL FURNITURE, FITTINGS, OR ACCESSORIES FOR SHOPS, STOREHOUSES, BARS, RESTAURANTS OR THE LIKE; PAYING COUNTERS
    • A47F5/00Show stands, hangers, or shelves characterised by their constructional features
    • A47F5/08Show stands, hangers, or shelves characterised by their constructional features secured to the wall, ceiling, or the like; Wall-bracket display devices
    • A47F5/0807Display panels, grids or rods used for suspending merchandise or cards supporting articles; Movable brackets therefor
    • A47F5/0815Panel constructions with apertures for article supports, e.g. hooks
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H85/00Protective devices in which the current flows through a part of fusible material and this current is interrupted by displacement of the fusible material when this current becomes excessive
    • H01H85/02Details
    • H01H85/04Fuses, i.e. expendable parts of the protective device, e.g. cartridges
    • H01H85/041Fuses, i.e. expendable parts of the protective device, e.g. cartridges characterised by the type
    • H01H85/046Fuses formed as printed circuits
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H85/00Protective devices in which the current flows through a part of fusible material and this current is interrupted by displacement of the fusible material when this current becomes excessive
    • H01H85/02Details
    • H01H85/04Fuses, i.e. expendable parts of the protective device, e.g. cartridges
    • H01H85/05Component parts thereof
    • H01H85/055Fusible members
    • H01H85/06Fusible members characterised by the fusible material

Definitions

  • the invention relates to a tool holder arrangement for a perforated grid plate with the features of the preamble of claim 1 and the use of a tool holder device in the tool holder arrangement.
  • the utility model DE 20 2010 016696 U1 which forms the closest prior art, relates to a holder for storing work equipment on a perforated wall.
  • the holder has a fixing side on which fixing means are provided for fastening to the perforated wall.
  • the holder has receiving means, by means of which at least one of the working means on a receiving side of the holder.
  • the fixing means have a tensioning device with a first application element and a second application element, which can be acted upon by a pretension in the opposite direction to one another.
  • the storage arrangement includes a hanging tab and a locking tab.
  • the locking tab is movable between an unlocked position and a locked position. In the unlocked position, the locking tab is configured in such a way that it cannot penetrate a groove in a wall support element and thus the suspension tab can be removed from the wall support element.
  • the publication US 6481 583 B1 relates to a tool holder system for a wall with a regular grid of holes, the tool holder system having mounting elements and attachment elements.
  • the assembly elements are fixed in the perforated wall
  • the attachment elements are pushed onto the assembly elements.
  • the mounting elements have hooks for attachment to the perforated wall, with which they pass through the perforated wall.
  • the mounting elements have further hooks which face the attachment elements and into which the attachment element can be positively received and locked.
  • the invention is based on the object of proposing a tool holder arrangement for a perforated grid plate which enables reliable fastening to the perforated grid plate.
  • This object is achieved by a tool holder arrangement with the features of claim 1 and with a use with the features of claim 15.
  • Preferred or advantageous embodiments of the invention result from the subclaims, the following description and the attached figures.
  • a tool holder arrangement which is suitable and / or designed for a perforated grid plate. From a functional point of view, the tool holder arrangement is designed to hold at least one tool.
  • the tool can, for example, be a screwdriver, ring spanner, open-ended wrench, drill, pliers, cordless screwdriver, etc.
  • the tool holder arrangement can also be designed to hold workpieces, such as screws, nuts, etc.
  • the tool holder arrangement has at least one mechanical interface which is suitable and / or designed to hold a tool and / or to hold a tool holder device.
  • the perforated grid plate is designed as a plate body, for example as a sheet metal, with a multiplicity of receiving holes.
  • the receiving holes define a plate hole pattern. It is particularly preferably a regular plate hole grid, the grid spacings of the receiving holes in particular being the same in a transverse direction and a longitudinal direction perpendicular thereto.
  • the perforated grid plate is particularly preferably a sheet metal, the receiving holes having a size of 9.2 millimeters ⁇ 9.2 millimeters and a spacing of 38.1 millimeters from one another. This plate hole pattern has established itself - at least in Germany - as a known measure.
  • the tool holder arrangement comprises at least one tool holder base insert, the tool holder base insert being attachable and / or attached directly and / or in a contacting manner to the perforated grid plate.
  • the tool holder base insert has a plate interface, which enables mechanical coupling with the perforated grid plate.
  • the tool holder arrangement comprises one or more tool holder devices which are or are or are designed to hold at least one tool or a tool accessory part.
  • the tool holder device can be coupled or coupled to the tool holder base insert, so that the tool holder device in particular indirectly via the at least one Tool holder base insert is attached to the grid plate.
  • the tool holder base insert forms an adapter plate for fastening the tool holder device to the perforated grid plate.
  • the tool holder device has a slide holder and the tool holder base insert has a slide section.
  • the slide holder and slide section together form a slide interface for coupling the tool holder device to 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 one assembly direction.
  • the mounting direction is in the same direction or parallel to a mounting level or lies in the mounting level.
  • the mounting plane is preferably aligned or parallel to a front of the perforated grid plate.
  • the tool holder device preferably has a bottom surface which, during assembly, rests on or is supported on the front side, so that the bottom surface is aligned with or forms the assembly plane.
  • the tool holder device and the tool holder base insert are in a connected state.
  • the slide section has at least one rail section and the slide receptacle has at least one rail wing section.
  • the rail section and the rail wing section come into direct contact and / or operative connection, the at least one rail wing section being guided by the at least one rail section.
  • the at least one rail section secures the at least one rail wing section in a form-fitting manner in a direction perpendicular to the assembly plane.
  • the rail wing section engages behind the at least one rail section and thereby secures itself in a form-fitting manner on the rail section.
  • the positive locking ensures that a movement of the tool holder device in a direction perpendicular to the mounting plane and thus perpendicular, essentially perpendicular or angled to the surface extension of the perforated grid plate is positively prevented.
  • the rail wing section is arranged between the perforated grid plate and the tool holder base insert in the connected state.
  • an improved connection of the tool holder device to the tool holder base insert can be implemented by the double function of the sliding interface components rail section and rail wing section, namely both the guiding function in the sliding state and the securing function in the connected state. Due to the fact that the sliding interface components of the rail section, the rail wing section are already used during assembly, they can be made very large or long in terms of the surface extension, in particular in the assembly direction, so that the rail wing section is securely and stably supported on the rail section and thus a secure connection of the Tool holder device can be reached via the tool holder base insert on the grid plate.
  • the rail section has a sliding surface and the rail wing section has a counter sliding surface, these two surfaces being aligned.
  • the sliding surface and / or the counter sliding surface are aligned and particularly preferably arranged or aligned parallel to the mounting plane.
  • the counter sliding surface and / or the sliding surface or sections thereof define the mounting plane.
  • the slider section has a support area and the slider receptacle has a support area, the support area in the connection state resting positively in the mounting direction on the support area.
  • the support area forms an end stop for the support area of the slide holder of the tool holder device.
  • the tool holder device in particular the slide holder, a latching device and the tool holder base insert, in particular the slide section, have a latch holder.
  • the tool holder device can have the latching receptacle and the tool holder base insert can have the latching device.
  • the latching device and the latching receptacle together form a latching interface, the slider section in the slider receptacle being latched by the latching interface against opening of the tool holder device, that is to say a method contrary to the mounting direction, in the connected state.
  • the locking interface ensures that the tool holder device cannot be accidentally dismantled by a slight movement against the mounting direction.
  • the tool holder device in particular the slide holder, has a guide wing which extends in a transverse direction to the mounting direction and at the same time in the same direction, in particular parallel to the mounting plane.
  • the guide wing is used for centering and / or guiding the free end of the tool holder base insert, in particular the slide section, during the sliding movement.
  • the guide wing is arranged between the perforated grid plate and the free end of the tool holder base insert, in particular the slide section.
  • 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 in the same direction as the assembly plane and / or define the assembly plane.
  • 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.
  • the counter-guide surface is located on a back or inside of the tool holder device facing the tool holder base insert in the connected state. When the tool holder device is pushed on, it is guided by an operative connection, in particular a sliding of the guide surface and counter-guide surface during the sliding movement.
  • the tool holder base insert is guided relative to the tool holder device from the rear through the counter sliding surface and on the front through the counter guide surface. Thanks to the relative guide on both sides, the tool holder device can be easily and tilt-free mounted on the tool holder base insert.
  • the tool holder base insert is designed as a plate section or as a plate, in particular as a mounting plate or adapter plate, each of which has a rail section on two sides, in particular longitudinal sides.
  • the rail sections are spaced from one another by at least 2 centimeters, preferably by at least 4 centimeters.
  • the tool holder device comprises a hood section which is pushed over the tool holder base insert, the hood section having a rail wing section on two sides, preferably in each case on a long side of the hood section.
  • the rail wing sections are spaced apart by at least 2 centimeters, preferably by at least 4 centimeters.
  • the support area and / or the at least one latching device and / or the guide wing is located between the wing sections.
  • the wing sections, the at least one latching device and the guide wing line up in the transverse direction.
  • two wing sections are initially arranged in the transverse direction on the outside, followed by two latching devices and between the latching devices of the guide wings.
  • the tool holder device is connected to exactly one tool holder base insert in the connected state.
  • the two rail wing sections of the tool holder device engage in the two rail sections of the tool holder base insert.
  • the plate-shaped design of the tool holder base insert ensures secure, tilt-proof and comfortable fastening of the tool holder device.
  • the tool holder device is connected to two, in particular exactly two, tool holder base inserts in the connected state.
  • a connection to one of the tool holder base inserts is provided at one end region of the tool holder device with a rail wing section of the tool holder device, and another connection to the other tool holder base insert is provided at the other end region with the other rail wing section.
  • the tool holder arrangement comprises a plurality of structurally and / or functionally different tool holder devices and a plurality of tool holder base inserts, which are each identical in construction.
  • the tool holder arrangement comprises the perforated grid plate.
  • the tool holder arrangement can be designed, for example, as a tool trolley, the perforated grid plate being arranged on an end face of the tool trolley and being fastened thereto.
  • the tool holder inserts can optionally be placed on the perforated grid plate.
  • the tool holder inserts enable rows and columns to be formed and the tool to be arranged in any manner, in particular in a more visually arranged manner.
  • the tool holder device and / or the tool holder base insert are particularly preferably designed as a plastic part, in particular in each case as an integral plastic part, in particular a plastic injection molded part.
  • the design as a plastic injection molded part also gives the possibility of defining the demolding directions for the plastic injection molded parts in such a way that the tools for the plastic injection molded parts can be easily designed. It is preferred that the demolding direction for the tool holder base insert is oriented perpendicularly or substantially perpendicularly to the mounting plane and / or the surface extension of the perforated grid plate. The demolding direction is thus aligned with an insertion direction of the tool holder base insert into the perforated grid wall.
  • the demolding direction of the tool holder device is oriented perpendicularly or substantially perpendicularly to the demolding direction for the tool holder base insert and / or in the same direction as the mounting direction.
  • the demolding direction is thus oriented in the same way as the assembly direction and, in many cases, in the same direction as an assembly direction for equipping the tool holder device with tools.
  • the or one of the tool holder devices is designed as a pliers holder device, the plier holder device having one or more receptacles for a first plier leg of a pair of pliers and cheek sections which are offset in the transverse direction from one another on the pliers holder device for guiding a second plier leg are arranged.
  • the cheek sections are that the pliers, in particular the second pliers leg, cannot swing freely and can penetrate into the gripping area of an adjacent tool holder device.
  • the cheek sections ensure that the pliers are easy to grip and easy to put down.
  • the tool holder base insert has a support surface, the tool holder base insert in the assembled state with the support surface resting on the perforated grid plate, in particular on a front side of the perforated grid plate.
  • the plate interface has at least one hook device, the hook device protruding above the support surface in a direction of insertion of the tool holder base insert into the perforated grid plate, in particular perpendicular to the support surface.
  • the at least one hook device, some or all of the hook devices is or are arranged relative to the support surface such that the hook device can or can reach through one of the receiving holes in the assembled state of the tool holder base insert and protrude on the opposite side.
  • the hook device has a hook leg and a hook head, the hook head being arranged on the hook leg.
  • the longitudinal extension of the hook head is oriented perpendicular to the longitudinal extension of the hook leg.
  • these form an inverted L-shaped hook in a side view.
  • the hook leg and the hook head form a plate receiving area for receiving a partial section of the plate body, specifically a plate edge area which faces the receiving hole into which the hook device is inserted.
  • the hook device thus encompasses the Plate edge area forming receiving hole.
  • the hook leg forms a form-fitting contact surface for the plate edge area and extends in particular perpendicular to the contact surface.
  • the tool holder base insert can be supported on the perforated grid plate, in particular on the facing plate edge area, in one load direction via the contact surface.
  • the perforated grid plate is a vertically arranged perforated grid plate
  • the loading direction is directed from top to bottom, so that the hook device is open downwards and / or in the loading direction.
  • the hook device rests with the contact surface on the plate edge area.
  • the hook head overlaps the plate edge area in the direction of loading, so that the plate edge area is arranged between the hook head and the contact surface.
  • 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 in such a way that the securing device engages in or extends through the receiving hole.
  • the securing device serves to positively secure the tool holder base insert against displacement relative to the perforated grid plate against the direction of loading. The tool holder base insert is thus positively secured in the load direction by the form-fitting contact surface of the hook leg and counter to the load direction by the securing device.
  • the tool holder base insert have a base body section and a securing section.
  • the base body section defines the support surface and carries the at least one hook device.
  • the securing section carries the securing device.
  • the base body section and the securing section are arranged such that they can be moved relative to one another, the securing device being able to be deflected relative to the hook device against the insertion direction, in particular in a straight line or in a pivoting movement.
  • the safety device it is deflected relative to the at least one hook device against the insertion direction into a safety release position.
  • the security device is preferably provided that it automatically and / or elastically returns to the securing position.
  • the base body section and the securing section are connected to one another via a swivel joint.
  • the pivot axis is particularly preferably arranged parallel to the support surface.
  • the swivel joint allows the securing device to be swiveled away relative to the hook device. Because 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.
  • the securing section is designed as a U-shaped securing bracket which engages around the basic body section at least in sections and is connected to the basic body section at the free ends via the swivel joint.
  • the swivel joint forms two swivel sections.
  • the securing section can be operated particularly easily by a user, since the connecting leg of the two free legs is easy to grip. For example, it is possible to pull on the securing bracket to disassemble the tool holder base insert, thereby elastically deflecting and deactivating the securing device against the insertion direction, so that the tool holder base insert can be removed.
  • the base body section is particularly preferably T-shaped, the standing leg of the "T” being arranged between the legs of the "U” of the securing bracket.
  • the end region of the standing leg of the "T” is particularly preferably designed as a first operating region, it being possible for the pressure to be installed on the first operating region.
  • the tool holder base insert is an easy-to-use, elegant and / or compact workshop component.
  • 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 compatible with an imaginary positioning hole grid.
  • the positioning hole grid corresponds to the plate hole grid in the grid dimension and serves 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 the fixing hole grid corresponds to the grid dimension of the plate hole grid, the fixing hole grid representing a second auxiliary construction.
  • the hook heads can be arranged in the positioning hole pattern and / or the contact surfaces of the hook legs in the fixing hole pattern.
  • the positioning hole pattern is offset from the fixing hole pattern in a mounting direction of the tool holder base insert.
  • the tool holder base insert is shifted in the assembly direction in order to achieve a fixing position, the hook legs being arranged in the plate hole grid and these abutting the contact surfaces in the direction of loading on the plate edge regions.
  • the plate hole pattern forms the fixing hole pattern.
  • the tool holder base insert is transferred from the positioning position to the fixing position by the sliding movement in the mounting direction.
  • the at least two hook devices are particularly preferably oriented identically, so that the tool holder base insert is inserted into the perforated grid plate in the direction of insertion inserted and can subsequently be moved in the mounting direction, the hook devices overlapping the plate edge areas.
  • the at least one securing device is arranged compatible with the fixing hole pattern and / or incompatible with the positioning hole pattern.
  • Compatible means in particular that the securing device etc. fits into the corresponding grid and / or is arranged in the receiving holes.
  • incompatible means that the securing device etc. does not fit into the corresponding grid and / or is arranged outside, in particular displaced, to the receiving holes.
  • the tool holder base insert is designed such that when the tool holder base insert is arranged in the positioning position, the securing device is elastically deflected relative to the hook device against the insertion direction and in particular is inevitably in the unlocking position. Only after the tool holder base insert has been transferred to the fixing position can the securing device transition into the securing position.
  • the securing device is particularly preferably designed such that it stands up in the positioning position of the tool holder base insert on the perforated grid plate, in particular on a front side of the perforated grid plate, and is inserted or snapped elastically only after the tool holder base insert has been brought into the fixing position in the corresponding receiving hole.
  • a control slope on the securing device it is proposed to introduce a control slope on the securing device.
  • the control bevel is arranged on the securing device in such a way that the edge region of the perforated grid plate can slide along when the securing device is inserted into the receiving hole.
  • control bevels By means of the control bevels, the securing device and thus the tool holder base insert are displaced in the mounting direction when the pressure is applied perpendicular to the perforated grid plate on the tool holder base insert.
  • the control bevel thus forms an auxiliary gear section for mounting the tool holder base insert.
  • the securing device is designed as a web section, the web section being able to be supported in a form-fitting manner against the load direction on the plate edge region with a web end.
  • the web section with the other web end can also be supported on the plate edge area in the loading direction.
  • the web end is set back somewhat from the contact surface in the direction of loading.
  • the securing device and one of the hook devices are arranged in a common receiving hole in the assembled state of the tool holder base insert and / or in the fixing position.
  • the securing device and the hook device are positioned in the adjustment hole grid in a common receiving hole. This positioning has the advantage that the positive locking on both sides 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 faults can occur.
  • the number of required mounting 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 one another on the perforated grid plate, since no separate mounting hole has to be kept free for the securing device.
  • One aspect relates to a method for mounting the at least one tool holder base insert on the grid plate of the tool holder arrangement.
  • 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 being inserted in each case into a receiving hole in the perforated grid plate.
  • the at least one securing device stands on the perforated grid plate.
  • the securing device is deflected into the unlocking position, which can be implemented, for example, by a pressure load on the base body section, in particular on the first operating area, the hook heads further immersing in the receiving holes, but the securing device on the front of the perforated grid plate fits positively.
  • the tool holder base insert is displaced relative to the perforated grid plate in the assembly direction, so that the plate edge regions of the plate body of the perforated grid plate can move into the plate receiving areas of the hook devices.
  • This sliding movement can be supported by the control bevels or bevels of the securing elements, since they slide along the edge areas of the perforated plate grid during insertion or immersion and thereby move the tool holder base insert in the mounting direction.
  • 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 assembled state.
  • the securing section When the tool holder base insert is released, the securing section is raised manually, so that the securing device is transferred from the securing position to the unlocking position. The tool holder base insert is then transferred from the fixing position to the positioning position and can be removed from the perforated grid plate.
  • the securing section particularly preferably has a second operating area for manual lifting, the second operating area being arranged in such a way that the tool holder base insert is pushed or at least loaded in the removal direction. Both the assembly and the disassembly of the tool holder base insert can be done with a simple hand movement.
  • 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.
  • the two securing devices are particularly preferably arranged in a clamp-like manner around two of the hook devices within a row, specifically preferably around the two hook devices which are at the bottom 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.
  • the tool holder base insert is designed as a supplementary tool holder base insert which has at least or exactly two hook devices and comprises at least or exactly one securing device. It is particularly preferably provided that the hook devices are arranged one above the other in the loading direction and that the securing device is positioned next to the lower hook device in the loading direction.
  • the mounting direction for the tool holder base insert and for the tool holder device is rectified, parallel or identical and optionally additionally rectified, parallel or identical to the loading direction
  • the tool holder base insert has at least one mechanical plug-in interface for a further tool holder device, the plug-in interface being designed, for example, as a through opening.
  • the through opening can have a circular cross section, so that a round material, such as a rod, can be introduced.
  • Another object relates to the use of the tool holder device as described above in the tool holder arrangement as this previously has been described, in particular for sliding onto at least one of the tool holder base inserts and / or for holding at least one tool.
  • the Figure 1 shows a schematic three-dimensional representation of a tool holder arrangement 1 as a first embodiment of the invention.
  • the tool holder arrangement 1 can be designed, for example, as a workshop trolley, with further components of the workshop trolley in the Figure 1 are suppressed in the drawing.
  • the tool holder arrangement 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 is firmly connected to the latter.
  • the perforated grid plate 2 is designed as a plate body, in particular as a sheet metal, in particular as a metal sheet, and has a multiplicity of receiving holes 4.
  • the receiving holes 4 are square in plan view and have a size of 9.2 millimeters x 9.2 millimeters, for example.
  • the receiving holes 4 are distributed in a grid which has a transverse direction Q and a longitudinal direction L, the distance between the individual receiving holes 4 in the transverse direction Q or in the longitudinal direction L in each case 38.1 millimeters is.
  • the plate body has a thickness of less than 2 millimeters, for example.
  • the tool holder base insert 3 is designed as a one-piece plastic injection molded part and can be divided into two different sections within the scope of its function.
  • a base body section 5 is T-shaped in plan view from the front, the transverse or extending leg Q of the "T" extending in the longitudinal direction L to approximately 50 percent of the total length of the tool holder base insert 3.
  • the tool holder base insert 3 has a securing section 6, which is U-shaped.
  • the U-shaped securing section 6 is open to the main body section 5 and engages around the standing leg of the T-shaped main body section 5.
  • the securing section 6 forms a securing bracket.
  • the free ends of the U-shaped securing section 6 are formed on the transverse leg of the T-shaped basic body section 5, the transition between the securing section 6 and the basic body section 5 forming a swivel joint 7 which defines a swivel axis S.
  • the pivot axis S is aligned parallel to the perforated grid plate 2 and is also located approximately in the middle in the direction of the longitudinal extent L of the tool holder base insert 3.
  • the area of the base body section 5 encompassed by the U-shaped securing section 6 forms a first operating area 19, which for easy operation Identification by a user has a corrugation or other friction-enhancing structure. When assembling the tool holder base insert, the user presses on the first operating area 19.
  • the securing section 6 By engaging the lying leg of the U-shaped securing section 6, the securing section 6 can be pivoted about the pivot axis S and deflected relative to the base body section 5. To facilitate attack, the securing section 6 can have a cutout as a second operating area 20.
  • the tool holder base insert 3 is rectangular to square in plan view. The surface extension is dimensioned such that immediately next to the tool holder base insert 3 in the another tool holder base insert 3 can be mounted in the adjacent receiving holes 4 without any lines or gaps.
  • the Figure 2 shows a schematic side view of the tool holder base insert 3, wherein it can be seen that this has hook devices 8, which are arranged offset in height in a mounting direction M. Although only two hook devices 8 can be seen in the view shown, the tool holder base insert 3 in FIG Figure 1 Embodiment shown four hook devices 8, which - arranged to match the grid dimension of the perforated grid plate 2 - in a 2x2 matrix.
  • the hook devices 8 each have a plate receiving area 9, into which a plate edge area of the perforated grid plate 2 can be inserted, the plate edge area coming against a load direction B in a form-fitting manner on a contact surface 10 for a form-fitting contact.
  • the tool holder base insert 3 is held in a form-fitting manner in the loading direction B via the hook device 8.
  • the tool holder base insert 3, in particular the base body section 5, lies in a form-fitting manner with a support surface 11 in the assembled state or in the fixing position on the front of the perforated grid plate 2.
  • the hook devices 8 extend perpendicularly or approximately perpendicularly to the contact surface 11.
  • the contact surfaces 10 are oriented perpendicularly or substantially perpendicularly to the contact surface 11.
  • the hook devices 8 can each be divided into a hook leg 12 and a hook head 13, the longitudinal extensions of which are arranged perpendicular to one another.
  • the hook leg 12 extends perpendicular or approximately perpendicular to the support surface 11
  • the hook head 13 extends perpendicular or substantially perpendicular to the hook leg 12 and / or parallel or substantially parallel to the support surface 11.
  • Hook legs 12 and hook head 13 form in the Side view shown an L-shaped shape and form the plate receiving area 9th
  • a securing device 14 which is designed as a web section which is integrally formed on the securing section 6.
  • the securing device 14, in particular the web section extends in the mounting direction M and / or loading direction B and / or in the longitudinal direction L of the perforated grid plate 2.
  • One end of the web section is designed as a control bevel 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 a schematic three-dimensional representation of the back of the tool holder base insert 3 is shown.
  • the hook devices 8 are molded onto the base body section 5.
  • the support surface 11 is formed by various structures, such as webs, etc. on the base body section 5, so that the base body section 5 defines the support surface 11.
  • the two securing devices 14 are integrally formed on the securing section 6, so that when the securing section 6 is pivoted via the swivel joint 7 about the swivel axis S relative to the adjacent hook devices 8 in a direction perpendicular to the surface extension of the perforated grid plate 2 and / or the contact surface 11 let deflect. It can also be seen in the illustration that the securing devices 14 are arranged adjacent to the hook devices 8 in the lower row, but are displaced or offset in the longitudinal direction L in relation to them.
  • FIG 4a a schematic sectional view to describe the assembly of the tool holder base insert 3 on or in the perforated plate 2.
  • the grid plate 2 is in the Figure 4a shown in triplicate, the perforated grid plate 2 being referred to here as 2a, b, c.
  • the perforated grid plate 2a is in an insertion direction E, which is oriented perpendicular to the surface extension of the perforated grid plate 2a, b, c and / or perpendicular to the contact surface 11, spaced from the tool holder base insert 3. This relative positioning is also in the Figure 4b shown.
  • the perforated grid plate 2b is positioned such that the tool holder base insert 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 perforated grid plate 2. In the adjusted position of the tool holder base insert 3, however, the securing devices 14 are supported on the front of the perforated grid plate 2b. This relative position is in the Figure 4c shown.
  • FIG. 5 shows a rear view of the tool holder arrangement 1, with the tool holder base insert 3 in the adjustment position, it can be seen that the hook heads 13 are positively received in the longitudinal and transverse directions by the perforated grid plate 2b.
  • the perforated grid plate 2b defines a positioning perforated grid relative to the tool holder base insert 3.
  • the tool holder base insert 3 can be displaced relative to the perforated grid plate 2b in the mounting direction M and / or later loading direction B, so that the Tool holder base insert 3 is transferred into a fixing position.
  • the insertion movement takes place strictly and / or exclusively parallel to the front of the perforated grid plate 2 or 2a, b, c.
  • the securing device 14 slides over the front of the perforated grid plate 2b.
  • the control bevel 21 the edge region of Receiving hole 4 reached, the securing device 14 can slide into the receiving hole 4.
  • the tool holder base insert 3 is pushed further into the mounting direction M by the control bevel 21, since this converts a translation of the pressurization in the direction E and / or perpendicular to the perforated grid plate 2 into a translational movement in the mounting direction M.
  • the fixing position of the tool holder base insert 3 is relative to the perforated grid plate 2c or in FIG Figure 4d shown.
  • the hook devices 13 are positively supported in the loading direction B via the contact surfaces 10 of the hook legs 12 on the plate edge regions of the perforated grid plate 2c.
  • the securing devices 14 are now brought into congruence with the receiving holes 4 so that they can be inserted into the receiving holes 4 in the insertion direction E.
  • the securing devices 14 are positively supported against the mounting direction M and / or the loading direction B via an end, in particular a web end, in a form-fitting manner on the plate edge regions.
  • the tool holder base insert 3 is thus positively arranged in the perforated grid plate 2c both in and against the loading direction B and / or mounting direction M.
  • Prevention of removal of the tool holder base insert 3 against the insertion direction E is secured via the overlapping hook heads 13 and the plate edge regions of the perforated grid plate 2c received in the receiving regions 9.
  • the tool holder base insert 3 is thus positively secured in every direction of movement.
  • the securing section 6 is pivoted relative to the base body section 5 about the swivel joint 7 by a pull on the second operating area 20, so that the securing device 14 is pulled out of the receiving hole 4.
  • the pulling movement on the second operating area 20 causes the Tool holder base insert 3 is pressurized against the mounting direction, that is, in a dismantling direction, so that the tool holder base insert 3 can be removed from the grid plate 2 in one overall movement. This is achieved in that the pulling movement is oriented in the opposite direction to the direction of extension of the hook heads 13 on the hook devices 8.
  • the position of the perforated grid plate 2c relative to the tool holder base insert 3 defines a fixing hole grid, the fixing hole grid being arranged offset in relation to the tool holder base insert 3 in the mounting direction M to the positioning hole grid.
  • the hook devices 8 of the upper row are designed as wide hook devices 8, which are also supported in the transverse direction Q on the plate edge sections of the receiving holes 4.
  • the hook devices 8 in the lower row are designed as narrow hook devices 8, which are positively supported on the plate edge regions only on one side of the transverse direction Q.
  • one of the securing devices 14 is arranged in the same receiving hole 4 on the opposite side. Because both a securing device 14 and a hook device 8 are arranged in a common receiving hole 4, tilting and similar disturbances that could occur if these components are arranged in different receiving holes 4 are minimized.
  • the tool holder base insert 3 has a plurality of tubular support sections 15, which in the exemplary embodiment shown in FIG Figure 1 are closed at the front. However, these can be opened by a separate machining operation, for example a hole, and thereby form plug-in interfaces for inserting a round material, which can be designed as a tool holder device.
  • the tool holder base insert 3 has edges running in the longitudinal direction L on the transverse leg of the T-shaped base body section 5 Rail sections 16 a, b onto which an attachment body, such as one of the tool holding devices 18 described below, can be pushed, so that they form a common sliding interface.
  • Tool holder base insert 3 shown is square or almost square and shows a 2x2 matrix of hook devices 8. This can be referred to as a basic tool holder base insert.
  • a tool holder base insert 3 is shown as a supplementary tool holder base insert in the front view and in the rear view, this only having two hook devices 8 which are arranged one above the other in a 2x1 matrix.
  • the tool holder base insert 3 has exactly one securing device 14, which, however, can be inserted together with the lower hook device 8 into a common receiving hole 4.
  • the tool holder base insert 3 designed as a supplementary tool holder base insert also has a T-shaped base body section 5 and a U-shaped securing section 6, so that reference is made to the function in the description above.
  • FIG. 9b Various tool holder inserts 3 are shown when using the rail sections 16 a, b to slide on tool holder devices 18.
  • the tool holder device 18 is designed as a sliding cap that can be pushed onto the rail interface of the tool holder base insert 3, which is designed as rail sections 16 a, b, from above in the loading direction B and engages around the tool holder base insert 3 in a form-fitting manner.
  • the tool holder device 18 can have different holding members, hook elements being shown in examples XVI and XVII.
  • Examples XVIII-XXI show sorting boxes for tool inserts or for other small parts as tool holder device 18. While the tool holder device 18 designed as sliding caps in the examples XVI-XIX are only pushed onto a single tool holder base insert 3, the tool holder device 18 of the example XX and XXI is pushed onto two tool holder inserts 3, which are also arranged offset to one another.
  • the Figures 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 holder 22 into which a slide section 23 ( Figure 3 ) can be inserted in the mounting direction.
  • the slider section 23 is designed as a free end or as a free end section of the tool holder base insert 3.
  • the tool holder device 18, more precisely the slide receptacle 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, whereas the rail wing sections 24a, b each have a counter sliding surface 26a, b.
  • the sliding surfaces 25a, b face the perforated grid plate 2, while the mating sliding surfaces 26a, b face away from the perforated grid plate 2.
  • 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 between the perforated plate 2 and the rail sections 16a, b and the sliding surfaces 25a, b.
  • the tool holder base insert 3 also has a guide surface 27 which is formed by the front of the tool holder base insert 3.
  • the tool holder device 18 comprises a counter guide surface 28, which is arranged in the slide holder 22 and faces the tool holder base insert 3 such that when the tool holder device 18 is mounted on the tool holder base insert 3, the counter guide surface 28 can slide along the guide surface 27.
  • the counter-guide surface 28 can be continuous, or - as in the Figures 10a, b shown - can only be realized as ribs running in the mounting direction M.
  • the slide receptacle 22 forms a hood, the end of the hood being formed by a support area 29 to which the free end of the tool holder base insert 3, in particular the slide section 23, is provided with a support area 30 ( Figure 3 ) fits positively.
  • the support area 30 forms an end stop for the support area 29 in the mounting direction M and / or in the loading direction B.
  • a guide wing 31 extends in the transverse direction Q, which in a connected state engages behind the free end of the tool holder base insert 3.
  • the guide wing 31 is integrally formed on the tool holder device 18.
  • the tool holder device 18 has two latching devices 32a, b, which are designed as latching hooks and which engage in latching receptacles 33a, b of the tool holder base insert 3.
  • the latching devices 32a, b each form a latching interface with the latching receptacles 33a, b, which releasably secures the tool holder device 18 with the tool holder base insert 3 against the mounting direction.
  • the Figures 11a, b, c show three states during the pushing on of the tool holder device 18 on the tool holder base insert 3 along or in the same direction as the mounting direction M.
  • the pushing on also defines a mounting plane ME which is in the same direction or parallel to the mounting direction M.
  • the assembly level ME is aligned or aligned parallel to the front of the perforated plate 2
  • the tool holder base insert 3 is positively caught between the mating guide surface 28 and the mating sliding surfaces 26a, b and thereby centered in the sliding movement.
  • the play in the direction perpendicular to the assembly plane is large, so that the tool holder device 18 can be placed on the tool holder base insert 3 in a simple manner.
  • the latching devices 32a, b are latched into the latching receptacles 33a, b and the connection state is reached.
  • the counter-guide surface 28 and the counter-sliding surfaces 26a, b hold the tool holder base insert 3 via the guide surface 27 and the sliding surfaces 25a, b without play, almost without play or even with a certain preload.
  • the tool holder device 18 is positively secured in a direction perpendicular to the surface extension of the perforated grid plate 2 and / or the mounting plane.
  • the sliding surfaces 25a, b, counter sliding surfaces 26a, b, guide surface 27 and counter guide surface 28 can be dimensioned such that the Figures 11a-c shown transition, the play in the direction perpendicular to the assembly plane and / or the centering becomes ever narrower, so that there is a narrowing from a rough recording to a prestressed state.
  • the tool holder device 18 is designed as a pliers holder device in a three-dimensional representation obliquely from the front in a detailed view.
  • the tool holder device 18, which is designed as a pliers holder device, has two receptacles 34a, b, the receiving direction of which is oriented vertically and forms a receiving channel for a first leg of a pliers. Two pliers can thus be inserted in parallel in the tool holder device 18 shown.
  • two cheek sections 35a, b are arranged on the edge of the tool holder device 18, which extend approximately perpendicularly to the perforated gap 2 and / or to the mounting plane in the surface extension and form a lateral boundary for the respective second leg of the pliers. Together with the limitations of the receptacles 34 a, b, the cheek sections 35 a, b form a U-shaped area for the second legs of the pliers. In the inserted state of the pliers, the first leg of the pliers is thus caught by the receptacle 34a, b and the second leg of the pliers is guided laterally by the cheek sections 35a, b, so that the pliers cannot swing or swing uncontrollably. In particular, this ensures that the installation space for receiving the pliers is limited to the extent in the transverse direction Q of the tool holder device 18.
  • the tool holding inserts 3 in the form of a basic tool holder base insert or supplementary tool holder base insert for the tool holding devices 18 in FIGS Figures 9a and 9b are each constructed identically. In particular, they can each be manufactured in one tool and thereby form a highly functional module mounting plate for the tool holding arrangement 1.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Automatic Tool Replacement In Machine Tools (AREA)
  • Workshop Equipment, Work Benches, Supports, Or Storage Means (AREA)

Claims (15)

  1. Ensemble porte-outil (1) pour une plaque à matrice de trous (2), comprenant
    au moins un insert de base de porte-outil (3), l'insert de base de porte-outil (3) présentant une interface de plaque (8, 14) pour fixer l'insert de base de porte-outil (3) sur la plaque à matrice de trous (2),
    un dispositif porte-outil (18) pour maintenir au moins un outil ou un accessoire d'outil,
    dans lequel le dispositif porte-outil (18) présente un logement de coulisseau (22) et l'insert de base de porte-outil (3) présente une partie de coulisseau (23),
    dans lequel le dispositif porte-outil (18) peut être enfoncé sur l'au moins un insert de base de porte-outil (3) par l'intermédiaire d'un mouvement de coulissement dans une direction de montage (M), laquelle est orientée dans le même sens qu'un plan de montage (ME), afin d'amener le dispositif porte-outil (18) et l'insert de base de porte-outil (3) dans un état de liaison,
    dans lequel la partie de coulisseau (23) présente au moins une partie de rail (16a,b) et le logement de coulisseau (22) présente au moins une partie d'aile de rail (24a,b), l'au moins une partie d'aile de rail (24a,b) étant guidée par l'au moins une partie de rail (16a,b) lors du mouvement de coulissement,
    dans lequel, dans l'état de liaison, l'au moins une partie de rail (16a,b) bloque par complémentarité de forme l'au moins une partie d'aile de rail (24a,b) dans une direction perpendiculaire au plan de montage (ME),
    caractérisé en ce que,
    dans l'état de liaison, la partie d'aile de rail (24a,b) est disposée entre la plaque à matrice de trous (2) et l'insert de base de porte-outil (3).
  2. Ensemble porte-outil (1) selon la revendication 1, caractérisé en ce qu'une surface de glissement (25 a, b) est disposée sur la partie de rail (16 a, b) et une contre-surface de glissement (26 a, b) est disposée sur la partie d'aile de rail, étant disposées dans le même sens que le plan de montage (ME) ou parallèlement à celui-ci de telle sorte que le dispositif porte-outil (18) est enfoncé de manière glissante sur l'insert de base de porte-outil (3) dans la direction de montage (M) et peut être bloqué en même temps par complémentarité de forme.
  3. Ensemble porte-outil (1) selon la revendication 1 ou 2, caractérisé en ce que la partie de coulisseau (23) présente une zone d'appui (30) et le logement de coulisseau (22) présente une zone de support (29) destinée au support par complémentarité de forme sur la zone d'appui (30) dans la direction de montage (M).
  4. Ensemble porte-outil (1) selon l'une quelconque des revendications précédentes,
    caractérisé en ce que le dispositif porte-outil (18) présente un moyen d'encliquetage (32 a, b) et l'insert de base de porte-outil (3) présente un logement d'encliquetage (33 a, b) pour un encliquetage mutuel empêchant toute ouverture.
  5. Ensemble porte-outil (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que le dispositif porte-outil (18) présente une aile de guidage (31) qui s'étend dans une direction transversale (Q) à la direction de montage (M) et est en même temps orientée dans le même sens que le plan de montage (ME) et guide l'extrémité libre de l'insert de base de porte-outil (3) par rapport au dispositif porte-outil (18).
  6. Ensemble porte-outil (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que l'insert de base de porte-outil (3) présente une surface de guidage (27) et le dispositif porte-outil (18) présente une contre-surface de guidage (28), l'insert de base de porte-outil étant guidé des deux côtés par un glissement entre l'au moins une partie d'aile de rail (24 a, b) et la contre-surface de guidage par rapport au dispositif porte-outil (18).
  7. Ensemble porte-outil (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que l'insert de base de porte-outil (3) est réalisé sous la forme d'une partie de plaque et présente une partie de rail (16 a, b) sur chacun des deux côtés, dans lequel les parties de rail (16 a, b) sont distantes l'une de l'autre d'au moins 2 cm, de préférence d'au moins 4 cm, et/ou en ce que le dispositif porte-outil (18) comprend une partie de coiffe et présente respectivement une partie d'aile de rail (24a,b) sur deux côtés, dans lequel les parties d'aile de rail (24 a, b) sont distantes l'une de l'autre d'au moins 2 cm, de préférence d'au moins 4 cm.
  8. Ensemble porte-outil (1) selon la revendication 7, caractérisé en ce que la zone d'appui (30) et/ou l'au moins un moyen d'encliquetage (32 a, b) et/ou l'aile de guidage (31) sont disposées entre les parties d'aile de rail (24 a, b).
  9. Ensemble porte-outil (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que, dans l'état de liaison, le dispositif porte-outil (18) est relié à précisément un insert de base de porte-outil (3).
  10. Ensemble porte-outil (1) selon l'une quelconque des revendications précédentes 1 à 8, caractérisé en ce que, dans l'état de liaison, le dispositif porte-outil (18) est relié à deux inserts de base de porte-outil (3).
  11. Ensemble porte-outil (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que le dispositif porte-outil (18) et l'insert de base de porte-outil (3) sont réalisés respectivement sous la forme d'une pièce en matière plastique, dans lequel pour le dispositif porte-outil (18) une direction de démoulage pour le démoulage de la pièce en matière plastique d'un outil est orientée dans le même sens que la direction de montage (M) et, pour l'insert de base de porte-outil (3), est orientée perpendiculairement au plan de montage (ME).
  12. Ensemble porte-outil (1) selon l'une quelconque des revendications précédentes, caractérisé par une pluralité de dispositifs porte-outil (18) de constructions différentes et avec des fonctions porte-outils différentes ainsi qu'une pluralité d'inserts de base de porte-outil (3) qui peuvent être amenés dans l'état de liaison.
  13. Ensemble porte-outil (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que le dispositif porte-outil (18) est réalisé sous la forme d'un moyen porte-pinces, dans lequel le moyen porte-pinces présente un ou plusieurs logements (34 a, b) pour une première branche de pince d'une pince ainsi que des parties de joues (35 a, b) pour le guidage d'une seconde branche de pince de la même pince.
  14. Ensemble porte-outil (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que l'insert de base de porte-outil (3) présente une surface de support (11) destinée au support sur la plaque à matrice de trous (2 ; 2c) dans un état monté de l'insert de base de porte-outil (3), au moins un moyen de crochet (8), dans lequel le moyen de crochet (8) fait saillie au-dessus de la surface de support (11) dans une direction d'insertion (E) de telle sorte que le moyen de crochet (8) dans l'état monté de l'insert de base de porte-outil (3) peut s'accrocher à l'un des trous de logement (4), dans lequel le moyen de crochet (8) présente une branche de crochet (12) et une tête de crochet (13) qui forment ensemble une zone de logement de plaque (9) destinée à loger une zone de bordure de plaque du corps de plaque qui se trouve en regard du trou de logement (4) de telle sorte que, dans l'état monté de l'insert de base de porte-outil (3), la zone de bordure de plaque est disposée dans la zone de logement de plaque (9), la branche de crochet (12) fournissant une surface d'appui (10) pour la zone de bordure de plaque dans une direction de sollicitation (B) pour l'insert de base de porte-outil (3) et la tête de crochet (13) débordant sur la zone de bordure de plaque dans la direction de sollicitation (B), et présente au moins un moyen de blocage (14), dans lequel, dans l'état monté de l'insert de base de porte-outil (3), le moyen de blocage (14) est disposé dans l'un des trous de logement (4) et bloque l'insert de base de porte-outil (3) par complémentarité de forme contre tout déplacement contre la direction de sollicitation (B), dans lequel l'insert de base de porte-outil (3) présente une partie de corps de base (5) et une partie de blocage (6), dans lequel la partie de corps de base (6) définit la surface de support (11) et porte le moyen de crochet (8) et dans lequel la partie de blocage (6) porte le moyen de blocage (14), la partie de corps de base (5) et la partie de blocage (6) étant disposées mobiles l'une par rapport à l'autre de telle sorte que le moyen de blocage (14) peut être dévié élastiquement par rapport au moyen de crochet (8) contre la direction d'insertion (E).
  15. Utilisation d'un dispositif porte-outil (18) dans un ensemble porte-outil (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que celui-ci est réalisé sous la forme d'un des dispositifs porte-outil (18) de l'ensemble porte-outil (1), dans lequel l'au moins une partie de rail (16a,b) guide l'au moins une partie d'aile de rail (24a,b) lors du mouvement de coulissement.
EP15725526.6A 2014-05-13 2015-05-12 Ensemble porte-outil pour plaque à matrice de trous Active EP3142831B1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PL15725526T PL3142831T3 (pl) 2014-05-13 2015-05-12 Układ uchwytu narzędziowego dla perforowanej płyty

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102014106730.4A DE102014106730B4 (de) 2014-05-13 2014-05-13 Werkzeughalteranordnung für eine Lochrasterplatte
PCT/EP2015/060431 WO2015173217A1 (fr) 2014-05-13 2015-05-12 Ensemble porte-outil pour plaque à matrice de trous

Publications (2)

Publication Number Publication Date
EP3142831A1 EP3142831A1 (fr) 2017-03-22
EP3142831B1 true EP3142831B1 (fr) 2020-04-08

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Application Number Title Priority Date Filing Date
EP15725526.6A Active EP3142831B1 (fr) 2014-05-13 2015-05-12 Ensemble porte-outil pour plaque à matrice de trous

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Country Link
EP (1) EP3142831B1 (fr)
DE (2) DE202014011041U1 (fr)
PL (1) PL3142831T3 (fr)
WO (1) WO2015173217A1 (fr)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP3991921A1 (fr) * 2020-09-16 2022-05-04 Böhler GmbH Agencement de retenue pour une structure de montage, ainsi que système de rangement doté de l'agencement de retenue

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Publication number Publication date
EP3142831A1 (fr) 2017-03-22
DE102014106730A1 (de) 2015-11-19
DE102014106730B4 (de) 2024-06-13
DE202014011041U1 (de) 2017-07-05
WO2015173217A1 (fr) 2015-11-19
PL3142831T3 (pl) 2020-11-02

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