US20200061691A1 - Production plant having a protective unit - Google Patents
Production plant having a protective unit Download PDFInfo
- Publication number
- US20200061691A1 US20200061691A1 US16/487,624 US201816487624A US2020061691A1 US 20200061691 A1 US20200061691 A1 US 20200061691A1 US 201816487624 A US201816487624 A US 201816487624A US 2020061691 A1 US2020061691 A1 US 2020061691A1
- Authority
- US
- United States
- Prior art keywords
- bending
- protective element
- protective
- tool
- press beam
- 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.)
- Abandoned
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D26/00—Shaping without cutting otherwise than using rigid devices or tools or yieldable or resilient pads, i.e. applying fluid pressure or magnetic forces
- B21D26/02—Shaping without cutting otherwise than using rigid devices or tools or yieldable or resilient pads, i.e. applying fluid pressure or magnetic forces by applying fluid pressure
- B21D26/021—Deforming sheet bodies
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D55/00—Safety devices protecting the machine or the operator, specially adapted for apparatus or machines dealt with in this subclass
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D5/00—Bending sheet metal along straight lines, e.g. to form simple curves
- B21D5/02—Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D5/00—Bending sheet metal along straight lines, e.g. to form simple curves
- B21D5/02—Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
- B21D5/0209—Tools therefor
- B21D5/0254—Tool exchanging
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16P—SAFETY DEVICES IN GENERAL; SAFETY DEVICES FOR PRESSES
- F16P3/00—Safety devices acting in conjunction with the control or operation of a machine; Control arrangements requiring the simultaneous use of two or more parts of the body
- F16P3/001—Safety devices for guarding the human operator of punch presses or like machine tools performing an opening and closing travel
- F16P3/005—Safety devices for guarding the human operator of punch presses or like machine tools performing an opening and closing travel having a movable screen or a sensor influencing the switching system
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16P—SAFETY DEVICES IN GENERAL; SAFETY DEVICES FOR PRESSES
- F16P3/00—Safety devices acting in conjunction with the control or operation of a machine; Control arrangements requiring the simultaneous use of two or more parts of the body
- F16P3/001—Safety devices for guarding the human operator of punch presses or like machine tools performing an opening and closing travel
- F16P3/006—Safety devices for guarding the human operator of punch presses or like machine tools performing an opening and closing travel having a screen moving with the machine and moving the operator out of danger, or restraining the operator, without influencing the switching system
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16P—SAFETY DEVICES IN GENERAL; SAFETY DEVICES FOR PRESSES
- F16P3/00—Safety devices acting in conjunction with the control or operation of a machine; Control arrangements requiring the simultaneous use of two or more parts of the body
- F16P3/02—Screens or other safety members moving in synchronism with members which move to and fro
- F16P3/04—Screens or other safety members moving in synchronism with members which move to and fro for machines with parts which approach one another during operation, e.g. for stamping presses
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D37/00—Tools as parts of machines covered by this subclass
- B21D37/14—Particular arrangements for handling and holding in place complete dies
- B21D37/145—Die storage magazines
Definitions
- the invention relates to a production installation, in particular for air bending of workpieces to be manufactured from sheet metal, with a protective unit comprising at least one protective element, which serves in particular for covering of its bending tool during tool change as needed.
- U.S. Pat. No. 3,186,256 A describes a bending machine for manufacturing workpieces or parts between at least one bending tool adjustable relative to one another.
- the bending tool comprises a bending punch and a bending die, which are each held on a press beam.
- one of the press beams is guided adjustably in the vertical direction on a machine frame.
- a plate-shaped protective element is arranged upstream of the bending tool.
- a support rod is provided, which is mounted on side walls of the machine frame located laterally of the press beams.
- the support rod is arranged above the protective element and carries several actuator elements, which are connected thereto for vertical displacement of the protective element.
- the adjusting stroke of the actuator elements between the protective position and the release position is limited by the relatively short adjusting track of the actuator elements formed as electro magnets.
- the vertical adjustment of the protective element serves for not forming an interference contour for the portion of the workpieces to be manufactured which is pivoted upwards during the bending operation. Furthermore, with this, it is not possible to create sufficient free space in front of the bending tool in all cases of operation.
- the bending tool comprises a bending punch and a bending die, which are each held on a press beam.
- the plate-shaped protective element is held on the upper adjustable press beam by at least two hinge arrangements arranged at a distance from one another on a flat profile with an elongated hole arranged therein.
- the flat profiles can be adjusted relative to the upper press beam in the vertical direction by provision of the elongated holes respectively arranged therein.
- the protective element can be pivoted forward towards the operating side or folded up by means of the hinge arrangement.
- a small vertical adjustment stroke could be achieved.
- no sufficient free space without the formation of an interfering contour could be created.
- U.S. Pat. No. 4,030,364 A A further design of a protective element for a bending machine is described in U.S. Pat. No. 4,030,364 A.
- the upper press beam is adjustable in the vertical direction relative to the fixed machine frame.
- the plate-shaped protective element is held on a carrier element of the machine frame arranged fixedly above the upper press beam in its lowermost position by means of retaining cables. In this lowermost position of the protective element, there is a feed gap for the sheet metal to be bent formed small as regards its height.
- the protective element can be elevated during the downward movement of the upper press beam in the course of the bending operation.
- One end of the cable of the pulley is fixedly connected to the protective element and the other end is fixedly connected to the press beam.
- a double deflection of the cable of the pulley is carried out on the carrier element, wherein further, a deflection provided for between these two is carried out on the backside of the upper press beam.
- the protective element is elevated relative to the lower press beam, whereby the previously small feed gap increases in height.
- the disadvantage of this is that an adjusting movement of the protective element is only possible when the upper press beam is adjusted and the adjusting movement of the protective element depends on the adjusting stroke of the upper press beam.
- the pulley arranged is complex and not always reliable in operation.
- JPH 11-300421 describes a further design of a protective device with a plate-shaped protective element for a bending machine.
- a pulley for adjusting the height of the protective element is provided respectively.
- each of the pulleys extends in the vertical direction to a first deflection roller, from the latter to a second deflection roller located in the region of the backside of the side walls and from the latter to an actuator element formed by a cylinder piston arrangement.
- the possible adjustment track of the protective element is determined by the adjusting stroke of the actuator elements.
- the disadvantage of this is the unstable arrangement of the protective element in all of its positions.
- Another protective device adjustable in the vertical direction on an installation has become known from JPH 06-34736 U.
- a driven roller In the region of both longitudinal ends of the protective device, above each of these a driven roller is arranged.
- a pull rope is wound around each of the rollers, wherein a first end of the pull rope is connected to the protective device and a second end is connected to a counterweight, respectively.
- the protective device can be easily adjusted in the vertical direction from its protective position into the release position.
- several installation components are to be provided for the adjusting mechanism, an unstable arrangement of the protective element due to the pulley and further, the possibility of creating interfering contours being given.
- the production installation according to the invention can in particular serve for air bending or bottom bending of a workpiece to be manufactured from sheet metal, and comprise the following installation components:
- the advantage achieved by this consists in that depending on the selection of the adjusting device, a sufficiently long adjustment track for the at least one protective element between its protective position and its release position is provided. Hence, a secure covering in the front region between the opened press beams with the bending tool arranged thereon can be achieved for the protective position.
- the at least one protective element is adjusted into its release position, it is adjusted to be so far from the bending tool held on the press beam, owing to the adjustment track selected to be sufficiently long, that no interfering contour for the performance of bending operations is formed by the protective element.
- brackets as the bearing basis and the holding arms or lever arms held thereon in an articulated manner, when the protective element is pivoted up from the protective position into the release position an adjustment track defined by the longitudinal extension of the holding arms can be provided for, with which the at least one protective element can be moved out of the working area. Moreover, hence, an arrangement of the at least one protective element preferably suspended in all operating positions on the respective holding arms can be achieved.
- a space-saving adjusting device which allows for a straight adjusting movement, in particular by means of a telescopic guide, can hence be created.
- the protective unit in particular its brackets or its first guide rails, is held on the upper press beam. Due to the fact that the entire protective unit is held on the upper press beam such that it moves therewith, the entire protective unit is always moved with it and the relative distance between the upper press beam and the protective unit, in particular the protective element, in the release position is kept equal. If hence, the relative position has once been determined in the release position, no interfering contour located closer is created in subsequent bending operations.
- the width of the at least one protective element between its two longitudinal edges corresponds to an opening width between the tool holders of the completely open bending tool.
- secure covering of the hazard area during the tool change can be achieved.
- the headroom and/or width of the protective element can also be kept as low as possible.
- Another embodiment is characterized in that the at least two holding arms are pivotable between the protective position and the release position of the at least one protective element, each by a pivot angle with a value selected from an angle range with a lower limit of 150° and an upper limit of 200°, in particular 180°.
- a further possible embodiment has the characteristics of a longitudinal extension of the holding arms each approximately corresponding to the width of the at least one protective element between its two longitudinal edges. Hence, also in case of minimum widths of the protective element, a sufficient adjustment track can be achieved and a compact constructional unit can, nevertheless, be created.
- the holding arms each starting out from the brackets project towards the side facing away from the lower press beam and the at least one protective element is arranged so as to be suspended on the side of the holding arms facing away from the upper press beam as well as in the direction towards the lower press beam.
- both the holding arms starting out from the brackets and the at least one protective element connected to the holding arms in an articulated manner comprise a suspended arrangement in the direction towards the lower press beam.
- a further preferred embodiment is characterized in that the brackets are arranged on the upper press beam such that in the protective position and with the bending tool being completely open, the second longitudinal edge of the at least one protective element faces the lower press beam and the at least one protective element with its second longitudinal edge extends at least to the lower tool holder.
- the at least two brackets are arranged in an upper end section of the upper press beam.
- Upper end section or end region of the press beam is understood such that the brackets are arranged in the region which is distanced farther from the lower press beam.
- Another alternative embodiment variant is characterized in that at least one actuator and/or damping device is provided, said at least one actuator and/or damping device being operatively connected to one of the holding arms. Hence, by providing at least one actuator and/or damping device, a controlled pivoting movement of the holding arm(s) can be achieved.
- a maximum adjustment track of the at least two linear guide arrangements is selected such that in the protective position and with the bending tool being completely open, the second longitudinal edge of the at least one protective element faces the lower press beam and the at least one protective element with its second longitudinal edge extends at least to the lower tool holder.
- a further possible and optionally alternative embodiment has the characteristics that the at least two linear guide arrangements are held on the upper press beam in vertical orientation. Hence, a precise straight adjusting movement between the protective position and the release position can be achieved. By means of constant movement of the entire protective unit with the upper press beam, the relative distance in the release position between the upper press beam and the protective unit, in particular the protective element, can always be kept equal. If hence, the relative position has once been determined in the release position, no interfering contour located closer is created in subsequent bending operations.
- Another embodiment is characterized in that at least one drive element is provided on at least one of the linear guide arrangements.
- a further preferred embodiment is characterized in that one of the drive elements is provided between the first guide rail and the second guide rail. Hence, a precisely predetermined adjusting movement between the first two guide rails can be achieved.
- one of the drive elements is provided between the second guide rail and the at least one further guide rail. Hence, a consistent adjusting movement between the individual guide rails can be ensured.
- another embodiment is characterized in that at least one actuator and/or damping device is provided, said at least one actuator and/or damping device being operatively connected to the at least one protective element.
- at least one actuator and/or damping device By providing at least one actuator and/or damping device, a controlled pivoting movement of the holding arm(s) can be achieved. Moreover, hence, a facilitation of the return movement from the protective position into the release position in case of manual adjustment by the operator can be achieved.
- the actuator device a counterbalance adjustment and a corresponding weight compensation can also be achieved.
- the damping device the downward movement of the holding arm(s) from the upwardly projection position into the downwardly projecting position can be decelerated. Hence, a controlled downward movement of the holding arms along with the protective element held thereon can be achieved.
- FIG. 1 a front view of a production installation with a bending press and schematically adumbrated protective unit
- FIG. 2 a side view of the production installation according to FIG. 1 ;
- FIG. 3 a front view and schematic representation of a first possible design of the protective unit in its protective position with adumbrated bending press
- FIG. 4 a side view of the protective unit according to FIG. 3 in its protective position
- FIG. 5 a side view of the protective unit according to FIG. 3 , however, in its release position;
- FIG. 6 a front view and schematic representation of a further possible design of the protective unit in its protective position with adumbrated bending press
- FIG. 7 the protective unit according to FIG. 6 in a top view onto the adjusting device.
- equal parts are provided with equal reference numbers and/or equal component designations, where the disclosures contained in the entire description may be analogously transferred to equal parts with equal reference numbers and/or equal component designations.
- specifications of location such as at the top, at the bottom, at the side, chosen in the description refer to the directly described and depicted figure and in case of a change of position, these specifications of location are to be analogously transferred to the new position.
- FIGS. 1 and 2 show a very simplified schematic representation of a production installation 1 , which is in particular designed for air bending of workpieces 2 to be manufactured from sheet metal by means of die bending in the present case.
- the production installation 1 used for bending in the present case comprises a bending machine, in the present exemplary embodiment a bending press 3 , in particular a press brake oder die bending press, for manufacturing the workpieces 2 or parts between at least one bending tool 4 adjustable relative to one another.
- the bending tool 4 comprises at least one bending punch 5 , however, most commonly several bending punches 5 , and at least one bending die 6 , however, most commonly several bending dies 6 cooperating therewith.
- the at least one bending punch 5 is arranged above the workpiece 2 to be manufactured on the bending press 3 and is held, in particular clamped, there correspondingly.
- the at least one bending die 6 is also held, in particular held clamped, on the bending press 3 .
- the “x” direction is generally referred to as the direction extending in perpendicular orientation in a horizontal plane with respect to the longitudinal extension of the bending tool 4 , in particular its bending punch 5 and bending die 6 .
- the “y” direction is understood as the vertical direction which thus extends in the height direction of the bending tool 4 , and further in perpendicular direction with respect to the horizontal plane.
- the “z” direction is understood as the direction which extends in the longitudinal direction and/or the longitudinal extension of the bending tool 4 , in particular its bending punch 5 and bending die 6 .
- the longitudinal extension of the bending edge defined by the bending tool 4 is also oriented extending in the “z” direction.
- a machine frame 7 of the bending press 3 for example comprises a base plate 8 on which side walls 9 , 10 are arranged, which rise vertically, are transversely spaced from one another and are oriented in parallel to one another. These are preferably connected to one another by a massive cross connection 11 for example formed from a sheet metal preform on their end regions distanced from the base plate 8 .
- the side walls 9 , 10 can be formed approximately in a C-shape for the formation of a free space for forming the workpiece 2 , wherein a fixed first press beam 13 or lower press beam 13 , particularly standing on the base plate 8 , is mounted to front end faces 12 of near-base limbs of the side walls 9 , 10 .
- This stationarily arranged and fixed press beam 13 may also be referred to as press table, which parts of the bending tool 4 are arranged on and also held on.
- a further press beam 16 in particular a pressure beam, adjustable relative to the press beam 13 forming the table beam, is mounted in a guided manner in linear guides 15 .
- the press beam 16 can also be referred to as second press beam or upper press beam or as pressure beam.
- tool mounts 19 , 20 for equipping with the bending tool(s) 4 may be arranged on end faces 17 , 18 opposing one another and extending in parallel to one another of the two press beams 13 , 16 .
- the bending tool(s) 4 can also be held on the tool holders 19 , 20 with interposition of an adapter which is not represented in more detail herein; while this is rather considered not favorable for a change operation of individual components or the entire bending tool 4 , it can still represent a possibility.
- the shown bending press 3 for example comprises two driving means 22 operated with electric energy, which are line-connected with a controller 24 supplied from an energy grid 23 , as driving arrangement 21 for the adjustable press beam 16 , namely the pressure beam.
- the operation of the bending press 3 in particular also the change operation of the bending tool 4 , can be controlled via an input terminal 25 with a communication connection to the controller 24 .
- the driving means 22 can for example be electromotive spindle drives 26 , as are generally known, by means of which adjusting means 27 for a reversible adjusting movement of the upper press beam 16 formed by the pressure beam are for example drive-connected to it.
- the driving means 22 is/are formed by adjusting means that can be hydraulically and/or pneumatically actuated.
- cylinder-piston arrangements may be applied.
- other driving means such as eccentric drives, toggle lever drives, rack and pinion drives etc., are also conceivable. Further details required for the operation of such a bending press 3 , such as feed devices and/or control devices, are not addressed in the present description so as to avoid an unnecessary length of the description.
- a support table 28 can be provided or arranged in the front region—i.e. the feed region—of the bending press.
- the support table 28 is merely shown partially and forms a support plane for the sheet metal to be bent.
- the production installation 1 can also comprise a manipulator not represented in further detail here, said manipulator removing at least one piece from a storage stack of sheet metal to be formed and/or folded and transports it into the working area and/or the operating side of the bending press 3 .
- the manipulator can itself comprise gripping pliers, which in turn comprises gripping fingers.
- the gripping fingers each comprise clamping surfaces on the side facing the workpiece 2 to be manufactured.
- a protective unit 29 can be arranged or provided in the region of the operating side or the feed side of the bending press 3 and thus as required in front of the bending tool(s) 4 .
- the protective unit 29 serves the purpose of covering the opening width between the tool holders 19 , 20 with the bending tool 4 being completely closed in the region of the operating side or the feed side so far that during the tool change, the operator is prevented from an unintended access to the tool holders and the bending tool 4 located there.
- the upper press beam 16 is adjustable relative to the lower press beam 13 for performing the bending operation. For tool change, the upper press beam 16 is arranged distanced farther from the lower press beam 13 , as is well-known.
- the tool change is carried out on the back side of the press beams 13 , 16 by means of a tool manipulation unit 30 adumbrated in a simplified manner
- the tool manipulation unit 30 serves for transporting the bending tool 4 between the tool holders 19 , 20 and a tool storage 31 or for changing the position of the bending tool 4 relative to its position on the tool holders 19 , 20 .
- the protective unit 29 comprises at least one plate-shaped protective element 32 .
- Said element is usually formed from a translucent or transparent material, in particular a plastic material.
- the protective element 32 is arranged immediately upstream of the second or upper press beam 16 in both FIGS. 1 and 2 , wherein it is in a so-called release position represented in dotted lines in both figures. Moreover, the protective element 32 is also represented in a so-called protective position in full lines in FIG. 1 .
- a detailed representation of the mount, the bearing and a possible adjusting mechanism thereof on the bending press 3 , in particular on the second or upper press beam 16 is refrained from, while a possible embodiment in this regard is represented and elucidated in further detail below in FIGS. 3 to 5 as well as 6 and 7 .
- the release position is understood such that the protective element 32 allows for free access to the bending tool 4 held on the press beams 13 , 16 .
- the protective position is given when the at least one protective element 32 , in case of bending punch 5 and bending die 6 being arranged distanced from one another at least sectionally or entirely, covers or secures an access starting out from the operating side or feed side so far that an operator cannot reach between the open press beams 13 , 16 arranged at a distance from one another during a tool change of the bending tool 4 .
- the tool change can preferably be carried out automatically, with this usually being carried out in the region of the machine frame 7 located behind the operating side.
- the performance of the tool change can for example be carried out by means of the tool manipulation unit 30 , in particular by means of a separate manipulator and/or a back gauge unit, as is well-known.
- An interfering contour can be formed by an installation component or a machine component, which projects into the working space required for performing the bending operation and thus prevents or limits it.
- the adjustment or displacement of the at least one protective element 32 can be carried out by means of an adjusting device 33 not represented in further detail in FIGS. 1 and 2 .
- the at least one protective element 32 can be displaced relative to the bending press 3 from a protective position, which at least sectionally, preferably completely, covers the bending tool 4 into a release position which at least sectionally, preferably completely, releases the bending tool 4 .
- the displacement can be carried out manually; however, also by means of a separate driving means.
- the plate-shaped protective element 32 comprises a first longitudinal edge 34 as well as a second longitudinal edge 35 arranged so as to extend in the direction of its longitudinal extension.
- the two longitudinal edges 34 , 35 define a width 36 of the protective element 32 .
- the width 36 can also be referred to as transverse distance, which is determined in perpendicular direction with respect to the longitudinal edges 34 , 35 most commonly extending in parallel to one another.
- the longitudinal extension of the protective element 32 is preferably selected such that it approximately corresponds to a longitudinal extension of the press beams 13 , 16 or the tool holders 19 , 20 arranged thereon.
- the protective unit 29 in particular the at least one protective element 32 as well as the adjusting device 33 , is or are arranged in a feed region in front of the bending press 3 .
- the arrangement is carried out frontally with respect to the bending press 3 .
- the protective unit 29 is held on the upper press beam 16 . Hence, when the upper press beam 16 is adjusted, the protective unit 29 is moved with it.
- FIGS. 3 to 5 show a first possible and possibly independent embodiment of the protective unit 29 , wherein equal reference numbers and/or component designations are used for equal parts as in FIGS. 1 and 2 above. In order to avoid unnecessary repetitions, it is pointed to/reference is made to the detailed description in FIGS. 1 and 2 preceding it.
- the two press beams 13 , 16 are merely adumbrated partially.
- the adjusting device 33 is merely represented in a simplified and stylized manner.
- the adjusting device 33 comprises at least two brackets 37 and preferably the same amount of holding arms 38 —in the present example also at least two holding arms 38 .
- the holding arm 38 can also be referred to as lever arm or pivoting arm.
- Each of the holding arms 38 comprises a first end region 39 and arranged at a distance thereof in its longitudinal extension a second end region 40 .
- Each of the brackets 37 is arranged for example on the machine frame 7 of the bending press 3 , however, in particular on the upper press beam 16 of the bending press 3 , in particular fixedly connected thereto, and arranged at a distance from one another in the direction of the longitudinal extension of the at least one protective element 32 .
- Each of the holding arms 38 is mounted on one of the brackets 37 in an articulated manner each with its first end region 39 , whereby a first bearing point is formed respectively. Moreover, each of the holding arms 38 is connected to the at least one protective element 32 on the first longitudinal edge 34 facing away from the first press beam 13 in an articulated manner with its second end region 40 , whereby a second bearing point is formed respectively.
- the holding arms 38 can be pivoted about the respective bracket 37 and on the other hand the at least one protective element 32 can be adjusted with these preferably in a steadily suspended arrangement.
- the previously described width 36 of the at least one protective element 32 between its two longitudinal edges 34 , 35 approximately corresponds to an opening width between the tool holders 19 , 20 with the bending tool 4 being completely open. In this way, when the upper press beam 16 is in the maximum raised position, secure covering of the space between the two tool holders 19 , 20 can be achieved at any time.
- the holding arms 38 along with the at least one protective element 32 can be displaced, in particular pivoted, from the protective position of the protective element 32 into the release position of the protective element 32 .
- the brackets 37 form first pivot axes 41 oriented in parallel with respect to the longitudinal extension of the upper press beam 16 and aligned with one another. Pivoting each holding arm 38 is carried out in a pivoting plane oriented perpendicularly with respect to the pivot axes 41 .
- the at least two holding arms 38 can be pivoted between the protective position and the release position of the at least one protective element 32 , each by a pivot angle with a value selected from an angle range with a lower limit of 150° and an upper limit of 200°, in particular 180°.
- the holding arms 38 are preferable held so as to be suspended and thus be perpendicular to the brackets 37 and project in the direction towards the lower press beam 13 .
- these project upwards towards the side facing away from the lower press beam 13 .
- the at least one protective element 32 is arranged on the side of the holding arms 38 facing away from the upper press beam 16 and so as to be suspended on the holding arms 38 in the direction towards the lower press beam 13 .
- both the holding arms 38 starting out from the brackets 37 and the at least one protective element 32 connected to the holding arms 38 in an articulated manner have a suspended arrangement in the direction towards the lower press beam 13 .
- Suspended is understood to refer to the position caused by gravity.
- a second bearing point with second pivot axes 42 is formed between each second end region 39 of the holding arms 38 and the first longitudinal edge 34 of the protective element 32 .
- a longitudinal extension of the holding arms 38 between the two end regions 39 , 40 , in particular the pivot axes 41 , 42 , formed there in each case approximately corresponds to the width 36 of the at least one protective element 32 between its two longitudinal edges 34 , 35 in each case.
- the longitudinal extension of the holding arms 38 could also be selected to be larger or smaller than the width 36 .
- the brackets 37 are arranged on the upper press beam 16 in such manner that in the protective position and with the bending tool 4 being completely open, the second longitudinal edge 35 of the at least one protective element 32 faces the lower press beam 13 .
- the at least one protective element 32 with its second longitudinal edge 35 preferably extends at least to the lower tool holder 19 . It proved to be beneficial if the at least two brackets 37 are arranged in an upper end section of the upper press beam 16 .
- a schematically adumbrated actuator and/or damping device 43 can also be provided.
- the at least one actuator and/or damping device 43 is preferably operatively connected to one of the holding arms 38 .
- a tension spring that is connected to a holding arm 38 and extends towards the upper press beam 16 , or the like could be provided.
- at least one of the holding arms 38 could be connected to a rotary drive for angular displacement.
- the actuator device can in particular serve the purpose of counterbalance adjustment for the actuation movements between the protective position and the release position and vice versa to be carried out. Hence, the actuation movements can be facilitated for the operator as regards force.
- FIGS. 6 and 7 show a further possible and possibly independent embodiment of the protective unit 29 for the bending machine and/or bending press 3 , wherein again equal reference numbers and/or component designations are used for equal parts as in FIGS. 1 through 5 above. In order to avoid unnecessary repetitions, it is pointed to/reference is made to the detailed description in FIGS. 1 to 5 above.
- an adjustment track between the protective position and the release position for the at least one protective element 32 as long as possible is to be achieved.
- linear guide arrangements 45 are provided for extending the adjustment track between the protective position and the release position of the protective element 32 .
- the linear guide arrangements 45 can also be referred to as telescopic guides or telescope guide arrangements.
- Each of the linear guide arrangements 45 comprises a first guide rail 46 , a second guide rail 47 and at least one further guide rail 48 .
- at least two of the linear guide arrangements 45 are to provided per protective element 32 .
- the at least two linear guide arrangements 45 are arranged at a distance from one another in the direction of the longitudinal extension of the at least one protective element 32 .
- telescopic cylinders which provide sufficient stroke, can also be used.
- the first guide rails 46 are stationarily arranged for example on the bending press 3 , in particular on its machine frame 7 , however, preferably on the respective upper press beam 16 , in particular mounted thereto.
- the at least two linear guide arrangements 45 are further held on the upper press beam 16 in vertical orientation.
- the at least one further guide rail 48 is in each case stationarily arranged on the at least one protective element 32 , in particular mounted thereto.
- the second guide rail 47 is in each case provided directly immediately successive to the first guide rail 46 .
- the guide rails are each guided on one another so as to allow for performing a defined adjustment track.
- a maximum adjustment track of the at least two linear guide arrangements 45 is to be selected such that in the protective position and with the bending tool 4 being completely open, the second longitudinal edge 35 of the at least one protective element 32 faces the lower press beam 13 and the at least one protective element 32 with its second longitudinal edge 35 extends at least to the lower tool holder 19 .
- At least one drive element 49 is provided on at least one of the linear guide arrangements 45 .
- at least one drive element 49 By providing at least one drive element 49 , a controlled adjusting movement between at least individual ones of the guide rails 46 and/or 47 and/or 48 can be achieved.
- one of the drive elements 49 could be provided between the first guide rail 46 and the second guide rail 47 . Further or additionally to this, one of the drive elements 49 could also be provided between the second guide rail 47 and the at least one further guide rail 48 .
- the drive element(s) 49 can for example serve for carrying out a compulsory guide of the adjusting movement between the individual guide rails.
- a belt drive or toothed racks with at least one intermediate pinion or cogwheel arranged in between and being drive-connected would be conceivable. If the intermediate pinion or cogwheel is driven by a driving means, a drive support or an independent adjustment can be achieved.
- an actuator and/or damping device 43 it would further be possible, as was also already described above, to provide an actuator and/or damping device 43 .
- a counterbalance adjustment can be achieved for example by means of a constant force spring or a cylinder piston arrangement charged with constant pressure.
- the at least one actuator and/or damping device 43 is operatively connected to the at least one protective element 32 for this purpose.
- the indication 1 to 10 is to be understood such that it comprises all partial ranges based on the lower limit 1 and the upper limit 10, i.e. all partial ranges start with a lower limit of 1 or larger and end with an upper limit of 10 or less, for example 1 through 1.7, or 3.2 through 8.1, or 5.5 through 10.
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Abstract
Description
- The invention relates to a production installation, in particular for air bending of workpieces to be manufactured from sheet metal, with a protective unit comprising at least one protective element, which serves in particular for covering of its bending tool during tool change as needed.
- U.S. Pat. No. 3,186,256 A describes a bending machine for manufacturing workpieces or parts between at least one bending tool adjustable relative to one another. The bending tool comprises a bending punch and a bending die, which are each held on a press beam. For carrying out the bending operation, one of the press beams is guided adjustably in the vertical direction on a machine frame. On the operating side, and thus on the side by which the sheet metal to be bended is guided, a plate-shaped protective element is arranged upstream of the bending tool. For mounting the protective element, a support rod is provided, which is mounted on side walls of the machine frame located laterally of the press beams. The support rod is arranged above the protective element and carries several actuator elements, which are connected thereto for vertical displacement of the protective element. The adjusting stroke of the actuator elements between the protective position and the release position is limited by the relatively short adjusting track of the actuator elements formed as electro magnets. The vertical adjustment of the protective element serves for not forming an interference contour for the portion of the workpieces to be manufactured which is pivoted upwards during the bending operation. Furthermore, with this, it is not possible to create sufficient free space in front of the bending tool in all cases of operation.
- Another design of a protective element for a bending machine for manufacturing workpieces or parts between at least one bending tool adjustable relative to one another has become known from U.S. Pat. No. 3,969,955 A. The bending tool comprises a bending punch and a bending die, which are each held on a press beam. For carrying out the bending operation, one of the press beams is guided adjustably in the vertical direction on a machine frame. The plate-shaped protective element is held on the upper adjustable press beam by at least two hinge arrangements arranged at a distance from one another on a flat profile with an elongated hole arranged therein. The flat profiles can be adjusted relative to the upper press beam in the vertical direction by provision of the elongated holes respectively arranged therein. Additionally, if need be, the protective element can be pivoted forward towards the operating side or folded up by means of the hinge arrangement. Here, merely a small vertical adjustment stroke could be achieved. Also with the protective element folded up, no sufficient free space without the formation of an interfering contour could be created.
- A further design of a protective element for a bending machine is described in U.S. Pat. No. 4,030,364 A. The upper press beam is adjustable in the vertical direction relative to the fixed machine frame. The plate-shaped protective element is held on a carrier element of the machine frame arranged fixedly above the upper press beam in its lowermost position by means of retaining cables. In this lowermost position of the protective element, there is a feed gap for the sheet metal to be bent formed small as regards its height. By means of a multiply deflected pulley, the protective element can be elevated during the downward movement of the upper press beam in the course of the bending operation. One end of the cable of the pulley is fixedly connected to the protective element and the other end is fixedly connected to the press beam. A double deflection of the cable of the pulley is carried out on the carrier element, wherein further, a deflection provided for between these two is carried out on the backside of the upper press beam. When the upper press beam moves in the direction towards the lower press beam, the protective element is elevated relative to the lower press beam, whereby the previously small feed gap increases in height. The disadvantage of this is that an adjusting movement of the protective element is only possible when the upper press beam is adjusted and the adjusting movement of the protective element depends on the adjusting stroke of the upper press beam. Moreover, the pulley arranged is complex and not always reliable in operation.
- JPH 11-300421 describes a further design of a protective device with a plate-shaped protective element for a bending machine. In the region of fixed side walls of the machine frame, a pulley for adjusting the height of the protective element is provided respectively. Starting out from the protective element, each of the pulleys extends in the vertical direction to a first deflection roller, from the latter to a second deflection roller located in the region of the backside of the side walls and from the latter to an actuator element formed by a cylinder piston arrangement. The possible adjustment track of the protective element is determined by the adjusting stroke of the actuator elements. The disadvantage of this is the unstable arrangement of the protective element in all of its positions.
- Another protective device adjustable in the vertical direction on an installation has become known from JPH 06-34736 U. In the region of both longitudinal ends of the protective device, above each of these a driven roller is arranged. A pull rope is wound around each of the rollers, wherein a first end of the pull rope is connected to the protective device and a second end is connected to a counterweight, respectively. By the drive torque applied onto the two rollers and by means of support of the counterweight, the protective device can be easily adjusted in the vertical direction from its protective position into the release position. For this purpose, several installation components are to be provided for the adjusting mechanism, an unstable arrangement of the protective element due to the pulley and further, the possibility of creating interfering contours being given.
- It was the object of the present invention to overcome the shortcomings of the prior art and to provide a device by means of which it is possible to allow for secure and easy covering of the hazard area during tool change and not forming an interfering contour in the release position of the protective element during performance of the bending operation.
- This object is achieved by means of a production installation, in particular with the protective unit provided for this purpose, according to the claims.
- The production installation according to the invention can in particular serve for air bending or bottom bending of a workpiece to be manufactured from sheet metal, and comprise the following installation components:
-
- a bending press, in particular a press brake, with a machine frame, a lower press beam, an upper press beam as well as tool holders arranged or formed on the press beams,
- at least one bending tool with at least one bending punch and at least one bending die,
- a tool manipulation unit for moving the bending tool between the tool holders and a tool storage or for changing the position of the bending tool relative to the tool holders,
- a protective unit with at least one protective element and an adjusting device, by means of which adjusting device the at least one protective element can be displaced relative to the bending press from a protective position which at least sectionally covers the bending tool into a release position which at least sectionally releases the bending tool, and the at least one protective element is plate-shaped and comprises a first longitudinal edge as well as a second longitudinal edge and a width of the protective element is defined by the two longitudinal edges, and wherein the protective unit is arranged in a feed region in front of the bending press, wherein
- either the adjusting device comprises at least two brackets and at least two holding arms each having a first end region and a second end region, and the holding arms each being mounted on the brackets in an articulated manner with their first end regions and the holding arms each being connected to the at least one protective element on its first longitudinal edge facing away from the first press beam in an articulated manner with their second end regions, and the at least two brackets being arranged at a distance from one another in the direction of the longitudinal extent of the at least one protective element,
- or the adjusting device comprises at least two linear guide arrangements, and each of the linear guide arrangements comprises a first guide rail and a second guide rail and at least one further guide rail, and the first guide rails are each arranged stationarily on the bending press, and each of the at least one further guide rails is mounted on the at least one protective element, and the at least two linear guide arrangements are arranged at a distance from one another in the direction of the longitudinal extent of the at least one protective element.
- The advantage achieved by this consists in that depending on the selection of the adjusting device, a sufficiently long adjustment track for the at least one protective element between its protective position and its release position is provided. Hence, a secure covering in the front region between the opened press beams with the bending tool arranged thereon can be achieved for the protective position. When the at least one protective element is adjusted into its release position, it is adjusted to be so far from the bending tool held on the press beam, owing to the adjustment track selected to be sufficiently long, that no interfering contour for the performance of bending operations is formed by the protective element.
- By providing the brackets as the bearing basis and the holding arms or lever arms held thereon in an articulated manner, when the protective element is pivoted up from the protective position into the release position an adjustment track defined by the longitudinal extension of the holding arms can be provided for, with which the at least one protective element can be moved out of the working area. Moreover, hence, an arrangement of the at least one protective element preferably suspended in all operating positions on the respective holding arms can be achieved.
- Also in a further possible embodiment of the adjusting device in the form of linear guide arrangements each comprising several guide rails, a space-saving adjusting device, which allows for a straight adjusting movement, in particular by means of a telescopic guide, can hence be created. By providing several guide rails, hence, starting out from the release position into the protective position and back, a sufficiently long adjustment track can be created so as to again on the one hand form a secure covering of the bending tool during tool change and on the other hand no interfering contour when the protective element is located in the release position during the bending operation.
- In a further possible embodiment, it is provided for that the protective unit, in particular its brackets or its first guide rails, is held on the upper press beam. Due to the fact that the entire protective unit is held on the upper press beam such that it moves therewith, the entire protective unit is always moved with it and the relative distance between the upper press beam and the protective unit, in particular the protective element, in the release position is kept equal. If hence, the relative position has once been determined in the release position, no interfering contour located closer is created in subsequent bending operations.
- It can further be advantageous if the width of the at least one protective element between its two longitudinal edges corresponds to an opening width between the tool holders of the completely open bending tool. Hence, secure covering of the hazard area during the tool change can be achieved. Moreover, hence, the headroom and/or width of the protective element can also be kept as low as possible.
- Another embodiment is characterized in that the at least two holding arms are pivotable between the protective position and the release position of the at least one protective element, each by a pivot angle with a value selected from an angle range with a lower limit of 150° and an upper limit of 200°, in particular 180°. By providing a sufficiently large pivot angle of the holding arms, on the one hand a space-saving arrangement of the adjusting device both in the protective position and in the release position can be ensured and on the other hand a distance of the protective element from the bending region in the release position can be achieved.
- A further possible embodiment has the characteristics of a longitudinal extension of the holding arms each approximately corresponding to the width of the at least one protective element between its two longitudinal edges. Hence, also in case of minimum widths of the protective element, a sufficient adjustment track can be achieved and a compact constructional unit can, nevertheless, be created.
- In a further embodiment, it is provided for that in the release position, the holding arms each starting out from the brackets project towards the side facing away from the lower press beam and the at least one protective element is arranged so as to be suspended on the side of the holding arms facing away from the upper press beam as well as in the direction towards the lower press beam. Hence, by the holding arms pivoted up and the arrangement of the at least one protective element suspended thereon, a space-saving arrangement of the protective element in the pivoted-up release position can be achieved.
- Another embodiment is characterized in that in the protective position, both the holding arms starting out from the brackets and the at least one protective element connected to the holding arms in an articulated manner comprise a suspended arrangement in the direction towards the lower press beam. Hence, a change of position of the protective element between its release position and its protective position by double the longitudinal extension of the holding arms can be achieved.
- A further preferred embodiment is characterized in that the brackets are arranged on the upper press beam such that in the protective position and with the bending tool being completely open, the second longitudinal edge of the at least one protective element faces the lower press beam and the at least one protective element with its second longitudinal edge extends at least to the lower tool holder. Hence, one the one hand in the release position secure covering also with the bending tool being open and on the other hand a sufficiently large distancing in the release position can be achieved.
- It can further be advantageous if the at least two brackets are arranged in an upper end section of the upper press beam. Upper end section or end region of the press beam is understood such that the brackets are arranged in the region which is distanced farther from the lower press beam. Hence, the possibility of arranging the at least one protective element at a rather large distance from the bending tool in its release position is created. The interfering contour formed by the protective element can thus be arranged very far from the bending region of the sheet metal. Further, sufficient free space without limitations caused by the protective element is thus also formed on the operating side or feed side.
- Another alternative embodiment variant is characterized in that at least one actuator and/or damping device is provided, said at least one actuator and/or damping device being operatively connected to one of the holding arms. Hence, by providing at least one actuator and/or damping device, a controlled pivoting movement of the holding arm(s) can be achieved.
- Moreover, hence, a facilitation of the return movement from the protective position into the release position in case of manual adjustment by the operator can be achieved. However, by means of the actuator device, a counterbalance adjustment and a corresponding weight compensation can also be achieved. By means of the damping device, the downward movement of the holding arm(s) from the upwardly projection position into the downwardly projecting position can be decelerated. Hence, a controlled downward movement of the holding arms along with the protective element held thereon can be achieved.
- In a further embodiment, it is provided for that a maximum adjustment track of the at least two linear guide arrangements is selected such that in the protective position and with the bending tool being completely open, the second longitudinal edge of the at least one protective element faces the lower press beam and the at least one protective element with its second longitudinal edge extends at least to the lower tool holder. By selecting the maximum adjustment track, hence, a precisely predefined operating state of the protective unit in each of its positions can be achieved. Moreover, hence, secure covering can also be ensured in the protective position, while in the release position, by provision of multiple guide rails the protective element can be moved out of the bending region of the bending tool far enough and thus no interfering contour is formed by it any more.
- A further possible and optionally alternative embodiment has the characteristics that the at least two linear guide arrangements are held on the upper press beam in vertical orientation. Hence, a precise straight adjusting movement between the protective position and the release position can be achieved. By means of constant movement of the entire protective unit with the upper press beam, the relative distance in the release position between the upper press beam and the protective unit, in particular the protective element, can always be kept equal. If hence, the relative position has once been determined in the release position, no interfering contour located closer is created in subsequent bending operations.
- Another embodiment is characterized in that at least one drive element is provided on at least one of the linear guide arrangements. By providing at least one drive element, a controlled adjusting movement from the release position to the protective position and/or from the protective position to the release position can be achieved in the adjusting operation.
- A further preferred embodiment is characterized in that one of the drive elements is provided between the first guide rail and the second guide rail. Hence, a precisely predetermined adjusting movement between the first two guide rails can be achieved.
- It can further be advantageous if one of the drive elements is provided between the second guide rail and the at least one further guide rail. Hence, a consistent adjusting movement between the individual guide rails can be ensured.
- Lastly, another embodiment is characterized in that at least one actuator and/or damping device is provided, said at least one actuator and/or damping device being operatively connected to the at least one protective element. Hence, by providing at least one actuator and/or damping device, a controlled pivoting movement of the holding arm(s) can be achieved. Moreover, hence, a facilitation of the return movement from the protective position into the release position in case of manual adjustment by the operator can be achieved. However, by means of the actuator device, a counterbalance adjustment and a corresponding weight compensation can also be achieved. By means of the damping device, the downward movement of the holding arm(s) from the upwardly projection position into the downwardly projecting position can be decelerated. Hence, a controlled downward movement of the holding arms along with the protective element held thereon can be achieved.
- For the purpose of better understanding of the invention, it will be elucidated in more detail by means of the figures below.
- These show in a respectively very simplified schematic representation:
-
FIG. 1 a front view of a production installation with a bending press and schematically adumbrated protective unit; -
FIG. 2 a side view of the production installation according toFIG. 1 ; -
FIG. 3 a front view and schematic representation of a first possible design of the protective unit in its protective position with adumbrated bending press; -
FIG. 4 a side view of the protective unit according toFIG. 3 in its protective position; -
FIG. 5 a side view of the protective unit according toFIG. 3 , however, in its release position; -
FIG. 6 a front view and schematic representation of a further possible design of the protective unit in its protective position with adumbrated bending press; -
FIG. 7 the protective unit according toFIG. 6 in a top view onto the adjusting device. - First of all, it is to be noted that in the different embodiments described, equal parts are provided with equal reference numbers and/or equal component designations, where the disclosures contained in the entire description may be analogously transferred to equal parts with equal reference numbers and/or equal component designations. Moreover, the specifications of location, such as at the top, at the bottom, at the side, chosen in the description refer to the directly described and depicted figure and in case of a change of position, these specifications of location are to be analogously transferred to the new position.
- The term “particularly/in particular” is hereinafter understood such that it may refer to a possible, more specific embodiment and more detailed specification of a subject matter or a method step, but does not necessarily have to represent an obligatory, preferred embodiment of the latter or an approach.
-
FIGS. 1 and 2 show a very simplified schematic representation of aproduction installation 1, which is in particular designed for air bending ofworkpieces 2 to be manufactured from sheet metal by means of die bending in the present case. - The
production installation 1 used for bending in the present case comprises a bending machine, in the present exemplary embodiment abending press 3, in particular a press brake oder die bending press, for manufacturing theworkpieces 2 or parts between at least onebending tool 4 adjustable relative to one another. In the present exemplary embodiment, thebending tool 4 comprises at least onebending punch 5, however, most commonlyseveral bending punches 5, and at least one bending die 6, however, most commonly several bending dies 6 cooperating therewith. At this, the at least onebending punch 5 is arranged above theworkpiece 2 to be manufactured on thebending press 3 and is held, in particular clamped, there correspondingly. The at least one bending die 6 is also held, in particular held clamped, on thebending press 3. - In a coordinate system for such bending presses 3, the “x” direction is generally referred to as the direction extending in perpendicular orientation in a horizontal plane with respect to the longitudinal extension of the
bending tool 4, in particular itsbending punch 5 and bending die 6. Thus, this is the direction which corresponds to the feed direction or the removal direction. The “y” direction is understood as the vertical direction which thus extends in the height direction of thebending tool 4, and further in perpendicular direction with respect to the horizontal plane. Lastly, the “z” direction is understood as the direction which extends in the longitudinal direction and/or the longitudinal extension of thebending tool 4, in particular itsbending punch 5 and bending die 6. Hence, the longitudinal extension of the bending edge defined by thebending tool 4 is also oriented extending in the “z” direction. - A
machine frame 7 of thebending press 3 for example comprises abase plate 8 on whichside walls massive cross connection 11 for example formed from a sheet metal preform on their end regions distanced from thebase plate 8. - The
side walls workpiece 2, wherein a fixedfirst press beam 13 orlower press beam 13, particularly standing on thebase plate 8, is mounted to front end faces 12 of near-base limbs of theside walls press beam 13 may also be referred to as press table, which parts of thebending tool 4 are arranged on and also held on. - On front end faces 14 of limbs distanced from the
base plate 8, afurther press beam 16, in particular a pressure beam, adjustable relative to thepress beam 13 forming the table beam, is mounted in a guided manner inlinear guides 15. Thepress beam 16 can also be referred to as second press beam or upper press beam or as pressure beam. - On end faces 17, 18 opposing one another and extending in parallel to one another of the two
press beams tool holders entire bending tool 4, it can still represent a possibility. - The shown bending
press 3 for example comprises two driving means 22 operated with electric energy, which are line-connected with acontroller 24 supplied from anenergy grid 23, as drivingarrangement 21 for theadjustable press beam 16, namely the pressure beam. For example, the operation of thebending press 3, in particular also the change operation of thebending tool 4, can be controlled via aninput terminal 25 with a communication connection to thecontroller 24. - The driving means 22 can for example be electromotive spindle drives 26, as are generally known, by means of which adjusting means 27 for a reversible adjusting movement of the
upper press beam 16 formed by the pressure beam are for example drive-connected to it. However, independently of this, it would also be possible that the driving means 22 is/are formed by adjusting means that can be hydraulically and/or pneumatically actuated. In this regard, cylinder-piston arrangements may be applied. However, other driving means, such as eccentric drives, toggle lever drives, rack and pinion drives etc., are also conceivable. Further details required for the operation of such abending press 3, such as feed devices and/or control devices, are not addressed in the present description so as to avoid an unnecessary length of the description. - For application and support of the sheet metal to be bent, a support table 28 can be provided or arranged in the front region—i.e. the feed region—of the bending press. The support table 28 is merely shown partially and forms a support plane for the sheet metal to be bent.
- Moreover, the
production installation 1 can also comprise a manipulator not represented in further detail here, said manipulator removing at least one piece from a storage stack of sheet metal to be formed and/or folded and transports it into the working area and/or the operating side of thebending press 3. - The manipulator can itself comprise gripping pliers, which in turn comprises gripping fingers. The gripping fingers each comprise clamping surfaces on the side facing the
workpiece 2 to be manufactured. By means of corresponding pivoting of the two gripping fingers against one another and the application of a sufficient clamping force, via the cooperation of the clamping surfaces the sheet metal and/orworkpiece 2 to be manufactured is held by the manipulator and correspondingly moved and positioned. By the gripping fingers and the gripping pliers, corresponding gripping and in further consequence due to the clamping movement sufficient purchase for theworkpiece 2 to be manufactured from the sheet metal is ensured. - It is further adumbrated that in the region of the operating side or the feed side of the
bending press 3 and thus as required in front of the bending tool(s) 4, aprotective unit 29 can be arranged or provided. Theprotective unit 29 serves the purpose of covering the opening width between thetool holders bending tool 4 being completely closed in the region of the operating side or the feed side so far that during the tool change, the operator is prevented from an unintended access to the tool holders and thebending tool 4 located there. In this exemplary embodiment, theupper press beam 16 is adjustable relative to thelower press beam 13 for performing the bending operation. For tool change, theupper press beam 16 is arranged distanced farther from thelower press beam 13, as is well-known. - Most commonly, the tool change is carried out on the back side of the press beams 13, 16 by means of a
tool manipulation unit 30 adumbrated in a simplified manner Hence, the operator can get very close to the front region of thebending press 3 and thus into the region of thebending tool 4, due to which in case of inattention an injury can be caused by moved tool components or thetool manipulation unit 30. Thetool manipulation unit 30 serves for transporting thebending tool 4 between thetool holders tool storage 31 or for changing the position of thebending tool 4 relative to its position on thetool holders - The
protective unit 29 comprises at least one plate-shapedprotective element 32. Said element is usually formed from a translucent or transparent material, in particular a plastic material. Theprotective element 32 is arranged immediately upstream of the second orupper press beam 16 in bothFIGS. 1 and 2 , wherein it is in a so-called release position represented in dotted lines in both figures. Moreover, theprotective element 32 is also represented in a so-called protective position in full lines inFIG. 1 . A detailed representation of the mount, the bearing and a possible adjusting mechanism thereof on thebending press 3, in particular on the second orupper press beam 16, is refrained from, while a possible embodiment in this regard is represented and elucidated in further detail below inFIGS. 3 to 5 as well as 6 and 7. Herein, the release position is understood such that theprotective element 32 allows for free access to thebending tool 4 held on the press beams 13, 16. - The protective position is given when the at least one
protective element 32, in case of bendingpunch 5 and bending die 6 being arranged distanced from one another at least sectionally or entirely, covers or secures an access starting out from the operating side or feed side so far that an operator cannot reach between the open press beams 13, 16 arranged at a distance from one another during a tool change of thebending tool 4. The tool change can preferably be carried out automatically, with this usually being carried out in the region of themachine frame 7 located behind the operating side. The performance of the tool change can for example be carried out by means of thetool manipulation unit 30, in particular by means of a separate manipulator and/or a back gauge unit, as is well-known. - When the at least one
protective element 32 is located in its release position, in which the bending operation(s) are usually carried out, sufficient manipulation space is to be kept free of interfering contours at least in the region of thebending tool 4. An interfering contour can be formed by an installation component or a machine component, which projects into the working space required for performing the bending operation and thus prevents or limits it. - The adjustment or displacement of the at least one
protective element 32 can be carried out by means of an adjustingdevice 33 not represented in further detail inFIGS. 1 and 2 . By means of this adjustingdevice 33, the at least oneprotective element 32 can be displaced relative to thebending press 3 from a protective position, which at least sectionally, preferably completely, covers thebending tool 4 into a release position which at least sectionally, preferably completely, releases thebending tool 4. The displacement can be carried out manually; however, also by means of a separate driving means. - The plate-shaped
protective element 32 comprises a firstlongitudinal edge 34 as well as a secondlongitudinal edge 35 arranged so as to extend in the direction of its longitudinal extension. The twolongitudinal edges width 36 of theprotective element 32. Thewidth 36 can also be referred to as transverse distance, which is determined in perpendicular direction with respect to thelongitudinal edges protective element 32 is preferably selected such that it approximately corresponds to a longitudinal extension of the press beams 13, 16 or thetool holders protective unit 29, in particular the at least oneprotective element 32 as well as the adjustingdevice 33, is or are arranged in a feed region in front of thebending press 3. Accordingly, the arrangement is carried out frontally with respect to thebending press 3. In the possible embodiments described in more detail below, theprotective unit 29 is held on theupper press beam 16. Hence, when theupper press beam 16 is adjusted, theprotective unit 29 is moved with it. -
FIGS. 3 to 5 show a first possible and possibly independent embodiment of theprotective unit 29, wherein equal reference numbers and/or component designations are used for equal parts as inFIGS. 1 and 2 above. In order to avoid unnecessary repetitions, it is pointed to/reference is made to the detailed description inFIGS. 1 and 2 preceding it. - To provide a better overview, the two
press beams device 33 is merely represented in a simplified and stylized manner. The adjustingdevice 33 comprises at least twobrackets 37 and preferably the same amount of holdingarms 38—in the present example also at least two holdingarms 38. The holdingarm 38 can also be referred to as lever arm or pivoting arm. Each of the holdingarms 38 comprises afirst end region 39 and arranged at a distance thereof in its longitudinal extension asecond end region 40. Each of thebrackets 37 is arranged for example on themachine frame 7 of thebending press 3, however, in particular on theupper press beam 16 of thebending press 3, in particular fixedly connected thereto, and arranged at a distance from one another in the direction of the longitudinal extension of the at least oneprotective element 32. - Each of the holding
arms 38 is mounted on one of thebrackets 37 in an articulated manner each with itsfirst end region 39, whereby a first bearing point is formed respectively. Moreover, each of the holdingarms 38 is connected to the at least oneprotective element 32 on the firstlongitudinal edge 34 facing away from thefirst press beam 13 in an articulated manner with itssecond end region 40, whereby a second bearing point is formed respectively. By means of these articulated connections, on the one hand the holdingarms 38 can be pivoted about therespective bracket 37 and on the other hand the at least oneprotective element 32 can be adjusted with these preferably in a steadily suspended arrangement. - The previously described
width 36 of the at least oneprotective element 32 between its twolongitudinal edges tool holders bending tool 4 being completely open. In this way, when theupper press beam 16 is in the maximum raised position, secure covering of the space between the twotool holders - By means of the respective articulated mounting of the holding
arms 38 on thebrackets 37, the holdingarms 38 along with the at least oneprotective element 32 can be displaced, in particular pivoted, from the protective position of theprotective element 32 into the release position of theprotective element 32. Thebrackets 37 form first pivot axes 41 oriented in parallel with respect to the longitudinal extension of theupper press beam 16 and aligned with one another. Pivoting each holdingarm 38 is carried out in a pivoting plane oriented perpendicularly with respect to the pivot axes 41. Hence, the at least two holdingarms 38 can be pivoted between the protective position and the release position of the at least oneprotective element 32, each by a pivot angle with a value selected from an angle range with a lower limit of 150° and an upper limit of 200°, in particular 180°. - When the
protective element 32 is in the protective position, the holdingarms 38 are preferable held so as to be suspended and thus be perpendicular to thebrackets 37 and project in the direction towards thelower press beam 13. In the release position of theprotective element 32, these project upwards towards the side facing away from thelower press beam 13. In the release position, the at least oneprotective element 32 is arranged on the side of the holdingarms 38 facing away from theupper press beam 16 and so as to be suspended on the holdingarms 38 in the direction towards thelower press beam 13. - In the protective position, both the holding
arms 38 starting out from thebrackets 37 and the at least oneprotective element 32 connected to the holdingarms 38 in an articulated manner have a suspended arrangement in the direction towards thelower press beam 13. Suspended is understood to refer to the position caused by gravity. - As was described above, a second bearing point with second pivot axes 42 is formed between each
second end region 39 of the holdingarms 38 and the firstlongitudinal edge 34 of theprotective element 32. - Preferably, a longitudinal extension of the holding
arms 38 between the twoend regions width 36 of the at least oneprotective element 32 between its twolongitudinal edges arms 38 could also be selected to be larger or smaller than thewidth 36. - In order to create sufficient free space without an interfering contour in the region of the bending tool, the
brackets 37 are arranged on theupper press beam 16 in such manner that in the protective position and with thebending tool 4 being completely open, the secondlongitudinal edge 35 of the at least oneprotective element 32 faces thelower press beam 13. The at least oneprotective element 32 with its secondlongitudinal edge 35 preferably extends at least to thelower tool holder 19. It proved to be beneficial if the at least twobrackets 37 are arranged in an upper end section of theupper press beam 16. - Further, so as to facilitate the adjusting movement and/or its performance, a schematically adumbrated actuator and/or damping
device 43 can also be provided. In this regard, the at least one actuator and/or dampingdevice 43 is preferably operatively connected to one of the holdingarms 38. For damping and/or weight compensation, for example a torsion spring, a tension spring that is connected to a holdingarm 38 and extends towards theupper press beam 16, or the like could be provided. Moreover, at least one of the holdingarms 38 could be connected to a rotary drive for angular displacement. The actuator device can in particular serve the purpose of counterbalance adjustment for the actuation movements between the protective position and the release position and vice versa to be carried out. Hence, the actuation movements can be facilitated for the operator as regards force. -
FIGS. 6 and 7 show a further possible and possibly independent embodiment of theprotective unit 29 for the bending machine and/or bendingpress 3, wherein again equal reference numbers and/or component designations are used for equal parts as inFIGS. 1 through 5 above. In order to avoid unnecessary repetitions, it is pointed to/reference is made to the detailed description inFIGS. 1 to 5 above. Here, again, an adjustment track between the protective position and the release position for the at least oneprotective element 32 as long as possible is to be achieved. Hence, on the one hand the risk for the operator of unintentionally reaching for thebending tool 4 to be changed or retrofitted during the tool change is minimized severely and on the other hand no interfering contour is formed during bending operation by theprotective element 32 in the region of the bending tool as well as a large part of theupper press beam 16. - In this exemplary embodiment shown here, another possible design of an adjusting
device 44 for theprotective unit 29 is shown, which is why a reference number differing from the previously described adjustingdevice 33 is used. The general adjustment track as well as the at least oneprotective element 32 can be formed analogously, as was described above. - Here, instead of the lever arrangement with the
brackets 37 and the holdingarms 38, severallinear guide arrangements 45 are provided for extending the adjustment track between the protective position and the release position of theprotective element 32. Thelinear guide arrangements 45 can also be referred to as telescopic guides or telescope guide arrangements. Each of thelinear guide arrangements 45 comprises afirst guide rail 46, asecond guide rail 47 and at least onefurther guide rail 48. Depending on the constructional length of the press beams 13, 16 and the at least oneprotective element 32, at least two of thelinear guide arrangements 45 are to provided perprotective element 32. Moreover, the at least twolinear guide arrangements 45 are arranged at a distance from one another in the direction of the longitudinal extension of the at least oneprotective element 32. - However, instead of the guide rails, telescopic cylinders, which provide sufficient stroke, can also be used.
- The
first guide rails 46 are stationarily arranged for example on thebending press 3, in particular on itsmachine frame 7, however, preferably on the respectiveupper press beam 16, in particular mounted thereto. The at least twolinear guide arrangements 45 are further held on theupper press beam 16 in vertical orientation. The at least onefurther guide rail 48 is in each case stationarily arranged on the at least oneprotective element 32, in particular mounted thereto. Thesecond guide rail 47 is in each case provided directly immediately successive to thefirst guide rail 46. The guide rails are each guided on one another so as to allow for performing a defined adjustment track. - In order to achieve secure covering and a protective position in the open position of the press beams 13, 16 a maximum adjustment track of the at least two
linear guide arrangements 45 is to be selected such that in the protective position and with thebending tool 4 being completely open, the secondlongitudinal edge 35 of the at least oneprotective element 32 faces thelower press beam 13 and the at least oneprotective element 32 with its secondlongitudinal edge 35 extends at least to thelower tool holder 19. - It can further be advantageous if at least one
drive element 49 is provided on at least one of thelinear guide arrangements 45. By providing at least onedrive element 49, a controlled adjusting movement between at least individual ones of the guide rails 46 and/or 47 and/or 48 can be achieved. For example, one of thedrive elements 49 could be provided between thefirst guide rail 46 and thesecond guide rail 47. Further or additionally to this, one of thedrive elements 49 could also be provided between thesecond guide rail 47 and the at least onefurther guide rail 48. - The drive element(s) 49 can for example serve for carrying out a compulsory guide of the adjusting movement between the individual guide rails. For example, a belt drive or toothed racks with at least one intermediate pinion or cogwheel arranged in between and being drive-connected would be conceivable. If the intermediate pinion or cogwheel is driven by a driving means, a drive support or an independent adjustment can be achieved.
- It would further be possible, as was also already described above, to provide an actuator and/or damping
device 43. Hence, a counterbalance adjustment can be achieved for example by means of a constant force spring or a cylinder piston arrangement charged with constant pressure. The at least one actuator and/or dampingdevice 43 is operatively connected to the at least oneprotective element 32 for this purpose. - The exemplary embodiments show possible embodiment variants, and it should be noted in this respect that the invention is not restricted to these particular illustrated embodiment variants of it, but that rather also various combinations of the individual embodiment variants are possible and that this possibility of variation owing to the teaching for technical action provided by the present invention lies within the ability of the person skilled in the art in this technical field.
- The scope of protection is determined by the claims. However, the description and the drawings are to be adduced for construing the claims. Individual features or feature combinations from the different exemplary embodiments shown and described may represent independent inventive solutions. The object underlying the independent inventive solutions may be gathered from the description.
- All indications regarding ranges of values in the present description are to be understood such that these also comprise random and all partial ranges from it, for example, the
indication 1 to 10 is to be understood such that it comprises all partial ranges based on thelower limit 1 and theupper limit 10, i.e. all partial ranges start with a lower limit of 1 or larger and end with an upper limit of 10 or less, for example 1 through 1.7, or 3.2 through 8.1, or 5.5 through 10. - Finally, as a matter of form, it should be noted that for ease of understanding of the structure, elements are partially not depicted to scale and/or are enlarged and/or are reduced in size.
- 1
production installation 31 tool storage - 2
workpiece 32 protective element - 3 bending
press 33 adjusting device - 4 bending
tool 34 first longitudinal edge - 5 bending
punch 35 second longitudinal edge - 6 bending die 36 width
- 7
machine frame 37 bracket - 8
base plate 38 holding arm - 9
side wall 39 first end region - 10
side wall 40 second end region - 11
cross connection 41 first pivot axis - 12 front end face 42 second pivot axis
- 13
press beam 43 actuator and/or damping device - 14 front end face 44 adjusting device
- 15
linear guide 45 linear guide arrangement - 16
press beam 46 first guide rail - 17
end face 47 second guide rail - 18
end face 48 further guide rail - 19
tool holder 49 drive element - 20 tool holder
- 21 driving arrangement
- 22 driving means
- 23 energy grid
- 24 controller
- 25 input terminal
- 26 spindle drive
- 27 adjusting means
- 28 support table
- 29 protective unit
- 30 tool manipulation unit
Claims (16)
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
ATA50173/2017A AT519695B1 (en) | 2017-03-06 | 2017-03-06 | Production plant with a protection unit |
ATA50173/2017 | 2017-03-06 | ||
PCT/AT2018/060057 WO2018161101A1 (en) | 2017-03-06 | 2018-03-05 | Production plant having a protective unit |
Publications (1)
Publication Number | Publication Date |
---|---|
US20200061691A1 true US20200061691A1 (en) | 2020-02-27 |
Family
ID=62044430
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US16/487,624 Abandoned US20200061691A1 (en) | 2017-03-06 | 2018-03-05 | Production plant having a protective unit |
Country Status (5)
Country | Link |
---|---|
US (1) | US20200061691A1 (en) |
EP (1) | EP3592482B1 (en) |
JP (1) | JP7094977B2 (en) |
AT (1) | AT519695B1 (en) |
WO (1) | WO2018161101A1 (en) |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB378665A (en) * | 1931-09-05 | 1932-08-18 | Alfred George Osborne Strong | Improvements in and relating to safety appliances for punching, blanking and embossing presses and the like |
US3186256A (en) * | 1963-07-22 | 1965-06-01 | Reznick Louis | Safety guards for brakes, punch presses and similar machines |
US3969955A (en) * | 1975-08-14 | 1976-07-20 | H C Products Co. | Press brake safety device |
JPS6088200U (en) * | 1983-11-24 | 1985-06-17 | アイダエンジニアリング株式会社 | Press machine safety guard |
JPH11300421A (en) * | 1998-04-21 | 1999-11-02 | Nikko Co Ltd | Press brake |
JP5848908B2 (en) * | 2011-07-26 | 2016-01-27 | 株式会社アマダホールディングス | Shutter device and press brake |
JP2016097421A (en) | 2014-11-19 | 2016-05-30 | アイダエンジニアリング株式会社 | Elevating type guard device for press machine, and press machine |
-
2017
- 2017-03-06 AT ATA50173/2017A patent/AT519695B1/en active
-
2018
- 2018-03-05 JP JP2019548306A patent/JP7094977B2/en active Active
- 2018-03-05 WO PCT/AT2018/060057 patent/WO2018161101A1/en unknown
- 2018-03-05 US US16/487,624 patent/US20200061691A1/en not_active Abandoned
- 2018-03-05 EP EP18719413.9A patent/EP3592482B1/en active Active
Also Published As
Publication number | Publication date |
---|---|
WO2018161101A1 (en) | 2018-09-13 |
EP3592482A1 (en) | 2020-01-15 |
JP7094977B2 (en) | 2022-07-04 |
JP2020509936A (en) | 2020-04-02 |
AT519695A1 (en) | 2018-09-15 |
AT519695B1 (en) | 2019-04-15 |
EP3592482B1 (en) | 2022-04-27 |
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