SE440318B - SET AND DEVICE FOR BENDING WIRE TO SICK SACK FORM - Google Patents

Description

in the path of movement of the wire, a second wire holding means, which is linearly movable a predetermined distance towards and from the first wire holding means, a means for engaging the wire midway between the engagement points of the first and second wire holding means with a force, below the holding force of the first and second wire holding means, means for displacing the second wire holding means towards the first synchronously with a displacement of the wire engaging means in an arcuate path with the point of engagement of the first wire holding means as center, whereby the wire bends completely in places the engagement of the wire holding member and the engaging member and half in place of the engagement of the second thread holding member, a reciprocating member 'for intermittently advancing the thread such a distance that the place where the thread is bent in half is applied in the first thread - the holding means, and an all-part supporting frame with guide means for the wire.

An advantageous embodiment of the invention is characterized in that a first adjusting device is connected to the wire feed means for changing the wire feed distance during operation, that a second adjusting device is connected to the second wire holding means in order to cause it to engage the trees at a place whose distance to and the distance of movement towards the engagement of the first thread holding means corresponds to the changed thread feeding distance, and that a third adjusting device is arranged to change the place of engagement of the thread engaging means with the trees, so that it is constantly in the middle between the engagement points of the thread holding member.

The invention will be described in more detail below with reference to the accompanying drawing, which most schematically illustrates an exemplary embodiment and in which Fig. 1 shows from above a device for bending wire with a constant distance between the turning points of the zigzag shape while Fig. 2 similarly shows a modified embodiment. of the device for bending trees to 10 15 20 25 30 35 sicks 8505957 ~ 5 3 ax shape with increasing or decreasing width.

In the drawing, a straight wire is denoted by 10, for example with a diameter of 8-10 mm, which by means of the device shown is bent into a zigzag shape, as shown at 10a. The machine for bending the wire has two link arms 11, 12, which at their first end are pivotally connected to each other by means of a bearing 13. The first arm 11 is pivotally mounted by means of a bearing 14 and a frame (not shown) is correspondingly shown by means of a bearing 15 pivoting. The second bar of the second arm is mounted on a member 30 which is linearly displaceable towards and from the other end of the first arm 11, as shown in the drawing. A further arm 16 is connected to the arms 11 and 12 by means of their common bearings 13. This arm 16 is with its end located furthest from the bearing 13 by means of a bearing 32 pivotally mounted at the end of a further arm 17, the opposite end of which is mounted on the frame by means of a bearing 33 at a distance from the bearing 14 of the arm 11, which corresponds to the distance between the bearings 13, 32 of the arm 16 and the distance between the bearings 32, 33 of the arm 17 corresponds to the distance between the bearings 13, 14 of the arm 11. The arms l1, l6 and l7 thereby form a parallelogram arrangement. 21 re The arms l1, l2 have at their other ends clamping jaws sp 22, of which the clamping jaw 21 of the first arm by means of a piston and cylinder assembly 23 is displaceable an abutment connected to the frame at a point opposite perpendicular to the plane of movement of the arm towards and from the bearing position of the arm 11 to clamp the wire and release it after bending, while the clamping jaw 22 of the other arm is displaced in the plane of movement of the arm towards and away from a concentric abutment of the arm bearing 15 on the frame by means of a piston and cylinder assembly 24. the support is the clamping jaw 21 with abutments mounted on a pivotally adjustable arrangement on the handle in the plane of movement of the arm. The jaw 21 acts perpendicular to the path of movement of the arm so that it can be removed from the path of movement of the bent tree 10 during wire feeding, as will be seen in more detail below. Arranged on the arm 16 is a piston and cylinder assembly 18, which by means of a coupling 19 is connected to a hook 20, which by means of the piston and cylinder assembly is foldable and foldable and pullable in the direction of a bearing housing and abutment 31 so that after folding down, pull the wire 10 towards the surface of the abutment facing the wire, which is bevelled towards the center from the vertical side edges.

A feeding device 25 is arranged to engage the wire 10 by means of a reverse assembly 26, which is brought into and out of engagement with the wires 10 by means of a piston and cylinder assembly, in order to advance it a certain distance.

The feeding device is displaceable back and forth in the longitudinal direction of the trees 10 by means of a piston and cylinder assembly 28.

The described device works in the following way when bending a wire 10 into zigzag shape Iga. It is assumed that the formation shown to the right of the drawing has previously been performed and the machine is in the initial position for new bending with the arms l1, l2 and 16 in its lowest position in the drawing. When activating the apparatus, the piston and cylinder assemblies 23 and 24 are actuated and clamp the trees 10 against the associated resistance. At the same time, the piston and cylinder assembly 18 is activated, whereby the naked 20 is lowered over the wire and pulled with the wire towards the stop 31, where the wire bends due to the chamfering surface facing the center and the zigzag legs are stretched. When the piston and cylinder assembly 29 is activated, the member 30, which supports the other end of the arm 12, is pulled linearly towards the other end of the arm 11. As can be clearly seen from the drawing, the arms 11, 12 are pivoted towards each other at the same time as the assembly of arms is pivoted about the bearing 14. The arm 17 is so mounted on the frame that it extends parallel to the arm 11 and by the arm 17 bearing positions at the same distance from each other as the arm 11 of the arm, the parallelogram arrangement is obtained, which during the movement of the arms keeps the arm 16 on a line which is an extension of the bisector of the angle II formed by the arms 11 and 12. .

Of great importance for the bending is that the force with which the wire is held by means of the clamping jaws 21, 22 exceeds the force against which the hook 20 holds the trees and which is determined by the tensile force of the piston and cylinder assembly 18, so that the hook 20 can be extended (spring) a certain distance, approx. 5 mm, when the unit 18 begins to pull. In practice, it has proved appropriate that the jaws 21, 22 hold the trees with a force of about 1 ton, while the traction of the piston and cylinder unit is about 350 kg. When the member 30 is displaced against the bearing 14 to an extent corresponding to the desired profile width, the two bends performed at the clamping jaw 21 and the hook 20 are complete while the bending at the clamping jaw 22 is performed in half.

Thereafter, the piston and cylinder assembly 29 is deactivated and the jaws 21, 22 as well as the hook 20 are detached by deactivating the associated piston and cylinder assemblies. The hook 20 was then lifted out of engagement with the now bent wire. During the bending, the feed assembly has been shifted to the left of the drawing out of engagement with the wire 10 and after the jaws 21, 22 and the hook 20 have been loosened, the piston and cylinder assembly 27 is activated, so that the jaw assembly 26 is clamped around the wire, after which the piston and the cylinder assembly 28 is actuated to displace the wire 10 to the right of the drawing such a distance that the wire half bent in the hill 22 is placed in the hill 21. As previously pointed out, the hill 21 is removed from the path of movement of the trees; in the feed direction. During the displacement of the wire 10, the piston and cylinder assembly 29 are activated for returning the arms 11, 12 to the position in line with each other, after which a new cycle can be started with the bending made halfway in the clamping jaw 22 in position in the clamping jaw 21.

Fig. 2 shows a modified embodiment of the invention, which is intended for the production of zigzag formations POOR QUALITï in t: stones-w 6 with increasing and / or decreasing width, eg for use as life in beams with increasing and / or decreasing distance between the flanges. In order to be able to produce such a zigzag formation, means must be provided for changing the lengths of wire which are fed and then bent, which means that the feeding device must be able to be set as well as the limits of the reciprocating jaw movement. the engaging point of the hook engaging between the clamping jaws can be adjusted so that the hook constantly engages in the right place. A device for performing this is illustrated in Fig. 2.

In Fig. 2 is indicated by a clamping jaw 21 in Fig. 1 corresponding to the clamping jaw, which is displaceable upwards and downwards in the vertical direction by means of a piston and cylinder assembly 41 in the same manner and for the same purpose as the clamping jaw 21. A member 30 corresponding member 42 with clamping jaw 43 is provided as well as a feeding device 44 with clamping jaws 45. 46 indicates a hook device 20 for engaging the wire 10 between the points of engagement of the clamping jaws 40, 43 and 47 means a device for operating the hook device 46. The hook device 46 and the device 47 for actuation thereof may be designed in the manner shown in Fig. 1 and likewise arms, corresponding to the arms 11, 12 according to Fig. 1 may be arranged but these details are not illustrated in Fig. 2 to emphasize that also other possibilities for pivoting the chin device 46 are possible, for example by means of an arrangement of piston and cylinder units. The main thing is that the hook device engages midway between the bending points provided by the clamping jaws 40 and 43 and that the engaging force of the hook device is less than the force with which the clamping jaws 40, 43 engage with the wire 10, as in the previous embodiment. In order to change the length of wire which is fed and which is then bent, two motors 48 and 49 are arranged, according to Fig. 2, which are connected to their respective shafts 50. The first shaft 50 has a first threaded portion The second shaft 51 and 52, respectively, and a second threaded portion 53. have a first threaded portion 54 and a second threaded portion 55. The two threaded portions of the first shaft 50 and the first threaded portion of the second shaft 51 consist of threads of the same pitch. while the second threaded portion 55 of the shaft 51 is constituted by a thread with only half said pitch. A stop 56 with a through-threaded opening is arranged on the first threaded portion 52 of the first shaft 50. Correspondingly, stops 58 and 59 with through-threaded openings are arranged on the first threaded portion 54 of the second shaft and the second of the first shaft, respectively. threaded lot 53.

The feeder 44 has a shorter protrusion 63 and a longer protrusion 64 and the figure shows that the short protrusion 63 of the feeder abuts a fixed stop 57 in its front position while the longer protrusion 64 abuts the stop 56 in the rear position of the member. By rotation of the shaft 50 and thus of the threaded portion 52, the position of the stop 56 is changed and in this way one can easily change the distance within which the feed member 44 moves, so that different lengths of wire can be fed. Correspondingly, the movable member 42 has a shorter projection 65 and a longer projection 66, the shorter 65 abutting the stop 58 on the first threaded portion of the second arm, as the member 42 is in its position to the left in the figure while against the stop 59 on it is found the longer abutment 66 abuts the second threaded portion 53 of the first arm, when the member 42 is in its position furthest to the right. This ensures that the member 42 is displaced a distance corresponding to the extended or shortened wire length which the feed member 44 has advanced. The hook length 46 must of course also be adapted to the changed length of wire, which in the present case is done by means of a guide member 61, which has a rounded inlet ramp 62. The guide has a projecting ear 60 with a continuous SOm ITIOÉ "member 61 xroon QUALITY ms om; 48:15 '-6 10 15 20 25 30 35 8 threaded opening, which engages with the second threaded portion of the second shaft. The member 61 is to be moved only half the distance compared to the feed member 44 and for that reason the threaded portion 55 thread has only half the thread pitch compared to other threaded portions 52, 53 and 54. Control means not shown in Fig. 2 are arranged to activate the two motors 48 and 49, which is of a purpose-specific, suitable type, in the proper place in the bending cycle. Thus, the motor 49 can be activated when the member 42 has begun to move towards the jaw 40 and the engaging device 46 has left the member 61. Thereby the stop S8 and the ear 60 are moved a predetermined distance, as a preparation for the next bending cycle. When the bending is performed and the member 42 begins its movement to the left, the motor 48, which is of the same type as the motor 49, is activated, whereby the stops 56 and 59 are moved to the desired distance. In order to stop the movement of the members 44 and 42, when their projections reach the associated abutment, microswitches or other means may be provided. In Fig. 2 it is assumed that the feed member 44 and the member 42 with the clamping jaw 43, as in the previous embodiment during feed and wire bending, are displaced by means of piston and cylinder assemblies, such as those previously described, but it is of course also conceivable to let the shafts 50, 51 with the threaded parties directly engage with the means 44 and 42 for effecting the feeding and bending movements, respectively, although the operating speed is thereby reduced. It appears that the stops 56 and 59 are always moved equal distances in the same direction, which is why they can be connected to each other. In the above description, the trees l0 have been regarded as rigid, non-resilient, but of course a certain suspension always occurs. This does not affect the bending method or the device itself, but this must be taken into account when setting the device.

The schematic drawing figures are mainly intended to illustrate the new bending principle and of course the machine has in practice a number of details which are not shown in the drawing, for example a guide in front of the feeding device 25 and control devices, which regulate the fluid supply to the various pistons. and the cylinder assemblies, so that they are activated in the correct sequence.

Claims (11)

833135957-06 10 15 20 25 30 '10 PATENT REQUIREMENTS A method of bending a wire (10) into a zigzag shape (10a), in which the wire (10) is held at a first and a second point at a distance from each other, and an engaging member (20) is caused to engage with the wire in a third point between these points in order to bend it is characterized in that the engaging means is caused to pull the wire into engagement with an abutment (31) with a force which is less than the holding force in the first and second points, that the second point is moved linearly towards the first one distance, which is related to the distance between the turning points of the zigzag shape for manufacture, during pivoting of the third point with the first as the center of oscillation, whereby complete bending takes place in the first and third points but only half bending in the second, and that the wire is subsequently fed so that the half bend is placed in the first point of completion during the next bend cycle. K 2. A method according to claim 1, characterized in that the engaging means (20) pulls the wire into engagement with a recess angular in the bending plane of the anvil (31), so that the wire (10) is pre-bent on either side of the engaging point of the engaging means (20) simultaneously as traction is exerted in the wire portions between the point of engagement of the engaging member and the first and second points. A method according to claim 1 or 2, in which the width of the zigzag shape is continuously increased or decreased, for example for use of the wire as life in beams with increasing and decreasing distances between the flanges, characterized in that the wire (10) a distance is supplied which exceeds or exceeds the previous feed distance, that the position and distance of movement of the second engaging point as well as the point of engagement of the engaging member (20) are set corresponding to the change of the feed distance. Device for automatic bending of wire (10) into zigzag shape (10a) with first and second wire holding means (21 and 22, respectively), which are movable in and out of engagement with the wire intended for bending at points spaced apart from each other, and a means (20) for engaging the wire (10) midway between the points of engagement of the first and second wire holding means (21 and 22, respectively) with a force below the holding force (21 and 22, respectively) of the first and second wire holding means, characterized of means (29) for linearly displacing the second wire holding means (22) towards the first (21) a predetermined distance synchronous with a displacement of the wire engaging means (20) in an arcuate path with the engagement point of the first wire holding means (21) as center, whereby the wire completely bent at the points of engagement of the first thread holder member and the engaging member and halfway at the site of the engagement of the second thread holder member, a forward and eating movable member (25) for intermittently advancing the trees ( 10) such a distance that the place where the wire is bent in half is fitted in the first wire holder means (21), and a frame supporting all parts with guide means for the wire. Device according to claim 4, characterized in that they are pivotally connected to each other at their first end, that a first and a second link arm (ll and 12, respectively) of which the first arm (ll) at its second end are pivotally mounted on the frame concentrically with the point of engagement of the first wire holding member (21) and the second arm (12) at its second end are pivotally mounted on a means so as to be linearly displaceable towards and from the other end of the first arm (II), on the frame guided means (30), the second wire holding means (22) with its point of engagement concentric with the arm bearing supports that the wire engaging means (20) is arranged at the place where the arms (11, 12) are pivotally connected to each other. Device according to claim 5, characterized in that the wire holding means (21) at the second end of the first arm (II) consists of a plane perpendicular to the plane of movement of the arm (II). , against a stop acting on the frame hydraulic clamping jaw while the wire holding means (22) at the other end of the second arm (12) consists of a plane parallel to a plane of movement of the arm (12), also against a stop acting on the frame, hydraulic clamping jaw. 7. An alternative according to claim 4 or 5, characterized in that the wire engaging means (20) is arranged on a third arm (16), one end of which is pivotally mounted by means of the bearing means (13), by means of the first and the second arm is pivotally connected to each other, and the other end of which is pivotally mounted next to one end of a fourth arm (17), the opposite end of which is pivotally mounted on the frame at a distance from the bearing point (14) at the first arm (ll) other end corresponding to the distance between the bearings of the third arm (16). Device according to claim 6, characterized in that the thread engaging means (20) on the third arm (16) consists of a fold-down and fold-down hook, which is connected to a piston and cylinder assembly (18) by means of a shaft which extends centrally through a bearing housing (31), the bearing surface of which faces the first and second arm (11, 12) in the wire bending plane is bevelled towards the center from the opposite end edges of the housing, perpendicular to the bending plane, so that it the projecting hook (20) after lowering over the wire (10) can pull the wire (10) towards said surface with a force below the wire holding means (21, 22) holding force during bending thereof and applying tension in those from the buckling point to the tensioning means (21, 22) at the other end of the arms (ll, 12) extending the wire legs. Device according to one of Claims 4 to 7, characterized in that the feeding device (25) consists of a pneumatically or hydraulically manoeuvrable jaw (fr. L 0 k. LW 30 ßäüåššl-Éšïf fl- sïš '13 unit (26), which is displaceable on the stem by means of a piston and cylinder assembly (27). Device according to any one of claims 4-9, characterized in that a first adjusting device (52, 56, 57) is connected to a wire feeding means (44) for changing the wire feeding distance during operation, that a second adjusting device (53 , 59, 54, 58) is coupled to the second wire holding member (42) to cause it to engage the wire (10) at a location whose distance to and distance of movement from the engagement point of the first wire holding member (40) corresponds to the changed wire feed distance. , and that a third adjusting device (55, 60) is arranged to change the location of the engagement of the thread engaging means (46) with the thread (10), so that it is constantly in the middle between the engaging locations of the threaded needle means (40, 42). 11. ll. Device according to claim 10, characterized in that the first adjusting device consists of a fixed and a movable stop (57 and 56, respectively), between which the wire feed means (44) is movable and of which the movable (56) has a threaded opening , which is arranged on a first threaded portion (52) of a first motor-driven shaft (50), that the second adjusting device is formed by two movable stops (58, 59), between which the second wire holder means (42) is movable and by which one has a threaded opening, which is arranged on a first threaded portion (54) on a second motor-driven shaft (51) while the second stop (59) has a threaded opening, of the first motor-driven shaft (50) and that the third, which is arranged on a second threaded portion (53), the adjusting device consists of an ear (60) connected to the wire engaging means (46) with a threaded opening, which is arranged on a second threaded portion (55) of the second shaft (51). ), the threaded portions (52, 53) of the first shaft (50) and the the first threaded portion (54) of the second shaft (51) consists of threads of the same pitch while the second threaded portion (55) of the second shaft (51) consists. . _ _ _ __ _____ _________________'______ "af-mn nfvgg fi fi CC? Q fi Qm 33? a; 14 of a thread with half the pitch of the first-mentioned threads, and that means are provided for regulating the motors, so that the shafts (50, 51) rotates at the right times in the bending cycle. _ _.-.> _ ...___. ~ ... f.-........_...._