奥地利专利AT519106A4 Grid welding machine and method for producing wire mesh

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专利摘要:
A method for producing elongate wire meshes provides that a family of longitudinal wires are continuously moved at a constant speed in the longitudinal direction. In this case, the upper electrodes (12) are moved from an upper position downwards onto the intersection points of longitudinal and transverse wires resting on the lower counterelectrodes (13) until they are immediately after the impact of the respective transverse wire (4). or the two respective transverse wires (4) reach on the longitudinal wires a lower first position of incipient welding; The upper electrodes (12) together with the lower counterelectrodes (13) then move synchronously with the grating in the longitudinal direction as far as a second, rearward position of the terminating welding at the same height level, with the contact pressure maintained. The device suitable for this method provides a feed device for the process of the family of longitudinal wires on a stationary outer frame (1), as well as electrodes (12) and counterelectrodes (13) on a movable frame (14) from an upper one Position down to the resting on the lower counter electrodes (13) intersection points of the wires and then again upwardly movably mounted.
公开号:AT519106A4
申请号:T566/2016
申请日:2016-12-14
公开日:2018-04-15
发明作者:
申请人:Evg Entwicklungs U Verwertungs Ges M B H；
IPC主号:

专利说明:

Summary
A method for producing elongated wire grids from a horizontal sheet of parallel longitudinal wires, which are welded to this at right angles with transverse wires at the intersections of the longitudinal and transverse wires, provides that the sheet of the longitudinal wires continuously with: constant speed in the Moved in the longitudinal direction and the cross wires above and if necessary also below the moving coulter successively brought up to the longitudinal wires and brought into contact with them according to the division of the cross wires and in the correct position and at the crossing points of the grid by means of electrodes and thus interacting counter electrodes according to the electrical resistance method are welded to the cross wires, while the electrodes and the counter electrodes with their welding surfaces are pressed against one another with the interposition of the crossing points. The upper electrodes (12) are moved downwards from an upper position to the crossing points to be formed lying on the lower counter electrodes (13) until they immediately after the respective cross wire (4) or the two respective cross wires (4) have hit. reach a lower first position of the beginning of welding on the longitudinal wires; then the upper electrodes (12) move together with the lower counter electrodes (13) at / 32
maintained contact pressure with the grid synchronously in the longitudinal direction up to a second position at the same height level in the flow direction at the back of the end of the welding; thereupon the electrodes (12) and counter electrodes (13) move back together to their former position in relation to the longitudinal direction, while the upper electrodes (12) alone return to their upper position and finally down again to the first lower position of the beginning Welding in contact at the crossing points of the two subsequent cross wires (4) are moved.
The device suitable for this method provides a feed device for moving the sheet of longitudinal wires on a stationary outer frame (1), and a pulling device (6) for pulling wire for the transverse wires (4) from a coil (5) and for Feeding this wire to a transfer device (6) running transversely to the family of longitudinal wires above or below this. From there, the transverse wires (4) can be brought up one after the other to the longitudinal wires and can be brought into and out of them in accordance with the division of the transverse wires (4) in accordance with the position. There are also electrodes (12) and counter electrodes (13) for pressing their welding surfaces against one another with the interposition of the crossing points of the transverse (4) and the longitudinal wires; Both the upper electrodes (12) and the lower counter2 / 32 * · · · · · ····· ♦ · · · <········· electrodes (13) are on a frame (14) arranged, which can be moved back and forth periodically in the longitudinal direction; the upper electrodes (12) are also mounted on the movable frame (14) so that they can be moved from an upper position downwards to the crossing points resting on the lower counterelectrodes (13) and then upwards again.
(Fig. 3) / 32 • · · · · · · ·
SCHÜTZ u. PARTNER
PATENTANWÄLTE KG
EUROPEAN PATENT AND TRADEMARK ATTORNEYS
A-1200WIEN, BRIGITTENAUER LÄNDE 50
DIPL.-ING. DR. TECHN. ELISABETH SCHOBER
DIPL.-PHYS. DR. PHIL. TOBIAS FOX
DIPL.-ING. WOLFGANG NOSKE
TELEPHONE: (+43 1) 532 41 30-0 TELEFAX: (+43 1) 532 41 31
E-MAIL: MAIL@PATENT.AT
The invention relates to a method for producing elongated wire grids from a horizontal array of parallel longitudinal wires which are welded to transverse wires running at a right angle thereto at the crossing points of the longitudinal and transverse wires.
The invention further relates to a grid welding machine which operates continuously according to the electrical resistance method for carrying out the method, with a stationary longitudinal frame on which a horizontal array of parallel longitudinal wires can be moved continuously in the production direction by means of a feed device, and with a pulling device by means of which the transverse wires of a coil can be pulled off and one can be fed across to the family of longitudinal wires above or below this transfer device, in which a plurality of transverse wires can be picked up and from there one after the other can be brought up to the longitudinal wires and can be brought into line with the division of the transverse wires accordingly and in a suitable manner can be dispensed there, as well as with electrodes and counter electrodes, the welding surfaces of which are below
4/32
····· ··· · • · ·· · ·· «·
Intermediate arrangement of the crossing points formed between the longitudinal wires and the transverse wires can be pressed against one another.
In practice, mesh welding machines are predominantly used, in which the horizontal group of the longitudinal wires is moved intermittently in order to enable the welding of the longitudinal wires at stationary crossings of the grid with laterally introduced transverse wires in the pauses in movement. The disadvantage here is that the entire grid and the entire device required for its movement must be braked and accelerated again for each of the welding phases, which causes a lot of noise and a very high energy consumption.
In order to avoid these disadvantages, a continuously working welding process with the patent specification AT-B-357 005 by the applicant has already been proposed. Here, the family of longitudinal wires is moved continuously at a constant speed in the longitudinal direction and the transverse wires above the moving family are successively brought up to the longitudinal wires and brought into contact with them according to the division of the transverse wires and in the correct position and at the crossing points of the grid Electrodes and counter electrodes using the electrical resistance method with the / 32

Cross wires welded; the lower electrodes are pressed against the upper counter electrodes with the interposition of the crossing points. The electrodes and counter electrodes are designed as rollers, which are rotatably mounted on axes arranged transversely to the longitudinal direction and run against one another with the interposition of the crossing points of the continuous longitudinal and transverse wires; they touch each other only selectively at the respective crossing points. The duration of the welding operations is limited to the short period of point contact between the rotating rollers, so that this period of time is only sufficient for the complete welding at the intersection points when the grid runs very slowly. Grids made of thicker wires cannot be made with this method at all for the same reason.
The same applies to the method known from the patent specification AT-B-346 668 of the applicant for producing a lattice web from intersecting wire sheets, each of which extends in a zigzag shape to the longitudinal direction of the web. The wire coulters continuously pass through a welding area with moving electrodes. Here too, only low production speeds and / or wire diameters are possible due to the short time available for welding.
/ 32
The invention has for its object to eliminate the aforementioned serious disadvantages of the known continuous mesh welding machines. The invention is based on a method for producing elongated wire grids from a horizontal array of parallel longitudinal wires, which are welded to this at right angles to transverse wires at the intersections of the longitudinal and transverse wires, as described in the aforementioned AT-B-357 005. Here, the family of longitudinal wires is moved continuously at a constant speed in the longitudinal direction and the transverse wires above and, if appropriate, also below the moving family are successively brought up to the longitudinal wires and brought into line with the division of the transverse wires accordingly and in position welded to the cross wires at the intersection points of the grid by means of electrodes and counter electrodes using the electrical resistance method, while the electrodes and the counter electrodes with their welding surfaces are pressed against one another with the interposition of the intersection points t are. The invention consists in such a method that the upper electrodes are moved from an upper position downward to the crossing points to be formed lying on the lower counter electrodes until they immediately after placing the respective transverse wire or the two respective transverse wires on the longitudinal wires a / 32
·· ·· · ·· · «Reach the first position of the beginning of welding and then move along with the lower counter electrodes while maintaining, constant or under certain circumstances varying contact pressure with the grid synchronously in the longitudinal direction, the welding being carried out in the required time period during the forward movement becomes, whereupon the electrodes and counter electrodes together return to their former position in relation to the longitudinal direction, while the upper electrodes return to their upper position and finally down again to the position of the beginning welding in contact with the crossing points of the two subsequent cross wires are moved.
The grid welding machine according to the invention, which works according to the electrical resistance method, is based on the known welding machine as described in the above-mentioned AT-B-357 005: The known machine has a stationary machine frame, on which a horizontal array of parallel longitudinal wires lies continuously by means of a feed device is movable in the direction of production, as well as a puller, by means of which the transverse wires can be pulled off a spool and one can be fed across the transfer device running above or below this line of longitudinal wires, in which a plurality of transverse wires can be received and from there one after the other can be brought up to the longitudinal wires / 32
····· ··· · ·· ·· · ·· · * and on these according to the division of the transverse wires can be brought into the correct position and dispensed there; In addition, electrodes and counterelectrodes are provided on the machine, the welding surfaces of which can be pressed against one another with the interposition of the crossing points formed between the longitudinal wires and the transverse wires.
Based on this prior art, the invention provides that both the upper electrodes and the lower counter electrodes are arranged on an inner frame which is mounted in the outer longitudinal frame and can be periodically reciprocated in the longitudinal direction with respect to it, and the upper electrodes are arranged from an upper one Position down on the crossing points resting on the lower counter electrodes are movably supported, they reach a lower first position of the beginning of welding in contact with the crossing points and then by moving the frame in the longitudinal direction together with the lower counter electrodes while maintaining contact pressure in synchronism with move the grid to a second, at the same level, position of the end of the welding and then, by moving the frame back, the electrodes and the counter electrodes return to their former position in relation to the longitudinal direction, while the upper one n electrodes first up again and finally in the former lower first position of the beginning welding 9/32
ßens are movable on or on the subsequent cross wires.
Further preferred features of the invention can be found in the dependent claims.
Advantages of the invention are, compared to intermittently working welding machines that have been predominantly used up to now, the significantly lower energy requirement, the possible high production speeds and the significantly lower noise pollution due to the elimination of the multiple braking and acceleration of the produced grid web and the devices required for its movement advantageous.
The invention is explained in more detail with reference to an embodiment of a grid welding machine according to the invention shown in the drawing; is in it
1 is a schematic overall view of the machine in a side view,
2 is an end view of this machine,
Fig. 3 shows the central part of the machine of Figures 1 and 2 in a side view.
Figures 4-6 are working diagrams of the machine at different production speeds, showing the time of use of different components of the machine and illustrating the process.
As shown in Figs. 1-3, the grid welding machine has a stationary outer frame 1 with a horizontal working plane 2 (shown thick in Fig. 1), on which a group of horizontal parallel longitudinal wires, not shown, by means of a feed device, not shown, e.g. in the form of rolls or rollers, is moved in the direction of production 3. In contrast to the mesh welding machines that are mainly used in practice, in which the horizontal family of longitudinal wires is moved intermittently to enable welding of the longitudinal wires at stationary crossings of the grid with laterally introduced transverse wires in the pauses in movement, the family of longitudinal wires becomes continuously more constant Speed moving in the direction of production.
The cross wires 4 can either be brought up from above or below or on both sides to the family of longitudinal wires, and so grids with the position of transverse wires above or below the longitudinal wires can be produced. For the supply of the cross wires 4, the wound wire is drawn off from a coil 5 by means of a pulling device 6, cut to the required length of the cross wires 4 and the 11/32 • 2 · 2. · · · · ·· ·· ·· · ·· · se fed to a transfer device that can accommodate several cross wires. The transfer devices are considered transverse to
Crowd of
Line wires arranged above or below this family
Drums formed, of which a drum 7 above the family of longitudinal wires and one
Drum 7 below this
Share on the stationary outer frame together with a respective one
Rotary drive is mounted. A common one is also possible
Rotary drive for the upper 7 and lower drum 7, which at
Requirement can be separated from one of the drums 7 and then only applied to the other drum 7. The surface of the drums extends in their longitudinal direction
Grooves that are open to the outside. Each drum 6 has at least three grooves evenly distributed around its circumference
8, of which in
Start operation of at least two cross wires each. The drums 7 can be rotated intermittently;
in the
Filming breaks pushes a not described here
Weft device a cross wire 4 from the side across its entire machine width into one at the top
Groove 8 located on the underside of the drum 7, whereupon the transverse wire 4 is braked in its final position above or below the family of longitudinal wires at the end of the groove 8;
Such a drum 7 together with the necessary braking device for the transverse wires 4 shot into the grooves 8 is described in the applicant's published EP-A-1 579 932, so that it will not be discussed in more detail here
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needs; in order to prevent the cross wires 4 from falling out while the drum 7 continues to rotate, the cross wire 4 is held by means of a flap 10 articulated at 9 on the stationary outer frame 1; Simultaneously with the insertion of the above-mentioned cross wire 4 into the groove 8, the cross wire 4 located there after a turning step is tapped from a groove 8 of the drum 7 previously loaded with the previous cross wire 4.
The tapping takes place by opening the flap 10 by means of a series of synchronously moving gripper fingers 11, which subsequently bring the transverse wire 4 into the final welding position while maintaining its horizontal transverse position by moving towards the working plane 2 and in the production direction 3. The design of the gripper fingers 11 is explained below. The row of gripping fingers 11 moves the tapped cross wire 4 as follows: First, the respective cross wire 4 is brought along a section of an approximately elliptical curved path 11 'in the production direction 3 to the front and down or up against the moving sheet of the longitudinal wires. Then the gripper fingers 11 travel along a short straight section with the longitudinal wires and the transverse wire 4 to be welded. As an example, it should be mentioned that at a production speed of approximately 0.35 to 0.5 m / s, the length of this short distance is approximately 5 mm. Then sweep
13/32 na: -:
····· ··· · ·· ·· · · * · · the gripper fingers 11 back along a section of an elliptical cam track back and up or down to their initial gripping position, in order to return there in the next groove 8 tapping lying next cross wire 4.
Immediately after the cross wire 4 has been placed on the longitudinal wires, electrodes 12 coming from above move with their welding surfaces to the crossing points of the wire grid, which lie on the welding surfaces of the lower counter electrodes 13. The interacting welding surfaces are pressed against one another with the interposition of the crossing points of the grid until the welding is carried out after the welding time required for welding. For a sufficient, permanent welding corresponding to the requirements, a travel distance of the electrodes 12 and counter electrodes 13 of max. approx. 80 mm required.
The electrodes 12 and counter-electrodes 13 are arranged on an inner frame 14 (or also carriage) which is mounted on the stationary outer frame 1 and can be moved back and forth periodically relative to it, the travel distance corresponding to the 80 mm mentioned by way of example. The inner, movable frame 14 is designed in the form of a carriage, which by means of rollers 16 a guide 17 of the
14/32 • · · · ·
Χ2. · ····· · · · · ·· ·· · ·· · · outer frame 1 can be moved along. The frame 14 is driven by means of a motor-driven drive pinion 18 which is mounted on the outer frame 1 and engages in a rack 19 fastened to the frame 14.
For moving the electrodes 12 up and down, they are guided vertically on the inner frame 14 and by means of an adjustment drive, e.g. in the form of hydraulic or pneumatic cylinder-piston devices 20, movable.
The gripping fingers 11 are designed according to the principle published in detail in AT-B-515 914 by the applicant, so that a detailed representation can be dispensed with here. A number of gripping fingers 11 corresponding to the number of longitudinal wires and having a V-shaped incision at its working end for gripping the cross wire 4 is attached at the other end to a horizontal working bar arranged transversely to the longitudinal wires above and below the same. The work bar can be moved by means of a lever system which is articulated at a fixed point and has two eccentrics, one eccentric causing a horizontal movement and the other eccentric causing a vertical movement. Another lever system enables the resilient pressing of the cross wire 4 pressed by the gripping fingers 11 against the longitudinal wires along the short path of the gripping fingers moving along
15/32 ·· · «··············« · ··· »· · · ·
TT -> · <·· • -¼ - · · · ·· * ····· · · · · ·· ·· · ·· · · with the crossing points of the grid, until then the welding surfaces of the electrodes 12 on the Impact intersections and press them against counter electrodes 13 and hold the intersections together. The resilient pressing enables adaptation to different thicknesses of the cross wires 4.
The contact pressure of the electrodes 12 can be kept constant over the entire welding cycle or, depending on the material to be welded, can also follow a predetermined profile. Such a profile can contain the three stages, each with a different contact pressure "pre-pressing without electricity," welding and "post-pressing.
The lever systems lead to a self-contained path of the gripping fingers 11 along a curved path as described above.
The drawing shows, moreover, fixed welding transformers 22 fastened to the outer frame 1, which are connected to the counter electrodes 13 and the electrodes 12 by means of flexible current strips 23 and a current bridge 24 fastened to the frame 14.
FIGS. 4-6 combine respective partial diagrams for the various moving components A1 to A4 of the inventive 16/32 • 9 • · · ····· - · »f · • e · · <· · * · ß welding machine over a common one x-axis on which the time is plotted over a welding cycle. This shows the interaction of the movements of the various components Al - A4; A1 refers to the feed device for the wire mesh or its longitudinal wires, A2 to the gripper fingers 11, A3 to the vertical movement of the upper welding electrodes 12 and A4 on their and the lower counter electrodes 13 horizontal movement by moving the frame 14 back and forth.
The working diagrams shown in FIGS. 4-6 relate to the production of a grid with a cross-wire pitch of 150 mm. The production speeds differ (Fig. 4: 0.5 m / s; Fig. 5: 0.45 m / s; Fig. 6: 0.342 m / s), the number of welding cycles performed per minute (Fig. 4: 200; Fig. 5: 190; Fig. 6: 180) and the number of alternating current periods required per welding cycle (Fig. 4: 5; Fig. 5: 6;
Fig. 6: 8).
In the partial diagram Al, the speed of the feed device for the grating is plotted on the y-axis and its constant size al can be seen.
In the partial diagram A2, the vertical path of the gripping fingers 11 on the y-axis is when the cross wire 4 is brought in from the drum 17/32
• <· · «« mel 7 applied to the family of longitudinal wires. The movement of the gripping fingers 11 begins at the time t1, whereupon the cross wire 4, after passing through a first section of an approximately elliptical curved path, reaches the family of longitudinal wires at the time t3. Thereupon the gripper fingers 11 travel synchronously with the grating up to the time t4 and lift off from it again at t4 and then move further along the approximately elliptical curved path until they return to the earlier position assumed at tl.
In the partial diagram A3, the vertical path of the upper welding electrodes 12 is plotted on the y-axis by means of the cylinder-piston devices 20. Starting from the open position a3.1 assumed at time t-1, acceleration follows until time t2, where the grating speed is reached; at time t4, the welding electrodes arrive at the bottom in the closed position a3.2 and hold the cross wire 4 on the longitudinal wires; At time t4, the pre-pressing of the crossing points begins shortly before the welding process begins at time t5. The welding process lasts from time t5 to the subsequent time t6. This is followed by a short re-pressing of the welding electrodes 12 until time t7; the welding electrodes 12 are moved synchronously with the grid in the period t4-t7; at time t7, the welding electrodes 12 also lift from the crossing points
18/32
• · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · From the time tl2, the welding electrodes 12 begin to move down again.
In the partial diagram A4, the speed of the horizontal back and forth movement of the frame 14 carrying the upper welding electrodes 12 and the lower counter electrodes 13 is entered on the y-axis. Its maximum speed in the production direction 3 is denoted by a4.1, the maximum speed in the opposite direction by a4.2. It can be seen that from time t7 the speed of frame 14 is decelerated to the point of reversal at time t8 and then accelerated again in the opposite direction until time t10 when the maximum return speed is reached. At time t11, the delay in the return travel of frame 14 begins, which moves again in production direction 3 from time tl3.
The welding cycle shown in Figs. 4-6 lasts from t0 to tl3.
19/32 · · · • · · · · · · ·

权利要求:
Claims (13)
[1]
claims
1. A method for producing elongated wire grids from a horizontal array of parallel longitudinal wires, which with this in. cross wires running at a right angle are welded at the intersections of the longitudinal and transverse wires, the family of longitudinal wires being moved continuously at a constant speed in the longitudinal direction and the transverse wires above and, if appropriate, also below the moving family being moved one after the other to the longitudinal wires and on these, according to the division of the transverse wires, in the correct position, and at the crossing points of the grid by means of electrodes and interacting counter electrodes are welded to the transverse wires according to the electrical resistance method, while the electrodes and the counter electrodes with their welding surfaces are pressed against one another with intermediate arrangement of the crossing points , characterized in that the upper electrodes (12) are moved downward from an upper position to the intersection points to be formed lying on the lower counter electrodes (13), until they reach a first position of the beginning of welding immediately after placing the respective cross wire (4) or the two respective cross wires (4) on the longitudinal wires and then together with the lower counter electrodes (13) while maintaining constant or variable contact pressure with the grid synchronously in the longitudinal direction up to a second position at the same height level in the downstream direction of the end of the welding, the welding being carried out in the required time period during the forward movement, whereupon the electrodes (12) and counter electrodes (13 ) return together to their previous position in relation to the longitudinal direction, while the upper electrodes (12) return to their upper position and finally down again to the first lower position of the beginning welding in contact with the crossing points of the two or the following two Cross wires (4) are moved.
[2]
2. The method according to claim 1, characterized in that the or the two on the set of longitudinal wires in the correct position cross wires (4) are held at the intersection until the upper electrodes (12) with the interposition of the intersections against the lower counter electrodes (13) are pressed.
[3]
3. According to the electrical resistance method continuously working grid welding machine for performing the method according to claim 1 or 2, with a stationary outer frame (1) on which a horizontal set of parallel longitudinal wires lies on by means of a feed device can be moved continuously in the direction of production (3), and with a puller (6), by means of which the transverse wires (4) can be pulled off a spool or rings (5) and can be fed to a transfer device running above or below this line of longitudinal wires, in which a plurality of cross wires (4) can be received and from there one after the other can be brought up to the longitudinal wires and can be brought into line with them according to the division of the cross wires and can be dispensed there, as well as with electrodes (12) and counter electrodes (13), the Welding surfaces with the interposition of the between the longitudinal wires and the Querdr seams (4) formed intersection points can be pressed against one another, characterized in that both the upper electrodes (12) and the lower counter electrodes (13) are mounted on a frame (1) which is mounted on the stationary frame and can be periodically moved horizontally in the longitudinal direction relative to it inner frame (14) are arranged and the upper electrodes (12) on the movable frame (14) are movably supported from an upper position downwards towards the crossing points resting on the lower counter electrodes (13), whereby they abut the crossing points a lower first position of the beginning welding er22 / 32
[4]
4 · ♦ · reach and then move along by moving the frame (14) in the longitudinal direction together with the lower counter electrodes (13) while maintaining the contact pressure synchronously with the grid to a second position in the flow direction at the same height in the downstream direction of the end of the welding and then by retracting the inner frame (14) the electrodes (12) and the counter electrodes (13) return to their former position in relation to the longitudinal direction, while the upper electrodes (12) first up again and finally down into the former lower first Position of the beginning welding on or on the subsequent cross wires (4) can be moved.
4. Lattice welding machine according to claim 3, characterized in that the or the two transverse wires (4) to the family of longitudinal wires by means of gripping fingers (11) can be brought into position, the gripping fingers (11) to the several of the puller (6 ) Arrived cross wires (4) receiving transfer device for receiving the cross wires (4) mobile and then can be approached together with a recorded cross wire (4) to the crossing points until the cross wire (4) at a time immediately in front of the upper electrodes (12) on the Crosses and the gripper fingers (11) then by means of
23/32 ·· «<·« · ♦ of the movable frame (14) first a first section alone before starting the welding and then together with the electrodes (12) and counterelectrodes (13) a further section of which is synchronized with the longitudinal wires drive the horizontal path to be formed, whereupon the synchronous driving of the electrodes (12) and counter electrodes (13) can be continued until the welding is finished.
[5]
5. Grid welding machine according to one of claims 4, characterized in that the several from the pulling device (6) arriving cross wires (4) receiving transfer device as transverse to the family of longitudinal wires above or below this drum (7) is formed, which on their Surface in the longitudinal direction has grooves (8), in which grooves (8), after each rotation of the drum (7), a plurality of transverse wires (4) can be picked up and from there can be picked up in sequence by means of the gripping fingers (11).
[6]
6. Grid welding machine according to one of claims 3 to 5, characterized in that the coils (5), the pulling devices (6), the drums (7), the gripping fingers (11) and for welding according to the electrical resistance measurement 24/32: -: ^ 2 necessary welding transformers (22) are mounted on the stationary outer frame (1).
[7]
7. Grid welding machine according to one of claims 3 to 6, characterized in that for the power supply from the stationary transformers (22) to the electrodes (12) and counter electrodes (13) provided power supply devices (24) via a movable frame (14) reaching partial area are designed as flexible current strips or power cables (23).
[8]
8. Grid welding machine according to one of claims 3 to 7, characterized in that the travel of the reciprocating frame in the longitudinal direction (14) is equal to the common horizontal travel path of the upper electrodes (12) and the lower counter electrodes (13) during welding is and in about 30 to max. Is 80 mm long.
[9]
9. Grid welding machine according to claim 4, characterized in that the first section of the electrodes (12) and counter electrodes (13) covered together during welding horizontal travel path, which section also covers the gripping fingers (11) synchronously with the crossing points, approx. Is 3 to 10 mm long.
25/32 ♦
[10]
10. Grid welding machine according to one of claims 8 and 9, characterized in that at a production speed of the grid of about 0.35 to 0.5 m / s, the short travel distance of the gripping fingers (11) is about 5 mm and the further travel distance of the electrodes ( 12) and counter electrodes (13) is about 80 mm long.
[11]
11. Grid welding machine according to claim 5, characterized in that the transverse wires (4) located in the grooves (8) of the drums (7) before being gripped by means of the gripping fingers (11) by means of pivotable flaps (10) from falling out of the respective groove (8) are prevented.
[12]
12. Grid welding machine according to one of claims 3 to 11, characterized in that the horizontal movement of the movable frame (14) by means of a motor-driven pinion (18) which engages in a rack (19) attached to the movable frame (14).
[13]
13. Grid welding machine according to one of claims 3 to 12, characterized in that for the up and down movement of the electrodes (12) on the horizontally movable frame (14) on this hydraulic or pneumatic cylinder-piston devices (20) is arranged.
26/32
27/32 ···· ···· · '··· ···· • · · ·
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29/32 ·· ···· ···· ···· ··· ♦
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DE2733820A1|1979-02-15|Binding wire spiral prodn. for blocks of paper sheets - includes stages for dividing, perforating and combining sheet stack, after which wire spiral is inserted

DE3836974A1|1990-05-03|METHOD AND DEVICE FOR FOLDING AND LAYING TEXTILE FILMS IN STACKS

DE2031468A1|1971-01-14|Device for forming eyelets on springs

DE1116184B|1961-11-02|Method and welding machine for the production of wire nets

DE1817040A1|1970-07-09|Method and device for the production of brushes with twisted bristle holder

同族专利:

公开号 | 公开日

US20190337083A1|2019-11-07|

RU2741580C2|2021-01-27|

BR112019006209A2|2019-06-18|

EP3554752B1|2020-12-16|

AU2017374521A1|2019-06-27|

EP3554752A1|2019-10-23|

AT519106B1|2018-04-15|

RU2019117424A|2020-12-07|

ES2852003T3|2021-09-10|

TW201821176A|2018-06-16|

WO2018107188A1|2018-06-21|

TWI661877B|2019-06-11|

CN109922916A|2019-06-21|

RU2019117424A3|2020-12-15|

JP2020513330A|2020-05-14|

US10717144B2|2020-07-21|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA566/2016A|AT519106B1|2016-12-14|2016-12-14|Grid welding machine and method for producing wire mesh|ATA566/2016A| AT519106B1|2016-12-14|2016-12-14|Grid welding machine and method for producing wire mesh|

CN201780069149.7A| CN109922916A|2016-12-14|2017-10-04|Grid bonding machine and method for manufacturing metal wire grid|

BR112019006209A| BR112019006209A2|2016-12-14|2017-10-04|grid welding machine and process for wire mesh production|

PCT/AT2017/000070| WO2018107188A1|2016-12-14|2017-10-04|Mesh welding machine and method for producing wire meshes|

AU2017374521A| AU2017374521A1|2016-12-14|2017-10-04|Mesh welding machine and method for producing wire meshes|

JP2019553596A| JP2020513330A|2016-12-14|2017-10-04|Grid welding machine and wire grid manufacturing method|

ES17787298T| ES2852003T3|2016-12-14|2017-10-04|Mesh welding machine|

RU2019117424A| RU2741580C2|2016-12-14|2017-10-04|Machine for welding of meshes and method of making wire meshes|

US16/342,395| US10717144B2|2016-12-14|2017-10-04|Grid welding machine and method for producing wire grids|

EP17787298.3A| EP3554752B1|2016-12-14|2017-10-04|Grid welding machine|

TW106134931A| TWI661877B|2016-12-14|2017-10-12|Welded wire mesh machine and method for manufacturing welded wire mesh|

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