Device for electric contact welding of two sheet articles

专利摘要:
The invention relates to welding machines, in particular to installations for the welding of legs to the tear-off parts of rigid cans. The purpose of the invention is to increase productivity when welding legs with tear-off parts of cans. Sheet 1 is fed by the stepping conveyor 6. The tabs are conveyed by the conveyor 9 to the welding station. The conveyor 9 is made in the form of a disk, which is mounted on the side of the conveyor 6 and has the ability to rotate about its central axis. The disk has through holes 66 for the passage of welding electrodes. In addition, radial slots are made in the disk to accommodate the legs in which vacuum clamps are installed. The device is equipped with a die-cut die made of a metal strip, which is located opposite the welding electrodes. In the punch of the stamp is mounted a vacuum suction cup to hold the legs. The device allows to increase productivity by pre-orientation of the legs, the possibility of dual installation of welding positions. 1 hp f-ly, 12 ill.
公开号:SU1572403A3
申请号:SU864027153
申请日:1986-03-17
公开日:1990-06-15
发明作者:Оппрехт Пауль；Штигер Отмар；Крамер Феликс
申请人:Эльпатроник А.Г.(Фирма)；
IPC主号:

专利说明:

The invention relates to welding machines, in particular to installations for the welding of legs to the tear-off parts of rigid cans by resistance welding.
The purpose of the invention is to increase productivity when welding legs with tear-off parts of cans.
Figure 1 shows a welding machine, side view; figure 2 - the same option; on fig.Z - section aa in figure 1; figure 4 - section bb in figure 1; figure 5 is a section bb In figure 1 and 2; in fig. 6 is a section of YY in FIG.
and 2; figure 7 is a device in perspective view; on Fig - machine} figure 9 is the same, top view; figure 10 is a section dD in figure 9; FIG. 11 shows the distribution E-E in FIG. 9, in FIG. 12 - the same, isometric view.
In welding machines on sheet metal parts x 1 of tinplate with a thickness of, for example, 0.2 mm, 2 or two such tear pieces are parallel to the longitudinal sides of the sheet parts (FIG. 8) and are welded to the end of each of these pieces. foot 3. Each of these machines
ate j to
Ј
WITH

cm
has a store 4 in which sheet parts are stacked. A removable device 5 is installed under the magazine, followed by a conveyor 6, which sequentially moves the sheet metal parts in the horizontal plane. Behind the conveyor 6 sheet parts there is a punching position 7 for embossing tear-off frames 2, and a positioning device 8 is installed, which successively fixes the sheet parts in a precisely defined position in the working area of the legs conveyor 9 and the welding station 10 or two conveyors 9 legs and two welding stations 10 (Fig.8
These devices and components, available on each of the machines shown, are controlled from a common camshaft 11 shown in Figures 1 and 2 and driven from a motor that is not shown.
The camshaft 11 via a worm gear 12 is connected to an eccentric 13, which is connected to a removable device 5, on which a connecting rod 14 is mounted. The connecting rod 14 is pivotally connected to the crockopf 15, which on the upper side has two vacuum suction plates 16 and has the ability to move upwards and down in the cutout of the table 17.
At the end of each upward move, the vacuum of the suction cups is sucked to the lower side of the lowest sheet metal part 1 located in the shop 4, and during the next course down this sheet part is pulled down from the shop and placed on the table 17.
The removable device 5 also has a fork pusher 18 mounted on a horizontal rod 1 and having the possibility of reciprocating movement from the camshaft 11 through the worm gear 12 and the crank mechanism 20 for moving the 17-piece part 1 on the table at each cycle from the removable device 5 to the conveyor 6.
Conveyor 6 has a plurality of bottom 21 and top 22 rollers rotating around a horizontal axis. The axles of the lower rollers 21 are located along
straight angle to the longitudinal edges of the sheet parts 1, the upper rollers 22 are installed at a small angle relative to the lower rollers 21 and as a result, each passing

Q
five
0
five
0
five
Between the rollers 21 and 22, the sheet part 1, with its one longitudinal edge, tends to press against the side stopper 23. The side stopper 23 is formed by a straight line of rollers mounted vertically.
The last lower roller 24 is a magnetic roller, which is adjustable depending on the length of the sheet. The lower rollers 21 are fixed: some of them, in Fig. 1, the first, second and third lower rollers 21, and in Figs. 2,7 and 8, the lower rollers 21, which are additionally mounted further to the right, are driven by the engine, these rollers are indicated by arrows 25. The upper rollers 22 have the possibility of free rotation and are spring-loaded in the vertical direction.
For the third (FIGS. 1 and 2) or fifth (FIGS. 7 and 8) lower rollers 21, rotated, they have a larger supporting roll 26 parallel to them and an embossing roll 27 installed parallel to them, which according to FIG. 1, 2 and 7 has a set of three annular cutting edges 28, and according to FIG. 8, for a set of such cutting edges 28 located near the edge of an embossing roll. The support 26 and the embossing roller 27 are driven into rotation at a speed consistent with the peripheral speed of the lower rollers 21, and in each sheet metal 1 passing between them, one or two (Fig. 2) detachable edges are extruded parallel to their longitudinal edges 2
On the camshaft 11, second and third worm gears 29 and 30 are mounted, which, through a crank mechanism 31 and 32, drive the grippers 33 and 34. The grippers 33 and 34 are guided in parallel with the direction of movement of the conveyor 6 to the rods 35 and along a common guide bar 36. Each gripper 35 and 34 has a spring-loaded dog 37 and 38.
The gripper 33 relates to a positioning device, at each working cycle of the welding machine it picks up the sheet part 1 which passes between the support 26 and the embossing roller 27 with a pawl 37. Dog 37 pushes this item 1 in exactly
This is the position in which its tear-off juice 2 is located in the working zones of welding station 10. And the gripper 34 can be attributed to the conveyor 6, its task is to further move the sheet metal part 1 after welding the foot 3 until the next bottom roller 21.
According to FIG. 2, the device excludes grippers 33 and 34 with their drives and dogs, and the positioning device has an abutment 39, which is moved to the trajectory of the sheet parts 1, which is controlled from the camshaft 11 through the cam 40 and the lever mechanism. Following the support roller 26, the first and second lower rollers 21 move the sheet part 1 provided with tear-off 2 to the stop 39 in order to position it to weld the foot 3. Once this sheet part reaches the stop 39, the upper rollers 22 are connected with said lower rollers 21, are lifted up by a lifting device 41, also controlled by a cam cam 40, so that the lower rollers 21 continuing to rotate do not leave marks on the sheet metal part 1.
In the welding machine, the foot conveyor 9 comprises a substantially horizontal circular plate 42, which can be rotated 90 ° at each step around the vertical axis A and has a downwardly open nest 43 for the foot 3 located every 90 ° around the periphery. The sockets 43 have suction pads 44 connected to the suction duct 45. The plate 42 is fixed to the vertical one. shaft 46, which is controlled by the camshaft 11, can rotate from the gear 47 and is raised and lowered from the lifting device 48.
Along the secant circular plate 42, a sheet strip 49 is fed, on which the legs 3 are knocked out at predetermined intervals. The free end of the foot 3 is folded in a triangular shape.
The sheet strip 49 is incrementally moved by a device, also controlled from the camshaft 11, so that at each working cycle of the welding machine, the front is still connected to the sheet strip of paws
15
20
25
e, tO 30
40 45
50
55
3, is fed under one of the sockets 43 in such a way that it is positioned radially relative to the axis A, and the folded end of this tab is located outside the outer edge of the plate 42. The radially inner end associated with the sheet strip 49 is the end of the foot 3 between the die matrix 50 and moving up and down stamp 51, which separates the tab from the sheet strip 49 and temporarily holds it using the suction cup 52 installed on it, until the tab is securely positioned in the corresponding slot 43 and held in place by the vacuum tube 44. Then the conveyor 9 for jjanoK is rotated by 90 about the axis A, as a result of which the separated foot enters the welding station 10.
At the welding station 10 vertically one above the other, two welding electrodes 53 and 54 are installed. The lower welding electrode 53 is stationary, the upper welding electrode 54 is suspended by means of an adjustable pin 55 with a thread on the lifting device 56 and is spring-loaded downwards. Lifting device 56 is controlled via a lever system from a disc cam 40 or a corresponding control element also driven by a central camshaft 11.
Both welding electrodes 53 and 54 adopted in spot welding machines are connected to welding transformer 57 and connected to the coolant circuit 58. Between the lower welding electrode 53 and the sheet part 1 positioned above it, as well as between the upper welding electrode 54 and held below In this case, in the nest 43 of the plate 42, the paw 3 is placed transversely detachable along the cross-section 2 segments of the electrode wire 59. The latter has a flattened close to rectangular section and is wound along the guide rollers and can move step by step.
At each working cycle of the welding machine, the upper welding electrode moves downward, and the secondary circuit of the welding transformer and the tab is welded to the tear-off sheet of the corresponding sheet piece through both the indicated electrode wire strips and the foot and the sheet part. Immediately after this, the foot conveyor moves upward, freeing the welded foot.
The embodiment of the welding machine according to FIGS. 8-12 differs from the welding machine shown in FIGS. 1-7 in that only two lower driven rollers, as well as a set of upper rollers, are installed behind the support roller and the embossing roller. Behind them are located in a horizontal plane at a right angle to the conveyance direction of the conveyor of sheet parts and thereby at a right angle to the transverse section of the conveyor 60, which are separated from one another, which in the example shown has two parallel roller chains 61 and grips placed on them with intervals 62. Roller chains are also intermittently driven from the central-hub of the camshaft in such a way that, at their height, the pair of grippers 62 are approximately in line with the side stop 2 3 of the conveyor sheet parts, and between it and the above-mentioned pair of grippers 62 there is enough free space for receiving the sheet part transmitted from the conveyor belt. This sheet part is pushed by the front driven roller 24 to the side guide rail 64 mounted parallel to the transverse conveyor 60.
After two steps, feeding the roller chains 61, the above sheet part arrives at the welding station, where it is narrowed to the end section of the guide rail 63. A pusher 64 is installed on the opposite narrow side of the sheet part, which presses the part to the guide rail 63 and the very positioning in the longitudinal direction of tear-off ska. In the direction across the tear-off sheet, the sheet part is positioned by
ten
k
20
25
that the stop 39 moves upward into an effective position.
According to FIGS. 7-11, a foot conveyor is comparable to a conveyor, depicted 15724038
1-6, but its plate 42 has a downwardly protruding circular edge 65, which bounds outside the nest 43 for the legs 3 along the radius. The sheet strip 49 is set so that the tab positioned for cutting is directed radially inward with its curved end. In this case, the closed end of this tab 12 is located under one of four windows 66, each related to the socket and having such dimensions that the upper welding electrode can, without touching, pass through each of these windows 66 together with the raising and lowering guide rollers 67 for electrode wire.
The pieces of the electrode wire 59 passing through the welding electrodes 53 and 54 are also placed at a right angle to the tear-off bench 2 and foot 3, which must be welded. The direction of these pieces of electrode wire 59 coincides with the direction in which the sheet metal parts pass between the welding electrodes 53 and 54.
The embodiment of FIG. 8 differs from FIG. 7 in that despite the doubling of the cutting devices on the embossing roll on both sides of the transverse conveyor 60, the conveyors 9 for the tabs and the welding position 10 are installed, therefore at each end of the two embossed rolls 27 the tear-off staple can be welded on the tab.
The device allows the implementation of: fast mode of operation, since the tabs on the conveyor belt are supported by its outer edge and therefore cannot be displaced by centrifugal forces; the overlap between the conveyor and the sheet metal part at the welding position is small, therefore the paw conveyor is better accessible for control and maintenance, due to this small overlap, a possible dual installation of the conveyor and welding position coincides with the direction of feed of the cross conveyor and the direction in which the electrode wire moves along the welding electrodes 2 and 3, contributes to the fact that the sheet part and the foot, welded to each other, easily detach from the electrode section during further movement. Oloka without damaging ime130
35
40
45
50
55
anti-corrosion coating, in particular tin on white 1 tin.
The device has a belt conveyor 68 for transporting sheet parts with welded legs. On Fig depicts a belt conveyor mounted behind the transverse conveyor 60. At the end of the belt conveyor is installed bent catching sheet 69, dropping the sheet parts in the stack drive 70.

权利要求:
Claims (2)
[1]
1. A device for electrocontact welding of two sheet products, comprising a first step conveyor for moving one product with a given stroke and its positioning unit, made in the form of a guide, installed parallel to the longitudinal axis of the first step conveyor, and clamps located perpendicular to it, the second step conveyor for moving the second product with the same stroke and electrocontact welding
Installation with two welding electrodes, characterized in that, in order to increase productivity when welding legs with tear-off parts of rigid cans, the second conveyor is made in the form of a disc mounted on the side of the first with the possibility of rotation relative to
Central axis, perpendicular
the longitudinal axis of the first step conveyor, and the reciprocating movement along it, while the drive has through windows for
welding electrodes and radial sockets for placing the legs in them with vacuum grips installed in them, evenly spaced around the circumference and limited
on one side by the disk body, and on the other side, going to the through windows.
[2]
2. Device pop. 1, characterized in that it is provided with a die punch of metal legs of the. Strip, located diametrically opposite to the second conveyor welding electrodes, in the punch of which is mounted a vacuum suction cup
to temporarily hold the legs.
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hgt
9-9
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sr
Vr
Figs
68

类似技术:

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引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

US1308778A|1919-07-08|Chusetts |

---

US1978740A|1928-01-27|1934-10-30|M J B Co|Method of manufacturing can bodies|

---

US1884683A|1928-08-14|1932-10-25|American Can Co|Machine for attaching keys to can tops|

---

US2695941A|1948-05-10|1954-11-30|Continental Can Co|Key welding machine|

---

US2681968A|1952-04-29|1954-06-22|Pacific Can Company|Machine for welding can opening keys on can ends|

---

DE1220535B|1959-04-23|1966-07-07|Kjellberg Esab G M B H|Roller welding machine for welding sheet metal|

---

US3144955A|1961-11-27|1964-08-18|Compania Swift De La Plato Sa|Tear strip structure for cans|

---

US3481809A|1965-09-13|1969-12-02|American Can Co|Method of and apparatus for making solderless can body blanks|

---

US3557338A|1966-07-08|1971-01-19|Trw Inc|Apparatus for welding parts to workpieces|

---

DE2642040C3|1976-09-18|1979-11-15|W.C. Heraeus Gmbh, 6450 Hanau|Machine for the automatic resistance welding of metal plates forming electrical contacts on predetermined positions on a carrier tape|

---

US4214944A|1978-05-23|1980-07-29|American Can Company|Adhesive bonding of assembly parts|

---

JPS6326026B2|1983-04-09|1988-05-27|Toyo Seikan Kaisha Ltd|CH668730A5|1985-10-30|1989-01-31|Elpatronic Ag|WELDING MACHINE FOR WELDING LASHES TO SHEET PARTS.|

---

CH668760A5|1985-11-01|1989-01-31|Elpatronic Ag|MAGAZINE FOR STACKING SHEET PARTS, ESPECIALLY FOR THE PRODUCTION OF CAN.|

---

CH670242A5|1986-07-07|1989-05-31|Elpatronic Ag|

---

CH678501A5|1989-05-16|1991-09-30|Elpatronic Ag|

---

CH679219A5|1989-07-06|1992-01-15|Elpatronic Ag|

---

CH680716A5|1990-01-17|1992-10-30|Elpatronic Ag|

---

CH680715A5|1990-01-17|1992-10-30|Elpatronic Ag|

---

EP0575707B1|1992-05-25|1996-06-12|Elpatronic Ag|Method for the unpiling of single sheets from a pile of sheets and device therefor|

---

CA2135038C|1994-11-03|2002-01-22|Bob Bishop|Method and apparatus for automated processing and handling of mash welded sheet metal blanks|

---

CN102305526B|2011-06-27|2013-10-16|肇庆理士电源技术有限公司|Polar plate drying equipment|

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CN105397170B|2015-11-30|2018-02-13|郑州金泰制罐有限公司|A kind of metal sheet surface trimming production line|

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CN105344865B|2015-11-30|2018-02-16|郑州金泰制罐有限公司|A kind of metal sheet transmits calibrating installation|

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CN109719375A|2017-10-27|2019-05-07|白木工业株式会社|The seam weld method of vehicle sash|

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CN111037292B|2019-12-26|2021-04-09|福耀集团机械制造有限公司|Vehicle glass tongue piece welding equipment|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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CH1183/85A|CH667414A5|1985-03-18|1985-03-18|WELDING MACHINE FOR WELDING LASHES TO SHEET PARTS.|

---