Source: https://patents.google.com/patent/FR2549759A1/en
Timestamp: 2020-04-01 18:51:17
Document Index: 263170000

Matched Legal Cases: ['ARTS 3', 'arts 30', 'arts 3', 'arts 3', 'arts 3', 'arts 3', 'arts 3', 'arts 3', 'arts 3', 'arts 31', 'arts 41', 'arts 63', 'arts 20']

FR2549759A1 - Multi-point welding installation, in particular for vehicle bodywork - Google Patents
Multi-point welding installation, in particular for vehicle bodywork Download PDF
FR2549759A1
FR2549759A1 FR8312441A FR8312441A FR2549759A1 FR 2549759 A1 FR2549759 A1 FR 2549759A1 FR 8312441 A FR8312441 A FR 8312441A FR 8312441 A FR8312441 A FR 8312441A FR 2549759 A1 FR2549759 A1 FR 2549759A1
FR8312441A
FR2549759B1 (en
Sciaky SAS
1983-07-27 Application filed by Sciaky SAS filed Critical Sciaky SAS
1983-07-27 Priority to FR8312441A priority Critical patent/FR2549759B1/en
1985-02-01 Publication of FR2549759A1 publication Critical patent/FR2549759A1/en
1985-11-22 Publication of FR2549759B1 publication Critical patent/FR2549759B1/en
238000009434 installation Methods 0 title claims abstract description 34
A.INSTALLATION OF MULTI-POINT WELDING, IN PARTICULAR FOR VEHICLE BODY. </ P> <P> B.INSTALLATION COMPRISING POSITIONING MEANS FOR WELDING PIECES, ONE WITH RESPECT TO THE OTHER, THESE PARTS AND MEANS FOR WELDING PARTS POSITIONED AND SECRETED IN DETERMINED POINTS OF THESE PARTS, THESE MEANS OF POSITIONING AND TIGHTENING PROVIDED WITH STOKE SURFACES, THE SHAPE OF WHICH IS ADAPTED TO THE SHAPE OF PARTS, INSTALLATION CHARACTERIZED IN THAT TO LESS SOME OF THE POSITIONING AND / OR CLAMPING MEANS 1, 2 POSSESS CLEARANCES 7 DEBOUCHING ON THE STUTO SURFACES 1, 2 TO THE LAW OF PARTS 3, 4 AND IN THAT THE WELDING MEANS 13 ARE FIXED ON THESE MEANS OF POSITIONING AND OF TIGHTENING TO ENSURE THE SINGLE WELDING OF THESE COMPONENTS TO THE LAW OF CLEARANCES. </ P> <P> C.INVENTION APPLIES TO MULTI-POINT WELDING.
"Multi-point welding installation, in particular
for vehicle bodywork ".
The invention relates to a multi-point welding installation, in particular for a motor vehicle body. The assembly of sheet metal parts of automobile bodies is carried out on multiple point machines, nowadays conventional, implementing
Such an assembly needs to be performed in a machine which essentially comprises several shaping elements whose shape is adapted, for each, to a determined area of the parts to be assembled and whose role is to ensure the positioning of the parts. relative to each other and with respect to the movable welding heads
as well as their tightening, that is to say to ensure the correct geometry of the assembly at the time of welding.
The mobile welding elements then come, during welding, to be inserted by their working head between the free zones left between the shaping elements and the assembly gives rise to what is known as the tooling of specific welding of the parts to be assembled. Such tooling necessarily comprises two conjugate parts of which one is active and the other reactive, which open to be able to introduce the parts before welding, close again intimately to position and tighten them and allow the welding operations, then
open again to extract them.
However, spot welding tools are complicated and require long hours of study, manufacture, assembly and adjustment, etc. The implementation of robots to make assembly operations less specific and more flexible does not require solves
only partially the problem.
Indeed, unlike a multiple point installation where all the welding points can be achieved simultaneously giving rise to a short operating time, the implementation of one or more robots faces three essential difficulties: the passage time from one position to the next 15 of the robot-operated welding tool is preponderant, the presence of clamping elements and positioning elements of the parts complicates and lengthens the installation time of the tool to the right of each welding point, the cohabitation of several robots to reduce the work of each of them, is often not possible
The present invention is intended in particular to remedy these drawbacks and concerns, for this purpose, a multi-point welding installation, in particular for a motor vehicle body, an installation comprising means for positioning the parts to be welded, one with respect to the other, clamping means for these parts and means for welding the positioned and clamped parts 30 at predetermined points of these parts, these positioning and clamping means being provided with abutment surfaces whose shape is adapted to the forming parts, installation characterized in that at least some of the positioning and / or clamping means have clearances 35 opening on the abutment surfaces to the right of the parts and in that the welding means are fixed on these means of positioning and / or clamping to ensure the
spot welding of these parts to the right of clearances.
According to another characteristic of the invention, the positioning means consist of a punch and a die whose shape corresponds, for each, to at least a part of one of the parts to be welded, these positioning means also constituting
the clamping means of the parts.
According to another characteristic of the invention, the clearances and the welding means are provided on
one of the punch or matrix.
According to another characteristic of the invention, the welding means are constituted by heads of
laser beam welding fixed to the positioning means 15 and / or clamping parts, to the right of clearances.
According to another characteristic of the invention, several laser beam welding heads, focusing a laser beam on the parts, are fixed on the same positioning means and / or clamping at the right of clearances, these heads being fed by the same laser beam source, means for distributing the laser beam being provided between the source and these heads to orient the laser beam successively towards each of these heads, when the parts are positioned25 and tightened by these means, so to successively perform spot welding of these parts at the level of clearances. The invention is shown by way of nonlimiting example in the accompanying drawings, in which: Figure 1 is a partial schematic sectional view of an installation according to the invention; Figure 2 is a partial perspective view of the installation of Figure 1; Figures 3, 4 and 5 show schematically three modes of distribution of a laser beam to the welding heads; FIG. 6 represents in schematic perspective an exemplary embodiment of a distribution of the laser beam by means of a pivoting mirror; Figures 7 and 8 show in schematic perspective, two embodiments of a distribution of a laser beam, with several aligned mirrors; Fig. 9 is a partial side sectional view of a multi-point welding installation used for welding a motor vehicle door; Figure 10 is a schematic view along A-A of Figure 9; Figure 11 is a perspective view of an installation according to the invention for pointing or welding fixed elements of a motor vehicle body; FIG. 12 is a partial section along B-B of FIG. 11; FIG. 13 is an elevational view showing an installation according to the invention ensuring the simultaneous welding of three models of bodies, identical or different;
different, arranged in a single transfer line.
According to the exemplary embodiment shown in FIG. 1, the installation comprises positioning and clamping means which consist of a punch 1 and a die 2, movable relative to one another to come into position. and tightening the two parts to be welded 3 and 4, the facing faces 11 and 21 of these punch and die being for this purpose made to the shape of the parts 3 and 4 in order to position them relative to each other and squeeze them one
against the other in 5 at their periphery.
The matrix 2 also comprises, in the example shown, drills 6 arranged laterally in order to
cooperate with the positioning of the parts.
In the example shown, the punch 1 and the die 2, made of metallic material or others, such as plastics or composites, constitute the only elements for positioning and clamping parts 3 and 4 and the shape of the abutment surfaces. 11 and 2 can easily and directly be obtained by machining from a computer in which is introduced the computerized representation of parts 3 and 4 to assemble. In the example shown, the punch 1 has 10 clearances 7 made in the form of orifices which pass therethrough and which open on the abutment surface 11 adapted to the shape of the piece 3 and at the height of the zone 5 for clamping the two parts 3 and 4 one on the other. This cavity 7 will allow, as will be explained below, the execution of the weld point 5, but it will be noted, as of now that the position of this cavity 7 determining the position of the weld point can easily be determined A from the calculator, when machining the punch and is therefore directly
positioned relative to this punch and more particularly with respect to its abutment surface 11.
The punch and die 1, 2 are fixed on plates 8, 9 associated with the gantries 10, 11 of a welding press, these gantries being movable relative to each other in the direction F in order to be able to spread the punch and die 1, 2 to allow the introduction of the parts 3 and 4 and to be able to bring these punch and die together to position and tighten the parts 3, 4 against each other and perform the operation
This welding operation is carried out using a laser beam 12, coming from a generator not shown S, and which penetrates into a welding head 13 fixed to the gantry 10 and thus to the punch 1, this welding head 13 ensuring the focus of the emerging laser beam 121
in 14 on the zone 5 of the pieces 3 and 4 superimposed.
It will be appreciated that this combination of means will allow a fast and accurate positioning of the welding head 13 to achieve the desired welding point in that the parts 3, 4 are positioned with respect to the punch and die 1, 2 and therefore with respect to the cavity 7 as well as to the head of
welding 13 which is fixed relative to the punch 1.
In the example shown, the welding head 13 comprises a first pivotable and therefore adjustable mirror 13 which returns the laser beam 12 to a fixed mirror 132 and then to a focusing means constituted by a
lens 133.
According to FIG. 2, it can be seen that the assembly 15, punch 1, plate 8 and gantry 10 support three welding heads 13 ensuring the focusing of the beam
laser incident, this beam from either a same laser beam generator or different generators.
These welding heads 13 are oriented according to the incident laser beam in order to project the emerging focused beam 121 through the cavity 7.
Depending on the position of the weld point to be shunted on the workpieces and according to the more or less complex shape of the punch and die 1, 2, the clearance allowing the passage of the laser beam can be produced in the form of a lateral recess as shown in FIG. 71 instead of forming a cavity 7
formed entirely inside the punch 1.
Also if possible, taking into account the shape of the parts and the desired position of the weld points, the punch may be set back from the periphery of the parts and in the laser beam from the fixed heads, along the lateral edge of the punch or matrix to be focused in the clearance formed by the space between the edge of the pieces
and the edge of the punch.
Since the welding stations 13 occupy a fixed position with respect to the positioning and clamping means constituted by the punch 1 and the die 2 and with respect to the cavities 7 allowing the passage of the laser beam, these welding stations fixed by compared to others, can be fed successively
by a laser beam from the same generator.
Thus, according to FIG. 3, the incident laser beam 12 is fed to a distribution assembly comprising mirrors 15, 16 and 17 which can be placed successively in the path of the beam 12 in order to each return this laser beam to a 13 This mirror may either directly reflect the beam on its welding station 13 as is the case for the mirrors 15 and 16, or on the contrary reflect it to an intermediate mirror 171, as is the case of the mirror 17 and this depending on the orientation 20 of the incident beam 12 and the position of the station of
welding 13 considered.
In the exemplary embodiment of FIG. 4, on the contrary, there is provided a single mirror 18 which receives the incident beam 12, for example after reflection on an intermediate mirror 19, the mirror 18 being successively angularly positioned in order to reflect the beam laser sequentially on the welding stations 20, 21 and 22. In the embodiment of FIG. 5, the distribution assembly consists of three mirrors 23, 24 and 25 slightly offset with respect to each other, and which successively receive the laser beam reflected by a mirror 26, pivoting in the directions 231, 241 and 251 each corresponding to a welding station In this embodiment, the pivot angle of the mirror 26 is low given the offset of the fixed mirrors 23 , 24 and 25, one or more of these mirrors may also return their reflected beam to an intermediate mirror as shown in FIG.
252 in this figure 5.
According to FIG. 6, there is shown in perspective an installation whose welding heads 13 fixed to the gantry 10 of the punch 1, successively receive the laser beam 12 after reflection on a mirror 26
pivoting by two orthogonal axes driven by motors 10 controlled from a program of a computer.
In this case, the gantry 10 preferably comprises a target 27 whose position in space is determined relative to the welding heads 13, this position being introduced into the computer so that the mirror 26 can use this target 27 as a reference to move appropriately and successively to the various positions
welding 13.
In the embodiment of FIG. 7, the welding heads 13 are fixed on a positi Lonne20 ment and clamping means which consists of a form 28 and a counterform 29 pivoting one on the other along an axis 30 - in order to position and tighten the parts to
solder 31.
This positioning and clamping assembly 25 is supported by a frame 32 pivotally mounted along an axis 33 on a support 34. In this example, the frame 32 comprises several retractable mirrors 35, aligned along the pivot axis 33, and which are capable of to receive, successively, the incident laser beam 36 reflected by a mirror 37 fixed on the support 34 and
passing through the axis 33.
In this case also, the laser beams reflected successively by the mirrors 35 are fed to the welding stations 13 which focus the beams through corresponding cavities provided in the form 28 so as to
to perform the welding of the parts 31.
In the embodiment of Figure 8, the form 28 is movable by translation and is supported by a frame 37 sliding on slides 38 The aligned retractable mirrors 35 successively receive the laser beam, through a mirror 39 secured to the frame 37 and thus to the shape 28, the incident laser beam 40 striking the mirror 37 and successively the mirrors 35 when the shape 38 positions and clamps the parts to be welded one by
relationship with the other in cooperation with a counterpart.
The installation shown in FIG. 9 is intended for the positioning, clamping and welding of the two panels 41, 42 of a motor vehicle door, the positioning and clamping tool being constituted by the units designated punch 43 and matrix 44 whose facing faces 431 and 441 are drawn to correspond to those of panels 41 and 42 in order to position and tighten them correctly when
the approximation of these punch and matrix.
In this example, the punch 43 is fixed and the die 44 is mounted on a movable press plate capable of moving between a high position and clamping position (shown in solid lines) and a low position (shown in dotted lines). intended to allow the loading of the two panels 41
and 42 on the press and evacuation of the door whose two panels are welded partially or completely.
When opening the press, the panels
The door or assembled door will be supported by supports 46, 47 integrated with a transfer line.
In this example, the cavities 7 allowing the passage of the focused laser beam 48, are provided on the fixed punch 43, this beam from a laser beam generator 49 after successive reflections on mirrors 50, 51, 52 The beam is then introduced into the welding stations 53 which focus the beam 48 in the welding zones of the two parts 41 and 42 and that through the corresponding cavities 7, these cavities opening on the surface 44 at the height of the
superimposed parts.
As shown in plan and in more detail in FIG. 10, the set of welding stations 53 is fed by two distribution assemblies 51 and 512 in which are incorporated mirrors 51 which can be oriented in different directions 54 from 10 a computer, in order to power successively the various welding stations 53 distributed on the periphery of the
punch 43.
In contrast to FIGS. 9 and 10, FIGS. 11 and 12 are an exemplary embodiment of the installation for welding the essential components of a
bodywork of a motor vehicle.
In this case, the welding station comprises two mobile and identical lateral assemblies 55 (one of them being only shown in FIG. 7), these assemblies being provided with mobile positioning and clamping means such as 56, which together support the various welding heads 57 positioned at the height of the cavities provided in the positioning means and
Each lateral assembly 55 is associated with one or more laser beam generators, as well as a plurality of distribution assemblies 58, 59, 60 and 61 which return the laser beam to mirrors 62 associated, each with a welding station 57, these mirrors. 62 and these dispensing assemblies 58, 59, 60, 61, operating from one of the
manners shown in figures 3 to 8.
FIG. 12 shows a detail of the installation of FIG. 11 for the positioning, clamping and pointing (or welding) of the horn 63 of a vehicle body, at the door frame 64 and at a Gutter 65 In Figure 12 is shown a pipe
of arrival (72) of shielding gas of the weld.
Note that the lateral assembly 55 comprises clamping and positioning members 561, 562 and 563, the clamping members 561 and 563 being movable by pivoting under the action of jacks about axes 564.
and 565.
In this figure 12, a welding station 57 attached to the clamping and positioning member 561 has been shown, which welding station 57 produces the laser beam 571 which is focused at 572 through the cavity 7 at the junction of the Body parts 63, 64 and 65. It should be noted that the installation according to the invention involves the production of assemblies comprising both the positioning and / or clamping tools and the welding tools which are attached to each other. relative to others in order to constitute tooling assemblies specific to the welding of specific parts 20 and, for example, motor vehicle body parts. Thus, a motor vehicle body welding station will include lateral work assemblies each comprising a plurality of sets of tools 56 to cooperate together in pointing or
welding parts of a vehicle body 66.
Also, because of the design of the installation according to the invention, several welding stations 67, 68 and 69 may be provided in the same production line, each of these stations comprising the tool defined above specific to the realization of a body type (different or identical), these stations being inserted in a single transfer line 70 for their supply. Also, as can be seen in FIG. 13, the three welding stations arranged in parallel are fed from four laser beam generators 71 which direct the laser beam successively on several distribution stations 711, the distribution stations 711 fed by the same laser beam generator can interest several positions
welding 67, 68, 69.
2,549,760
This number has not given rise to any publication.
R E V E N D I C A T I ONS
1) Multi-point welding installation, in particular for motor vehicle bodywork, installation comprising means for positioning the parts to be welded, relative to one another, means for clamping these parts and means for welding the parts. parts positioned and tightened at specific points of these parts, these positioning and clamping means being provided with abutment surfaces whose shape is adapted to the shape of the parts, installation characterized in that at least some of the means (1, 2) of positioning and / or clamping have clearances (7) opening on the abutment surfaces (1 il, 21) to the right of the parts (3, 4) and in that the welding means (13) are fixed on these positioning and / or clamping means for providing spot welding
these parts to the right of clearances.
2) Installation according to claim 1, characterized in that the positioning means are constituted by a punch and a die (1, 2) whose shape corresponds, for each, to at least a part of one of the pieces soldering (3, 4), these positioning means also constituting the clamping means parts. 3) Installation according to claim 2, characterized in that the clearances (7) and the welding means (13) are provided on one of the punch (1)
or matrix (2).
4) Installation according to any one of the preceding claims, characterized in that the
welding means (13) are constituted by laser beam welding heads (12) fixed to the positioning means (1, 2) and / or clamping parts, to
right of release (7).
5) Installation according to claim 4, characterized in that a plurality of laser beam welding heads (13), ensuring the focusing of a laser beam on the parts, are fixed on the same positioning means and / or clamping at 5 of these clearances (7), these heads being fed by the same laser beam source, distribution means (15, 16, 17, 18, 23, 24, 25) of the laser beam being provided between the source and these heads (13) to orient the laser beam successively to each of these heads, when the pieces are positioned and
tightened by these means, in order to successively perform spot welding of these parts at clearance height.
6) Installation according to claim 5, characterized in that the distribution means are constituted by a pivoting mirror under the action of motors controlled by a computer, a target being fixed on the positioning means and / or clamping to form a reference point of the orientation of the beam towards the various welding heads.
7) Installation according to claim 5, characterized in that the distribution means are constituted by a plurality of mirrors (15, 16, 17) movable between two positions and may be placed successively in the axis of the incident laser beam from the laser beam generator for sending, each and successively, this laser beam to a focussing head of the beam producing a weld spot 80) Installation according to claim 7, characterized in that the retractable mirrors are fixed
on the positioning means.
9) Installation according to any of the
positioning means and / or clamping is movable by pivoting and the mirrors are arranged along the axis of
pivoting of the positioning means.
FR8312441A 1983-07-27 1983-07-27 Welding system has multiple points, in particular for vehicle bodywork Expired FR2549759B1 (en)
FR8312441A FR2549759B1 (en) 1983-07-27 1983-07-27 Welding system has multiple points, in particular for vehicle bodywork
US06/626,497 US4654505A (en) 1983-07-27 1984-06-29 Multi-point laser beam welding installation for vehicle bodies
ES534241A ES8503995A1 (en) 1983-07-27 1984-07-12 Welding installation for multiple points, especially for vehicle bodies
DE8484401181A DE3462755D1 (en) 1983-07-27 1984-07-17 Multiple-point welding appliance, especially for vehicle bodies
EP84401181A EP0136190B1 (en) 1983-07-27 1984-07-17 Multiple-point welding appliance, especially for vehicle bodies
JP59158558A JPH0436792B2 (en) 1983-07-27 1984-07-27
FR2549759A1 true FR2549759A1 (en) 1985-02-01
FR2549759B1 FR2549759B1 (en) 1985-11-22
ID=9291171
FR8312441A Expired FR2549759B1 (en) 1983-07-27 1983-07-27 Welding system has multiple points, in particular for vehicle bodywork
US (1) US4654505A (en)
EP (1) EP0136190B1 (en)
JP (1) JPH0436792B2 (en)
DE (1) DE3462755D1 (en)
ES (1) ES8503995A1 (en)
FR (1) FR2549759B1 (en)
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1984-07-12 ES ES534241A patent/ES8503995A1/en not_active Expired
1984-07-17 EP EP84401181A patent/EP0136190B1/en not_active Expired
1984-07-17 DE DE8484401181A patent/DE3462755D1/en not_active Expired
1984-07-27 JP JP59158558A patent/JPH0436792B2/ja not_active Expired - Lifetime
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