FR2730433A1 - Sheet metal bending tool and procedure - Google Patents

Abstract

The tool, esp. for bending lengthwise ribs in metal sheets 1.5-2.5 m wide, consists of a frame (1) some 1 m high and twice the width of the metal sheets. The frame contains the fold pressing mechanism wit a die (4) and matrix (4), the matrix being raised vertically by a power cylinder to press the sheet metal against the die. The tool can also be used to join two sheets, by clipping their edges together. The ribs are formed by applying the matrix to the underside of the metal sheet (15) while the die is rotated above it.

Description

MEMORY DESCRIPT @ F I1 is known to make folding machines which work in 2 successive stages with a vertical displacement to stamp a first series of folds then a rotation of 2 articulated pressers which @aconnaise a 2 nd series of folds
The 2 phases can be linked automatically if (iii it i I i se a cam which at the beginning of the vertical displacement prevents rotation allowing then thanks to an appropriate form the rotation of the pressers it is difficult to avoid a vertical displacement descending to mometit or resumes rotation the folds of the 2nd phase no longer being well formed
We avoid this difficulty by replacing the cane with a spring
In addition, the classic folding machines have a swan neck that requires the sheet to be turned over to make a fold on the other edge.
To practice a series of folds on a sheet 1.5 m wide it is necessary to replace the swan neck with a frame 3 m wide. The fold being fixed in the middle of the frame it is possible to make a series of folds in the width of the sheet by simple transverse displacement of the latter
With such a frame it is possible to simplify the guiding of the matrix during the vertical deolacement. It is indeed possible to re-read it to the uprights of the frame by a tie of 1.5 m in width For a frame of 3 m the vertical displacement being small compared to the width of l! S n the displacement of the matrix during the lifting will be of a few millimeters absorbed by the construction eyes
The drawing explains these itinerant innovations
The frame is represented under the mark (1) u
The punch (2) is fixed on the frame, It can for example be made from a tube placed on the diagonal and completed by 2 irons U with a sharp anal marked (3) t
This main punch is possibly completed by 2 marked profiles (14) which will, as shown in FIG. 2, make an additional fold by the rotation of the pressed presser (4) marked
The master has a main profile marked (9) represented as an iron 1 and comprising 2 articulated markings (5) on which are fixed the pressers marked (4) These are represented by way of example in FIG. 2 expressed by hatching in the form of 2 superimposed tubes completed by a flat iron marked (13) The rotation of the presser will cause the formation of an additional fold thanks to the support of the sheet on the annexed punch marked (1)
Figure 2 is a partial view on a larger scale of Figure I where are represented the frame marked (I), the punch marked (2) with its iron fittings U or tube marked (3), the matrix marked (4) and its marked profile (9)
The matrix is lifted vertically in the first phase by the action of the identified jack (1) on which are supported 2 marked connecting rods (6) articulated together at the point of contact with the jack and on the other hand on the mobile part of the matrix landmark (4)
To provide guidance during lifting, 2 reperd tie rods (7) connect the marked profile (9) to the marked frame (1)
In addition to avoid twisting of the marked profile (9) there is provided laterally to the frame a marked profile (11) fixed on the marked profile (9) and sliding between 2 marked guides (12) fixed on the marked frame (I)
Likewise to ensure the guiding of this cylinder, it is provided with 2 tie rods (8) which connects it to the acre
To avoid rotation of the pressers before the re-profile (9) has
contacted the re @ ere punch (2) we have re @ ere re @ ere @@@
preventing this premature rotation
The attachment points of these springs will be determined so that
what their rection on the articulated matrix passes below the articulation
in the low position of the matrix and above this articulation in the high position
to help then the rotation of the matrix On the contrary the connecting rods will be arranged so that in the lower position
the axis of the bie @@ e passes slightly next to the joint to initiate
the rotation of these in high position
In Figure 3 is shown an example of forming obtained on the edge of the sheets which allows to assemble 2 sheets ci 'in ippalit the ribs of edge
One of the ribs must be slightly larger than the other.
This result will be easily achieved using a flat marker (16) of a width
greater than the distance from the angles of the irons marked (3) which end the
width of the lower flat part of the rib when the dish is located below
sheet metal (15)
By placing this reference plate (16) above the sheet before forming, we increase the
times the width of the metal plate of the marked plate (15) and the length of the 2 sides
a 450 in figure 3

Claims (1)

 CLAIMS 10 Device allowing the production of ribs parallel to the length of a sheet from 1.5 to 2.5 m in width, characterized by the use of a frame with a height of the order of a meter and a double width of that of the sheet metal, this frame being distributed at intermediate intervals of the order of 2.5 m on the bending tool for the ribs, the length of which is not limited 2) Device according to claim I, characterized by the use of a combined lifting and folding machine, known rotation available in the frame axis and complemented by 2 profiles (14) fixed on the frame (1) and making it possible to produce an additional fold in end of rotation of the pressers 30) Device according to previous claims characterized by the em'loi of tie rods connecting the matrix to the complete frame by urt guide (11) sliding between 2 dishes (I avoiding the twisting of the matrix 4) according to previous claims characterized by the use of a jack lifting (10) ensuring the lifting and then the rotation of the Dressers (3) oar 1 'connecting rods (6) articulated between them by flirting the bass and articulated on the pressers in the upper part @a head of the cylinder is fixed to @irants (8) 5) Device according to claim 4 characterized by the use of springs è (13) preventing the rotation of the pressers before the first lifting phase is completed the profile (9) then bearing on the punch the fasteners of this spring being disodode so prevent rotation in the low position and help this rotation in the high position 6) Device according to the preceding claims, characterized by the use of a flat iron (16) which places above the sheet (15) before forming atigmene the dimensions of the rib to allow the nesting on a neighboring rib 70) Device according to claim 2, characterized by the use of a punch comprising  soda on a tube (2) 2 sharp angle U irons (3 @)