Method of cross bending of shaped or longitudinally corrugated sheet material and device for effecti

专利摘要:
This invention relates to the bending of shaped sheet metal, which shows alternatingly occurring longitudinal ridges and valleys, the lateral portions of which constitute lateral portions of the ridges, about an axis, which extends perpendicularly to the longitudinal direction of the ridges and valleys and is in parallel with the plane of the sheet. Known methods of bending such shaped sheet metal have proved to have certain limitations with respect to applicability and smallest bending radius to be obtained in one or more coherent bending moments or steps. For eliminating these shortcomings a method of bending shaped sheet metal is proposed, at which the bending takes place in at least two subsequent moments or steps. At the first bending moment transverse ridges are formed from below along at least one line in parallel with said axis in the valleys for partially bending the sheet (A), and at the second bending moment transverse ridges are formed from below on both sides of the transverse ridges formed at the first bending moment, for finally bending the sheet (A) to the desired bending angle.
公开号:SU1207390A3
申请号:SU813365881
申请日:1981-11-03
公开日:1986-01-23
发明作者:Эберг Сеард
申请人:Гроко Маскин Аб (Фирма)；
IPC主号:

专利说明:

2. A method according to claim 1, characterized in that the shaping of the side corrugations is made at an angle
to the central corrugation.
3. A device for transverse bending of a profiled or longitudinal corrugated sheet metal with longitudinal projections and depressions, the side walls of which at one time are the side walls of the projections containing a fixed matrix with supporting surfaces according to the profile of the workpiece and a groove for the transverse corrugation and punch with a corrugated projection, perpendicular to the direction of the longitudinal corrugations, installed with the possibility of interaction with the matrix, characterized in that, in order to improve the performance during bending a large angle, it is equipped with additional punches arranged by nizhI
The invention relates to the processing of metals by pressure, in particular to bending.
The aim of the invention is to increase productivity by reducing the number of bending strokes.
On fig. - 1 presents a flexible diagram, the first stage; in fig. 2 - the same, the second stage; in fig. 3 - device for bending, general view; in fig. 4 is a section A-A in FIG. 3; in fig. 5 is a section BB in FIG. 4j in FIG. 6 is a sectional view BB in FIG. four; in fig. 7 - section G-Y in FIG. five; in fig. 8 - procurement support mechanism; in fig. 9 is a section d-d in fig. eight,; in fig. 10 - installation for flexible general 1st type; in fig. 11 - then on top; in fig. 12 - the same section; Fig, 13-14 - auxiliary table; Fig 15-23 - an example of successive transitions in the manufacture of one of the parts of the proposed method.
On a sheet blank 1 having longitudinal protrusions or corrugations 2, at the first stage, the central transverse corrugation 3 and transition sections 4 associated with this corrugation are flexible.
07390
the surface of the workpiece on both sides of the matrix and having a surface facing the workpiece according to the profile of the workpiece, the matrix supporting surfaces adjacent to the transverse groove are made in the form of corrugated protrusions for transverse corrugations, and the punch is made with additional lateral corrugated protrusions on both sides of the existing corrugated At this protrusion, additional punches are installed with the possibility of interaction with the lateral surfaces of the outer corrugated protrusions.
4. A device according to claim 3, characterized in that the additional punches and side corrugations form the protrusions of the punch at an angle to the vertical axis of the punch and die.
for the walls there will be 1x lateral corrugations 5 (FIG. 2) located on both sides of the central corrugation, and at the second stage, the billet will be prepared for a given task
angle by deforming the side corrugations 5.
The device for bending contains a matrix 6 with a groove 7 in the middle and surfaces adjacent to the groove in the form of corrugated projections 8, a main punch 9 with a central corrugated projection 10 and two side corrugated projections 11 and additional punches 12 located on both sides of the matrix 6. Matrix and punches are mounted on a press containing frame 13 and sliders 14 - 16. The matrix is fixed on plate 17, which is rigidly connected to
bed frame. The side punches are mounted on sliders 15 and 16 angled ". to plate 17, equal to 10-50. Preferably, it is about 30 °.
The upper slider 14 is a beam 18, to the bottom edge of which is attached with the possibility of removal of the punch 9. The beam is located
31
between the end walls 19 of the frame 13. To these end walls, guide strips 21 are attached with screws 20, between which strips 22 are mounted, fixed to the ends of the beam. The guides 21 can be adjusted by means of set screws 23 in the strips 2A fixed to the end walls 19. In order to prevent the beam 18 from moving in the longitudinal direction between the end walls, it is provided with roller-guides at each end. 25, which interact with guide pads 2A.
The slider beam is suspended on two levers 26 each of which consists of two parallel cheeks 27, which are connected to the beam by means of an axis 28. Each of these is mounted in the beam by means of a bearing sleeve 29 located between the cheeks of the respective lever. At the other end, each lever is connected by an axis 30 to a pivoting lever 31 in which a sleeve 32 is installed. The axes 30 of the levers are interconnected by two parallel links 33 and, like axes 28, are supplied at each end with washers 34 and locking rings 35, which stop axes from axial displacement.
Each of the levers is mounted on an eccentric 1st axis 36, which is mounted by pins 37 in bearings 38 by means of bearing caps 39 fixed with screws (not shown) in the upper side walls 40 of the base. One of the said rotary blades 31 has a locking protrusion 41 at one end, which, when interacting with the pin 42 installed in the lever 26 between its cheeks 27, limits the rotary lever movement clockwise to the position shown in FIG. 3, and at the second end, the pivot arm is provided with a protrusion 43 for attaching to the rod 44 of the power cylinder 45, which is located between said mounting protrusion and the frame and serves to rotate the levers 31. When the lever 31 is rotated counterclockwise around the center point 46 of the eccentric axis on the corresponding value is rotated as well and the second pivot arm 31 around the axis thanks to the parallel
33, the slider with the punch 9 rises to the upper position, providing a relatively large gap between the upper punch and the die. To lower the slider with the punch to the preparatory position for bending, the cylinder rod moves in the opposite direction and at the same time turns
0 levers 31 clockwise until the locking protrusion 41 rests on pin 42. This corresponds to the bending position. Due to the fact that cylinder 45
5 acts directly on the pivot arm 31, the lowering and raising of the slide with the punch is carried out relatively quickly between the upper initial position and the position
0 readiness.
To further lower the slider and to bend a corrugated metal sheet inserted between the punch and the die,
5, a second power cylinder 47 is hingedly attached, one end to the frame, and its rod 48 is connected by means of an axis 49 and a bearing 50 by a carrier 51, which is rigidly connected to an eccentric axis 36. On this axis a carrier 52 is also fixed, which is connected with an appropriate carrier 53 mounted on another eccentric axis by an earring 54. Preferably, it is adjustable in length, and its ends are connected to the respective carriers using axles 55 and bearings 56. With the aid of earring 54, eccentric axes rotate simultaneously and orachivayuts equally about respective axes 57 of rotation.
When installing the rod 48 of the cylinder 5 to the standby position, shown in FIG. 1, two eccentric axes rotate simultaneously with respect to the corresponding axis 57 of rotation and, through the eccentrics 58, the pivot arms 31 together with the transfer levers 26 and the slider 14 move downward with the force required to bend the sheet at a certain angle between the punch 9 and by the matrix. 5 Additional side sliders 15. and 16 with punches 12 are in the same position as shown in FIG. 2 and 4.
five
0
During bending, i.e. when the upper slider moves up and down, the cylinder 45 is in a self-adjusting state, so that its rod can move freely. Lower slides 15 and 16 with punches 12 are located identically in the lower part 59 of the bed, passing out through the holes 60 in the end walls 19 of the bed and the cis at their ends by strips 61, by means of which they are installed between parallel guides 62 attached with screws 63 to the end walls 19. The guides are adjusted with screws 64, mounted in stops 65 attached to the end walls. In order to prevent the sliders from moving in the longitudinal direction between the end walls 19, they are provided with at least one guide roller 66 on each side.
The rollers interact with the guide 67 fixed between the end walls, for example, using the same screws 63 that are used to fasten the guide 62 located outside the end wall.
Each slider is made in the form of a ball.
mounted on levers 68, with each of which it is pivotally connected by means of axis 69 and sleeve 70. The other end of lever is pivotally mounted on eccentric axis 71, which with its pivot 72 is installed in sleeves 73, which are mounted in housings 74, fixed with screws (not shown) in the side walls 75 of the bed. There are two eccentric axes 71, each of which has a lead 76 rigidly connected to the axis 71 by means of a pull 77 to carry out simultaneous rotation of the axes 71. One of the mentioned axes, in addition, is provided with an additional lead 78, to which the rod 79 of the cylinder 80 is pivotally attached, which is pivotally connected to the frame by means of the axis 81. For simultaneous rotation of the eccentric axes relative to their center of rotation 82 and raising and lowering the sliders with the punches, the work of the cylinders 80 and sliders is synchronized.
In one of the possible solutions (FIGS. 3-5), each Il lindp 80 is connected by its body with the cylinder body 83, which is mounted on the axis 84. The axis
0
five
0
five
0
five
84 is discharged eccentrically to an axis 85 of a larger diameter, which is installed in sleeves 86, fixed first on the bed.
On the axis 85 between the sleeves 86, a lever 87 is mounted, rigidly fixed on the axis 85, on which the axis 88 is mounted with the possibility of relative rotation with a re-bore hole, into which the adjusting screw 89 is screwed. The said screw passes through the hole in the frame (not shown) and outside it is fixed to the steering wheel 90, mounted in the sleeve 91.
When the handwheel is rotated, the lever 87 rotates the axis 88 and the axis 84 located eccentrically with it, causing the cylinder 83 to move. in one direction or another, depending on whether the screw is turning clockwise or counterclockwise. In this case, it is possible to adjust the position of the drivers 76 of the eccentric axes 71, and consequently, the position of the lower sliders with punches, which ensures the adjustment of the angle by which the sheet is bent. The greater the angle required for bending, the higher the slides should be.
The extreme positions of the side punches can also be adjusted, for example, by means of stops 92 and 93 and levers 94 and 95, which are fixed on the pivots 72 of the axis 71 and are adjustable with respect to each of them. In the embodiment shown in FIG. In the 3 position, the lever 94 has reached the stopper 92, in this case, the movement direction of the cylinder rod 80 changes and the sliders begin to fall, and when their lower position is reached, the lever 95 acts on the stopper 93, which causes the cylinder 80 to turn off and stop before it is fed trigger signal. By changing the angle between the levers 94 and 95, the required end positions of the punches 12 can be easily and quickly established.
The toolkit contains the top of the research institute a punch 9, which has three fingers 10 and 11 in it in the form of fingers that run along the entire length of the punch. The central pin 10 is positioned vertically, while the lateral fingers 11 are angled relative to the central pin, this angle may vary, but it is preferable that it corresponds to the angle between the axes of the lower punches -1 2 and axis of the upper punch. The block also contains a die 6 and punches 12, each of which is at least as long as the punch 9. and has supporting elements in the form of projections and depressions between them, which alternate in the same way as the projections and depressions or corrugations on the profiled sheet, which will bend.
The device works as follows.
Bending is carried out in two successive stages. In the first stage, the upper slider moves from the ready position to the flexible position (figure 1), in which the punch with the central finger 10, protruding by a larger amount than the two side fingers 11, impresses in those parts of the sheet 1, which facing the punch 9. Prints are located between the protrusions 8 of the die and the side punches. Using the side fingers 1, the punch 9 carries out a somewhat less deep impression on both sides of the impression made by the finger 10. The sheet is thus partially bent. In the second stage, the side bottom punches 12 are moved to the upper position, but this is done after the main punch 9 has finished its turn and pressed the sheet to the matrix 6. At the same time, the mentioned punches finish the sheet 1 relative to the fingers 11 and thus finish the bending sheet to the desired angle, as shown in FIG. 2, where the bend angle is 90. However, by changing the set position of the punches 12, other bending angles can also be obtained.
When the upper ram returns to the ready position, the folded sheet may begin to move along with it. In order to remove the sheet from the punch, the device can be equipped with pullers 96 on each side of the punch (Fig.8, 9), each of which contains a carrier beam 97, which is installed between the end walls 19 of the bed and which is attached to the pivot points at its ends. the levers 98, pivotally connected to the lever 99, which is attached to the bracket 100 of the corresponding end wall 19 of the frame.
Several carriages 101 with wheels 102 are used as a support on carrier beam 97. On the outer carriages 101, outside the wheels of the carriage, swivel holders of the sheet 103 are provided, which are rotated by the engine 104. The carrier beam 97 is connected to the cylinder 105, which is pivotally attached to the upper side wall 40 of the bed. By means of this shield shield, the beam 97 can be rotated around the axis of rotation 106 of the pivoting levers 98.
After the bending operation, the sheet moves upwardly along with the punch 9 and contacts the wheels 102 of the carriage 101, which are located all over the sheet. After that, the engine 104 rotates the sheet holders and brings them under the sheet edges, fixing the sheet relative to the wheels of the carts 101. The sheet is fixed in the puller 96 When the upper slider then returns to its ready position, the sheet is automatically separated from the punch 9. With the help of a cylinder 105, the sheet can then be rotated and lowered onto a conveyor (not shown), then the pullers and return to the upper initial position (Fig. 8) for handling the next sheet.
FIG. Figure 10 shows schematically an installation for producing some of the parts shown in Figs. 15-23. In this installation, the corrugated sheet blanks, preferably with keystone corrugations, are cut to a certain length and bent. The apparatus includes, in addition to the press, a feeding table 107 with a device for cutting metal sheet blanks of a certain size, an input table 108 and an output table 109.
From the feed table, the sheet blank 110 is picked up by means of a magnetic lifting device 111, which moves along the guides 112 and is transferred to the input table 108, after which the lifting device returns to grip the next sheet blank. At the entrance table, the workpiece is placed on a roller
9
the conveyor 113 and is guided by a rod 114 with rollers 115. It is moved by means of a pusher 116 which is fixed: on the crossbar 117, connected with two cylinders 118, preferably with the so-called Origi cylinders. At the end of the inlet table facing the press, several guide rods 119 are provided, which pivotally attach to the inlet table, rest on the other end of the die in the grooves between the projections 8, and guide the sheet in the correct position in the press brake.
The output table 109 (Figs. 13 and 14) contains two belt conveyors 120 which are driven by a worm gear 121, a shaft 122, and an elastic clutch 123. Each belt conveyor has a belt pulling device 124, a guide rod 125 with rollers 126 for guiding the sheet, with a movable adjustable sheet stop 127 that is adjustable with a piston and a cylinder 128, preferably an pneumatic type or an Orig type cylinder. The cylinder 128 is mounted on the beam 129 by means of the mounting plates 130, and the beam, in turn, rests on the levers 131 pivotally attached to the table frame 132 by means of the axles 133. The levers also: are hingedly attached to the mounting plates 130 of the beam by the axes 134 which are mounted in sleeves 135. A cylinder 136, preferably of the pneumatic or hydraulic type, is mounted between the frame of the table and the supporting beam of the cypindr to raise and lower the beam with cylinder 128
0739010
and the stop 137, which is located at the end of the beam facing the bending press. There are also several attachment points 138 and 5 several limit switches (not shown) for different positions of the movable stop 127.
When sheet stocking is delivered
10 to the press, it stops by abutting 137 on the exit table. The press stroke is engaged and bending is performed. The sheet blank is bent and takes the shape shown in
) 5 of FIG. 1-5. After the puller lowers the bent workpiece onto the feed conveyor and after the stop 137 is lowered and the movable stop 127 takes a certain position, the workpiece moves to the next machining position with the help of the input table pusher 116 until it stops 127. The press and The second bending of the blank sheet by 90 is performed, as shown in FIG. 16. Thereafter, the movable abutment 127 moves to the rearmost position, the sheet blank is pushed up to the abutment, after which it is again bent 90 at its other end, as shown in FIG. 17. After that, the sheet blank is moved in the opposite direction to a new position, where it is bent again by 90. Thus, the workpiece was bent four times and a part in the form of a staple was formed. In order to be able to remove a part from the press, the upper slider must be raised to its highest position. This lift is accomplished by assisting the cylinder 45.,
thirty
35
40
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7
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skid
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V
FIG. nineteen
with
FIG .21
Fig. No.
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Fig.20
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and
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Compiled by G. Smirnov Editor S. Patrusheva Tehred 3.Paliy Proofreader T. Kolb
Order 197 Circulation 783 Subscription
VNIIPI USSR State Committee
for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5
Branch PIP Patent, Uzhgorod, st. Project, 4

权利要求:
Claims (4)
[1]
METHOD FOR TRANSVERSE FLEX OF PROFILEED OR LONGITUDINALLY CORRUGATED SHEET METAL AND DEVICE FOR ITS IMPLEMENTATION.
(57) 1. The method of transverse bending of profiled or longitudinally corrugated sheet metal with longitudinal protrusions and depressions, the side walls of which are simultaneously the side walls of the protrusions, by forming transverse corrugations on the longitudinal corrugations from the inside of the workpiece at the bend, characterized in that, in order to increase productivity when bending at large angles, bending is carried out in two successive stages, in the first of which a central transverse corrugation and associated transition sections for the walls of the side corrugations located on both sides of the central corrugation, and in the second stage they bend the workpiece to the required angle by forming the side corrugations on both sides of the central corrugation with the simultaneous fixation of the latter.
Ft1
[2]
2. The method according to π. 1, characterized in that the formation of the side corrugations is performed at an angle to the central corrugation.
[3]
3. Device for lateral bending of profiled or longitudinally corrugated sheet metal with longitudinal protrusions and depressions, the side walls of which are simultaneously the side walls of the protrusions, containing a fixed matrix with supporting surfaces according to the workpiece profile and a groove for the transverse corrugation and punch with a corrugating protrusion perpendicular to the direction of the longitudinal corrugations installed with the ability to interact with the matrix, characterized in that, in order to increase productivity when bending on b angles, it is equipped with additional punches located on the side of the lower surface of the workpiece on both sides of the matrix and having a surface facing the workpiece according to the profile of the workpiece, and the supporting surfaces of the matrix adjacent to the transverse groove are made in the form of corrugating protrusions for transverse corrugations, and the punch is made with additional lateral corrugating protrusions on both sides of the existing corrugating protrusion, while additional punches are installed with the possibility of interaction Twi with the lateral surfaces of the extreme corrugating protrusions.
[4]
4. The device pop. 3, characterized in that the additional punches and lateral corrugating protrusions of the punch are located at an angle to the vertical axis of the punch and the matrix.

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同族专利:

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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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SE8001670A|SE431519B|1980-03-04|1980-03-04|SET TO BOOK PROFILED PLATE AND DEVICE FOR IMPLEMENTATION OF THE SET|

---