US3120828A - Roof seaming machine - Google Patents

Roof seaming machine Download PDF

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US3120828A
US3120828A US62159A US6215960A US3120828A US 3120828 A US3120828 A US 3120828A US 62159 A US62159 A US 62159A US 6215960 A US6215960 A US 6215960A US 3120828 A US3120828 A US 3120828A
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shafts
pair
shaft
rolls
sleeve
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US62159A
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Gronlund Sven Olof
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D39/00Application of procedures in order to connect objects or parts, e.g. coating with sheet metal otherwise than by plating; Tube expanders
    • B21D39/02Application of procedures in order to connect objects or parts, e.g. coating with sheet metal otherwise than by plating; Tube expanders of sheet metal by folding, e.g. connecting edges of a sheet to form a cylinder
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T29/00Metal working
    • Y10T29/53Means to assemble or disassemble
    • Y10T29/53709Overedge assembling means
    • Y10T29/53787Binding or covering

Definitions

  • Previously known roof seaming machines for forming standing seams to interconnect adjacent roofing sheets comprise a carriage with pair-w'e arranged rolls which successively perform the seaming operation according as the carriage is moved along the opstanding sheet flanges.
  • One of the rolls of each pair hereinbelow termed the folding roll, is adapted to be swung outward relative to the other roll, herein termed the counterroll, and is acted upon by a spring such as to be forced toward the counter roll and to assist in folding the upstanding sheet flange or sheet flanges for producing -a single or double seam.
  • Movability of one roll towards and away from the other roll is necessary for the transmission of the spring action and for adapting the distance between the folding roll and the counter roll to the variable thickness of the seam.
  • the object of this invention is to eliminate the above difficulties and in this connection to provide suitable bearing means for the shafts of the movable folding rolls.
  • the invention is characterized by the fact that the swingable folding roll is mounted on one end of a shaft the other end of which is provided with a support roll in engagement with a support roll on a shaft for the counter roll of the pair. Due to the provision of support members at the ends of the shafts, the ends will be securely maintained at a definite distance from each other, resulting in the possibility of providing a simple roll driving mechanism which is not unfavourably affected by variations of the spacing of the rolls in each pair during the seaming operation.
  • the axes of rotation of the folding rolls of each pair of folding and counter rolls are located in a plane which makes an angle somewhat less than 90 with the direction of advance of the machine during the seaming operation. rl ⁇ his inclination of the axes of rotation results in that the rolls during the forward movement of the carriage along the seam will work their way downward towards the sheet and thereby effectively counteract the upwardly directed force cornponents of .the reaction forces exerted by the sheet during the deformation (folding) thereof. This effect results in turn in that the rolls automatically are maintained in engagement with the upstanding sheet flanges during the seaming operation.
  • FIG. l is a lateral elevation of the machine with the upper part shown in longitudinal vertical section and the lower part in vertical projection.
  • FlG. 2 is a top view of the machine with the cover of the carriage omitted and partly shown in horizontal section along a plane through the aXes of the springs acting upon the shafts of the rolls.
  • FIG. 3 is a vertical cross section along a plane through the axes of rotation of the first pair of rolls.
  • FIGS. 4, 5 and 6 illustrate in ⁇ detail the second, third and fourth 3,120,828 Patented Feb. 11, 1964 2 pair of rolls, respectively, as viewed in a vertical transverse projection of the carriage.
  • the carriage comprises a frame block or frame l which may be rectangular and the ends of which are provided with brackets Z for supporting wheels 3 or other supporting means adapted to support ⁇ and guide the carriage on the roofing sheets to be connected by seams.
  • the plane defined by the rooiin g sheets contacted by the wheels may be termed as a tangent plane to the supporting means of the frame.
  • the carriage has a cover 4 through 'which extends a shaft 5 which is lmounted in the cover and which can be connected to a crank, a drive motor or other drive mechanism for operating the machine.
  • the shaft 12 is journalled in a bearing bushing l5 (FlG. 3) secured to the frame block l, whereas the shaft 14 is mounted on an arm io, one end of which is secured -to a transverse shaft 17 which is mounted in bushings i9 in a bore 20 in the frame block l.
  • the other end of the arm lo is -acted upon by a spring Ztl which bears on a projection Z2 on the inside of the cover 4.
  • each shaft lll and il Keyed onto the upper end of each shaft lll and il is a toothed wheel or gear 23, and the drive shaft 5 has secured to it a pinion 24 which meshes with the gears 23 on the shafts il on either side of the pinion 24.
  • these gears By means of intermediate toothed wheels or gears 25, these gears in turn mesh with gears 23 on the shafts 11 which carry the first counter roll ⁇ 6b and the last counter roll Eb in the row in which the counter rolls. are disposed one behind the other in the carriage.
  • the gears 23 on each pair of shafts lil, l1 also mesh with each other. Consequently, all of the shafts of the folding and counter rolls daz-9a and Gli-9b respectively are driven by the shaft 5 by means of gears.
  • Each shaft lil and il is provided with a support roll or disk 26 which is connected to the shaft preferably through the toothed wheel 23.
  • the support roll 26 is fastened to the upper side of the toothed Wheel 23 by means of screws 27.
  • each folding roll da and 9a is mounted, for instance by means of bushings 28, in a sleeve .29 which is laterally displaceable towards and away from the opposite shaft lil of the corresponding counter roll otr-9b.
  • the sleeve 29 is laterally acted upon by a spring means which in the embodiment illustrated consists of a plurality of superposed resilient rings or washers 30 guided in a spring case 3l on a stud 32 which bears on the outwardly directed plane side of the sleeve Z9.
  • the outer end of the spring bears upon a scre'w ⁇ threaded cap 33 which can be screwed inwards and outwards on the outer screw threaded end of the spring case to adjust the tension of the spring.
  • a cavity 35 in the frame block 1 has guide grooves 34 by means of which the sleeve 29 is gui-ded such as to be displaceable toward-s and away from the shaft il.
  • the sleeve 29 has on either side thereof bearing members 36 each of which has a disk or cylindrical portion 37 and a straight portion 3S.
  • the disk or cylindrical portion 37 is mounted in a corresponding recess in the side of the sleeve 29, whereas the straight portion 38 is a ⁇ block which slidably fits the guide groove 34.
  • the sleeve 29 When the folding roll 6a is moved toward the counter roll 6b, the sleeve 29 will be displaced and simultaneously turned on the 4bearing members 3d around an axis transversely of the shaft llt?, the straight portions 3S of the bearing member 36 sliding along the guide grooves 34. During this movement the support rolls 26 at the upper ends of the appertaining shafts lil, ll maintain their engagement with each other, thereby preventing the corresponding gears 23 from getting wedged to each other and further preventing noticeable axial displacement of the folding rolls Gti-9a relative to the counter rolls 5b- 9b.
  • the rolls 6a, 6b are kept in firm engagement ⁇ with the s eet flanges 40, il by means of the springs 3), and upon rotation of the rolls 6a, 6b by means of their shafts ttl, ⁇ lll the carriage will be moved along the sheet flanges, while the projecting portion 45 is folded or turned over the sheet flange il by the conical face of the edge folding roll 6c, as shown in HG. 3.
  • the edge folding roll 7c is brought into engagement with the projecting portion ftd which will be turned ⁇ down against the upper side of the folding roll la under the action of the spring 21 which acts upon the arm fr@ that carries the roll 7c, yFG. 4.
  • the sheet edge 45 is lthen further turned downwards between the rolls Sa and 8b, the roll Sa having a conical portion to effect this downward folding, as shown in FlG. 5. Finally, the portion @S is folded inwards against the sheet llange dit between the last pair of rolls 9a, 9b, ⁇ as shown in FIG. 6i.
  • the inclination of the rolls is due to the ⁇ fact that the shafts 10, 111 of the rolls are mounted in the vframe block 1 in a manner such as to make an angle somewhat less than 90 with the tangent plane an the direction of advance.
  • the yaxis of the shaft is denoted by a chain-dotted line 46
  • ⁇ and the direction of advance or the plane tangent to the supporting wheels is denoted ⁇ at 47, the angle v between these lines 46, i7 being consequently smaller than 90.
  • Numeral 43 denotes the 901line.
  • the machine can be used not only to produce the described sin-gle seam, but also to make a double searn. To make such double seam, the single seam shown in FIG. 6 is folded again. This can be readily performed by means of the machine described which permits of a relatively great lateral movability of the folding rolls 6a-6b away from the counter rolls 6b-9b.
  • the maeases d chine can be used for forming seams of thin and soft sheets as well as stiff and thick plates of ⁇ various kinds.
  • the tension of the springs fdly can be adapted to the nature of the material by correspondinq adjustment of the screw cap 313 on the spring case 3l.
  • a machine for forming standing seams on langed rooting sheets comprising a frame, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, said frame including guides for each pair of shafts extending substantially transversely of the shafts, one shaft of each pair being mounted for lateral swinging with respect to the other shaft thereof, means mounted on said frame for simultaneously driving shafts, folding and counter rolls carried by said shafts of each pair and being adapted to receive and grip the ups-tanding flanges of the sheets between the rolls of each pair Lfor folding the flanges into seams, a sleeve forming a bearing for each swingable shaft, said sleeve having bearing recesses in dianietrically opposite sides thereof, and pivot means for each sleeve, each pivot rneans comprising a disc engaging one of said recesses and a straight portion engaging one of said guides whereby the sleeve and the shaft journalled therein are guided during the swinging.
  • a machine for forming standing seams on flanged roofing sheets comprising a frame, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, said frame including guides for each pair of shafts extending substantially transversely of the shafts, one shaft of each pair being mounted for lateral swinging with respect to the other shaft thereof, means mounted on said frame for simultaneously driving the shaft, folding and counter rolls carried by said shafts of each pair and being adapted to receive and grip the upstanding flanges of the sheets between the rolls of each pair for folding the flanges into seams, a sleeve forming a bearing for each of said swingable shafts, spring means to force said sleeves the shafts therein towards the companion shaft of the pair to press the rolls of the pair in engagement with the upstanding flanges, and means to guide each sleeve displaceably and pivotally with respect to the frame, said sleeve guiding means comprising bearing recesses located in diametrically opposite sides of each sleeve
  • a machine for forming standing seams on flanged roofing sheets comprising a frame, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, said frame including guides for each pair of shafts extending substantially transversely of the shafts, one shaft of each pair being mounted for lateral swinging, means with respect to the other shaft thereof, means mounted on said frame for simultaneously driving the shafts, folding and counter rolls carried by said shafts of each pair and being adapted to receive and grip the upstanding flanges or the sheets between the rolls of each pair for folding the flanges into seams, a sleeve forming a bearing for each swingable shaft, spring means mounted to press the sleeve and the shaft therein towards the cornpanion shaft of the pair, said spring means including a tubular spring case, a cap having screwed threaded engagement with said spring case and springs in said spring case adjustable by screwing the cap inwards and outwards on said spring case, and means to guide each sleeve
  • a machine for forming standing seams on anged rooting sheets comprising a frame, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, said frame including guides for each pair of shafts extending substantially transversely of the shafts, one shaft of each pair being mounted for lateral swinging with respect to the other shaft thereof, driving means mounted in the frame for simultaneously driving the shafts, a folding roll mounted at one end of one shaft of each pair, a counter roll mounted at the corresponding end of the other shaft of each pair, said folding rolls and said counter rolls being mounted to receive and grip the upstanding anges of the sheets therebetween, a sleeve forming a bearing for each swingable shaft, said sleeve having bearing recesses in diametrically opposite sides thereof, pivot means for each sleeve, each pivot means comprising a disc engaging one of said recesses and a straight portion engaging one of said guides whereby the sleeve and the shaft journalled therein are guided during the swinging, means mov
  • a machine for forming standing seams on hanged roofing sheets comprising a frame, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, one shaft of each pair being mounted for lateral swinging with respect to the other shaft thereof, a folding roll mounted at one end of one shaft of each pair, a counter roll mounted at the corresponding end of the other shaft of each pair, said folding rolls and counter rolls being mounted to receive and grip the upstanding flanges of the sheets therebetween, toothed wheels keyed to the other ends of the shafts of each pair, driving means mounted in said frame to drive said toothed wheels simultaneously, means movable in correspondence with said rolls to overturn at least one of said anges in cooperation with the rolls, and a supporting roll mounted immediately adjacent the toothed wheel at said other end of each shaft, the two supporting rolls on each pair of shafts being in engagement with each other at a point which is also the pivoting point for the lateral swinging of said one shaft.
  • a machine for forming standing seams on anged roofing sheets on a roof comprising a frame, means for guiding and supporting the frame on the roof, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, said frame including guides for each pair of shafts extending substantially transversely of the shafts, one shaft of each pair being mounted for lateral swinging with respect to the other shaft thereof, driving means mounted in said frame for driving the shafts simultaneously, gripping and folding rolls mounted at one end of the shafts for engagement with the upstanding anges to be folded, a sleeve forming a bearing for each swingable shaft, spring means engaging each sleeve to press the swingable shaft journalled therein toward its companion shaft, means to guide each sleeve displaceably and pivotally with respect to the frame, said sleeve guiding means comprising bearing recesses located in diametrically opposite sides of each sleeve and pivot means for each sleeve, each pivot means comprising a disc engaging one

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  • Mechanical Engineering (AREA)
  • Folding Of Thin Sheet-Like Materials, Special Discharging Devices, And Others (AREA)

Description

Feb. 11, 1964 s. o. GRNLUND 3,120,828
Roof1 SEAMING MACHINE Filed oct. 12. 1960 2 sheets-sheet 1 10m "DCD IN VEN TOR.
Feb. 1l, 1964 s.'o. GRNLUND 3,120,828
' RooF SEAMING MACHINE Filed oct. 12, 1960 2 sheets-sheet 2 IN VEN TOR. .S1/5N 01. 0F 6SM/VL wvo BY #WMM United States Patent C) 3,126,323 Rtli? SEAMING MACHENE Sven @lof Grniund, Kinneiruliegatan 26, Skal-a, Sweden Filed Oct. l2, i960, Ser. No. 62,159 Claims priority, application Sweden (ict. 2l), 1959 6 Claims. (Ci. )H3- 55) Previously known roof seaming machines for forming standing seams to interconnect adjacent roofing sheets comprise a carriage with pair-w'e arranged rolls which successively perform the seaming operation according as the carriage is moved along the opstanding sheet flanges. One of the rolls of each pair, hereinbelow termed the folding roll, is adapted to be swung outward relative to the other roll, herein termed the counterroll, and is acted upon by a spring such as to be forced toward the counter roll and to assist in folding the upstanding sheet flange or sheet flanges for producing -a single or double seam. Movability of one roll towards and away from the other roll is necessary for the transmission of the spring action and for adapting the distance between the folding roll and the counter roll to the variable thickness of the seam.
The movability of the folding rolls toward and away from the counter rolls involves certain problems with respect to the driving of the rolls. In this connection there also arises the difculty in maintaining the rolls in position on either side of the seam as they are advanced along the seam. When the upstanding sheet flange or sheet flanges are folded during the seaming operation, forces will result which have upwardly directed components and consequently tend to lift the carriage olf the sheets and to disengage the rolls from the sheet flanges.
The object of this invention is to eliminate the above difficulties and in this connection to provide suitable bearing means for the shafts of the movable folding rolls.
In its broadest aspect the invention is characterized by the fact that the swingable folding roll is mounted on one end of a shaft the other end of which is provided with a support roll in engagement with a support roll on a shaft for the counter roll of the pair. Due to the provision of support members at the ends of the shafts, the ends will be securely maintained at a definite distance from each other, resulting in the possibility of providing a simple roll driving mechanism which is not unfavourably affected by variations of the spacing of the rolls in each pair during the seaming operation.
According to another feature of the invention the axes of rotation of the folding rolls of each pair of folding and counter rolls are located in a plane which makes an angle somewhat less than 90 with the direction of advance of the machine during the seaming operation. rl`his inclination of the axes of rotation results in that the rolls during the forward movement of the carriage along the seam will work their way downward towards the sheet and thereby effectively counteract the upwardly directed force cornponents of .the reaction forces exerted by the sheet during the deformation (folding) thereof. This effect results in turn in that the rolls automatically are maintained in engagement with the upstanding sheet flanges during the seaming operation.
An embodiment of the invention is described hereinbelow with reference to the accompanying drawing.
FIG. l is a lateral elevation of the machine with the upper part shown in longitudinal vertical section and the lower part in vertical projection. FlG. 2 is a top view of the machine with the cover of the carriage omitted and partly shown in horizontal section along a plane through the aXes of the springs acting upon the shafts of the rolls. FIG. 3 is a vertical cross section along a plane through the axes of rotation of the first pair of rolls. FIGS. 4, 5 and 6 illustrate in `detail the second, third and fourth 3,120,828 Patented Feb. 11, 1964 2 pair of rolls, respectively, as viewed in a vertical transverse projection of the carriage.
in the embodiment illustrated, the carriage comprises a frame block or frame l which may be rectangular and the ends of which are provided with brackets Z for supporting wheels 3 or other supporting means adapted to support `and guide the carriage on the roofing sheets to be connected by seams. Thus, during operation, the plane defined by the rooiin g sheets contacted by the wheels may be termed as a tangent plane to the supporting means of the frame. The carriage has a cover 4 through 'which extends a shaft 5 which is lmounted in the cover and which can be connected to a crank, a drive motor or other drive mechanism for operating the machine. On the lower side of the carriage there are four pairs of Ifolding and counter rolls 6a, 6b, 7a, 7b, 8a, l8b and 9a, 9b. The folding rolls 6a, 7a, Sa and 9a are carried by shafts 1li which are mounted for lateral swinging in the frame, whereas the counter rolls 6b, 7b, `8b and 9b are secured to shafts il `which are non-displaceably mounted in the frame block l. There are further provided means to overturn the upstanding flanges of the sheets to be secured in cooperation with the folding rolls and counter rolls, said means comprising two edge folding rolls 6c and 7c mounted on `transverse shafts i2 and le, respectively. The shaft 12 is journalled in a bearing bushing l5 (FlG. 3) secured to the frame block l, whereas the shaft 14 is mounted on an arm io, one end of which is secured -to a transverse shaft 17 which is mounted in bushings i9 in a bore 20 in the frame block l. The other end of the arm lo is -acted upon by a spring Ztl which bears on a projection Z2 on the inside of the cover 4.
Keyed onto the upper end of each shaft lll and il is a toothed wheel or gear 23, and the drive shaft 5 has secured to it a pinion 24 which meshes with the gears 23 on the shafts il on either side of the pinion 24. By means of intermediate toothed wheels or gears 25, these gears in turn mesh with gears 23 on the shafts 11 which carry the first counter roll `6b and the last counter roll Eb in the row in which the counter rolls. are disposed one behind the other in the carriage. The gears 23 on each pair of shafts lil, l1 also mesh with each other. Consequently, all of the shafts of the folding and counter rolls daz-9a and Gli-9b respectively are driven by the shaft 5 by means of gears.
Each shaft lil and il is provided with a support roll or disk 26 which is connected to the shaft preferably through the toothed wheel 23. As will be seen from FlGS. l and 2, the support roll 26 is fastened to the upper side of the toothed Wheel 23 by means of screws 27. The support rolls 26 on the toothed wheel 2.3 in cach pair of shafts titi, il `are in peripheral engagement with each other and define a minimum distance between the upper ends of the shafts, thereby preventing the teeth of the wheels 23 from getting wedged to each other when the folding roll moves outwards away from the counter roll.
The shaft l@ of each folding roll da and 9a is mounted, for instance by means of bushings 28, in a sleeve .29 which is laterally displaceable towards and away from the opposite shaft lil of the corresponding counter roll otr-9b. The sleeve 29 is laterally acted upon by a spring means which in the embodiment illustrated consists of a plurality of superposed resilient rings or washers 30 guided in a spring case 3l on a stud 32 which bears on the outwardly directed plane side of the sleeve Z9. The outer end of the spring bears upon a scre'w `threaded cap 33 which can be screwed inwards and outwards on the outer screw threaded end of the spring case to adjust the tension of the spring.
A cavity 35 in the frame block 1 has guide grooves 34 by means of which the sleeve 29 is gui-ded such as to be displaceable toward-s and away from the shaft il. To this end the sleeve 29 has on either side thereof bearing members 36 each of which has a disk or cylindrical portion 37 and a straight portion 3S. The disk or cylindrical portion 37 is mounted in a corresponding recess in the side of the sleeve 29, whereas the straight portion 38 is a `block which slidably fits the guide groove 34. When the folding roll 6a is moved toward the counter roll 6b, the sleeve 29 will be displaced and simultaneously turned on the 4bearing members 3d around an axis transversely of the shaft llt?, the straight portions 3S of the bearing member 36 sliding along the guide grooves 34. During this movement the support rolls 26 at the upper ends of the appertaining shafts lil, ll maintain their engagement with each other, thereby preventing the corresponding gears 23 from getting wedged to each other and further preventing noticeable axial displacement of the folding rolls Gti-9a relative to the counter rolls 5b- 9b.
When the machine is to be used it is placed at one end of the upstanding flanges 40, 4l of two adjacent sheets 42, 43 which are to be connected by seams (lllG. 3). Then the carriage is moved in the direction indicated by the arrow `ld such that the rolls 6a, 6b will be disposed on either side of the upstanding sheet flanges 4d, di. ln case of single overseamin-g a portion 45 of one sheet flange extends above the other flange, as shown in FIG. 3. The projecting portion 45 comes into engagement with `the conical edge folding -roll 6c. The rotation of the shaft 5 will be imparted to all of the shafts dit?, lil. The rolls 6a, 6b are kept in firm engagement `with the s eet flanges 40, il by means of the springs 3), and upon rotation of the rolls 6a, 6b by means of their shafts ttl, `lll the carriage will be moved along the sheet flanges, while the projecting portion 45 is folded or turned over the sheet flange il by the conical face of the edge folding roll 6c, as shown in HG. 3. Upon continued movement of the carriage the edge folding roll 7c is brought into engagement with the projecting portion ftd which will be turned `down against the upper side of the folding roll la under the action of the spring 21 which acts upon the arm fr@ that carries the roll 7c, yFG. 4. The sheet edge 45 is lthen further turned downwards between the rolls Sa and 8b, the roll Sa having a conical portion to effect this downward folding, as shown in FlG. 5. Finally, the portion @S is folded inwards against the sheet llange dit between the last pair of rolls 9a, 9b, `as shown in FIG. 6i.
When the rolls 6c, 7c and Sa are folding down the sheet flange poltion 45 there arise reaction forces which tend to push the carriage upwards away from the sheets 42, 43. This effect is counteracted due to the fact that the axes of the shafts 10, 11 and o-f the rolls 6ft-9a and 6b-9b are inclined towards the sheets (or, more exactly, form an angle slightly less than 90 with a plane tangent to the supporting wheels 3) as viewed in the direction of advance, and as a result thereof will work their way downward against the sheets during their rolling movement along the seam. The inclination of the rolls is due to the `fact that the shafts 10, 111 of the rolls are mounted in the vframe block 1 in a manner such as to make an angle somewhat less than 90 with the tangent plane an the direction of advance. In FIG. l, the yaxis of the shaft is denoted by a chain-dotted line 46, `and the direction of advance or the plane tangent to the supporting wheels is denoted `at 47, the angle v between these lines 46, i7 being consequently smaller than 90. Numeral 43 denotes the 901line.
The machine can be used not only to produce the described sin-gle seam, but also to make a double searn. To make such double seam, the single seam shown in FIG. 6 is folded again. This can be readily performed by means of the machine described which permits of a relatively great lateral movability of the folding rolls 6a-6b away from the counter rolls 6b-9b. The maeases d chine can be used for forming seams of thin and soft sheets as well as stiff and thick plates of `various kinds. The tension of the springs fdly can be adapted to the nature of the material by correspondinq adjustment of the screw cap 313 on the spring case 3l.
What l claim is:
l. A machine for forming standing seams on langed rooting sheets, comprising a frame, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, said frame including guides for each pair of shafts extending substantially transversely of the shafts, one shaft of each pair being mounted for lateral swinging with respect to the other shaft thereof, means mounted on said frame for simultaneously driving shafts, folding and counter rolls carried by said shafts of each pair and being adapted to receive and grip the ups-tanding flanges of the sheets between the rolls of each pair Lfor folding the flanges into seams, a sleeve forming a bearing for each swingable shaft, said sleeve having bearing recesses in dianietrically opposite sides thereof, and pivot means for each sleeve, each pivot rneans comprising a disc engaging one of said recesses and a straight portion engaging one of said guides whereby the sleeve and the shaft journalled therein are guided during the swinging.
2. A machine for forming standing seams on flanged roofing sheets, comprising a frame, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, said frame including guides for each pair of shafts extending substantially transversely of the shafts, one shaft of each pair being mounted for lateral swinging with respect to the other shaft thereof, means mounted on said frame for simultaneously driving the shaft, folding and counter rolls carried by said shafts of each pair and being adapted to receive and grip the upstanding flanges of the sheets between the rolls of each pair for folding the flanges into seams, a sleeve forming a bearing for each of said swingable shafts, spring means to force said sleeves the shafts therein towards the companion shaft of the pair to press the rolls of the pair in engagement with the upstanding flanges, and means to guide each sleeve displaceably and pivotally with respect to the frame, said sleeve guiding means comprising bearing recesses located in diametrically opposite sides of each sleeve and pivot means for each sleeve, each pivot means comprising a disc engaging one of said recesses and a straight portion engaging one of said guides whereby the sleeve and the shaft journalled therein are guided during the swinging.
3. A machine for forming standing seams on flanged roofing sheets, comprising a frame, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, said frame including guides for each pair of shafts extending substantially transversely of the shafts, one shaft of each pair being mounted for lateral swinging, means with respect to the other shaft thereof, means mounted on said frame for simultaneously driving the shafts, folding and counter rolls carried by said shafts of each pair and being adapted to receive and grip the upstanding flanges or the sheets between the rolls of each pair for folding the flanges into seams, a sleeve forming a bearing for each swingable shaft, spring means mounted to press the sleeve and the shaft therein towards the cornpanion shaft of the pair, said spring means including a tubular spring case, a cap having screwed threaded engagement with said spring case and springs in said spring case adjustable by screwing the cap inwards and outwards on said spring case, and means to guide each sleeve displaceably and pivotally with respect to the frame, said guide means comprising bearing recesses located in diametrically opposite sides of each sleeve and pivot means for each sleeve, each pivot means comprising a disc engaging one of said recesses and a straight portion engaging one of said guides, whereby the sleeve and the shaft journalled therein are guided to turn around an axis at right angles to that of the shaft during the lateral swinging.
4. A machine for forming standing seams on anged rooting sheets comprising a frame, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, said frame including guides for each pair of shafts extending substantially transversely of the shafts, one shaft of each pair being mounted for lateral swinging with respect to the other shaft thereof, driving means mounted in the frame for simultaneously driving the shafts, a folding roll mounted at one end of one shaft of each pair, a counter roll mounted at the corresponding end of the other shaft of each pair, said folding rolls and said counter rolls being mounted to receive and grip the upstanding anges of the sheets therebetween, a sleeve forming a bearing for each swingable shaft, said sleeve having bearing recesses in diametrically opposite sides thereof, pivot means for each sleeve, each pivot means comprising a disc engaging one of said recesses and a straight portion engaging one of said guides whereby the sleeve and the shaft journalled therein are guided during the swinging, means movable in correspondence with said rolls to overturn at least one of said flanges in cooperation with the rolls, and supporting rolls mounted at the other end of the shafts of each pair to fix the distance between the shafts of each pair at the latter end of the shafts.
5. A machine for forming standing seams on hanged roofing sheets comprising a frame, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, one shaft of each pair being mounted for lateral swinging with respect to the other shaft thereof, a folding roll mounted at one end of one shaft of each pair, a counter roll mounted at the corresponding end of the other shaft of each pair, said folding rolls and counter rolls being mounted to receive and grip the upstanding flanges of the sheets therebetween, toothed wheels keyed to the other ends of the shafts of each pair, driving means mounted in said frame to drive said toothed wheels simultaneously, means movable in correspondence with said rolls to overturn at least one of said anges in cooperation with the rolls, and a supporting roll mounted immediately adjacent the toothed wheel at said other end of each shaft, the two supporting rolls on each pair of shafts being in engagement with each other at a point which is also the pivoting point for the lateral swinging of said one shaft.
6. A machine for forming standing seams on anged roofing sheets on a roof, comprising a frame, means for guiding and supporting the frame on the roof, shafts arranged in pairs with the axis of each pair being coplanar and supported within the frame, said frame including guides for each pair of shafts extending substantially transversely of the shafts, one shaft of each pair being mounted for lateral swinging with respect to the other shaft thereof, driving means mounted in said frame for driving the shafts simultaneously, gripping and folding rolls mounted at one end of the shafts for engagement with the upstanding anges to be folded, a sleeve forming a bearing for each swingable shaft, spring means engaging each sleeve to press the swingable shaft journalled therein toward its companion shaft, means to guide each sleeve displaceably and pivotally with respect to the frame, said sleeve guiding means comprising bearing recesses located in diametrically opposite sides of each sleeve and pivot means for each sleeve, each pivot means comprising a disc engaging one of said recesses and a straight portion engaging one of said guides, and supporting rolls mounted at the other end of the shafts, the supporting roll of one shaft of a pair engaging the supporting roll of the other shaft of said pair, the axes of rotation of the folding and gripping rolls of each pair of shafts being disposed in a plane making an angle slightly less than with a plane defined as a tangent plane of said means for guiding and supporting the frame on the roof.
References Cited in the le of this patent UNITED STATES PATENTS 246,434 Wendt Aug. 30, 1881 322,848 Osborn July 21, 1885 2,160,336 Maxfield May 30, 1939 2,171,297 Zahner et al. Aug. 29, 1939 2,774,320 Boyd Dec. 18, 1956 FOREIGN PATENTS 586,966 Germany Oct. 28, 1933

Claims (1)

1. A MACHINE FOR FORMING STANDING SEAMS ON FLANGED ROOFING SHEETS, COMPRISING A FRAME, SHAFTS ARRANGED IN PAIRS WITH THE AXIS OF EACH PAIR BEING COPLANAR AND SUPPORTED WITHIN THE FRAME, SAID FRAME INCLUDING GUIDES FOR EACH PAIR OF SHAFTS EXTENDING SUBSTANTIALLY TRANVERSELY OF THE SHAFTS, ONE SHAFT OF EACH PAIR BEING MOUNTED FOR LATERAL SWINGING WITH RESPECT TO THE OTHER SHAFT THEREOF, MEANS MOUNTED ON SAID FRAME FOR SIMULTANEOUSLY DRIVING THE SHAFTS, FOLDING AND COUNTER ROLLS CARRIED BY SAID SHAFTS OF EACH PAIR AND BEING ADAPTED TO RECEIVE AND GRIP THE UPSTANDING FLANGES OF THE SHEETS BETWEEN THE ROLLS OF EACH PAIR FOR FOLDING THE FLANGES INTO SEAMS, A SLEEVE FORMING A BEARING FOR EACH SWINGABLE SHAFT, SAID SLEEVE HAVING BEARING RECESSES IN DIAMETRICALLY OPPOSITE SIDES THEREOF, AND PIVOT MEANS FOR EACH SLEEVE, EACH PIVOT MEANS COMPRISING A DISC ENGAGING ONE OF SAID RECESSES AND A STRAIGHT PORTION ENGAGING ONE OF SAID GUIDES WHEREBY THE SLEEVE AND THE SHAFT JOURNALLED THEREIN ARE GUIDED DURING THE SWINGING.
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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3487799A (en) * 1968-04-12 1970-01-06 Sven Olof Gronlund Roof seaming machine
US3610191A (en) * 1969-05-08 1971-10-05 Ralph N Harris Jr Apparatus for forming standing seams along the edges of sheet material
US3662699A (en) * 1970-11-16 1972-05-16 Leo B Horn Metal roof seaming machine
US4324031A (en) * 1980-06-30 1982-04-13 Roof Systems, Inc. Batten seaming machine
US4366620A (en) * 1981-02-23 1983-01-04 Butler Manufacturing Company Roof seam cutting machine
US4918797A (en) * 1989-02-17 1990-04-24 Watkins Neil A Metal roof panel seamer apparatus
US6711794B1 (en) 2003-04-09 2004-03-30 Butler Manufacturing Company Starting and ending platform for a roof seaming machine
US20070193209A1 (en) * 2006-02-01 2007-08-23 Bevers Teddy R Standing seam vertical slitter
CN103464555A (en) * 2013-09-17 2013-12-25 鞍山新工建设有限公司 360-degree roof curling machine
US11548048B1 (en) * 2017-08-09 2023-01-10 Building Research Systems, Inc. Folding sheet metal panels

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US246434A (en) * 1881-08-30 wendt
US322848A (en) * 1885-07-21 Tin roofing
DE586966C (en) * 1932-04-21 1933-10-28 Franco Mazzini Tool for making the connection of sheets used for the construction of aircraft or the like
US2160336A (en) * 1938-05-26 1939-05-30 Omer R Maxfield Roof seaming machine
US2171297A (en) * 1937-09-16 1939-08-29 Zahner Andrew Sheet metal seaming machine
US2774320A (en) * 1952-11-15 1956-12-18 Charles H Manion Metal roof seam forming machine

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US246434A (en) * 1881-08-30 wendt
US322848A (en) * 1885-07-21 Tin roofing
DE586966C (en) * 1932-04-21 1933-10-28 Franco Mazzini Tool for making the connection of sheets used for the construction of aircraft or the like
US2171297A (en) * 1937-09-16 1939-08-29 Zahner Andrew Sheet metal seaming machine
US2160336A (en) * 1938-05-26 1939-05-30 Omer R Maxfield Roof seaming machine
US2774320A (en) * 1952-11-15 1956-12-18 Charles H Manion Metal roof seam forming machine

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3487799A (en) * 1968-04-12 1970-01-06 Sven Olof Gronlund Roof seaming machine
US3610191A (en) * 1969-05-08 1971-10-05 Ralph N Harris Jr Apparatus for forming standing seams along the edges of sheet material
US3662699A (en) * 1970-11-16 1972-05-16 Leo B Horn Metal roof seaming machine
US4324031A (en) * 1980-06-30 1982-04-13 Roof Systems, Inc. Batten seaming machine
US4366620A (en) * 1981-02-23 1983-01-04 Butler Manufacturing Company Roof seam cutting machine
US4918797A (en) * 1989-02-17 1990-04-24 Watkins Neil A Metal roof panel seamer apparatus
US6711794B1 (en) 2003-04-09 2004-03-30 Butler Manufacturing Company Starting and ending platform for a roof seaming machine
DE10359953B4 (en) * 2003-04-09 2016-04-07 Butler Mfg. Co. Holding platform for attaching and removing a roof folding machine
US20070193209A1 (en) * 2006-02-01 2007-08-23 Bevers Teddy R Standing seam vertical slitter
CN103464555A (en) * 2013-09-17 2013-12-25 鞍山新工建设有限公司 360-degree roof curling machine
US11548048B1 (en) * 2017-08-09 2023-01-10 Building Research Systems, Inc. Folding sheet metal panels

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