US2589379A - Process and device for the manufacture of corrugated sheets of asbestos cement - Google Patents

Process and device for the manufacture of corrugated sheets of asbestos cement Download PDF

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US2589379A
US2589379A US74684A US7468449A US2589379A US 2589379 A US2589379 A US 2589379A US 74684 A US74684 A US 74684A US 7468449 A US7468449 A US 7468449A US 2589379 A US2589379 A US 2589379A
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channel
shaped members
rods
frame
sheets
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US74684A
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Herzog Carl
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Eternit AG
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Eternit AG
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B1/00Producing shaped prefabricated articles from the material
    • B28B1/52Producing shaped prefabricated articles from the material specially adapted for producing articles from mixtures containing fibres, e.g. asbestos cement
    • B28B1/528Producing shaped prefabricated articles from the material specially adapted for producing articles from mixtures containing fibres, e.g. asbestos cement for producing corrugated sheets

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  • the present invention relates to a process and a device for the manufacture of corrugated sheets from asbestos-cement sheets or other plastic, that is mouldable sheets containing bres and hardening bonding agents.
  • the new process consists in this that the mouldable sheets are, at definitely spaced intervals, subjected to the action of suction chambers, gripped, and then formed into corrugations by decreasing the distance separating the suction chambers'.
  • the at sheets may be so edge-trimmed before, the operation of corrugation that after said operation they exhibit the exact dimensions desired, since they are so held bythe suction chambers that they do not become distorted.
  • the corrugated sheets can then be placed on rigid moulds and remain there until the bonding agent has hardened suiiiciently.
  • a device which possesses suction chambers arranged at definitely spaced intervals, which suction chambers grip the sheets and fold them into corrugations of the desired width and depth.
  • the sheets so corrugated are then placed in suitable corrugated moulds until they have set.
  • Fig. 1 is an elevation of a preferred embodiment of the device according to this invention.
  • Fig. 2 is an elevation in another position of the various parts
  • Fig. 3 is a plan view of the device
  • Fig. 4 is a transversal section along the line 4-4 of Figure 3
  • Fig. 5 is a section along the line 5 5 of Figure 4 and Fig. 6 is a diagrammatic representation of the device.
  • the device for performing the process according to this invention comprises a frame I of rectangular shape which is reinforced by means of struts 2. 'I'he frame I and the struts 2 as well are advantageouslyY made of steel tubes. To the frame I brackets 3 are secured on which double armed levers 4 are rotatably mounted by means of bolts 5. The upper ends of the levers 4 are connected to rods 6 by means of a bolt-and-slot connection 1, whereas the lowerends of the said levers 4 are connected to rods 8 by means of bolts 9. As shown in Figure 3 identical parts are arranged at opposite ends of the frame I.
  • the inner ends of the rods 5 are rotatably connected to a disc I0 which is itself rotatably mounted on the axis II.l
  • the connection of the rods 6 and the disc I0 is brought about by means of bolts I2.
  • an arm I3 is xedly secured. This arm projects beyond the disc I 0 and its ends are connected to rods I4 and I5.
  • the rod I4 is the piston rod of a hydraulic or pneumatic steering apparatus I6 provided with an inlet I1 and an outlet I8 for the pneumatic or hydraulic medium.
  • the lower end of the arm I3 is connected to the rod I5 by means of a bolt I9.
  • the other end of the said rod is rotatably connected to a support 20 by means of a stud 2
  • the rods 8, two of which are provided for at each end of the frame I, are slidably mounted in lbrackets 23 secured to the frame I and their inner ends enter a cylinder tube 21.
  • U-shaped suction channels or chambers 23, 29 and 29. are suspended by means of bolts 30 secured to brackets 32.
  • the upper ends of the boltsA 30 are screw threaded and nuts 3I bearing against the upper side of the said brackets secure the bolts 3l] and the suction channels in their position.
  • the brackets 32 are xedly se-4 curedY to the rods 8, Whereas the brackets 32 are arranged slidably between the collars 33 of the rods 8.
  • Bracket 32 is xed-l-y secured to the frame I by means of a strut 34" which supports also thev tube 2l. The bracket 32 is therefore not affected by the movement of the rods 8.
  • the support 20 is supporting a suction chamber 34.
  • Figure 5 shows a section through any one of the suction chambers 32, 32', 32" or 34.
  • a casing 35 of sheet metal is placed in the cavity 38 of the chamber formed by a channel-shaped element, this casing being provided with openings 36.
  • a cover 3l of flexible, elastic material, for instance of rubber is arranged around the lower part of the channel-shaped element.' Below the cavity 38 of the chamber the cover 3l is perforated (openings 39) and its borders 40, 4I are xed in ledges 42, 43 to which screw bolts 44 are secured. These bolts enter into openings of the horizontal part 45 of the supporting element 46, the vertical part thereof resting on the channel element.
  • the elastic rubber cover 37 can be kept taught around the lower part of the channel element.
  • the cover is secured to the channel element at various points.
  • An air pump 48 is diagrammatically represented in Figure 6 of the drawings. This pump or exhauster is connected to a central cock 49 by means of a tube 50.
  • the cock 49 in turn is connected by flexible tubes or hoses 5I to openings 52 ( Figure 3) of the various channel elements.
  • the rod 8 shown on the righthandlside of Figures 1 and 2 carries a support 53 provided at its lower end with a roller 54, the length of which corresponds to that of the various channel elements.
  • the device is operated as follows:
  • a sheet of 'not yet hardened asbestos-cement 55 of rectangular or square shape is placed on a table 56 so that one margin of the same is below the roller 54 and is depressed by the same ( Figure 1). Then the pump 48 is set to work so as to suck'air out of the spaces 31 and thereafter the steering or control apparatus is operated so as to move the piston rod I4 to the lefthand side (see Figures 1 and 2). This movement entails a rotation of the discs I at -both ends of the frame I and the rods 8 are moved towards each other by the rods 8 and the levers 4.
  • the channel elements 28 are displaced by an amount corresponding to the stroke of the rods 8.
  • the inner channel elements 29 are only set into movement when the outer collar 33 abuts against the same and they are displaced a distance equal to half the stroke of the rods 8.
  • the innermost channel element 29 remains at rest whereas the channel element 34 carried by the support 20 moving along the rails 22 by the action of the rod I is brought into the position shown in Figure 2.
  • the frame I is advantageously suspended by means of hooks 51 and wires or cables to a device adapted to raise and lower the frame with respect to the table 56.
  • a process for manufacturing corrugated sheets from plane moldable libro-cement sheets including the steps of placing the plane sheet in a still moldable condition upon a plane supporting surface, applying suction to a plurality of parallel and spaced narrow areas of said sheet and then moving said narrow areas, while the suction force is maintained, parallel and relatively closer to each other so as to decrease the distance between said narrow areas of the sheet and thereby forming corrugations in the same.
  • a process for manufacturing corrugated sheets from plane moldable libro-cement sheets including the steps of placing the plane sheet in a still moldable condition upon a plane supporting surface, applying suction to the upper surface of a plurality of parallel and spaced narrow areas of said sheet and then moving said narrow areas, while the suction force is maintained, parallel and relatively closer to each other so as to decrease the distance between said narrow areas of the sheet and thereby forming. corrugations in the same, and then lifting said corrugated sheet from said supporting surface and transferring it to a mold provided with permanent corrugations.
  • a device for manufacturing corrugated fibrocement sheets comprising a frame, a plurality of spaced parallel channel-shaped members providing suction chambers, means for mounting said channel-shaped members on said frame, means for producing a suction in said chambers whereby a plane libro-cement sheet, when still moldable is adapted to adhere to said channel-shaped members along spaced narrow parallel zones, and a mechanism for adjusting said channel-shaped members on said frame parallel with respect to each other to reduce the distance between said parallel channel-shaped members, whereby said plane fibre-cement sheet adhering to said channel-shaped members due to the suction produced in the same is provided with corrugations.
  • a device for manufacturing corrugated brocement sheets comprising a frame, a plurality of spaced parallel channel-shaped members providing suction chambers, said channel-shaped members having a channel-like cavity opening downwardly and including a iiexible perforated cover sheet extending over said opening, said cover 4sheet being provided for engaging the librocement sheet to be provided with corrugations, means for mounting said channel-shaped members on said frame, means for producing a suction in said chambers whereby a plane brocement sheet, when still moldable, is adapted to adhere to said channel-shaped members along spaced narrow parallel zones, and a mechanism for adjusting said channel-shaped members on said frame parallel with respect to each other to reduce the distance between said parallel channel-shaped members, whereby said plane brocement sheet adhering to said channel-shaped. members due to the suction produced in the same is provided with corrugations.
  • a device for manufacturing corrugated brocement sheets comprising a frame, a plurality of spaced parallel channel-shaped members providing suction chambers, means for mounting said channel-shaped members on said frame, means for producing a suction in said chambers whereby a plane libro-cement sheet, when still moldable is adapted to adhere to said channel-shaped members along spaced narrow parallel zones, and a mechanism for adjusting said channel-shaped members on said frame parallel with respect to each other to reduce the distance between said parallel channel-shaped members, whereby said plane fibre-cement sheet adhering to said channel-shaped members due to the suction produced in the same is provided with corrugations, said mounting means including axially alined pairs of rods longitudinally and oppositely slidably mounted in said frame, means for slidably mounting some of said channel-shaped members on said rods and means for mounting other ones of said channel-shaped members fiXedly on said rods, said mechanism being operatively connected with said pairs of rods and including means for moving said pairs of rods longitudinal
  • a device for manufacturing corrugated fibrocement sheets comprising a frame, a plurality of spaced parallel channel-shaped members providing suction chambers, said channel-shaped members having a channel-like cavity opening downwardly and including a flexible perforated cover sheet extending over said opening, said cover sheet being provided for engaging the fibro-cement sheet to be provided with corrugations.
  • said mounting means including axially alined pairs of rods longitudinally and oppositely slidably mounted in said frame, means for slidably mounting some of said channel-shaped members on said rods and means for mounting other ones of said channel-shaped members xedly on said rods, said mechanism being operatively connected with said pairs of rods and including means for moving said pairs of rods longitudinally and oppositely with respect to each other.
  • a device for manufacturing corrugated fibrocement sheets comprising a frame, a plurality of spaced parallel channel-shaped members providing suction chambers, means for mounting said channel-shaped members on said frame, means for producing a suction in said chambers whereby a plane bro-cement sheet, when still moldable is adapted to adhere to said channel-shaped members along spaced narrow parallel Zones, and a mechanism for adjusting said channel-shaped members on said frame parallel with respect to each other to reduce the distance between said parallel channel-shaped members, whereby said plane libro-cement sheet adhering to said channel-shaped members due to the suction produced in the same is provided with corrugations
  • said mounting means including axially alined pairs of rods longitudinally and oppositely slidably mounted in said frame, means for slidably mounting some of said channel-shaped members on said rods and means for mounting other ones of said channel-shaped members xedly on said rods, said mechanism being mounted on said frame and including an oscillatable drive shaft, a pressure fluid

Description

March 18, 1952 C, HERZOG 2,589,379
PROCESS AND DEVICE FOR THE MANUFACTURE OF I' CORRUGATED SHEETS OF ASBESTOS-CEMENT Filed Feb. 4, 1949 3 Sheets-Sheet 1 rhnU i ha.. L1.
March 18, 1952 HERZOG 2,589,379
C. PROCESS AND DEVICE FOR THE MANUFACTURE OF CORRUGATED SHEETS OF ASBESTOS- CEMENT Filed Feb. 4. 1949 3 Sheets-Sheet 2 C. HERZOG March 18, 1952 PROCESS AND DEVICE FOR THE MANUFACTURE OF CORRUGATED SHEETS OF ASBESTOSI CEMENT 5 Sheets-Sheet 3 Filed Feb. 4. 1949 Patented Mar. 18, 1952 PROCESS AND DEVICE FOR THE MANUFAC- TURE OF CORRUGATEDr SHEETS OF AS- BESTOS CEMENT Carl Herzog, Niederurnen, Switzerland, assignor to Eternit A.-.G., Niederurnen, Glarus, Switzerland Application February 4, 1949, Serial No. 74,684 In Switzerland February 6, 1948 7 claims. l
The present invention relates to a process and a device for the manufacture of corrugated sheets from asbestos-cement sheets or other plastic, that is mouldable sheets containing bres and hardening bonding agents. The new process consists in this that the mouldable sheets are, at definitely spaced intervals, subjected to the action of suction chambers, gripped, and then formed into corrugations by decreasing the distance separating the suction chambers'. The at sheets may be so edge-trimmed before, the operation of corrugation that after said operation they exhibit the exact dimensions desired, since they are so held bythe suction chambers that they do not become distorted. The corrugated sheets can then be placed on rigid moulds and remain there until the bonding agent has hardened suiiiciently.
To perform the process a device is used which possesses suction chambers arranged at definitely spaced intervals, which suction chambers grip the sheets and fold them into corrugations of the desired width and depth. The sheets so corrugated are then placed in suitable corrugated moulds until they have set.
The annexed drawing diagrammatically illustrates the process.
Fig. 1 is an elevation of a preferred embodiment of the device according to this invention,
Fig. 2 is an elevation in another position of the various parts,
Fig. 3 is a plan view of the device,
Fig. 4 is a transversal section along the line 4-4 of Figure 3,
Fig. 5 is a section along the line 5 5 of Figure 4 and Fig. 6 is a diagrammatic representation of the device.
The device for performing the process according to this invention comprises a frame I of rectangular shape which is reinforced by means of struts 2. 'I'he frame I and the struts 2 as well are advantageouslyY made of steel tubes. To the frame I brackets 3 are secured on which double armed levers 4 are rotatably mounted by means of bolts 5. The upper ends of the levers 4 are connected to rods 6 by means of a bolt-and-slot connection 1, whereas the lowerends of the said levers 4 are connected to rods 8 by means of bolts 9. As shown in Figure 3 identical parts are arranged at opposite ends of the frame I. The inner ends of the rods 5 are rotatably connected to a disc I0 which is itself rotatably mounted on the axis II.l The connection of the rods 6 and the disc I0 is brought about by means of bolts I2. To the disc I0 an arm I3 is xedly secured. This arm projects beyond the disc I 0 and its ends are connected to rods I4 and I5. The rod I4 is the piston rod of a hydraulic or pneumatic steering apparatus I6 provided with an inlet I1 and an outlet I8 for the pneumatic or hydraulic medium.
The lower end of the arm I3 is connected to the rod I5 by means of a bolt I9. The other end of the said rod is rotatably connected to a support 20 by means of a stud 2|, the said support 20 being slidably mounted on a curved rail 22 fixed to the brackets 23 and 24 by means of rollers 25.
The rods 8, two of which are provided for at each end of the frame I, are slidably mounted in lbrackets 23 secured to the frame I and their inner ends enter a cylinder tube 21. To the rods 8 U-shaped suction channels or chambers 23, 29 and 29. are suspended by means of bolts 30 secured to brackets 32. The upper ends of the boltsA 30 are screw threaded and nuts 3I bearing against the upper side of the said brackets secure the bolts 3l] and the suction channels in their position. The brackets 32 are xedly se-4 curedY to the rods 8, Whereas the brackets 32 are arranged slidably between the collars 33 of the rods 8. The distance between the collars 33 corresponds to half the way of the rods 8 upon movement of the levers 4. A further bracket 32" is xed-l-y secured to the frame I by means of a strut 34" which supports also thev tube 2l. The bracket 32 is therefore not affected by the movement of the rods 8.
The support 20 is supporting a suction chamber 34.
Figure 5 shows a section through any one of the suction chambers 32, 32', 32" or 34. A casing 35 of sheet metal is placed in the cavity 38 of the chamber formed by a channel-shaped element, this casing being provided with openings 36. A cover 3l of flexible, elastic material, for instance of rubber is arranged around the lower part of the channel-shaped element.' Below the cavity 38 of the chamber the cover 3l is perforated (openings 39) and its borders 40, 4I are xed in ledges 42, 43 to which screw bolts 44 are secured. These bolts enter into openings of the horizontal part 45 of the supporting element 46, the vertical part thereof resting on the channel element. By means of the nuts 41, the bolts 44 and the supporting element d6, the elastic rubber cover 37 can be kept taught around the lower part of the channel element.
As shown in Figure 3 the cover is secured to the channel element at various points.
An air pump 48 is diagrammatically represented in Figure 6 of the drawings. This pump or exhauster is connected to a central cock 49 by means of a tube 50. The cock 49 in turn is connected by flexible tubes or hoses 5I to openings 52 (Figure 3) of the various channel elements.
The rod 8 shown on the righthandlside of Figures 1 and 2 carries a support 53 provided at its lower end with a roller 54, the length of which corresponds to that of the various channel elements.
The device is operated as follows:
A sheet of 'not yet hardened asbestos-cement 55 of rectangular or square shape is placed on a table 56 so that one margin of the same is below the roller 54 and is depressed by the same (Figure 1). Then the pump 48 is set to work so as to suck'air out of the spaces 31 and thereafter the steering or control apparatus is operated so as to move the piston rod I4 to the lefthand side (see Figures 1 and 2). This movement entails a rotation of the discs I at -both ends of the frame I and the rods 8 are moved towards each other by the rods 8 and the levers 4.
The channel elements 28 are displaced by an amount corresponding to the stroke of the rods 8. The inner channel elements 29 are only set into movement when the outer collar 33 abuts against the same and they are displaced a distance equal to half the stroke of the rods 8. The innermost channel element 29 remains at rest whereas the channel element 34 carried by the support 20 moving along the rails 22 by the action of the rod I is brought into the position shown in Figure 2.
The action of the air sucked from the spaces 38 on the one hand and of the above described movement of the channel elements on the other hand results in the production of the corrugations represented in Figure 2. In this position the sheets are expediently placed in rigid moulds until the bonding agent in the asbestos-cement has hardcned.
The frame I is advantageously suspended by means of hooks 51 and wires or cables to a device adapted to raise and lower the frame with respect to the table 56.
What I claim is:
1. A process for manufacturing corrugated sheets from plane moldable libro-cement sheets, including the steps of placing the plane sheet in a still moldable condition upon a plane supporting surface, applying suction to a plurality of parallel and spaced narrow areas of said sheet and then moving said narrow areas, while the suction force is maintained, parallel and relatively closer to each other so as to decrease the distance between said narrow areas of the sheet and thereby forming corrugations in the same.
2. A process for manufacturing corrugated sheets from plane moldable libro-cement sheets, including the steps of placing the plane sheet in a still moldable condition upon a plane supporting surface, applying suction to the upper surface of a plurality of parallel and spaced narrow areas of said sheet and then moving said narrow areas, while the suction force is maintained, parallel and relatively closer to each other so as to decrease the distance between said narrow areas of the sheet and thereby forming. corrugations in the same, and then lifting said corrugated sheet from said supporting surface and transferring it to a mold provided with permanent corrugations.
3. A device for manufacturing corrugated fibrocement sheets comprising a frame, a plurality of spaced parallel channel-shaped members providing suction chambers, means for mounting said channel-shaped members on said frame, means for producing a suction in said chambers whereby a plane libro-cement sheet, when still moldable is adapted to adhere to said channel-shaped members along spaced narrow parallel zones, and a mechanism for adjusting said channel-shaped members on said frame parallel with respect to each other to reduce the distance between said parallel channel-shaped members, whereby said plane fibre-cement sheet adhering to said channel-shaped members due to the suction produced in the same is provided with corrugations.
4. A device for manufacturing corrugated brocement sheets comprising a frame, a plurality of spaced parallel channel-shaped members providing suction chambers, said channel-shaped members having a channel-like cavity opening downwardly and including a iiexible perforated cover sheet extending over said opening, said cover 4sheet being provided for engaging the librocement sheet to be provided with corrugations, means for mounting said channel-shaped members on said frame, means for producing a suction in said chambers whereby a plane brocement sheet, when still moldable, is adapted to adhere to said channel-shaped members along spaced narrow parallel zones, and a mechanism for adjusting said channel-shaped members on said frame parallel with respect to each other to reduce the distance between said parallel channel-shaped members, whereby said plane brocement sheet adhering to said channel-shaped. members due to the suction produced in the same is provided with corrugations.
5. A device for manufacturing corrugated brocement sheets comprising a frame, a plurality of spaced parallel channel-shaped members providing suction chambers, means for mounting said channel-shaped members on said frame, means for producing a suction in said chambers whereby a plane libro-cement sheet, when still moldable is adapted to adhere to said channel-shaped members along spaced narrow parallel zones, and a mechanism for adjusting said channel-shaped members on said frame parallel with respect to each other to reduce the distance between said parallel channel-shaped members, whereby said plane fibre-cement sheet adhering to said channel-shaped members due to the suction produced in the same is provided with corrugations, said mounting means including axially alined pairs of rods longitudinally and oppositely slidably mounted in said frame, means for slidably mounting some of said channel-shaped members on said rods and means for mounting other ones of said channel-shaped members fiXedly on said rods, said mechanism being operatively connected with said pairs of rods and including means for moving said pairs of rods longitudinally and oppositely with respect to each other.
6. A device for manufacturing corrugated fibrocement sheets comprising a frame, a plurality of spaced parallel channel-shaped members providing suction chambers, said channel-shaped members having a channel-like cavity opening downwardly and including a flexible perforated cover sheet extending over said opening, said cover sheet being provided for engaging the fibro-cement sheet to be provided with corrugations. means for mounting said channel-shaped members on said frame, means for producing a suction in said chambers whereby a plane libro-cement sheet, when still moldable, is adapted to adhere to said channel-shaped members along spaced narrow parallel zones, and a mechanism for adjusting said channel-shaped members on said frame parallel with respect to each other to reduce the distance between said parallel channel-shaped members, whereby said plane libro-cement sheet adhering to said channel-shaped members due to the suction produced in the same is provided with corrugations, said mounting means including axially alined pairs of rods longitudinally and oppositely slidably mounted in said frame, means for slidably mounting some of said channel-shaped members on said rods and means for mounting other ones of said channel-shaped members xedly on said rods, said mechanism being operatively connected with said pairs of rods and including means for moving said pairs of rods longitudinally and oppositely with respect to each other.
7. A device for manufacturing corrugated fibrocement sheets comprising a frame, a plurality of spaced parallel channel-shaped members providing suction chambers, means for mounting said channel-shaped members on said frame, means for producing a suction in said chambers whereby a plane bro-cement sheet, when still moldable is adapted to adhere to said channel-shaped members along spaced narrow parallel Zones, and a mechanism for adjusting said channel-shaped members on said frame parallel with respect to each other to reduce the distance between said parallel channel-shaped members, whereby said plane libro-cement sheet adhering to said channel-shaped members due to the suction produced in the same is provided with corrugations, said mounting means including axially alined pairs of rods longitudinally and oppositely slidably mounted in said frame, means for slidably mounting some of said channel-shaped members on said rods and means for mounting other ones of said channel-shaped members xedly on said rods, said mechanism being mounted on said frame and including an oscillatable drive shaft, a pressure fluid cylinder for operating said drive shaft, means operatively connecting said drive shaft with said pairs of rods, whereby said latter are moved longitudinally and oppositely with respect to each other when said drive shaft is oscillated.
CARL HERZOG.
REFERENCES CITED The following references are of record in the Stamm et al Sept. 6, 1949
US74684A 1948-02-06 1949-02-04 Process and device for the manufacture of corrugated sheets of asbestos cement Expired - Lifetime US2589379A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3058634A (en) * 1961-10-12 1962-10-16 Carl M Wieneke Method and apparatus for spacing drapery pleats
US3122290A (en) * 1960-09-21 1964-02-25 1556 Penobscot Bldg Drapery pleating
US3273203A (en) * 1962-03-12 1966-09-20 Goodrich Co B F Apparatus for forming plastic sheet material
US3297215A (en) * 1962-01-23 1967-01-10 Soto Enrique Pleating apparatus and method

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2145764A (en) * 1936-05-08 1939-01-31 Crown Cork & Seal Co Sheet moving mechanism for sheet feeders
US2348433A (en) * 1939-02-22 1944-05-09 Guerci Giovanni Corrugated fibrocement slab
US2481049A (en) * 1947-04-16 1949-09-06 Alfred J Stamm Apparatus for corrugating sheet material

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2145764A (en) * 1936-05-08 1939-01-31 Crown Cork & Seal Co Sheet moving mechanism for sheet feeders
US2348433A (en) * 1939-02-22 1944-05-09 Guerci Giovanni Corrugated fibrocement slab
US2481049A (en) * 1947-04-16 1949-09-06 Alfred J Stamm Apparatus for corrugating sheet material

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3122290A (en) * 1960-09-21 1964-02-25 1556 Penobscot Bldg Drapery pleating
US3058634A (en) * 1961-10-12 1962-10-16 Carl M Wieneke Method and apparatus for spacing drapery pleats
US3297215A (en) * 1962-01-23 1967-01-10 Soto Enrique Pleating apparatus and method
US3273203A (en) * 1962-03-12 1966-09-20 Goodrich Co B F Apparatus for forming plastic sheet material

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