US3792953A - Machine for compressing a traveling web - Google Patents

Machine for compressing a traveling web Download PDF

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US3792953A
US3792953A US00279285A US3792953DA US3792953A US 3792953 A US3792953 A US 3792953A US 00279285 A US00279285 A US 00279285A US 3792953D A US3792953D A US 3792953DA US 3792953 A US3792953 A US 3792953A
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machine
presses
web
platens
press
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US00279285A
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K Ahrweiler
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Eduard Kuesters Maschinenfabrik GmbH and Co KG
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Kuesters E Maschf
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27NMANUFACTURE BY DRY PROCESSES OF ARTICLES, WITH OR WITHOUT ORGANIC BINDING AGENTS, MADE FROM PARTICLES OR FIBRES CONSISTING OF WOOD OR OTHER LIGNOCELLULOSIC OR LIKE ORGANIC MATERIAL
    • B27N3/00Manufacture of substantially flat articles, e.g. boards, from particles or fibres
    • B27N3/08Moulding or pressing
    • B27N3/24Moulding or pressing characterised by using continuously acting presses having endless belts or chains moved within the compression zone
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B5/00Presses characterised by the use of pressing means other than those mentioned in the preceding groups
    • B30B5/04Presses characterised by the use of pressing means other than those mentioned in the preceding groups wherein the pressing means is in the form of an endless band
    • B30B5/06Presses characterised by the use of pressing means other than those mentioned in the preceding groups wherein the pressing means is in the form of an endless band co-operating with another endless band
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29KINDEXING SCHEME ASSOCIATED WITH SUBCLASSES B29B, B29C OR B29D, RELATING TO MOULDING MATERIALS OR TO MATERIALS FOR MOULDS, REINFORCEMENTS, FILLERS OR PREFORMED PARTS, e.g. INSERTS
    • B29K2311/00Use of natural products or their composites, not provided for in groups B29K2201/00 - B29K2309/00, as reinforcement
    • B29K2311/14Wood, e.g. woodboard or fibreboard

Definitions

  • This invention relates to machines for compressing traveling flat work, such as wood-chip panels and composition board panels in general.
  • the object of the present invention is to provide a machine of the above type capable of applying adequate compression to wide traveling webs and throughout long compression zones, and which may be constructed with parts which are relatively lighter but which are equally or better able to resist the stresses involved while applying high compressive force to the web.
  • roller guides of relatively light construction are used and which provide support only against gravitational forces. These guides are in the usual elongated loop form.
  • These guides support the opposite ends or side frames of a plurality of individually self-contained presses having platens transversely spanning and engaging the opposite sides of the bands and with the press platens juxtapositioned while traveling through the compressive zone. Only the weight of these presses requires this support.
  • Each press has separable side frames guided by the roller guides in a recirculating manner and which engage together at the front end of the compression zone and separate at this zones back end, with the respective dissociated parts at the back end traveling via the roller guides to the front end.
  • These side frames travel on each side edge of the metal bands and mount the platens which transversely span the bands, and the side frames are provided individually with means for applying oppositely directed force or press action to the ends of the platens to clamp the latter on the opposite sides of the two bands and apply the compression to the web between these bands.
  • the effect is that of a plurality of individual selfcontained presses which, while assembled, can function individually as presses.
  • the power required during the compression action may be controlled or applied from an external source while the presses travel through the compression zone.
  • FIG. 1 is a side elevation with the roller guides facing the observer eliminated to reveal the invention construction to better advantage;
  • FIG. 2 is a cross-section taken on the line 2-2 in FIG. 1;
  • FIG. 3 shows the left-hand side of FIG. 1 but with a modified construction and with partial sectioning to reveal this construction
  • FIG. 4 is a cross-section taken on the line 4-4 of FIG. 3;
  • FIG. 5 is the same as FIG. 4 but shows a further modification
  • FIG. 6 shows a portion of FIG. 5 and illustrates a still further modification.
  • the web 1 of material requiring the compression travels from right to left as indicated by the arrow 2.
  • This web may consist of relatively loose material impregnated with a bonding medium and which requires hardening by the use of high compression and heating.
  • the web 1 receives an initial .or sizing compression by wedging between upper and lower die plates 3, after which it enters the high compression zone. Heating means for this zone are not shown because the heating is not part of the present invention.
  • Upper and lower rotary drums 4 and 5 carry the endless metal bands 6 which form the linear spans engaging the top and bottom of the web throughout the compression zone. These may be conventionally mounted and are not highly stressed.
  • upper and lower roller guides 8 and 9 are arranged adjacent to the bands side edges.
  • the upper guides 8 are in the form of endless loops providing linear spans extending parallel to the compression spans of the bands but at a slightly higher level.
  • the guides 9 form linear spans which extend parallel to the compression spans of the bands but at a slightly lower level; however, the curving ends of the guides 9 terminate as at 9a at the front and back ends of these band spans.
  • the mutually adjacent curved or semicircular portions of both the upper and lower roller guides form mutually tangential portions.
  • these roller guides 8 and 9 may be relatively very lightly constructed since they must carry primarily only gravitational forces. That is to say, the only function of these guides 8 and 9 is to support and carry the separable parts of the individual self-contained presses, indicated generally in FIG. 1 at 10. These are shown juxtapositioned and applying the necessary pressure throughout the compression zone through the bands 6. At the back end of this zone, each press separates into its separate parts and is carried via the guides 8 and 9 back to the front end where each press is reassembled and goes back into operation. In FIG. 1 only the separable parts 10a and 10b of two of the presses are shown being returned. However, a greater number of the presses would natu rally be provided to accommodate high speed operations and reduce the traveling speed of the press parts from the back end of the zone, to the front end.
  • FIG. 2 one of the presses is shown with two component parts 10a and 10b assembled or interassociated and applying compression to the web or panel 1.
  • the endless roller guide 8 is shown, the lower roller guide 9 not appearing, of course, because the view of FIG. 2 is between its ends 9a.
  • the upper press part 10a comprises the upper platen 11 and its supporting beam 12, these parts spanning the metal bands.
  • the lower part 1012 comprises the lower platen 13 and its supporting beam 14, which are likewise spanning members.
  • the separable side frames comprise hooks 15 which depend from the upper part 10a and cooperate with lugs 16 extending from the lower part, these parts mounting the ends of the platens of the respective parts.
  • the upper part 10a is carried by rollers 16 which run continuously in the roller guide 8, the lower part 10b, while the press is assembled, being carried by the upper part 10a.
  • the upper press part 1011 may have a low enough center of gravity so that while traveling back via the guide 8 it remains rotatively oriented properly.
  • No means for rotatively orienting the lower press parts are shown by the drawings, but since the parts are light, they may be oriented manually while being moved to the front end of the compression span. Furthermore, no means are shown for moving the parts back to the front end, but this again may be done manually.
  • power means will be provided for returning the parts and a guiding system will be pro vided for maintaining the orientation of the bottom press parts, all being constructions well within the skill of a good mechanical engineer.
  • actuation of the presses while traveling through the compression zone may be effected by providing each upper press part with electric power connecting rollers 22 which run along electric power rails 23 shown in FIG. 2; and although not shown in FIG. 1, they may run along the length of the compression span.
  • these may power hydraulic pumps, generally indicated at 24, which provide hydraulic pressure for application to the spaces 21., it being understood that suitable hydraulic surge tanks may be provided for each press. If the spaces 21 of both cylinders of each press are hydraulically interconnected, the pressure is transversely uniform and only one motor and pump is needed.
  • each press is provided with small hydraulic plungers 25 working in cylinders 26 and connected by lines, indicated at 27, with the spaces 21.
  • Each plunger 25 has an actuating roller 28 which runs along a cam rail 29 which again spans lengthwise the compression zone of the machine.
  • the cam 29 As each press enters this zone, and its parts are assembled by engagement of the hooks 15 with the lugs 16 of the two parts, the cam 29, when properly contoured, pushed the plungers 26 in and apply great pulling force on the hooks 16, the piston areas of the pistons 18 being very great relative to the piston areas of the plungers 25.
  • each press may have a suitable surge tank and suitable valving.
  • the cam 29 may be contoured (not shown) to provide a gradually increasing compression movement of the plungers 25 at the front end of the machine and a gradually decreasing or decompressing one at the back end of the machine. In this way the work compression may be gradually applied and released.
  • these beams are in the form of two vertical plates or webs integrally joined with the platens I1 and 13 as by either being castings or comprising a welded assembly of plate members. If the pressures involved are not too great, and the lengths of the platens and beams are not too long, such a construction is satisfactory.
  • FIG. 4 may be subject to beam flexure under the pressures exerted at their ends by the side frame elements and the compression resistance of the work. If this occurs, the web or panel being compressed will, of course, be compressed more at the side edges than at its central portions, a condition that is ordinarily undesirable.
  • the lower beam her shown at 14a, may be made to include a chamber forming an elongated rectangular cylinder 31 which extends for at least the full extent of the web or other flat work being compressed. It is to be understood that this cylinder 31 is not cylindrical, but is an elongated rectangle in shape.
  • the platen 13a is in the form of a correspondingly shaped piston reciprocatively fitting this cylinder and provided with a piston seal 32.
  • the cylinder 31 contains a hydraulic fluid 33.
  • the piston 13a correspondingly deflects and since it is supported by the hydraulic liquid 33 applying a uniform pressure throughout the lengths of the two platens, or at least the compression extents of the web or work, the two bands, and therefore the work, receive a uniform pressure in a transverse direction.
  • the beam 14a may deflect reversely or downwardly to a greater or lesser extent as a typical beam, but this deflection does not effect the uniform pressure exerted by the hydraulic liquid 33 on the platen 13a.
  • the cylinder 31 may be hydraulically connected with an enclosure containing air above the hydraulic liquid level so as to permit the displacement and replacement of the liquid 11 during the beam flexure action.
  • FIG. 6 an alternate form is shown, the parts being the same as in FIG. 5, but the hydraulic liquid 33 being in this instance enclosed by a flexible container 34, thus providing a permanent hydraulic cushion between the platen 13a and its beam 14a.
  • a recirculating series of individual selfcontained hydraulic presses are provided.
  • the presses are separable into upper and lower parts, each providing one of the platens, the latter being mounted by the separable side frame parts, interconnected via the hooks and the projections on the respective parts.
  • each press At the machines front end the two parts approach each other, and by slight relative angular and horizontal motions, interhook.
  • power is applied to each so that each acts as an individual press.
  • Each press being self-contained, it carries its own power source with it and which is controlled preferably either by electrical conductor rails, if electric power is involved, or by cam rails, if hydraulic power is involved.
  • electrical conductor rails if electric power is involved, or by cam rails, if hydraulic power is involved.
  • cam rails if hydraulic power is involved.
  • the lower parts 1012 are recirculated via the discontinuous lower roller guides 9. Therefore, the lower parts of each press have supporting rollers 25 which run in these roller guides.
  • the lower press parts are carried by the upper press parts supported by the upper guides 8 via the rollers 16, while the presses are assembled and traveling through the zone 7.
  • the press parts separate the rollers 35 of the roll press parts 10b enter the adjacent ends 9a of the lower roller guides 9 and so are guided back to the front of the machine where before leaving the lower roller guides at that end, they engage with the upper press parts, to be carried onward by the latter.
  • a machine for compressing a traveling web while passing through the machine comprising a plurality of individual presses each having upper and lower platens spanning the top and bottom of the web and means for forcing these platens together on the web, each press having separably connected side frame parts mounting the platens, said parts separating so that the presses may sequentially act on the web in a recirculating manner by separation and reassembly of their side frame parts, while the presses travel with the web.
  • each of said presses is a self-contained press including poweroperated means for forcing said platens together and having an operator for this power-operated means, the machine having means for controlling said means as the press travels with the web for turning its power on and off.
  • each of said presses is a self-contained press including poweroperated means for forcing said platens together and having an operator for this power-operated means, the machine having means for controlling said means as the press travels with the web for turning its power on and off.

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  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Wood Science & Technology (AREA)
  • Forests & Forestry (AREA)
  • Mechanical Engineering (AREA)
  • Press Drives And Press Lines (AREA)
  • Advancing Webs (AREA)

Abstract

Endless elongated loops of metal bands have cooperating linear spans between which a traveling flat workpiece is passed for receiving compression transmitted through the bands. The compression is applied by self-contained presses having platens which span the bands and which are juxtapositioned throughout at least the compression zone, the bands and presses traveling at the traveling speed of the workpiece. On opposite side edges of the bands the presses have mounting side frames provided with means for forcing the platens together. These side frames are separable and at the back end of the compression zone they separate, the platens also separating, the separated press parts being carried back to the front end of the zone where they reengage. Thus, the presses continuously recirculate.

Description

United States Patent v[191 Ahrweiler Feb. 19, 1974 [54] MACHINE FOR COMPRESSING A 3,330,206 7/1967 Bechard 100 153 TRAVELING WEB 3,545,370 12/1970 Caughey... 425/115 X 3,568,245 3/1971 Jetzer 425 115 x [75] Inventor: Karl-Heinz Ahrweiler, Krefeld,
Germany Primary ExaminerRobert L. Spicer, Jr. 73 Assignee: Edward Kusters Maschinenfabrik, Attorney, or Firm-Kenyon & Kenyon Reilly Krefeld, Germany & p
22 F'l d: A 9 1972 1 57 ABSTRACT [21] Appl' 279285 Endless elongated loops of metal bands have cooperating linear spans between which a traveling flat work- [30] Foreign Application Priority Dat piece is passed for receiving compression transmitted Aug. 10, 1971 Germany 2140105 through the bands- The compression is applied by self contained presses having platens which span the bands 52 us. Cl 425/371, 100/154 425/115 and which areiuxtaposhimed thmughm" at least the 425/406 compression zone, the bands and presses traveling at 51 1m. (:1. B29c 15/00 the "avfihhg Speed Of the WOrhPiece- P Side [58] Field of Search.... 100/153, 154; 425/371, 115, edges of e ba ds the presses have mounting Slde 425/406 frames provlded w1th means for forcmg the platens together. These side frames are separable and at the [56] References Cited back end of the compression zone they separate, the platens also separating, the separated press parts being UNITED T E PATENTS carried back to the front end of the zone where they 2,602,960 7/1952 Fischbem 425/371 X re engage Thus, pmsses continuously recirculate; 3,044,111 7/1962 Caughey 425/371 X 3,223,027 12/1965 Soda et a1 425/371 X 8 Claims, 6 Drawing Figures 27 b 0 3 l t I J m l gr 6 1 E l i lj' 5 I oo oooooooooooo 0o o o o o o 0 o o o o 'T H I of r 3 IO 5 6 9 b PATENTEUFEB 1 s :914
- sum 1 or 2 MACHINE FOR COMPRESSING A TRAVELING WEB BACKGROUND OF THE INVENTION This invention relates to machines for compressing traveling flat work, such as wood-chip panels and composition board panels in general.
Work of this type must be processed by the use of high compressive forces, usually with heating, from a thicker, relatively non-coherent condition to a dense hard and firm condition as required for finished panels made from composition materials in chip or fibrous form. Extremely high pressures are usually required.
It is possible to compress such work by stationary bed presses with the work being stationary during the treatment. However, to meet modern production and labor saving demands, it is more desirable to use a machine capable of operating on the work while it travels continuously through the machine, either in the form of panels or as a traveling continuous web from which, after the processing, the panels may be cut into the lengths desired.
' DESCRIPTION OF THE PRIOR ART A continuous machine is disclosed by German Pat. No. 936,718. With this machine the web is passed between two linear spans engaging the opposite sides of the web and formed by elongated metal band endless loops, the metal bands in the spans engaging the web and traveling with the latter. Pressure is applied through these spans by a series of juxtapositioned plates which span the bands and are carried by endless chains, the construction being like the treads of the well-known Caterpillar tractor. While applying pressure, the plates must be clamped together by having end rollers in roller guides suitable held together and which apply the compressive forces required.
Such a construction, particularly in the case of wide webs or when a long compression zone is required, must be constructed with heavy and massive parts. The plates end rollers, their roller guides and the means holding these guides together, all are highly stressed and must be constructed to resist the stresses.
SUMMARY OF THE INVENTION The object of the present invention is to provide a machine of the above type capable of applying adequate compression to wide traveling webs and throughout long compression zones, and which may be constructed with parts which are relatively lighter but which are equally or better able to resist the stresses involved while applying high compressive force to the web.
This object is attained by eliminating the massive plate rollers and roller guides and the supporting parts for these guides, previously used. Instead, roller guides of relatively light construction are used and which provide support only against gravitational forces. These guides are in the usual elongated loop form.
These guides support the opposite ends or side frames of a plurality of individually self-contained presses having platens transversely spanning and engaging the opposite sides of the bands and with the press platens juxtapositioned while traveling through the compressive zone. Only the weight of these presses requires this support. Each press has separable side frames guided by the roller guides in a recirculating manner and which engage together at the front end of the compression zone and separate at this zones back end, with the respective dissociated parts at the back end traveling via the roller guides to the front end. These side frames travel on each side edge of the metal bands and mount the platens which transversely span the bands, and the side frames are provided individually with means for applying oppositely directed force or press action to the ends of the platens to clamp the latter on the opposite sides of the two bands and apply the compression to the web between these bands.
The effect is that of a plurality of individual selfcontained presses which, while assembled, can function individually as presses. The power required during the compression action may be controlled or applied from an external source while the presses travel through the compression zone.
BRIEF DESCRIPTION OF THE DRAWINGS Specific examples of a machine and modifications thereof embodying this invention are illustrated by the accompanying drawings in which:
FIG. 1 is a side elevation with the roller guides facing the observer eliminated to reveal the invention construction to better advantage;
FIG. 2 is a cross-section taken on the line 2-2 in FIG. 1;
FIG. 3 shows the left-hand side of FIG. 1 but with a modified construction and with partial sectioning to reveal this construction;
FIG. 4 is a cross-section taken on the line 4-4 of FIG. 3;
FIG. 5 is the same as FIG. 4 but shows a further modification; and
FIG. 6 shows a portion of FIG. 5 and illustrates a still further modification.
DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring first to FIG. 1 of the above drawings, the web 1 of material requiring the compression, travels from right to left as indicated by the arrow 2. This web may consist of relatively loose material impregnated with a bonding medium and which requires hardening by the use of high compression and heating.
At the right end or front of the machine the web 1 receives an initial .or sizing compression by wedging between upper and lower die plates 3, after which it enters the high compression zone. Heating means for this zone are not shown because the heating is not part of the present invention.
Upper and lower rotary drums 4 and 5 carry the endless metal bands 6 which form the linear spans engaging the top and bottom of the web throughout the compression zone. These may be conventionally mounted and are not highly stressed.
Throughout the compression zone, indicated by the bracket 7, upper and lower roller guides 8 and 9, respectively, are arranged adjacent to the bands side edges. The upper guides 8 are in the form of endless loops providing linear spans extending parallel to the compression spans of the bands but at a slightly higher level. The guides 9 form linear spans which extend parallel to the compression spans of the bands but at a slightly lower level; however, the curving ends of the guides 9 terminate as at 9a at the front and back ends of these band spans. The mutually adjacent curved or semicircular portions of both the upper and lower roller guides form mutually tangential portions.
Contrasting with the very strong and necessarily heavy roller guides of the prior art, these roller guides 8 and 9 may be relatively very lightly constructed since they must carry primarily only gravitational forces. That is to say, the only function of these guides 8 and 9 is to support and carry the separable parts of the individual self-contained presses, indicated generally in FIG. 1 at 10. These are shown juxtapositioned and applying the necessary pressure throughout the compression zone through the bands 6. At the back end of this zone, each press separates into its separate parts and is carried via the guides 8 and 9 back to the front end where each press is reassembled and goes back into operation. In FIG. 1 only the separable parts 10a and 10b of two of the presses are shown being returned. However, a greater number of the presses would natu rally be provided to accommodate high speed operations and reduce the traveling speed of the press parts from the back end of the zone, to the front end.
Referring now to FIG. 2, one of the presses is shown with two component parts 10a and 10b assembled or interassociated and applying compression to the web or panel 1. The endless roller guide 8 is shown, the lower roller guide 9 not appearing, of course, because the view of FIG. 2 is between its ends 9a.
As shown by FIG. 3 as well as FIG. 2, the upper press part 10a comprises the upper platen 11 and its supporting beam 12, these parts spanning the metal bands. The lower part 1012 comprises the lower platen 13 and its supporting beam 14, which are likewise spanning members. The separable side frames comprise hooks 15 which depend from the upper part 10a and cooperate with lugs 16 extending from the lower part, these parts mounting the ends of the platens of the respective parts. The upper part 10a is carried by rollers 16 which run continuously in the roller guide 8, the lower part 10b, while the press is assembled, being carried by the upper part 10a. Compression or pressure is applied by reason of the hooks 15 depending from the piston rods 17 of pistons 18 reciprocating in cylinders 19 having piston rod seals 20, so that when hydraulic fluid is introduced to the spaces 21 beneath the pistons 18, the clamps 15 are drawn upwardly, thus clamping the platens 11 and 13 together on the metal bands 6 so as to apply the compression to the work 1. Note that each press must be only strong enough to apply the pressure throughout the relatively limited area of the platens 1 1 and 13. Relatively large compressive forces may be handled by what are essentially relatively light press constructions, since each press operates individually.
The upper press part 1011 may have a low enough center of gravity so that while traveling back via the guide 8 it remains rotatively oriented properly. No means for rotatively orienting the lower press parts are shown by the drawings, but since the parts are light, they may be oriented manually while being moved to the front end of the compression span. Furthermore, no means are shown for moving the parts back to the front end, but this again may be done manually. Obviously in a commercial machine power means will be provided for returning the parts and a guiding system will be pro vided for maintaining the orientation of the bottom press parts, all being constructions well within the skill of a good mechanical engineer.
As shown by FIG. 2, actuation of the presses while traveling through the compression zone may be effected by providing each upper press part with electric power connecting rollers 22 which run along electric power rails 23 shown in FIG. 2; and although not shown in FIG. 1, they may run along the length of the compression span. In such instances, these may power hydraulic pumps, generally indicated at 24, which provide hydraulic pressure for application to the spaces 21., it being understood that suitable hydraulic surge tanks may be provided for each press. If the spaces 21 of both cylinders of each press are hydraulically interconnected, the pressure is transversely uniform and only one motor and pump is needed.
As shown in FIG. 3, each press is provided with small hydraulic plungers 25 working in cylinders 26 and connected by lines, indicated at 27, with the spaces 21. Each plunger 25 has an actuating roller 28 which runs along a cam rail 29 which again spans lengthwise the compression zone of the machine. As each press enters this zone, and its parts are assembled by engagement of the hooks 15 with the lugs 16 of the two parts, the cam 29, when properly contoured, pushed the plungers 26 in and apply great pulling force on the hooks 16, the piston areas of the pistons 18 being very great relative to the piston areas of the plungers 25. Again each press may have a suitable surge tank and suitable valving. The cam 29 may be contoured (not shown) to provide a gradually increasing compression movement of the plungers 25 at the front end of the machine and a gradually decreasing or decompressing one at the back end of the machine. In this way the work compression may be gradually applied and released.
It is to be understood that the press art is in an advanced state and that mechanical and hydraulic engineers are well acquainted with the construction and operation of self-contained presses in general. The difference here is only that the side frames are separable and are formed by the parts previously described, essentially consisting of the hooks 15 and the lugs 16.
Because of the high beam stresses on the beams 12 and 14 of the two press parts of each press, they are subject to beam deflection particularly when these beams must be of substantial lengths because the work being processed is of wide widths. Therefore, as shown by FIG. 4, these beams are in the form of two vertical plates or webs integrally joined with the platens I1 and 13 as by either being castings or comprising a welded assembly of plate members. If the pressures involved are not too great, and the lengths of the platens and beams are not too long, such a construction is satisfactory.
On the other hand, under other conditions the construction indicated by FIG. 4 may be subject to beam flexure under the pressures exerted at their ends by the side frame elements and the compression resistance of the work. If this occurs, the web or panel being compressed will, of course, be compressed more at the side edges than at its central portions, a condition that is ordinarily undesirable.
Therefore, as shown by FIG. 5 the lower beam, her shown at 14a, may be made to include a chamber forming an elongated rectangular cylinder 31 which extends for at least the full extent of the web or other flat work being compressed. It is to be understood that this cylinder 31 is not cylindrical, but is an elongated rectangle in shape. The platen 13a is in the form of a correspondingly shaped piston reciprocatively fitting this cylinder and provided with a piston seal 32. The cylinder 31 contains a hydraulic fluid 33. With this arrangement, if the upper beam platen 11 and beam 12 deflect, the piston 13a correspondingly deflects and since it is supported by the hydraulic liquid 33 applying a uniform pressure throughout the lengths of the two platens, or at least the compression extents of the web or work, the two bands, and therefore the work, receive a uniform pressure in a transverse direction. The beam 14a may deflect reversely or downwardly to a greater or lesser extent as a typical beam, but this deflection does not effect the uniform pressure exerted by the hydraulic liquid 33 on the platen 13a. Although not shown, the cylinder 31 may be hydraulically connected with an enclosure containing air above the hydraulic liquid level so as to permit the displacement and replacement of the liquid 11 during the beam flexure action.
In FIG. 6 an alternate form is shown, the parts being the same as in FIG. 5, but the hydraulic liquid 33 being in this instance enclosed by a flexible container 34, thus providing a permanent hydraulic cushion between the platen 13a and its beam 14a.
It can be seen from the foregoing that according to this invention a recirculating series of individual selfcontained hydraulic presses are provided. The presses are separable into upper and lower parts, each providing one of the platens, the latter being mounted by the separable side frame parts, interconnected via the hooks and the projections on the respective parts.
At the machines front end the two parts approach each other, and by slight relative angular and horizontal motions, interhook. As the presses travel along the compression zone while assembled each as a unit, power is applied to each so that each acts as an individual press. Each press being self-contained, it carries its own power source with it and which is controlled preferably either by electrical conductor rails, if electric power is involved, or by cam rails, if hydraulic power is involved. The need for the prior art necessarily strong and, therefore, heavy rollers, roller guides and their supports, is eliminated. Because the platen press area of each individual press is small relative to the overall area being compressed, the press platens and side frame elements, including their powering elements, may be made as relatively light weight units. Their rollers and the roller guides support only the weight of these units.
As previously indicated, the lower parts 1012 are recirculated via the discontinuous lower roller guides 9. Therefore, the lower parts of each press have supporting rollers 25 which run in these roller guides. The lower press parts are carried by the upper press parts supported by the upper guides 8 via the rollers 16, while the presses are assembled and traveling through the zone 7. At the back end of this zone when the press parts separate the rollers 35 of the roll press parts 10b enter the adjacent ends 9a of the lower roller guides 9 and so are guided back to the front of the machine where before leaving the lower roller guides at that end, they engage with the upper press parts, to be carried onward by the latter.
What is claimed is:
1. A machine for compressing a traveling web while passing through the machine and comprising a plurality of individual presses each having upper and lower platens spanning the top and bottom of the web and means for forcing these platens together on the web, each press having separably connected side frame parts mounting the platens, said parts separating so that the presses may sequentially act on the web in a recirculating manner by separation and reassembly of their side frame parts, while the presses travel with the web.
2. The machine of claim 1 in which said side frame parts are provided with guides which are in the form of elongated loops having linear spans extending lengthwise adjacent the side edges of the web, said guides supporting mainly only the weight of said presses while traveling with the web and of the press parts during recirculation thereof.
3. The machine of claim 1 in which said side-frame parts each comprise interengaging hooks and lugs which engage and disengage by relative transverse motion thereof.
4. The machine of claim 2 in which said side frame parts each comprise interengaging hooks and lugs which engage and disengage by relative transverse motion thereof.
5. The machine of claim 2 in which each of said presses is a self-contained press including poweroperated means for forcing said platens together and having an operator for this power-operated means, the machine having means for controlling said means as the press travels with the web for turning its power on and off.
6. The machine of claim 4 in which each of said presses is a self-contained press including poweroperated means for forcing said platens together and having an operator for this power-operated means, the machine having means for controlling said means as the press travels with the web for turning its power on and off.
7. The machine of claim I in which as to each of said presses at least one of said platens has means for supporting it substantially throughout its length on hydraulic liquid.
8. The machine of claim 6 in which as to each of said presses at least one of said platens has means for supporting it substantially throughout its length on hydraulic liquid.

Claims (8)

1. A machine for compressing a traveling web while passing through the machine and comprising a plurality of individual presses each having upper and lower platens spanning the top and bottom of the web and means for forcing these platens together on the web, each press having separably connected side frame parts mounting the platens, said parts separating so that the presses may sequentially act on the web in a recirculating manner by separation and reassembly of their side frame parts, while the presses travel with the web.
2. The machine of claim 1 in which said side frame parts are provided with guides which are in the form of elongated loops having linear spans extending lengthwise adjacent the side edges of the web, said guides supporting mainly only the weight of said presses while traveling with the web and of the press parts during recirculation thereof.
3. The machine of claim 1 in which said side frame parts each comprise interengaging hooks and lugs which engage and disengage by relative transverse motion thereof.
4. The machine of claim 2 in which said side frame parts each comprise interengaging hooks and lugs which engage and disengage by relative transverse motion thereof.
5. The machine of claim 2 in which each of said presses is a self-contained press including power-operated means for forcing said platens together and having an operator for this power-operated means, the machine having means for controlling said means as the press travels with the web for turning its power on and off.
6. The machine of claim 4 in which each of said presses is a self-contained press including power-operated means for forcing said platens together and having an operator for this power-operated means, the machine having means for controlling said means as the press traVels with the web for turning its power on and off.
7. The machine of claim 1 in which as to each of said presses at least one of said platens has means for supporting it substantially throughout its length on hydraulic liquid.
8. The machine of claim 6 in which as to each of said presses at least one of said platens has means for supporting it substantially throughout its length on hydraulic liquid.
US00279285A 1971-08-10 1972-08-09 Machine for compressing a traveling web Expired - Lifetime US3792953A (en)

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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3881852A (en) * 1972-08-29 1975-05-06 Kuesters Eduard Means for maintaining spacing in a continuous press
US4017245A (en) * 1974-07-26 1977-04-12 Foster Grant Co., Inc. Apparatus for extruding expandable thermoplastic material
US4080241A (en) * 1975-02-13 1978-03-21 Domain Industries, Inc. Band sealer for closing bags
US4299552A (en) * 1979-05-22 1981-11-10 Industrie Pirelli, S.P.A. Clamp for flat platten presses
US4508772A (en) * 1983-11-01 1985-04-02 Macmillan Bloedel Limited Pressed composite assembly and method
US4517148A (en) * 1983-11-01 1985-05-14 Macmillan Bloedel Limited Method for pressing a composite assembly
US5116555A (en) * 1989-11-28 1992-05-26 Fraunhofer-Gesellschaft Zur Forderung Der Angewandten Forschung E.V. Method of and apparatus for controlling the manufacturing process in the continuous production of gypsum-cemented workpieces
US5372493A (en) * 1993-05-13 1994-12-13 Rodgers; Gary C. Continuous casting apparatus using two moving belts
US10703571B2 (en) 2018-01-30 2020-07-07 Albany International Corp. Seamable industrial belt

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3234082C2 (en) * 1982-09-14 1987-01-29 Held, Kurt, 7218 Trossingen Double belt press

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US2602960A (en) * 1948-11-24 1952-07-15 British Artificial Resin Compa Press for the manufacture of continuous web material
US3044111A (en) * 1959-01-15 1962-07-17 Antrim Moulding Company Inc Machine for the continuous manufacture of fibrous board
US3223027A (en) * 1961-01-28 1965-12-14 Seikisui Chemical Co Ltd Processing method and device of synthetic resin sheet
US3330206A (en) * 1963-05-10 1967-07-11 R G Le Vaux Continuous filter press
US3545370A (en) * 1968-07-01 1970-12-08 Weyerhaeuser Co Continuous press for laminating materials
US3568245A (en) * 1967-07-24 1971-03-09 Raimund Jetzer Apparatus for making composition panels

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2602960A (en) * 1948-11-24 1952-07-15 British Artificial Resin Compa Press for the manufacture of continuous web material
US3044111A (en) * 1959-01-15 1962-07-17 Antrim Moulding Company Inc Machine for the continuous manufacture of fibrous board
US3223027A (en) * 1961-01-28 1965-12-14 Seikisui Chemical Co Ltd Processing method and device of synthetic resin sheet
US3330206A (en) * 1963-05-10 1967-07-11 R G Le Vaux Continuous filter press
US3568245A (en) * 1967-07-24 1971-03-09 Raimund Jetzer Apparatus for making composition panels
US3545370A (en) * 1968-07-01 1970-12-08 Weyerhaeuser Co Continuous press for laminating materials

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3881852A (en) * 1972-08-29 1975-05-06 Kuesters Eduard Means for maintaining spacing in a continuous press
US4017245A (en) * 1974-07-26 1977-04-12 Foster Grant Co., Inc. Apparatus for extruding expandable thermoplastic material
US4080241A (en) * 1975-02-13 1978-03-21 Domain Industries, Inc. Band sealer for closing bags
US4299552A (en) * 1979-05-22 1981-11-10 Industrie Pirelli, S.P.A. Clamp for flat platten presses
US4508772A (en) * 1983-11-01 1985-04-02 Macmillan Bloedel Limited Pressed composite assembly and method
US4517148A (en) * 1983-11-01 1985-05-14 Macmillan Bloedel Limited Method for pressing a composite assembly
US5116555A (en) * 1989-11-28 1992-05-26 Fraunhofer-Gesellschaft Zur Forderung Der Angewandten Forschung E.V. Method of and apparatus for controlling the manufacturing process in the continuous production of gypsum-cemented workpieces
US5372493A (en) * 1993-05-13 1994-12-13 Rodgers; Gary C. Continuous casting apparatus using two moving belts
US10703571B2 (en) 2018-01-30 2020-07-07 Albany International Corp. Seamable industrial belt

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DE2140105A1 (en) 1973-02-22
SU436475A3 (en) 1974-07-15

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