Our present invention relates to a continuous press with roller bar journaling pins and, more particularly, to a continuous press of the ContiRoll® type for the pressing of mats or webs of wood materials in the production of pressed board.
In the production of pressed board, for example, oriented strandboard (OSB), medium density fiberboard (MDF), chip board, particle board and fiberboard generally, it is a common practice to utilize a continuous press to compact the mass of wood material, usually with a thermally activatable binder.
The press can have an upper part and a lower part, each of which is provided with an endless steel press belt. The material to be pressed is passed between the belts and respective roller bar chains are interposed between the belts and the upper and lower press plates.
The roller bar chains themselves comprise link chains on opposite sides of the roller bars and engage the roller bars at their ends. The link chains can have outer link plates, inner link plates and pins which hinge the link plates together.
With such continuous presses, generally in addition to the link pins, roll pins are often required with guide rolls which ride upon special rails.
The inner link plates may be provided with slots in which pins of the roller bars engage. Centering springs may be provided between those link plates and the roller bars (see German Patent DE 43 15 122 A1).
In another known embodiment, rollers and guide rails are likewise provided (see DE 34 32 548 C2) and a certain play is developed between the link chain and the roller bars.
In German Patent DE 37 43 665, the ends of the roller bars have roller bars journaling pins which engage in the chain and which are axially shift able relative to the roller bar. Here again rails are required laterally of the pressing region. A double cone sleeve arrangement is required for centering. The journaling pins must be composed of spring steel.
It is the principal object of the present invention to provide a continuous press for the purposes described with a simpler and more reliable construction of the roller bar chain and, particularly, a roller bar chain which can have practically any desired radius of travel while nevertheless insuring precise guidance of the roller bars in the pressing region.
Another object of this invention is to improve upon the prior art roller bar chain arrangements and overcome drawbacks thereof.
These objects are attained, in accordance with the invention, in a continuous press for producing pressed board which comprises:
an upper and a lower press plate;
respective endless steel belts passing between the press plates and entraining a layer of material therebetween capable of being compressed to form pressed board;
respective roller bar chains displaceable around the upper and lower press plates whereby roller bars of the chains are interposed between the belts and the respective press plates, each of the roller bar chains comprising:
a respective roller bar journaling pin engaged in each end of a respective roller bar, and
a link chain at opposite ends of the respective roller bars and receiving the pins with play to entrain the roller bars with the chains, each link chain comprising two rows of outer link plates, two rows of inner link plates overlapped with the outer link plates and link connecting bushings articulating overlapping inner and outer link plates together and traversing the overlapping inner and outer link plates,
the roller bar journaling pins traversing the bushings and being received with play in the bushings.
With the system of the invention, the roller bar journaling pins are received with play in bushings which form the pivots between the link plates of the chain and extend through the bushings which, in turn, traverse the overlapping link plates of the chain.
With the invention, the roller bar chain can circulate around the upper part or lower part of the press with the link chains in respective planes alongside the press plates and the roller bars within the press, i.e. between the plates lying in a guide plane which is common to the link chain for those roller bars. It is therefore no longer necessary to provide a separate support plane with guide rolls and guide tracks.
According to the invention, therefore, such guide or support rolls can be completely eliminated.
However, it should be understood that while the invention provides for the possibility of eliminating the guide rolls and separate guide tracks, if desired, they can be used.
The roller bar chains of the invention allow especially binding-free travel over practically any radius so that a precise travel is achieved especially in the region between the upper and lower head press plates.
The two roller bar chains likewise can pass around rerouting pinions and a drive pinion without difficulty.
A particularly simple construction is achieved when, in the region of the link connecting bushings, the journaling pins are of smaller diameter than the inner diameter of the bushing. This insures the sufficient play between the pin and the bushing.
It has also been found to be advantageous to provide the pins so that they are of an outer diameter equal to the inner diameter of the bushing or larger in their regions outside the bushing but of a smaller inside the bushing.
This insures the requisite play and provides shoulders limiting mobility in the longitudinal direction of the pins but guarantees the requisite play in this direction as well.
The inner link plates can be spaced apart by spacing sleeves which can surround the bushing and can be so located that between these spacer sleeves, gaps are provided for the teeth of a drive pinion.
According to a feature of the invention, the pins are received in slots of retaining plates for each pair of neighboring pins and located on the side of the link chain turned away from the roller bar or turned toward the roller bar. The retaining plates may carry the holders for respective centering springs which can center the pins relative to the plate. A support plate likewise traversed by the pins can be connected to a retaining plate by a connector to which the spring holder can be affixed or which may form the spring holder and, if desired, the pins can be divided longitudinally into segments traversing the bushings and segments engaging the roller bars.
The above and other objects, features, and advantages will become more readily apparent from the following description, reference being made to the accompanying drawing in which:
In the drawing we have shown a ContiRoll® type of a continuous press for the pressing of mats or webs of wood material, for example, for the production of oriented strand board (OSB), medium density fiberboard (MDS), particle board, fiberboard generally or any other pressed board of wood material, usually with a binder. All such board will be understood to be encompassed within the term pressed board and the material pressed, in the form of discrete mats or a continuous web, may be referred to here generally as mats.
This press comprises an upper press part 2 and a lower press part 3 around which respective endless steel press belts 4 may be driven, the belts 4, best seen in
The roller bars 5 of the upper and lower press parts 2 and 3 are carried by respective roller bar chains and for this purpose, each roller bar 5 is entrained via respective roller bar journaling pins 7 with play in the link chains 8 at each end of the respective set of roller bars. The circulating path of the upper roller bar chain has been shown at 9 in
Each of the link chains 8 comprises two rows of outer link plates 10, two rows of inner link plates 11 and link-connecting bushings 12 which articulate overlapping inner and outer link plates together (see especially
The bushings 12 form bearing sleeves for the roller bar journaling pins 7 and receive the pins 7 with a predetermined play S in the direction of travel of the chain and, optionally, orthogonal thereto and traverse the bearing sleeves or bushings 12 in the longitudinal direction of the roller bars.
At least in the region of the bushing 12 each pin 7 has an outer diameter Da which is less than the inner diameter Di of the bushing 12. Outside of the bushing 12 (see the bottom in section of
In the embodiment of
On the side of the link chain 8 turned toward the roller bars 5, support plates 19 are arranged (
In the embodiment of
These retaining plates are joined to the outer link plate 10 of the chain 8 at its side turned toward the roller bars 8 by connectors 17 and 17′. The connectors 17 form supports for the centering springs 18. Finally sleeves 22 can be seen between the retaining plates 15 and the roller bars 5 and can cooperate with formations 23 which limit relative rotation of the pin segments 7a and the sleeves 22.
Locking rings 24 can snap into grooves on the pin segments 7b although riveting or screw arrangements may also be used to prevent these segments from slipping out of the bushing 12.
Since the retaining plates 15 form outer chain members, they can be made as fine castings.
Since the forces applied to the chain 8 are not directly carried by the roller bars 5 but rather are taken up by the outer pin segments 7b and the bushings 12, the use of the connectors 17 as spring centering spring holders is especially effective.
Number | Date | Country | Kind |
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103 37 591 | Aug 2003 | DE | national |
Number | Name | Date | Kind |
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3701413 | Leahy et al. | Oct 1972 | A |
4748907 | Schermutzki | Jun 1988 | A |
5054388 | Bielfeldt | Oct 1991 | A |
Number | Date | Country |
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34 32 548 | Mar 1986 | DE |
37 43 665 | Jul 1989 | DE |
43 15 122 | Nov 1994 | DE |
Number | Date | Country | |
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20050039616 A1 | Feb 2005 | US |