EP0951604A1 - Method and device for forming articles from pulp slurry - Google Patents

Abstract

A press station for a forming machine for forming articles from paper has a chamber consisting of halves (50, 52). The two halves of the chamber are able to be closed together and the chamber can be evacuated through a main vacuum manifold (68) in order to bring the upper die (36) mounted on platen (38) into pressing contact with a fragile moulding positioned on lower die (32) mounted on platen (36), in order to form the required article.

Description

METHOD AND DEVICE FOR FORMING ARΗCLES FROM PULP SLURRY

This invention relates to forming machines more particularly for producing components from a paper pulp or slurry. Egg separators and egg boxes are typical examples of components of this kind, although the same forming process or a similar one is, or may be, used to form containers and

other articles for a variety of purposes.

A known forming machine for making such components requires a relatively massive surrounding frame to withstand the pressures applied during a press operation at a press station of the machine. The force required to press

the paper pulp or slurry into the required shape at the press station may be in

the order of 20 tons or so and is usually provided by hydraulics. Consequently, the frame needs to be extremely strong to continually withstand the very considerable forces involved and the cost of the massive frame tends

to add very considerably to the overall costs. The cost of the frame will

depend upon the size of the machine itself but, typically, may be in the order of £135,000 or so. There may be other disadvantages of the machine related to providing the required pressing force; such disadvantages may relate e.g. to the additional bulk of the machine (i.e. hydraulic ram) and/or to additional noise or inconvenience of operation or even undue inefficiency. Furthermore,

the press station is normally pre-set to press the article being formed under a particular pressure to a particular thickness. Thus, it tends to be disadvantageous that, since the machine has been preset to operate at a particular pressure to press a particular article to a certain thickness, there is little control to vary the applied pressure and/or thickness of the article

(without resetting press dies) more particularly in a controlled way to vary the quality and/or characteristics of the article in an accurately predictable manner.

Additionally, it may be that the temperature required for drying the pressed article is higher than need be the case and/or the drying time may be longer than need be the case. At least in some instances, known press stations may not be able to produce the required shape of an article accurately enough (e.g. a 1° or 2° angle on a product 100 millimetres deep). Furthermore, the actual finish on every surface of the article may not be suitably consistent (e.g. the

inside surface of an egg box formed from paper pulp is usually irregular and

not as aesthetically pleasing as the exterior).

It is believed that known forming production methods for articles made

from paper or fibre may not provide an article which is of a similar quality to that which can be produced from plastics or polystyrene (at least in some respects) and this tends to adversely affect the marketability of articles formed from paper/fibre. An object of the invention is to at least alleviate one of the

aforementioned, or other, disadvantages associated with forming machines or press stations and/or to provide a forming machine (or press station) which is improved in at least some respect.

According to the invention there is provided a forming machine for forming articles from pulp or slurry, comprising a press station having upper and lower perforate dies mounted, in use, for relative reciprocatory movement towards and away from one another and each said die being housed, in use, in an associated one of a two part chamber, said chamber parts being arranged to seal together when moved towards one another, and means for evacuating the sealed chamber whereby a final part of relative movement of the dies towards one another is caused by the evacuation.

Further according to invention there is provided a press station for a

forming machine for forming articles from a paper or fibre slurry, the press station including a chamber housing, in use, die means for forming an article and means to evacuate the chamber in order to press the article in the die

means.

Further according to the invention there is provided a forming machine

including at least one press station in accordance with the immediately preceding paragraph.

Still further according to the invention there is provided the combination of a forming machine in accordance with the immediately preceding paragraph and a relatively lightweight support frame (weight less than 7 tons and possibly not more than 2 tons and preferably 3 tons or less or

6 tons or less).

Still further according to the invention there is provided a method of forming an article by pressing the article in die means, said method comprising evacuating a chamber surrounding the die means to provide sufficient pressure

to press the article.

Still further according to the invention there is provided an article when made by the method according to the immediately preceding paragraph.

According to the applicant, advantageously, the required press loading

force may be attained relatively easily in accordance with embodiments of the invention, thus substantially obviating the need for a hydraulic pressure ram, and most significantly, enabling a relatively lightweight and much less costly

frame to be used instead of a massive framework. In embodiments of the present invention the cost of the framework could be reduced by, for example,

40% or so. The saving in weight may be greater than 70% and preferably is greater than 40% or 50%.

In the press station, the die means may comprise an upper perforate die or die set co-operable with a lower perforate die or die set in order to press form an article from paper pulp when said dies/die sets are brought together. The dies/die sets will usually be relatively reciprocable towards and away from one another. It is possible that only the upper die/die set is movable.

The chamber evacuation means preferably comprises a vacuum pump and the degree of vacuum control applied is preferably variable, for example, by means of a vacuum valve (variable orifice valve). Additionally or alternatively, a vent valve may be provided to ambient (atmospheric) conditions surrounding the chamber.

The chamber is, preferably, in two main parts or halves that can seal together in use and, preferably, one or each main part/half has a slidably

mounted external skirt (preferably a flanged skirt) and of said skirts may be provided with a seal co-operable with the opposing skirt to form a sealing

effect when the chamber parts/halves are closed together. Stops may be

provided to limit the retraction and/or extension movement of the skirt relative to the associated chamber part/half. Alternatively, one chamber part/half may be slightly larger than the other and be slidably and sealably engageable with the other. Preferably, at least one of said main parts or halves of the chamber is float mounted on a member for moving said chamber part/half towards and away from the opposing chamber part/half.

The forming machine may include a forming station associated with or serving a plurality of press stations.

Still further according to the invention there is provided an article (e.g. an eggbox) press formed from a paper or fibre slurry said article being smooth

on all surfaces.

Still further according to the present invention there is provided a press station for a forming machine for forming articles from a paper or fibre slurry, the press station comprising one or more of the following features:-

a) evacuation means to evacuate a chamber surrounding press dies

in order to provide a pressing force; b) a press die mounted on a floating head; c) two chamber parts or halves, one or each having a slidably

mounted skirt; d) evacuation means as in a), said means being variable to vary the degree of vacuum in the chamber; e) means for pressing an article with smooth surfaces in a controlled way.

Many advantageous features of the invention will be apparent from the following description and drawings.

Embodiments of the invention will now be described, by way of example only, with reference to the accompanying simplified diagrammatic drawings in which :-

FIGURE 1 shows a known forming machine;

FIGURE 2 shows a sectional view of a first embodiment of a press

station of a forming machine in accordance with the invention, with dies separated;

FIGURE 3 shows substantially the same view as FIGURE 2 with the dies closed together;

FIGURE 4 shows an enlarged elevational view of two chamber parts of the press, and FIGURE 5 shows a view of a further embodiment of a press station.

FIGURE 1 shows schematically a prior art forming machine supported by a relatively massive frame and aspects of the machine salient to the invention are now discussed.

In FIGURE 1, the known forming machine comprises a relatively

massive surrounding frame only diagrammatically shown as including uprights 10,12 and cross-members 14. In use, the uprights 10,12 are fixed to the ground.

The forming machine has a first station generally indicated by the reference (Forming), a second station (Press) and a third station (Conveyor) which is the loading end of a conveyor indicated by the reference numeral 16.

In the forming station a tank 20 contains paper slurry. A first platen 22 carries a moulding tool 24 which may be a male die and this is arranged with a motorised drive 18 for lowering the whole platen and tool into the tank

20. The drive 18 may be a hydraulic or pneumatic ram, or an electric motor, for example driving a rack and pinion or a toothed belt drive system for lowering the platen 22 and tool 24 into the tank 20 and subsequent raising out of the tank. The platen 22 is associated with vacuum means (for removal of steam or water vapour or the like and/or for adhering pulp to the platen by

"suction" or releasing the pulp from the platen by blowing) and the tools are suitably perforate, so that water may be drawn through the tool 24, depositing

pulp on its surface. Water continues to be drawn from the pulp when the platen 22 has been elevated out of the tank 20.

In vertical alignment with the platen 22 and tool 24 is a second platen 26 and tool 28 which may be a female die. It will be appreciated that the dies 24, 28 are matched, usually so as to produce a component (moulding) of substantially constant thickness at all points between the dies. Platen 26 and tool 28 are mounted on a lifting and lowering mechanism here illustrated as hydraulic ram 30. The hydraulic ram 30 could be replaced by pneumatic means.

As will be appreciated by those skilled in the art, the platens 22, 26 may carry a plurality of tool sets for use in manufacturing a plurality of

identical (or different) articles in a single operation.

At a stage after the lower platen 22 and tool 24 have been elevated, the

upper platen 26 and tool 28 are lowered into contact with the wet pulp formed on the lower tool. At this stage, the pulp is very fragile and its thickness is greater than the desired finished thickness of the article. The vacuum on the lower platen 22 is released and a slight positive pressure is applied via the perforations (not shown). Simultaneously, light vacuum is applied via the perforations (not shown) in the upper platen 26.

This causes the fragile moulding to separate from the lower platen 22 and temporarily adhere to the upper platen 26, which platen 26 is then raised clear of the tool 24 on the lower platen. The lower platen 22 and tool 24 are then lowered into the tank 20 to begin a subsequent forming operation.

The upper platen 26 and tool 28 complete with the fragile moulding (not shown) are then transferred on to the press station and the moulding is lowered into contact with the die or tool 32 (generally similar to tool 24) carried on the lower platen 34 in the press station. The fragile moulding is then transferred from the upper tool 28 to the lower tool 32 e.g. by positive pressure applied to the upper die and negative pressure applied to the lower die and the tool 28 is then returned to the forming station to repeat the cycle for the next fragile moulding (not shown).

In the press station, when the tool 28 is removed, a second similar upper tool 36, carried by platen 38 of an upper press head is lowered into

contact with the fragile moulding supported on lower tool 32. The tools 36,32 may be closed together more closely than tools 24,28 so as to squeeze the

fragile moulding to a reduced thickness and initiate removal of further water. Each of the tool systems 32,36 on the respective platens 34, 38 may be associated with corresponding vacuum systems and additionally both are provided with heating means (usually electrical); as is the platen 26, which

causes the production of steam which is also withdrawn through the vacuum systems. The removal of steam dries the pulp and hardens the moulding, and the dried and finished moulding may be carried by the tool 36 and deposited on the conveyor 16. This latter transfer of the moulding is effected by releasing the moulding from the lower tool 32 by air pressure and retaining the moulding on the upper tool 36 by vacuum.

The press operation requires a very considerable force, depending upon

the required degree of compression of the pulp and upon the total area of the

respective platens and the number of components (mouldings) which are being manufactured. A force equivalent to a number of tons (e.g. over 20 tons) may be required and this necessitates a substantial and relatively massive frame to withstand pressure applied by hydraulic ram 40 carrying the upper press head

of tool 36 and platen 38, and in particular to repeatedly withstand or absorb the reaction force during the pressing step.

The complete assembly of hydraulic cylinders 30, 40 (cylinder 30 may be pneumatic) with the two upper platens 26, and tools is reciprocated

generally in the directions of the letter A in transferring mouldings from one station to the next and to the conveyor, possibly on a beam carried by the structural framework. The pressure to be exerted at the forming station on the paper slurry in forming the article is not high in relation to the 20 tons pressure required at the press station and thus the massive framework 10,12,14 is not necessitated by the forming station.

The invention is concerned with a modification to the press station of the aforedescribed known type of forming machine, which modification may alleviate the need for the hydraulic ram of the press station or at least the high specification of same and/or alleviate the need for a relatively massive framework 10,12.

In the illustrated embodiment of the invention shown in FIGURES 2 to 4, a press station has a chamber comprising a lower part or half 50 and an

upper part or half 52. The chamber 50,52 is provided as part of the press

station (not shown in full in FIGURES 2 to 4) of the forming machine. Each half 50, 52 may be, for example, substantially rectangular with a peripheral wall 54,56 and the upper half may be dimensioned so as to be a free sliding fit in the lower half when the two move together more particularly as shown in our prior patent specification No.9722547.8 forming the priority document for this application and as shown in FIGURE 5. The word "half" is used in a merely indicative sense; the two halves could be of widely different volume, although in the embodiment shown in FIGURES 2, 3 and 4 the two "halves" are very similar in shape and size. As shown in patent specification

No.9722547.8 and as shown in the embodiment of FIGURE 5, sealing may be effected by an O-ring or the like 58 extending around the periphery of the external face of the smaller of the two halves 50, 52 so as to seal on the inner face of the skirt of the larger of the halves. Alternatively, a highly resilient face seal could be used between the two halves. As shown in FIGURES 2 and

3 of this specification a preferred modification has been made to the chamber halves 50, 52 which includes a spring loaded sliding flanged skirt 51, 52 being provided on the external wall 54, 56 of each chamber half respectively. A sliding seal E is provided on each chamber half 50, 52 which allows vertical reciprocation of the skirt 51, 52 relative to the external wall 54, 56 within fixed limits. A stop T is provided in the form of a projecting annular edge on each external wall 54, 56 to limit the retraction movement of each skirt 51 , 52

relative to the external walls 54, 56 in a manner which should be evident from

FIGURE 2. If desired, in an alternative embodiment only one skirt (e.g. upper skirt 51) is slidable, the other skirt (e.g. 52) being fixed.

Each of the chamber halves 50, 52 in FIGURE 2 carries a platen and dies which are generally the same as those shown in the press station in FIGURE 1 and thus bear the same reference numbers 32, 34, 36, 38.

However, instead of mounting the upper platen 38 on the ram of a hydraulic cylinder for pressurisation, which is the arrangement in FIGURE 1 , in FIGURE

2 and FIGURE 3 the upper platen 38 is carried on stand-off pins 60. It will be appreciated that the perforate dies 32, 36 communicate with passages which in this case may extend through the platen 34, 38 to the interior of the half chamber 50, 52 as well as being ducted away by a secondary vacuum system

V_!, V₂. The secondary vacuum system V,, V₂ is for transfer of the moulded article and steam extraction which is the case in the arrangement shown in

FIGURE 1.

The upper chamber 52 half is shown float mounted on a member 64 extending vertically, which member may be reciprocated by an electric motor, for example, so as to carry it between a remote position and a position in which the chamber halves 50, 52 are engaged sufficiently for the sliding skirts S_1? S₂ to engage with the seal mounted in the upper annular edge of skirt S₂ engaging the lower annular edge of skirt S,. Instead of providing a hydraulic

ram to complete the stroke and apply the required pressure, a vacuum pump is connected through manifold 68 and main vacuum valve 70 (see FIGURE 4) to the interior of the chamber so that once the seal is engaged, the chamber 50, 52 can be evacuated. Evacuation of the chamber 50, 52 not only draws water

from the formed moulding but also draws the chamber halves together to close

the dies 32, 36 about the moulding finally, preferably, to a point at which peripheral abutment faces on the dies come into contact so as to prevent further movement.

Lowering the pressure within the enclosure (chamber 50, 52) surrounding the press-heads (platens and dies 32, 34, 36, 38) also reduces the temperature at which water in the pulp evaporates, thereby requiring lower temperatures of the heated platens and/or reduced times for the drying

operation.

One or other or both of the platens 34,38 will be heated in a similar fashion as in the FIGURE 1 arrangement.

According to a further feature of the invention, a single forming station generally as shown in FIGURE 1 may be associated with a plurality of press stations as shown in FIGURE 2 and FIGURE 3. The significance of this further feature is that the required water extraction and drying operation requires a substantially longer time than the forming operation carried out in the first stage as in the FIGURE 1 apparatus, and for increased speed of production the press operation can be carried out in two or more stages. Hence, each horizontal reciprocation in the direction of the arrow A will

transfer during a first half of the reciprocation (to the right in FIGURE 1) a formed wet moulding from the forming station to a first press operation stage,

and transfer a pressed and part dried moulding from the first press stage onto a second press stage and so on according to the number of press stations provided, whilst the second half of each reciprocation (movement to the left in FIGURE 1) returns the tools 28, 36 to the initial position so that a further cycle can commence.

It will be appreciated by those skilled in the art that in the formation and handling of components made from wet paper slurry the mouldings are of varying degrees of fragility at all times during the process. The strength of the

mouldings increases as the compression and drying continue from stage to stage but the pressures applied, particularly when a positive air pressure is provided to blow a moulding off one die on to another, must be controlled

within fine limits. According to the applicant, the atmospheric pressure which is possible upon a relatively large area chamber when the vacuum is applied may be excessive and could possibly lead to an undesirably high pressure being applied to the mouldings unless limited by abutments on the dies. Therefore, according to a feature of the invention, means is provided for limiting the degree of vacuum in the sealed chamber or chambers (where more than one press station is provided) and possibly for continuously admitting

ambient air under volume/pressure control (and this may sweep the chamber/s to evacuate all steam and water when both air is applied and vacuum applied at one and the same time). This feature may accelerate the operation in each

press stage leading to a higher throughput from any one machine. To this end FIGURE 4, showing an enlarged view of the chamber 50, 52 shown in

FIGURE 2, includes a variable orifice vacuum control valve 100 extending from the upper half 52 to limit the degree of vacuum in the sealed chamber.

Additionally, an atmospheric vent valve 101 is shown in order to continuously admit ambient air when required.

A further very important feature of the invention is the provision of the guided, resilient floating mounting F of the head or unit H in carrying the upper platen 38, die 36 and chamber half 52.

It is to be understood that the scope of the invention is not to be unduly limited by the particular choice of terminology and that a specific term may be replaced by any equivalent or generic term. For example, the term

"machine" could be replaced by "apparatus" or "article" could be replaced by

"product".

Further it is to be understood that individual features, method or

functions relating to the forming machine or press station or evacuation arrangement might be individually patentable. In particular, any disclosure in

this specification of a range for a variable or parameter shall be taken to include a disclosure of any selectable or derivable sub-range within that range and shall be taken to include a disclosure of any value for the variable or - parameter arranged within or at an end of the range. The singular may include the plural or vice versa.

Claims

1. A press station for a forming machine for forming articles from a paper or fibre slurry, the press station comprising a chamber (50,52) housing, in use, die means (32,36) for forming an article and means to evacuate (68,70) the chamber (50,52) in order to press the article in the die means (32,36).

2. A press station as claimed in claim 1 in which the die means (32,36) consists of an upper perforate die or die set (36) co-operable with a lower

perforate due or die set (32).

3. A press station as claimed in claim 2 in which the dies/die sets (32,36)

are relatively reciprocable towards and away from one another.

4. A press station as claimed in claim 3 in which only the upper die/die

set (36) is movable.

5. A press station as claimed in any one of the preceding claims in which the chamber evacuation means (68,70) comprises a vacuum pump.

6. A press station as claimed in claim 5 in which the degree of vacuum

control applied is variable.

7. A press station as claimed in claim 6 in which the vacuum control is varied by a variable orifice valve (100).

8. A press station as claimed in any one of the preceding claims in which a vent valve (101) is provided to ambient conditions surrounding the chamber (50,52).

9. A press station as claimed in any one of the preceding claims in which the chamber (50,52) is in two main parts or halves (50,52) that can seal together in use.

10. A press station as claimed in claim 9 in which one or each main

part/half (50,52) has a slidably mounted external skirt (S,,S₂).

11. A press station as claimed in claim 10 in which the or each skirt (S_!,S₂), is a flanged skirt.

12. A press station as claimed in claim 10 or 11 in which each chamber

part/half (50,52) has a skirt (S^S^, as aforesaid and each said skirt (S,,S₂) is provided with a seal (58,E) co-operable with the opposing skirt to form a sealing effect when the chamber parts halves (50,52) are closed together.

13. A press station as claimed in any one of claims 10 or 12 in which stops

(T) are provided to limit the retraction and/or extension movement of the skirt (S,,S₂) relative to the associated chamber part/half (50,52).

14. A press station as claimed in any one of claims 1 to 9 in which one chamber part/half (50,52) is slightly larger than the other and slidably and sealably engageable with the other.

15. A press station as claimed in any one of claims 9 to 14 in which at least one of said main parts or halves of the chamber (50,52) is float mounted on a member (64) for moving said chamber part/half (50,52) towards and away from the opposing chamber part/half (50,52).

16. A press station for a forming machine substantially as herein described

with reference to FIGURES 2 to 4 or substantially as modified in FIGURE 5 of the accompanying drawings.

17. A forming machine including at least one press station as claimed in any one of the preceding claims.

18. A forming machine as claimed in claim 17 having a forming station

associated with or serving a plurality of press stations as claimed in any one of the preceding claims.

19. The combination of a forming machine as claimed in claim 17 or 18 and a relatively lightweight support frame.

20. A method of forming an article by pressing the article in die means (32,36) said method comprising evacuating a chamber (50,52) surrounding the die means (32,36) to provide sufficient pressure to press the article.

21. A method as claimed in claim 20 comprising making the article from paper or fibre.

22. A method as claimed in claim 21 in which water is drawn from the paper or fibre through the die means consisting of an upper perforate die or die set (36) co-operable with a lower perforate die or die set (32).

23. A method as claimed in claim 22 including relatively reciprocating the dies/die sets (32,36) towards and away from one another.

24. A method as claimed in claim 23 including moving only the upper

die/die set (36).

25. A method as claimed in any one of claims 20 to 24 including evacuating the chamber (50,52) using a vacuum pump.

26. A method as claimed in claim 25 including varying the degree of vacuum applied.

27. A method as claimed in claim 26 including varying the vacuum control by way of a variable orifice valve (100).

28. A method as claimed in any one of the claims 20 to 27 including

venting the chamber (50,52) to ambient conditions surrounding the chamber (50,52).

29. A method as claimed in any one of the claims 20 to 28 in which the chamber (50,52) is in two main parts or halves (50,52) said method including sealing the two parts/halves (50,52) together in use.

30. A method as claimed in claim 29 including retracting a slidably

mounted external skirt on at least one of the chamber parts or halves

(50,52) during sealing.

31. A method as claimed in any one of claims 9 to 14 in which at least one of said main parts or halves of the chamber (50,52) is able to float in a guided

manner on a member (64) for moving said chamber part/half (50,52) towards and away from the opposing chamber part/half (50,52).

32. An article when made by the method as claimed in any one of claims

20 to 31.

33. An article (e.g. an eggbox) press formed from a paper or fibre slurry said article being smooth on all surfaces.

34. A press station for a forming machine for forming articles from a paper

or fibre slurry, the press station comprising one or more of the following

features :-

a) evacuation means (68,70) to evacuate a chamber (50,52) surrounding press dies (32,36) in order to provide a pressing force;

b) a press die (32, 36) mounted on a floating head 64; c) two chamber parts or halves (50,52) one or each having a

slidably mounted skirt (S_1;S₂). d) evacuation means (68,70) as in a) said means being variable to vary the degree of vacuum in the chamber (50,52); e) means for pressing an article with smooth surfaces in a controlled way.

35. A forming machine for forming articles from pulp or slurry, comprising

a press station having upper (36) and lower (32) perforate dies mounted, in use, for relative reciprocatory movement towards and away from one another and each said die (32,36) being housed, in use, in an associated one of a two part chamber (50,52) said chamber parts (50,52) being arranged to seal together when moved towards one another, and means (68,70) for evacuating the sealed chamber (50,52) whereby a final part of relative movement of the dies (32,36) towards one another is caused by the evacuation.