NZ196694A - Making containers from straw - Google Patents

Description

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Q *2. 7 A/ SyOQ, No.: Date: NEW ZEALAND PATENTS ACT, 1953 COMPLETE SPECIFICATION "METHOD FOR MAKING OBJECTS FROM STRAW AND OTHER RAW FIBROUS MATERIALS" fyWe, STRAW BOX SYSTEMS LIMITED, a British company, of Lloyds Bank Chambers, High Street, Heme Bay, Kent, England, hereby declare the invention for which £ / we pray .that a patent may be granted to nast/us, and the method by which it is to be performed, to be particularly described in and by the following statement: - (Followed by la) ' • -u- 196694- A METHOD OF MAKING ARTICLES FROM RAW FIBROUS MATERIALS.

This invention relates to a method of making articles from raw fibrous material such as containers, container blanks or other similar objects.

In the fruit and vegetable industry it is normal to use wooden or corrugated cardboard crates for packaging and transport. Although these are non-returnable they are nevertheless expensive to produce and it is an object of the present invention to replace crates such as these with containers made from cheaper materials such as surplus materials.

According to the present invention a method of making articles from raw fibrous materials comprises the steps of providing fibrous material in raw, unchopped or only coarsely chopped conditions, admixing the raw fibrous material and a thermal setting bonding agent, compressing the raw fibrous material/thermal setting bonding agent admixture while: heating the same to cure and set the thermal setting bonding agent while essentially retaining the raw charateristics of the fibrous material, and the heating being conducted at a temperature range sufficient to maintain the raw characteristics of the fibrous material while essentially avoiding scorching thereof.

Since the raw fibrous material is either unchopped or only coarsely chopped it allows variable lengths of raw fibrous material to be used which are arranged in random directions to provide good cross bonding so that material has good flexibility and also rigidity.

The proportions of bonding agent to raw fibrous material are preferably approximately 89% raw fibrous material to 11% bonding agent, although these proportions may vary by up to 2% in either direction.

The raw fibrous material and the bonding agent are conveniently mixed in a mixer, the bonding agent being supplied in liquid form to the mixer, in such a way as to apply an even coating of the raw fibrous 1196 654- J- 2 - ■/' material as for example by way of a spray.

The pressure applied to the resultant mixture is in the order of 80 tonnes per square metre, and the heat is preferably applied at a temperature of 150°C and at this temperature the heat is applied for 5 20 seconds for each millimetre of board thickness. The temperature of 150°C has been found to be the optimum but lower temperatures down to 135°C can be used, curing taking correspondingly longer and also high temperatures of up to-175°C can also be used but in this case care has to be taken to avoid scorching.

Conveniently a lining material is applied to the container or container blank or other similar product, and this may be applied either during molding or subsequently. The lining material may be paper or plastics sheet.

In the case of a container blank it may be provided with marking 15 or creases where it is to be folded, and in this case provision may also be made for stacking lugs, thickened end walls, hand grips, ventillation holes and other suitable provisions for use with containers.

The present invention also includes within its scope an article of raw fibrous material made by the method as set forth. 20 The invention may be performed in various ways and one specific embodiment will now be described by way of example with reference to the accomapnying drawings in which: Figure 1 is an illustration of a side of a container (with the lining removed) showing how a raw fibrous material is arranged in 25 random manner and Figure 2 is a graph of board thickness against ingredients Normally, the raw fibrous material is straw and in this example straw, normally in bale form, is supplied to a straw chopper where it is coarsely chopped with the aid of a chaff cutter for convenient handling, 30 It is not infact essential to effect this chopping but it tends to assist 1?c694 in handling. However, it is preferable to have a considerable quantity of variable lengths of straw, for example as long as 250 millimetres or even less so that in the finished product the individual lengths are arranged in random directions to provide good cross bonding which 5 gives strength and resistance to bending whilst at the same time enabling a degree of flexibility. An example of the finished product is figure 1. This shows the side view of a panel for a container in which straw as such is used .and it can be seen from this that the straw is of very considerable variation in length and is arranged in 10 totally random directions to give the cross-bonding effect referred to. It will be appreciated that in the finished product a lining of paper would normally be placed over the straw which would thus be invisible.

The straw then passes from the straw chopper to a mixer where it is mixed with a bonding agent. This is effected by having means 15 in a mixer for applying an even coating of resin mix on the straw as by a spray in liquid form and an automatic metering device which is preset according to the quanitity required. The bonding agent is a formaldehyde, polyisocyanate and a hardener possibly with water added to reduce viscosity. It has been found that the proportions of 20 89% straw to 11% bonding agent, with plus or minus 1-2%, the proportions by weight, form a suitable mixture. The straw and bonding agent mixture is led from the mixer into a press. The press may be in the form of a mould being the final shape of the container to be manufactured or alternatively may be in the form of a mould only for making a 25 flate sheet for subsequently forming container blanks, or in a shape suitable for other similar articles. i o .r so j ! ✓ o O / -i Heat is then supplied to the press to start the curing process and in this heating period approximately 90% of the curing takes place, the remaining 10% ocurring during the subsequent cooling.

In the case of the blank, creases for making lines or other inden-5 tations are provided during the moulding where the blank is to be folded. In this form the blank can be stored until required for use.

A blank may be made up into a carton at any time. This is effected by taking the blank, bending the sides at the appropriate creases and securing the sides together as by stapling or gluing. Alternatively, 10 a carton can be porduced by securing together sheets of preformed material which may be for example in the shape as shown in figure 1 and these sheets can be secured similarly by stapling or gluing.

Also during the moulding process features such as stacking lugs, thickened end walls, hand grips, ventillation holes and the like can 15 be formed.

With the present invention it is thus possible to utilise either on site or in a factory supplied locally a surplus product such as straw for making into a container or container blanks and for example on a farm which produces cereal and fruit crops surplus from the cereal 20 crop can easily be conerted into blanks, by the methods set forth above, the blanks stored until such time as the containers are needed and the blanks then made into containers for packing the crops. As the raw material is in abundant supply the expenses are thus kept down to a minimum particularly by using local farm labour when it is not 25 required for other purposes.

It has been found for example that a convenient pressure for use in the press is 240 tonnes for a three square metre sheet i.e. a pres- O) If sure of 80 tonnes per metre for a board of 254 mm thick.

Reference is now made to figure 2 which is a graph and where it ' ■ 1966S4- will be seen that the X co-ordinate represents board thickness in millimetres and the Y co-ordinate grammes of straw (xlOO) per resin mix and the resin mix itself and which has been found to provide the best results is made from formaldehyde in the quantity of 90.225 grammes, polyisocyanate 40 grammes, hardener 8 grammes, water 12.5 grammes (the water being optional but being used to reduce viscosity). As can be seen from the graph it is possible to obtain soft lightweight board, good standard board, or hard dense board according to the quantity of raw fibrous material per resin mix. 10 In fact in the example the quantities are based on a board having an area of 5,000 sq centimetres. Thus for example it will be seen from the graph that if a lightweight board is required at 14 millimetres thickness, then only 2,800 grammes of straw and resin mix are required for a unit of 5,000 square centimetres. However, if a dense 15 board is required then 3,880 grammes of the straw resin mix are required for the same thickness of 14 mm board. -3 OCT 1985 -y.

V •%. $ 31 OCT 1983^ 6

Claims (15)

WHAT WE CLAIM IS:

1. A method of making articles from raw fibrous mate prising the steps of providing fibrous material in raw, unchopped or only coarsely chopped conditions, admixing the raw fibrous material 5 and a thermal setting bonding agent, compressing the raw fibrous material/thermal setting bonding agent admixture while heating the same to cure and set the thermal setting bonding agent while essentially retaining the raw characteristics of the fibrous material, and the heating being conducted at a temperature range sufficient to 10 maintain the raw characteristics of the fibrous material while essentially avoiding scorching thereof.

2. Amethodas claimed in claim 1 in which there is a proportion of approximately 89% by weight raw fibrous material to 11% "by weight bonding agent

3. A method as claimed in claim 2 in which the proportions 15 vary plus or minus 2% by weight.

4. A method as claimed in any one of claims 1 to 3 in which x the raw fibrous material and the bonding agent are mixed in a mixer, the bonding agent being supplied in liquid form by way of a spray in the mixer. 20

5. A method as claimed in any one of the preceding claims in which the pressure applied to the resultant mixture is in the order of 80 tonnes per square metre.

6. A method as claimed in any one of the preceding claims in which the heat is supplied at a temperature in the range of between 25 135°C and 175°C.

7. A method as claimed in claim 6 wherein the article being produced is in the form of a board and said temperature is maintained for 20 seconds for each millimetre of "board thickness.

8. A method as claimed in any one of the preceding claims in which the resin mix comprises 90.225 grammes formaldehyde, Uo grammes polyisocyanate, and 8 grammes hardener.

9. A method as claimed in claim 8 including 12.5 grammes of water.

10. A method as claimed in any one of the preceding claims in which a lining material is applied to the surface of the finished produc t.

11. A method as claimed in claim 10 in which the lining material is paper or plastics sheet.

12. A method as claimed in any one of the preceding claims in which in the case of a blank it is provided with markings or creases where it is to be folded.

13. A method as claimed in any one of the preceding claims in which in the case of a blank provision is also made for stacking lugs, thickened end walls, hand grips, ventillation boles and other suitable provisions for use with containers.

14. Amethodof making articles from raw fibrous materials substantially as described herein with reference to and as shown in the accomapnying drawings.

15. An article of raw fibrous material made by the method claimed in any one of the preceding claims. DATED THIS DAY Of Ocjofelpr 19^3 A. J. PARK & SON PER AGENTS FOR THE APPLICANTS n .