LAMINATED LIGNOCELLULOSE FIBER MAT

Technical Field

This invention generally relates to fibrous mats to be applied over soil to provide a favorable growth medium for seeds or seedlings. More particularly, it relates to a relatively thin laminated mat of lignocel- lulose fiber or the like bound with a preferably water sol¬ uble or water dispersible adhesive and an improved appara¬ tus and process for manufacturing such a mat.

Background Art

It is well known that the growth rate and chances of survival of a seedling can be greatly improved if the soil immediately surrounding it is covered with a mulch. Among the varieties which can benefit from such treatment are conifers, fruit trees and grapes. The mulch will pre¬ vent erosion, retain moisture and nutrients, suppress the growth of competing vegetation and provides some protection against the extreme temperature changes. Materials which have been used for this purpose range from loose dry straw to mixtures of various ingredients added to water and spray¬ ed on the soil. Protective soil coverings have also been made in the form of mats using materials such as paper, cardboard and plastic.

It is also known to incorporate viable seeds and fertilizers in a fibrous mat during the manufacturing process. A mat of this type provides and ideal medium for germination as well as protection and stimulation for the resulting seedling.

While these various soil coverings ideally should provide for more efficient growth of trees and vegetation, each has inherent limitations which have limited its useful¬ ness. The use of loose material such as straw, while

simple and inexpensive, tends to be ineffective because the material can be rather easily washed or blown away. Ma¬ terials which require bulky or heavy equipment to spread are usually not practical for use in remote or limited access areas. Paper or cardboard mats are inexpensive and easy to handle but do not conform well to the soil and are prone to deform and blow away. Mats made of biodegradable fibers are ideal but have proven to be difficult and expen¬ sive to manufacture. They must be flexible enough to con- form to the contours of the soil and yet cohesive enough to permit handling. It is desirable that they be relatively thin and of fairly uniform density. If the mats are to contain seeds it is generally desirable to laminate them but the laminating processes formerly used have required costly materials and complex, machinery and have resulted in a costly product.

Among the prior patent art are the following: U. S. Patent No. 2,243,857, Fischer, broadly dis¬ closes the use of waste farm fiber products such as straw, cornstalks and cane fiber as mulching material, bedding for animals and as a growth medium for seeds. The fibrous material he discusses is of the undigested type and combin¬ ed with various other ingredients such as clay, lime, fertilizer or adhesives. He also discusses a process of manufacture whereby the material can be compacted into single layer or laminated sheets with a machine akin to a hay bailer. Manufacture of the sheets by rolling or extru¬ sion is also generally suggested. ϋ. S. Patent No. 3,914,901, Muldner, describes a mat having two layers of an organic fibrous material such as peat moss impregnated with seeds. It also discloses a process for manufacturing the mat in which a continuous sheet of compressed peat moss is fed through a scarfer to remove the upper 1/2 of the sheet. Then the remainder of the sheet is perforated to enhance its porosity, impregnat¬ ed with seeds and coated with an adhesive. Finally, the

removed material is redeposited on the sheet after which it is compressed, trimmed and wound onto a take-up mandrel.

U. S. Patent No. 3,938,279, Fonne, describes a growth medium consisting of a dry mixture of components which is mixed with water and sprayed directly on the ground. The disclosed mixture consists of cement, fertil¬ izer and a fibrous organic material such as crushed peat, bark, leaves or cellulose fibers.

U. S. Reissue Patent No. 28950, Jankowiak et al. , describes a mat for preventing soil erosion made of random¬ ly distributed straw stock bound together with a water re¬ sistant adhesive. It is also suggested that the mats may be useful as a mulch to protect emerging grasses.

U. K. Patent No. 2,035,283A, Edet AB , shows a peat paper which has a lower layer of cellulose fibers, an upper layer of peat fibers and an intermediate layer con¬ taining controlled amounts of additives such as fertil¬ izers, seeds or hormones. Another embodiment has an inter¬ mediate layer of peat fibers bounded on both sides by tis- sue paper. The layers of both embodiments are bound to¬ gether with an adhesive applied in liquid form. Particular¬ ly relevant in this patent is the manufacturing process described for making the peat papers. Uses suggested for the peat papers include planting, sowing, weed control and erosion prevention.

French Patent No. 2,442,808, Guichebaron, dis¬ closes the use of recovered natural or synthetic fibers as a plant growth medium and an agent for improving the soil. The inventor suggests that such fibers can be obtained from the crushing of used fibrous materials in water, the un¬ ravelling of dry textile wastes or the recovering of "down" from carding machines.

West German Patent No. 2,150,770, Haseloff, de¬ scribes a seed carpet for seeding lawns which has two layers, each made of an absorbent decomposing material such as pressed peat, paper of board. The lower layer which

rests against the soil is impregnated with nutrients and seeds are disposed between the layers.

Japanese Patent No. 51-10047, Mitsui Toatsu Chem Inc., discloses a sheet made of dehydrated grass peat for use as a base for lawn growth or soil improvement. The sheet is made by combining natural grass peat which has been mechanically crushed, washed and dehydrated with pulp and forming it into a sheet of paper.

Japanese Patent No. 52-69706, Masuda, discloses a mat made of fermented peat moss and other ingredients in¬ cluding fertilizer, adhesive and an earthy filler which have been combined, compression molded and dried. The mat functions as a mulch to assist in the growth of seedlings such as rice seedlings. Japanese Patent No. 48-9324, Nippon Shokusei KK, discloses a method for sowing seed from the air as with a helicopter involving the use of a viscous slurry made of water, seed, fertilizer, a binder, an organic substance such as soil gold, linter or bark. Japanese Patent No. 48-27004, Toyo Pulp Co. Ltd, discloses a soil covering material which is applied to the soil by spraying. Its purpose is to aid in the adherence of seeds to the soil without reducing their ability to germinate. The covering includes certain proportions of fermented pulpy fibrous material, compost from municipal waste and compost from fermented sawdust. The mixture is pulverized and then mixed with water, plant seeds, fertil¬ izer and other additives.

It is an object of this invention to provide for a relatively thin, low density mat of lignocellulose fibers which will function as a self-contained support system for an established seedling. It is also an object of this in¬ vention to provide for such a mat as a medium for the germination of a viable seed.

It is a further object of this invention to pro¬ vide a practical and economical method and apparatus for manufacturing such a mat.

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Disclosure of the Invention

This invention can be broadly summarized as a low density laminated mat having at least two adjoining layers of randomly oriented lignocellulosic fibers and a centrally disposed opening permitting the mat to be placed around the trunk of a seedling and an adhesive dispersed throughout the layer for binding the fibers and layers together, said adhesive being degradable upon exposure to an outdoor en¬ vironment. This invention can also be summarized as an ap¬ paratus for manufacturing a low density laminated mat of lignocellulosic material or the like which includes a dis- perser for dispersing the material in a stream of air, a forming box assembly for depositing at least one layer of the material on a forming wire, an adhesive spray box, a press assembly a dryer and a cutting assembly.

This invention can be further summarized as a method of manufacturing a low density laminated mat of lig¬ nocellulosic material comprising the steps of dispersing the material in an airstream, depositing the material on a forming wire to form a continuous mat and bonding the ma¬ terial with suitable adhesive.

Brief Description of the Drawings Figure 1 illustrates a first embodiment of the disclosed invention which is intended to be place on the soil around an established seedling.

Figure 2 is a partial sectional view, not to scale, taken at 2-2 in Figure 1. Figure 3 illustrates a second embodiment of the invention containing viable seeds and fertilizer and being partially rolled for convenient handling and storage.

Figure 4 is a partial section view, not to scale, taken at 4-4 in Figure 3. Figure 5 is a schematic diagram of the disclosed manufacturing apparatus.

Figure 6 is an isometric view, partially cut away, of the disperser shown in Figure 5.

Figure 7 is a sectional view of the disperser taken at 7-7 in Figure 6.

Figure 8 is another sectional view of the dis¬ perser taken at 8-8 in Figure 7.

Figure 9 is an isometric view of the forming box assembly, spray box and press assembly of Figure 5.

Figure 10 is a sectional view taken at 10-10 in Figure 9.

Figure 11 is an isometric view of the dryer and die cutter of Figure 5.

Figure 12 is a sectional view taken at 12-12 in Figure 11.

Best Mode for Carrying out the Invention

The novel features believed characteristic of this invention ^* are set forth in the appended claims. The invention itself, however, may be best understood and its objects and advantages best appreciated by reference to the detailed description below in connection with the accompany¬ ing drawings.

Figures 1 and 2 show one embodiment of the dis-' closed invention, hereinafter referred to as a seedling mat _an d generally designated by the numeral 10, which is intend¬ ed to function as a protective covering or mulch around the base of a growing seedling. Preferably the mat is square, having side 12 and 14 of approximately 38cm in length each, a centrally located circular opening 16 approximately 2.5cm in diameter, and a slit 18 which permits the mat to be placed about the trunk of a seedling. The exact dimensions or shape of the sides of the mat are not critical but it should be sized so that when placed about the seedling it covers the soil for at least 15 to 30 cm in all directions depending on the particular application.

It can be seen in Figure 2 that the mat is com¬ posed of an upper layer 20 and a lower layer 22. Each of

these layers is formed from lignocellulosic material such as wood fibers. In the context of this disclosure, the term "fiber" shall be understood to include fibers, fiber bundles and fiber fragments or fines. By selecting a parti- cular type of wood fiber, the rate of decomposition of the mat can be controlled so that its effective lifetime can be varied. For example, if fibers from alder are employed then it will decompose in a short time, whereas, if cedar fibers are used it may remain effective for many years. Both the layers and the fibers themselves are bonded together with a binder or adhesive of the type which is gradually weakened or destroyed when exposed to an out¬ door type of environment. Preferably a water soluble or water dispersible one such as a resin, an emulsion or a starch is employed and should constitute approximately 7 to 10 percent of the weight of the finished mat. The seedling mat may contain between 320 and 540 grams of fibers per square meters but it has been found that approximately 375 grams per square meter is most desirable. A heavier mat tends to provide greater control or suppression of com¬ peting vegetation such as weeds and grasses. Preferably the thickness "t" of the seedling mat should be between 3.2 mm 9.5 mm. The tensile strength of the finished mat is relatively low but sufficient enough to permit reasonable handling. Because it is fairly soft and pliable it can be placed around the seedling without the danger of harming its bark.

An important aspect of the disclosed mat is the protective environment it provides around a seedling. The fibers themselves have a natural tendency to absorb and retain water, thus protecting the seedling from excessive drying. The mat forms a protective covering over the sur¬ rounding soil which tends to reduce evaporation of moisture and subsequent cracking or crusting. The mat also acts as an insulator protecting the seedling from temperature ex¬ tremes. It also helps retain the porosity of the soil by minimizing rain droplet compaction.

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Another important characteristic of the mat is its tendency to conform rapidly to the contours of the soil upon which it is placed after being laid down. As soon as water is applied the binder begins to break down and the mat begins to lose structural integrity. It has been ob¬ served that even if water is not applied directly to the mat, it will usually absorb sufficient water from the sur¬ face of the soil to begin to break down.

An additional function of the mat is to act as a carrier for chemical additives beneficial to the develop¬ ment of the seedling. Among the types of additives which can be incorporated in the mat during manufacture are nutri¬ ents such as fertilizer or trace elements and growth stimu¬ lants to aid the development of its foilage or root system. Herbicides can be added to control broad leaf weeds or com¬ peting grasses. Various repellents can be used to protect the seedling from damage by rodents or deer. According to the manufacturing process described below, such additives can be included within any one or more layers of the mat. Thus it can be seen that the disclosed mat to¬ gether with appropriate additives will provide a self-con¬ tained support system for a developing seedling.

In Figures 3 and 4 the second embodiment of this invention which will be referred to as a "turf mat" is il lustra ted and generally designated by the numeral 24. The turf mat is very similar in construction to the seedling mat except that it is preferably cut into long strips about 0.6 mm wide and 15 long. These strips can be rolled, as shown in Figure 3, for convenient handling and storage. Another difference between the embodiments is that the turf mat is of a lesser density than the seedling mat. It may contain between 160 and 270 grams of fibers per square meter but preferably has about 180 grams per square meter.

Another significant difference between the two embodiments is that viable seeds 30 such as grass seeds are disposed within the turf mat. The mat fibers together with beneficial additives such as fertilizer provide an ideal

medium for germination of the seeds. After the roots have penetrated the lower layer of the mat and entered the soil the mat continues to function as a mulch much in the same way the seedling mat does. Turf mats can be advantageously in areas of limited access where hydroseeding equipment could not be easily transported. They are also ideal for initial seed¬ ing or patching of small areas where hydroseeding methods would not be economically feasible. They are also well suited for use in speciality areas where special seed is required, as for example in areas of high wear or in floral accent areas. Finally, turf mats are particularly suited for use in contoured areas having cuts, berms or the like.

In Figures 5 through 12 an apparatus for manufac- turing both of the above described embodiments is illustrat¬ ed. Referring to the schematic diagram of Figure 5 it can be seen that the apparatus includes a disperser, a forming box assembly, a binder spray box, a press assembly a dryer and a dye cutter generally indicated by numerals 40, 42, 44, 45, 46 and 48 respectively. The primary function of the disperser, shown in more detail in Figures 6 through 8, is to provide a relatively uniform supply of dispersed wood fibers to forming box assembly 42. The disperser includes a hopper 50 into which fibrous material 52 in b.ulk form is loaded. This material has usually been compacted for shipp¬ ing and contains many clumps which mustbe broken up. For this purpose a pair of tined shafts 54 and 56 are mounted for rotation within the lower portion of the hopper. Vari¬ able speed auger 58, mounted for rotation near the bottom of the hopper, carries the partially dispersed material toward the right as it rotates and through circular opening 62 which surrounds the auger. The tined shafts and the auger are powered by electric motors 61 and 62, respective¬ ly. By varying the rotational speed of the auger, an opera- tor can control the rate at which material is fed into the system.

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After leaving the hopper the material falls onto upper surface 64 of conveyor belt 66, made of porous poly¬ propylene, and is moved to the right toward tined shaft 68. Material in this area is also directed downward and retain¬ ed on the upper surface of the conveyor by air which is drawn downward through the conveyor and into vacuum plenum 70 . As the material passes tined shaft 68 the remaining clumps are more thoroughly dispersed by the rapidly revolv¬ ing closely spaced tines. The width of the layer of fib¬ rous material on conveyor 66 is controlled by the spacing of vertical walls 74 and 76. Its thickness is controlled by the vertical clearance between the tines 72 of shaft 68 and the conveyor belt, preferably 6.3 mm to 9.5 mm. As the material moves further to the right, it is drawn up through opening 80 in tubular plenum 82 and carried through duct 84 in a steam of air generated by a centrifugal fan 86. After passing through the fan the fibrous material is relatively well dispersed and uniformly distributed in the stream of air. The dispersed fibrous material is then directed by duct 84 into manifold 90 which is located at the top of forming box assembly 42 (Figures 9 and 10) and passes in preferably equal amounts through branches 92 and 94. Flow rates through the branches can be adjusted if desired by throttle valves 96 and 98 respectively. Continuing down¬ ward, the material passes through dispenser tubes 100 and 102 and into chambers 204 and 106 respectively. In order to provide relatively uniform lateral distribution of the material on forming wire 120, dispenser tubes 100 and 102 are oscillated about axes 130 and 132 respectively by oscil¬ lator assembly 103. The oscillator assembly includes crank shaft 250 which is rotated by motor 252, and eccen¬ trics 254 and 256 which drive connecting rods 260 and 262 respectively. The material in chamber 104 is directed fur- ther downward on a converging path between walls 110 and 112, through opening 114 at the bottom of the chamber and deposited in layer 116 on the upper surface of porous form-

ing wire 120. The material in chamber 106 is similarly directed downward between covering walls 122 and 124, through opening 126 and is deposited in layer 128 on top of layer 116 to form continuous laminated mat 129. if seeds or other dry additives are to be incor¬ porated within the mat they are supplied at the desired rate through duct 133 and dispenser tube 134 into chamber 135. After passing opening 136 at the base of the chamber they are deposited on layer 116 and subsequently covered by layer 128. In order to provide uniform lateral distribu¬ tion of the additives, dispenser tube 134 is oscillated about axis 138 by a second oscillator assembly 270 which includes motor 272, eccentric 274 and connecting rod 276. The width of layers 116 and 128 is controlled by spacing of movable walls 140 and 142 which form the other opposing walls of chambers 104, 106 and 134. Air drawn downward through the forming wire into vacuum plenum 150 acts to retain the materials on the forming wire.

The technique of forming the mat in layers has certain advantages and helps overcome certain problems en¬ countered in previous attempts to manufacture low density fibrous mats. First, it permits better control over mat

_* density, thickness and overall uniformity. Minor varia¬ tions in uniformity may occur within a particular layer but tend to be averaged out in the completed mat. Second, the technique permits better control over the distribution of seeds and other additives. In the case of seeds, it may be desirable to place them at a certain depth in the mat. In the preferred embodiment of the turf mat the seeds are cen- trally located, but their depth could be varied either by varying the relative thicknesses of the layers or modifying the forming box assembly to provide additional layers. The disclosed method also provides a way to restrict other ad¬ ditives to one particular layer if desired. After leaving the forming box, mat 129 passes through adhesive spray box 44 where a selected adhesive in liquid form is applied. Adhesive 151 is sprayed downward

from oscillating nozzle 152 into converging cavity 154 which is bounded by fixed walls 156 and 158 and movable walls 160 and 162. Penetration of the adhesive through both layers 116 and 128 is improved by vacuum plenum 164 which draws air downward through the layers and the forming wire.

Next the mat 129 passes into press assembly 45 which preferably includes nip roll press 170, belt 172 and vacuum plenum 174. The function of the press is to co - press the mat so that the adhesive is more thoroughly dis¬ tributed throughout the fibers and the combined thickness of both layers is reduced to the final desired thickness ^• "t" of the finished mat. Belt 172 passes around press rol¬ ler 176 and roller 178 and cooperates with vacuum plenum 174 to prevent the adhesive laden layers from adhering to and curling around roller 176. the layers may attempt to adhere to lower surface 180 of the belt but air being drawn down through the forming wire into the plenum will retain the layers on the wire. In the preferred embodiment the roll press also acts, as the drive for the forming wire.

Next mat 129 pass into dryer 46 where it is ex¬ posed to a downward flow of heated air. Air enters through duct 190, passes downward through housing 192, the mat, the forming wire and into vacuum plenum 194. In the preferred embodiment, air enters the dryer at approximately 75 °C but for more rapid drying air temperatures up to approximately 149°C could be used. Finally, the mat passes off the form¬ ing wire into steel rule die cutter 48, the details of which are well known, where it is cut either into the seedl- ing mat or turf mat configuration as desired. After being cut, each completed mat 10 is pushed onto conveyor 198 by mat 129 as it advances into the press.

In order to reduce the tendency of the mats to stick to the forming wire and prevent clogging of pores in the wire, the wire is passed through cleaning assembly 200 as it return to the forming box. The cleaning assembly includes a dry brush roller, a vacuum, a wet spray wash.

and finally a dryer. Details of the cleaning assembly should be obvious and are therefore not shown.

Thus it can be seen that the subject invention provides for an improved fibrous mat together with a method and apparatus for manufacturing the same which incorporate many novel features and offer significant advantages over the prior art. Although only two specific embodiments of the mat and one embodiment of the manufacturing apparatus have been illustrated and described, it is to be understood that obvious modifications and changes may be made in them without departing from the true scope and spirit of this invention.

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