Classifications

• • D—TEXTILES; PAPER
  • D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
  • D21B—FIBROUS RAW MATERIALS OR THEIR MECHANICAL TREATMENT
  • D21B1/00—Fibrous raw materials or their mechanical treatment
  • D21B1/04—Fibrous raw materials or their mechanical treatment by dividing raw materials into small particles, e.g. fibres
  • D21B1/06—Fibrous raw materials or their mechanical treatment by dividing raw materials into small particles, e.g. fibres by dry methods
  • D21B1/066—Fibrous raw materials or their mechanical treatment by dividing raw materials into small particles, e.g. fibres by dry methods the raw material being pulp sheets

Definitions

• the present invention relates to a method for the conversion of web-dried pulps intended for the manufacture of absorbent products.
• pulp is meant here and in the following cellulose pulps, such as chemical, chemi-mechanical and mechanical pulps.
• cellulose pulps such as chemical, chemi-mechanical and mechanical pulps.
• examples of such cellulose pulps include sulphite and sulphate pulps, refiner mechanical pulp, and groundwood pulps.
• the invention can thus be applied to practically all kinds of web-dried pulps.
• pulp fibres produced from different lignocellulosic materials are used in large quantities.
• the fibres are packed solidly together in sheet form, in bales or reels.
• the sheets packed in bales normally have a length from 400 to 800 mm, a width of from 300 to 800 mm, a grammage of from 600 to 900 g/m 2 , and a density of from 700 to 900 kg/m (bale pulp).
• reels comprise extremely long pulp sheets cut into widths which normally vary from 100 mm to 150 mm (reel pulp), with a density of from 600 to 750 kg/m 3 .
• bale pulp In the manufacture of absorbent products, the reel pulp or bale pulp is shredded and disintegrated into a voluminous fluff.
• One problem with the dry shredding of bale pulp is that it is difficult to achieve uniform production. Moreover, it is-difficult to obtain a uniform dry solids content, owing to the fact that the bales are made up of relatively large separate units, in the form of sheets or slabs.
• powerful shredders are required which, in order to function satisfactorily, demand a given minimum production. Consequently, manufacturers of relatively small quantities of absorbent products can scarcely use bale pulp, but are referred to the more expensive reel pulp.
• the investment costs involved are unrealistically high in the case of those manufacturers using relatively small quantities of bale pulp.
• the shredders used to shred reel pulp are simpler than those used to shred bale pulp.
• Reel pulp functions relatively satisfactorily from the aspect of process techniques.
• One disadvantage with reel pulp is that it is costly to produce in the pulp mills, because it requires a longer drying time in order not to be too hard.
• Reel pulp demands a market price which is about $100 per ton above that of bale pulp.
• the invention relates to a method for manufacturing a cellulose pulp material suitable for further processing to absorbent products, in which method dried cellulose pulp web is used as basic material.
• the method is characterized by disintegrating the dried cellulose pulp web to flake form directly in the pulp mill, and by compressing the resultant flakes into large readily handable and transportable units having an apparent density of 200-800 kg/m 3 , preferably 300-700 kg/m 3 .
• the obtained flakes are compressed into larger units already in the pulp mill in order to bring them to a form in which they can be readily handled and readily transported to a converting plant.
• the dried pulp web has also been found especially suitable for the dried pulp web to have a dry solids content of at least 80 % prior to being disintegrated, disintegration suitably being effected by tearing, so that subsequent to being torn at least 70 of the pulp is in the form of pieces whose diameter, or length, and width vary between 2 mm and 70 mm, preferably between 3 mm and 40 mm. The remaining parts of the pulp have sizes lying outside these ranges.
• the thus produced flake-containing units Prior to the manufacture of the aforementioned absorbent products, are shredded in a converting plant in a manner known per se, using known apparatuses. Because of the good disintegrating properties exhibited by the starting material produced in accordance with the invention, shredding can be effected much more readily than with known bale pulps.
• the dried cellulose pulp web can be disintegrated directly upon leaving the drying machine to flake form, i.e. without being cut into sheets, the flakes then being compressed to form larger units.
• This latter alternative is to advantage insofar as it obviates the need for sheet- manufacturing apparatus and apparatuses for stacking and cutting the sheets.
• the pulp strips were carried on a belt conveyor to a hammer mill, in which the strips were reduced to flakes having an average length of about 20 mm and an average width of about 15 mm.
• the pulp flakes were passed to a slab press and then to a bale press.
• large units in the form of bales having a weight of 180 kg bone dry pulp were produced.
• the bales had straight sides, and a height of 47 cm, a length of 91 cm and a width of 65 cm. This resulted in a bale density of 650 kg/m 3 for each bale.
• the flake bales were transported to a converting plant for the manufacture of diapers.
• the bales had a dry solids content of 91.5 %.
• the bales of flakes were opened in the converting plant and shredded into small pieces by means of a simple peg shredder. These pieces were identical in size and number to the flakes obtained prior to baling in the pulp mill.
• the pulp flakes were conveyed in a screw conveyor to a disc refiner where they were defibrated into fluff. It was noted during this test that the flake bales could be torn apart with ease and the pulp flakes readily defibrated. It was also noted that problems caused by static electricity were considerably less than normal.
• diapers having a weight of about 32 g were manufactured. The diaper weight-spread amounted to + 1 g, and was fully satisfactory. The bulk of the pulp and its absorption properties were checked prior to manufacturing the diapers. The results are given in Table 1 below.
• the bales had a weight of 190 kg (bone dry) and a density of 685 kg/m 3 .
• the dry solids content of the pulp immediately after the web dryer was 93 %. After being conditioned for two weeks, the dry solids content was 92.0 %.
• the pulp bales were then transported to the converting plant, where they were cut into strips on a guillotine. The strips had a width of 5 cm and a length of 80 cm.
• the pulp strips were conveyed on a belt conveyor to a hammer mill, where they were reduced to flakes having an average length of about 20 mm and an average width of about 15 mm.
• the pulp flakes were conveyed with screw conveyors to a disc refiner, where they were defibrated. No difficulties were experienced in manufacturing diapers from the defibrated fluff pulp, with the exception of certain problems arising from static electricity.
• diapers having a weight of about 32 g were manufactured.
• the diaper weight-spread was ⁇ 1 g.
• the amount of energy- consumed when practising the method according to the invention was surprisingly less than that consumed when practising the conventional method.
• one possible theory is that in the case of flake-containing bale units produced in accordance with the invention the fibre-to- fibre bonds between the flakes developed during said storage period are weaker and also smaller in number.
• the pulp manufactured in accordance with the invention has a higher bulk, which makes it possible to manufacture products of unchanged volume but with the use of lesser weight-quantity pulp, i.e. it is possible to save pulp and therewith wood starting materials.
• Another surprising and positive effect is that the absorption capacity of the pulp is not impaired as a result of the lower number of fibres per unit of volume. The good absorption rate has also been maintained.
• the sulphite pulp was mixed with 25 % flash dried spruce groundwood pulp having a freeness CSF of 300 ml and being bleached with hydrogen peroxide to a brightness of 73 % ISO.
• the groundwood pulp was converted in a pulper to a suspension with a pulp consistency of 3 0, which was diluted and charged to the head box of the wet machine simultaneously with the sulphite pulp, whereafter the mixed pulp was dried in the drying section of the wet machine to a dry solids content of 93 %.
• the resultant pulp sheets were loosely stacked one upon the other without being compressed, and cut into strips on a guillotine, torn into flakes in a hammer mill and pressed into large units in the form of bales having straight sides in the same manner as in Example 1.
• the weight of the bales dropped to 150 kg bone dry pulp and the mean density of the bales to 528 kg /m 3 .
• the bales were stored for conditioning for two weeks, to equalize the moisture contents.
• the bales were then transported to the converting plant, where diapers were manufactured in the same manner as that described in Example 1. Samples were taken for measuring brightness, bulk, absorption properties and the average weight of the diapers. The results are set forth in Table 2 below, which also shows the total energy consumed in the tearing and defibrating operations.
• the invention is not restricted to the aforedescribed embodiments.
• subsequent to drying and shredding the pulp it can be mixed with another dried and shredded pulp of different quality, i.e. sulphate pulp or a thermo-mechanical pulp.
• sulphate pulp or a thermo-mechanical pulp.
• thermo-mechanical pulp It is also possible within the scope of the invention to mix the dried and shredded pulp with conventional flash dried pulp.
• other types of fibre which can be mixed with the dried and subsequently coarsely shredded pulp include recycled fibres and synthetic fibres.
• a defibrating means was installed downstream of a drying machine, for disintegrating the pulp web.
• the defibrating means comprised a rotatable roller provided with sharp pyramidal spikes.
• the defibrating means is usually called a spiked roller and is normally used for coarsely shredding moist pulp prior to flash drying the same in a conventional manner.
• the dry solids content of the pulp during the disintegrating operation was 93.5 %, and flakes were obtained having an average width of about 15 mm and an average length of about 20 mm.
• the pulp flakes were charged to a slab press and then to a bale press.
• large units in the form of straight-sided bales.having a weight of 180 kg bone dry pulp were produced.
• the bales were 47 cm in height, 91 cm in length and 65 cm in width. This gave each bale a density of 650 kg/m 3 .
• the flake bales were transported to a converting plant for the manufacture of diapers. The bales then had a dry solids content of 91.5 %.
• the bales containing said flakes were opened in the plant and torn into small pieces by means of a simple peg shredder.
• the pieces obtained were identical in size and number to the flakes obtained prior to baling in the pulp mill.
• the pulp flakes were conveyed in a screw conveyor to a disc refiner, in which they were defibrated to fluff form. It could be noted during the test that the pulp bales were readily torn apart and that the pulp flakes were readily defibrated. It was also noted that difficulties due to static electricity were considerably less than normal. Diapers weighing about 32 g were manufactured during the test. The spread in diaper weight was + 1 g, and was fully satisfactory. The bulk and absorption properties of the pulp were checked prior to producing the diapers. The result is given in Table 3 below.
• pulp sheets were taken from the mill and stacked and compressed in a conventional manner into bales having the aforementioned measurements.
• the bales weighed 190 kg (bone dry) and their density was 685 kg/m 3 .
• the dry solids content of the pulp immediately after the web dryer was 93 0. After being conditioned for two weeks, the dry solids content was 92.0 %.
• the pulp bales were then transported to the converting plant where they were cut into strips on the guillotine. The strips had a width of 5 cm and a length of 80 cm.
• the pulp strips were fed on a belt conveyor to a hammer mill, where they were reduced to flakes having an average length of about 20 mm and an average width of about 15 mm.
• the pulp flakes were conveyed in a screw conveyor to a disc refiner, where the flakes were defibrated to fluff. No difficulties were experienced in manufacturing diapers from the defibrated pulp, with the exception of certain problems with static electricity. Diapers manufactured during the test weighed about 32 g. The diaper weight spread was ⁇ 1 g.
• the energy consumed is lower than that consumed when shredding and defibrating pulp according to conventional methods, even when the pulp web is shredded by means of a spiked roller. In addition, there is obtained a better end product.

Landscapes

• Engineering & Computer Science (AREA)
• Life Sciences & Earth Sciences (AREA)
• Wood Science & Technology (AREA)
• Mechanical Engineering (AREA)
• Nonwoven Fabrics (AREA)
• Absorbent Articles And Supports Therefor (AREA)
• Paper (AREA)
• Solid-Sorbent Or Filter-Aiding Compositions (AREA)

Applications Claiming Priority (2)

Publications (2)

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Family Applications (1)

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Cited By (2)

Citations (5)

• 1981
  • 1981-05-20 SE SE8103172A patent/SE436369B/sv not_active IP Right Cessation
• 1982
  • 1982-05-18 FI FI821753A patent/FI69323C/fi not_active IP Right Cessation
  • 1982-05-18 EP EP82104370A patent/EP0065749B1/de not_active Expired
  • 1982-05-18 DK DK223282A patent/DK154689C/da active
  • 1982-05-18 DE DE8282104370T patent/DE3261602D1/de not_active Expired
  • 1982-05-19 NO NO821671A patent/NO154971C/no unknown

Patent Citations (5)

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