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WO2003035981A1 - Method of producing paper-making-processed molded articles, and heating press device - Google Patents

Method of producing paper-making-processed molded articles, and heating press device Download PDF

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Publication number
WO2003035981A1
WO2003035981A1 PCT/JP2002/011065 JP0211065W WO03035981A1 WO 2003035981 A1 WO2003035981 A1 WO 2003035981A1 JP 0211065 W JP0211065 W JP 0211065W WO 03035981 A1 WO03035981 A1 WO 03035981A1
Authority
WO
WIPO (PCT)
Prior art keywords
passage
press die
mold
papermaking
paper
Prior art date
Application number
PCT/JP2002/011065
Other languages
French (fr)
Japanese (ja)
Inventor
Kohro Utsui
Yorio Hashimoto
Original Assignee
Utsui Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Utsui Co., Ltd. filed Critical Utsui Co., Ltd.
Priority to JP2003538469A priority Critical patent/JP4099147B2/en
Publication of WO2003035981A1 publication Critical patent/WO2003035981A1/en

Links

Classifications

    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21JFIBREBOARD; MANUFACTURE OF ARTICLES FROM CELLULOSIC FIBROUS SUSPENSIONS OR FROM PAPIER-MACHE
    • D21J7/00Manufacture of hollow articles from fibre suspensions or papier-mâché by deposition of fibres in or on a wire-net mould
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B15/00Details of, or accessories for, presses; Auxiliary measures in connection with pressing
    • B30B15/06Platens or press rams
    • B30B15/062Press plates
    • B30B15/064Press plates with heating or cooling means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B15/00Details of, or accessories for, presses; Auxiliary measures in connection with pressing
    • B30B15/34Heating or cooling presses or parts thereof

Definitions

  • the present invention relates to a method for producing a molded article formed from pulp raw material and used as a packaging container, a packaging cushioning material, and the like, and a heating press used for the production.
  • a raw material such as pulp is dispersed in water, and the pulp component in the dispersion liquid is collected using a predetermined shape paper-making net. After dewatering by vacuum suction, a method of heating and drying a hydrated paper-formed product formed into a predetermined shape through a hot-air drying furnace to obtain a final product has been widely used.
  • the formed paper product containing water is heated and dried in a hot-air drying oven, the thickness of the final product obtained is not uniform, and the formed product is distorted when heated and dried. There was a drawback that the shape and dimensions fluctuated. Another problem is that a mesh pattern is formed on the surface of the molded product on the side in contact with the papermaking net during papermaking, and that irregularities are formed on the other surface.
  • the press treatment in the above could flatten to some extent, it was not sufficient and a smooth surface could not be obtained.
  • the hot-air drying oven is a large-sized device whose length from the inlet to the outlet is very long, so there is a disadvantage that the installation area of the device is large and the manufacturing cost is increased.
  • Japanese Patent Application Laid-Open No. 6-49800 discloses that a papermaking lower mold is immersed in a pulp raw material liquid to form a water-containing paperwork on the lower mold. Pressing and dewatering between the mold and dewatering, then holding the hydrated papermaking molded article in the upper mold, lowering the lower mold, and moving the heating press lower mold waiting at another position to move the hydrated papermaking
  • the hot press lower mold is positioned below the upper mold holding the molded product, high-frequency drying is performed by sandwiching the wet papermaking molded product between the upper mold and the hot press lower mold, and then the hot press lower mold is wetted.
  • the holding press lower mold is moved while holding the molded article, and is positioned below the holding press upper mold waiting at another position. Then, hot press is performed with the hydrated paper-molded product sandwiched between them, and it is now possible to obtain the final molded product. It is shown.
  • Japanese Patent Application Laid-Open No. 6-690000 discloses a method for producing a molded article similar to the above-mentioned Japanese Patent Application Laid-Open No. 6-49800, and a plurality of paper molding machines are provided. It discloses a manufacturing method in which the phase of the production cycle of a molded article is shifted, and a high frequency is applied to each papermaking molding machine in accordance with the phase of the shifted production cycle.
  • Japanese Patent Application Laid-Open No. 6-15859-99 when a wet-formed paper-formed product is dried and formed, a hot-pressed paper-formed product is sandwiched between a press upper die and a press lower die, and heated and pressed. Is disclosed.
  • JP-A-6-49800, JP-A-6-690000 and JP-A-6-158959 water is contained between the upper press die and the lower press die. Since the molded paper is sandwiched and pressed and heated and dried, it is possible to produce a molded molded article having a uniform thickness, excellent dimensional accuracy, and a smooth surface and good appearance. Also, like a hot air drying oven There is no need to install a large large device, and the manufacturing cost can be reduced.
  • a molded article is a molded article having a complicated shape, a molded article having an unbalanced shape, a molded article having a small draft angle, or a pulp component which is easily adhered to a mold.
  • the mold When the molded product is removed from the mold, or when the molded product is made of a pulp component containing a chemical or the like that easily seizes into the mold, the mold should be released smoothly.
  • Japanese Patent Application Laid-Open No. 2000-34070 describes that a wet-formed paper-formed product formed on the surface of a paper-making mold is transferred to a take-up die supported by a swing arm, and the rotary arm is rotated to produce a wet-formed paper-formed product. Transfer to the lower mold supported by the rotary table, sandwich the hydrous paper-formed product between the upper and lower dies, and dry while heating and pressurizing the hydrous paper-formed product while the rotary table rotates tact. It is disclosed.
  • Japanese Patent Application Laid-Open No. 2000-340700 discloses that a water-containing papermaking molded article is sandwiched between an upper mold and a lower mold and heated and dried. No means is disclosed, nor is there any disclosure of facilitating mold release of molded products.
  • a papermaking mold is immersed in a pulp raw material liquid, a pulp component is removed to form a water-containing papermaking product on the papermaking die, and the water-containing papermaking product is sandwiched between a papermaking die and an upper press die.
  • This is a method for producing a sheet-shaped molded article by producing a sheet-shaped molded article by dehydrating and drying to produce a sheet-shaped molded article, sandwiching the sheet-shaped hydrated article between an upper press die and a lower press die, and drying by heating.
  • the upper press die and the lower press die are separated to provide an interval where the hydrated papermaking molded product can move up and down. . It is not necessary to set a large separation distance between the two press dies, and it is only necessary to provide a small interval at which the hydrated papermaking molded product can move up and down.
  • compressed air is blown from one of the upper press die and the lower press die to the hydrated paper-formed product, and the other press die is evacuated to the hydrated paper-formed product by vacuum. And the vacuum suction are alternately switched between the upper press die and the lower press die, whereby the hydrated paper-formed product is swung up and down between the two press dies.
  • heated compressed air is blown from the upper press mold to the hydrated paper-formed product, and the hydrated paper-formed product is sucked into the lower press die by vacuum suction in the lower press die. Then, the heated pressurized air is blown from the lower press die onto the hydrated paper-formed product, and the hydrated paper-formed product is sucked in vacuum in the upper press die, and the hydrated paper-formed product is suction-held in the upper press die. Thereafter, the suction holding of the hydrated papermaking molded article in the lower press mold and the suction holding in the upper press mold are alternately and repeatedly performed. As a result, the hydrated papermaking molded product is swung up and down between both press dies.
  • the two press dies are separated by a predetermined distance, and the hot air is blown and vacuum sucked by the both press dies. Since the hydrated papermaking molded product is swung up and down repeatedly, the drying of the hydrated papermaking molded product is further promoted by blowing heated air from the mold surface.
  • the press-molds are separated from each other and the hydrated paper-formed product is swung up and down, air is diffused and the water vapor remaining on the surface of the hydrated paper-formed product is dissipated. Drying of the shape is promoted.
  • the present invention it is possible to efficiently heat-dry a hydrated paper-made molded product, and to perform sufficient drying in a short time. As a result, the present invention can contribute to improvement of production efficiency.
  • the molded article is a complex shaped article, a molded article with an unbalanced shape, a molded article with a small draft angle, a molded article made of pulp components that easily adheres to the mold, or easily sticks to the mold It is possible to easily release a molded product even if it has a mold release inhibiting factor, such as a molded product made of a pulp component to which a chemical or the like is added. As a result, there is no danger that a part of the molded product will be damaged due to excessive force applied to the molded product when the molded product is taken out.
  • the present invention is a heating press apparatus for producing a paper-formed product by hot-pressing a water-containing paper-formed product between a press die disposed at an upper portion and a press die disposed at a lower portion.
  • the heating press device of the present invention is provided with a plurality of passages inside the press die, one end of which is opened on the surface of the press die, and the other of the passages. The end is communicated with the compressed air passage and the vacuum passage.
  • the press die is supported and fixed to a base, and the above-described compressed air passage and vacuum passage are provided in the base, and a heater is embedded therein.
  • heated compressed air can be blown out from the mold surfaces of the upper press mold and the lower press mold, and a vacuum suction action can be performed from the mold surfaces.
  • a vacuum suction action can be performed from the mold surfaces.
  • the heated compressed air is blown out from the mold surface of the press die, so that a fixed amount of compressed air can be uniformly supplied, and the compressed air can be sprayed uniformly on the hydrated paper molded article.
  • the compressed air can be sprayed uniformly, so The release of the paper-formed product is facilitated, and as a result, the up-and-down swing of the water-containing paper-formed product can be performed smoothly, and the release can be performed smoothly and easily even when the final product is removed from the mold.
  • FIG. 1 is a schematic plan view of the apparatus of the present invention
  • FIG. 2 is a schematic front view of the apparatus of the present invention viewed from the direction of the first dry forming zone B in FIG. 1
  • FIG. 3 is a view of the second dry forming zone C in FIG.
  • FIG. 4 is a schematic front view of the apparatus of the present invention viewed from the direction
  • FIG. 4 is a schematic longitudinal sectional view showing a state of matching between an upper press die and a papermaking mold
  • FIG. 5 is a longitudinal section showing a state of matching between an upper press mold and a lower press mold.
  • Fig. 6 is a schematic front view showing the paper making process
  • Fig. 7 is a process of adding a hydrated paper molded product between an upper press die and a lower press die.
  • FIG. 8a, 8b, 8c is an explanatory diagram showing the vertical swinging process of a hydrated paper-formed product
  • Fig. 9 is a drawing in which the hydrated paper-formed product is sucked and held by an upper press mold.
  • FIG. 10 is a schematic front view showing a state in which the lower press die is lowered
  • FIG. 10 is a schematic front view showing a state in which a molded product is taken out of the mold.
  • the manufacturing apparatus 1 of the present invention includes a plurality of upper press dies 4a, 4b, 4c, and 4d supported and fixed on a rotatable support 3, and these upper press dies 4a, 4b, 4c, and 4d.
  • the lower press dies 5a, 5b, and 5c for hot-pressing the hydrated paper-molded article between the sheet-forming mold and the paper-making mold 2 for performing paper-making molding.
  • the support 3 is supported by the rotation shaft 31 and is configured to rotate with the rotation shaft 31.
  • the support 3 has an arm branched in four directions from the center, and upper press dies 4a, 4b, 4c, and 4d are fixed to the ends of the arms.
  • the upper press dies 4 a, 4 b, 4 c, 4 d are supported and fixed to the lower surface of the base 45 by means of screws or the like, and the base 45 is fixed to the support 3.
  • the upper press dies 4a, 4b, 4c, and 4d are supported by a rotatable support 3 so as to be movable in the circumferential direction.
  • the configuration of the support 3 is not limited to an arm shape, and may be a disk-shaped rotary table.
  • Reference numeral 9 denotes a driving device for driving the rotating shaft 31 to rotate.
  • the driving device 9 is controlled by the control device 32.
  • the control device 32 can control the rotation speed of the rotation shaft 31 and also can control the rotation angle ⁇ and the stop time in the intermittent rotation of the rotation shaft 31.
  • An index, a servomotor, a positioning knock pin, and the like can be used as such a control device.
  • 10 is a support frame.
  • a paper forming zone A and a plurality of dry forming zones B, C, D are provided in a process in which the upper press dies 4a, 4b, 4c, 4d move in the circumferential direction (FIG. 1).
  • a papermaking tank 7 having a papermaking mold 2 installed therein is disposed in the papermaking molding zone A, and a lower part is provided in each of the first drying molding zone B, the second drying molding zone C, and the third drying molding zone D.
  • Press dies 5a, 5b and 5c are arranged.
  • the papermaking die 2 and the lower press dies 5a, 5b and 5c are opposed to the upper press dies, respectively. So that they are arranged along the circumferential direction.
  • the papermaking mold 2 is arranged below the upper press mold 4a.
  • a cylinder 33 is provided inside the paper tank 7, and a base 42 is attached to an upper end of a shaft 13 provided so as to be able to move up and down by the cylinder 133.
  • a papermaking mold 2 is supported and fixed on the upper surface of the papermaking machine by a fixing tool such as a screw.
  • the shaft 13 is moved up and down by the action of the cylinder 13 3, whereby the papermaking mold 2 is configured to be movable in the up and down direction.
  • a known pulp raw material liquid in which pulp raw material is dispersed in water is used. be able to.
  • the pulp raw material may be a virgin raw material mixed with recycled paper raw material such as waste paper, or a pulp raw material liquid may be prepared from only recycled paper raw material.
  • a pulp raw material may be mixed with a water-soluble polymer, a thermoplastic synthetic resin or fiber which is melted by heat generated during hot pressing.
  • a lower press die 5 a located below the upper press die 4 b is supported and fixed on a top surface of a base 50 by a fixing tool such as a screw, and the base 50 is a cylinder mounted on a base 14. It is attached to the upper end of a shaft 49 that can be moved up and down by one.
  • the lower press die 5b located below the upper press die 4c and the lower press die 4d in FIG. Similarly, the lower press dies 5c, which are located on the base 50, are also supported and fixed to the upper surface of the base 50 by screws or other fasteners. 9 is attached.
  • the lower press dies 5a, 5b, and 5c are configured to be vertically movable by the action of the cylinder 134.
  • the lower press dies 5a, 5b, and 5c can be moved up and down by the cylinder 134, but are not moved in the circumferential direction and are fixed. It is preferable to use a hydraulic cylinder as the cylinders 33, 34 in the papermaking mold 2 and the lower press molds 5a, 5b, 5c.
  • a molded article receiving device 36 is provided near the installation location of the upper mold and the lower mold.
  • the apparatus 36 is provided with a receiving table 35 that is freely slidable in the horizontal direction.
  • the upper die holding the paper-formed product after the pressurizing and heating treatment is completed.
  • the receiving table 35 is moved downward, and the molded article discharged from the upper mold by blowing compressed air is received and moved backward, and when it returns to the original position or while moving backward.
  • the receiving table 35 has a mechanism for tilting and dropping the formed paper product downward.
  • a plurality of passages 6 are provided inside an upper press die 4a supported and fixed to a lower surface of a base 45.
  • Each of the plurality of passages 6 has an opening on the surface of the mold, and a member 25 having a fine hole formed at the opening end is embedded therein.
  • the member 25 it is preferable to use a bottomed cylindrical core vent having a fine hole forming surface on one opening end side.
  • the member 25 is attached such that the micropore forming surface is located on the opening end side of the mold surface of the passage 6.
  • the fine holes provided in the member 25 may be circular or slit-shaped. In the case of a circular hole, the hole diameter is preferably 0.5 to 2.0 OIM.
  • the slit width is preferably 0.5 to 2.0 mm. If the pore diameter and the slit width are less than 0.5, clogging may occur, which may impede the moisture permeation of the hydrated paper-molded article. There is a risk that components will permeate through the pores.
  • the plurality of passages 6 merge at the upper part of the mold, and the merge portion communicates with a communication passage 15 provided inside the base 45.
  • a vacuum passage 46 and a compressed air passage 47 are provided in communication with the communication passage 15. Both the vacuum passage 46 and the compressed air passage 47 are provided horizontally in the base 45, and the vacuum passage 46 is connected to a vacuum suction device such as a vacuum pump (not shown). The passage 47 is connected to a compressed air supply device such as a compressor (not shown). The pressure in the vacuum passage 46, the communication passage 15 and the passage 6 can be reduced by the function of the vacuum pump, and the compressed air is supplied to the compressed air passage 47 by the function of the compressor. It can be blown out of the mold surface through passage 15, passage 6, and member 25.
  • the vacuum passage 46 and the compressed air passage 47 may be formed as vertical passages communicating with the communication passage 15 in the base 45. Further, this vertical passage may be constituted by two passages divided into a vacuum passage 46 and a compressed air passage 47, or the vacuum passage 46 and the compressed air passage 47 may be constituted as one passage. In the latter case, the pressure can be reduced through a single passage or compressed air can be supplied. A predetermined number of heaters 22 as heating devices are embedded in the base 45.
  • Each of the upper press dies 4b, 4c, and 4d has the same structure as the above-described upper press dies 4a.
  • the papermaking mold 2 has a mold body 19, a support member 21 and a mold. It consists of a papermaking net 17 attached to the surface of the main body 19, and the mold main body 19 is supported by the support member 21 and fixed to the base 42.
  • a mesh having a mesh that allows moisture in the pulp raw material liquid to pass but does not allow the pulp component to pass is used, and a wire mesh of 15 to 80 mesh is usually used. Stainless steel or brass is used as the material of the wire mesh.
  • a plurality of passages 18 are provided inside the papermaking mold 2, and each of the plurality of passages 18 is open to the surface of the mold, so that the open end of the passage 18 communicates with the micropores of the net 17.
  • the passage 18 is a passage through which the moisture of the water-containing molded article is permeable, and is composed of a plurality of vertical passages and horizontal passages, and the vertical passages and the horizontal passages communicate at the intersection.
  • the passage 18 has a pore diameter of 0.5 to 4.0. If the pore size is less than 0.5, it may cause clogging and impede the transmission of water through the hydrated molded article. If the pore size exceeds 4.0, the pulp component of the hydrated molded article may enter. There is a fear.
  • the plurality of passages 18 join at a lower portion of the mold, and the joining portion communicates with a communication passage 20 provided inside the base 42.
  • a vacuum passage 43 communicating with the communication passage 20 is provided horizontally, and the vacuum passage 43 is connected to a vacuum pump (not shown).
  • the vacuum passage 43 may be configured as a vertical passage communicating with the communication passage 20 in the base 42.
  • FIG. 4 shows a state in which the upper press die 4a and the papermaking die 2 are matched, and reference numeral 11 denotes a clearance between the upper press die 4a and the papermaking die 2. Therefore, when the upper press mold 4a and the papermaking mold 2 are clamped, a water-containing papermaking molded article having a thickness corresponding to the clearance 11 is formed.
  • the lower press die 5a supported and fixed on the upper surface of the base 50 has a plurality of passages 54 inside. Multiple passages 5 4 are each on the mold surface An opening 26 is formed, and a member 26 having a fine hole formed at the opening end is embedded therein.
  • the structure of the member 26 is the same as that of the member 25 attached to the upper press die 4a, and it is preferable to use a core vent as the member 26.
  • each of the plurality of passages 54 communicates with a communication passage 23 formed inside the base 50, and the inside of the base 50 communicates with the communication passage 23 to form the vacuum passage 51 and the compressed air.
  • a passage 52 is provided. Both the vacuum passage 51 and the compressed air passage 52 are provided horizontally in the base 50, and the vacuum passage 51 is connected to a vacuum suction device such as a vacuum pump (not shown). Reference numeral 2 is connected to a compressed air supply device such as a compressor (not shown).
  • the inside of the vacuum passage 51, the communication passage 23 and the passage 54 can be reduced in pressure by the function of the vacuum pump, and the compressed air is supplied to the compressed air passage 52 by the function of the compressor. 23, it can be blown out from the mold surface through the passage 54 and the member 26.
  • the vacuum passage 51 and the compressed air passage 52 may be provided in the base 50 as a vertical passage communicating with the communication passage 23. Further, the vertical passage may be constituted by two passages divided into a vacuum passage 51 and a compressed air passage 52, or the vacuum passage 51 and the compressed air passage 52 may be constituted as one passage. In the latter case, the pressure can be reduced through a single passage or compressed air can be supplied. A predetermined number of heaters 24 as heating devices are buried inside the base 50.
  • Each of the lower press dies 5b and 5c has the same structure as the above-described lower press dies 5a.
  • FIG. 5 shows a state in which the upper press die 4a and the lower press die 5a are mated, and reference numeral 16 denotes a clearance between the upper press die 4a and the lower press die 5a. Therefore, the upper press die 4a and the lower press die 5a are When tightened, a water-containing paper-molded article having a thickness corresponding to the clearance 16 is formed.
  • the material of the mold body 19 in the papermaking mold 2, the upper press dies 4a, 4b, 4c, 4d and the lower press dies 5a, 5b, 5c is generally a metal, but an elastic material. It may be.
  • the metal include aluminum and nickel
  • examples of the elastic material include rubber, elastic synthetic resin, and synthetic resin foam.
  • the surface of each of the upper press dies 4a, 4b, 4c, 4d and the lower press dies 5a, 5b, 5c is provided with a molded product by reducing the frictional resistance between the mold surface and the molded product. Fluororesin processing is preferred for good release during removal.
  • the papermaking mold 2 is configured as a convex type
  • the upper press dies 4a, 4b, 4c, and 4d are configured as a concave type
  • the lower press dies 5a, 5b, and 5c are configured as a convex type.
  • the papermaking mold 2 is concave
  • the upper press dies 4a, 4b, 4c, and 4d are convex
  • the lower press dies 5a, 5b, 5c may be configured as a concave shape.
  • the method for producing a molded article of the present invention comprises a papermaking molding step, a drying molding step, and a molded article removal step.
  • Papermaking is performed by the papermaking mold 2 and the upper press mold 4a arranged in the papermaking zone A.
  • the papermaking mold 2 is immersed in the pulp raw material liquid 8 in the papermaking tank 7, and the inside of the papermaking mold 2 is depressurized by operating the vacuum pump connected to the vacuum passage 43. 2 is raised to a position above the liquid level of the pulp raw material liquid 8 (FIG. 6a).
  • the pulp component is taken out on the net 17 of the papermaking mold 2 to form a hydrated paper 27 having a shape corresponding to the shape of the papermaking mold 2.
  • the papermaking mold 2 holding the hydrated paper 27 was held by suction, and the hydrated paper 27 was brought into contact with the upper press mold 4a and the hydrated paper 27 was pressed by the upper press mold 4a and the papermaking mold 2.
  • the upper press die 4a and the papermaking die 2 to stop at a predetermined position based on the clearance set value.
  • the hydrated paper product 27 is sandwiched between the upper press mold 4a and the papermaking mold 2 and pressed (FIG. 6b), whereby the hydrated paper product 27 is pressed and shaped into the shape as it is, and a hydrated paper product 12 is obtained.
  • suction dehydration and heating in the upper press mold 4a are performed in addition to the suction dehydration by the papermaking mold 2 described above.
  • a vacuum pump connected to the vacuum passage 46
  • the inside of the upper press die 4a is depressurized, and the water in the water-containing molded article 12 is suctioned and dehydrated. That is, the water in the hydrated papermaking molded product 12 is sucked into the mold through the member 25 and guided into the passage 6.
  • the moisture guided upward through the mold through the passage 6 is guided into the vacuum passage 46 via the communication passage 15 and discharged to the outside of the mold through the discharge passage.
  • the upper press mold 4a is heated by the heater 22 so that the hydrated paper molded article 12 is heated and dried.
  • the water vapor generated by the heating is discharged through the discharge passage through the member 25—passage 6—communication passage 15—vacuum passage 46 and discharged to the outside of the mold.
  • the heating temperature of the upper press mold 4 a by the heat press 22 is preferably 100 to 250 ° C., and the vacuum degree of the upper press mold 4 a and the papermaking mold 2 when performing suction dehydration are both 70 ° C. 0-1 O mmHg is preferred.
  • the moisture content of 12 is about 30-70% by weight.
  • the driving device 9 is operated to rotate the rotation shaft 31, thereby rotating the support 3 so that the rotation angle becomes 90 °.
  • the upper press die 4a moves in the circumferential direction, and is displaced to a position above the lower press die 5a in the first dry forming zone B.
  • the upper press die 4 is simultaneously displaced to a position above the lower press die 5b in the second dry molding zone C, and the upper press die 4c is displaced to a position above the lower press die 5c in the third dry molding zone D.
  • the upper press mold 4d is displaced to a position above the papermaking mold 2 in the papermaking molding zone A, and the processing in each zone is performed in synchronization.
  • the lower press die 5a When the upper press die 4a is displaced to a position above the lower press die 5a in the first dry forming zone B, the lower press die 5a is moved upward.
  • the lower press mold 5a keeps ascending until it comes into contact with and presses the hydrated paper-formed molded product 12 held by the upper press mold 4a, and the upper press mold 4a and the lower press mold 5a It stops at a predetermined position based on the clearance set value between them.
  • the hydrated paper molded product 12 is sandwiched between the upper press die 4a and the lower press die 5a, pressed and heated and pressed (Fig. 7).
  • the suction and heating are continued after the lower press die 5a is matched.
  • the suction and heating mechanism by the upper press die 4a is as described with reference to FIG.
  • FIG. 5 shows the suction mechanism and the heating mechanism in the lower press die 5a. That is, the vacuum pump connected to the vacuum passage 51 in the lower press mold 5a is operated to make the inside of the lower press mold 5a in a reduced pressure state; The water in the water-containing molded article 12 is sucked into the mold through the member 26 and guided into the passage 54. The water guided to the lower side of the mold through the passage 54 is guided to the vacuum passage 51 through the communication passage 23, and is discharged to the outside of the mold through the discharge passage.
  • the lower press mold 5a is heated by the heater 24, whereby the hydrated paper molded article 12 is heated and dried.
  • the water vapor generated by the heating is discharged through the core vent 26-passage 54-communication passage 23-vacuum passage 51 through the discharge passage to the outside of the mold.
  • the heating temperature of the lower press die 5a by the heater 24 is preferably 100 ° C. to 250 ° C., and the degree of vacuum of the lower press die 5a is preferably 700 to 10 mmHg.
  • the heating temperature of the upper press die 4a in this dry forming step is preferably 100 to 250 ° C, and the degree of vacuum is preferably 700 to 1 OmmHg.
  • the cylinder 34 is operated while the hydrated papermaking molded product 12 is suction-held in the upper press die 4a, and the lower press die 5a is operated. Is slightly moved downward to separate the upper press die 4a and the lower press die 5a by a predetermined distance (FIG. 8a).
  • compressed air is sent from the compressed air passage 47 of the upper press die 4a, and air is blown out of the member 25 via the communication passage 15 and the passage 6. Since the upper press mold 4a is heated by the heater 22, the air flowing in the passage 6 is also heated, and thus the heated air blows out from the upper press mold 4a.
  • compressed air is supplied from the lower press die 5a. That is, the compressor 1 is operated to feed compressed air from the compressed air passage 52 of the lower press die 5a, and to blow air from the member 26 via the communication passage 23 and the passage 54. Since the lower press mold 5a is heated by the heater 24, the air flowing in the passage 54 is also heated, and thus the heated air blows out from the lower press mold 5a. Simultaneously with the blowing of heated air by the lower press die 5a, vacuum suction is performed from the upper press die 4a. As a result, the hydrated papermaking molded product 12 is released from the lower press die 5a and is suction-held by the upper press die 4a (FIG. 8c). Next, the heated air is blown again from the upper press die 4a, and vacuum suction is performed from the lower press die 5a.
  • the hydrated paper molded article 12 can be efficiently heated and dried, and the hydrated paper molded article 12 can be successfully released from the mold. That is, when the hydrated paper-molded article 12 swings up and down, the air heated from the mold surface in the upper press die 4a or the lower press mold 5a is blown to the hydrated paper-molded molded article 12, so that the hydrated paper-molded article 12 Heat drying of 12 is promoted. In addition, the vertical movement of the hydrated molded article 12 causes air to diffuse, and the water vapor remaining on the surface of the hydrated molded article 12 escapes. Is further promoted.
  • the molded article 12 becomes Even if it has a property that makes mold release difficult such as having a complicated shape, it is easy to release, and it is possible to easily take out a molded product from the mold in the final step.
  • the hydrated paper-formed product 12 is sucked and held by the upper press die 4 a and the lower press die 5 a is moved downward to remove the lower press die 5 a. Return to the old position (Fig. 9).
  • the support 3 is rotated, and the upper press die 4a is displaced to a position above the lower press die 5b in the second dry forming zone C while holding the hydrated papermaking molded product 12;
  • the mold 5b moves upward.
  • the lower press die 5b stops at a predetermined position based on a clearance set value between the upper press die 4a and the lower press die 5b.
  • the hydrated papermaking molded product 12 is sandwiched between the upper press die 4a and the lower press die 5b, pressed and heated and pressed. .
  • suction and heating are performed in the upper press die 4a and the lower press die 5b, respectively.
  • the suction mechanism and the heating mechanism in the lower press die 5b are the same as the suction mechanism and the heating mechanism shown in FIG. '
  • Dry molding using the upper press die 4a and the lower press die 5b yields a water-containing paper-formed product having a further reduced moisture content.
  • the upper press die 4a and the lower press die 5b are slightly separated, and air blowing and vacuum suction are performed in the same manner as described above. It is alternately switched between the upper press die 4a and the lower press die 5b, and the hydrated paper molded product 12 is swung up and down. After the up-and-down swing process of the hydrated molded article 1 2, the hydrated molded article 1 2 is moved upward. The press die 4a is sucked and held, and the lower press die 5b is moved downward to return the lower press die 5b to the old position.
  • the support 3 is rotated, and the upper press die 4a is displaced to a position above the lower press die 5c in the third dry molding zone D while holding the wet papermaking molded product 12;
  • the mold 5c moves upward.
  • the lower press die 5c stops at a predetermined position based on a clearance set value between the upper press die 4a and the lower press die 5c.
  • the wet formed article 12 is sandwiched between the upper press mold 4a and the lower press mold 5c, pressed and heated and pressed. You. In this heating and drying step, suction and heating are performed by the same mechanism as described above (the mechanism shown in FIG. 5).
  • the upper press die 4a and the lower press die 5c are slightly separated from each other, and air blowing is performed in the same manner as described above. Vacuum suction is alternately switched between the upper press mold 4a and the lower press mold 5c, and the hydrated paper molded product 12 is swung up and down.
  • the dry molding step is completed in the third dry molding zone D, and a final molded article, a paper molded article 28, is obtained.
  • the moisture content of the paper-formed article 28 is 0 to 10% by weight.
  • the obtained molded article 28 is sucked and held by the upper press die 4a, and the lower press die 5c is further moved downward to return the lower press die 5c to the old position.
  • the receiving table 35 of the molded article receiving device 36 moves forward and stops when it reaches a position below the upper press die 4a.
  • the receiving table 35 for the molded article moves backward.
  • the receiving table 35 returns to the original position or while moving backward, the receiving table 35 is inclined to lower the paper-formed product 28 downward.
  • a transport device such as a belt conveyor is installed at a lower position where the molded article 28 falls, and receives the dropped molded article 28 and transports it to the next process.
  • the distance for separating the upper press die and the lower press die does not need to be set large, and a small interval necessary for the hydrated paper-formed product to move up and down may be provided.
  • the spacing is preferably 1 to 10 mm.
  • the number of vertical swings can be arbitrarily determined as needed, but is preferably 1 to 10 times.
  • the vertical swinging operation is preferably performed in each of a plurality of dry forming steps, that is, every time after one heating press processing and before moving to the next heating press processing, but may be performed in a part of the steps. For example, if the purpose is only to easily release the molded product, the vertical swing operation of the molded product may be performed only in the last dry molding process among the multiple dry molding processes. Good.
  • the above-described embodiment of the present invention employs a rotary system in which a hydrated papermaking molded product is transferred in the circumferential direction to perform heating and drying in a plurality of stages.
  • the present invention is applied only to this mouth-to-mouth system.
  • it can also be applied to a linear type in which a hydrated paper-made molded product is transferred in the horizontal direction and heated and dried in multiple stages. It is possible.
  • Examples of the molded article manufactured by the present invention include small electrical appliances, containers for packaging precision machinery, containers for packaging food such as eggs, and cushioning materials for packaging.
  • ADVANTAGE OF THE INVENTION According to this invention, it can heat-dry efficiently at the time of manufacture of a molded article, and since it is easy to release a molded article, it is useful for the sheet molding of packaging containers etc. from the viewpoint of improving production efficiency. It is.

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Abstract

A method of producing paper-making-processed molded articles such as those used as packaging containers and packaging shock absorbers; and a heating press device used for the production of the same. A water-containing paper-making-processed molded article (12) is held between an upper press mold (4a) and a lower press mold (5a) and subjected to heating press, whereupon the lower press mold (5a) is lowered while leaving a slight clearance between the upper and lower press molds (4a, 5a). Hot air is blown from the upper press mold (4a) and the lower press mold (5a) is evacuated. The hot air blowing and the evacuation are alternately repetitively effected between the upper and lower press molds (4a, 5a), and the water-containing paper-making-processed molded article (12) is vertically swung.

Description

明細 ^ 抄造成形品の製造方法及び加熱プレス装置 技術分野  Description ^ Method for manufacturing paper-formed article and heating press
本発明は、 パルプ原料から作られ、 包装用容器や包装用緩衝材等として 用いられる抄造成形品を製造する方法及ぴその製造に用いられる加熱プレ ス装置に関する。 背景技術  TECHNICAL FIELD The present invention relates to a method for producing a molded article formed from pulp raw material and used as a packaging container, a packaging cushioning material, and the like, and a heating press used for the production. Background art
近年、 小型電気製品、 精密機械類の包装用容器、 或いは卵等の食品の包 装用容器として、 パルプ原料液を用いて所定形状に抄造した抄造成形品が 使用され、 この抄造成形品は環境保護に適するものとしてその利用が普及 している。  In recent years, as a packaging container for small electric appliances, precision machinery, or a package for food such as eggs, a molded article formed into a predetermined shape using a pulp raw material liquid has been used. Its use is widespread as suitable for
上記抄造成形品の一般的な製造方法として、 パルプ等の原料を水中に分 散させて、 該分散液中のパルプ成分を所定形状の抄造用ネットを用いて抄 き取り、 パルプ成分中の水分を真空吸引して脱水した後、 所定形状に賦形 された含水抄造成形品を熱風乾燥炉に通して加熱乾燥し、 最終製品とする 方法が広く行なわれてきた。  As a general method for producing the above-mentioned molded article, a raw material such as pulp is dispersed in water, and the pulp component in the dispersion liquid is collected using a predetermined shape paper-making net. After dewatering by vacuum suction, a method of heating and drying a hydrated paper-formed product formed into a predetermined shape through a hot-air drying furnace to obtain a final product has been widely used.
しかしながら、 この方法は水分を含んだ抄造成形品を熱風乾燥炉の中で 加熱乾燥するので、 得られる最終製品の肉厚が不均一になり、 且つ加熱乾 燥時に成形品に歪みが発生し、 形状や寸法における変動が生じるという欠 点があった。 また、 抄造成形時に抄造用ネットと接している側の成形品表 面に網目の模様が形成され、 他方の表面には不規則な凹凸が形成されると いう不具合があり、 この点は後工程におけるプレス処理である程度平坦化 できるが、 充分なものではなく、 平滑な表面は得られなかった。 更に、 熱風乾燥炉は入口から出口までの長さが非常に長い大型装置であ るため、 装置の設置面積が大きくなり、 製造コストも上昇するという欠点 があった。 However, in this method, since the formed paper product containing water is heated and dried in a hot-air drying oven, the thickness of the final product obtained is not uniform, and the formed product is distorted when heated and dried. There was a drawback that the shape and dimensions fluctuated. Another problem is that a mesh pattern is formed on the surface of the molded product on the side in contact with the papermaking net during papermaking, and that irregularities are formed on the other surface. Although the press treatment in the above could flatten to some extent, it was not sufficient and a smooth surface could not be obtained. Furthermore, the hot-air drying oven is a large-sized device whose length from the inlet to the outlet is very long, so there is a disadvantage that the installation area of the device is large and the manufacturing cost is increased.
特開平 6— 4 9 8 0 0号には、 抄造成形下型をパルプ原料液に浸漬して 該下型上に含水抄造成形品を抄造成形し、 該含水抄造成形品を上型と前記 下型との間で押圧して脱水し、 次いでこの含水抄造成形品を上型に保持し て前記下型を下降させ、 別の位置で待機している加熱プレス下型を移動し て前記含水抄造成形品を保持してなる上型の下方に加熱プレス下型を位置 させ、 上型と加熱プレス下型との間に含水抄造成形品を挟んで高周波乾燥 を行い、 次いで加熱プレス下型に含水抄造成形品を保持した状態で該加熱 プレス下型を移動し、 別の位置で待機している加熱プレス上型の下方に位 置させ、 ここで加熱プレス上型と加熱プレス下型との間に含水抄造成形品 を挟んで加熱プレスを行い、 最終成形品である抄造成形品を得ることが開 示されている。  Japanese Patent Application Laid-Open No. 6-49800 discloses that a papermaking lower mold is immersed in a pulp raw material liquid to form a water-containing paperwork on the lower mold. Pressing and dewatering between the mold and dewatering, then holding the hydrated papermaking molded article in the upper mold, lowering the lower mold, and moving the heating press lower mold waiting at another position to move the hydrated papermaking The hot press lower mold is positioned below the upper mold holding the molded product, high-frequency drying is performed by sandwiching the wet papermaking molded product between the upper mold and the hot press lower mold, and then the hot press lower mold is wetted. The holding press lower mold is moved while holding the molded article, and is positioned below the holding press upper mold waiting at another position. Then, hot press is performed with the hydrated paper-molded product sandwiched between them, and it is now possible to obtain the final molded product. It is shown.
特開平 6— 6 5 9 0 0号は上記特開平 6— 4 9 8 0 0号と同様な抄造成 形品の製造方法を開示すると共に、 抄造成形機を複数基設け、 各抄造成形 機における成形品の製造周期の位相をずらし、 ずらされた製造周期の位相 に応じて各抄造成形機へ高周波を印加する製造方法を開示している。 特開平 6— 1 5 8 5 9 9号もまた同様に、 含水抄造成形品を乾燥成形す るに当たり、 プレス上型とプレス下型との間に含水抄造成形品を挟んで加 熱プレスすることを開示している。  Japanese Patent Application Laid-Open No. 6-690000 discloses a method for producing a molded article similar to the above-mentioned Japanese Patent Application Laid-Open No. 6-49800, and a plurality of paper molding machines are provided. It discloses a manufacturing method in which the phase of the production cycle of a molded article is shifted, and a high frequency is applied to each papermaking molding machine in accordance with the phase of the shifted production cycle. Similarly, in Japanese Patent Application Laid-Open No. 6-15859-99, when a wet-formed paper-formed product is dried and formed, a hot-pressed paper-formed product is sandwiched between a press upper die and a press lower die, and heated and pressed. Is disclosed.
これら特開平 6— 4 9 8 0 0号、 特開平 6— 6 5 9 0 0号及び特開平 6 - 1 5 8 5 9 9号によれば、 プレス上型とプレス下型との間に含水抄造成 形品を挟んで押圧し加熱乾燥するので、 肉厚が均一で寸法精度に優れ且つ 表面平滑で外観良好な抄造成形品を製造できる。 また、 熱風乾燥炉のよう な大型装置を設置する必要がなく、 製造コストの低減を図れる。 According to these JP-A-6-49800, JP-A-6-690000 and JP-A-6-158959, water is contained between the upper press die and the lower press die. Since the molded paper is sandwiched and pressed and heated and dried, it is possible to produce a molded molded article having a uniform thickness, excellent dimensional accuracy, and a smooth surface and good appearance. Also, like a hot air drying oven There is no need to install a large large device, and the manufacturing cost can be reduced.
しかし、 上記先行技術のいずれにも含水抄造成形品の加熱乾燥を効率良 く行なうための技術手段については開示されていない。  However, none of the above-mentioned prior arts discloses a technical means for efficiently heating and drying a hydrated papermaking molded article.
また一般に、 抄造成形品が複雑な形状の成形品であったり、 バランスの 悪い形状を有する成形品であったり、 抜き勾配の少ない形状の成形品であ つたり、 型に密着しやすいパルプ成分からなる成形品であったり、 型に焼 き付き易い薬品等が添加されているパルプ成分からなる成形品であったり する場合には、 成形品を型から取り出すに当たり、 離型を円滑に行なうこ とができず、 成形品の取り出しが困難であるという問題点がある。 上記先 行技術のいずれもこのような成形品の取り出し時の問題点を解決すること を主題としておらず、 その解決手段についての開示はない。  In addition, in general, a molded article is a molded article having a complicated shape, a molded article having an unbalanced shape, a molded article having a small draft angle, or a pulp component which is easily adhered to a mold. When the molded product is removed from the mold, or when the molded product is made of a pulp component containing a chemical or the like that easily seizes into the mold, the mold should be released smoothly. However, there is a problem that it is difficult to remove the molded product. None of the above-mentioned prior arts is directed to solving such a problem at the time of removing a molded article, and there is no disclosure of a solution thereto.
' 特開 2 0 0 0— 3 4 7 0 0には、 抄き型表面に形成した含水抄造成形品 を旋回アームに支持された取り型に受け渡し、 旋回アームを回転して含水 抄造成形品を回転テーブルに支持された下型に移載し、 上型と下型との間 に含水抄造成形品を挟み、 回転テーブルがタクト回転する間に含水抄造成 形品を加熱、 加圧しながら乾燥することが開示されている。 特 開 Japanese Patent Application Laid-Open No. 2000-34070 describes that a wet-formed paper-formed product formed on the surface of a paper-making mold is transferred to a take-up die supported by a swing arm, and the rotary arm is rotated to produce a wet-formed paper-formed product. Transfer to the lower mold supported by the rotary table, sandwich the hydrous paper-formed product between the upper and lower dies, and dry while heating and pressurizing the hydrous paper-formed product while the rotary table rotates tact. It is disclosed.
この特開 2 0 0 0— 3 4 7 0 0は、 上型と下型との間に含水抄造成形品 を挟んで加熱乾燥することを開示しているが、 加熱乾燥を効率良く行なう ための手段について開示しておらず、 また成形品の離型の容易化を図るこ とについても開示されていない。  Japanese Patent Application Laid-Open No. 2000-340700 discloses that a water-containing papermaking molded article is sandwiched between an upper mold and a lower mold and heated and dried. No means is disclosed, nor is there any disclosure of facilitating mold release of molded products.
本発明は、 含水抄造成形品の乾燥成形工程において加熱乾燥を効率良く 行なうことができる抄造成形品の製造方法を提供することを目的とする。 また本発明は、 成形品取り出し工程において成形品を型から容易に取り 出すことができる抄造成形品の製造方法を提供することを目的とする。 更に本発明は、 含水抄造成形品の効率良い加熱乾燥を可能にし且つ成形 品の離型の容易化を可能にする加熱プレス装置を提供することを目的とす る。 発明の開示 An object of the present invention is to provide a method for producing a paper-formed article which can be efficiently heated and dried in the step of drying and forming a water-containing paper-formed article. Another object of the present invention is to provide a method for producing a sheet-like molded product that can easily remove a molded product from a mold in a molded product removal step. Further, the present invention enables efficient heating and drying of a hydrated paper molded article and It is an object of the present invention to provide a heating press device capable of facilitating product release. Disclosure of the invention
本発明は、 抄紙型をパルプ原料液に浸漬し、 パルプ成分を抄き取って抄 紙型上に含水抄造物を形成し、 該含水抄造物を抄紙型と上部プレス型との 間に挟んで脱水乾燥を行い含水抄造成形品を製造し、 該含水抄造成形品を 上部プレス型と下部プレス型との間に挟んで加熱乾燥を行い抄造成形品を 製造する抄造成形品の製造方法である。  In the present invention, a papermaking mold is immersed in a pulp raw material liquid, a pulp component is removed to form a water-containing papermaking product on the papermaking die, and the water-containing papermaking product is sandwiched between a papermaking die and an upper press die. This is a method for producing a sheet-shaped molded article by producing a sheet-shaped molded article by dehydrating and drying to produce a sheet-shaped molded article, sandwiching the sheet-shaped hydrated article between an upper press die and a lower press die, and drying by heating.
加熱乾燥工程において含水抄造成形品を上部プレス型と下部プレスとの 間に挟んで加熱プレスを行った後、 上部プレス型と下部プレス型を離間し て含水抄造成形品が上下動できる間隔を設ける。 両プレス型の離間距離は 大きく設定する必要はなく、 含水抄造成形品が上下動できる僅かな間隔を 設ければよい。 両プレス型の離間後、 上部プレス型、 下部プレス型のうち の一方のプレス型から含水抄造成形品に圧縮空気を吹き付け、 他方のプレ ス型において含水抄造成形品を真空吸引し、 上記空気吹き付けと真空吸引 を上部プレス型、 下部プレス型間で交互に切り換えて行ない、 それにより 両プレス型間において含水抄造成形品を上下揺動させる。  In the heating and drying step, after the hydrated papermaking molded product is heated and pressed between the upper press die and the lower press, the upper press die and the lower press die are separated to provide an interval where the hydrated papermaking molded product can move up and down. . It is not necessary to set a large separation distance between the two press dies, and it is only necessary to provide a small interval at which the hydrated papermaking molded product can move up and down. After the two press dies are separated from each other, compressed air is blown from one of the upper press die and the lower press die to the hydrated paper-formed product, and the other press die is evacuated to the hydrated paper-formed product by vacuum. And the vacuum suction are alternately switched between the upper press die and the lower press die, whereby the hydrated paper-formed product is swung up and down between the two press dies.
本発明の実施形態においては、 上部プレス型から含水抄造成形品に加熱 された圧縮空気を吹き付ると共に、 下部プレス型において含水抄造成形品 を真空吸引して含水抄造成形品を下部プレス型に吸引保持させ、 次いで、 下部プレス型から含水抄造成形品に加熱された圧縮空気を吹き付けると共 に、 上部プレス型において含水抄造成形品を真空吸引して含水抄造成形品 を上部プレス型に吸引保持させ、 以後、 上記した含水抄造成形品の下部プ レス型への吸引保持及び上部プレス型への吸引保持を交互に繰り返し行な うことにより、 両プレス型間において含水抄造成形品を上下揺動させる。 本発明は、 含水抄造成形品の乾燥工程において上部プレス型と下部プレ ス型による加熱プレスを行なった後、 両プレス型を所定距離離間して両プ レス型により加熱空気の吹き付けと真空吸引を交互に繰り返して含水抄造 成形品を上下揺動させるので、 型表面からの加熱空気の吹き付けによって 含水抄造成形品の乾燥が一段と促進される。 両プレス型を離間して含水抄 造成形品を上下揺動させることにより空気の拡散が起こり、 含水抄造成形 品の表面に滞留していた水蒸気が逸散するので、 この点からも含水抄造成 形品の乾燥が促進される。 In an embodiment of the present invention, heated compressed air is blown from the upper press mold to the hydrated paper-formed product, and the hydrated paper-formed product is sucked into the lower press die by vacuum suction in the lower press die. Then, the heated pressurized air is blown from the lower press die onto the hydrated paper-formed product, and the hydrated paper-formed product is sucked in vacuum in the upper press die, and the hydrated paper-formed product is suction-held in the upper press die. Thereafter, the suction holding of the hydrated papermaking molded article in the lower press mold and the suction holding in the upper press mold are alternately and repeatedly performed. As a result, the hydrated papermaking molded product is swung up and down between both press dies. According to the present invention, in a drying process of a hydrated papermaking molded article, after performing a hot press using an upper press die and a lower press die, the two press dies are separated by a predetermined distance, and the hot air is blown and vacuum sucked by the both press dies. Since the hydrated papermaking molded product is swung up and down repeatedly, the drying of the hydrated papermaking molded product is further promoted by blowing heated air from the mold surface. When the press-molds are separated from each other and the hydrated paper-formed product is swung up and down, air is diffused and the water vapor remaining on the surface of the hydrated paper-formed product is dissipated. Drying of the shape is promoted.
従って本発明によれば、 含水抄造成形品の加熱乾燥を効率良く行なうこ とができ、 短時間で十分な乾燥を行なうことができる。 その結果、 本発明 は生産能率の向上に寄与できる。  Therefore, according to the present invention, it is possible to efficiently heat-dry a hydrated paper-made molded product, and to perform sufficient drying in a short time. As a result, the present invention can contribute to improvement of production efficiency.
また本発明は上部プレス型と下部プレス型との間で含水抄造成形品を上 下揺動させるので、 離型性が良好となり、 最終成形品の型か.らの取り出し を円滑且つ容易に行なうことができる。 従って、 抄造成形品が複雑な形状 の成形品、 バランスの悪い形状を有する成形品、 抜き勾配の少ない形状の 成形品、 型に密着しやすいパルプ成分からなる成形品、 或いは型に焼き付 き易い薬品等が添加されているパルプ成分からなる成形品等、 離型阻害要 因を有する成形品あっても、 成形品の離型を容易に行なうことができる。 その結果、 成形品取り出し時に成形品に無理な力が加わって成形品の一部 を破損するという虞もない。  In addition, in the present invention, since the water-containing paper-made molded product is swung up and down between the upper press die and the lower press die, the releasability is improved, and the removal of the final molded product from the mold is performed smoothly and easily. be able to. Therefore, the molded article is a complex shaped article, a molded article with an unbalanced shape, a molded article with a small draft angle, a molded article made of pulp components that easily adheres to the mold, or easily sticks to the mold It is possible to easily release a molded product even if it has a mold release inhibiting factor, such as a molded product made of a pulp component to which a chemical or the like is added. As a result, there is no danger that a part of the molded product will be damaged due to excessive force applied to the molded product when the molded product is taken out.
また本発明は、 上部に配置したプレス型と下部に配置したプレス型との 間に含水抄造成形品を挟んで加熱プレスして抄造成形品を製造する加熱プ レス装置である。 本発明の加熱プレス装置はプレス型の内部に複数の通路 を設け、 この通路の一端をプレス型の表面に開口させると共に、 通路の他 端を圧空通路及び真空通路に連通させてなるものである。 Further, the present invention is a heating press apparatus for producing a paper-formed product by hot-pressing a water-containing paper-formed product between a press die disposed at an upper portion and a press die disposed at a lower portion. The heating press device of the present invention is provided with a plurality of passages inside the press die, one end of which is opened on the surface of the press die, and the other of the passages. The end is communicated with the compressed air passage and the vacuum passage.
本発明の好ましい実施形態において、プレス型はベースに支持固定され、 ベース内に上記圧空通路及び真空通路が設けられると共に、 ヒータが埋設 される。  In a preferred embodiment of the present invention, the press die is supported and fixed to a base, and the above-described compressed air passage and vacuum passage are provided in the base, and a heater is embedded therein.
加熱プレス装置を上記の如く構成することによって、 上部プレス型及び 下部プレス型の型表面から加熱された圧縮空気を吹き出すことができると 共に、 型表面から真空吸引作用を行うことができる。 この空気吹き出し作 用と真空吸引作用とによって両プレス型間における含水抄造成形品の上下 揺動を起こさせることが可能となる。  By configuring the heating press device as described above, heated compressed air can be blown out from the mold surfaces of the upper press mold and the lower press mold, and a vacuum suction action can be performed from the mold surfaces. By this air blowing operation and the vacuum suction operation, it is possible to cause the water-containing paper-molded product to swing up and down between the two press dies.
ここにおいて、 加熱された圧縮空気はプレス型における型表面から吹き 出されるので一定量の圧縮空気を均一に供給でき、 含水抄造成形品に対す る圧縮空気の吹き付けを均一に行なうことができる。  Here, the heated compressed air is blown out from the mold surface of the press die, so that a fixed amount of compressed air can be uniformly supplied, and the compressed air can be sprayed uniformly on the hydrated paper molded article.
圧縮空気の吹き付けが不均一であると含水抄造成形品に及ぼされる空気 圧力が不均一となり、 離型が困難となるが、 本発明によれば圧縮空気の吹 き付けを均一に行なえるので含水抄造成形品の離型が容易となり、 その結 果、 含水抄造成形品の上下揺動を円滑に行えると共に、 最終成形品の型か らの取出しに当たっても離型を円滑且つ容易に行うことができる。 図面の簡単な説明  If the blowing of the compressed air is not uniform, the air pressure exerted on the hydrated paper-made molded article will be uneven, making it difficult to release the mold. However, according to the present invention, the compressed air can be sprayed uniformly, so The release of the paper-formed product is facilitated, and as a result, the up-and-down swing of the water-containing paper-formed product can be performed smoothly, and the release can be performed smoothly and easily even when the final product is removed from the mold. . BRIEF DESCRIPTION OF THE FIGURES
図 1は本発明装置の平面略図、 図 2は図 1における第 1乾燥成形ゾ一ン Bの方向から見た本発明装置の正面略図、 図 3は図 1における第 2乾燥成 形ゾーン Cの方向から見た本発明装置の正面略図、 図 4は上部プレス型と 抄紙型との型合わせ状態を示す縦断面略図、 図 5は上部プレス型と下部プ レス型との型合わせ状態を示す縦断面略図、 図 6は抄紙成形工程を示す正 面略図、 図 7は上部プレス型と下部プレス型との間で含水抄造成形品を加 熱プレスする状態を示す正面略図、 図 8 a、 8 b、 8 cは含水抄造成形品 の上下揺動工程を示す説明図、 図 9は上部プレス型に含水抄造成形品を吸 引保持して下部プレス型を降下させる状態を示す正面略図、 図 1 0は成形 品の型からの取り出し状態を示す正面略図である。 発明を実施するための最良の形態 1 is a schematic plan view of the apparatus of the present invention, FIG. 2 is a schematic front view of the apparatus of the present invention viewed from the direction of the first dry forming zone B in FIG. 1, and FIG. 3 is a view of the second dry forming zone C in FIG. FIG. 4 is a schematic front view of the apparatus of the present invention viewed from the direction, FIG. 4 is a schematic longitudinal sectional view showing a state of matching between an upper press die and a papermaking mold, and FIG. 5 is a longitudinal section showing a state of matching between an upper press mold and a lower press mold. Fig. 6 is a schematic front view showing the paper making process, and Fig. 7 is a process of adding a hydrated paper molded product between an upper press die and a lower press die. Fig. 8a, 8b, 8c is an explanatory diagram showing the vertical swinging process of a hydrated paper-formed product, and Fig. 9 is a drawing in which the hydrated paper-formed product is sucked and held by an upper press mold. FIG. 10 is a schematic front view showing a state in which the lower press die is lowered, and FIG. 10 is a schematic front view showing a state in which a molded product is taken out of the mold. BEST MODE FOR CARRYING OUT THE INVENTION
本発明製造装置 1は回転可能な支持体 3に支持固定された複数の上部プ レス型 4 a、 4 b、 4 c、 4 dと、 これら上部プレス型 4 a、 4 b、 4 c、 4 dとの間で含水抄造成形品を加熱プレスする下部プレス型 5 a、 5 b、 5 cと、 抄紙成形を行なう抄紙型 2を備えている。  The manufacturing apparatus 1 of the present invention includes a plurality of upper press dies 4a, 4b, 4c, and 4d supported and fixed on a rotatable support 3, and these upper press dies 4a, 4b, 4c, and 4d. The lower press dies 5a, 5b, and 5c for hot-pressing the hydrated paper-molded article between the sheet-forming mold and the paper-making mold 2 for performing paper-making molding.
支持体 3は回転軸 3 1に軸支され、 回転軸 3 1と共に回転するように構 成されている。 支持体 3は中心から四方向に枝分かれしたァ一ムを持ち、 それぞれのアームの先端に上部プレス型 4 a、 4 b、 4 c、 4 dが固定さ れている。 上部プレス型 4 a、 4 b、 4 c、 4 dはべ一ス 4 5の下面にネ ジ等の固定具により支持固定され、 ベース 4 5が支持体 3に固定されてい る。 上部プレス型 4 a、 4 b、 4 c、 4 dは回転可能な支持体 3に支持さ れることにより、 円周方向に移動可能に設けられている。 支持体 3の構成 はアーム形状のものに限定されるものではなく、 円盤状の回転テ一ブルと して構成してもよい。  The support 3 is supported by the rotation shaft 31 and is configured to rotate with the rotation shaft 31. The support 3 has an arm branched in four directions from the center, and upper press dies 4a, 4b, 4c, and 4d are fixed to the ends of the arms. The upper press dies 4 a, 4 b, 4 c, 4 d are supported and fixed to the lower surface of the base 45 by means of screws or the like, and the base 45 is fixed to the support 3. The upper press dies 4a, 4b, 4c, and 4d are supported by a rotatable support 3 so as to be movable in the circumferential direction. The configuration of the support 3 is not limited to an arm shape, and may be a disk-shaped rotary table.
9は回転軸 3 1を回転駆動させるための駆動装置であり、 この駆動装置 9は制御装置 3 2によって制御される。 この制御装置 3 2によって回転軸 3 1の回転速度を制御できるほか、 回転軸 3 1の間欠回転における回転角 度 α及び停止時間の制御を行うことができる。 このような制御装置として インデックス、 サーポモータ、 位置決めノックピン等を用いることができ る。 1 0は支持枠である。 上部プレス型 4 a、 4 b、 4 c、 4 dが円周方向に移動する行程内に抄 紙成形ゾーン A及び複数の乾燥成形ゾーン B、 C、 Dが設けられており(図 1 )、抄紙成形ゾーン Aには抄紙型 2を内部に設置してなる抄紙槽 7が配置 され、 第 1乾燥成形ゾーン B、 第 2乾燥成形ゾーン C、 第 3乾燥成形ゾ一 ン Dにはそれぞれ、 下部プレス型 5 a、 5 b、 5 cが配置されている。 図 2、 図 3において、 上部プレス型 4 a、 4 b、 4 c、 4 dの下方には それぞれ抄紙型 2、 下部プレス型 5 a、 5 b、 5 cが上部プレス型と相互 に対向するよう円周方向に沿って配置されている。 Reference numeral 9 denotes a driving device for driving the rotating shaft 31 to rotate. The driving device 9 is controlled by the control device 32. The control device 32 can control the rotation speed of the rotation shaft 31 and also can control the rotation angle α and the stop time in the intermittent rotation of the rotation shaft 31. An index, a servomotor, a positioning knock pin, and the like can be used as such a control device. 10 is a support frame. A paper forming zone A and a plurality of dry forming zones B, C, D are provided in a process in which the upper press dies 4a, 4b, 4c, 4d move in the circumferential direction (FIG. 1). A papermaking tank 7 having a papermaking mold 2 installed therein is disposed in the papermaking molding zone A, and a lower part is provided in each of the first drying molding zone B, the second drying molding zone C, and the third drying molding zone D. Press dies 5a, 5b and 5c are arranged. In Figs. 2 and 3, below the upper press dies 4a, 4b, 4c and 4d, the papermaking die 2 and the lower press dies 5a, 5b and 5c are opposed to the upper press dies, respectively. So that they are arranged along the circumferential direction.
図 2において上部プレス型 4 aの下方に抄紙型 2が配置されている。 抄 紙槽 7の内部にシリンダー 3 3が設けられ、 該シリンダ一 3 3によって上 下動可能に設けられた軸体 1 3の上端にベ一ス 4 2が取り付けられ、 該べ ース 4 2の上面に抄紙型 2がネジ等の固定具により支持固定されている。 このようにシリンダ一 3 3の作用によって軸体 1 3が上下動し、 それによ り抄紙型 2が上下方向に移動可能となるよう構成されている。  In FIG. 2, the papermaking mold 2 is arranged below the upper press mold 4a. A cylinder 33 is provided inside the paper tank 7, and a base 42 is attached to an upper end of a shaft 13 provided so as to be able to move up and down by the cylinder 133. A papermaking mold 2 is supported and fixed on the upper surface of the papermaking machine by a fixing tool such as a screw. Thus, the shaft 13 is moved up and down by the action of the cylinder 13 3, whereby the papermaking mold 2 is configured to be movable in the up and down direction.
抄紙槽 7には抄造成形品の成形材料であるパルプ原料液 8が所定量入つ ており、 該パルプ原料液 8としては、 水にパルプ原料を分散させた公知の 抄紙用パルプ原料液を用いることができる。 パルプ原料にはバージン原料 に古紙等の再生紙用原料を混合してもよく、 或いは再生紙用原料のみから パルプ原料液を調製してもよい。 またパルプ原料に水溶性ポリマーや加熱 プレス時の熱で溶融する熱可塑性合成樹脂、 繊維等を混合してもよい。 図 2において上部プレス型 4 bの下方に位置する下部プレス型 5 aは、 ベース 5 0の上面にネジ等の固定具により支持固定され、 ベース 5 0は基 台 1 4上に設置されたシリンダ一 3 4によって上下動可能に設けられた軸 体 4 9の上端に取り付けられている。 同図において上部プレス型 4 cの下 方に位置する下部プレス型 5 b及び図 3において上部プレス型 4 dの下方 に位置する下部プレス型 5 cもまた同様に、 それぞれベース 5 0の上面に ネジ等の固定具により支持固定され、 ベース 5 0は基台 1 4上に設置され たシリンダー 3 4における軸体 4 9に取り付けられている。 A predetermined amount of pulp raw material liquid 8, which is a molding material for a papermaking molded article, is put in a papermaking tank 7. As the pulp raw material liquid 8, a known pulp raw material liquid in which pulp raw material is dispersed in water is used. be able to. The pulp raw material may be a virgin raw material mixed with recycled paper raw material such as waste paper, or a pulp raw material liquid may be prepared from only recycled paper raw material. In addition, a pulp raw material may be mixed with a water-soluble polymer, a thermoplastic synthetic resin or fiber which is melted by heat generated during hot pressing. In FIG. 2, a lower press die 5 a located below the upper press die 4 b is supported and fixed on a top surface of a base 50 by a fixing tool such as a screw, and the base 50 is a cylinder mounted on a base 14. It is attached to the upper end of a shaft 49 that can be moved up and down by one. In the same figure, the lower press die 5b located below the upper press die 4c and the lower press die 4d in FIG. Similarly, the lower press dies 5c, which are located on the base 50, are also supported and fixed to the upper surface of the base 50 by screws or other fasteners. 9 is attached.
このように下部プレス型 5 a、 5 b、 5 cは、 シリンダ一 3 4の作用に よつて上下方向に移動可能に構成されている。  As described above, the lower press dies 5a, 5b, and 5c are configured to be vertically movable by the action of the cylinder 134.
下部プレス型 5 a、 5 b、 5 cはシリンダ一 3 4によって上下方向に移 動可能であるが、 円周方向には動かず、 固定されている。 抄紙型 2及び下 部プレス型 5 a、 5 b、 5 cにおけるシリンダー 3 3、 3 4として油圧シ リンダーを用いることが好ましい。  The lower press dies 5a, 5b, and 5c can be moved up and down by the cylinder 134, but are not moved in the circumferential direction and are fixed. It is preferable to use a hydraulic cylinder as the cylinders 33, 34 in the papermaking mold 2 and the lower press molds 5a, 5b, 5c.
第 3乾燥成形ゾーン Dにおいては、 上型、 下型の設置場所の近傍に成形 品受取り装置 3 6が設けられている。 該装置 3 6は図 3に示すように、 受 けテーブル 3 5を水平方向に搢動自在に設けてなるものであり、 加圧加熱 処理が終了して抄造成形品を保持している上型の下方に受けテーブル 3 5 を移動させ、 圧縮空気の吹き出しによって上型より払い出された抄造成形 品を受け取って後方に移動し、 元の位置に復帰した時点で或いは後方に移 動する途中で受けテーブル 3 5が傾斜して抄造成形品を下方に落下させる 機構を有している。  In the third dry molding zone D, a molded article receiving device 36 is provided near the installation location of the upper mold and the lower mold. As shown in FIG. 3, the apparatus 36 is provided with a receiving table 35 that is freely slidable in the horizontal direction. The upper die holding the paper-formed product after the pressurizing and heating treatment is completed. The receiving table 35 is moved downward, and the molded article discharged from the upper mold by blowing compressed air is received and moved backward, and when it returns to the original position or while moving backward. The receiving table 35 has a mechanism for tilting and dropping the formed paper product downward.
図 4に示すように、 ベース 4 5下面に支持固定された上部プレス型 4 a の内部に複数の通路 6が設けられている。 複数の通路 6はそれぞれ型表面 に開口し、 その開口端部に微細孔を形成してなる部材 2 5が埋め込まれて いる。 部材 2 5としては、 一方の開口端側に微細孔形成面を有する有底円 筒形状のコアベントを用いることが好ましい。 部材 2 5はその微細孔形成 面が通路 6の型表面における開口端部側に位置するように取り付けられる。 部材 2 5に設けられる微細孔は円形状でもスリット状でもよく、 円形孔 の場合の孔径は 0 . 5〜2 . O IMであることが好ましく、 またスリット孔 の場合のスリット幅は 0 . 5〜2 . 0 mmであることが好ましい。上記孔径、 スリツ h幅が 0 . 5 匪未満であると目詰まりが生じて含水抄造成形品の水 分透過に支障が生じる虞があり、 また 2 . 0 匪を超えると含水抄造成形品 のパルプ成分が孔を通して透過する虞がある。 As shown in FIG. 4, a plurality of passages 6 are provided inside an upper press die 4a supported and fixed to a lower surface of a base 45. Each of the plurality of passages 6 has an opening on the surface of the mold, and a member 25 having a fine hole formed at the opening end is embedded therein. As the member 25, it is preferable to use a bottomed cylindrical core vent having a fine hole forming surface on one opening end side. The member 25 is attached such that the micropore forming surface is located on the opening end side of the mold surface of the passage 6. The fine holes provided in the member 25 may be circular or slit-shaped. In the case of a circular hole, the hole diameter is preferably 0.5 to 2.0 OIM. In this case, the slit width is preferably 0.5 to 2.0 mm. If the pore diameter and the slit width are less than 0.5, clogging may occur, which may impede the moisture permeation of the hydrated paper-molded article. There is a risk that components will permeate through the pores.
複数の通路 6は型の上方部で合流し、 この合流部はべ一ス 4 5の内部に 設けた連通路 1 5に連通している。  The plurality of passages 6 merge at the upper part of the mold, and the merge portion communicates with a communication passage 15 provided inside the base 45.
ベース 4 5の内部には連通路 1 5と連通して真空通路 4 6及び圧空通路 4 7が設けられている。 これら真空通路 4 6、 圧空通路 4 7はいずれもべ —ス 4 5内において水平方向に設けられており、 真空通路 4 6は図示しな い真空ポンプ等の真空吸引装置に連結され、 また圧空通路 4 7は図示しな いコンプレッサー等の圧縮空気供給装置に連結されている。 真空ポンプの '働きで真空通路 4 6、 連通路 1 5及び通路 6内を減圧状態にすることがで き、 またコンプレッサーの働きで圧空通路 4 7に圧縮空気を供給し、 この 圧縮空気を連通路 1 5、 通路 6及び部材 2 5を通して型表面から吹き出す ことができる。  Inside the base 45, a vacuum passage 46 and a compressed air passage 47 are provided in communication with the communication passage 15. Both the vacuum passage 46 and the compressed air passage 47 are provided horizontally in the base 45, and the vacuum passage 46 is connected to a vacuum suction device such as a vacuum pump (not shown). The passage 47 is connected to a compressed air supply device such as a compressor (not shown). The pressure in the vacuum passage 46, the communication passage 15 and the passage 6 can be reduced by the function of the vacuum pump, and the compressed air is supplied to the compressed air passage 47 by the function of the compressor. It can be blown out of the mold surface through passage 15, passage 6, and member 25.
真空通路 4 6、 圧空通路 4 7はべ一ス 4 5内において連通路 1 5と連通 した垂直な通路として構成してもよい。 更にこの垂直な通路は真空通路 4 6と圧空通路 4 7とに区分した 2つの通路から構成しても或いは真空通路 4 6と圧空通路 4 7を 1つの通路として構成してもよい。 後者の場合、 1 つの通路を通して減圧したり、 或いは圧縮空気を供給することができる。 ベース 4 5の内部には加熱装置としてのヒータ 2 2が所定数埋設されてい る。  The vacuum passage 46 and the compressed air passage 47 may be formed as vertical passages communicating with the communication passage 15 in the base 45. Further, this vertical passage may be constituted by two passages divided into a vacuum passage 46 and a compressed air passage 47, or the vacuum passage 46 and the compressed air passage 47 may be constituted as one passage. In the latter case, the pressure can be reduced through a single passage or compressed air can be supplied. A predetermined number of heaters 22 as heating devices are embedded in the base 45.
上部プレス型 4 b、 4 c、 4 dはいずれも上記した上部プレス型 4 aと 同様な構造を有している。  Each of the upper press dies 4b, 4c, and 4d has the same structure as the above-described upper press dies 4a.
一方、 抄紙型 2は図 4に示すように、 型本体 1 9と支持部材 2 1と、 型 本体 1 9の表面に取り付けられた抄紙用のネット 1 7とからなり、 型本体 1 9は支持部材 2 1に支持されてべ一ス 4 2に固定されている。 ネット 1 7としてはパルプ原料液中の水分は通すがパルプ成分は通さない程度のメ ッシュを有する網体が用いられ、 通常、 1 5〜8 0メッシュの金網が用い られる。 金網の材料としてはステンレスや真鍮が用いられる。 On the other hand, as shown in FIG. 4, the papermaking mold 2 has a mold body 19, a support member 21 and a mold. It consists of a papermaking net 17 attached to the surface of the main body 19, and the mold main body 19 is supported by the support member 21 and fixed to the base 42. As the net 17, a mesh having a mesh that allows moisture in the pulp raw material liquid to pass but does not allow the pulp component to pass is used, and a wire mesh of 15 to 80 mesh is usually used. Stainless steel or brass is used as the material of the wire mesh.
抄紙型 2の内部に複数の通路 1 8が設けられ、 複数の通路 1 8はそれぞ れ型表面に開口しており、 従って通路 1 8の開口端はネット 1 7の微細孔 と連通している。 通路 1 8は含水抄造成形品の水分を透過させるためのも のであり、 複数の縦通路と横通路とからなり、 縦通路と横通路は交差部に おいて連通している。 通路 1 8の孔径は 0 . 5〜4 . 0匪であることが好 ましい。 孔径が 0 . 5匪未満であると目詰まりが生じて含水抄造成形品の 水分の透過に支障が生じる虞があり、 また孔径が 4 . 0匪を超えると含水 抄造成形品のパルプ成分が入り込む虞がある。  A plurality of passages 18 are provided inside the papermaking mold 2, and each of the plurality of passages 18 is open to the surface of the mold, so that the open end of the passage 18 communicates with the micropores of the net 17. I have. The passage 18 is a passage through which the moisture of the water-containing molded article is permeable, and is composed of a plurality of vertical passages and horizontal passages, and the vertical passages and the horizontal passages communicate at the intersection. Preferably the passage 18 has a pore diameter of 0.5 to 4.0. If the pore size is less than 0.5, it may cause clogging and impede the transmission of water through the hydrated molded article. If the pore size exceeds 4.0, the pulp component of the hydrated molded article may enter. There is a fear.
複数の通路 1 8は型の下方部で合流し、 この合流部はベース 4 2の内部 に設けた連通路 2 0に連通している。  The plurality of passages 18 join at a lower portion of the mold, and the joining portion communicates with a communication passage 20 provided inside the base 42.
ベース 4 2の内部には連通路 2 0に連通した真空通路 4 3が水平方向に 設けられており、真空通路 4 3は図示しない真空ポンプに連結されている。 真空通路 4 3はべ一ス 4 2内において、 連通路 2 0と連通した垂直な通路 として構成してもよい。  Inside the base 42, a vacuum passage 43 communicating with the communication passage 20 is provided horizontally, and the vacuum passage 43 is connected to a vacuum pump (not shown). The vacuum passage 43 may be configured as a vertical passage communicating with the communication passage 20 in the base 42.
図 4は上部プレス型 4 aと抄紙型 2とを型合わせした状態を示しており、 符号 1 1は上部プレス型 4 aと抄紙型 2とのクリアランスを示している。 従って、 上部プレス型 4 aと抄紙型 2とを型締めしたとき、 このクリアラ ンス 1 1に相当する厚さの含水抄造成形品が成形される。  FIG. 4 shows a state in which the upper press die 4a and the papermaking die 2 are matched, and reference numeral 11 denotes a clearance between the upper press die 4a and the papermaking die 2. Therefore, when the upper press mold 4a and the papermaking mold 2 are clamped, a water-containing papermaking molded article having a thickness corresponding to the clearance 11 is formed.
図 5に示すように、 ベース 5 0上面に支持固定された下部プレス型 5 a は内部に複数の通路 5 4を有している。 複数の通路 5 4はそれぞれ型表面 に開口し、 その開口端部に微細孔を形成してなる部材 2 6が埋め込まれて いる。 部材 2 6の構造は前記した上部プレス型 4 aに取り付けられる部材 2 5と同様の構造であり、 部材 2 6としてコアベントを用いることが好ま しい。 As shown in FIG. 5, the lower press die 5a supported and fixed on the upper surface of the base 50 has a plurality of passages 54 inside. Multiple passages 5 4 are each on the mold surface An opening 26 is formed, and a member 26 having a fine hole formed at the opening end is embedded therein. The structure of the member 26 is the same as that of the member 25 attached to the upper press die 4a, and it is preferable to use a core vent as the member 26.
複数の通路 5 4の下方端はそれぞれベース 5 0の内部に形成された連通 路 2 3に連通しており、 ベース 5 0の内部には連通路 2 3と連通して真空 通路 5 1及び圧空通路 5 2が設けられている。 これら真空通路 5 1、 圧空 通路 5 2はいずれもベース 5 0内において水平方向に設けられており、 真 空通路 5 1は図示しない真空ポンプ等の真空吸引装置に連結され、 また圧 空通路 5 2は図示しないコンプレッサー等の圧縮空気供給装置に連結され ている。 真空ポンプの働きで真空通路 5 1、 連通路 2 3及び通路 5 4内を 減圧状態にすることができ、 またコンプレッサーの働きで圧空通路 5 2に 圧縮空気を供給し、 この圧縮空気を連通路 2 3、 通路 5 4及び部材 2 6を 通して型表面から吹き出すことができる。  The lower end of each of the plurality of passages 54 communicates with a communication passage 23 formed inside the base 50, and the inside of the base 50 communicates with the communication passage 23 to form the vacuum passage 51 and the compressed air. A passage 52 is provided. Both the vacuum passage 51 and the compressed air passage 52 are provided horizontally in the base 50, and the vacuum passage 51 is connected to a vacuum suction device such as a vacuum pump (not shown). Reference numeral 2 is connected to a compressed air supply device such as a compressor (not shown). The inside of the vacuum passage 51, the communication passage 23 and the passage 54 can be reduced in pressure by the function of the vacuum pump, and the compressed air is supplied to the compressed air passage 52 by the function of the compressor. 23, it can be blown out from the mold surface through the passage 54 and the member 26.
真空通路 5 1、 圧空通路 5 2はべ一ス 5 0内において連通路 2 3と連通 した垂直な通路として設けてもよい。 更にこの垂直な通路は真空通路 5 1 と圧空通路 5 2とに区分した 2つの通路から構成しても或いは真空通路 5 1と圧空通路 5 2を 1つの通路として構成してもよい。 後者の場合、 1つ の通路を通して減圧したり、 或いは圧縮空気を供給することができる。 ベ ース 5 0の内部には加熱装置としてのヒー夕 2 4が所定数埋設されている。 下部プレス型 5 b、 5 cはいずれも上記した下部プレス型 5 aと同様な 構造を有している。  The vacuum passage 51 and the compressed air passage 52 may be provided in the base 50 as a vertical passage communicating with the communication passage 23. Further, the vertical passage may be constituted by two passages divided into a vacuum passage 51 and a compressed air passage 52, or the vacuum passage 51 and the compressed air passage 52 may be constituted as one passage. In the latter case, the pressure can be reduced through a single passage or compressed air can be supplied. A predetermined number of heaters 24 as heating devices are buried inside the base 50. Each of the lower press dies 5b and 5c has the same structure as the above-described lower press dies 5a.
図 5は上部プレス型 4 aと下部プレス型 5 aとを型合わせした状態を示 しており、 符号 1 6は上部プレス型 4 aと下部プレス型 5 aとのクリアラ ンスを示している。 従って、 上部プレス型 4 aと下部プレス型 5 aとを型 締めしたとき、 このクリアランス 1 6に相当する厚さの含水抄造成形品が 成形される。 FIG. 5 shows a state in which the upper press die 4a and the lower press die 5a are mated, and reference numeral 16 denotes a clearance between the upper press die 4a and the lower press die 5a. Therefore, the upper press die 4a and the lower press die 5a are When tightened, a water-containing paper-molded article having a thickness corresponding to the clearance 16 is formed.
抄紙型 2における型本体 1 9、 上部プレス型 4 a、 4 b、 4 c、 4 d及 び下部プレス型 5 a、 5 b、 5 cの材質は一般的に金属であるが、 弾性材 料であってもよい。金属としては、 アルミニウム、 ニッケル等が挙げられ、 また弾性材料としてはゴム、 弾性合成樹脂、 合成樹脂発泡体等が挙げられ る。 上部プレス型 4 a、 4 b、 4 c、 4 d及び下部プレス型 5 a、 5 b、 5 cのそれぞれの型表面には、 型表面と成形品との摩擦抵抗を減らして成 形品の取り出し時に離型を良好にするためフッ素樹脂加工をすることが好 ましい。  The material of the mold body 19 in the papermaking mold 2, the upper press dies 4a, 4b, 4c, 4d and the lower press dies 5a, 5b, 5c is generally a metal, but an elastic material. It may be. Examples of the metal include aluminum and nickel, and examples of the elastic material include rubber, elastic synthetic resin, and synthetic resin foam. The surface of each of the upper press dies 4a, 4b, 4c, 4d and the lower press dies 5a, 5b, 5c is provided with a molded product by reducing the frictional resistance between the mold surface and the molded product. Fluororesin processing is preferred for good release during removal.
上記の実施形態は抄紙型 2が凸型、 上部プレス型 4 a、 4 b、 4 c、 4 dが凹型、 更に下部プレス型 5 a、 5 b、 5 cが凸型としてそれぞれ構成 されている場合を示しているが、 本発明の別の実施形態として、 抄紙型 2 を凹型、 上部プレス型 4 a、 4 b、 4 c、 4 dを凸型、 更に下部プレス型 5 a、 5 b、 5 cを凹型としてそれぞれ構成してもよい。 - 本発明の抄造成形品の製造方法は抄紙成形工程、 乾燥成形工程及び成形 品取出し工程からなる。 抄紙成形は抄紙成形ゾーン Aに配置された抄紙型 2及び上部プレス型 4 aによって行われる。 抄紙型 2を抄紙槽 7のパルプ 原料液 8内に浸漬すると共に、 真空通路 4 3に連結された真空ポンプを作 動して抄紙型 2の内部を減圧状態にし、 この減圧状態のまま抄紙型 2を上 昇させパルプ原料液 8の液面より上方に位置させる(図 6 a )。 これにより 抄紙型 2のネッ卜 1 7上にパルプ成分が抄き取られ、 抄紙型 2の形状に対 応した形状の含水抄造物 2 7が形成される。  In the above embodiment, the papermaking mold 2 is configured as a convex type, the upper press dies 4a, 4b, 4c, and 4d are configured as a concave type, and the lower press dies 5a, 5b, and 5c are configured as a convex type. Although the case is shown, as another embodiment of the present invention, the papermaking mold 2 is concave, the upper press dies 4a, 4b, 4c, and 4d are convex, and the lower press dies 5a, 5b, 5c may be configured as a concave shape. -The method for producing a molded article of the present invention comprises a papermaking molding step, a drying molding step, and a molded article removal step. Papermaking is performed by the papermaking mold 2 and the upper press mold 4a arranged in the papermaking zone A. The papermaking mold 2 is immersed in the pulp raw material liquid 8 in the papermaking tank 7, and the inside of the papermaking mold 2 is depressurized by operating the vacuum pump connected to the vacuum passage 43. 2 is raised to a position above the liquid level of the pulp raw material liquid 8 (FIG. 6a). As a result, the pulp component is taken out on the net 17 of the papermaking mold 2 to form a hydrated paper 27 having a shape corresponding to the shape of the papermaking mold 2.
抄紙型 2はこの含水抄造物 2 7を真空吸引しながら上昇するので、 上昇 運動の間、 含水抄造物 2 7中の水分は吸引脱水される。 即ち、 含水抄造物 2 7中の水分はネット 1 7を通して型内部に吸引され、 通路 1 8内に導か れる。 通路 1 8を通して型下方に導かれた水分は連通路 2 0を経て真空通 路 4 3に導かれ、 排出通路を通って型外方に排出される。 Since the papermaking mold 2 rises while vacuum-sucking the hydrated paper 27, the water in the hydrated paper 27 is sucked and dehydrated during the upward movement. That is, hydrated paper The water in 27 is sucked into the mold through the net 17 and guided into the passage 18. The water guided to the lower side of the mold through the passage 18 is guided to the vacuum passage 43 via the communication passage 20 and discharged to the outside of the mold through the discharge passage.
含水抄造物 2 7を吸引保持してなる抄紙型 2は、 含水抄造物 2 7が上部 プレス型 4 aと接触して該含水抄造物 2 7を上部プレス型 4 aと抄紙型 2 とにより押圧する位置まで上昇を続け、 上部プレス型 4 aと抄紙型 2との 間のクリアランス設定値に基づき所定位置で停止する。  The papermaking mold 2 holding the hydrated paper 27 was held by suction, and the hydrated paper 27 was brought into contact with the upper press mold 4a and the hydrated paper 27 was pressed by the upper press mold 4a and the papermaking mold 2. The upper press die 4a and the papermaking die 2 to stop at a predetermined position based on the clearance set value.
含水抄造物 2 7は上部プレス型 4 aと抄紙型 2との間に挟まれて押圧さ れ(図 6 b )、 それにより型通りの形状に押圧成形され、 含水抄造成形品 1 2が得られる。  The hydrated paper product 27 is sandwiched between the upper press mold 4a and the papermaking mold 2 and pressed (FIG. 6b), whereby the hydrated paper product 27 is pressed and shaped into the shape as it is, and a hydrated paper product 12 is obtained. Can be
上部プレス型 4 aと抄紙型 2とによる脱水乾燥処理に当たって、 上記し た抄紙型 2による吸引脱水が行なわれる他、 上部プレス型 4 aにおける吸 引脱水及び加熱が行なわれる。 真空通路 4 6に連結された真空ポンプを作 動して上部プレス型 4 a内を減圧状態にし、 含水抄造成形品 1 2中の水分 を吸引脱水する。 即ち、 含水抄造成形品 1 2中の水分は部材 2 5を通して 型内部に吸引され、 通路 6内に導かれる。 通路 6を通して型上方に導かれ た水分は連通路 1 5を経て真空通路 4 6に導かれ、 排出通路を通って型外 方に排出される。  In the dehydration and drying treatment by the upper press mold 4a and the papermaking mold 2, suction dehydration and heating in the upper press mold 4a are performed in addition to the suction dehydration by the papermaking mold 2 described above. By operating a vacuum pump connected to the vacuum passage 46, the inside of the upper press die 4a is depressurized, and the water in the water-containing molded article 12 is suctioned and dehydrated. That is, the water in the hydrated papermaking molded product 12 is sucked into the mold through the member 25 and guided into the passage 6. The moisture guided upward through the mold through the passage 6 is guided into the vacuum passage 46 via the communication passage 15 and discharged to the outside of the mold through the discharge passage.
また上部プレス型 4 aはヒー夕 2 2によって加熱され、 これにより含水 抄造成形品 1 2は加熱乾燥される。 加熱により生じた水蒸気は部材 2 5— 通路 6—連通路 1 5—真空通路 4 6を経て排出通路を通り、 型外方に排出 される。 ヒ一夕 2 2による上部プレス型 4 aの加熱温度は 1 0 0 〜2 5 0 °Cが好ましく、 また吸引脱水を行うときの上部プレス型 4 aと抄紙型 2 における真空度は共に 7 0 0〜1 O mmH gが好ましい。  Further, the upper press mold 4a is heated by the heater 22 so that the hydrated paper molded article 12 is heated and dried. The water vapor generated by the heating is discharged through the discharge passage through the member 25—passage 6—communication passage 15—vacuum passage 46 and discharged to the outside of the mold. The heating temperature of the upper press mold 4 a by the heat press 22 is preferably 100 to 250 ° C., and the vacuum degree of the upper press mold 4 a and the papermaking mold 2 when performing suction dehydration are both 70 ° C. 0-1 O mmHg is preferred.
上部プレス型 4 aと抄紙型 2とによる脱水乾燥によって含水抄造成形品 1 2の含水率は約 3 0 - 7 0重量%となる。 この抄紙成形工程終了後、 抄 紙型 2は下降して上部プレス型 4 aより離れ、 抄紙槽 7における旧位置に 復帰する。 このとき、 含水抄造成形品 1 2は上部プレス型 4 aに吸引保持 された状態となる (図 6 c )。 A hydrated paper-formed product by dehydration and drying using the upper press die 4a and the papermaking die 2. The moisture content of 12 is about 30-70% by weight. After completion of the papermaking process, the papermaking mold 2 descends and separates from the upper press mold 4a, and returns to the old position in the papermaking tank 7. At this time, the hydrated papermaking molded product 12 is in a state of being suction-held by the upper press mold 4a (FIG. 6c).
次いで、 駆動装置 9が作動して回転軸 3 1を回転させ、 それにより支持 体 3を回転角度ひが 9 0 ° となるよう回転させる。 この支持体 3の回転に より上部プレス型 4 aが円周方向に移動し、 第 1乾燥成形ゾーン Bにおけ る下部プレス型 5 aの上方位置に変位する。 このとき同時に上部プレス型 4 が第 2乾燥成形ゾーン Cにおける下部プレス型 5 bの上方位置に変位 し、 上部プレス型 4 cが第 3乾燥成形ゾーン Dにおける下部プレス型 5 c の上方位置に変位し、 且つ上部プレス型 4 dが抄紙成形ゾーン Aにおける 抄紙型 2の上方位置に変位し、 それぞれ各ゾーンにおける処理が同期して 行なわれる。  Next, the driving device 9 is operated to rotate the rotation shaft 31, thereby rotating the support 3 so that the rotation angle becomes 90 °. Due to the rotation of the support 3, the upper press die 4a moves in the circumferential direction, and is displaced to a position above the lower press die 5a in the first dry forming zone B. At this time, the upper press die 4 is simultaneously displaced to a position above the lower press die 5b in the second dry molding zone C, and the upper press die 4c is displaced to a position above the lower press die 5c in the third dry molding zone D. Then, the upper press mold 4d is displaced to a position above the papermaking mold 2 in the papermaking molding zone A, and the processing in each zone is performed in synchronization.
上部プレス型 4 aが第 1乾燥成形ゾーン Bにおける下部プレス型 5 aの 上方位置に変位したとき、 下部プレス型 5 aを上方に移動させる。 下部プ レス型 5 aは上部プレス型 4 aに保持されている含水抄造成形品 1 2と接 触してこれを押圧するまで上昇を続け、 上部プレス型 4 aと下部プレス型 5 aとの間のクリアランス設定値に基づき所定位置で停止する。  When the upper press die 4a is displaced to a position above the lower press die 5a in the first dry forming zone B, the lower press die 5a is moved upward. The lower press mold 5a keeps ascending until it comes into contact with and presses the hydrated paper-formed molded product 12 held by the upper press mold 4a, and the upper press mold 4a and the lower press mold 5a It stops at a predetermined position based on the clearance set value between them.
含水抄造成形品 1 2は上部プレス型 4 aと下部プレス型 5 aとの間に挟 まれて加圧され、 加熱プレスされる (図 7 )。  The hydrated paper molded product 12 is sandwiched between the upper press die 4a and the lower press die 5a, pressed and heated and pressed (Fig. 7).
上部プレス型 4 aは含水抄造成形品 1 2を保持している間も吸引及び加 熱を行なっているが、 下部プレス型 5 aとの型合わせ後も引き続き吸引及 び加熱を継続する。 この上部プレス型 4 aによる吸引、 加熱機構は既に図 4を参照して説明した通りである。  While the upper press die 4a holds and heats the hydrated papermaking molded product 12 while holding the same, the suction and heating are continued after the lower press die 5a is matched. The suction and heating mechanism by the upper press die 4a is as described with reference to FIG.
一方、 下部プレス型 5 aはこの型合わせ後において吸引及び加熱を開始 する。 この下部プレス型 5 aにおける吸引機構及び加熱機構は図 5に示さ れている。 即ち、 下部プレス型 5 aにおける真空通路 5 1に連結された真 空ポンプを作動して下部プレス型 5 a内を減圧状態にし; 含水抄造成形品 1 2中の水分を吸引脱水する。 含水抄造成形品 1 2中の水分は部材 2 6を 通して型内部に吸引され、 通路 5 4内に導かれる。 通路 5 4を通して型下 方に導かれた水分は連通路 2 3を経て真空通路 5 1に導かれ、 排出通路を 通って型外方に排出される。 On the other hand, the lower press die 5a starts suction and heating after this die alignment. I do. FIG. 5 shows the suction mechanism and the heating mechanism in the lower press die 5a. That is, the vacuum pump connected to the vacuum passage 51 in the lower press mold 5a is operated to make the inside of the lower press mold 5a in a reduced pressure state; The water in the water-containing molded article 12 is sucked into the mold through the member 26 and guided into the passage 54. The water guided to the lower side of the mold through the passage 54 is guided to the vacuum passage 51 through the communication passage 23, and is discharged to the outside of the mold through the discharge passage.
また下部プレス型 5 aはヒータ 2 4によって加熱され、 これにより含水 抄造成形品 1 2は加熱乾燥される。 加熱により生じた水蒸気はコアベント 2 6—通路 5 4—連通路 2 3—真空通路 5 1を経て排出通路を通り、 型外 方に排出される。 ヒー夕 2 4による下部プレス型 5 aの加熱温度は 1 0 0 °C〜 2 5 0 °Cが好ましく、 また下部プレス型 5 aの真空度は 7 0 0〜 1 O mmH gが好ましい。  Further, the lower press mold 5a is heated by the heater 24, whereby the hydrated paper molded article 12 is heated and dried. The water vapor generated by the heating is discharged through the core vent 26-passage 54-communication passage 23-vacuum passage 51 through the discharge passage to the outside of the mold. The heating temperature of the lower press die 5a by the heater 24 is preferably 100 ° C. to 250 ° C., and the degree of vacuum of the lower press die 5a is preferably 700 to 10 mmHg.
この乾燥成形工程における上部プレス型 4 aの加熱温度は 1 0 0 〜2 5 0 °Cが好ましく、 また真空度は 7 0 0〜1 O mmH gが好ましい。  The heating temperature of the upper press die 4a in this dry forming step is preferably 100 to 250 ° C, and the degree of vacuum is preferably 700 to 1 OmmHg.
上部プレス型 4 aと下部プレス型 5 aとによる加熱プレスが終了した後、 含水抄造成形品 1 2を上部プレス型 4 aに吸引保持した状態でシリンダー 3 4を作動して下部プレス型 5 aを僅かに下方に移動させ、 上部プレス型 4 aと下部プレス型 5 aとを所定間隔離間させる (図 8 a )。次いで、 コン プレッサ一を作動させて上部プレス型 4 aの圧空通路 4 7より圧縮空気を 送り込み、連通路 1 5及び通路 6を経由して部材 2 5から空気を吹き出す。 上部プレス型 4 aはヒー夕 2 2によって加熱されているので通路 6内を流 れる空気も加熱され、 従って上部プレス型 4 aから加熱された空気が吹き 出す。 上部プレス型 4 aによる加熱された空気の吹き付けと同時に下部プ レス型 5 aからは真空吸引が行なわれる。 それにより含水抄造成形品 1 2 は上部プレス型 4 aより離型し、 下部プレス型 5 aに吸引保持される (図 8 b ) 0 After the heating press by the upper press die 4a and the lower press die 5a is completed, the cylinder 34 is operated while the hydrated papermaking molded product 12 is suction-held in the upper press die 4a, and the lower press die 5a is operated. Is slightly moved downward to separate the upper press die 4a and the lower press die 5a by a predetermined distance (FIG. 8a). Next, by operating the compressor, compressed air is sent from the compressed air passage 47 of the upper press die 4a, and air is blown out of the member 25 via the communication passage 15 and the passage 6. Since the upper press mold 4a is heated by the heater 22, the air flowing in the passage 6 is also heated, and thus the heated air blows out from the upper press mold 4a. Simultaneously with the blowing of heated air by the upper press mold 4a, vacuum suction is performed from the lower press mold 5a. As a result, the hydrated paper molding 1 2 And the release from the upper press mold 4 a, is sucked and held on the lower press die 5 a (FIG. 8 b) 0
次いで下部プレス型 5 aから圧縮空気を供給する。 即ち、 コンプレッサ 一を作動させて下部プレス型 5 aの圧空通路 5 2より圧縮空気を送り込み、 連通路 2 3及び通路 5 4を経由して部材 2 6から空気を吹き出す。 下部プ レス型 5 aはヒー夕 2 4によって加熱されているので通路 5 4内を流れる 空気も加熱され、従って下部プレス型 5 aから加熱された空気が吹き出す。 下部プレス型 5 aによる加熱された空気の吹き付けと同時に上部プレス型 4 aからは真空吸引が行なわれる。 それにより含水抄造成形品 1 2は下部 プレス型 5 aより離型し、上部プレス型 4 aに吸引保持される(図 8 c )。 次に再び上部プレス型 4 aより加熱された空気の吹き付けを行なうと共に、 下部プレス型 5 aから真空吸引を行なう。  Next, compressed air is supplied from the lower press die 5a. That is, the compressor 1 is operated to feed compressed air from the compressed air passage 52 of the lower press die 5a, and to blow air from the member 26 via the communication passage 23 and the passage 54. Since the lower press mold 5a is heated by the heater 24, the air flowing in the passage 54 is also heated, and thus the heated air blows out from the lower press mold 5a. Simultaneously with the blowing of heated air by the lower press die 5a, vacuum suction is performed from the upper press die 4a. As a result, the hydrated papermaking molded product 12 is released from the lower press die 5a and is suction-held by the upper press die 4a (FIG. 8c). Next, the heated air is blown again from the upper press die 4a, and vacuum suction is performed from the lower press die 5a.
このように加熱空気吹き付けと真空吸引を上部プレス型 4 a、 下部プレ ス型 5 a間で交互に切り換えて行なうことにより、 含水抄造成形品 1 2は 上部プレス型 4 aと下部プレス型 5 aの間を上下に揺動する。 この含水抄 造成形品 1 2の上下揺動を数回繰り返して行なう。  In this way, by switching between hot air blowing and vacuum suction alternately between the upper press die 4a and the lower press die 5a, the hydrated papermaking molded product 1 2 becomes the upper press die 4a and the lower press die 5a. Swing up and down between. The up-and-down swing of the water-containing molded article 12 is repeated several times.
上記した含水抄造成形品の上下揺動処理によって含水抄造成形品 1 2の 加熱乾燥を効率よく行なえると共に、 含水抄造成形品 1 2の離型を良好に 行なえる。 即ち、 含水抄造成形品 1 2が上下揺動する際、 上部プレス型 4 aまたは下部プレス型 5 aにおける型表面から加熱された空気が含水抄造 成形品 1 2に吹き付けられるので該含水抄造成形品 1 2の加熱乾燥が促進 される。また含水抄造成形品 1 2の上下揺動により、空気の拡散が起こり、 含水抄造成形品 1 2の表面に滞留している水蒸気が逸散し、 このことから も含水抄造成形品 1 2の乾燥が一段と促進される。  By performing the above-mentioned vertical shaking treatment of the hydrated paper molded article, the hydrated paper molded article 12 can be efficiently heated and dried, and the hydrated paper molded article 12 can be successfully released from the mold. That is, when the hydrated paper-molded article 12 swings up and down, the air heated from the mold surface in the upper press die 4a or the lower press mold 5a is blown to the hydrated paper-molded molded article 12, so that the hydrated paper-molded article 12 Heat drying of 12 is promoted. In addition, the vertical movement of the hydrated molded article 12 causes air to diffuse, and the water vapor remaining on the surface of the hydrated molded article 12 escapes. Is further promoted.
また含水抄造成形品 1 2を上下揺動させることにより、 該成形品 1 2が 複雑な形状を有する等の離型を困難にする性質を有していたとしても離型 が容易となり、 最終工程で行なわれる成形品の型からの取り出しを容易に 行なうことができる。 Also, by oscillating the hydrated paper-made molded article 12 up and down, the molded article 12 becomes Even if it has a property that makes mold release difficult such as having a complicated shape, it is easy to release, and it is possible to easily take out a molded product from the mold in the final step.
含水抄造成形品 1 2の上下揺動工程終了後、 含水抄造成形品 1 2を上部 プレス型 4 aに吸引保持させ且つ下部プレス型 5 aを下方に移動して該下 部プレス型 5 aを旧位置に復帰させる (図 9 )。  After the up-and-down swinging step of the hydrated paper-formed product 12, the hydrated paper-formed product 12 is sucked and held by the upper press die 4 a and the lower press die 5 a is moved downward to remove the lower press die 5 a. Return to the old position (Fig. 9).
次いで支持体 3が回転して上部プレス型 4 aは含水抄造成形品 1 2を保 持した状態で第 2乾燥成形ゾーン Cにおける下部プレス型 5 bの上方位置 に変位し、 この時、 下部プレス型 5 bが上方に移動する。 上部プレス型 4 aと下部プレス型 5 bとの間のクリアランス設定値に基づき下部プレス型 5 bは所定位置で停止する。  Next, the support 3 is rotated, and the upper press die 4a is displaced to a position above the lower press die 5b in the second dry forming zone C while holding the hydrated papermaking molded product 12; The mold 5b moves upward. The lower press die 5b stops at a predetermined position based on a clearance set value between the upper press die 4a and the lower press die 5b.
この上部プレス型 4 aと下部プレス型 5 bとの型合わせにより含水抄造 成形品 1 2は上部プレス型 4 aと下部プレス型 5 bとの間に挟まれて加圧 され、 加熱プレスされる。 この加熱プレス時に上部プレス型 4 aと下部プ レス型 5 bとにおいてそれぞれ吸引及び加熱が行なわれるが、 下部プレス 型 5 bの構造は下部プレス型 5 aと同一構造なので上部プレス型 4 aと下 部プレス型 5 bにおける吸引機構及び加熱機構は図 5に示す吸引機構及び 加熱機構と同様である。 '  By the combination of the upper press die 4a and the lower press die 5b, the hydrated papermaking molded product 12 is sandwiched between the upper press die 4a and the lower press die 5b, pressed and heated and pressed. . During this hot pressing, suction and heating are performed in the upper press die 4a and the lower press die 5b, respectively. However, since the structure of the lower press die 5b is the same as that of the lower press die 5a, the upper press die 4a and the lower press die 5a have the same structure. The suction mechanism and the heating mechanism in the lower press die 5b are the same as the suction mechanism and the heating mechanism shown in FIG. '
この上部プレス型 4 aと下部プレス型 5 bとによる乾燥成形によって更 に含水率の低下した含水抄造成形品が得られる。  Dry molding using the upper press die 4a and the lower press die 5b yields a water-containing paper-formed product having a further reduced moisture content.
上部プレス型 4 aと下部プレス型 5 bとによる加熱プレスが終了した後、 上部プレス型 4 aと下部プレス型 5 bを僅かに離間させ、 上記したと同様 の方法で空気吹き付けと真空吸引を上部プレス型 4 a、 下部プレス型 5 b 間で交互に切り換えて行ない、 含水抄造成形品 1 2を上下に揺動させる。 含水抄造成形品 1 2の上下揺動工程終了後、 含水抄造成形品 1 2を上部 プレス型 4 aに吸引保持させ且つ下部プレス型 5 bを下方に移動して、 該 下部プレス型 5 bを旧位置に復帰させる。 After the heating press using the upper press die 4a and the lower press die 5b is completed, the upper press die 4a and the lower press die 5b are slightly separated, and air blowing and vacuum suction are performed in the same manner as described above. It is alternately switched between the upper press die 4a and the lower press die 5b, and the hydrated paper molded product 12 is swung up and down. After the up-and-down swing process of the hydrated molded article 1 2, the hydrated molded article 1 2 is moved upward. The press die 4a is sucked and held, and the lower press die 5b is moved downward to return the lower press die 5b to the old position.
次いで支持体 3が回転して上部プレス型 4 aは含水抄造成形品 1 2を保 持した状態で第 3乾燥成形ゾーン Dにおける下部プレス型 5 cの上方位置 に変位し、 この時、 下部プレス型 5 cが上方に移動する。 上部プレス型 4 aと下部プレス型 5 cとの間のクリアランス設定値に基づき下部プレス型 5 cは所定位置で停止する。  Next, the support 3 is rotated, and the upper press die 4a is displaced to a position above the lower press die 5c in the third dry molding zone D while holding the wet papermaking molded product 12; The mold 5c moves upward. The lower press die 5c stops at a predetermined position based on a clearance set value between the upper press die 4a and the lower press die 5c.
上部プレス型 4 aと下部プレス型 5 cとの型合わせによって含水抄造成 形品 1 2は上部プレス型 4 aと下部プレス型 5 cとの間に挟まれて加圧さ れ、 加熱プレスされる。 この加熱乾燥工程において、 前述したと同様な機 構 (図 5に示す機構) で吸引及び加熱が行なわれる。  By combining the upper press mold 4a and the lower press mold 5c, the wet formed article 12 is sandwiched between the upper press mold 4a and the lower press mold 5c, pressed and heated and pressed. You. In this heating and drying step, suction and heating are performed by the same mechanism as described above (the mechanism shown in FIG. 5).
上記した上部プレス型 4 aと下部プレス型 5 cとによる加熱プレスが終 了した後、 上部プレス型 4 aと下部プレス型 5 cを僅かに離間させ、 前述 したと同様な方法で空気吹き付けと真空吸引を上部プレス型 4 a、 下部プ レス型 5 c間で交互に切り換えて行ない、 含水抄造成形品 1 2を上下に揺 動させる。  After the heating press by the upper press die 4a and the lower press die 5c is completed, the upper press die 4a and the lower press die 5c are slightly separated from each other, and air blowing is performed in the same manner as described above. Vacuum suction is alternately switched between the upper press mold 4a and the lower press mold 5c, and the hydrated paper molded product 12 is swung up and down.
この実施形態においては、 第 3乾燥成形ゾーン Dにおいて乾燥成形工程 が終了し、 最終成形品である抄造成形品 2 8が得られる。 この抄造成形品 2 8の含水率は 0〜 1 0重量%となる。  In this embodiment, the dry molding step is completed in the third dry molding zone D, and a final molded article, a paper molded article 28, is obtained. The moisture content of the paper-formed article 28 is 0 to 10% by weight.
得られた抄造成形品 2 8を上部プレス型 4 aに吸引保持させ且つ下部プ レス型 5 cを更に下方に移動させて該下部プレス型 5 cを旧位置に復帰さ せる。 この下部プレス型 5 cの下方移動に合わせて、 成形品受取り装置 3 6の受けテーブル 3 5が前方に移動して上部プレス型 4 aの下方位置に達 したところで停止する。  The obtained molded article 28 is sucked and held by the upper press die 4a, and the lower press die 5c is further moved downward to return the lower press die 5c to the old position. In accordance with the downward movement of the lower press die 5c, the receiving table 35 of the molded article receiving device 36 moves forward and stops when it reaches a position below the upper press die 4a.
次いで上部プレス型 4 aの圧空通路 4 7より圧縮空気が供給され、 部材 2 5を介して上部プレス型 4 a表面より空気が吹き出される。 これによつ て抄造成形品 2 8が上部プレス型 4 aより離型し、 下方の受けテ一ブル 3 5上に落下する(図 1 0 )。本発明は含水抄造成形品 1 2に対する上下揺動 を行なうので抄造成形品 2 8の上部プレス型 4 aからの取り出しは容易に 行なわれる。 Next, compressed air is supplied from the compressed air passage 47 of the upper press die 4a, Air is blown out from the surface of the upper press die 4a through 25. As a result, the molded article 28 is released from the upper press mold 4a, and falls onto the lower receiving table 35 (FIG. 10). In the present invention, since the hydrated paper-formed product 12 is vertically swung, the paper-formed product 28 can be easily removed from the upper press die 4a.
抄造成形品の受けテーブル 3 5は抄造成形品 2 8を受け取った後、 後方 に移動する。 受けテーブル 3 5が元の位置に復帰した時点か或いは後方に 移動する途中で該受けテーブル 3 5を傾斜して抄造成形品 2 8を下方に落 下させる。 抄造成形品 2 8が落下する下方位置にはベルトコンベア一等の 搬送装置が設置され、 落下する抄造成形品 2 8を受け取って次工程に搬送 する。  After receiving the molded article 28, the receiving table 35 for the molded article moves backward. When the receiving table 35 returns to the original position or while moving backward, the receiving table 35 is inclined to lower the paper-formed product 28 downward. A transport device such as a belt conveyor is installed at a lower position where the molded article 28 falls, and receives the dropped molded article 28 and transports it to the next process.
含水抄造成形品の上下揺動工程において、 上部プレス型と下部プレス型 を離間させる距離は大きく設定する必要はなく、 含水抄造成形品が上下動 するに必要な僅かな間隔を設ければよい。 該離間間隔は 1〜1 0 mmが好 ましい。 また上下揺動の回数は必要に応じて任意に決定できるが、 1〜1 0回が好ましい。 またこの上下揺動操作は複数の乾燥成形工程毎に、 即ち 一つの加熱プレス処理後、 次の加熱プレス処理に移る前に毎回行なうこと が好ましいが、 工程の一部において行なってもよい。 例えば、 成形品の離 型を容易に行うことだけを目的とする場合には、 複数の乾燥成形工程のう ち最後の乾燥成形工程においてのみ成形品の上下揺動操作を行なうように してもよい。  In the up-and-down swinging process of the hydrated paper-formed product, the distance for separating the upper press die and the lower press die does not need to be set large, and a small interval necessary for the hydrated paper-formed product to move up and down may be provided. The spacing is preferably 1 to 10 mm. The number of vertical swings can be arbitrarily determined as needed, but is preferably 1 to 10 times. The vertical swinging operation is preferably performed in each of a plurality of dry forming steps, that is, every time after one heating press processing and before moving to the next heating press processing, but may be performed in a part of the steps. For example, if the purpose is only to easily release the molded product, the vertical swing operation of the molded product may be performed only in the last dry molding process among the multiple dry molding processes. Good.
上記した本発明の実施形態は含水抄造成形品を円周方向に移送して複数 段階の加熱乾燥を行うロータリー方式を採用しているが、 本発明はこの口 一夕リー方式のみに適用されるものではなく、 含水抄造成形品を水平方向 に移送して複数段階の加熱乾燥を行う直線方式のものにも適用することが 可能である。 The above-described embodiment of the present invention employs a rotary system in which a hydrated papermaking molded product is transferred in the circumferential direction to perform heating and drying in a plurality of stages. However, the present invention is applied only to this mouth-to-mouth system. However, it can also be applied to a linear type in which a hydrated paper-made molded product is transferred in the horizontal direction and heated and dried in multiple stages. It is possible.
本発明により製造される抄造成形品として、 小型電気製品、 精密機械類 の包装用容器や、 卵等の食品の包装用容器或いは包装用緩衝材等が挙げら れる。 産業上の利用可能性  Examples of the molded article manufactured by the present invention include small electrical appliances, containers for packaging precision machinery, containers for packaging food such as eggs, and cushioning materials for packaging. Industrial applicability
本発明によれば抄造成形品の製造に当たって加熱乾燥を効率良く行うこ とができ、 しかも成形品の離型が容易となるので、 生産能率を向上させる 点から包装用容器等の抄造成形に有益である。  ADVANTAGE OF THE INVENTION According to this invention, it can heat-dry efficiently at the time of manufacture of a molded article, and since it is easy to release a molded article, it is useful for the sheet molding of packaging containers etc. from the viewpoint of improving production efficiency. It is.

Claims

請求の範囲 The scope of the claims
1 . 抄紙型をパルプ原料液に浸漬し、 パルプ成分を抄き取って抄紙型上 に含水抄造物を形成し、 該含水抄造物を抄紙型と上部プレス型との間に挟 んで脱水乾燥を行い含水抄造成形品を製造し、 該含水抄造成形品を上部プ レス型と下部プレス型との間に挟んで加熱乾燥を行い抄造成形品を製造す る抄造成形品の製造方法において、 含水抄造成形品を上部プレス型と下部 プレス型との間に挟んで加熱プレスを行った後、 上部プレス型と下部プレ ス型を離間して含水抄造成形品が上下動できる間隔を設け、上部プレス型、 下部プレス型のうちの一方のプレス型から含水抄造成形品に圧縮空気を吹 き付け、 他方のプレス型において含水抄造成形品を真空吸引し、 上記空気 吹き付けと真空吸引を上部プレス型、 下部プレス型間で交互に切り換えて 行なうことを特徴とする抄造成形品の製造方法。 1. The papermaking mold is immersed in the pulp raw material liquid, the pulp component is removed to form a water-containing papermaking product on the papermaking die, and the water-containing papermaking product is sandwiched between the papermaking die and the upper press die to be dehydrated and dried. And producing a wet molded article by sandwiching the wet molded article between an upper press die and a lower press mold and heating and drying to produce the wet molded article. After pressing the molded product between the upper press die and the lower press die and performing hot pressing, the upper press die and the lower press die are separated, and a space is provided to allow the hydrated papermaking molded product to move up and down. Compressed air is blown from one of the lower press dies to the hydrated paper-formed product, and the other press die is evacuated to the hydrated paper-formed product by vacuum. Alternating between press dies Method of manufacturing a papermaking molded article, characterized in that performed.
2 . 上部プレス型から含水抄造成形品に圧縮空気を吹き付ると共に、 下 部プレス型において含水抄造成形品を真空吸引して含水抄造成形品を下部 プレス型に吸引保持させ、 次いで、 下部プレス型から含水抄造成形品に圧 縮空気を吹き付けると共に、 上部プレス型において含水抄造成形品を真空 吸引して含水抄造成形品を上部プレス型に吸引保持させ、 以後、 上記した 含水抄造成形品の下部プレス型への吸引保持及び上部プレス型への吸引保 持を交互に繰り返し行なう請求の範囲第 1項記載の抄造成形品の製造方法。 2. A compressed air is blown from the upper press mold to the hydrated paper-formed article, and the hydrated paper-formed article is sucked and held in the lower press mold by the lower press die, and then the lower press is pressed. Compressed air is blown from the mold to the hydrated paper-formed product, and the hydrated paper-formed product is sucked and held in the upper press mold by vacuum suction in the upper press die. 2. The method for producing a paper-molded article according to claim 1, wherein the suction holding to the press die and the suction holding to the upper press die are alternately repeated.
3 . 上部プレス型と下部プレス型のそれぞれの内部に型表面に開口する 複数の通路を設け、 該通路を通して圧縮空気の吹き付け及び真空吸引を行 なう請求の範囲第 1項又は第 2項記載の抄造成形品の製造方法。 3. The method according to claim 1 or 2, wherein a plurality of passages are provided in the upper press die and the lower press die, each opening to the surface of the die, and the compressed air is blown and vacuumed through the passages. The method for producing a sheet-formed article.
4 . 上部プレス型を支持固定するべ一スに圧空通路及び真空通路を設け、 この圧空通路及び真空通路を上部プレス型の通路に連通させ、 圧空通路を 通して圧縮空気の吹き付けを行なうと共に、 真空通路を通して真空吸引を 行う請求の範囲第 3項記載の抄造成形品の製造方法。 4. A pressurized air passage and a vacuum passage are provided on a base for supporting and fixing the upper press die, and the pressurized air passage and the vacuum passage are communicated with a passage of the upper press die. 4. The method for producing a paper-molded article according to claim 3, wherein compressed air is blown through the vacuum passage and vacuum suction is performed through a vacuum passage.
5 . 下部プレス型を支持固定するベースに圧空通路及び真空通路を設け、 この圧空通路及び真空通路を下部プレス型の通路に連通させ、 圧空通路を 通して圧縮空気の吹き付けを行なうと共に、 真空通路を通して真空吸引を 行なう請求の範囲第 3項記載の抄造成形品の製造方法。  5. A compressed air passage and a vacuum passage are provided in a base for supporting and fixing the lower press die, and the compressed air passage and the vacuum passage are communicated with a passage of the lower press die, and compressed air is blown through the compressed air passage and a vacuum passage is formed. 4. The method for producing a paper-molded article according to claim 3, wherein the vacuum suction is carried out through.
6 . 上部に配置したプレス型と下部に配置したプレス型との間に含水抄 造成形品を挟んで加熱プレスして抄造成形品を製造する加熱プレス装置に おいて、 プレス型の内部に複数の通路を設け、 この通路の一端をプレス型 の表面に開口させると共に、 通路の他端を圧空通路及び真空通路に連通さ せてなることを特徴とする抄造成形における加熱プレス装置。  6. In a hot press machine that manufactures a paper-formed product by hot-pressing a water-containing paper-formed product between a press die placed at the top and a press die placed at the bottom, a plurality of presses are placed inside the press die. A hot press apparatus for papermaking molding, characterized in that one end of the passage is opened to the surface of the press die and the other end of the passage is connected to the compressed air passage and the vacuum passage.
7 . プレス型をベースに支持固定し、 ベースに圧空通路及び真空通路を 設けた請求の範囲第 6項記載の抄造成形における加熱プレス装置。  7. The heating press device in papermaking molding according to claim 6, wherein the press die is supported and fixed to the base, and the compressed air passage and the vacuum passage are provided in the base.
8 . 圧空通路をコンプレッサー等の圧縮空気供給装置に連結し、 真空通 路を真空ポンプ等の真空吸引装置に連結した請求の範囲第 6項記載の抄造 成形における加熱プレス装置。  8. The heating press device in papermaking and molding according to claim 6, wherein the compressed air passage is connected to a compressed air supply device such as a compressor, and the vacuum passage is connected to a vacuum suction device such as a vacuum pump.
9 . ベースに連通路を設け、 該連通路を介して通路と圧空通路を連通す ると共に、 該連通路を介して通路と真空通路を連通するように構成した請 求の範囲第 7項記載の抄造成形における加熱プレス装置。  9. The scope of claim 7, wherein a communication passage is provided in the base, the passage and the compressed air passage are communicated via the communication passage, and the passage and the vacuum passage are communicated via the communication passage. Heat press equipment in papermaking and molding.
1 0 . ベースの内部に加熱装置を設けた請求の範囲第 7項記載の抄造成形 における加熱プレス装置。 10. The heating press device in papermaking and molding according to claim 7, wherein a heating device is provided inside the base.
1 1 . 通路がプレス型の表面に開口している箇所に微細孔を有する部材を 取り付けた請求の範囲第 6項記載の抄造成形における加熱プレス装置。  11. The hot press apparatus in papermaking and molding according to claim 6, wherein a member having a fine hole is attached at a position where the passage is open on the surface of the press die.
PCT/JP2002/011065 2001-10-24 2002-10-24 Method of producing paper-making-processed molded articles, and heating press device WO2003035981A1 (en)

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