JP4099146B2 - Method for manufacturing paper-molded article and apparatus for manufacturing the same - Google Patents

Description

[0001]
Technical field
The present invention relates to a method of manufacturing a paper-molded product made from a pulp raw material and used as a packaging container, a cushioning material for packaging, and the like, and a manufacturing apparatus therefor.
[0002]
Background art
In recent years, a paper-molded product made into a predetermined shape using a pulp raw material liquid has been used as a packaging container for small electrical products, precision machinery, or food products such as eggs. Its use is widespread as being suitable for.
As a general method for producing the paper-molded article, raw materials such as pulp are dispersed in water, and the pulp component in the dispersion is paper-drawn using a paper-making net having a predetermined shape, and moisture in the pulp component is removed. After dehydrating by vacuum suction, a method for producing a final product by drying a hydrous paper-molded product shaped into a predetermined shape through a hot air drying furnace has been widely used.
[0003]
However, this method heats and dries the paper-molded product containing moisture in a hot-air drying furnace, resulting in uneven thickness of the final product, and distortion during the heat-drying. As a result, there is a disadvantage that variations in dimensions occur. In addition, there is a problem in that a mesh pattern is formed on the surface of the molded product that is in contact with the papermaking net during papermaking, and irregular irregularities are formed on the other surface. Although it can be flattened to some extent by the treatment, it was not sufficient and a smooth surface could not be obtained.
Furthermore, since the hot air drying furnace is a large apparatus having a very long length from the inlet to the outlet, there is a disadvantage that the installation area of the apparatus becomes large and the manufacturing cost increases.
[0004]
In JP-A-6-49800, a water-containing paper-molded product made by paper-making on a lower mold with a pulp raw material liquid is pressed between the upper mold and dehydrated, and then the water-containing paper-made molded product is held on the upper mold. The lower mold is lowered, the lower press mold waiting at another position is moved, and the lower press mold is positioned below the upper mold formed by holding the hydrated papermaking molded product. High-frequency drying is performed with a hydrous paper-molded product sandwiched between the die and the lower press die is moved in a state where the hydrous paper-molded product is held in the lower press die, and is positioned below the upper press die. A water-containing papermaking product is sandwiched between the upper die and the lower die. heating It is disclosed to perform a press to obtain a paper-molded molded product that is a final molded product.
Japanese Patent Laid-Open No. 6-65900 discloses a method for producing a paper-molded product similar to the above-mentioned Japanese Patent Laid-Open No. 6-49800, and a plurality of paper-making machines are provided, and the phase of the production cycle of the molded product in each paper-making machine is shifted. A manufacturing method is disclosed in which a high frequency is applied to each papermaking and forming machine in accordance with the phase of the shifted manufacturing cycle.
Similarly, Japanese Patent Laid-Open No. 6-158599 discloses heating and pressing with a water-containing paper-molded product sandwiched between a press upper die and a press-lower die in dry-molding the water-made paper molded product.
[0005]
According to these JP-A-6-49800, JP-A-6-65900 and JP-A-6-158599, a water-containing papermaking molded product is sandwiched between a press upper die and a press lower die and pressed and dried. A paper-molded product having a uniform wall thickness, excellent dimensional accuracy, smooth surface and good appearance can be produced. Moreover, it is not necessary to install a large apparatus such as a hot air drying furnace, and the manufacturing cost can be reduced.
The manufacturing methods disclosed in JP-A-6-49800 and JP-A-6-65900 include a high-frequency drying step linearly connected to each other. heating As shown in FIG. 11, the apparatus used therefor is a press lower die 66 fixed to a transfer table 61, connected to a cylinder 68 and provided on a rail 64 so as to be able to reciprocate in the horizontal direction. The first upper mold 65 disposed above the tank 63 and the upper mold 65 are separated from each other by a second upper mold ( heating The press lower die 66 can be arranged at a position below the press upper die 67). After dehydration of the hydrous papermaking molded product between the first upper mold 65 and the papermaking mold 62, high-frequency drying is performed between the first upper mold 65 and the lower press mold 66, and then the lower press mold The heating press is performed between the second upper die 67 and the second upper die 67. The lower press die 66 moves to a position below the first upper die 65 and the second upper die 67 along the process. And reciprocates horizontally. Therefore, while the lower press mold 66 is moving, the upper mold 65 or the upper mold 67 is in a standby state, resulting in a time loss. Therefore, it has been difficult to improve the production efficiency in the above production method.
[0006]
In JP-A-2000-34700, a water-made paper-molded product formed on the surface of a papermaking mold is transferred to a mold supported by a swivel arm, and the mold is rotated by the swivel arm, and the lower mold is supported by a lower rotary table. Position the upper part, transfer the hydrous papermaking molded product from the mold to the lower mold, and after separating the mold from the lower mold by rotating the swivel arm, the upper mold supported by the upper rotary table descends, The papermaking molded product is sandwiched between the upper mold and the lower mold, and the upper and lower molds are moved in the rotation direction by the rotary table while holding the water-containing papermaking molded product. It is disclosed to do.
Japanese Patent Application Laid-Open No. 2000-34700 performs heating and drying by an upper and lower mold while moving in the circumferential direction, and transfers a hydrous paper-molded product formed on the paper mold to the mold. Next, the hydrous paper-molded product is transferred from the mold to the lower die, and the upper die is applied to the hydrous paper-molded product on the lower die, and the hydrous paper-molded product is sandwiched between the upper die and the lower die and heated. A complicated process of drying is required, so that there is a lot of waiting time when moving from one process to the next process, resulting in inferior production efficiency. In addition, a moving device for transferring the hydrous papermaking molded product from the papermaking die to the mold and transferring from the mold to the lower die is required, and the apparatus is complicated and large.
[0007]
The present invention has been made to solve the above-mentioned conventional problems, and is a paper-molded product that can produce a paper-molded product having a uniform thickness, no distortion, and excellent dimensional accuracy even in a complicated shape. It aims at providing the manufacturing method of.
Another object of the present invention is to provide a method for producing a paper-molded product that can produce a paper-molded product having a smooth surface and good appearance.
Furthermore, an object of the present invention is to provide a method for producing a paper-molded product that can efficiently produce the paper-molded product and improve the production efficiency.
Another object of the present invention is to provide an apparatus for producing a paper-molded product that has a simple structure and can be miniaturized.
[0008]
Disclosure of the invention
In the production of a paper-molded article, the present invention involves pulverizing a paper mold in a pulp raw material liquid and removing pulp components. Provided vertically movable A water-containing paper product is formed on the paper mold, the water-containing paper product is sandwiched between the paper mold and the upper die, dehydrated and dried to produce a water-containing paper product, and the resulting water-containing paper product is circumferentially Transport to. In a preferred embodiment of the present invention, the hydrated papermaking molded product is transported in the circumferential direction by sucking and holding the hydrated papermaking molded product in the upper die and moving the upper die in the circumferential direction.
At the point where the hydrous papermaking molded product is transferred in the circumferential direction, the hydrous papermaking molded product is Provided vertically movable Heat drying by sandwiching between lower molds. In a preferred embodiment of the present invention, when the upper mold formed by sucking and holding the hydrous paper-molded product reaches the upper position of the lower mold, the lower mold rises and the hydrous paper-molded product is added to the upper mold. It is configured to perform pressure heating.
The paper-molded product is preferably heat-dried a plurality of times. For this purpose, a plurality of lower molds are installed along the circumferential direction in which the upper mold moves, and the hydrous papermaking molded product is sandwiched between the upper mold and the lower mold sequentially while transferring the hydrous papermaking molded article by the upper mold. Dry with heat.
The paper-molded product is obtained by the heat drying, and the paper-molded product is taken out from the mold, thereby obtaining the final molded product.
[0009]
The machined article manufacturing apparatus of the present invention is It is supported by a rotating shaft arranged vertically, A plurality of upper molds supported by a rotatable support body and provided to be movable in the circumferential direction, a papermaking zone provided in a process in which the upper mold moves in the circumferential direction, and a plurality of drying processes. A molding zone, a papermaking tank provided in the papermaking molding zone, and the papermaking tank. Provided vertically movable Provided in papermaking mold and each dry forming zone Provided vertically movable It consists of a lower mold.
The apparatus of the present invention also includes a mechanism for dehydrating and drying the water-containing paper product formed on the paper-making mold between the paper-making mold and the upper die, and holding the water-containing paper-molded product obtained by the above dehydration drying on the upper die. It has a mechanism for sequentially transferring it to the dry molding zone and a mechanism for heating and drying the hydrous papermaking molded product between the upper mold and the lower mold in the dry molding zone. In a preferred embodiment of the present invention, in the dehydration drying, the papermaking mold is raised and the water-containing paper product is sandwiched between the upper mold and the pressure dehydration is performed, and in the heat drying, the lower mold is raised and the upper mold. A hydrous papermaking molded product is sandwiched between them and heated under pressure.
[0010]
The present invention involves dehydrating and drying a water-containing paper product formed on a paper-making mold by picking up pulp components between the paper-making mold and the upper mold. Since it is transported in the circumferential direction and the water-made papermaking molded product is sandwiched between the upper mold and the lower mold at a point in the circumferential direction to perform heat drying, the time and time when moving from the dehydration drying process to the heat drying process The time required to move from one heat drying process to the next heat drying process can be shortened, no wasteful waiting time is generated, and the production cycle can be shortened. According to a preferred embodiment of the present invention, the upper die does not move up and down and always moves in the circumferential direction, and the upper die that receives the hydrous papermaking molded product from the papermaking die always sucks the hydrous papermaking molded product thereafter. Since each process is moved in the held state, the movement between the processes can be performed smoothly and quickly, and the production efficiency can be greatly improved as compared with the prior art.
[0011]
Further, according to a preferred embodiment of the present invention, when the water-containing paper-molded product is sucked and held in the upper mold and sequentially transferred to each dry-molding step, the upper mold is always in contact with the water-made paper-made molded product even during the transfer. Since suction drying and heat drying are performed, sufficient drying processing can be performed until the molded product is taken out, and the efficiency of the drying processing can be improved.
As described above, according to the present invention, it is possible to efficiently produce a paper-molded molded product and to improve the production efficiency.
In the present invention, the water-containing paper-molded product is sandwiched between the upper mold and the lower mold and heat-dried, so there is no distortion of the paper-molded product, and even with complex shapes, the thickness is uniform and dimensional accuracy It is possible to produce a paper-molded article excellent in Furthermore, since the upper mold and the lower mold are pressurized and heated, a paper-molded molded article having a smooth surface and good appearance can be obtained.
The manufacturing apparatus of the present invention has a simple structure, can be downsized, and can contribute to cost reduction.
[0012]
Brief Description of Drawings
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 as viewed from the direction of the first dry molding zone B in FIG. 1, and FIG. 3 is a view from the direction of the second dry molding zone C in FIG. 4a, 4b, 4c, 4d, and 4e are schematic front views showing the paper making process, and FIGS. 5a, 5b, and 5c are schematic front views showing the dry molding process in the first dry molding zone B. FIG. 6a, 6b and 6c are schematic front views showing the dry molding process in the second dry molding zone C, FIG. 7 is a schematic front view showing the molded product taking-out process, and FIG. 8 is a longitudinal section showing the state of matching between the upper mold and the papermaking mold. FIG. 9 is a schematic vertical cross-sectional view showing a state where the upper die and the lower die are aligned, FIG. 10 is a perspective view showing an example of a paper-molded product obtained by the production method of the present invention, and FIG. 11 shows a conventional production apparatus. FIG.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
The manufacturing apparatus 1 of the present invention has a plurality of upper molds 4a, 4b, 4c, 4d supported and fixed to a rotatable support 3. FIG. 1 shows a four-pole rotary type in which four upper molds are arranged on the support 3, but the number of upper molds is not limited to four in the present invention. An upper mold can be provided. Further, the number of lower molds can be arbitrarily determined accordingly. Hereinafter, an embodiment in which the present invention is a four-pole rotary type will be described below.
The support 3 is The axis of rotation is vertical The rotary shaft 31 is pivotally supported and is configured to rotate together with the rotary shaft 31. The support 3 has arms branched in four directions from the center, and a base 45 is fixed to the tip of each arm, and upper molds 4a, 4b, 4c, and 4d are fixed to the lower surface of each base 45 with screws or the like. It is supported and fixed by tools. The upper molds 4a, 4b, 4c, and 4d are provided to be movable in the circumferential direction by being supported by the support body 3 via the base 45. The structure of the support 3 is not limited to the arm shape, and may be configured as a disk-shaped rotary table.
[0014]
Reference numeral 9 denotes a drive device for rotationally driving the rotary shaft 31, and the drive device 9 is controlled by the control device 32. The control device 32 can control the rotation speed of the rotary shaft 31 and can control the rotation angle α and the stop time in the intermittent rotation of the rotary shaft 31. As such a control device, an index, a servo motor, a positioning knock pin, or the like can be used. Reference numeral 10 denotes a support frame.
A paper making zone A and a plurality of dry forming zones B, C, and D are provided in a process in which the upper molds 4a, 4b, 4c, and 4d move in the circumferential direction (FIG. 1). A papermaking tank 7 in which the papermaking mold 2 is installed is disposed, and lower molds 5a, 5b, and 5c are disposed in the first dry molding zone B, the second dry molding zone C, and the third dry molding zone D, respectively. Has been.
[0015]
2 and 3, the papermaking mold 2 and the lower molds 5a, 5b, and 5c are arranged along the circumferential direction so as to face the upper mold below the upper molds 4a, 4b, 4c, and 4d, respectively. ing.
In FIG. 2, the papermaking mold 2 located below the upper mold 4 a is installed inside the papermaking tank 7. A cylinder 33 is provided inside the papermaking tank 7, a base 42 is attached to the upper end of the shaft body 13 that can be moved up and down by the cylinder 33, and the papermaking mold 2 is attached to the upper surface of the base 42 with screws or the like. It is supported and fixed by a fixture. In this way, the shaft 13 is moved up and down by the action of the cylinder 33, so that the papermaking mold 2 can be moved in the vertical direction.
[0016]
The papermaking tank 7 contains a predetermined amount of a pulp raw material liquid 8 which is a molding material of a papermaking molded product. As the pulp raw material liquid 8, a known papermaking pulp raw material liquid in which a pulp raw material is dispersed in water is used. Can do. The pulp raw material may be mixed with a virgin raw material and a recycled paper raw material such as waste paper, or a pulp raw material liquid may be prepared only from the recycled paper raw material. Further, a water-soluble polymer, a thermoplastic synthetic resin that melts with heat during hot pressing, fibers, or the like may be mixed with the pulp raw material.
In FIG. 2, the lower die 5 a located below the upper die 4 b is supported and fixed on the upper surface of the base 50 by a fixing tool such as a screw, and the base 50 is provided so as to be movable up and down by a cylinder 34 installed on the base 14. The shaft 49 is attached to the upper end of the shaft 49. Similarly, the lower mold 5b positioned below the upper mold 4c in FIG. 5 and the lower mold 5c positioned below the upper mold 4d in FIG. 3 are also supported and fixed on the upper surface of the base 50 by screws or the like, The base 50 is attached to a shaft body 49 in a cylinder 34 installed on the base 14.
[0017]
As described above, the lower molds 5a, 5b, and 5c are configured to be movable in the vertical direction by the action of the cylinder 34.
The lower molds 5a, 5b, and 5c can be moved in the vertical direction by the cylinder 34, but are fixed without being moved in the circumferential direction. It is preferable to use a hydraulic cylinder as the cylinders 33 and 34 in the papermaking mold 2 and the lower molds 5a, 5b, and 5c.
In the third dry molding zone D, a molded product receiving device 36 is provided in the vicinity of 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 slidably in the horizontal direction, and is placed below the upper mold holding the paper-molded product after the pressurization and heating process is completed. The receiving table 35 is moved, receives the paper-molded product discharged from the upper die by the blow of compressed air, moves backward, and the receiving table 35 tilts when it returns to the original position or while moving backward. Thus, it has a mechanism for dropping the papermaking molded product downward. As a mechanism for inclining the receiving table 35, a known mechanism such as rotating the receiving table 35 using a cylinder can be employed.
Although not particularly illustrated, a conveying device such as a belt conveyor is provided at a point where the molded product falls.
[0018]
As shown in FIG. 8, a plurality of passages 6 are provided inside the upper mold 4 a that is supported and fixed to the lower surface of the base 45. Each of the plurality of passages 6 is opened on the mold surface, and a core vent 25 formed by forming a fine hole is embedded in the opening end portion.
The core vent 25 is a bottomed cylindrical body having a fine hole forming surface on one opening end side, and a large number of fine holes are provided on the fine hole forming surface. The core vent 25 is attached so that the fine hole forming surface thereof is located on the opening end side of the mold surface of the passage 6.
The fine holes provided in the core vent 25 may be circular or slit-shaped, and the hole diameter in the case of a circular hole is preferably 0.5 to 20 mm, and the slit width in the case of a slit hole is 0.5 to 20 mm. It is preferable. If the hole diameter and slit width are less than 0.5 mm, clogging may occur, and there is a risk of impeding moisture permeation of the water-containing paper-molded product, and if it exceeds 20 mm, the pulp component of the water-containing paper-molded product will permeate through the holes. There is a fear.
[0019]
The plurality of passages 6 merge at the upper part of the mold, and this joining 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 the base 45 so as to communicate with the communication passage 15. Both the vacuum passage 46 and the pressure air passage 47 are provided in the horizontal direction in the base 45, the vacuum passage 46 is connected to a vacuum pump (not shown), and the pressure air passage 47 is connected to a compressor (not shown). The vacuum passage 46, the communication passage 15 and the passage 6 can be depressurized by the action of the vacuum pump, and the compressed air is supplied to the compressed air passage 47 by the action of the compressor. And can be blown out of the mold surface through the core vent 25.
The vacuum passage 46 and the compressed air passage 47 may be configured 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 pressure air passage 47, or the vacuum passage 46 and the pressure air passage 47 may be constituted as one passage. In the latter case, the pressure can be reduced through one passage or compressed air can be supplied.
A predetermined number of heaters 22 are embedded in the base 45.
Each of the upper molds 4b, 4c, and 4d has a structure similar to that of the upper mold 4a described above.
[0020]
On the other hand, as shown in FIG. 8, the papermaking mold 2 includes a mold main body 19, a support member 21, and a papermaking net 17 attached to the surface of the mold main body 19, and the mold main body 19 is supported by the support member 21. The base 42 is fixed. As the net 17, a net having a mesh that allows moisture in the pulp raw material liquid to pass but not the pulp component is used, and a metal net of 15 to 80 mesh is usually used. Stainless steel or brass is used as the wire mesh material.
A plurality of passages 18 are provided inside the papermaking mold 2, and each of the plurality of passages 18 is open to the mold surface. Therefore, the opening end of the passage 18 communicates with the fine hole of the net 17. The passage 18 is used to permeate moisture of the water-containing papermaking molded product, and includes a plurality of longitudinal passages and transverse passages, and the longitudinal passage and the transverse passage communicate with each other at the intersection. The hole diameter of the passage 18 is preferably 0.5 to 4.0 mm. If the hole diameter is less than 0.5 mm, clogging may occur and the moisture permeation of the water-containing paper-molded product may be hindered. If the hole diameter exceeds 4.0 mm, the valve component of the water-containing paper-molded product may enter. is there.
[0021]
The plurality of passages 18 merge at the lower part of the mold, and this joining portion communicates with the communication passage 20 provided inside the base 42.
A vacuum passage 43 communicating with the communication passage 20 is provided in the base 42 in the horizontal direction, 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. 8 shows a state in which the upper mold 4a and the papermaking mold 2 are matched with each other. Reference numeral 11 denotes a clearance between the upper mold 4a and the papermaking mold 2. FIG. Accordingly, when the upper mold 4a and the papermaking mold 2 are clamped, a hydrous papermaking molded product having a thickness corresponding to the clearance 11 is formed.
As shown in FIG. 9, the lower mold 5a supported and fixed on the upper surface of the base 50 has a plurality of passages 54 therein. Each of the plurality of passages 54 is opened on the mold surface, and a core vent 26 formed by forming a fine hole is embedded in the opening end portion.
The structure of the core vent 26 is the same as that of the core vent 25 attached to the upper mold 4a.
[0022]
The lower ends of the plurality of passages 54 communicate with the communication passages 23 formed inside the base 50, respectively, and a vacuum passage 51 and a pressure air passage 52 are provided inside the base 50 so as to communicate with the communication passage 23. Yes. Both the vacuum passage 51 and the compressed air passage 52 are provided in the horizontal direction in the base 50, the vacuum passage 51 is connected to a vacuum pump (not shown), and the compressed air passage 52 is connected to a compressor (not shown). The vacuum passage 51, the communication passage 23, and the passage 54 can be decompressed by the action of the vacuum pump, and the compressed air is supplied to the compressed air passage 52 by the action of the compressor, and this compressed air is supplied to the communication passage 23, the passage 54. And can be blown out of the mold surface through the core vent 26.
[0023]
The vacuum passage 51 and the compressed air passage 52 may be provided as vertical passages communicating with the communication passage 23 in the base 50. Further, this vertical passage may be constituted by two passages divided into a vacuum passage 51 and a pressure air passage 52, or the vacuum passage 51 and the pressure air passage 52 may be constituted as one passage. In the latter case, the pressure can be reduced through one passage or compressed air can be supplied. A predetermined number of heaters 24 are embedded in the base 50.
The lower molds 5b and 5c have the same structure as the lower mold 5a described above.
FIG. 9 shows a state in which the upper die 4a and the lower die 5a are matched, and reference numeral 16 denotes a clearance between the upper die 4a and the lower die 5a. Therefore, when the upper mold 4a and the lower mold 5a are clamped, a hydrous papermaking molded product having a thickness corresponding to the clearance 16 is formed.
[0024]
The material of the mold body 19, the upper molds 4a, 4b, 4c, and 4d and the lower molds 5a, 5b, and 5c in the papermaking mold 2 is generally a metal, but may be an elastic material.
Examples of the metal include aluminum and nickel, and examples of the elastic material include rubber, elastic synthetic resin, and synthetic resin foam. The upper molds 4a, 4b, 4c, 4d and the lower molds 5a, 5b, 5c have fluorine surfaces to reduce the frictional resistance between the mold surface and the molded product and to improve the mold release when the molded product is taken out. It is preferable to perform resin processing.
The above embodiment shows a case where the papermaking mold 2 is a convex mold, the upper molds 4a, 4b, 4c, and 4d are concave molds, and the lower molds 5a, 5b, and 5c are each a convex mold. As another embodiment, the papermaking mold 2 may be a concave mold, the upper molds 4a, 4b, 4c, and 4d may be convex, and the lower molds 5a, 5b, and 5c may be concave.
[0025]
The method for producing a paper-molded product of the present invention comprises a paper-paper molding step, a dry molding step, and a molded product take-out step. Papermaking is performed by the papermaking mold 2 and the upper mold 4a arranged in the papermaking molding zone A. As shown in FIG. 4 a, the papermaking mold 2 in the papermaking tank 7 is located above the liquid surface of the pulp raw material liquid 8. The papermaking mold 2 is once lowered from the above position by the action of the cylinder 33 and immersed in the pulp raw material liquid 8 (FIG. 4b). A vacuum pump connected to the vacuum passage 43 is operated to reduce the pressure inside the papermaking mold 2, and the papermaking mold 2 is raised while being in the reduced pressure and positioned above the surface of the pulp raw material liquid 8 (FIG. 4c). By this operation, the pulp component is removed on the net 17 of the papermaking mold 2, and a hydrous papermaking 27 having a shape corresponding to the shape of the papermaking mold 2 is formed.
[0026]
Since the papermaking mold 2 is raised while vacuum suctioning the hydrated paper product 27, the moisture in the hydrated paper product 27 is sucked and dehydrated during the ascent movement. That is, moisture in the hydrous paper product 27 is sucked into the mold through the net 17 and guided into the passage 18. Moisture guided to the lower side of the mold through the passage 18 is guided to the vacuum passage 43 through the communication passage 20 and discharged to the outside of the mold through the discharge passage.
The papermaking mold 2 formed by sucking and holding the hydrous paper product 27 continues to rise to a position where the hydrous paperwork 27 comes into contact with the upper mold 4a and presses the hydrous paperwork 27 with the upper mold 4a and the papermaking mold 2. When the clearance 11 between the upper mold 4a and the papermaking mold 2 reaches a certain value, the upward movement of the papermaking mold 2 stops. That is, the numerical value of the clearance 11 between the upper mold 4a and the papermaking mold 2 is set in advance as the operating condition of the cylinder 33, and based on this, the upward movement distance of the papermaking mold 2 is controlled by the control device. A sensor, a spacer, etc. can be used as such a control device. The numerical value of the clearance 11 is such that the thickness of the hydrous paper product 27 when pressed between the upper mold 4a and the papermaking mold 2 is 10% to 40% of the thickness before pressing. Numerical values are preferred.
[0027]
FIG. 4d shows a state in which the upward movement of the papermaking mold 2 is stopped at the predetermined position and a pressing force is applied to the upper mold 4a. The hydrous paper product 27 is sandwiched between the upper mold 4a and the papermaking mold 2 and pressed, thereby being press-molded into a shape as it is, and the hydrous paper product 12 is obtained.
In the dehydration and drying process by the upper mold 4a and the papermaking mold 2, suction dehydration by the papermaking mold 2 is performed, and suction dehydration and heating in the upper mold 4a are performed. The vacuum pump connected to the vacuum passage 46 is operated to reduce the pressure in the upper die 4a, and the water in the hydrous papermaking molded product 12 is sucked and dehydrated. That is, moisture in the hydrous papermaking molded product 12 is sucked into the mold through the core vent 25 and guided into the passage 6. Moisture guided to the upper side of the mold through the passage 6 is guided to the vacuum passage 46 through the communication passage 15 and discharged to the outside of the mold through the discharge passage.
Further, the upper die 4a is heated by the heater 22, whereby the water-containing papermaking molded product 12 is heated and dried. Water vapor generated by heating passes through the core vent 25, the passage 6, the communication passage 15, the vacuum passage 46, the discharge passage, and is discharged out of the mold. The heating temperature of the upper die 4a by the heater 22 is preferably 100 ° C. to 250 ° C., and the vacuum degree in the upper die 4a and the paper making die 2 when performing suction dehydration is preferably 700 to 10 mmHg.
[0028]
The water content of the water-containing papermaking molded product 12 is about 30 to 70% by weight by dehydration drying by the upper mold 4a and the papermaking mold 2. After completion of the papermaking process, the papermaking mold 2 is lowered and separated from the upper mold 4a to return to the old position in the papermaking tank 7. At this time, the water-containing papermaking molded product 12 is sucked and held by the upper mold 4a (FIG. 4e).
Next, the drive 9 is activated Vertically arranged The rotating shaft 31 is rotated, whereby the support 3 is rotated so that the rotation angle α is 90 °. Due to the rotation of the support 3, the upper mold 4 a moves in the circumferential direction and is displaced to a position above the lower mold 5 a in the first dry molding zone B. At the same time, the upper mold 4b is displaced to a position above the lower mold 5b in the second dry molding zone C, the upper mold 4c is displaced to a position above the lower mold 5c in the third dry molding zone D, and the upper mold 4d is Displacement is made to a position above the papermaking mold 2 in the papermaking zone A, and processing in each zone is performed in synchronization.
[0029]
For example, while the upper mold 4a moved to the first dry molding zone B is performing the heat drying process with the lower mold 5a, in the papermaking molding zone A, the formation of the water-containing product and the upper mold 4a and the papermaking mold are performed. The dehydration drying process by 2 is performed.
The rotation angle α of each upper mold is controlled by the control device 32, and the upper mold is accurately positioned.
When the upper die 4a is displaced to a position above the lower die 5a in the first dry molding zone B, the cylinder 34 is operated to raise the shaft body 49, thereby moving the lower die 5a upward (FIG. 5a). The lower die 5a continues to rise until it comes into contact with and presses the hydrous papermaking molded product 12 held by the upper die 4a, and when the clearance 16 between the upper die 4a and the lower die 5a reaches a constant value. Thus, the ascending motion of the lower mold 5a stops. That is, the numerical value of the clearance 16 between the upper mold 4a and the lower mold 5a is set in advance as the operating condition of the cylinder 34, and based on this, the upward movement distance of the lower mold 5a is controlled by the control device. The clearance 16 between the upper die 4a and the lower die 5a is made smaller than the clearance 11 between the upper die 4a and the paper making die 2 in the paper making zone A. The numerical value of the clearance 16 is preferably a numerical value that is 5% to 50% of the thickness of the hydrated paper product 27 in the state of paper removal.
[0030]
FIG. 5b shows a state where the upward movement of the lower mold 5a is stopped at the predetermined position and a pressing force is applied to the upper mold 4a. The hydrous papermaking molded product 12 is sandwiched between the upper mold 4a and the lower mold 5a, pressurized, and dried by heating.
The upper mold 4a is sucked and heated while holding the water-containing papermaking molded product 12, but continues to be sucked and heated after the mold matching with the lower mold 5a.
The suction and heating mechanism by the upper mold 4a has already been described with reference to FIG.
On the other hand, the lower mold 5a starts suction and heating after the mold matching. The suction mechanism and heating mechanism in the lower mold 5a are shown in FIG. That is, the vacuum pump connected to the vacuum passage 51 in the lower mold 5a is operated to reduce the pressure in the lower mold 5a, and the water in the hydrous papermaking molded product 12 is dehydrated by suction. Water in the hydrous papermaking molded product 12 is sucked into the mold through the core vent 26 and guided into the passage 54. Moisture 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 out of the mold through the discharge passage.
[0031]
Further, the lower mold 5a is heated by the heater 24, whereby the water-containing papermaking molded product 12 is heated and dried. Water vapor generated by heating passes through the core vent 26, the passage 54, the communication passage 23, the vacuum passage 51, the discharge passage, and is discharged out of the mold. The heating temperature of the lower mold 5a by the heater 24 is preferably 100 ° C. to 250 ° C., and the degree of vacuum of the lower mold 5a is preferably 700 to 10 mmHg.
The heating temperature of the upper mold 4a in this dry molding step is preferably 100 ° C to 250 ° C, and the degree of vacuum is preferably 700 to 10 mmHg.
After the heating press by the upper mold 4a and the lower mold 5a is completed, the cylinder 34 is operated with the hydrated papermaking molded product 12 sucked and held in the upper mold 4a to slightly lower the shaft body 49, whereby the lower mold 5a Is slightly moved downward to separate the upper mold 4a and the lower mold 5a from each other by a predetermined distance. Next, the compressor is operated to send compressed air from the compressed air passage 47 of the upper mold 4 a, and air is blown out from the core vent 25 via the communication passage 15 and the passage 6. Since the upper die 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 die 4a. Simultaneously with the blowing of heated air by the upper mold 4a, vacuum suction is performed from the lower mold 5a. As a result, the water-containing papermaking molded product 12 is released from the upper mold 4a and sucked and held by the lower mold 5a.
[0032]
Next, compressed air is supplied from the lower mold 5a. That is, the compressor is operated to send compressed air from the compressed air passage 52 of the lower mold 5a, and the air is blown out from the core vent 26 via the communication passage 23 and the passage 54. Since the lower mold 5a is heated by the heater 24, the air flowing in the passage 54 is also heated, so that the heated air blows out from the lower mold 5a. Simultaneously with the blowing of heated air by the lower mold 5a, vacuum suction is performed from the upper mold 4a. As a result, the hydrous papermaking molded product 12 is released from the lower mold 5a and is sucked and held by the upper mold 4a. In this way, the heated air blowing and vacuum suction are alternately switched between the upper mold 4a and the lower mold 5a, whereby the hydrous papermaking molded product 12 swings up and down between the upper mold 4a and the lower mold 5a. The hydrated papermaking molded product 12 is repeatedly swung up and down several times.
[0033]
By the above-described vertical swing treatment of the water-containing paper-molded product, the water-containing paper-molded product 12 can be efficiently dried by heating, and the water-containing paper-molded product 12 can be separated from the mold. That is, when the water-containing paper-molded product 12 swings up and down, the air heated from the upper die 4a or the lower die 5a is blown to the water-containing paper-made product 12, so that the water-containing paper-made product 12 is heat-dried. Further, since the upper mold 4a and the lower mold 5a are spaced apart from each other by a predetermined distance, the water vapor staying on the surface of the hydrous papermaking molded product 12 is dissipated from the space between the upper mold 4a and the lower mold 5a, and thereby the hydrous papermaking molded product. 12 drying is promoted.
Further, by swinging the hydrous papermaking molded product 12 up and down, even if the molded product 12 has a complicated shape, it is easy to remove the mold, and the molded product performed in the final process can be easily taken out from the mold. it can.
[0034]
After completion of the up-and-down swinging process of the hydrous papermaking molded product 12, the hydrous papermaking molded product 12 is sucked and held by the upper die 4a, and the lower die 5a is moved downward to return the lower die 5a to the old position (FIG. 5c). .
Next, the support 3 is rotated and the upper die 4a is displaced to a position above the lower die 5b in the second dry molding zone C in a state where the hydrous papermaking molded product 12 is held. At the same time, the upper die 4b is displaced to a position above the lower die 5c in the third dry molding zone D, the upper die 4c is displaced to a position above the paper making die 2 in the paper making zone A, and the upper die 4d is the first die 4d. It is displaced to a position above the lower mold 5a2 in the dry molding zone B, and the processing in each zone is performed in synchronization.
When the upper mold 4a is displaced to the upper position of the lower mold 5b in the second dry molding zone C, the lower mold 5b is moved upward (FIG. 6a). When the clearance between the upper mold 4a and the lower mold 5b reaches a constant value, the ascending motion of the lower mold 5b stops.
The clearance between the upper mold 4a and the lower mold 5b is preferably smaller than the clearance 16 between the upper mold 4a and the lower mold 5a, but may be equivalent.
[0035]
When the upper mold 4a and the lower mold 5b are matched with each other with a predetermined clearance, the hydrous paper-made molded product 12 is sandwiched between the upper mold 4a and the lower mold 5b, pressurized, and heated and dried (FIG. 6b). ). In this heat drying, suction and heating are respectively performed in the upper mold 4a and the lower mold 5b. Since the structure of the lower mold 5b is the same as that of the lower mold 5a, the suction mechanism and heating in the upper mold 4a and the lower mold 5b are performed. The mechanism is the same as the suction mechanism and the heating mechanism shown in FIG.
By dry molding with the upper mold 4a and the lower mold 5b, a hydrous papermaking molded product having a further reduced moisture content is obtained.
After the heating press by the upper mold 4a and the lower mold 5b is finished, the upper mold 4a and the lower mold 5b are slightly separated from each other, and air blowing and vacuum suction are performed in the same manner as described above for the upper mold 4a and the lower mold. The water-containing papermaking molded product 12 is swung up and down by alternately switching between 5b.
After completion of the up-and-down swinging process of the hydrous papermaking molded product 12, the hydrous papermaking molded product 12 is sucked and held by the upper die 4a and the lower die 5a is moved downward to return the lower die 5a to the old position (FIG. 6c). ).
[0036]
Next, the support 3 is rotated and the upper die 4a is displaced to a position above the lower die 5c in the third dry molding zone D while holding the hydrous papermaking molded product 12. At the same time, the upper mold 4b is displaced to the upper position of the papermaking mold 2 in the papermaking molding zone A, the upper mold 4c is displaced to the upper position of the lower mold 5a in the first dry molding zone B, and the upper mold 4d is second. It is displaced to a position above the lower mold 5b in the dry molding zone C, and the processing in each zone is performed in synchronization.
When the upper mold 4a is displaced to the upper position of the lower mold 5c in the third dry molding zone D, the lower mold 5c is moved upward, and the clearance between the upper mold 4a and the lower mold 5c becomes a constant value. To stop the upward movement of the lower mold 5c. The clearance between the upper mold 4a and the lower mold 5c is preferably smaller than the clearance between the upper mold 4a and the lower mold 5b, but may be equivalent.
The hydrated papermaking molded article 12 is sandwiched between the upper mold 4a and the lower mold 5c by press-matching with the upper mold 4a and the lower mold 5c, and is heated and dried. In this heat drying step, suction and heating are performed by the same mechanism (the mechanism shown in FIG. 9) as described above.
[0037]
Residual moisture is removed by dry molding using the upper mold 4a and the lower mold 5c, and a paper-molded molded article 28 as a final molded article is obtained. The water content of the paper-molded product 28 is 0 to 10% by weight.
After the heating press by the upper mold 4a and the lower mold 5c is completed, the upper mold 4a and the lower mold 5c are slightly separated, and air blowing and vacuum suction are alternately switched between the upper mold 4a and the lower mold 5c. The papermaking molded product 28 is swung up and down.
Thereafter, the papermaking molded product 28 is sucked and held by the upper die 4a, and the lower die 5c is moved further downward to return to the old position. In accordance with the downward movement of the lower mold 5c, the receiving table 35 of the molded product receiving apparatus 36 moves forward and stops when it reaches the lower position of the upper mold 4a.
[0038]
Next, compressed air is supplied from the compressed air passage 47 of the upper mold 4 a, and air is blown out from the surface of the upper mold 4 a through the core vent 25. As a result, the paper-molded product 28 is released from the upper mold 4a and falls onto the lower receiving table 35 (FIG. 7). The receiving table 35 moves rearward after receiving the papermaking molded product 28.
When the receiving table 35 returns to the original position or in the middle of moving backward, the receiving table 35 is inclined to drop the paper-made molded product 28 downward. A conveying device such as a belt conveyor is installed at a lower position where the papermaking molded product 28 falls, and receives the papermaking molded product 28 falling and transports it to the next process.
After the above-described molded product taking-out step is completed, the support 3 is rotated and the upper die 4a is displaced to a position above the paper making die 2 in the paper making zone A, and thereafter the same steps as described above are repeated.
[0039]
The water discharged from the respective vacuum passages 43, 46, 51 of the papermaking mold 2, the upper molds 4a, 4b, 4c, 4d and the lower molds 5a, 5b, 5c in the above-mentioned papermaking molding process and dry molding process is collected. It can be reused as water for producing pulp raw material liquid, thereby saving water resources and preventing environmental pollution.
In the present invention, for example, a container 29 as shown in FIG. 10 can be manufactured as a papermaking molded product, and a cushioning material for packaging can also be manufactured.
[0040]
Industrial applicability
According to the present invention, a paper-molded product can be efficiently manufactured, and the apparatus is downsized, which is useful for paper-molding of small electrical products, packaging containers for precision machinery, or containers for food such as eggs. Therefore, the manufacturing cost can be reduced.

Claims (12)

A plurality of upper molds supported by a support body supported by at least a rotating shaft arranged vertically and provided so as to be movable in the circumferential direction, and within a stroke in which the upper mold moves in the circumferential direction, A method for producing a paper-molded article using a paper mold and a lower mold provided in a directionally movable manner,
The papermaking mold is immersed in the pulp raw material liquid, the pulp components are removed, and a hydrous paper product is formed on the papermaking mold. The hydrous papermaking product is sandwiched between the papermaking mold and the upper mold and dehydrated to dry. A step of obtaining a paper-made molded product, a step of transferring the water-containing paper-made molded product in the circumferential direction, and sandwiching the water-containing paper-molded molded product between the upper die and the lower die at a point where the water-containing paper-made molded product is transferred in the circumferential direction. A method for producing a paper-molded product comprising the steps of: drying by heating and a step of taking out the paper-molded product obtained by the heat drying from a mold. When dewatering and drying with a water-containing paper product sandwiched between a paper-making mold and an upper mold, the paper-making mold and the upper mold are depressurized by a vacuum suction means to suck water from the water-containing paper product and dehydrate and dry. A method for producing a paper-molded article according to item 1. The method for producing a paper-molded article according to claim 2, wherein the upper mold is heated and dried when performing dehydration drying. The method for producing a paper-molded product according to claim 1, wherein the water-containing paper-molded molded product is sucked and held in an upper mold provided so as to be movable in the circumferential direction, and the molded product is transferred in the circumferential direction. In the process of moving the upper mold in the circumferential direction, a papermaking zone and a plurality of dry molding zones are provided, and the water-containing papermaking product is sequentially transferred to each dry-molding zone. The method for producing a paper-molded article according to claim 4, wherein the drying is performed by sandwiching between a mold and a lower mold. Claims for dehydrating and drying the water-containing paper-molded product by suctioning the water-containing paper-molded product by reducing the pressure between the upper die and the lower die using a vacuum suction means when the water-containing paper product is sandwiched between the upper die and the lower die. A method for producing a paper-molded article according to item 1 or 5. The method for producing a paper-molded product according to claim 5, wherein the paper-molded product produced in the last dry molding zone is taken out from the upper mold, and then the upper mold is moved to the paper-making molding zone. A plurality of upper molds that are supported by a support body that is rotatably supported by a rotating shaft arranged vertically and that are movable in the circumferential direction, and the upper mold move in the circumferential direction. A papermaking zone and a plurality of drying molding zones provided in the process, a papermaking tank provided in the papermaking zone, and a papermaking mold provided in the papermaking tank and movable in the vertical direction , A lower mold provided in the dry molding zone that can move in the vertical direction, and a mechanism for dehydrating and drying the wet paper product formed on the paper mold by picking up pulp components between the paper mold and the upper mold A mechanism for holding the water-containing paper-molded product obtained by the above dehydration drying in the upper mold and sequentially transferring it to the dry-molding zone, and heating the water-containing paper-molded product between the upper mold and the lower mold in the dry molding zone. Paper making characterized by a drying mechanism The molded product of the manufacturing apparatus. The apparatus for producing a paper-molded product according to claim 8, wherein the upper die is provided with a plurality of passages through which water can be discharged, and the passages are communicated with a vacuum passage and a compressed air passage. 9. The apparatus for producing a papermaking molded product according to claim 8, wherein the papermaking mold is provided with a plurality of passages through which water can be discharged, and the passages are communicated with the vacuum passageway. 9. The apparatus for manufacturing a paper-molded product according to claim 8, wherein the lower mold is provided with a plurality of passages through which water can be discharged, and the passages communicate with the vacuum passage and the compressed air passage. 9. The apparatus for manufacturing a paper-molded product according to claim 8, further comprising a molded product receiving device in the vicinity of a dry molding zone in which the paper-molded product is manufactured.

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