JPH0985871A - Liquid absorbing laminated sheet and manufacture thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a low-cost liquid absorbing laminated sheet which sufficiently absorbs water or oil, has sufficient strength even after absorbing the water or oil content, excellent bulkiness, air permeability, durability, drape and easy productivity by the existing facility and a method for manufacturing the sheet. SOLUTION: The liquid absorbing laminated sheet comprises a liquid absorbing layer made of a pulp fiber sheet and a water resistant layer made of an extrafine fiber sheet, wherein the water resistance is less than 5cm, and adhesive strength between the absorbing layer and the resistant layer is 20g/5cm or more in width.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid-absorbent laminated sheet and a method for producing the same, and in particular, it has sufficient strength to absorb water, oil and the like, and also has sufficient strength even after absorbing water and oil. In addition, it has excellent bulkiness, breathability, durability and texture, and is suitable for liquid absorbent sheets such as oil and water, food packaging materials, etc., and for draining fried foods using edible oil, draining sashimi, etc. A suitable liquid-absorbent laminated sheet and a method for producing the same.

[0002]

2. Description of the Related Art In recent years, with the diversification of food and the development of the restaurant industry, a wide variety of processed foods have been sold in stores and on the general market. For example, a variety of processed foods such as cooked foods that are heated for heating by a microwave oven or boiling water, and fried in edible oil, or semi-processed foods that are served as foods, such as used as a material for simmered foods. I have food. In addition, there are processed foods called so-called fast foods, such as hamburgers, hot dogs, okonomiyaki, and fried chicken, which are sold at stores and easily served for consumption. These processed foods are stored in a packaged form or sold in stores.

In order to maintain the taste of these processed foods even during storage, and to maintain their original taste after cooking, bleeding out from the processed foods during storage or after cooking, dew condensation from the ambient atmosphere, etc. It is important that the processed food is packaged so as to absorb moisture and oil generated around the processed food and appropriately retain or control the oil and water of the processed food. Therefore, the packaging material for processed foods,
Various developments and proposals have been made regarding packaging materials, packaging forms, and the like.

Conventionally, pulp fiber sheets such as paper have been widely used as packaging materials for these processed foods. However, although the pulp fiber sheet itself has good characteristics of absorbing water and oil, water absorption and oil absorption, once it absorbs water and oil, its strength is reduced and it may be damaged during use. Therefore, as a packaging material for food, it has an outer layer made of an impermeable sheet, and an inner layer made of a laminated sheet formed by laminating a hydrophobic fiber sheet and a water absorbent fiber sheet, and the hydrophobic fiber sheet side is the food side. Has been proposed (Japanese Utility Model Publication No. 3-108671). However, since the hydrophobic fiber sheet is disposed on the food side when packaging food, the laminated sheet has a large decrease in mechanical strength when it absorbs water or oil after cooking. If the product is wrapped in a bag and eaten by hand, or if it is stored for a long period of time, the packaging material becomes fragile, making it difficult to handle. Further, various packaging materials having a structure in which an impermeable sheet is laminated on the outer layer have been proposed.
For example, a packaging material made by laminating a thin film with a polyethylene film or a polypropylene film, a packaging material made by laminating a thin paper with an aluminum foil, and the like have been proposed. However, these packaging materials have sufficient mechanical strength even after the thin paper has absorbed moisture and oil, but since it does not have air permeability, if water or oil that exceeds the absorption capacity of the thin paper occurs, Excess water and oil remain without being absorbed, and the amount of oil and water cannot be adjusted appropriately, giving a processed food a sticky feeling, and the absorbed water and oil are not exposed to the outside air. , If stored for a long time,
The flavor of the processed food may be impaired. Further, these packaging materials have complicated manufacturing processes and require high cost.

Immediately after frying the deep-fried foods such as tempura and fried foods, the excess oil content of these deep-fried foods was removed to lay them in a container such as a tray in order to obtain a fluffy taste peculiar to the fried foods. A so-called oil removing process is performed in which the oil is removed by placing it on an absorber such as paper. In addition, raw materials such as sashimi are subjected to a so-called draining process in which they are wrapped in a cloth or the like to keep them moist in order to prevent the surface from drying and impairing the taste. However, in the case of oil removing, the oil is absorbed only at the contact surface between the fried food and the absorber such as paper, and a part absorbing the oil and a part not absorbing the oil are formed to form a mottled pattern. Therefore, the oil absorption amount becomes lower than the volume of the absorber such as paper. Further, there is a problem that the oil that has permeated the absorber adheres to a container such as a tray, and it takes time and labor to remove and wash the container. In the case of draining, the cloth having no hydrophobicity excessively absorbs water at one time, and since the water absorption rate is too fast, it is difficult to control the water content. If the water absorption rate is fast, the wrapped contents become dry and bulky, while if the water absorption rate is slow, it becomes sticky. Further, since it does not have hydrophobicity, the permeated water may be accumulated in the container, resulting in poor storage stability and spoiled taste.

[0006]

Therefore, the first aspect of the present invention
The purpose of is to sufficiently absorb water, oil, etc., and to have sufficient strength even after absorbing water and oil content, and also to be excellent in bulkiness, breathability and durability, and texture, and to be used in existing facilities. It is an object of the present invention to provide a liquid-absorbent laminated sheet that can be produced at low cost because it is easy to produce.

A second object of the present invention is to provide a method for producing the liquid-absorbent laminated sheet at low cost by converting existing equipment.

[0008]

Means for Solving the Problems The inventors of the present invention have conducted various studies to solve the above problems, and as a result, a laminated sheet obtained by laminating a pulp fiber sheet and an ultrafine fiber sheet absorbs moisture and oil. However, since the smoothness of the pulp fiber sheet and the bulkiness of the ultrafine fiber sheet are maintained, the strength does not decrease, the breathability and durability are excellent, and the existing equipment can be easily converted at low cost. The inventors have found that they can do this and have reached the present invention.

That is, in order to achieve the first object, the present invention provides a liquid-absorbent layer made of a pulp fiber sheet,
A liquid-absorbent laminated sheet having a water-resistant layer composed of an ultrafine fiber sheet, which has a water resistance of less than 5 cm and an adhesive strength between the liquid-absorbing layer and the water-resistant layer of 20 g / 5 cm or more. A liquid laminated sheet is provided.

In order to achieve the second object,
The present invention, as a method for producing the liquid-absorbent laminated sheet, after laminating an ultrafine fiber sheet and a pulp fiber sheet, in a heating roll device having a flat roll and an embossing roll, the pulp fiber sheet is on the flat roll side, and The present invention also provides a method for producing a liquid-absorbent laminated sheet, which has a step of passing the ultrafine fiber sheet so that it is on the embossing roll side and performing thermocompression bonding.

Hereinafter, the liquid-absorbent laminated sheet of the present invention (hereinafter,
The "laminated sheet of the present invention") and a method for producing the same will be described in detail.

The laminated sheet of the present invention is a laminated structure having at least two layers, a liquid absorbing layer made of a pulp fiber sheet and a water resistant layer made of an ultrafine fiber sheet. The laminated sheet of the present invention comprises a liquid-absorbent layer and a water-resistant layer each having 1
It may have a single layer or two or more layers. The laminated sheet of the present invention is used so that the pulp fiber sheet which is the liquid-absorbent layer is on the side that comes into contact with food.

The pulp fiber sheet forming the liquid-absorbent layer in the laminated sheet of the present invention is composed of vegetable fiber pulp and / or synthetic fiber pulp. The plant fiber pulp is an aggregate of cellulose fibers obtained by mechanically or chemically treating wood or other plant material, and examples thereof include wood pulp and linter pulp. The synthetic fiber pulp is an aggregate of fibers made of synthetic resin such as polyolefin, nylon, polyethylene terephthalate, polycarbonate, and olefin elastomer. Examples of the polyolefin include ethylene,
Examples thereof include homopolymers of olefins such as propylene, 1-butene, and 4-methyl-1-pentene, and copolymers of two or more kinds of these olefins.

This synthetic fiber pulp is, for example, a method in which fibers obtained by melt-spinning a polyolefin resin are cut into a predetermined length and then beaten, or after spinning by a solution flash method or an emulsion flash method, beaten. It is manufactured by a known method such as the method described above. Among these methods, those produced by an emulsion flash method using polyvinyl alcohol as a hydrophilizing agent are common. When polyvinyl alcohol is used as the hydrophilizing agent, the amount thereof is usually 0.01 to 10% by weight based on the synthetic fiber pulp.

Further, in order to increase hydrophilicity, it is preferable to perform surface treatment with a nonionic surfactant or polypropylene glycol. As the hydrophilized synthetic fiber pulp, for example, those described in JP-A-63-235575 or JP-A-63-66380 can be preferably used.

Further, in the present invention, the pulp fiber sheet may consist of one kind of the above-mentioned plant fiber pulp or synthetic fiber pulp alone, or may be a mixture of the plant fiber pulp and the synthetic fiber pulp. When the pulp fiber sheet is a mixture of plant fiber pulp and synthetic fiber pulp, the mixing ratio of the synthetic fibers in the plant fiber is 50% by weight in order to maintain the liquid absorbing property with the ultrafine fiber sheet and increase the adhesive strength. The following is preferable.

In the present invention, the pulp fiber sheet contains a fiber made of a thermoplastic polyolefin in an amount of preferably 50% by weight or less, and particularly preferably 30 to 10% by weight. Is desirable, and the liquid absorbency is not impaired, which is desirable. In particular, it is preferable that the thermoplastic polyolefin is composed of fibers of the same material as the constituent fibers of the ultrafine fiber sheet described below, because the adhesion to the ultrafine fiber sheet is ensured.

Further, in the present invention, the pulp fiber sheet has a basis weight of 10 to 300 g / m ² and a bulk density of 0.2 to.
Those having 0.8 g / cm ³ and the maximum pore diameter of 2 to 100 μm are preferable because they are easy to handle.

The pulp fiber sheet can be manufactured, for example, by
It can be carried out according to a method such as a wet papermaking method in which pulp fibers are dispersed in water for papermaking, or a dry molding method in which fibers are dry-formed into a mat shape.

In the laminated sheet of the present invention, the thickness of the liquid absorbing layer made of a pulp fiber sheet is usually 50 to 500.
If the thickness is about μm and the thickness is too thick, the liquid absorbency is increased, but the air permeability is lowered, resulting in poor economy. Performance (liquid absorption and breathability)
Considering economical efficiency, the thickness is preferably about 80 to 160 μm.

The ultrafine fiber sheet constituting the water resistant layer of the laminated sheet of the present invention is an aggregate of fibers having a fiber diameter of 2 to 40 μm, preferably 3 to 25 μm. Examples of the material of this ultrafine fiber include polypropylene, polyethylene, poly-4-methyl-1-pentene, polyolefin such as polyolefin elastomer, polyethylene terephthalate, and the like. In the present invention, the ultrafine fibers may be one of these materials alone or a combination of two or more thereof.

In this ultrafine fiber sheet, the bulk density and the fiber diameter have a correlation, and the larger the fiber diameter, the higher the bulk density.
If the fiber diameter is small, the bulk density becomes low. Extra-fine fiber sheet
The fiber diameter of the constituent fibers differs depending on the manufacturing method. The fiber diameter is 12 μm or more in the case of the spunbond method and less than 12 μm in the case of the melt blown method. Further, in the ultrafine fiber sheet, the water pressure resistance and the fiber diameter also have a correlation, and in the case of the same basis weight, the water pressure resistance decreases as the fiber diameter increases. On the other hand, when the fiber diameter becomes thin, the water pressure resistance becomes high, and when the water resistance is less than 5 cm,
The unit weight is small. Therefore, a fiber having a small fiber diameter is advantageous from the economical aspect.

In the present invention, this ultrafine fiber sheet is
A nonwoven fabric made of a thermoplastic polyolefin such as polypropylene, polyethylene, or a polyolefin-based elastomer and having a water resistance of 4 cm or less is preferable because it has appropriate air permeability, and more preferably 1 to 4 cm. In the present invention, the water resistance is a value measured according to JIS L1092 method A.

The production of this ultrafine fiber sheet can be carried out by a method in which the melt-plasticized polyolefin is discharged from the pores and finely collected by high-velocity air. An ultrafine fiber sheet having a fiber diameter of 12 μm or more can be produced by a spunbond method in which it is thinned by cooled high-velocity air, and an ultrafine fiber sheet having a fiber diameter of less than 12 μm is produced by a melt blown method in which it is thinned by high temperature and high speed air Can be manufactured.

In the laminated sheet of the present invention, the thickness of the water resistant layer made of an ultrafine fiber sheet is usually 50 to 200 μm.
m, and preferably about 70 to 150 μm.

In the laminated sheet of the present invention, the ratio of the thickness of the liquid absorbing layer to the thickness of the water resistant layer is 1 / 0.5 to 1/2.
It is a ratio of 5.

The laminated sheet of the present invention has a water vapor resistance of less than 5 cm, preferably 1 to 4 cm from the viewpoint of having a good moisture permeability because it has an appropriate range of air permeability. Further, the laminated sheet of the present invention has an air permeability of 50 to 50.
Those in the range of 0 cc / cm ² / sec have appropriate moisture permeability, adjust the moisture and oil content of the packaged product, do not cause stickiness, and do not deteriorate the flavor even if stored for a long period of time. ,preferable. In the present invention, the air permeability is JIS
It is measured by the A method of L1096.

Further, in the laminated sheet of the present invention, the liquid-absorbent layer and the water-resistant layer do not separate after absorbing moisture or oil, and the pulp fiber sheet constituting the liquid-absorbent layer is ruptured and the debris is covered. Adhesive strength between the liquid-absorbent layer and the water-resistant layer is
The width is 20 g / 5c width or more, preferably 30 g / 5 cm width or more, and more preferably 50 g / 5 cm width or more. In the present invention, the adhesive strength is JIS P81.
It is a value measured according to the 39-1964 method. The laminated sheet of the present invention is such that the liquid-absorbent layer and the water-resistant layer are firmly bonded together, the smoothness of the pulp fiber sheet that constitutes the liquid-absorbent layer, and the bulkiness of the ultrafine fiber sheet that constitutes the water-resistant layer. It is desired to have both properties and a good texture. In the laminated sheet of the present invention, the pulp fiber sheet constituting the liquid-absorbent layer is an ultrafine fiber sheet constituting the water-resistant layer in that the liquid-absorbent layer and the water-resistant layer are bonded with high adhesive strength. A mixture of the same thermoplastic polyolefin as that of The mixing ratio of the thermoplastic polyolefin is more preferably 10%, more preferably 30%. If the mixing ratio is 10% or less, the adhesive strength is weak, and at 20 to 30%, an adhesive strength close to that of the base material is obtained. 3
It may be 0% or more, but as the cost increases, the strength of the pulp fiber sheet decreases and the productivity in the mixed paper making process deteriorates. Examples of the thermoplastic polyolefin include polypropylene, polyethylene, polyolefin-based elastomers, and the like.

In addition to the liquid-absorbent layer and the water resistant layer, the laminated sheet of the present invention may be laminated with a film layer on both sides or one side, if necessary. For example, a breathable film layer may be laminated on the surface of the ultrafine fiber sheet.

The laminated sheet of the present invention can be produced by laminating an ultrafine fiber sheet and a pulp fiber sheet and then integrating both sheets. Lamination of an ultrafine fiber sheet and a pulp fiber sheet is performed by injecting a fine stream of a thermoplastic resin melt-plasticized and extruded from a die onto a pulp fiber sheet with a high-temperature and high-speed gas stream to form an ultrafine fiber. A method of depositing on a pulp fiber sheet to form an ultrafine fiber sheet and then integrating both sheets, a process of stacking a prefabricated ultrafine fiber sheet on the pulp fiber sheet and then integrating both sheets Can be carried out according to any method such as
The bonding method for integrating both sheets is not particularly limited, and examples thereof include a heat embossing method, an ultrasonic bonding method, a powder bonding method, and a calendar method. Among these methods, the heat embossing method is particularly preferable in that the bulkiness of the ultrafine fiber sheet is maintained, the adhesive strength between both sheets is high, and the laminated sheet can be produced with high productivity. When integrating both sheets by the heat embossing method, a heating roll device having a flat roll and an embossing roll is passed so that the pulp fiber sheet is on the flat roll side and the ultrafine fiber sheet is on the embossing roll side. It is important to heat and press the pulp fibers so that the bundled fibers of the pulp fiber sheet are not broken or broken. In particular, in the production of the laminated sheet of the present invention, melt-plasticized thermoplastic polyolefin is discharged from a die to form a fine stream, and ultrafine fibers formed by blowing a high-temperature and high-speed gas stream to the fine stream are used as pulp fibers. After forming the ultrafine fiber sheet by depositing on top, a method of heating and pressurizing with an embossing roll from the side of the ultrafine fiber sheet is particularly preferable in that it does not break the pulp fiber sheet by the shearing action due to the uneven surface of the embossing roll. .

[0031]

BEST MODE FOR CARRYING OUT THE INVENTION Next, an apparatus for continuously producing a laminated sheet of the present invention having a water resistant layer made of an ultrafine fiber sheet of thermoplastic polyolefin and a liquid absorbing layer made of a pulp fiber sheet is used. The method for producing the laminated sheet of the present invention will be specifically described with reference to one example. In the apparatus shown in FIG. 1, the pulp fiber sheet 2 is fed from the feeding roll 1
It is continuously passed over the porous collection belt 4 driven in the direction of arrow A by the drive rolls 3a and 3b. At the same time, while discharging the thermoplastic polyolefin melt-kneaded by an extruder (not shown) from the die 5 as a fine stream, a high-temperature and high-speed gas is sprayed from a nozzle (not shown) to form the fine stream on the ultrafine fibers 6. Form. The obtained ultrafine fibers 6 are sucked from the back side of the collection belt 4 and deposited on the pulp fiber sheet 2, to form a multilayer sheet 8 in which the ultrafine fiber sheet 7 is formed on the pulp fiber sheet 2. . The multi-layered sheet 8 thus formed is one in which the pulp fiber sheet 2 and the ultrafine fiber sheet 7 are weakly adhered to each other and is easily peeled off. Next, the multi-layer sheet 8 is heated and pressed by an embossing roll 9 so that a liquid-absorbent layer made of the pulp fiber sheet 2 and a water resistant layer made of the ultrafine fiber sheet 7 are firmly adhered to each other. The sheet 10 is formed and wound on the winding roll 11.

FIG. 2 shows another example of an apparatus for continuously producing the laminated sheet of the present invention. In the apparatus shown in FIG. 2, the pulp fiber sheet 22 delivered from the delivery roll 21a and the ultrafine fiber sheet 27 delivered from the delivery roll 21b are merged and overlapped to form a multilayer sheet 28. The multi-layer sheet 28 is heated and pressed by an embossing roll 29 to form a laminated sheet 30 in which a liquid absorbing layer made of a pulp fiber sheet and a water resistant layer made of an ultrafine fiber sheet are firmly adhered to each other. It is wound around the winding roll 31.

In these apparatuses, the heating temperature of the embossing roll is preferably in the temperature range above the softening point and below the melting point of the thermoplastic polyolefin used as the material for the ultrafine fibers, usually around 130 ° C. The linear pressure of the embossing roll is preferably in the range of 40 to 60 kg / cm, and usually about 53 kg / cm. Further, in these methods, the conveying speed of the pulp fiber sheet and the multilayer sheet is usually about 30 to 50 m / min.

[0034]

EXAMPLES The present invention will be specifically described below with reference to Examples and Comparative Examples of the present invention. In the following examples and comparative examples, the measurement of adhesive strength, water resistance and air permeability,
The comprehensive evaluation of the performance of the obtained laminated sheet was performed according to the following method or standard.

Adhesive strength: According to JIS P8139-1964 method, a test piece having a width of 5 cm and a length of 20 cm was cut out from a laminated sheet, a cellophane tape was attached to the end surface of the test piece, and then peeled off to remove pulp at the end. Separate the fiber sheet and the ultrafine fiber sheet. Next, the peeled pulp fiber sheet and the ends of the ultrafine fiber sheet were sandwiched between chucks of a tensile tester and pulled by a 180 degree peeling method at a pulling speed of 10 mm / min, and the maximum value was taken as the adhesive strength. Five test pieces were measured and the average value was calculated.

Water resistance Measured according to the method A of JIS L1092.

Air permeability Measured in accordance with the method A of JIS L1096.

Overall Evaluation The performance of the laminated sheet was evaluated according to the following criteria. ◎ ……… It is at a level where there is no problem in practical use. ○ ……… It is a practical level. △ ……… It is at a level where practical problems remain. ×: It is impossible to put into practical use.

(Example 1) Using the apparatus having the configuration shown in FIG. 1, melt-plasticized polypropylene was discharged as a fine stream from a die, and high-temperature, high-speed gas was sprayed, the average fiber diameter was 3.2 μm, and the basis weight was 7 g. / M ² web consisting of ultrafine fibers was fed from a feeding roll (polypropylene 20 wt% mixed product, basis weight 18 g / m ² ).
After forming on, heating temperature 130 ℃, linear pressure 53kg /
The laminated sheet was obtained by heating and pressing with an embossing roll in cm. With respect to the obtained laminated sheet, the adhesive strength, water resistance and air permeability were measured, and the performance was comprehensively evaluated. The results are shown in Table 1.

(Example 2) In the same manner as in Example 1, a web made of ultrafine fibers having an average fiber diameter of 3.2 μm and a basis weight of 8 g / m ² was fed from a feeding roll to obtain a pulp sheet (polypropylene 30 wt% mixed product). , Basis weight 16g /
m ² ) and then heat-pressed with an embossing roll to produce a laminated sheet, the adhesive strength, water resistance and air permeability were measured, and its performance was comprehensively evaluated. The results are shown in Table 1.

(Embodiment 3) Using the apparatus having the construction shown in FIG. 2, a pulp sheet (a product containing 20 wt% of polypropylene and a basis weight of 18 g / m ² ) is fed out from one feeding roll, and polypropylene spunbond is fed from the other feeding roll. Nonwoven fabric (Mitsui Petrochemical Industry Co., Ltd., PK10
3, the fineness of 4 denier, and the basis weight of 15 g / m ² ) are fed out, both sheets are superposed, and then heat-pressed by an embossing roll at a heating temperature of 150 ° C. and a linear pressure of 53 kg / cm to produce a laminated sheet. Then, the adhesive strength, water resistance and air permeability were measured, and the performance was comprehensively evaluated. The results are shown in Table 1.

(Embodiment 4) As in the case of Embodiment 3, the pulp sheet (polypropylene 30w) is fed from one of the feeding rolls.
t% mixed product, basis weight 16 g / m ² ) was fed out, and polypropylene spunbonded nonwoven fabric (Mitsui Petrochemical Co., Ltd., PK103, fineness 4 denier) was fed out from the other feeding roll, and both sheets were superposed. After that, a laminated sheet was manufactured by heating and pressurizing with an embossing roll at a heating temperature of 150 ° C. and a linear pressure of 53 kg / cm, and the adhesive strength, water resistance and air permeability were measured, and the performance was comprehensively evaluated. The results are shown in Table 1.

(Comparative Example 1) In the same manner as in Example 1, a web of polypropylene fine fibers having an average fiber diameter of 3.2 μm and a basis weight of 8 g / m ² was fed from a feeding roll (a polypropylene sheet was not mixed). , The coating weight is 18 g / m ² ) and the heating temperature is 130 ° C.
A laminated sheet was manufactured by heating and pressurizing with an embossing roll at a linear pressure of 53 kg / cm, and the adhesive strength, water resistance and air permeability were measured, and its performance was comprehensively evaluated. The results are shown in Table 1.

(Comparative Example 2) In the same manner as in Example 3, the pulp sheet (polyethylene 10
wt% mixed product, basis weight 16 g / m ² ) was fed out, and polypropylene spunbond nonwoven fabric (Mitsui Petrochemical Industry Co., Ltd., PK103, fineness 4 denier) was fed out from the other feeding roll, and both sheets were superposed. After that, a heating and pressing treatment was performed with an embossing roll at a heating temperature of 150 ° C. and a linear pressure of 53 kg / cm to try to produce a laminated sheet, but both sheets did not adhere. The water resistance and air permeability of the obtained multilayer sheet were measured, and the performance was comprehensively evaluated. The results are shown in Table 1.

[0045]

[Table 1]

[0046]

INDUSTRIAL APPLICABILITY The laminated sheet of the present invention is suitable for food packaging materials because it has high liquid absorption and air permeability. Furthermore, the adhesive strength is strong and it does not peel off, so it is durable, and since it also has bulkiness, it has a good texture and a good balance between heat retention and moisture permeability. Therefore, it is suitable for food storage and heating,
It has physical properties that can maintain the taste of food.
In addition, the existing equipment can be used immediately, resulting in high productivity and low cost.

[Brief description of drawings]

FIG. 1 is a diagram illustrating an example of an apparatus for manufacturing a liquid-absorbent laminated sheet of the present invention.

FIG. 2 is a diagram illustrating another example of the manufacturing apparatus for a liquid-absorbent laminated sheet of the present invention.

[Explanation of symbols]

 1 Delivery roll 2 Pulp fiber sheet 3a, 3b Drive roll 4 Collection belt 5 Die 6 Extra fine fiber 7 Extra fine fiber sheet 8 Multi-layer sheet 9 Embossing roll 10 Laminated sheet 11 Winding roll 21a, 21b Delivery roll 22 Pulp fiber sheet 27 Extra fine Fiber sheet 28 Multi-layer sheet 29 Embossing roll 30 Laminated sheet 31 Winding roll

Claims (7)

[Claims] 1. A liquid-absorbent laminated sheet having a liquid-absorbent layer made of a pulp fiber sheet and a water-resistant layer made of an ultrafine fiber sheet, which has a water resistance of less than 5 cm and a water-absorbent layer and water resistance. A liquid-absorbent laminated sheet having an adhesive strength between the layers of 20 g / 5 cm width or more. 2. The liquid-absorbent laminated sheet according to claim 1, wherein the pulp fiber sheet contains 50% by weight or less of a fiber made of a thermoplastic polyolefin. 3. The liquid-absorbent laminated sheet according to claim 2, wherein the pulp fiber sheet and the ultrafine fiber sheet contain fibers made of a thermoplastic polyolefin. 4. The liquid-absorbent laminated sheet according to claim 1, wherein the ultrafine fiber sheet is a nonwoven fabric made of thermoplastic polyolefin and having a water resistance of 4 cm or less. 5. The liquid-absorbent laminated sheet according to claim 2, wherein the pulp fiber sheet and the ultrafine fiber sheet are heat-bonded with an embossing roll. 6. The method for producing a liquid-absorbent laminated sheet according to claim 1, wherein after laminating the ultrafine fiber sheet and the pulp fiber sheet, the pulp is added to a heating roll device having a flat roll and an embossing roll. A method for producing a liquid-absorbent laminated sheet, comprising a step of passing the fiber sheet on the flat roll side and the ultrafine fiber sheet on the embossing roll side, and thermocompression bonding. 7. A melt-plasticized thermoplastic polyolefin is discharged, and ultrafine fibers formed by blowing a high-speed gas stream are deposited on a pulp fiber sheet to form an ultrafine fiber sheet, and then heat-pressed. The method for producing a liquid-absorbent laminated sheet according to claim 6, which has a step.