Patent Publication Number: US-2013245588-A1

Title: Pants-type diaper

Description:
TECHNICAL FIELD 
     The present disclosure relates to a pants-type diaper. 
     BACKGROUND ART 
     Conventionally, in a pants-type diaper, it is known that there is used a sandglass-type absorber which is small in width at a portion disposed in an inner-leg region of the pants-type diaper (for example, PTL 1). 
     CITATION LIST 
     Patent Literature 
     [PTL 1] Japanese Unexamined Patent Application Publication No. 4-503168 
     SUMMARY OF INVENTION 
     Technical Problem 
     However, the Applicant found the following problem associated with the pants-type diaper described above. 
     In such a pants-type diaper, since an absorber disposed in a crotch region in which urine is excreted by a wearer is smaller in width, there might be a problem in that a possibility of a leakage of urine is high. 
     Therefore, in order to solve such a problem, in such a pants-type diaper, it has been considered to configure the diaper so as to increase the width of the absorber that is disposed in the inner-leg region of the pants-type diaper, thereby increasing a surface area of such an absorber. 
     However, according to such a structure, there has been a problem that a wearer has a sense of discomfort at the time of wearing the pants-type diaper. 
     Accordingly, the present invention has been made in view of the problem described above, and it is an object of the present invention to provide a pants-type diaper which is capable of reducing a sense of discomfort at the time of wearing while avoiding a leakage of urine. 
     Solution to Problem 
     The first feature of the present invention is summarized in that a pants-type diaper comprising: an absorber having a core including a pulp, the absorber being configured so that each face of the core is sandwiched by a covering sheet, wherein: at least two folding lines which are extensive in a longitudinal direction of the pants-type diaper and which are spaced in a widthwise direction of the pants-type diaper are formed at the absorber that is disposed in a crotch region of the pants-type diaper; a plurality of compression lines which are extensive in a widthwise direction of the pants-type diaper and which are spaced in the longitudinal direction of the pants-type diaper are formed in a predetermined region of the absorber; the predetermined region is a region which includes the folding lines and which is extensive in a widthwise direction from one side edge part to the other side edge part of the absorber; an angle which is formed by a centerline along a widthwise direction located in the compression lines and the widthwise direction of the pants-type diaper is configured so as to be included in a range of 0 degrees to 45 degrees; and two of the compression lines which are adjacent to each other in the longitudinal direction of the pants-type diaper are configured so as to approach at a predetermined portion. 
     The second feature of the present invention is summarized in that a pants-type diaper including an absorber which has a core made of an intermediate layer, in which a pulp and a Super Absorbent Polymer (SAP) are mixed with each other, and a pulp layer, the absorber being configured so that each face of the core is sandwiched by a covering sheet, wherein: two slits which are extensive in a longitudinal direction of the pants-type diaper and are spaced in a widthwise direction of the pants-type diaper are formed at the absorber that is disposed in a crotch region of the pants-type diaper; a plurality of compression lines which are extensive in the widthwise direction of the pants-type diaper and is spaced in the longitudinal direction of the pants-type diaper are formed at a portion other than a proximity of an end part in the longitudinal direction of the pants-type diaper of the absorber; an angle which is formed by a centerline in the widthwise direction in the compression lines and the widthwise direction of the pants-type diaper is configured so as to be included in a range of 0 degrees to 45 degrees; a region which is surrounded by the compression lines which are adjacent to each other is configured so as to be formed in a rhombus shape in the absorber; a dimension of the rhombus shape in the widthwise direction of the pants-type diaper is configured so as to be larger than a dimension of the rhombus shape in the longitudinal direction of the pants-type diaper; two of the compression lines which are adjacent to each other are configured so as to cross at an apex of the rhombus shape; and the pulp layer is configured so as to exist on a wall face of the slit. 
     Advantageous Effect(s) of Invention 
     As has been described above, according to the present invention, there can be provided a pants-type diaper which is capable of reducing a sense of discomfort at the time of wearing while avoiding a leakage of urine. 
    
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         FIG. 1  is an external view seen from a rear of a pants-type diaper according to a first embodiment of the present invention. 
         FIG. 2  is an exploded view of the pants-type diaper according to the first embodiment of the present invention. 
         FIG. 3  is a plan view of an absorber of the pants-type diaper according to the first embodiment of the present invention. 
         FIG. 4  is a sectional view taken along the line X-X′ in the plan view of the absorber of the pants-type diaper according to the present invention. 
         FIG. 5  is a view showing one example of dimensions of a compression line and a folding line in the absorber of the pants-type diaper according to the first embodiment of the present invention. 
         FIG. 6  is a plan view of the absorber of the pants-type diaper according to the first embodiment of the present invention. 
         FIG. 7  is a view for explaining a method of manufacturing the absorber of the pants-type diaper according to the first embodiment of the present invention. 
         FIG. 8  is a view for explaining a method of manufacturing the absorber of the pants-type diaper according to the first embodiment of the present invention. 
         FIG. 9  is a plan view of an absorber of a pants-type diaper according to an exemplary modification of the present invention. 
         FIG. 10  is a plan view of the absorber of the pants-type diaper according to the exemplary modification of the present invention. 
     
    
    
     DESCRIPTION OF EMBODIMENTS 
     First Embodiment of the Present Invention 
     A pants-type diaper  1  according to a first embodiment of the present invention will be described with reference to  FIG. 1  to  FIG. 8 . 
       FIG. 1  shows an external view seen from a rear side of the pants-type diaper  1  according to the embodiment, and  FIG. 2  shows an exploded view of the pants-type diaper  1  according to the first embodiment of the present invention. 
     As shown in  FIG. 1  and  FIG. 2 , the pants-type diaper  1  according to the embodiment has an outer unit (chassis)  10  and an inner unit (absorber main body)  20 . 
     As shown in  FIG. 2 , the outer unit  10  has an inner-leg region A, a front waistline region B, and a rear waistline region C. 
     Herein, the inner unit  20 , as shown in  FIG. 2 , is provided from the inner-leg region A across the front waistline region B and the rear waistline region C at a skin contact surface side of the pants-type diaper  1  of the outer unit  10 . As shown in  FIG. 2 , in the front waistline region B and the rear waistline region C, the inner unit  20  is provided in a center region in a widthwise direction W. 
     In addition, in the pants-type diaper  1  according to the embodiment, both side edge parts of the front waistline region B and both side edge parts of the rear waistline region C are configured so as to be bonded with each other. 
     Herein, at the outer unit  10 , a waistline gather (waist gather) elastic member  120 A, a waistline gather (fit gather) elastic member  120 B, or a leg-line gather (leg gather) elastic member  120 C are retained in an expanded state. 
     In addition, the inner unit  20  has a topsheet (not shown) which is a liquid permeable sheet; a backsheet (not shown) which is a liquid impermeable sheet; and an absorber  2  which is disposed between the topsheet and the backsheet. 
     In addition, at the inner unit  20 , a leakage preventing wall (solid gather) having an elastic member which is extensive in a longitudinal direction L is provided at each side part in the longitudinal direction of the absorber  2 . 
       FIG. 3  shows a plan view of the absorber  2  when it is seen from a skin contact surface side of the pants-type diaper  1 , and  FIG. 4  shows a sectional view taken along the line X-X′ in the plan view of such an absorber  2 . 
     In addition,  FIG. 5  ( a ) and  FIG. 5  ( b ) each show one example of size of each part in a case where folding lines  3 A/ 3 B (to be described later) are formed by a slit, and a region  4 B that is surrounded by compression lines  4 A which are adjacent to each other is formed in the shape of a rhombus. 
     As shown in  FIG. 4 , the absorber  2  has a core made of an intermediate layer  2 A and a pulp layer  2 B in which pulp and SAP (super absorptive polymer) are mixed with each other, and is configured so that both faces of such a core are sandwiched by means of a covering sheet  2 C. 
     It is desirable that: a basis weight of pulp is within a range from 100 g/m 2  to 500 g/m 2  (for example, 151 g/m 2 ); and a basis weight of SAP is within a range from 0 g/m 2  to 300 g/m 2  (for example, 106 g/m 2 ). If the weight of pulp is lower than the lower limit of 100 g/m 2 , the absorber becomes too thin, and even with embossing it is not possible to achieve the targeted rigidity of the embossed area. Conversely, the upper limit of 500 g/m 2  makes the absorber too thick and the rigidity of the embossed area becomes high and makes the absorber rigid. The lower limit of the weight of SAP is set at 0 since embossing can be also effective in an absorber only made of pulp. As with the upper limit of the weight of pulp, the upper limit of the weight of SAP is set at 300 g/m 2  since any value above the limit makes the absorber rigid. 
     In addition, it is preferable that a SAP rate which is a ratio between the content of pulp and the content of SAP is within a range from 0% to 60% by mass (for example, 41% by mass). The lower limit of the weight of SAP rate is set at 0% since embossing can be also effective in an absorber only made of pulp. As with the upper limit of the weight of pulp, the upper limit of the weight of SAP rate is set at 60% since any value above the limit makes the absorber rigid. 
     Further, the absorber  2  may be rectangular in shape or may be of sandglass type. A sandglass-shaped absorber  2  is employed in the pants-type diaper  1  according to the embodiment. 
     As shown in  FIG. 3 , in the case of the absorber  2  of sandglass type, it is desirable that a ratio between a dimension W 21  of the widest portion in the absorber  2  and a dimension W 22  of the narrower portion in the absorber  2  is within a range from 5:3 to 1:1 (for example, 4:3). The lower rate of 5:3 is set since, in defining a wide absorber, it is the lower limit value at which the wide absorber becomes wider than current rehabilitation pants (the width of absorber is 2:1). If the ratio becomes any less than 5:3, the absorber cannot be regarded as a wide absorber. Therefore, the lower limit is set at 5:3. 
     On the other hand, in the case of the absorber  2  formed in a rectangular shape, a ratio between longitudinal and transverse lengths is within a range from 1:1 to 1:3 (for example, 10:27). The range for rate between longitudinal and transverse lengths is set on the grounds that since the rate is 1:1 and the shape is of a square, if the width of the absorber is any larger, it does not function as an absorber of pants-type diaper (to be specific, leakage of urine to wearer&#39;s back or belly frequently occurs), and also that even if the longitudinal length is made any longer than 1:3, it is not possible to effectively use the absorber from edge to edge. 
     As shown in  FIG. 3 , two folding lines  3 A, which are extensive in the longitudinal direction L and are spaced in a widthwise direction W, are formed at the absorber  2 . Herein, as shown in  FIG. 3 , the two folding lines  3 A may be disposed to be spaced transversely symmetrically with respect to a centerline CL 1  taken along the longitudinal direction L. 
     Such folding lines  3 A may be formed by slits or may be formed by a compression unit (emboss unit). Herein, the slit, as shown in  FIG. 4 , shows a region in which pulp and SAP are not laminated. 
     When the folding lines  3 A are formed by slits, since a rigidity difference between a region in which the folding lines  3 A are formed and a peripheral region of folding lines  3 A is increased more, a side part of the absorber  2  easily rises. 
     In a case where such folding lines  3 A are formed by slits, as shown in  FIG. 4 , an intermediate layer  2 A in which pulp and SAP are mixed with each other does not exist on a wall face of the folding lines  3 A (slits  3 A), and a pulp layer  2 B is configured so as to exist. That is, in such a case, the intermediate layer  2 A is configured so as to be disposed inside of the pulp layer  2 B. 
     According to such a structure, a compression unit (emboss unit) is formed at the pulp layer  2 B more easily than at the intermediate layer  2 A. In addition, since a portion where a compression unit is formed in the pulp layer  2 B existing on the wall face of slits  3 A is sealed, SAP is hardly produced, the slits  3 A are hardly deformed, and bendability of the absorber  2 A is sustained. 
     In addition, at least such two folding lines  3 A are configured so as to be formed in a region of the absorber  2  that is disposed in a crotch region of the pants-type diaper  1 . 
     For example, as shown in  FIG. 5  ( a ), it is desirable that a spaced distance between the slits  3 A is within a range from 20 mm to 100 mm (for example, 70 mm); it is desirable that a length of the slit  3 A is within a range from 30 mm to 150 mm (for example, 95 mm); and it is desirable that a width of a groove of the slit  3 A is within a range from 5 mm to 25 mm (for example, 1 mm). 
     In addition, the slit  3 A may be curved toward a front end part or a rear end part in the longitudinal direction L of the absorber  2 , or alternatively, may be curved toward both edge parts in the widthwise direction W of the absorber  2 . Herein, the curving slit  3 A can act uniformly on a force which is applied in a wearer&#39;s femoral direction. 
     In addition, as shown in  FIG. 3 , for example, folding lines  3 B (slits  3 B) may be additionally formed to folding lines  3 A. 
     Such slits  3 B may be disposed so as to be inclined at a predetermined angle with respect to each of the slits  3 A. For example, an inclination angle of the slit  3 B with respect to the slit  3 A may be identical to an inclination angle of the compression line  4 A (to be described later) with respect to the slit  3 A. 
     According to such a structure, the absorber  2  is easily movable with respect to movement of the wearer&#39;s inner-legs and legs, and a sense of discomfort at the time of walking with respect to the wearer can be reduced. Specifically, the slit  3 A corresponds to movability in the widthwise direction W of the wearer&#39;s inner legs, and the slit  3 B corresponds to movability in the longitudinal direction L (forward/backward direction) of the wearer&#39;s legs. 
     In addition, folding lines (slits) may be formed on the centerline CL 1  in the longitudinal direction L (not shown). 
     Further, as shown in  FIG. 3 , a plurality of compression lines  4 A which are extensive in the widthwise direction W and are spaced in the longitudinal direction L are formed at the absorber  2 . Herein, such compression lines  4 A are configured so as to be formed in a predetermined region of the absorber  2  in which the folding lines  3 A are formed. Such a predetermined region is a region which is extensive in the widthwise direction W from one side edge part of the absorber  2  to the other side edge part. 
     Herein, in the pants-type diaper  1  according to the embodiment, such compression lines  4 A are configured so as to be formed all over the regions of the absorber  2  including such a predetermined region. 
     Such compression lines  4 A may be formed by means of emboss processing from the skin contact surface side of the pants-type diaper  1 ; may be formed by means of emboss processing from the cloth contact surface side of the pants-type diaper  1 ; or alternatively, may be formed by emboss processing from both surface sides. 
     In addition, such emboss processing may be directly applied to a core; may be applied from the top of a covering sheet  2 C; or alternatively, may be applied from the top of the topsheet or the backsheet. Herein, emboss processing is applied from the top of the covering sheet  2 C or the topsheet, thereby making it possible to avoid troubles of winding around a roll for applying emboss processing. 
     In a case of applying such emboss processing, it is desirable that a pressure to be applied to the roll for applying emboss processing is within a range from 10 MPa to 50 MPa; it is desirable that a temperature is within a range of 60 degrees Celsius to 100 degrees Celsius; and it is desirable that a line speed is within a range from 50 m/min to 500 m/min. 
     As shown in  FIG. 5  ( a ) and  FIG. 5  ( b ), in the absorber  2 , a region  4 B which is surrounded by the compression lines  4 A which are adjacent to each other may be configured so as to be formed in the shape of rhombus (in the shape of a lattice). 
     Herein, as shown in  FIG. 5  ( a ) and  FIG. 5  ( b ), a dimension of the rhombus shape  4 B in the widthwise direction W may be configured so as to be longer than that of the rhombus shape  4 B in the longitudinal direction L. 
     That is, a distance Beta in the longitudinal direction L between rhombus-shaped apexes  4 C which are adjacent to each other, is configured so as to be longer than a distance Alfa in the widthwise direction W between the rhombus-shaped apexes  4 C which are adjacent to each other. 
     Specifically, as shown in  FIG. 5  ( b ), it is desirable that the distance Alfa in the widthwise direction W between the rhombus-shaped apexes  4 C which are adjacent to each other is within a range from 10 mm to 40 mm (for example, 20 mm); and it is desirable that a distance Beta in the longitudinal direction L between the rhombus-shaped apexes  4  which are adjacent to each other is within a range from 10 mm to 40 mm (for example, 25 mm). 
     In the absorber  2 , the region  4 B that is surrounded by the compression lines  4 A which are adjacent to each other may be configured so as to be formed in a shape other than the rhombus shape. 
     The region  4 B that is surrounded by the compression lines  4 A which are adjacent to each other, as shown in  FIG. 6  ( a ) and  FIG. 6  ( b ), may be formed in the shape that is surrounded by wavy compression lines  4 A, or alternatively, this region, as shown in  FIGS. 6  ( c ) to ( f ), may be formed in the shape that is surrounded by a compression lines  4 A 1  which are inclined with respect to the widthwise direction W and a compression line  4 A 2  which is substantially parallel to the widthwise direction W. 
     In addition, the two compression lines  4 A which are adjacent to each other in the longitudinal direction L are configured so as to approach each other at predetermined portions. 
     As shown in  FIG. 5  ( a ) and  FIG. 5  ( b ), in the absorber  2 , in a case where the region  4 B that is surrounded by the compression lines  4 A which are adjacent to each other is configured so as to be formed in a rhombus shape, the two compression lines  4 A which are adjacent to each other may be configured so as to cross at the apexes that are formed in the rhombus shape. 
     According to such a structure, since the two compression lines  4 A which are adjacent to each other are linked with each other, the rigidity of the absorber  2  increases and a sore thigh in a case where an external force due to a wearer&#39;s movement is applied can be avoided. 
     In addition, in the longitudinal direction L, the two compression lines  4 A which are adjacent to each other may be configured so as not to cross each other. According to such a structure, an advantageous effect that the covering sheet  2 C is hardly broken even if it is tissue can be attained. 
     For example, as shown in  FIG. 5  ( b ), it is desirable that the width of the groove of the compression line  4 A is within a range from 0.5 mm to 5 mm (for example, 1 mm), and it is desirable that the height of the groove of the compression line  4 A is within a range from 0.1 to 8 mm (for example, 2 mm). 
     In addition, as shown in  FIG. 5  ( b ), an angle formed by the centerline CL along the widthwise direction W located in the compression line  4 A and the widthwise direction W is configured so as to be included within a range of 0 degrees to 45 degrees. 
     With the structure described above, the bending rigidity in the widthwise direction W in the pants-type diaper  1  is configured so as to be higher than that in the longitudinal direction L in the pants-type diaper  1 . 
     The bending rigidity in the widthwise direction W in the pants-type diaper  1  and the rigidity in the longitudinal direction L in the pants-type diaper  1  can be measured by employing equipment called KES-FB as follows (relevant information can be retrieved from, e, g, “http://english.keskato.co.jp/products/”). 
     In such equipment, two chucks called a movement chuck and a fixing chuck are provided, and the above-described rigidities can be measured by fixing samples to such two chucks. 
     Specifically, in such equipment, at the time of measurement, since the movements chuck moves on a circumference, with the fixing chuck being a start point, samples are bent, and by measuring a bending moment at that time, the sample bending rigidity (B [gf cm/cm]) can be measured. 
     In such equipment, the rigidity of bending in a region of 100 mm·50 mm between the fixing chuck and the movement chuck can be measured. In order to compute an always uniform measurement result, two rhombus shapes are set so as to be included in such a region. 
     Specific measurement procedures are as follows. 
     First, a fixing chuck and a movement chuck are opened in accordance with a thickness of a sample, and the sample is inserted between the fixing chuck and the movement chuck; Second, a tightening screw of the movement chuck is secured; and third, a tightening screw of the fixing chuck is secured and then the sample is fixed. 
     Fourth, since the fixing chuck is linked with a torque meter by means of piano wire, a torque exerted by twisting of such a piano wire is detected. 
     Herein, there is shown a result obtained by performing the abovementioned measurement, employing a thin absorber sample formed in a square of 100 mm×100 mm, of which a basis weight of pulp is 145 g/m 2 , and a thick absorber sample of a square of 100 mm×100 mm, of which a basis weight of pulp is 257 g/m 2 . 
     First, the abovementioned measurement was performed for: the thin absorber sample to which emboss processing shown in  FIG. 5  ( a ) and  FIG. 5  ( b ) is applied; and the thin absorber sample to which emboss processing is not applied. 
     As a result, in the thin absorber sample to which emboss processing had been applied, the bending rigidity in the longitudinal direction L (MD direction) was obtained as “0.40B”, and the bending rigidity in the widthwise direction W (CD direction) was obtained as “0.23B”. 
     On the other hand, in the thin absorber sample to which emboss processing had not been applied, the bending rigidity in the longitudinal direction L (MD direction) was obtained as “0.22B”, and the bending rigidity in the widthwise direction W (CD direction) was obtained as “0.21B”. 
     Therefore, in the thin absorber sample to which emboss processing had been applied, it was found that the bending rigidity in the widthwise direction W is configured to be higher than that in the longitudinal direction L. 
     Second, the abovementioned measurement was performed for: the thick absorber sample to which emboss processing shown in  FIG. 5  ( a ) and  FIG. 5  ( b ) had been applied; and the thick absorber sample to which emboss processing had not been applied. 
     As a result, in the thick absorber sample to which emboss processing had been applied, the bending rigidity in the longitudinal direction L (MD direction) was obtained as “1.60B”; and the bending rigidity in the widthwise direction W (CD direction) was obtained as “1.18B”. 
     On the other hand, in the thick absorber sample to which emboss processing had not been applied, the bending rigidity in the longitudinal direction L (MD direction) was obtained as “1.12B”; and the bending rigidity in the widthwise direction W (CD direction) was obtained as “1.10B”. 
     Therefore, in the thick absorber sample to which emboss processing had been applied, it was found that the bending rigidity in the widthwise direction W is configured so as to be higher than that in the longitudinal direction L. 
     In this way, in the absorber to which emboss is applied, it is preferable that: the rigidity in the longitudinal direction L (MD direction) is 1.3 times or more of that in the widthwise direction W (CD direction); and that the bending rigidity in the widthwise direction W (CD direction) is within 1.1 times of that before emboss processing. 
     Hereinafter, part of a method of manufacturing the absorber  2  of the pants-type diaper  1 , according to the embodiment, will be described with reference to  FIG. 7  and  FIG. 8 . An existing method can be employed as the one which is not described in  FIG. 7  and  FIG. 8 . 
     As shown in  FIG. 7 , in step S 100 A, a web for covering sheet (e.g., tissue) is conveyed in the MD direction by means of a conveyor belt  101 A. Here, a hot melt adhesive for fixing the absorber  2  is applied onto the web for covering sheet. 
     In step S 100 B, a core made of pulp and SAP is integrated on an absorber lamination drum  101 B. 
     Here, the absorber lamination drum  101 B, as shown in  FIG. 8  ( a ), is provided with a non-suction unit  101 B 1  and a suction unit  101 B 2 . 
     Therefore, as shown in  FIG. 8  ( b ), in step S 100 B, a slit  3 A is formed by suctioning the core that is integrated on the absorber lamination drum  101 B, via a section hole which is provided at the suction unit  101 B 2 , and as shown in  FIG. 8  ( c ), the core at which the slit  3 A is formed is transferred onto the conveyor belt  101 A. 
     In step S 100 C, the core is covered with the web for covering sheet by means of sailor. 
     In step S 100 D, the core is brought into pressure contact from a top of the web for covering sheet by means of flat press rollers  102 A/ 102 B, whereby bulkiness of the absorber  2  is restrained in advance. As a result, a breakage of the web for covering sheet can be prevented. 
     In step S 100 E, the core is brought into pressure contact from the skin contact surface side or the cloth contact surface side by means of the roller  103 A/ 103 B. Here, a pattern for emboss processing, shown in  FIG. 5  ( a ) and  FIG. 5  ( b ), is provided at the roller  103 A. 
     In a case where emboss processing is performed from the skin contact surface side, a recessed part exists at the skin contact surface side of the absorber  2 , thereby making it possible to reduce an area in which a surface of a topsheet wetted after discharging urine comes into contact with a wearer&#39;s skin. 
     In addition, in a case where emboss processing is performed from the cloth contact surface side, since a face to which emboss processing is applied exists at the backsheet side, and a covering sheet  2 C and a film for backsheet are adhesively fully bonded with each other, SAP particles never moves arbitrarily from a broken portion; and therefore, as a result, a risk of leaking onto the surface of pants-type diaper  1  can be minimized. 
     In step S 100 F, a web for topsheet is attached to a core from the top of the web for covering sheet. 
     Since the absorbent article  1  is configured so as to form a compression unit  4 A together with a folding lines  3 A/ 3 B, even in a case where the width of the absorber  2  disposed in an crotch region A is large, a side part of the absorber  2  can be easily lifted without degrading the softness in the longitudinal direction L. Therefore, a wearer&#39;s sense of wearing the article can be enhanced while urine leakage is avoided. 
     In addition, with the absorbent article  1  according to the embodiment, since compression lines  4 A are formed in a predetermined region of the absorber  2  that is disposed in the crotch region A, and the compression lines  4 A which are adjacent to each other in the longitudinal direction L is configured to approach in a predetermined site, the urine that is excreted by a wearer can be diffused in the longitudinal direction L, and a side leakage can be reduced. 
     Exemplary Modification 
     A pants-type diaper  1  according to Exemplary Modification of the present invention will be described with reference to  FIG. 9  and  FIG. 10 . Herein, the pants-type diaper  1  according to the Exemplary Modification will be described focusing on differences from the pants-type diaper  1  according to the first embodiment. 
     As shown in  FIG. 9  and  FIG. 10 , in the pants-type diaper  1  according to the Exemplary Modification, the compression line  4 A is not formed in a full region of the absorber  2 . 
     For example, as shown in  FIG. 9 , in a center region in the widthwise direction W of the inner-leg region A, the compression lines  4 A are formed in a region which is extensive in the widthwise direction W from one side edge part of the absorber  2  to the other side edge part and in a region which is extensive in a region in which a folding line  3 A is formed in the longitudinal direction L; and in a region between the center region in the widthwise direction W of the inner-leg region A and each of the side edge parts of the absorber  2 , the compression line may be formed in a trapezoidal region which is extensive from the center region in the widthwise direction W of the inner-leg region A toward each of the side edge parts of the absorber  2 . 
     In addition, the compression line  4 A, as shown in  FIG. 10 , is not formed in a region B which is proximal to an end part in the longitudinal direction L, and may be formed all over other regions. 
     According to such a structure, since the compression line  4 A is not formed in the region E that is proximal to the end part in the longitudinal direction L, the urine that is excreted and diffused by a wearer stays in such a region E, thereby making it possible to avoid a circumstance that the urine blurs out from the end part in the longitudinal direction L. 
     Hereinafter, while the present invention was described in detail by way of the above-mentioned embodiment, it is apparent to one skilled in the art that the present invention is not limited to the embodiments described in the present specification. The present invention can be carried out as aspects of alteration and modification without deviating from the gist and scope of the present invention defined by the recitations of the claims. Therefore, the description of the present specification is intended for illustrative explanation, and does not have any limitative meaning to the present invention. 
     For example, the present invention may be defined as follows. The intermediate layer may be disposed inside the pulp layer, or the intermediate layer may not exist on the wall face of the slit. The compression lines may be formed in the pulp layer. Further folding lines inclined with respect to said folding lines and said further folding lines may be inclined at an identical inclination angle of the compression lines with respect to said folding lines. 
     Further the compression lines may be wavy lines, or the compression lines may not cross each other. Further the compression lines may include compression lines that are inclined with respect to the widthwise direction and compression lines that are substantially parallel to the widthwise direction.