MXPA01000564A - Interfolded dispenser napkins - Google Patents

Abstract

The present invention provides a napkin assembly (100) for a dispenser (400). The napkin assembly (100) may include a first napkin sheet (110) further including a plurality of napkins (115) and a second napkin sheet (150) further including a plurality of napkins. Each napkin of both sheets having a basis weight from about 20 gsm to about 40 gsm may be connected to an adjacent napkin in series by a plurality of tabs (124). The second napkin sheet (150) may be positioned proximate to the first napkin sheet (110) in an offset relation and the first and second napkin sheets may be formed into a nested configuration (185) for dispensing.

Description

NAPKINS FOR ENTRY FILLED SUPPLIER FIELD OF THE INVENTION This invention relates generally to the field of paper products, specifically, to peer-to-peer napkins.

BACKGROUND Dispensers can be used to provide napkins in places such as restaurants and stadiums. Typically, the napkins are folded and stacked together, then loaded in a spout. The user grasps the edge of the front napkin in the opening of the dispenser to obtain a servi11et.

However, these stacked napkin arrangements suffer from several disadvantages. Frequently, the user can not find a edge or fin of the front servillet. As a result, the user pinches several napkins and removes them from the dispenser instead of the assortment of napkins one at a time. Frequently, this means that more napkins are used than the user requires. Consequently, the napkins are wasted which in turn increases the costs of the owner of the establishment. In addition, if unduly loaded some napkins can not be properly stocked. As an example, loading a stack of napkins backwards may not present a border or an alet for the user to grasp. Consequently, napkins should be removed from the dispenser and reloaded.

Therefore, an array of stacked napkins that provides an assortment of napkins consistent from one to the other to reduce waste of costs and variable loading arrangements will improve conventional stacked napkins.

DEFINITIONS As used herein, the term "cellulosic material" refers to a material that can be prepared from cellulose fibers from natural sources or from synthetic sources, such as woody or non-woody plants, woody plants include, for example, deciduous trees and Non-woody plants include, for example, cotton, flax, esparto grasses, vendetósigo, grass, straw, jute, hemp and bagasse The cellulose fibers can be modified by various treatments such as, for example, thermal treatments, Chemical and / or mechanical It is contemplated that the reconstituted and / or synthetic cellulose fibers may be used and / or mixed with other cellulose fibers of the fibrous cellulose material Desirably, the non-synthetic fibers are woven into the fibers of cellulosic material.

As used herein, the term "pulps" refers to a cellulose fibrous material from sources such as woody and non-woody plants. Woody plants include, for example, deciduous and coniferous trees. Non-woody plants include, for example, cotton, flax, esparto grass, straw, jute, hemp and bagasse. The pulp can be modified by various treatments such as, for example, thermal, chemical and / or mechanical treatments. Desirably, synthetic fibers are not woven into the pulp fibers.

As used herein, the term "non-woven fabric" refers to a fabric having a structure of individual filament fibers which are interleaved forming a matrix but not in a repetitive and identifiable manner. Non-woven fabrics have been formed in the past by a variety of processes known to those skilled in the art such as, for example, meltblowing, spinning, wet forming and various carded textile processes. and united.

As used herein, the term "coiled knitted fabric" refers to a fabric of small diameter fibers and / or filaments which are formed by extruding or melted thermoplastic material as filaments from a plurality of fine, usually circular, capillary vessels. , in a spinning organ with the diameter of the extruded filaments then being rapidly reduced, for example, by means of dredging of eductive or non-eductive fluid or other known spin-bonding mechanisms. The production of non-woven fabrics bonded with yarn is illustrated in patents such as 1 of Appel and others of the United States of America No. 4,340,563 As used herein, the term "co-melt blown fibers" means fibers formed by extruding a molten thermoplastic material through a plurality of fine, usually circular, capillary vessels, such as melted filaments or filaments in a high velocity gas stream ( for example air) which attenuates the filaments of molten thermoplastic material to reduce their diameters, which can be microfiber diameter. Then, the meltblown fibers are carried by the high velocity gas stream and are deposited on a collecting surface to form or weave meltblown fibers and dispense at random. The meltblowing process is well known and is described in several patents and publications, including the report of Naval Research Laboratory 4364, "Manufacturing of Superfine Organic Fibers" by V.A. Wendt, E.L. Boone, and C.D. Fluharty the report from Naval Research Laboratory 5265, "U Improved Device for the Formation of Superfine Thermoplastic Fibers" by K. D. Lawrence, R.T. Lukas, and J.A. Young; and U.S. Patent No. 3,849,241 issued November 19, 1974, to Buntin et al.

As used herein, the term "basis weight" (hereinafter referred to as "BW") is the weight per unit area of a sample and may be reported as grams-force per square meter and may henceforth be abbreviated as "gfms" The basis weight must be calculated using the test procedure ASTM D 3776-96.

As used herein, the term "napkin set" refers to an arrangement between folded and stacked napkins, which may be in the form of napkin sheets.

As used herein, the term "napkin sheet" refers to a plurality of napkins connected together and series by a plurality of separate appendages through slits piercing the sheet.The individual napkins can be separated in the perforations during assortment. of napkins can include one or more layers.

As used here, the term "address of the "machine" (hereinafter referred to as "MD") is the direction of a material parallel to its forward direction during processing.

As used herein, the term "tension in the machine direction" (hereinafter referred to as "MDT") is the breaking force in the machine direction required for the breaking of a 3-inch wide sample The results can be reported as grams-force abbreviated as "gf". The tension in the machine direction can be determined using test method No. ASTM D5035 95.

As used herein the term "d appendage resistance" is the breaking force in relation to the machine required for the rupture of a sheet produced along its perforations. The results can be reported as grams force and abbreviated as "gf". The tension in the machine direction can be determined using test method No. AST D5035-95.

As used herein, the term "ratio of appendage width to spline width" (hereinafter referred to as "T / S") refers to the ratio of the average width of an appendix divided by the average width of an appendage. slit for a paper product.

As used herein, the term "gauge" refers to the thickness measurement of a sheet taken under a constant force. The "gauge" can be determined using the TAPPI test method No. 411-OM-89.

SYNTHESIS OF THE INVENTION The problems and needs described above are examined by the present invention, which provides a napkin assembly for a dispenser. The napkin set can include a first napkin sheet in addition including a plurality of napkins and a second napkin sheet further including a plurality of napkins. Cad napkin of both sheets has a basis weight of from about 20 grams per square meter to about 40 grams per square meter and can be connected to an adjacent napkin in series by a plurality of appendages. The second napkin sheet can be placed near the first napkin sheet in an off-center relationship and the first and second servillet sheets can be formed in a configuration for the nested spout.

In addition, each napkin of the first and second servillet sheets may include a first member formed integrally with a second member. These members can form a fold between them. At least one napkin of the first napkin sheet can finish around twice a respective napkin from the second napkin sheet. In addition, at least 500 napkins of the first napkin sheet can finish around the respective napkin fold. the second napkin sheet.

In addition, the base weight of the napkin can be about 30 grams per square meter, the tension in the machine direction can be greater than about 200 grams force, the ratio of appendage width to width d can be larger about 0.03, and the appendix resistance can be greater than about 30 grams force. What's more, the napkins can include pulp fibers.

Another embodiment of a servillet assembly for a dispenser may include a first napkin sheet which further includes a plurality of napkins and a second napkin sheet which also includes a plurality of napkins. Each of the napkins of both sheets may be connected to an adjacent napkin in series by a plurality of appendages. What is more, each napkin of the first second sheets can include a first member, a second member, a third member wherein the first member can be integrally formed with the second member forming a first double between the first and second members and the second member can be formed integrally with the third member forming a second fold between the second and third members. At least one napkin of the first napkin sheet can end around the second fold of a respective napkin from the second napkin sheet when it is in the nested configuration for the assortment.

In addition, at least 500 napkins of the first napkin sheet can finish around the second double of a respective napkin from the second napkin sheet Also, the napkin's basis weight can be about 20 grams per square meter about 40 grams per square meter. In addition, the base weight of the napkin can be about 30 grams per square meter, the tension in the direction of the machine can be greater than about 200 1 grams force, the ratio of width of appendix to width of the slit can be greater than about 0.03, and the appendix resistance may be greater than about 30 grams force. Additionally, the napkins may include pulp fibers.

Another embodiment of a servillet assembly for a dispenser may include a first napkin sheet that also includes a plurality of napkins and a second sheet of napkins that also includes a plurality of napkins. Each of both sheets may be connected to an adjacent serviette in series by a plurality of appendages. What is more, each napkin of the first and second napkin sheets can include a first member, or second member, and a third member, and a fourth member e where the first member can be formed integrally with the second member forming the second member. First fold between the first and second member and the second member can be integrally formed. with the third member forming the second double between the second and third members. At least one servillet of the first sheet of napkins can finish around the second fold of a respective napkin of the second sheet of napkin when it is nested for the assortment. i In addition, at least 500 napkins of the first sheet of napkins can finish around the second fold of a respective napkin from the second sheet of napkin. Also, the napkin base weight can be from about 20 grams per square meter to about 4 grams per square meter. In addition, the base weight of servillet can be around 30 grams per square meter, the tension in the machine direction can be greater than about 2000 grams force, the ratio of width d appendix to width of slit can be larger than around d 0.03, and the appendix resistance can be greater than about 30 grams force. Additionally, the napkins can include pulp fibers.

A further embodiment of the present invention is a napkin assembly for a dispenser. The napkin set may include a first napkin napkin sheet including a plurality of napkins and a second napkin sheet further includes a plurality of napkins. Each napkin can be connected to a napkin adjacent in series by a plurality of appendages. What is more, each napkin of the first second napkin sheets can include a first member, a second member, or a third member and a fourth member. The first member can be formed integrally with the second member forming a first fold between the first and second members, the second member can be formed integrally with the third member forming a second fold between the second and third members, and the third member can be formed integrally with the fourth member that forms the third fold between the third third members. The second and third members may have a length of about twice that of the first-fourth members. At least one pad of the first napkin sheet can terminate about half of a third member of a respective napkin from the second napkin sheet when it is nested for the assortment.

In addition, at least 500 napkins of the first napkin sheet can finish about half of the third member of a respective napkin from the second napkin sheet. Additionally, the base weight of the servillet can be from around 20 grams per square meter around 40 grams per square meter. Similarly, the basis weight of the napkin can be about 30 grams per square meter, the tension in the machine direction can be greater than about 2000 grams force, the proportion of appendage width to slit width can be greater d about 0.03, and the appendix resistance may be around 30 grams force. In addition, the napkins can include pulp fibers.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a front plane view, but not necessarily a scale of an incorporation of a plurality of napkins.

Figure 2 is a schematic and side view but not necessarily to scale of an incorporation of a napkin set having two servillet sheets interleaved.

Figure 3 is a side elevational view, but not necessarily to scale, of an embodiment of a napkin set in a nested configuration.

Figure 4 is a front plane view, but not necessarily to scale, of a second embodiment of a plurality of napkins.

Figure 5 is a schematic and side view but not necessarily to scale, of an incorporation of a napkin set having two servillet sheets interleaved.

Figure 6 is an elevated and side view, but not necessarily to scale, of a third embodiment of a set of napkins in a nested configuration.

Figure 7 is a front plane view, but not necessarily to scale of a third embodiment of a plurality of napkins.

Figure 8 is a schematic and side view, but not necessarily to scale, of a third embodiment of a napkin assembly having two interleaved servillet sheets.

Figure 9 is a side elevational view, but not necessarily to scale, of a third embodiment of a napkin set in a nested configuration.

Figure 10 is a perspective view of a dispenser of open napkins housing a set of napkins.

DETAILED DESCRIPTION OF THE PREFERRED INCORPORATION OR INCORPORATION.

Referring now to the drawings as the like reference numerals designate a corresponding structure through the views and like reference numbers used in conjunction with the lower case letters sequentially referred to a series of essentially identical items or components. Referring particularly to Figures 1-3, there is shown a set of napkins 100 having a first sheet of napkins 110 a second sheet of napkins 150. The first and second servillet sheets 110 and 150 can be essentially identical. As a result of this, only the first napkin sheet 110 is discussed in detail hereinafter.

The first napkin sheet 110 may include a plurality of napkins 115. Referring to Figures I and 3, the nodes (identified by the letter "N") may be placed on the drawings to merely indicate perforations or slits 126 that separate the individual napkins. These nodes are not really present about the desired incorporations.

Referring to Figure 1, there is shown a portion of a napkin sheet 110 showing a plurality of napkins 115 which can include napkins 120a and 120b. Napkins can be held together with the plurality of napkins 124. These napkins can be separated by a plurality of slits 126 that pierce the sheet 110. The appendices 124 can vary from about 1 millimeter to about 10 millimeters and can be manufactured by any method easily recognizable by a person with ordinary skill in the art. Further, even if the appendages 124 are shown as having the same length and as being spaced evenly across the sheet 110, you should understand that the appendices 124 may be of various sizes or spaced unevenly in the alternate embodiments. As an example the appendages 124 can be placed on only one half of the sheet 110. In addition, the appendages 124 can be varied in size in relation to the slits 126 depending on the properties of the sheet 110. As an example, some or all the appendages 124 may have a length twice that of an adjacent slit 126. This appendage structure may allow the separation of the napkins 120a and 120b during assortment and may be used to connect the subsequent napkins, such as the napkins 120c and 120d , as well. The napkins 120a and 120b can be essentially identical, consequently, only the napkin 120a is discussed in detail hereinafter.

The napkin 120a may include a first member 128a and a second member 130a. The members 128a and 130a which have approximately the same dimensions can be formed integrally together creating a fold 140a therebetween. The fold 140a may allow the napkin 120a of the first sheet 110 to be interfolded with a napkin 160a of the second sheet 150.

The first and second napkin sheets 110 150 can be interfolded to form a nested configuration 185 as shown in Figure 3. Even though the napkin set shown 100 consists of eight napkins, desirably the set of napkins 100 can include d from about from 200 to around 1000 napkins. In addition, it is contemplated that even larger napkin numbers can be used.

Referring to Figures 2 and 3, the sheets 11 and 150 may be placed in an off-center relationship 180. The second sheet 150 may include a plurality of the servillet 155 where each napkin 160a-d may include, respectively, a first member 168a -d, a second member 170a-d, and a fold 172a-d, similar to the napkins previously described 120a-d of the first sheet of napkins 110. When the assembly 100 is formed in the nested configuration 185, the napkin 120a can end in appendices 124 around the corresponding location of fold 172a of servillet 160a. This position can align the perforated section of the napkin 120a with the fold 172a of the napkin 160a. The napkin 120b-d of the first sheet 110 may end in the same manner to correspond with the respective napkins 160b-d of the second sheet 150.

Referring to Figs. 4-6, there is shown another set of napkin 200 having a first napkin sheet 210 and a second napkin sheet 260. The first and second serviette sheets 210 and 260 can be essentially identical. As a result of this, only the first napkin 210 sheet is discussed in detail hereinafter.

The first napkin sheet 210 may include a plurality of napkins 215. Referring to Figures 5 and 6, the nodes "N" are placed over the drawings to merely indicate the perforations or slits 226 that separate the individual napkins. These nodes are not currently present on the desired additions.

Referring to Figure 4, there is shown a portion of a napkin sheet 210 showing a plurality of napkins 215 which can include napkins 220a and 220b. The napkins 220a and 220b may be joined together with a plurality of appendages 224. These appendages 224 may be separated by a plurality of slits 226 that pierce the sheet 210. The appendages 224 may vary from about d to one millimeter to about 10. millimeters and can be manufactured by any method easily recognizable to one with an ordinary skill in the art. Further, even though the appendages 224 are shown as having the same width and as being evenly spaced across the sheet 210, you should understand that the trainees 224 may be of various sizes or are spaced unevenly in the alternative embodiments. As an example, the appendages 224 may be placed on only one half of the sheet 210. In addition, the appendages 224 may be varied in size relative to the slits 22 depending on the properties of the sheet 210. As an example, some or all of the appendages 224 may have a length of double that of the adjacent slit 226. This appendage structure may allow the towels 220a and 220 to be separated during the assortment and may be used to connect the subsequent napkins, such as napkins 220c and 220d too. The napkins 220a and 220b can be essentially identical, consequently only the napkin 220a will be discussed in detail hereinafter.

The napkin 220a can include a first member 228a, a second member 230a and a third member 232a. The members 228a, 230a and 232a that have approximately the same dimensions can be formed integrally together. Members 228a and 230a can form a fold 240a and members 230a and 232a can form a fold 242a. The folds 240a 242a may allow the napkin 220a of the first sheet 21 to be interfolded with a napkin 270a of the second leaf 260.

The first and second napkin sheets 210 260 may be interfolded to form a nested pattern 295 as shown in Figure 6. Even though the napkin set shown 200 consists of eight napkins, desirably the set of napkins 200 may include d from about from 200 to around 1000 napkins. Furthermore, it is contemplated that even larger numbers of napkins can be used.

Referring to Figures 5 and 6, the sheets 21 and 260 may be placed in an off-centered relationship 292. The second napkin sheet 260 may include a plurality of napkins 265 where each napkin 270a-d may include a first member 278a-d , a second member 280a-d, a third member 282a-d, a first fold 284a-d, and a second double 286a-d, similar to the napkins previously described 220a-dd the first sheet of napkins 210. When the set 200 and formed in the nested configuration 295, the napkin 220 can be terminated in the appendages 224 around the corresponding location of the second fold 286a of the second napkin sheet 270a. This position can align the perforated section of the napkin 220a with the fold 286a of the napkin 270a The napkins 220b-d of the first sheet 210 can finish in the same manner to correspond with the respective napkins 270b-d of the second sheet 260.

Referring to Figures 7-9, there is shown an additional napkin set 300 having a first napkin leaf 310 and a second napkin sheet 360. The first and second napkin sheets 310 and 360 can be essentially identical. As a result, only the first napkin sheet 310 is discussed in detail hereinafter.

The first napkin sheet 310 may include a plurality of napkins 315. Referring to Figures 8 and 9 the nodes "N" are placed on the drawings to merely indicate the perforations separating the individual napkins. These nodes are not presently present on the desired incorporations.

Referring to Figure 7, there is shown a portion of a napkin sheet 310 that shows a plurality of napkins 215 that can include napkins 320a and 320b. Napkins 320a and 320b can be fastened together with a plurality of appendixes 324. These appendices 324 can be separated by a plurality of slits 326 that pierce the blade 310. The appendices 324 can vary from about d to one millimeter to about 10 millimeters and can be manufactured by any method easily recognizable by one with ordinary skill in the art. . Further, even though the appendix 324 is shown as having the same width and as being spaced evenly across the sheet 310, it should be recognized that the appendices 324 may be of various sizes spaced unevenly in the alternate embodiments. As an example, the appendices 324 may be placed on only one half of the sheet 310. In addition, the appendices 324 may be of varying size relative to the slits 32 depending on the properties of the sheet 310. As an example, some or all of the appendages 324 can have a length of double that of an adjacent slot 326. This structure with appendages can allow the separation of the napkins 320a and 320 during the assortment and can be used to connect the subsequent napkins, such as the napkins 320c and 320d as well. The napkin 320a and 320b can be essentially identical, consequently, only the napkin 320a is discussed in detail hereinafter.

The napkin 320a may include a first member 328a, a second member 332a, a third member 336a, and a fourth member 340a. The members 328a, 332a, 336a and 340a can be formed integrally together. Members 328a and 332 can form a fold 344a, members 332a and 336a can form a fold 346a and members 336a and 340a can form or fold 348a. The lengths 330a and 342a of the respective members 328a and 340a may be about half the length 334a and 338a of the respective members 332a and 336a. The folds 344a and 346a and 348a may allow the napkin 320 of the first sheet 310 to be intermeshed with a servillet 370a from the second sheet 360.

The first and second serviette sheets 310 360 can be interfolded to form a nested configuration 395 as shown in Figure 9. Even though the napkin set 300 consists of eight napkins, desirably the set of napkins 300 can include around from 200 to about 1000 napkins. In addition, s see that even larger numbers of napkins can be used.

Referring to Figures 8 and 9, the sheets 31 and 360 can be placed in an off-centered relationship 392. The second napkin sheet 360 can include a plurality of napkins 365 where each napkin 376a-d can include a first member 378a-d , a second member 380a-d, a third member 382a-d, and a fourth member 384a-d, similar to the previously described napkins 320a-d of the first napkin sheet 310. When the assembly 300 is formed in the nested configuration 395, the napkin 320a can terminate the appendages 324 around the corresponding place in the middle of the third member 382a of the napkin 370a. These positions can align the perforated section of the servillet 320a with about the midpoint of the member 382a. The napkins 320b-d of the first sheet 310 can be finished in the same manner to correspond with the respective napkins 370b-d of the second sheet 360.

The napkins can be constructed of cellulose fibers, non-woven materials, or combinations of both materials. The basis weight of the napkins can vary from about 10 grams-force per square meter (hereinafter, can be abbreviated as "gsm") to about 5 grams-force per square meter, desirably from about 20 grams- force per square meter about 40 grams force per square meter, and desirably about 3 grams-force per square meter.

These napkins can be interfolded using any method or machine known to one with an ordinary skill in the art as described by the patent of United States of America No. 1,253,644, 1,302,241, and 1,457,978 which are incorporated herein by this reference.

A napkin dispenser, example 400, which is described in patent application No. 08 / 991,669, entitled "Cartridge Container for Providing Paper Products", incorporated herein by reference may contain a set of napkins 300, even when the sets of 100 200 napkins can also be used. The dispenser 400 can be verticated with the napkins supplied by gravity or horizontally with a spring to force the napkins from the spout. The first member 328 of the napkin sheet 310 can protrude from the dispenser to be grasped by a user. The grip and pull of the member 328a can pull a portion of the servillet 370a to the second blade 360 from the spout 400. The user can pull the napkin 320a to tear along the appendixes 324 to obtain a napkin. Thus, the user can obtain a napkin 320a to be used while au leaves a part of the next napkin outside the dispenser so that the next user grasps it. As a result of this, this invention can allow an assortment of napkins one at a time and minimize waste. It should be understood that the other sets of napkins 100 and 200 operate in the same manner. In particular, the removal of a napkin from one sheet results in the placement of a napkin from the other sheet or out of the dispenser 400 for gripping by a user. In addition, the set of napkins 200, 300 and 400 can be inverted so that either end can supply individual napkins.

COMPARATIVE DATA Generally, the ratio of appendage width to slit width (hereinafter referred to as "T / S") is greater in the napkin assemblies of the present invention than toilet tissue products. The value of the ratio of appendage width to gap width of the napkins is generally 0.04 while the ratio value of appendage width to slit width of the toiletry products for toilets is generally 0.02. This superior proportion creates a stronger connection between the napkins, which in turn, prevents the inadvertent separation of the napkins within the dispenser during said assortment.

Table 1 shows data of a servillet sheet of the present invention and an interfolded toilet tissue.

If it was shown, the napkin tends to have a higher basis weight, a caliper measurement, and a tension in the machine direction superior to those of the toilet tissue. Therefore, the napkin has different physical properties created by its intended use, which may have different assortment properties to those of the toilet tissue.

Table 2 shows the data in relation to the perforated structure for the diaper products of table 1.

Even though the appendage widths for the napkin of the present invention and the tissue for the toilet tissue are the same, the width of the slit for the toilet tissue is about twice that of the napkin, and similarly, the resistance of the napkin. appendix is less than or fourth of the napkin. Generally, the larger slit widths in the toilet tissue result in less appendix present in the sheet. The toilet tissue can be constructed with fewer appendages due to its smaller blade size, which may require less pulling force during assortment. Napkins tend to be larger sheet products and as a result of this, more force may be required to pull the napkins from the spout. Therefore, smaller slit width and therefore more appendages, can prevent unintentional napkin sheet separation during the assortment.

Although the present invention is described in relation to certain preferred embodiments, it should be understood that the subject matter encompassed by the present invention is not limited to those specific embodiments. On the contrary, it is intended that the subject matter of the invention include all alternatives, equivalent modifications as may be included within the spirit and scope of the following claims.

Claims (24)

R E I V I N D I C A C I O N S

1. A set of napkins for a dispenser, napkin set comprises: a first napkin sheet further comprising a plurality of napkins wherein each servillet has a basis weight of about 30 grams force per square meter to about 40 grams force per square meter is connected to an adjacent napkin in series by a plurality of appendages; a second napkin sheet further comprising a plurality of napkins wherein each servillet has a basis weight of about 20 grams force per square meter to about 40 grams force per square meter is connected to an adjacent napkin in series by a plurality of appendages , the second napkin sheet being placed near the first napkin sheet in an off-center relationship so that the first second napkin sheets are formed in a nested configuration for assortment.

2. The napkin assembly, as claimed in clause 1, characterized in that each servillet of the first and second napkin sheets further comprise a first member formed integrally with a second member which forms a fold between the first and second members; Y at least one napkin of the first napkin sheet ends around the fold of the respective servillet of the second napkin sheet.

3. The napkin assembly, as claimed in clause 2, characterized in that at least 500 napkins of the first napkin sheet end around the fold of a respective napkin from the second napkin sheet.

4. The napkin set, as claimed in clause 1, characterized in that the base weight of the napkin is about 30 grams force per square meter.

5. The napkin assembly, as claimed in clause 1, characterized in that the napkins comprise pulp fibers.

6. The napkin assembly, as claimed in clause 1, characterized in that the tension in the machine direction is greater than about 2000 gf.

7. The napkin set, as claimed in clause 1, characterized in that the T / S ratio is greater than about 0.03.

8. The napkin assembly, as claimed in clause 1, characterized in that the appendix resistance is greater than about 30 gf.

9. A set of napkins for a dispenser, napkin set comprises: a first napkin sheet further comprising a plurality of napkins wherein each servillet is connected to an adjacent napkin in series by a plurality of appendages; a second napkin sheet further comprising a plurality of napkins wherein each servillet is connected to a napkin adjacent in series by a plurality of appendages; each napkin of the first and second napkin sheets also include a first member, a second member, and a third member, wherein the first member is integrally formed with the second member forming a first fold between the first and second members and the second member. second member is formed integrally with the third member forming a second fold between the second and third members; Y at least one napkin of the first napkin sheet ends around the second fold of a respective napkin from the second napkin sheet when nested for the assortment.

10. The napkin set, as claimed in clause 9, characterized because at least 500 napkins of the first sheet of napkins ends around the second fold of a respective napkin from the second sheet of napkins.

11. The napkin assembly, as claimed in clause 9, characterized in that the base weight of the napkin is about 20 grams per square meter about 40 grams per square meter.

12. The napkin assembly, as claimed in clause 11, characterized in that the napkin base weight is around 30 grams force per square meter.

13. The napkin assembly, as claimed in clause 9, characterized in that the napkin comprises pulp fibers.

14. The napkin assembly, as claimed in clause 9, characterized in that the tension in the machine direction is greater than 2000 gf, approximately

15. The napkin set, as claimed in clause 9, characterized in that the proportion of T / S is greater than about 0.03.

16. The napkin assembly, as claimed in clause 9, characterized in that the appendix resistance is greater than about 30 gf

17. A set of napkins for a dispenser, napkin set comprises: a first napkin sheet comprising in addition a plurality of napkins wherein each napkin is connected to a napkin adjacent in series by a plurality of appendages; a second napkin sheet further comprising a plurality of napkins wherein each servillet is connected to a napkin adjacent in series by a plurality of appendages; each napkin of the first and second napkin sheets also includes a first member, a second member, a third member, and a fourth member wherein the first member is formed integrally with the second member forming or first folding between the members first and second, the second member is integrally formed with the third member forming a second fold between the second and third members, the third member being integrally formed with the fourth member forming a third doubles between the third quarter members; the second and third members have a length of about twice the first and fourth members; Y at least one napkin of the first sheet of napkins that ends around the middle of the third member t > of a respective napkin from the second napkin sheet when the nested configuration is for the assortment.

18. The napkin assembly, as claimed in clause 17, characterized in that at least 500 napkins of the first napkin sheet terminate about half of a third member of a respective servillet from the second napkin sheet.

19. The napkin assembly, as claimed in clause 17, characterized in that the bas weight is about 20 grams force per square meter about 40 grams force per square meter.

20. The napkin set, as claimed in clause 19, characterized in that the base weight of the napkin is about 30 grams force per square meter.

21. The napkin assembly, as claimed in clause 17, characterized in that the 1 napkins comprise pulp fibers.

22. The napkin assembly, as claimed in clause 17, characterized in that the tension in the machine direction is greater than about 200 gf.

23. The napkin assembly, as claimed in clause 17, characterized in that the proportion T / S is greater than about 0.03.

24. The napkin assembly, as claimed in clause 17, characterized in that the appendix resistance is greater than about 30 gf. E S U M E N The present invention provides a napkin set for a dispenser. The napkin assembly may include a first napkin sheet further including a plurality of napkins and a second napkin sheet further including a plurality of napkins. Each servillet of both sheets has a basis weight of from about 20 gram force per square meter about 40 grams force per square meter can be connected to an adjacent serviette in seri by a plurality of appendages. The second servillet sheet can be placed near the first sheet of napkins in an off-centered relationship and the first and second napkin sheets can be formed in a nested configuration for the assortment.