TWI309170B - - Google Patents

Description

1309170 (1) Description of the Invention [Technical Field] The present invention relates to a disposable mask, and more particularly to a disposable mask containing an electret fiber layer and a method of manufacturing the same. [Prior Art] Conventionally, it has been known that a part or all of the mask body is constituted by the electret fiber layer for the mask to be attached to the face of the wearer. For example, Patent Document 1 discloses a mask which is composed of an inner material and an outer material covering the inner material and which has both low pressure loss and high trapping property; the inner material is made of an electret melt-blown nonwoven fabric. In the above configuration, the outer material is composed of a short fiber non-woven fabric. Patent Document 2 discloses a mask composed of an outer layer, an intermediate layer, and an inner layer; the outer layer is composed of a spunbond/meltblown/spunbond nonwoven fabric, and the intermediate layer is composed of an electret meltblown material. The inner layer is composed of the above non-woven fabric. [Patent Document 1] Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. There is no mention of the joint form of the inner and outer materials. Further, in Patent Document 2, only all or a part of each layer is only required to be bonded to an adjacent layer, and the combination form is not specifically described. -5- (2) 1309170 However, in the case where the mask is composed of a plurality of layers, it is conventional to laminate the layers by, for example, application of a hot-melt adhesive. However, the electret performance is at a high temperature (about 13 (TC attenuates due to leakage of charge caused by heat, which is well known). If the layer is coated in order to bond a plurality of layers of electret fibers, The above-mentioned performance is impaired. φ Further, in Patent Document 2, since the inner and outer layers are formed, generally, the non-woven fabric has a low joint strength for forming the inner and outer layers, or there is an unjoined portion. The problem of raising hair. In the present invention, since a plurality of fiber layers of the layer are joined by interposing a heat-fusible bonding agent, a post-body is obtained, so that no damage is caused by the hot-melt adhesive. The invention relates to a mask body having shape retention, low raising, low pressure loss and φ energy, and a method for manufacturing the same. [Technical means for solving the problem] According to the present invention, the nose of the wearer is covered after use for achieving the above purpose The mask body of the mouth is a configuration form in which the inner and outer layers formed by the sheet and the inner and outer layers of the electret fiber sheet are integrally interposed between the inner and outer layers as one of the features of the present invention. The fact that the joint faces of the inner and outer layers and the intermediate layer are formed by a sandwich manufacturer is integrated as described above. Therefore, the interlacing point of the fibers of the heat-fusible and anti-adhesive nonwoven fabric is applied. It is easy to contain the properties of the electret fiber-disposing mask. The high-capacity and other disposable masks are made of thin fibers and are connected to the upper layer. The masks are intermittently interposed. 6 - (3) 1309170 joining the hot-melt adhesives of the joint faces, wherein the amount of adhesion of the hot-melt adhesive to the joint faces of the inner and outer layers with respect to the inner and outer layers is larger than that of the inner and outer layers In the above-mentioned intermediate layer, the amount of adhesion of the hot-melt adhesive to each of the joint faces is small. As another aspect of the present invention, in the method of manufacturing the mask, each of the inner and outer layers is intermittently After applying the hot melt adhesive, the surface of each of the inner and outer layers φ coated with the hot-melt adhesive is superposed on the surface of each of the intermediate layers, and the respective layers are bonded to the hot-melt adhesive. The above-mentioned electret fiber sheet forming the intermediate layer is preferably a melt-blown nonwoven fabric, and the fiber sheet of the inner and outer layers is preferably formed of a non-woven fabric. If the form is formed, the inner and outer layers are The mask body is formed to have better shape retention property, can suppress fuzzing caused by friction, reduce pressure loss, and can collect coarse dust particles, and can collect fine particles of dust in the intermediate layer. The fiber density of the intermediate layer is higher than the density of the fibers of the inner and outer layers (a), and the basis weight of the inner and outer layers is larger than the basis weight of the intermediate layer (b>, forming the inner and outer layers The fiber diameter of the fiber sheet is larger than the fiber diameter of the electret fiber sheet forming the intermediate layer (c), and the coating amount of the hot melt adhesive is bonded to the inner layer and the intermediate layer. The surface, the joint surface of the intermediate layer and the outer layer are each 0.5 to 2.5 g/m2 (d), that is, at least one of (a) to (d) or a combination of the plurals is preferable. In particular, according to this configuration, the pressure loss (4) 1309170 of the mask body caused by the dust can be reduced, and the collection efficiency can be further improved by the above configuration. The area ratio of the point sticking to the entire area of the non-woven fabric is 15 to 25%, and the area of the sticking point is 0.2 to 2 mm 2 , which improves the shape retention of the mask body and suppresses fuzzing. Ideal. In the present invention, the term "pure-non-woven fabric" refers to a point-like pressure heating treatment in which a predetermined distance is applied to the entire direction of the fiber woven mesh, and the constituent fibers of the woven mesh are punctured. Under the heating, the > interlacing point of the fiber is melted. It is preferable that the above-mentioned intermittent application of the hot-melt adhesive is applied by a fibrous spray. If the form is configured for this, the above-mentioned intermittent coating can be easily carried out. The temperature at which the hot-melt adhesive is applied is 1 10 to 145 ° C, which is preferable because the effect of the electret of the intermediate layer is not lowered. [Effects of the Invention] According to the disposable mask of the present invention, it is possible to provide an electret which does not impair the intermediate layer even if the inner and outer layers and the intermediate layer are intercalated with a hot melt adhesive. The performance or effect is excellent in conformality, and it can suppress fuzzing and 'have a disposable mask with low pressure loss and high trapping performance. According to the manufacturing method of the disposable mask of the present invention, the manufacturing method in which the above effect is effective can be easily realized. [Embodiment] -8 - (5) 1309170 An embodiment of the disposable mask of the present invention will be described below with reference to the drawings *. Referring to Fig. 1, it is understood that the disposable mask 10 is a mask body 11' covering the nose and mouth of the wearer, and a pair of ear straps that are hung on the wearer's ear to hold the mask body 11 in a loaded state. 12, 12 constitutes. The mask body 1 1 'is a thermoplastic sheet member 13 and 14 having substantially the same shape and size as those having elastic non-elongation, and the peripheral surface thereof is attached to the face of the wearer 0 and is attached to the nose of the wearer. Formed with appropriate spacing between the mouths. However, if the mask body 1 1 ' is to ensure the required shape retention, it is also somewhat elastically extensible. The sheet members 1 3, 14 are joined together by heat sealing along the front edge 15 which is convexly curved toward the front of the two. The ear straps 1 2 ' are formed of thermoplastic sheet members 16 and 17 having the same shape and size as those having elastic elongation. The sheet members 116, 17 are provided near the front end portions of the sheet members, and are provided with openings 18, 19 through the ears of the wearer, and the base edges 20, 21 of the sheet members are joined by heat sealing. The sheet members 13, 14 are followed by end edges 22, 23. Referring to FIGS. 2(A) and (B), it is understood that the mask body 11 formed by the sheet members 13 and 14 is an inner layer 24 including a skin contact surface of the wearer when the mask is attached, and An outer layer 25 located on the non-skin contact surface of the wearer and an intermediate layer 26 interposed between the inner and outer layers 24 and 25 integrally with the inner and outer layers. The intermediate layer .26 is formed from an electret fiber sheet. The electret fiber sheet has a basis weight of 15 to 30 g/m2, an apparent density of 0.08 to 0.13 g/cm3, a fiber diameter of 55 to 4.0//m, and particularly a fiber diameter of 1.0 to 2.50 #m-9 - (6) 1309170 Meltblown non-woven fabrics are ideal for not only maintaining the low pressure loss required, but also achieving high collection efficiency, and in particular, the large contact area with dust. As a non-woven fabric material, it is a thermoplastic synthetic fiber such as a polyolefin-based, polyester-based or polyamid-based. The electret fiber sheet is obtained by electrifying the fiber sheet or the non-woven fabric fiber, and has a required amount of positive or negative charge on the surface of the fiber. The electretization can be carried out by a conventional method, for example, the methods disclosed in Patent Documents 1 and 2. Further, in the intermediate layer 2, depending on the apparent density and the fiber diameter, in order to appropriately control the pressure loss and the collection efficiency, a large number of fine pores may be formed in addition to the fiber gap. The inner and outer layers 24, 25 are based on a basis weight of 20 to 5 Og/m2, an apparent density of 〇. 〇9 〇.12g/cm3, and a fiber diameter of 10 to 40/zm. It is ideal for shape and fluff suppression, as well as the required low pressure loss and high trapping efficiency. The so-called "point-and-stick non-woven fabric" is defined before. The area ratio of the point sticking to the entire area of the non-woven fabric at this point is 15 to 25%, and the area of the stick is 0.2 to 2 mm 2 , which can maintain low pressure loss and high trapping efficiency, and raise the mask. It is desirable that the body 11 has shape retention and suppresses fuzzing. If the area ratio is less than 15%, and the area of the above-mentioned points is less than 0.2 m 2 , the desired shape retention and fuzzing suppression cannot be obtained. When the area ratio exceeds 25%, and the area of each of the above-mentioned points is more than 2 mm2, the rigidity of the mask body 11 becomes too high, and the mask attachment feeling is broken, so that the pressure loss is increased and the collection efficiency is lowered. -10- (7) 1309170 As described above, the basis weight of the inner and outer layers 24, 25 is larger than that of the intermediate layer 26, and the apparent density of the inner and outer layers 24, 25 is lower than that of the intermediate layer 26, and may be in the outer layer 25. The larger particles of dust are trapped, so that the smaller particles of dust pass through the outer layer 25, and are trapped as much as possible at the intermediate layer 26, and the breathing of the wearer through the inner layer 24 can be made easier. Furthermore, since the intermediate layer 26 is formed by the melt-blown nonwoven fabric, the fiber combining force is low, and the hair is raised in a sliding contact with other objects, and the inner and outer layers 24 and 25 can effectively protect the surface of the intermediate layer 26 and lift. The overall physical/mechanical strength of the mask body 1 1 , that is, the strength of the inner and outer surfaces of the mask body 11 and the overall conformability of the mask body 11 are desirable. The synthetic resin which is a non-woven material of the inner and outer layers 24, 25 does not necessarily have to be the same as the intermediate layer. The inner and outer layers 24, 25 and the intermediate layer 26, the joint faces of the inner and outer layers 24, 25 and the intermediate layer 26, that is, the joint faces 24a and the joint faces 26a, the joint faces 26b and the joint faces 24, are interposed intermittently. Bonded to the bonding surface 27 of the bonding surfaces. Although not shown in the drawings, the adhesion amount ' of the intermediate layer 26 to the bonding faces 26a, 26b of the inner and outer layers 24, 25 is set to be larger than the bonding faces of the inner and outer layers 24, 25 with respect to the intermediate layer. The amount of adhesion of the hot melt adhesive 27 of 24a, 25a is also small. This can minimize the influence of heat generated by coating with respect to the electret fiber_solder 27 of the intermediate layer 26, and can minimize the mesh clogging of the intermediate layer 26 while suppressing Pressure loss. The inner and outer layers and intermediate layers 24, 25, 26, in particular, directly spliced to the inner layer 24' of the wearer's skin so as to contain the possible range of makeup and have a special powder and the knot and the heat between the trees Preparation of the agent 26 -11 - (8) 1309170 A drug or chemical agent with an antibacterial or deodorizing effect, such as cyclodextrin, is more reasonable. Further, as the hot-melt adhesive 27, it is preferable to use a synthetic rubber having a cosmetically acceptable range and a low odor. The mask body 11 having the above configuration can be obtained by a method described later. The first and second fiber webs (point-bonded nonwoven webs) to be formed as the inner and outer layers 24, 25, and the third fiber web (melt-blown nonwoven fabric) which is formed in advance as the intermediate layer 26 The joint surface of the net, that is, the so-called curtain coater which is blown by the hot-melt adhesive 27 with air, with respect to the joint faces 24a, 25a, to coat the adhesive The amount of the cloth is 0.5 to 2.5 g/m 2 , preferably 0.8 to 1 _5 g/m 2 , and is applied to the joint faces 24 a and 25 a in a fibrous form, that is, intermittently. In the coating, the temperature of the hot-melt adhesive 27 is such that the constituent fibers of the first and second fiber webs (the inner and outer layers 24, 25) are not melted and/or for the third fiber web ( The electret fiber of the intermediate layer 26) has no effect of affecting or affecting a small temperature, that is, a dissolution temperature of 11 〇 to 1 451, which is preferable. However, at this temperature, the time ejected by the coating device of the hot-melt adhesive 27 with respect to the first and second fiber webs can be obtained from the injection time point until the first and second fibers are It is also more desirable to take this control into consideration when the time at which the woven mesh is joined to the third fiber woven mesh is appropriately controlled and the temperature is 1 to 20 to 140 °C. If the coating amount of the hot-melt adhesive 27 is less than 0.5 g/m2, the interlayer between the inner and outer layers 24 and 25 and the intermediate layer 26 may be peeled off. If the above-mentioned 2.5 g/m2' is exceeded, low pressure loss cannot be ensured. And high trapping. -12- (9) 1309170' Next, the joint surfaces 24a and 25a of the first and second fiber webs are opposed to the joint surfaces 26a and 20b of the third fiber web, respectively. The fiber web is superposed on the fiber web of the latter under appropriate pressure, and the first, second and third fiber webs are joined by a heat-fusible adhesive 27 to form a laminated fiber web. Then, the laminated fiber web is cut into the shape of the sheet members 13, 14 of the mask body 11, and the sheet member is heat-sealed at the front end edge 15 to form a mask body 1 1 . The mask body 11 is applied to the joint faces 24a and 25a of the first and second fiber webs in a fibrous manner by a so-called curtain coater known in the art, which is blown by air. The joint faces 24a and 25a are joined to the joint faces 26a and 26b of the third fiber web, respectively, and the fiber densities of the first and second fiber webs are lower than those of the third fiber web. Therefore, the % adhesion amount of the hot-melt adhesive 27 of each of the joint surfaces 26a and 26b of the first and second fiber webs of the third fiber web is higher than that of the first and second fiber webs. The amount of adhesion of the hot-melt adhesive 27 to each of the joint faces 24a and 25a of the third fiber web is small. Further, as described above, in particular, the first fiber woven net of the inner layer 24 contains a cyclodextrin which exhibits the antibacterial or deodorizing effect, and the hot-melt adhesive agent uses the rubber-based one. . <Examples> A polypropylene fiber having a basis weight of 20 g/m2, an apparent density of 〇llg/cm3 -13-(10) 1309170, and a fiber diameter of 2.5 vm was respectively produced and subjected to an electret The processed melt-blown non-woven fabric, and a composite fiber having a basis weight of 30 g/m2, an apparent density of 0.09 g/cm3, a fiber diameter of 26, and a sheath of polyethylene ("ESC" manufactured by Chisso Co., Ltd.) The dots formed are not woven. A hot-melt adhesive (trade name "ever grip" "FM 165") was applied to the single side of the non-woven fabric at a gravure spray of 1 g/m2. By laminating the coated surface on both sides of the melt-blown nonwoven fabric within 1 minute after the application, the melt-blown nonwoven fabric is sandwiched by a non-woven fabric under appropriate pressure, and the nonwoven fabric is joined. A sample was prepared. <Comparative Example 1 > A sample was prepared under the same conditions as in the examples, except that the above-mentioned hot-melt adhesive was applied to both surfaces of the melt-blown nonwoven fabric. <Comparative Example 2 > • A melt-blown non-woven fabric composed of a polypropylene fiber having a basis weight of 20 g/m 2 , an apparent density of 0.1 lg/cm 3 and a fiber diameter of 2.5 μm and subjected to electret processing The single-area layer of the non-woven fabric is a spunbonded non-woven fabric composed of polypropylene fibers having a basis weight of 3 Og/m 2 , an apparent density of 0. 〇 9 g/cm 3 and a fiber diameter of 26 μ m, and the other non-woven fabric A single-area layer is the same spunbonded nonwoven fabric as the spunbonded nonwoven fabric described above. At the time of the above-mentioned lamination, the polyethylene resin is applied to each side of the melt-blown non-woven fabric to form a straight-line shape (strip shape) having a thickness of 3/zm, a width of 1 mm, and a spacing of 3 mm. The layers of the above non-woven fabric are joined. _ 14 - (11) 1309170 <Experimental Example> The measurement of the air permeability (pressure loss) and the collection efficiency was carried out in accordance with "JIS Τ 81δ1 dust mask". For the measuring device, the mask of MASKTESTER AP-63 1 0FP manufactured by Shibata Science was used. Further, the measurement of the number of rubbing times until the raising of the hair was carried out according to the "JIS l φ 0 8 4 9 F rubbing fastness test", and the sample was subjected to a load of 500 g, and the fluffing was measured from the first several times. The experimental results are shown in the table below. [Table 1] Air permeability (cc/cm2/sec) Collection efficiency (〇/〇) Number of frictions up to fluffing Example 63 90 30 Comparative example 1 60 82 30 Comparative example 2 28.4 91.1 1 [Simplified description of the drawing Fig. 1 is a perspective view of a disposable mask of the present invention. Fig. 2(A) is an enlarged cross-sectional schematic view taken along line 11_11 of Fig. 1. (B) is its separation diagram. [Description of main component symbols] 1 1 : Mask body 24: Inner layer 15-(12)1309170 25 : 26 : 24a : 25a : 2 6a, 2 7 ·_ Joint surface of the outer layer of the inner layer of the outer layer 2 6 b: joint surface hot melt adhesive of the intermediate layer

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Claims (1)

J309170 (1) X. Patent application scope In the case of the outer special, the mouth is the combination of its own type, the continuation agent, and the weaving. Discarding the various layers of the cover, the cover is not covered, that is, the cover is shaped, and the outer cover is said to be attached to the upper cover. After the spray is woven, the inner fuse of the outer cover is melted. It is described on the thin side, that is, in the description, the upper and lower rear pieces are combined with the ones and the other ones. Use thin, the item is Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ 成 成 成 成 成 成 成 成 成 成 成 成 成 成 成 成 成 成 成 少 少 少 少 少 少 少 少 少 少 少 少 少 少 少 少Each of the agents is in the form of a very fibrous type of thin coating, which is described in the middle of the article, and is attached to the upper layer of the upper layer, and the outer layer of the layer is coated with the outer layer of the IJ$ layer tH body. The outer layer of the inner layer of the inner layer of the layer (4) is in the outer layer f*. W 驻 驻 内 内 内 熔 熔 熔 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述 述In the upper 2, it is 3, and the ground is the formation of the pair of the same amount, and the nasal layer is characterized by the opposing surface shape and the fiber is covered. 4. The disposable type as described in claim 1 or 2 The mask, wherein the respective inner and outer layers have a basis weight which is larger than the basis weight of the intermediate layer. 5. The disposable mask according to claim 1 or 2, wherein the fiber diameter of the fiber sheet forming the inner and outer layers is a fiber diameter of the electret fiber sheet forming the intermediate layer Still big. 6) A disposable -17-(2) 1309170 cover as described in claim 1 or 2, wherein the coating amount of the hot-melt adhesive is in the inner layer and the middle layer The joint surface, the joint surface of the intermediate layer and the outer layer are each 0.5 to 2.5 g/m2. 7. A disposable mask for use in the second application of the patent scope, wherein the area ratio of the point adhesion to the entire area of the above-mentioned point non-woven fabric is 15 to 25 %, and the area of the adhesion point is 0.2. ~2mm2. 8. A method for manufacturing a disposable mask, which is directed to a mask body covering a nose and a mouth of a φ cover, comprising an inner and outer layer respectively formed of a fiber sheet, and an electret fiber sheet A method for manufacturing a disposable mask which is formed integrally with the inner and outer layers and is interposed between the inner and outer layers, and is characterized in that: • thermal fusion bonding is intermittently applied to each of the inner and outer layers After the application, each of the inner and outer layers coated with the hot-melt adhesive is superposed on the surface of each of the intermediate layers, and the respective layers are bonded to the hot-melt adhesive. • 9 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The manufacturing method of the disposable mask according to the invention of claim 8 or 9 wherein the temperature of the hot-melt adhesive is 110 - 1 4 5 °c.