JP2002129478A - Shading cloth and shading container for photosensitive material using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide telemps having sufficient adhesive strength and aptitude for ultrasonic slits, and for light-sensitive materials which have sufficient light-shielding quality without performing a sealing process. Provide a light-tight container. SOLUTION: A pile yarn subjected to crimp processing has a pile density of 45,000 yarns / cm ² or more and 85,000.
This is a light-shielding cloth piece incorporated into the base cloth structure so as to have a density of less than 1 / cm ^2, and without applying a sealing process for preventing back leakage of the hot-melt adhesive, the hot-melt adhesive area And a light-shielding container provided with a light-shielding cloth piece provided on the back surface side of the base fabric structure and a slit at the entrance and exit of the photosensitive material.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light-shielding container for storing a photosensitive material such as a photographic paper, a photosensitive material for printing, and a color negative film for photographing. The present invention also relates to a light-shielding cloth piece provided at a slit-like opening through which a photosensitive material is taken in and out of such a light-shielding container, that is, telemp.

[0002]

2. Description of the Related Art Photographic 35 mm roll films and the like are used in a state of being housed in a light-shielding container called a cartridge. As is well known, this cartridge basically includes a cylindrical iron body, a spool housed in the body, a spool as a core for winding the film into a roll, and caps for closing both ends of the body. You. On the inner surface of the film entrance of the above-mentioned body, a light-shielding cloth usually called a telemp is stuck.

This light-shielding cloth piece needs to be able to prevent the raw film from being exposed to light, and also needs to be able to smoothly pull out and rewind the film. Is used. Conventionally, as this type of light-shielding fabric structure, a woven or knitted fabric laid one above another is woven or knitted and connected by pile yarn to form a two-ply woven or knitted fabric, and then the upper or lower woven or knitted fabric is formed. (See Japanese Patent Application Laid-Open No. Sho 62-98347). These telemps shield light when the pile yarn comes into contact with the photographic film, and have sufficient flexibility and resistance to pull out of the photographic film for ordinary use.

Conventionally, a filler and an adhesive are applied to these light-shielding fabric structures. The filler is used to prevent the pile yarn from falling off the base cloth and to prevent the adhesive from penetrating into the pile portion. Examples of fillers include polyvinyl alcohols described in JP-A-62-55649, JP-A-62-71949, JP-A-62-27733, and JP-A-2-72348. , Polyolefin-based, polyurethane-based, polyamide-based, polyester-based, synthetic rubber-based, epoxy-based, phenol-based, and acryl-based synthetic emulsions not included therein, or blends of two or more of these. And a copolymer emulsion combining the above.

[0005] The adhesive is used to adhere the light-shielding fabric structure to the main body of the photographic material storage container. Examples of the adhesive include commercially available double-sided adhesive tapes, polyolefins such as polyethylene, vinyl acetate copolymers such as ethylene-vinyl acetate copolymer, and acrylic acid copolymers such as ethylene-ethyl acrylate and ethylene-isobutyl acrylate. , Nylon 6, nylon 6.6, nylon 1
0, nylon 12, polyamides such as N-methoxymethylated nylon, polyesters such as terephthalic acid, polyvinyl butyral, polyvinyl acetate, cellulose derivatives such as acetate, methyl cellulose, acetate butyrate, polymethyl methacrylate, etc. Polymethacrylates, polyvinyl ethers such as polyvinyl methyl ether, polyurethanes, polycarbonates, styrene-based block copolymers such as styrene-ethylene-butylene-styrene, styrene-butadiene, isoprene, synthetic rubbers such as butyl rubber or One or a mixture of two or more selected from special rubbers not included in these, or acrylic copolymers not included in the above.

The filler is used to prevent the adhesive from penetrating from the back surface (coated surface) of the base fabric structure, particularly when the viscosity of the adhesive is low. When the degree of soaking into the light-shielding cloth piece can be adjusted only by the adhesive, there is no need to apply a sealing agent, and this is more preferable in terms of cost, facility simplification, and the like. In Japanese Patent Publication No. 5-88455,
Although an invention in which only an adhesive is applied without using a filler is disclosed, in this case, the pile yarn is not sufficiently prevented from falling off from the base fabric, and the pile yarn is crushed during coating, It was impossible to ensure the light-shielding quality. Further, with the conventional hot melt adhesive having a solid content of 100%, sufficient adhesive strength of the telemp to the cartridge body plate cannot be secured, and peeling occurs when the caps are fitted to both ends of the cylindrical portion forming portion. In some cases, light leaked, causing a problem of light incident. Also, depending on the usage environment of the photo film, if the telem comes off from the cartridge body plate, or if the camera with the photo film loaded is left in the car, especially in the summer,
There is a problem that the camera and the part coated with the telemp adhesive are bonded to each other, which not only contaminates the camera but also makes it impossible to take out the photographic film.

When a hot-melt adhesive having a solid content of 100% is applied to the above-described light-shielding fabric structure without using a filler, the conventional adhesive cannot provide the filler effect. In some cases, pile yarns may fall off from the base fabric. If the pile yarn falls off from the base cloth, not only will the manufacturing process be contaminated, but if the dropped pile yarn adheres to the film, the user will be imprinted in the image and cause user complaints such as image damage.

A hot-melt adhesive having a solid content of 100% generally has a high viscosity and poor fluidity. Therefore, when applying to a base cloth, it is necessary to press a coating head against the base cloth to apply the adhesive. Can not. For this reason, in the conventional light-shielding fabric structure, the pile yarn is crushed at the time of coating, and it is difficult to secure the light-shielding quality. If the pile density is increased to prevent crushing during coating, the crush resistance of the photo film will increase, and the film surface will be scratched, and the film will not be rolled up and rewound with the camera. there were. Furthermore, if the melting temperature of the adhesive is increased to prevent collapse during coating, and the fluidity of the adhesive is increased, the pile yarn is collapsed by heat, and it was impossible to ensure light-shielding quality. .

[0009] As a method of preventing collapse during coating,
To increase the pile density and make it harder to collapse, and to reduce the pull-out resistance of the photographic film,
When the base cloth is impregnated with a lubricant as described in Japanese Patent No. 0748, peeling occurs at the interface between the base cloth and the adhesive, and there is a problem that sufficient adhesive strength is not obtained.

Furthermore, in the step of slitting the base cloth to a narrow width after the application of the adhesive, a resin residue adheres to the slit blade, thereby deteriorating the slit suitability. As a result, the yield of telempe as a product is reduced. Getting worse. In addition, if the resin residue remains on the base cloth, the resistance to pulling out the film increases, and image damage such as scratching of the film at the time of rewinding occurs, which may cause a user complaint.

[0011]

DISCLOSURE OF THE INVENTION The present invention has been made to solve the above problems, and a first object of the present invention is to provide an inexpensive and sufficient adhesive strength and an ultrasonic slit suitability. The purpose is to provide a combined telempe. A second object of the present invention is to provide an inexpensive light-shielding fabric structure having a small compression resilience characteristic and a sufficient light-shielding quality, and a light-shielding container for a photosensitive material such as a photographic film using the same. A third object of the present invention is to provide a telemp that does not need to be filled and does not need to use an adhesive using an organic solvent or the like.

[0012]

The objects of the present invention are as follows.
The problem has been solved by the following means. (1) A crimped pile yarn having a pile density of 45,000 yarns / cm ² or more and 85,000 yarns / cm ²
A light-shielding cloth piece incorporated in a base cloth structure, as described below, wherein a hot-melt adhesive area is provided on the back surface of the base cloth structure without applying a hot-melt adhesive filling process. Pieces. Here, the base fabric structure is preferably a woven structure or a knitted structure, and more preferably a knitted structure formed by sari yarn and insertion yarn. Further, the phrase "incorporated in the base fabric structure" refers to weaving into a woven fabric or knitting into a knitted fabric. Hot melt adhesive has solid content of 10
It is preferably 0%. (2) In a light-shielding container for a light-sensitive material in which a light-shielding member is provided at a slit portion of the light-sensitive material entrance / exit, the cross sections on both sides of the entrance / exit slit are (1) a light-shielding container main body, (2) a hot melt adhesive region, and (3) ) The crimped pile yarn has a pile density of 45,000 yarns / cm ² or more.
A light-shielding cloth piece incorporated in a base cloth structure so as to have a density of 5,000 lines / cm ² or less, wherein the light-shielding cloth piece is not subjected to a sealing process on the back surface of the base cloth structure; Shade container for materials. The light-shielding container for a photographic light-sensitive material of the present invention,
It is particularly preferable that the cartridge is a 135 type film cartridge. (3) A narrow light-shielding cloth obtained by cutting the wide light-shielding cloth according to (1) using an ultrasonic slitting machine. "Narrow"
Is preferably 2 to 30 mm in width. (4) The composition of the hot melt adhesive is 40 to 50 parts by mass of ethylene vinyl acetate copolymer resin, and the tackifier is 25 to 3 parts.
5 parts by mass, 5 to 15 parts by mass of inorganic fine particles, and wax 1
0 to 20 parts by mass, any one of (1) to (3)
The light-shielding cloth according to the item. (5) The composition of the hot melt adhesive is 40 to 50 parts by mass of an ethylene-vinyl acetate copolymer resin, and the tackifier is 25 to 3 parts.
5 parts by mass, 5 to 15 parts by mass of inorganic fine particles, and wax 1
The light-shielding container for a photosensitive material according to claim 2, wherein the amount is 0 to 20 parts by mass.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail. The light-shielding cloth piece of the present invention (also referred to as “light-shielding cloth structure” or “teremp” in the present invention) includes a portion of a base fabric structure (also referred to as a “base cloth portion” in the present invention). The pile part consisting of the pile woven into (in the present invention,
Also called "pile section". ), And the pile portion is made of a pile having a dense and uniform length. Here, pile means multifilament,
As described below, the present invention uses crimped bulk yarn. Typical examples of the base fabric structure of the telemp of the present invention include a woven structure composed of a warp and a weft, a knitted structure formed by sari yarns and insertion yarns, and a raised knitted fabric. Is preferred, and a knitted structure is most preferred. On the side of the base cloth portion of the telempe of the present invention, that is, on the back surface of the base cloth structure, a hot melt adhesive area is provided without performing a sealing process, and both inside of a slit-shaped opening through which the photosensitive material of the light shielding container enters and exits. , Is attached to the light shielding container body. The pile portion of the telemp is in a light-tight state facing both sides of the slit-shaped opening through which the photosensitive material enters and exits, and comes in direct contact with the photosensitive material entering and exiting, while preventing light leakage into the light-shielding container, The photosensitive material is fed without damaging the photosensitive material and reducing the withdrawal resistance.

The inventors of the present invention have conducted intensive studies and have found that in order to apply a hot-melt adhesive area directly to a base fabric portion without hot-sealing the telemump with a hot-melt die coater or the like, it is necessary to use a pile yarn. The present inventors have found that the combination of the density and the type of pile yarn is important, and have reached the present invention. That is, the telemp of the present invention is obtained by converting a crimped pile yarn into a pile yarn having a pile density of 45,000 yarns / c.
m ² or more and 85,000 lines / cm ² or less (also referred to as “45,000 to 85,000 lines / cm ^{2, the} same applies hereinafter).
This is a cloth piece formed on a base cloth structure such that As the pile yarn of the present invention, not a spun yarn but a filament yarn, and a bulky yarn obtained by crimping a filament yarn. This bulky yarn is made by increasing the bulk by changing the shape of the yarn fiber.

As a means for producing a bulky filament yarn used for the telemping of the present invention, a method of crimping a filament yarn is typical. Specific means of this crimping include (1) a method of passing a filament yarn between heated small gears to impart the tooth profile thereof,
(2) A method of continuously twisting, heat setting, and untwisting by a twisting spindle and a heater by gripping between rollers while feeding a filament yarn, (3) Feed rotating at high speed (4) A polymer having a different heat shrinkage is spun in, for example, a side-by-side type, and heated in a state of being formed into a yarn or a fabric by winding the yarn in a state where the yarn is bent in a state where the yarn is bent. And a method for expressing shrinkage. As for the crimp characteristics of the bulky yarn used for the pile yarn, the value of the elasticity recovery ratio according to JIS L-1090 is preferably 10 to 60%, more preferably 2 to 60%.
0 to 40%. If the elasticity restoration rate is less than 10%,
There is a possibility that sufficient bulkiness cannot be obtained, and the light-shielding property may be largely reduced. If the bulkiness is more than 60%, the bulkiness becomes large, so that a required pile compression property cannot be obtained, and a drawback resistance may increase. Is not preferred.

In the telempe of the present invention, the pile formed of the bulky yarn has a yarn thickness of 56 to 167 dtex, and is preferably formed of 24 to 100 filaments. More preferably, the thickness of the yarn is 56
８９89 dtex and 30 to 80 multifilament yarns are used. The multifilament yarn of the present invention is preferably a synthetic fiber, and is made of a polyester such as PET or a polyamide such as nylon 66. In the telempe of the present invention, the pile density is 45.0.
00-85,000 lines / cm ² , preferably 5
It is from 000 to 75,000 lines / cm ² .

In the telempe of the present invention, the height (pile thickness) of the pile of the present invention including the base cloth is preferably 1 to 2 mm.

In the telempe of the present invention, the adhesive area to be adhered to the container (cartridge) body is formed by at least one layer of hot melt adhesive. The adhesive region may be stripe-shaped or island-sea-like, but preferably forms a continuous region where the adhesive is thin, and particularly preferably forms a continuous adhesive layer.

The properties of the hot melt adhesive used in the present invention are preferably of a 100% solid content type which develops fluidity when heated in a solid state at room temperature. This solid hot melt adhesive has a fluidity of 200 when heated.
200,000 to 300,000 mPa · s at ℃
It is preferable that the material has a fluidity in the range of 400,000 to 500,000 mPa · s at 180 ° C. The composition of the hot melt adhesive for imparting such a range of fluidity has a vinyl acetate content of 20 to 30.
%, A melt index of 2 to 5 g / 10 min and a softening point of 150 to 190 ° C., for example, ethylene vinyl acetate based on Evaflex 360 (Mitsui-Dupont Polychemical Co., Ltd.) An adhesive of a system copolymer can be used. The hot melt adhesive of the present invention has a melting point of 130 in addition to this copolymer.
Aromatic petroleum resin tackifiers of up to 150 ° C., such as Nisseki Neopolymer 140 (Nippon Petrochemical Co., Ltd.), inorganic fine particles such as talc, and polyethylene wax having a melting point of 90 to 110 ° C. and a small molecular weight distribution. It is preferred to add a wax. The composition ratio of the hot melt adhesive of the present invention is ethylene-vinyl acetate copolymer resin: 40 to 50% by mass,
Tackifier: 25 to 35% by mass, inorganic fine particles: 5 to 15
% By mass, wax: preferably 10 to 20% by mass. Further, in order to provide a light-shielding property against the transmission of the base cloth, carbon black, for example, Mitsubishi Carbon Black # 44 [Mitsubishi Chemical Corporation] is added to the hot melt adhesive in an amount of 2 to 2.
It is preferable to add 5% by mass and sufficiently knead to disperse the carbon black. If the added amount of carbon black is less than 2% by mass, the light-shielding property becomes insufficient when the film becomes telemp, and a failure such as light fogging of the film tends to occur in a film cartridge as a final product. If it is added in an amount of more than 5% by mass, the adhesive strength may be reduced, or the viscosity may be increased to deteriorate the coating property.

In the hot melt adhesive composition of the present invention, the ethylene-vinyl acetate copolymer resin has a melt index of 2 to 5 g / 10 minutes and a softening point of 150 to 19.
Preferably it is 0 ° C. Melt index is 5g
If the softening point is less than 150 ° C or less than / 10 minutes, the cohesive force of the adhesive is insufficient and sufficient heat-resistant adhesive strength cannot be obtained. There is a fear of seeping out. Conversely, if the melt index is less than 2 g / 10 min and the softening point is higher than 190 ° C., the resin extrusion motor of the coating apparatus is overloaded, and the apparatus is liable to break down, making extrusion difficult. When the blending ratio of the ethylene-vinyl acetate copolymer resin is less than 40% by mass, the adhesive strength at a low temperature cannot be obtained. Uniform and stable coatability on the base fabric cannot be obtained. When the melting point of the tackifier is 130 ° C. or lower, the heat resistance of the adhesive cannot be obtained, and the viscosity may be reduced to cause unevenness in the resin penetration state. If the temperature is higher than 150 ° C., the fluidity of the adhesive becomes poor, and uniform and stable coating properties on the light-shielding base fabric cannot be obtained. In the composition ratio, if the amount of the tackifier is more than 35% by mass, the tackiness of the adhesive becomes too strong. There is a possibility that a failure may occur in the line, and there is also a risk of adhesion of resin scum and the like in the final telemp. 2 tackifiers
If the amount is less than 5% by mass, the target adhesive strength cannot be obtained.
If the composition ratio of the wax is more than 20% by mass, the cohesive strength of the adhesive is reduced, the target adhesive strength is not obtained, and the viscosity is further reduced, so that there is a possibility that the infiltration state may be non-uniform. If the amount of the wax is less than 10% by mass, the open time of the adhesive is prolonged, so that there is a possibility that blocking occurs in the process of manufacturing telemping. Further, when the content of the inorganic fine particles exceeds 15% by mass, the fluidity of the adhesive is deteriorated, so that uniform and stable coatability on the light-shielding base fabric cannot be obtained, and a target adhesive strength cannot be obtained. If it is less than 5% by mass, a sufficient cohesive force of the adhesive cannot be obtained.
It goes without saying that the materials used in these hot-melt adhesives are not allowed to contain components which cover the photographic material.

As a method for applying the hot melt adhesive of the present invention, Nordson Corp. or Yuri Roll Machine Co., Ltd.
A hot melt extrusion die coater coating device can be used. The method for supplying the hot-melt adhesive in the coating apparatus is not particularly limited, but the adhesive of the present invention belongs to a class of high viscosity and is preferably melted by a heating cylinder and supplied by a screw method. Adhesive is directly applied to the back side (ground surface) of the telempe substrate using these extrusion die coater coating equipment.
Apply to. The direct application increases the anchoring effect of the adhesive on the filament on the ground surface of the telemp substrate, so that a high adhesive strength can be obtained. The temperature of the hot melt adhesive at the time of application is preferably a temperature that does not cause thermal denaturation in the case of a light-shielding telemp composed of synthetic fibers. In the present invention, “ground” is synonymous with “base cloth”. The synthetic fiber referred to here is made of a thermoplastic resin such as a polyester such as polyethylene terephthalate or a polyamide such as nylon. For example, when the material of the telem is a synthetic fiber such as polyethylene terephthalate or 66 nylon, the temperature is preferably 200 ° C or lower, more preferably 150 to 180 ° C.

The viscosity of the hot-melt adhesive at the time of application must be adjusted according to the physical properties of the hot-melt resin and the application temperature, but is preferably 200,000 to 700,000 mPa.
S is preferred, and more preferably 400,000 to 60
It is 000 mPa · s. 200,000mPa ・
If it is smaller than s, the adhesive may leak to the pile side, and if it is larger than 700,000 mPa · s, the penetration and adhesion of the resin to the fiber structure will be poor, and the fluff will come off during cutting in the telemping production line. May be increased, and it is also difficult to perform smooth and uniform coating. Further, it is preferable to set the clearance between the coating head and the backup roll in a range of 0.4 mm or more and 1.0 mm or less as an apparatus condition at the time of coating. If the clearance is smaller than 0.4 mm, the pile yarn is strongly compressed, so that the pile may be crushed or the running property of the base cloth may be deteriorated. On the other hand, if it is larger than 1.0 mm, the force for pushing the adhesive into the base fabric is weakened, so that a sufficient anchoring effect cannot be obtained and the adhesive strength may be reduced. The coating amount of the adhesive is preferably 90~150g / m ^2, the coating amount is 90 g / m ²
If the amount is less than the target, the target adhesive strength cannot be obtained. If the amount of application is more than 150 g / m ^{2, the} amount of the resin residue attached to the ribbon may increase in the ultrasonic slitting process for producing the telempu ribbon. Further, the adhesive may be transferred to the cartridge body plate when the ribbon is thermocompression-bonded to the cartridge body plate, and the appearance may be deteriorated.

The light-shielding base fabric suitable for applying the hot melt adhesive has a pile density range of 45,000 on the pile side.
~ 85,000 strands / cm ² and pile thickness of 1.6
The pile compression characteristic is 0.49 N /
15 to 25% thickness displacement rate under a load of cm ² , 1.96
Those exhibiting a thickness displacement ratio of 26 to 45% under a load of N / cm ² are preferable. Here, the thickness displacement rate refers to a ratio of the thickness reduced by the load from the original thickness. This characteristic is achieved by combining the thickness of the pile yarn, the cross-sectional shape of the yarn, the type of yarn, and the type of yarn processing. By giving such pile density and compression characteristics to the pile yarn, the pile does not collapse even when subjected to the pressure for pushing the adhesive to the ground surface during the application of the adhesive, and furthermore, the light shielding property when a film cartridge is formed. It is a good-quality light-shielding telempe that is good and has low extraction resistance. For example, single yarn decitex is 1.16
Decitex 84 decitex / 72 filament polyester processed yarn is piled at a density of 50,000-60,
When used at 2,000 fibers / cm ² , good pile characteristics as described above can be obtained. In a similar processed yarn, when a polyester processed yarn of 84 dtex / 36 filaments having a single yarn detex of 2.31 dtex is used, the thickness displacement ratio becomes smaller than 26% under a load of 1.96 N / cm ^2. Although pile collapse does not occur during coating, the draw-out resistance increases when a film cartridge is used. Therefore, it is preferable that the single yarn decitex be low. It is necessary to set the thickness of the telemump by the width of the upper and lower gaps of the slit-shaped opening of the cartridge body to be stuck, and the value obtained by halving the gap width plus 0.05 to 0.05
It is preferable to set the distance in a range of 0.3 mm. 0.05
If it is less than 0.3 mm, the light-shielding property may be greatly reduced, and if it is more than 0.3 mm, the extraction resistance may be undesirably increased. The ground surface is preferably a woven or warp-knitted structure in which the coating property of the adhesive is good, and when the ground structure is a warp-knitted structure, the applicant has proposed a kusari sounyu structure devised in Japanese Utility Model Publication No. 7-50741. It is preferable to use a nonwoven fabric or a wrinkled / satin texture. By adopting such a texture, the unevenness of the ground surface is reduced, the coatability is good, and the target adhesive strength can be obtained with a small amount of adhesive applied. Further, in the case of the Kusaari-Sounyu structure, a multifilament yarn having a thickness of 56 to 110 decitex is preferable as the thickness of the yarn used, and several types of filament yarns having different decitex may be used in combination, 45 or less is preferable in order to have an anchoring effect between the agent and the fiber. If the thickness of the yarn is larger than 110 dtex, the slitting property may be deteriorated in the ultrasonic slitting process for manufacturing the telempe ribbon. Because of lowering, there is a possibility that stable adhesion to a set position when sticking to the cartridge body may not be possible. It is preferable that the material of the pile yarn and the ground yarn used in the warp knitting structure and the woven fabric is composed of a single synthetic fiber, but two or more kinds of synthetic fibers may be used in combination. .

The light-shielding cloth used in the present invention may be made of Japanese Utility Model Publication No. 4-23236 or Japanese Utility Model Application Laid-Open Publication No. 4-33040 in order to prevent static when drawing out a photographic film and to secure a light-shielding function.
As described in the gazette, the fibers are preferably black and include an antistatic material and a conductive material. As the coloring method, original dyeing (post-dyeing) may be used, or black dyed yarn may be used. The black dyed yarn is a yarn obtained by kneading carbon black into the yarn and coloring the fiber black.However, carbon black generally has good light absorption over a wide range of ultraviolet, visible, and infrared light. It can be applied to photosensitive materials having spectral absorption at various wavelengths. However, the number of single yarn decitexes of the black dyed yarn commercially available is usually 2 or more. However, as described above, when a polyester yarn of 84 dtex / 36 filaments having a single yarn decitex of 2.31 dtex is used, the thickness displacement rate is 26% under a load of 1.96 N / cm ^2.
Although it is smaller, pile collapse does not occur at the time of coating, but there is a possibility that the draw-out resistance becomes higher when a film cartridge is formed. Considering the cost, it is better to use commercially available yarn. In this case, it is possible to obtain a target compression property by mixing a regular yarn and a black dyed yarn in a pile yarn. In the case of using 84 dtex / 72 filament polyester processed yarn for the pile yarn and 84 dtex / 36 filament polyester black dyed yarn for the black dyed yarn, the preferred mixing ratio of the black dyed yarn to the pile yarn is 5% by mass. With more than 60% by mass,
Preferably, the content is 10% by mass or more and 30% by mass or less.

The light-shielding cloth used in the present invention has a wide width (50
0mm or more) and then cut to use width (slit)
Alternatively, it can be manufactured from the beginning with the used width. As a method of slitting a wide product so as not to come off the pile, there is a method of hot-melt cutting with a heat blade described in Japanese Utility Model Publication No. 48-35790, or a method of cutting with an ultrasonic cutter, a laser cutter, a heat cutter, or the like. Ultrasonic cutters are preferred.

FIG. 1 shows the use of the light-shielding telemp of the present invention.
It is a front view of an example of the body part formation metal plate which stuck light-shielding telemps to both right and left ends. The body portion forming metal plate 1
It is composed of port portion forming portions 7a and 7b and a tube portion forming portion 8,
On the upper and lower sides of the cylindrical portion forming portion, a convex portion 9a to be fitted to a cover member or a bottom member (not shown) of the photographic film cartridge,
9b is provided. The body portion forming metal plate 1 shown in FIG. 1 has a length A in the width direction of 79.75 to 79.8.
5 mm, length B in the longitudinal direction is 42.15 to 42.25 m
m, the vertical length D of the port portion forming portion 7a, and the vertical length C of the port portion forming portion 7b are 35.8-3.
6.0 mm, the length F in the width direction of the port portion forming portion 7a is 7.1 to 7.3 mm, the length E in the width direction of the port portion forming portion 7b is 3.4 to 3.6 mm, the port portion forming portion. Length H in the width direction from the end of 7a to the end of projection 9a of the cylindrical portion forming portion
Is 21.15 to 21.40 mm, the port portion forming portion 7b
The length G in the width direction from the end of the cylindrical portion to the end of the convex portion 9a of the cylindrical portion is 17.3 to 17.5 mm, and the convex portion 9 of the cylindrical portion is formed.
The length I in the vertical direction from the end of a to the end of the port portion forming portion 7a is 3.1 to 3.2 mm, and the vertical length J of the convex portion 9a of the cylindrical portion forming portion is 0.5 to 0.5. 0.6 mm.

The light-shielding telempe 10a shown in FIG.
10b were both attached by cutting the long light-shielding telemp connection body attached to the body portion forming metal plate at a position where both ends in the length direction project from the cylindrical portion forming portion 1 to 2 mm. Things. Shading telempe 10a
Has a width of 11.4 to 11.6 mm and is attached at a position where an end projects 1.0 to 2.5 mm in the width direction from the port portion forming portion 7a. The light-shielding telemp 10b is
Port portion forming portion 7b having a width of 9.4 to 9.6 mm
Is attached at a position protruding 1.0 to 2.5 mm in the width direction from.

FIG. 2 is a sectional view of an example of a photographic film cartridge using the metal plate for forming the body portion with the light-shielding telemp shown in FIG. In the film case of the photographic film cartridge, the cylindrical portion forming portion 8 of the body portion forming metal plate 1 shown in FIG. 1 is brought into contact with the light shielding telemps 10a and 10b attached to the port portion forming portions 7a and 7b. As described above. Then, the photo film 1 wound around the spool shaft 11
2 is a light-shielding telep 10 of the port portion 7 on both sides.
a, by being pulled out in contact with 10b,
The photographic film in the cartridge is shielded from light.

The width of the light-shielding telemps 10a and 10b is not limited as long as it is in contact with the photographic film so that the photographic film stored in the cartridge is not exposed. For example, the width (corresponding to the depth when viewed from the port opening of the photographic film cartridge) of both the light-shielding telemps 10a and 10b can be 9.4 to 9.6 mm. In particular, in consideration of the yield of the light-shielding telempe and management of manufactured parts, it is preferable that the light-shielding telempe has a small width and the same width. In addition, when the width of the light-shielding telemps is set to 9.4 to 9.6 mm, FIG.
It is preferable to set the length F in the width direction of the port portion forming portion of the body portion forming metal plate in 3.5 to 4.0 mm to 4.0 mm in order to enhance the light shielding property of the photographic film cartridge.

After the wide light-shielding cloth is ultrasonically slit, the narrow light-shielding cloth is wound around a plastic reel while traversing it. If the winding tension at this time is too low, winding collapse occurs during transportation, and it becomes impossible to pull out the narrow light-shielding cloth using equipment. On the other hand, if the winding tension is too high, the pile may be crushed, resulting in poor light-shielding properties.

In the cartridge body plate described above, for example, a thin metal plate cut into a predetermined shape is first formed into a substantially boat-shaped cross section, and the above-mentioned telemps are attached to the left and right ends of the thin plate. As described above, the thin plate is formed into a substantially cylindrical shape by bending.

As a method of attaching telem to a thin plate,
A method in which the telempe is cut into a predetermined length in advance, a method in which the cut telempe is intermittently conveyed and the cut telempe is adhered one by one to the stopped thin plate, and a method in which the sticking processing speed is increased to increase productivity. For example, JP-A-59-143841 and JP-A-63-74869, Japanese Patent Publication No. 5-532
No. 56, or Japanese Patent Application Laid-Open No. Hei 7-301888, a plurality of thin plates are continuously conveyed in a state where the front end and the rear end thereof are almost in contact with each other, and two long plates coated with an adhesive are provided. It is practical to use a method in which telemps are continuously adhered to both left and right end portions of the arranged thin plates, and then a cutter blade is inserted between the adjacent thin plates to cut the telemps.

The light-shielding cloth used in the present invention is a light-shielding cloth provided in a drawer provided in a cartridge of various photosensitive materials (photographic film, photographic paper, photosensitive resin film, etc.), and a device for a photosensitive material. Can be used for lining or the like for the purpose of blocking light of a kind (such as a photo developing machine). In particular,
INDUSTRIAL APPLICABILITY The light-shielding container of the present invention can be preferably applied to a container having a structure in which various photographic films are stored in a light-shielding manner and the film is pulled out from a drawer outlet. In particular, various photographic photosensitive materials in a sheet form and a roll form (JIS 135 size photographic film, color printing) It is suitable for cartridges for storing paper, computerized photosetting film, photographic paper, thermal paper, photosensitive resin film, microfilm, X-ray film, etc.).

[0034]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail based on embodiments.

[Example 1] The structure of a light-shielding telemp having a knitted structure is the Kusa-Saunyu structure shown in Japanese Utility Model Publication No. 7-50741, and the pile knitted material, which is a material, is used as a base yarn and an insertion yarn. Decitex / 36
A polyester yarn of filament was used, and a polyester processed yarn of 84 decitex / 72 filaments was used as the pile yarn, and the two base fabrics were knitted by a double Raschel machine in a state where the two base fabrics were connected with the pile yarn. At this time, knitting was performed so that the knitting gauge was 22 and the course density was 50, and then the base fabric was cut at the center to obtain a light-shielding pile knit. The pile thickness after the center cut is 2.2 mm. The polyester yarn used for the pile yarn was obtained by heating twice with a triaxial circumscribing friction false twist device. The base cloth thus cut in the center was then appropriately adjusted in length of the pile yarn in a pre-shirring step, and the pile was adjusted by brushing while being heated to 120 ° C. Further, the pile was heated to 190 ° C. in a presetting step to crimp and solidify the pile, and thereafter, the pile was subjected to a dyeing process for imparting light-shielding properties and dried. Further, the pile thickness was adjusted to 1.4 mm by final shearing. This results in a compression property of 0.49 N at a pile thickness of 1.4 mm.
/ Cm ² load, 20% thickness displacement rate, 1.96 N / c
A light-shielding cloth piece exhibiting a thickness displacement rate of 32% under a load of m ² was obtained. At this time, the course density was 50, the well density was 26, and the pile density was 58,000 lines / cm ² .

A hot melt adhesive having a solid content of 100% is applied to the ground surface of the base cloth to form an adhesive layer for adhering the light-shielding base cloth to the cartridge body. The hot melt adhesive used here has a vinyl acetate content of 26% and a melt index of 2 g / 10.
45% by mass of an ethylene vinyl acetate copolymer resin having a softening point of 160 ° C. or more, 30% by mass of an aromatic petroleum resin tackifier having a melting point of 140 ° C., 10% by mass of talc, and polyethylene having a melting point of 100 ° C. An ethylene vinyl acetate adhesive formed with a composition of 15% by mass of wax, and 3% by mass of carbon black is further added to the hot melt adhesive to impart light shielding properties, and the carbon black is sufficiently kneaded. What was dispersed was used. The hot-melt adhesive prepared with this composition was applied to Yuri Roll Machine Co., Ltd.
Using a PD hot-melt die coater, the amount of application is 1 on the ground surface of the light-shielding base cloth at a resin temperature of 170 ° C.
The coating was performed so as to be 00 g / m ² . The light-shielding base fabric in which the hot-melt adhesive is formed only in one layer as described above is used.
The light-shielding telempe of the present invention was obtained by slitting to 1.5 mm and 9.5 mm width.

Then, a transport means for continuously transporting the plurality of thin plates in a state in which the front end and the rear end are close to each other, that is, the left end and the right end are respectively aligned,
A crimping means is provided for pressing two long telemps to which adhesive has been applied in advance against the left and right ends of the thin sheet being conveyed, and each telemump is continuously arranged along the left end and the right end of the thin sheet. The cartridge was attached, and the long telemp after attachment was cut from the back surface of each thin plate to form a cartridge body plate. Further, a color negative film having an ISO sensitivity of 400 [Fujicolor SUPERIA 400 (trade name) manufactured by Fuji Photo Film Co., Ltd.] is wound around a spool and housed in the cartridge, and in this state, the light-shielding properties and the quality characteristics of pull-out resistance are evaluated. did.

[Example 2] The structure of the light-shielding telemp having a knitted structure is the Kusa-Saunyu structure shown in Japanese Utility Model Publication No. 7-50741, and the pile knitted material, which is a material, is 84 dtex / 36 as a chain yarn of the base fabric. A polyester yarn of 56 filaments / 24 filaments is used as the polyester yarn of the filament, and a polyester yarn of 84 dtex / 72 filaments is used as the pile yarn, and the two base fabrics are piled using a double Raschel machine. Knitted in a state connected by thread. At this time, the knitting gauge is 22, and the course density is 52.
Then, the base fabric was cut at the center to obtain a light-shielding pile knitted fabric. The pile thickness after the center cut is 2.2 mm. The polyester yarn used for the pile yarn was obtained by heating twice with a triaxial circumscribing friction false twist device. The base cloth thus cut in the center was then appropriately adjusted in length of the pile yarn in a pre-shirring step, and the pile was adjusted by brushing while being heated to 120 ° C. Further, the pile was heated to 190 ° C. in a presetting step to crimp and solidify the pile, and thereafter, the pile was subjected to a dyeing process for imparting light-shielding properties and dried. Further, the pile thickness was adjusted to 1.50 mm by final shearing. As a result, the compression characteristics are 0.1 mm at a pile thickness of 1.5 mm.
18% thickness displacement rate under a load of 49 N / cm ² , 1.96
A light-shielding base fabric exhibiting a thickness displacement rate of 30% under a load of N / cm ² was obtained. At this time, the course density is 54, the well density is 26, and the pile density is 62,700 lines / cm ² . A hot melt adhesive having a solid content of 100% is applied to the ground surface of the base fabric to form an adhesive layer for attaching the light-shielding base fabric to the cartridge body. The hot melt adhesive used here has a vinyl acetate content of 19
%, Melt index 2 g / 10 min, softening point 18
20% by mass of an ethylene-vinyl acetate copolymer resin at 5 ° C., a vinyl acetate content of 28%, and a melt index of 6 g / l
0 minutes, 25% by mass of ethylene vinyl acetate copolymer resin having a softening point of 160 ° C, 30% by mass of a tackifier of an aromatic petroleum resin having a melting point of 140 ° C, 10% by mass of talc, and a melting point of 1%.
An ethylene vinyl acetate adhesive formed with a composition of 15% by mass of polyethylene wax at 00 ° C. was used. The hot-melt adhesive prepared with this composition was applied to a ground surface of a light-shielding base fabric at a resin temperature of 170 ° C. using a GPD hot-melt die coater manufactured by Yuri Roll Machine Co., Ltd. at an application amount of 110 g / g. It was applied as a m ^2. Thereafter, a sample was prepared in the same manner as in Example 1.

[Comparative Example 1] The structure of the light-shielding telemp having a knitted structure is the kusa-ri-sou-nyu structure shown in Japanese Utility Model Publication No. 7-50741. / 36 filament polyester yarn, and as the pile yarn, 84 decitex / 36 filament polyester processed yarn, using a double Raschel machine, the front and rear 2
The base fabrics were knitted in a state where they were connected with pile yarns, to obtain a napped fabric having a pile density of 29,000 yarns / cm ² . Thereafter, a sample was prepared in the same manner as in Example 1.

Example 3 A base fabric was prepared in the same manner as in Example 1. A hot melt adhesive having a solid content of 100% is applied to the base fabric. The hot melt adhesive used here has a vinyl acetate content of 28% and a melt index of 6 g.
/ 10 min, 45% by mass of ethylene vinyl acetate copolymer resin having a softening point of 160 ° C, 40% by mass of an aromatic petroleum resin tackifier having a melting point of 140 ° C, 10% by mass of talc, and a melting point of 100 ° C. An ethylene vinyl acetate adhesive formed with a composition of 5% by mass of polyethylene wax, and 3% by mass of carbon black is further added to the hot melt adhesive to impart light-shielding properties, and the mixture is sufficiently kneaded to obtain carbon black. Was used. The hot-melt adhesive prepared with this composition was applied to Yuri Roll Machine Co., Ltd.
Using a PD hot-melt die coater, the amount of application is 1 on the ground surface of the light-shielding base cloth at a resin temperature of 170 ° C.
The coating was performed so as to be 00 g / m ² . Thereafter, a sample was prepared in the same manner as in Example 1.

Example 4 A base fabric was prepared in the same manner as in Example 1. A hot melt adhesive having a solid content of 100% is applied to the base fabric. The hot melt adhesive used here has a vinyl acetate content of 19% and a melt index of 2 g.
/ 10 minutes, 35% by mass of ethylene vinyl acetate copolymer resin having a softening point of 185 ° C., 30% by mass of an aromatic petroleum resin tackifier having a melting point of 140 ° C., 10% by mass of talc, and a melting point of 70 ° C. An ethylene vinyl acetate adhesive formed with a composition of 25% by mass of paraffin wax. Carbon black is added by adding 3% by mass of carbon black to a hot melt adhesive in order to impart light-shielding properties and kneading sufficiently. Was used. The hot-melt adhesive prepared with this composition was applied to GP manufactured by Yuri Roll Machine Co., Ltd.
Using a D hot-melt die coater, the amount of application was 10
Coating was performed so as to be 0 g / m ² . Thereafter, a sample was prepared in the same manner as in Example 1.

[Comparative Example 2] The structure of the light-shielding telemping having the knitted fabric structure is the Kusa-Saunyu structure shown in Japanese Utility Model Publication No. 7-50741. A polyester yarn of / 18 filaments is used, and a regular polyester yarn of 56 dtex / 36 filaments is used as the pile yarn, and a double Raschel machine is used to knit two base fabrics in a state where they are connected by pile yarn. At this time, knitting was performed so that the knitting gauge was 22 and the course density was 70, and then the base cloth was cut at the center to obtain a light-shielding pile knit. The pile thickness after the center cut is 2.2 mm. In the base cloth thus cut in the center, the length of the pile yarn was appropriately adjusted in the pre-shirring step, and the pile was adjusted by brushing while being heated to 120 ° C. Furthermore, it processed at 190 degreeC by a presetting process, and after that, it dyed in order to provide a light-shielding property, dried, and adjusted the pile yarn thickness to 1.60 mm by final shearing. As a result, when the pile thickness is 1.6 mm, the compression characteristic is 22% at a load of 0.49 N / cm ^2.
%, A light-shielding base fabric exhibiting a thickness displacement rate of 40% under a load of 1.96 N / cm ² . At this time, the course density was 70, the well density was 28, and the pile density was 41,300 lines / cm ^2.
It is.

When the adhesive is applied to the light-shielding base cloth, a sealing agent for preventing the adhesive from penetrating to the surface of the base cloth and the light-shielding base cloth are adhered to the cartridge body. In order to form an adhesive layer, a vinyl acetate emulsion is applied to the ground surface of the base cloth as a filler, and then a toluene solvent hot melt adhesive mainly containing an ethylene-vinyl acetate copolymer is applied. The vinyl acetate emulsion used here has a solid content of 50% and a viscosity of 100,000.
mPa · s. In order to impart a light-shielding property, 2% by weight of a black dye was added to the vinyl acetate emulsion, and 2% by weight of a black pigment was added to an adhesive mainly composed of an ethylene-vinyl acetate copolymer resin. The adhesive containing ethylene-vinyl acetate copolymer as a main component has a solid content of 28% and is a solid at room temperature.
The viscosity was used as 700 mPa · s. A reverse roll coater was used as a coating machine so that the coating amount of the filler was 40 g / m ² and the coating amount of the adhesive was 70 g / m ² . Thereafter, a sample was prepared in the same manner as in Example 1.

Comparative Example 3 A base fabric was prepared in the same manner as in Comparative Example 2. A hot melt adhesive having a solid content of 100% is applied to the base fabric. The hot melt adhesive used here has a vinyl acetate content of 26% and a melt index of 2 g.
/ 10 minutes, 45% by mass of ethylene vinyl acetate copolymer resin having a softening point of 160 ° C. or higher, 30% by mass of a tackifier of an aromatic petroleum resin having a melting point of 140 ° C., 10% by mass of talc,
An ethylene vinyl acetate adhesive formed of a composition of 15% by mass of a polyethylene wax having a melting point of 100 ° C. In order to impart light-shielding properties, 3% by mass of carbon black is further added to a hot melt adhesive, and A mixture obtained by kneading and dispersing carbon black was used. Hot melt adhesive prepared with this composition can be applied to Yuri Roll Machine Co., Ltd.
Was applied to the ground surface of the light-shielding base fabric using a GPD hot-melt die coater at a resin temperature of 170 ° C. so that the coating amount was 100 g / m ² . Thereafter, a sample was prepared in the same manner as in Example 1.

[Table 1]

From the results shown in Table 1, it was confirmed that the product of the present invention was superior to the conventional product in both equipment suitability and quality. Here, AA indicates a state in which it is very excellent, BB indicates a state in which it can be used without any practical problem, and CC indicates a state in which a problem may occur although it is within the practical limit, and it is desirable to improve it. .

Evaluation method [Pile thickness] Measured using a PEACKCK dial gauge model G. [Suitability for ultrasonic slit] Frequency is 15KHz, amplitude is 4
Using a 0μm ultrasonic slitting machine, processing speed 5m /
Slit processing was performed in minutes. The state of adhesion of the resin residue to the ribbon after the slit and the amount of the adhesion were visually observed.
Those with less than 10 resin scraps per 10 m of the narrow light-shielding cloth piece were ranked AA, those with 10 or more and less than 30 were ranked BB, and those with 30 or more were ranked CC. [Adhesive strength] A ribbon sample slit (cut) to a width of 11.5 mm was applied to the inner surface of a metal plate used for a cartridge body plate at a temperature of 140 ° C, a load of 1.08 N / cm ² , and a crimping time of 3 seconds. After bonding and leaving at 20 ° C. for 24 hours, 300 mm was measured using an autograph manufactured by Shimadzu Corporation.
The 180 ° peel strength is measured at a pull rate of / min. [Fiber loss] Pressure-sensitive adhesive tape (what is generally called cellophane tape, for example, cellophane (registered trademark),
(Nichiban Co., Ltd.) is adhered to the surface of the telemp.
The pressure-sensitive adhesive tape and the telem are pressed by a pressure roller having a weight of 2 kg, a width of 45 mm and a diameter of 95 mm. The pressure-sensitive adhesive tape was peeled off from the pressure-sensitive adhesive tape, the amount of fiber waste adhering to the pressure-sensitive adhesive tape was counted, and the amount of fiber waste per unit area of the pressure-sensitive adhesive tape was calculated. [Light-shielding property] The sample was conditioned at room temperature for 24 hours, exposed to light at 90,000 lux from the port opening direction for 30 minutes, and then the photographic film was developed. Is visually observed. [Pull-out resistance] After a sample is conditioned for 24 hours at room temperature, the pull-out force is measured with an Instron tensile tester.

[0047]

According to the present invention, in the step of preventing pile yarn from falling off from the base cloth and slitting the base cloth into a narrow width after applying the adhesive, a solid content of 100% which satisfies good ultrasonic slitting suitability. A hot-melt adhesive and a filler for a light-shielding fabric structure that can crush the pile yarn at the time of applying the above-mentioned adhesive and keep the drawing resistance of the photographic film low without losing the light-shielding quality. The above-mentioned solid content 1 without using
This allowed one layer of 00% hot melt adhesive to be applied.

[Brief description of the drawings]

FIG. 1 is a front view of an example of a body portion forming metal plate in which light-shielding telemps are attached to both left and right ends using a long light-shielding telemper linked body of the present invention.

FIG. 2 is a cross-sectional view of an example of a photographic film cartridge using the metal plate for forming a body portion with a light-shielding telemp shown in FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Metal plate for body part formation 7 Port part 7a, 7b Port part formation part 8 Tube part formation part 9a, 9b Convex part of tube part formation part 10a, 10b Light shielding telem 11 Spool shaft 12 Photo film

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) D04B 21/00 D04B 21/00 B 4L048 D06C 27/00 D06C 27/00 A D06H 7/04 D06H 7/04 G03C 3/00 530 G03C 3/00 530A 550 550 J 560 560 C 560 F 560 G 560 K 560 T 590 590 B 590 F 599 599 A Person Toshihiro Kondo 1-10-1 Koya, Fukui City, Fukui Prefecture F-term (reference) 3B154 AB21 AB24 AB27 BA47 BB28 BF11 DA30 4J004 AA07 AA09 AB03 CA02 CB01 CC02 CC05 CE01 DB01 EA01 FA10 GA03 4J040 DA032 DA051 DN032 HA026 HA356 JA08 JB01 KA26 KA 42 LA08 LA10 LA11 MA03 MA10 MB03 NA17 4L002 AA07 AB02 AB04 CA03 CA04 CB01 CB03 DA01 DA02 DA03 DA04 EA00 FA06 4L033 AB04 AC15 CA28 4L048 AA55 BA23 CA15 DA24 EB00

Claims (5)

[Claims] 1. A crimped pile yarn having a pile density of 45,000 yarns / cm ² or more and 85,000.
This is a light-shielding cloth piece incorporated in the base fabric structure so as to have a density of book / cm ² or less, and a hot-melt adhesive region is provided on the back surface of the base fabric structure without subjecting the hot-melt adhesive to sealing. Light shading cloth. 2. A light-shielding container for a light-sensitive material provided with a light-shielding member at a slit portion of the light-sensitive material entrance and exit, wherein both side cross sections of the entrance and exit slits are (1) a light-shielding container main body, (2) a hot melt adhesive region, and (3) a pile yarn subjected to crimping, so that the pile density is 85,000 present / cm ² or less 45,000 / cm ² or more, a light-shielding cloth incorporating the base fabric A light-shielding container for light-sensitive material, comprising a light-shielding cloth piece in which the back surface of the base fabric structure is not subjected to a sealing process. 3. A narrow light shielding cloth obtained by cutting the wide light shielding cloth according to claim 1 by an ultrasonic slitting machine. 4. The composition of the hot melt adhesive is 40 to 50 parts by mass of an ethylene-vinyl acetate copolymer resin, 25 to 35 parts by mass of a tackifier, 5 to 15 parts by mass of inorganic fine particles, and 10 to 20 parts by mass of a wax. The light-shielding cloth piece according to claim 1, wherein 5. The composition of the hot melt adhesive is 40 to 50 parts by mass of an ethylene-vinyl acetate copolymer resin, 25 to 35 parts by mass of a tackifier, 5 to 15 parts by mass of inorganic fine particles, and 10 to 20 parts by mass of a wax. The light-shielding container for a photosensitive material according to claim 2, wherein