JP6294713B2 - Painted surface inspection gloves - Google Patents

Description

本発明は、着用者の手の甲と手の平と五指とを包被し、塗装面から手の平に伝わる触覚によって塗装前および塗装後の塗装面における凹凸の有無を検査する塗装面検査用手袋に関する。   The present invention relates to a coated surface inspection glove that covers the back of a wearer's hand, the palm, and five fingers, and inspects the presence / absence of unevenness on the painted surface before and after painting by a tactile sense transmitted from the painted surface to the palm.

着用者の手の甲および手の甲から続く五指の略上半分を覆うニット生地と手の平および手の平から続く五指の略下半分を覆うスクリーン紗とから作られた塗装面検査用手袋が市販されている。この塗装面検査用手袋では、ニット生地の手挿入口を除く周縁部とスクリーン紗の手挿入口を除く周縁部とが縫合されている。この塗装面検査用手袋は、それを着用した着用者が塗装物の塗装面を撫でるように触れ、スクリーン紗を通して塗装面から手の平に伝わる触覚によって塗装前および塗装後の塗装物の塗装面における凹凸の有無を検査する。   Painted surface inspection gloves made of a knit fabric that covers the back of the wearer's hand and the upper half of the five fingers that continue from the back of the hand and a screen that covers the palm and the lower half of the five fingers that continues from the palm of the hand are commercially available. In this painted surface inspection glove, the peripheral edge except the hand insertion opening of the knit fabric and the peripheral edge except the hand insertion opening of the screen bag are stitched. This glove for painted surface inspection touches the wearer of the painted object by stroking the painted surface, and the unevenness on the painted surface of the painted object before and after painting by touching from the painted surface to the palm through the screen 紗. Check for the presence or absence of.

前記市販の塗装面検査用手袋の他に、少なくとも手指の掌部が合成繊維から作られたフィラメント繊維糸で織成されたメッシュ織物から形成され、そのメッシュ織物の経糸と緯糸の交点が融着固定された異物感知手袋が開示されている（特許文献１参照）。この異物感知手袋は、物体表面の異物を手指の感触により検査するために使用される。   In addition to the above-mentioned commercially available gloves for coating surface inspection, at least the palm of the finger is formed from a mesh fabric woven with filament fiber yarn made of synthetic fiber, and the intersection of the warp and weft of the mesh fabric is fused. A fixed foreign object sensing glove is disclosed (see Patent Document 1). This foreign matter sensing glove is used for inspecting foreign matter on the surface of an object by the touch of a finger.

特開２００８−２３１６１５号公報JP 2008-231615 A

前記市販の塗装面検査用手袋は、ニット生地が洗濯によって毛羽立ち、ニット生地や縫合箇所から繊維クズが脱落する場合があるとともに、スクリーン紗が解れ易く、塗装面の検査中に塗装物のエッジや尖端に触れるとスクリーン紗に破れや解れが生じる場合がある。スクリーン紗に破れや解れが生じると、その部分においてスクリーン紗の繊維が重なり合うから、塗装面とは異なる感触が着用者の手の平に伝わり、塗装面の凹凸を正確に検査することができない。また、市販の塗装面検査用手袋は、ニット生地の周縁部とスクリーン紗の周縁部とを縫合して作られているため、その縫合に手間やコストがかかり、手袋を短時間かつ安価に作ることができない。   The above-mentioned commercially available gloves for painted surface inspection may cause the knit fabric to become fluffy by washing, and fiber scraps may fall off from the knitted fabric or stitched parts, and the screen wrinkles can be easily unraveled. Touching the tip of the screen may cause the screen to tear or break. If the screen wrinkles or breaks, the fibers of the screen wrinkles overlap at that portion, so that a touch different from the painted surface is transmitted to the wearer's palm, and the unevenness of the painted surface cannot be accurately inspected. In addition, since commercially available gloves for painting surface inspection are made by stitching the peripheral edge of the knit fabric and the peripheral edge of the screen collar, it takes time and cost to sew the glove, and the gloves are made quickly and inexpensively. I can't.

本発明の目的は、繊維クズが脱落することはなく、塗装物のエッジや尖端に触れたときのスクリーン紗における破れや解れの発生を防ぐことができる塗装面検査用手袋を提供することにある。本発明の他の目的は、手間やコストがかからず、短時間かつ安価に作ることができる塗装面検査用手袋を提供することにある。   An object of the present invention is to provide a coated surface inspection glove that can prevent generation of tears and tears in the screen ridge when the fiber scraps do not fall off and touch the edge or tip of the coated object. . Another object of the present invention is to provide a coated surface inspection glove that can be made in a short time and at a low cost without labor and cost.

前記課題を解決するための発明の前提は、着用者の手の甲と手の平と五指とを包被し、塗装面から手の平に伝わる触覚によって塗装前および塗装後の塗装面における凹凸の有無を検査する塗装面検査用手袋である。   The premise of the invention for solving the above-mentioned problem is a coating that covers the back of the wearer's hand, the palm, and the five fingers, and inspects the presence / absence of irregularities on the painted surface before and after painting by touching from the painted surface to the palm It is a surface inspection glove.

前記前提における本発明は、手袋が、熱可塑性合成樹脂から作られて手の甲および手の甲から続く五指の略上半分を覆う通気透湿性の第１生地と、手の平および手の平から続く五指の略下半分を覆う第２生地とから形成され、第２生地が第１生地に対向する熱可塑性合成樹脂フィルムをスクリーン紗にラミネートした複合生地であり、手袋では、第１生地の手挿入口を除く周縁部と第２生地を形成する熱可塑性合成樹脂フィルムの手挿入口を除く周縁部とが熱融着されていることを特徴とする。   In the present invention based on the premise, the glove is made of a thermoplastic synthetic resin and has a breathable and moisture-permeable first fabric covering the back of the hand and the upper half of the five fingers continuing from the back of the hand, and the lower half of the five fingers continuing from the palm and the palm of the hand. A composite fabric formed by laminating a thermoplastic synthetic resin film facing the first fabric on a screen bag, and the glove has a peripheral portion excluding the hand insertion port of the first fabric; The thermoplastic synthetic resin film forming the second fabric is heat-sealed with the peripheral edge portion except the manual insertion opening.

本発明の一例としては、第１生地が伸縮性を有するポリウレタン不織布であり、前記熱可塑性合成樹脂フィルムがポリウレタンフィルムである。   As an example of the present invention, the first fabric is a stretchable polyurethane nonwoven fabric, and the thermoplastic synthetic resin film is a polyurethane film.

本発明の他の一例としては、第１生地が伸縮性を有するとともに多数の通気孔を有するポリウレタンフィルムであり、熱可塑性合成樹脂フィルムがポリウレタンフィルムである。   As another example of the present invention, the first fabric is a polyurethane film having stretchability and a large number of ventilation holes, and the thermoplastic synthetic resin film is a polyurethane film.

本発明の他の一例としては、第１生地が熱可塑性合成樹脂から作られた繊維不織布であり、熱可塑性合成樹脂フィルムが繊維不織布と略同じ融点の熱可塑性合成樹脂から作られている。   As another example of the present invention, the first fabric is a fiber nonwoven fabric made of a thermoplastic synthetic resin, and the thermoplastic synthetic resin film is made of a thermoplastic synthetic resin having substantially the same melting point as the fiber nonwoven fabric.

本発明の他の一例として、第２生地では、熱可塑性合成樹脂フィルムの全対向面とスクリーン紗の全対向面とが接着されている。   As another example of the present invention, in the second fabric, all the facing surfaces of the thermoplastic synthetic resin film and all the facing surfaces of the screen basket are bonded.

本発明の他の一例としては、熱可塑性合成樹脂フィルムのフィルム厚が５〜４０μｍの範囲にある。   As another example of this invention, the film thickness of a thermoplastic synthetic resin film exists in the range of 5-40 micrometers.

本発明の他の一例としては、五指の略上半分を覆う第１生地の周縁部と五指の略下半分を覆う第２生地の熱可塑性合成樹脂フィルムの周縁部との熱融着幅が手の甲を覆う第１生地の周縁部と手の平を覆う熱可塑性合成樹脂フィルムの周縁部との熱融着幅よりも大きい。   As another example of the present invention, the width of the thermal fusion between the peripheral edge of the first fabric covering substantially the upper half of the five fingers and the peripheral edge of the thermoplastic synthetic resin film of the second fabric covering the substantially lower half of the five fingers is the back of the hand. It is larger than the thermal fusion width between the peripheral edge portion of the first fabric covering the palm and the peripheral edge portion of the thermoplastic synthetic resin film covering the palm.

本発明の他の一例としては、五指の間の指又の略上半分を覆う第１生地の指又域の周縁部と五指の間の指又の略下半分を覆う第２生地の熱可塑性合成樹脂フィルムの指又域の周縁部との熱融着幅が五指の略上半分を覆う第１生地の指又域を除く残余域の周縁部と五指の略下半分を覆う第２生地の熱可塑性合成樹脂フィルムの指又域を除く残余域の周縁部との熱融着幅よりも大きい。   As another example of the present invention, the thermoplasticity of the second fabric covering the peripheral portion of the fingernail region of the first fabric covering the finger half between the five fingers and the substantially lower half of the finger span between the five fingers. The width of heat fusion with the peripheral edge of the finger or region of the synthetic resin film of the second fabric covering the peripheral edge of the remaining region excluding the finger or region of the first fabric covering substantially the upper half of the five fingers and the substantially lower half of the five fingers It is larger than the thermal fusion width of the thermoplastic synthetic resin film with the peripheral portion of the remaining region excluding the finger or region.

本発明にかかる塗装面検査用手袋によれば、手の平および手の平から続く五指の略下半分を覆う第２生地が１生地に対向する熱可塑性合成樹脂フィルムをスクリーン紗にラミネートした複合生地から作られているから、熱可塑性合成樹脂フィルムがスクリーン紗を補強する補強材となり、第２生地がスクリーン紗のみから作られている場合と比較し、熱可塑性合成樹脂フィルムによってスクリーン紗を含む第２生地の強度を高くすることができ、塗装物のエッジや尖端に触れたときのスクリーン紗における破れや解れの発生を防ぐことができる。手袋は、第１生地の周縁部と第２生地を形成する熱可塑性合成樹脂フィルムの周縁部とが熱融着によって接合されているから、第１生地と第２生地との接合に熱融着の技術を利用することができ、第１生地と第２生地とを縫合する場合と比較し、繊維クズが脱落することはなく、手袋の製造における手間やコストを大幅に省くことができ、手袋を短時間かつ安価に作ることができる。手袋は、第１生地が通気透湿性を有し、手袋の着用中に着用者の手から発生する湿気を第１生地から手袋の外部に放出するから、着用者中における蒸れを防ぐことができ、手袋における着用感の低下を防ぐことができる。手袋は、スクリーン紗を通して着用者の手の平に塗装面の触覚が伝わり、塗装前および塗装後の塗装物の塗装面における凹凸の有無を正確に検査することができる。   According to the coated surface inspection glove according to the present invention, the second fabric covering the palm and the substantially lower half of the five fingers continuing from the palm is made of a composite fabric obtained by laminating a thermoplastic synthetic resin film facing one fabric on a screen bag. Therefore, the thermoplastic synthetic resin film becomes a reinforcing material that reinforces the screen wrinkles, and the second cloth containing the screen wrinkles is made of the thermoplastic synthetic resin film as compared with the case where the second cloth is made only from the screen wrinkles. The strength can be increased, and it is possible to prevent the screen flaws from being broken or unraveled when touching the edges or tips of the paint. In the glove, the peripheral edge portion of the first fabric and the peripheral edge portion of the thermoplastic synthetic resin film forming the second fabric are joined by thermal fusion, so that the first fabric and the second fabric are joined by thermal fusion. Compared to the case where the first fabric and the second fabric are stitched, the fiber waste is not dropped, and labor and cost in manufacturing the gloves can be greatly reduced. Can be made in a short time and at low cost. Since the first fabric has air permeability and moisture permeability, and the moisture generated from the wearer's hand is released from the first fabric to the outside of the glove while wearing the gloves, it is possible to prevent stuffiness in the wearer. In addition, it is possible to prevent a decrease in wearing feeling in gloves. The glove transmits the tactile sensation of the painted surface to the wearer's palm through the screen bag, and can accurately inspect for the presence or absence of irregularities on the painted surface of the painted material before and after painting.

第１生地が伸縮性を有するポリウレタン不織布であり、熱可塑性合成樹脂フィルムがポリウレタンフィルムである塗装面検査用手袋は、第２生地がポリウレタンフィルムをスクリーン紗にラミネートした複合生地から作られているから、ポリウレタンフィルムがスクリーン紗を補強する補強材となり、ポリウレタンフィルムによってスクリーン紗を含む第２生地の強度を高くすることができ、塗装物のエッジや尖端に触れたときのスクリーン紗における破れや解れの発生を防ぐことができる。手袋は、手の甲および手の甲から続く五指の略上半分を覆う第１生地がポリウレタン不織布であるから、第１生地が非伸縮性である場合と比較し、第１生地の変形自由度が高く、第１生地が着用者の手の動きに容易に追従するから、着用者の手の甲の動きが第１生地によって抑制されることはなく、塗装面の検査中における作業性を向上させることができる。手袋は、ポリウレタン不織布の周縁部とポリウレタンフィルムの周縁部とが熱融着によって接合されているから、第１生地と第２生地とを縫合する場合と比較し、繊維クズが脱落することはなく、手袋の製造における手間やコストを大幅に省くことができ、手袋を短時間かつ安価に作ることができる。手袋は、ポリウレタン不織布が通気透湿性を有し、手袋の着用中に着用者の手から発生する湿気をポリウレタン不織布から手袋の外部に放出するから、着用者中における蒸れを防ぐことができ、手袋における着用感の低下を防ぐことができる。   Since the first fabric is a stretchable polyurethane nonwoven fabric and the thermoplastic synthetic resin film is a polyurethane film, the coated surface inspection glove is made of a composite fabric in which the second fabric is laminated on a screen bag. The polyurethane film becomes a reinforcing material that reinforces the screen wrinkles, and the polyurethane film can increase the strength of the second fabric including the screen wrinkles. Occurrence can be prevented. In the glove, the first fabric covering the back of the hand and the upper half of the five fingers continuing from the back of the hand is a polyurethane non-woven fabric. Therefore, the first fabric has a high degree of freedom of deformation compared to the case where the first fabric is non-stretchable. Since one fabric easily follows the movement of the wearer's hand, the movement of the back of the wearer's hand is not suppressed by the first fabric, and the workability during the inspection of the painted surface can be improved. In the glove, since the peripheral edge of the polyurethane nonwoven fabric and the peripheral edge of the polyurethane film are joined by heat fusion, the fiber scrap does not fall off compared to the case where the first and second fabrics are stitched together. Therefore, labor and cost in manufacturing gloves can be saved greatly, and gloves can be made in a short time and at low cost. The gloves are breathable and breathable in polyurethane non-woven fabric, and moisture generated from the wearer's hands during glove wear is released from the polyurethane non-woven fabric to the outside of the gloves. It is possible to prevent a decrease in wearing feeling.

第１生地が伸縮性を有するとともに多数の通気孔を有するポリウレタンフィルムであり、熱可塑性合成樹脂フィルムがポリウレタンフィルムである塗装面検査用手袋は、第２生地がポリウレタンフィルムをスクリーン紗にラミネートした複合生地から作られているから、ポリウレタンフィルムがスクリーン紗を補強する補強材となり、ポリウレタンフィルムによってスクリーン紗を含む第２生地の強度を高くすることができ、塗装物のエッジや尖端に触れたときのスクリーン紗における破れや解れの発生を防ぐことができる。手袋は、手の甲および手の甲から続く五指の略上半分を覆う第１生地がポリウレタンフィルムであるから、第１生地が非伸縮性である場合と比較し、第１生地の変形自由度が高く、第１生地が着用者の手の動きに容易に追従するから、着用者の手の甲の動きが第１生地によって抑制されることはなく、塗装面の検査中における作業性を向上させることができる。手袋は、第１生地を形成するポリウレタンフィルムの周縁部と第２生地を形成するポリウレタンフィルムの周縁部とが熱融着によって接合されているから、第１生地と第２生地とを縫合する場合と比較し、繊維クズが脱落することはなく、手袋の製造における手間やコストを大幅に省くことができ、手袋を短時間かつ安価に作ることができる。手袋は、多数の通気孔を有するポリウレタンフィルムが通気透湿性を有し、手袋の着用中に着用者の手から発生する湿気をポリウレタンフィルムから手袋の外部に放出するから、着用者中における蒸れを防ぐことができ、手袋における着用感の低下を防ぐことができる。   The first fabric is a polyurethane film having stretchability and a number of vent holes, and the coated surface inspection glove in which the thermoplastic synthetic resin film is a polyurethane film is a composite in which the second fabric is laminated with a polyurethane film on a screen bag. Because it is made of fabric, the polyurethane film becomes a reinforcing material that reinforces the screen folds, and the polyurethane film can increase the strength of the second fabric that contains the screen folds. It is possible to prevent the tearing and unraveling of the screen wall. Since the first fabric covering the back of the hand and the upper half of the five fingers that continue from the back of the hand is a polyurethane film, the first fabric has a high degree of freedom of deformation compared to the case where the first fabric is non-stretchable. Since one fabric easily follows the movement of the wearer's hand, the movement of the back of the wearer's hand is not suppressed by the first fabric, and the workability during the inspection of the painted surface can be improved. When the glove is stitched between the first fabric and the second fabric because the peripheral portion of the polyurethane film that forms the first fabric and the peripheral portion of the polyurethane film that forms the second fabric are joined by thermal fusion. Compared with, fiber scraps do not fall off, the labor and cost of manufacturing gloves can be greatly reduced, and gloves can be made in a short time and at low cost. Gloves are made of polyurethane film with a large number of ventilation holes that are breathable and breathable, and moisture generated from the wearer's hand is released from the polyurethane film to the outside of the glove while wearing the glove. It can prevent, and the fall of the wearing feeling in a glove can be prevented.

第１生地が熱可塑性合成樹脂から作られた繊維不織布であり、熱可塑性合成樹脂フィルムが第１生地の繊維不織布と略同じ融点の熱可塑性合成樹脂から作られている塗装面検査用手袋は、第２生地が熱可塑性合成樹脂フィルムをスクリーン紗にラミネートした複合生地から作られているから、熱可塑性合成樹脂フィルムがスクリーン紗を補強する補強材となり、熱可塑性合成樹脂フィルムによってスクリーン紗を含む第２生地の強度を高くすることができ、塗装物のエッジや尖端に触れたときのスクリーン紗における破れや解れの発生を防ぐことができる。手袋は、第１生地を形成する繊維不織布の周縁部と第１生地の繊維不織布と略同じ融点の熱可塑性合成樹脂から作られた熱可塑性合成樹脂フィルムの周縁部とが熱融着によって接合されているから、第１生地と第２生地とを縫合する場合と比較し、繊維クズが脱落することはなく、手袋の製造における手間やコストを大幅に省くことができ、手袋を短時間かつ安価に作ることができる。手袋は、第１生地の繊維不織布が通気透湿性を有し、手袋の着用中に着用者の手から発生する湿気を繊維不織布から手袋の外部に放出するから、着用者中における蒸れを防ぐことができ、手袋における着用感の低下を防ぐことができる。   The first fabric is a fiber nonwoven fabric made from a thermoplastic synthetic resin, and the coated surface inspection glove in which the thermoplastic synthetic resin film is made from a thermoplastic synthetic resin having substantially the same melting point as the fiber nonwoven fabric of the first fabric, Since the second fabric is made of a composite fabric obtained by laminating a thermoplastic synthetic resin film on a screen ridge, the thermoplastic synthetic resin film serves as a reinforcing material for reinforcing the screen fold, and the thermoplastic synthetic resin film includes the screen fold. 2. The strength of the fabric can be increased, and it is possible to prevent the tearing and unraveling of the screen flaws when touching the edge or tip of the paint. In the glove, the peripheral portion of the fiber nonwoven fabric forming the first fabric and the peripheral portion of a thermoplastic synthetic resin film made of a thermoplastic synthetic resin having substantially the same melting point as the fiber nonwoven fabric of the first fabric are joined by thermal fusion. Therefore, compared with the case where the first fabric and the second fabric are stitched together, the fiber scrap does not fall off, and the labor and cost in manufacturing the glove can be greatly reduced, and the glove can be made quickly and inexpensively. Can be made. For gloves, the first nonwoven fabric nonwoven fabric is breathable and breathable, and moisture generated from the wearer's hands while wearing the gloves is released from the nonwoven fabric fabric to the outside of the gloves. It is possible to prevent a decrease in wearing feeling in gloves.

第２生地を形成する熱可塑性合成樹脂フィルムの全対向面とスクリーン紗の全対向面とが接着されている塗装面検査用手袋は、熱可塑性合成樹脂フィルムがスクリーン紗の全域を補強する補強材となり、熱可塑性合成樹脂フィルムとスクリーン紗とが部分的に接着されている場合と比較し、スクリーン紗を含む第２生地の強度を確実に高くすることができ、塗装物のエッジや尖端に触れたときのスクリーン紗における破れや解れの発生を防ぐことができる。手袋は、熱可塑性合成樹脂フィルムとスクリーン紗とが密着するから、熱可塑性合成樹脂フィルムが塗装面から着用者の手の平に伝わる触覚の邪魔になることはなく、スクリーン紗を通して着用者の手の平に塗装面の触覚が確実に伝わり、塗装前および塗装後の塗装物の塗装面における凹凸の有無を正確に検査することができる。   The coated surface inspection glove in which the entire facing surface of the thermoplastic synthetic resin film forming the second fabric and the all facing surface of the screen bag are bonded is a reinforcing material in which the thermoplastic synthetic resin film reinforces the entire area of the screen bag. Compared to the case where the thermoplastic synthetic resin film and the screen ridge are partially bonded, the strength of the second fabric including the screen ridge can be reliably increased, and the edges and tips of the coated object can be touched. It is possible to prevent the tearing and unraveling of the screen flaws. Gloves adhere to the thermoplastic synthetic resin film and the screen heel so that the thermoplastic synthetic resin film does not interfere with the tactile sensation that travels from the painted surface to the wearer's palm and is applied to the wearer's palm through the screen heel. The tactile sensation of the surface is reliably transmitted, and it is possible to accurately inspect for unevenness on the painted surface of the painted product before and after painting.

熱可塑性合成樹脂フィルムのフィルム厚が５〜４０μｍの範囲にある塗装面検査用手袋は、熱可塑性合成樹脂フィルムのフィルム厚が前記範囲にあるから、熱可塑性合成樹脂フィルムが薄く、スクリーン紗に熱可塑性合成樹脂フィルムをラミネートしたとしても、熱可塑性合成樹脂フィルムが塗装面から着用者の手の平に伝わる触覚の邪魔になることはなく、スクリーン紗を通して着用者の手の平に塗装面の触覚が確実に伝わり、塗装前および塗装後の塗装物の塗装面における凹凸の有無を正確に検査することができる。   The coated surface inspection gloves in which the film thickness of the thermoplastic synthetic resin film is in the range of 5 to 40 μm have the film thickness of the thermoplastic synthetic resin film in the above range. Even if the plastic synthetic resin film is laminated, the thermoplastic synthetic resin film does not interfere with the tactile sensation that is transmitted from the painted surface to the wearer's palm, and the tactile sensation of the painted surface is reliably transmitted to the wearer's palm through the screen. In addition, it is possible to accurately inspect for the presence or absence of irregularities on the painted surface of the painted product before and after painting.

五指の略上半分を覆う第１生地の周縁部と五指の略下半分を覆う第２生地の熱可塑性合成樹脂フィルムの周縁部との熱融着幅が手の甲を覆う第１生地の周縁部と手の平を覆う熱可塑性合成樹脂フィルムの周縁部との熱融着幅よりも大きい塗装面検査用手袋は、五指を覆う第１および第２生地の周縁部どうしの熱融着幅が手の甲や手の平を覆う第１および第２生地の周縁部どうしの熱融着幅よりも大きいから、手袋の着用中に着用者の手の動きによって着用者の五指を覆う第１および第２生地に引張力やずれ応力、剥離力等のストレスが作用したとしても、それによって五指を覆う第１および第２生地の周縁部にピンホールや破れが生じることはなく、着用者の五指に位置する第１および第２生地の破損を防ぐことができる。手袋は、着用者の五指に位置する第１および第２生地の破損を防ぐことができるから、長期間の使用に耐えることができ、その使用期間を長くすることができるのみならず、手袋の交換コストを省くことができる。   A peripheral edge portion of the first fabric covering the back of the hand with a thermal fusion width between a peripheral edge portion of the first fabric covering substantially upper half of the five fingers and a peripheral edge portion of the thermoplastic synthetic resin film of the second fabric covering substantially lower half of the five fingers; The coating surface inspection glove, which is larger than the thermal fusion width with the peripheral edge of the thermoplastic synthetic resin film covering the palm of the hand, has a thermal fusion width between the peripheral edges of the first and second fabrics covering the five fingers. Since it is larger than the heat-sealing width between the peripheral portions of the first and second fabrics to be covered, the first and second fabrics covering the wearer's five fingers by the movement of the wearer's hand during wearing of the glove are subject to a tensile force or a deviation. Even if stress such as stress, peeling force, etc. is applied, no pinholes or tears occur in the peripheral portions of the first and second fabrics covering the five fingers, and the first and second located on the wearer's five fingers. The fabric can be prevented from being damaged. Gloves can prevent damage to the first and second fabrics located on the wearer's five fingers, so that they can withstand long-term use and extend their use period, Replacement costs can be saved.

五指の間の指又の略上半分を覆う第１生地の指又域の周縁部と五指の間の指又の略下半分を覆う第２生地の熱可塑性合成樹脂フィルムの指又域の周縁部との熱融着幅が五指の略上半分を覆う第１生地の指又域を除く残余域の周縁部と五指の略下半分を覆う第２生地の熱可塑性合成樹脂フィルムの指又域を除く残余域の周縁部との熱融着幅よりも大きい塗装面検査用手袋は、指又を覆う第１および第２生地の指又域の周縁部どうしの熱融着幅が第１および第２生地の指又域を除く残余域の周縁部どうしの熱融着幅よりも大きいから、手袋の着用中に着用者の手の動きが手袋の指又域に大きく伝わり、手袋の着用中に着用者の手の動きによって着用者の指又を覆う第１および第２生地の指又域に引張力やずれ応力、剥離力等のストレスが強く作用したとしても、それによって指又を覆う第１および第２生地の指又域の周縁部にピンホールや破れが生じることはなく、着用者の指又に位置する第１および第２生地の破損を防ぐことができる。手袋は、着用者の指又に位置する第１および第２生地の破損を防ぐことができるから、長期間の使用に耐えることができ、その使用期間を長くすることができるのみならず、手袋の交換コストを省くことができる。   The peripheral edge of the finger cloth area of the first cloth covering the upper half of the finger strut between the five fingers and the peripheral edge of the finger cloth area of the thermoplastic synthetic resin film of the second cloth covering the substantially lower half of the finger strut between the five fingers Finger-bonded area of the thermoplastic synthetic resin film of the second fabric covering the peripheral edge of the remaining area excluding the finger-shaped area of the first fabric covering the substantially upper half of the five fingers and the second half of the five fingers In the glove for coating surface inspection that is larger than the thermal fusion width with the peripheral edge of the remaining area except for the first and second peripheral edges of the first or second fabric covering the fingers, the thermal fusion width between the first and second peripheral edges is first and second. Because it is larger than the thermal fusion width between the peripheral edges of the remaining area excluding the finger or area of the second fabric, the movement of the wearer's hand is greatly transmitted to the finger or area of the glove while wearing the glove, and the glove is wearing In addition, stresses such as tensile force, shear stress, and peeling force are strongly applied to the finger or areas of the first and second fabrics that cover the wearer's fingers by the movement of the wearer's hand. Even if it does, a pinhole and a tear do not arise in the peripheral part of the fingernail area of the 1st and 2nd cloth which covers a fingernail by it, and breakage of the 1st and 2nd cloth located in a wearer's fingernail Can be prevented. Since the gloves can prevent the first and second fabrics located on the fingers of the wearer from being damaged, the gloves can withstand long-term use and can be used for a long period of time. The replacement cost can be saved.

一例として示す塗装面検査用手袋の斜視図。The perspective view of the glove for coating surface inspection shown as an example. 図１のＡ−Ａ線端面図。FIG. 2 is an end view taken along line AA in FIG. 1. 図１のＢ−Ｂ線端面図。FIG. 3 is an end view taken along line BB in FIG. 1. 他の一例として示す塗装面検査用手袋の斜視図。The perspective view of the glove for coating surface inspection shown as another example. 図４のＣ−Ｃ線端面図。The CC sectional view taken on the line of FIG. 図４のＤ−Ｄ線端面図。The DD line end view of FIG. 他の一例として示す塗装面検査用手袋の斜視図。The perspective view of the glove for coating surface inspection shown as another example. 図７のＥ−Ｅ線端面図。The EE line | wire end view of FIG. 図７のＦ−Ｆ線端面図。The FF line end view of FIG. 他の一例として示す塗装面検査用手袋の斜視図。The perspective view of the glove for coating surface inspection shown as another example. 図１０のＧ−Ｇ線端面図。FIG. 11 is an end view of the GG line in FIG. 10. 図１０のＨ−Ｈ線端面図。The HH line | wire end view of FIG.

一例として示す塗装面検査用手袋１０Ａの斜視図である図１等の添付の図面を参照し、本発明に係る塗装面検査用手袋の詳細を説明すると、以下のとおりである。なお、図２は、図１のＡ−Ａ線端面図であり、図３は、図１のＢ−Ｂ線端面図である。図１では、手袋１０Ａの挿入口１１近傍を破断して示す。塗装面検査用手袋１０Ａ（手袋１０Ｂ〜１０Ｅを含む）は、塗装物（図示せず）の塗装面の検査を行う着用者（検査者）が着用する。なお、図１では、片方の手袋１０Ａのみを図示しているが、実際には右手用および左手用の手袋１０Ａが存在する。   The details of the coated surface inspection glove according to the present invention will be described with reference to the attached drawings such as FIG. 1 which is a perspective view of the coated surface inspection glove 10A shown as an example. 2 is an end view taken along line AA in FIG. 1, and FIG. 3 is an end view taken along line BB in FIG. In FIG. 1, the vicinity of the insertion opening 11 of the glove 10 </ b> A is shown broken away. The wearer (inspector) who inspects the painted surface of the coated object (not shown) wears the painted surface inspection gloves 10A (including gloves 10B to 10E). In FIG. 1, only one glove 10 </ b> A is illustrated, but actually there are right-hand and left-hand gloves 10 </ b> A.

塗装面検査用手袋１０Ａは、着用者の手を挿入する挿入口１１と、着用者の手の甲および手の平を包被する手包被部１２と、着用者の五指それぞれを包被する指包被部１３とを有する。手袋１０Ａは、着用者の手の甲および手の甲から続く五指の略上半分（上部）を覆う第１生地１４と、着用者の手の平および手の平から続く五指の略下半分（下部）を覆う第２生地１５とから形成されている。   10A of coating surface test | inspection gloves are the insertion port 11 which inserts a wearer's hand, the hand covering part 12 which covers the back and the palm of a wearer's hand, and the finger covering part 13 which covers each 5 fingers of a wearer. And have. The glove 10A includes a first fabric 14 that covers the back of the wearer's hand and a substantially upper half (upper part) of the five fingers that continue from the back of the hand, and a second fabric 15 that covers a substantially lower half (lower part) of the five fingers that continues from the palm and the palm of the wearer. And is formed from.

第１生地１４は、その平面形状が着用者の手の甲および五指を覆う形状に成形され、手の甲および手の甲から続く五指の略上半分を包被可能な大きさを有する。第１生地１４には、通気透湿性を有するとともに縦方向および横方向（四方）への伸縮性を有するポリウレタン不織布１６が使用されている。   The first fabric 14 is shaped so that its planar shape covers the back and five fingers of the wearer's hand, and has a size that can cover the upper half of the five fingers that continue from the back of the hand and the back of the hand. For the first fabric 14, a polyurethane nonwoven fabric 16 having air permeability and moisture permeability and stretchability in the longitudinal direction and the lateral direction (four directions) is used.

第２生地１５は、その平面形状が着用者の手の平および五指を覆う形状に成形され、手の平および手の平から続く五指の略下半分を包被可能な大きさを有する。第２生地１５は、第１生地１４と略同形同大である。第２生地１５には、第１生地１４に対向するポリウレタンフィルム１７（熱可塑性合成樹脂フィルム）をスクリーン紗１８（スクリーンメッシュ）にラミネートした複合生地が使用されている。第２生地１５では、ポリウレタンフィルム１７の全対向面（対向面の全域）とスクリーン紗１８の全対向面（対向面の全域）とがウレタン系接着剤１９またはホットメルト接着剤１９によって接着（乾式ラミネート）されている。   The second fabric 15 is shaped so that its planar shape covers the palm and the five fingers of the wearer, and has a size that can cover the lower half of the five fingers that continue from the palm and the palm of the hand. The second fabric 15 is substantially the same shape and size as the first fabric 14. As the second fabric 15, a composite fabric is used in which a polyurethane film 17 (thermoplastic synthetic resin film) facing the first fabric 14 is laminated on a screen basket 18 (screen mesh). In the second fabric 15, the entire facing surface of the polyurethane film 17 (the entire area of the facing surface) and the entire facing surface of the screen bag 18 (the entire area of the facing surface) are bonded by the urethane adhesive 19 or the hot melt adhesive 19 (dry type). Laminated).

スクリーン紗１８には、ポリエステルのモノフィラメントやマルチフィラメントから作られたポリエステルスクリーン紗（ポリエステルスクリーンメッシュ）を使用することができ、ポリエステル系を芯としポリアミド系を鞘としたコンジュケイト繊維から作られたポリエステルスクリーン紗を使用することができるとともに、ナイロンのモノフィラメントから作られたナイロンスクリーン紗（ナイロンスクリーンメッシュ）を使用することができる。   The screen 紗 18 can be a polyester screen 紗 (polyester screen mesh) made of polyester monofilament or multifilament, and polyester made from a conjugate fiber with a polyester base and a polyamide base sheath. A screen basket can be used, and a nylon screen basket (nylon screen mesh) made of nylon monofilament can be used.

第２生地１５では、スクリーン紗１８の全対向面にポリウレタンフィルム１７の全対向面がラミネートされているから、ポリウレタンフィルム１７がスクリーン紗１８を補強する補強材になるとともに、ポリウレタンフィルム１８が第１生地１４を形成するポリウレタン不織布１６と確実に熱融着し、第１生地１４と第２生地１５との剥離を防止する。第２生地１５は、それがスクリーン紗１８のみから作られている場合と比較し、ポリウレタンフィルム１７によってスクリーン紗１８を含む第２生地１５の強度が高くなっている。なお、第２生地１５がスクリーン紗１８のみから作られている場合は、スクリーン紗１８と第１生地１４のポリウレタン不織布１６とを熱融着させることが困難であり、第１および第２生地１４，１５とを縫合して手袋を作らざるを得ない。   In the second fabric 15, the entire facing surface of the polyurethane film 17 is laminated on the entire facing surface of the screen ridge 18. Therefore, the polyurethane film 17 serves as a reinforcing material for reinforcing the screen ridge 18, and the polyurethane film 18 is the first film. The first nonwoven fabric 14 and the second fabric 15 are prevented from being peeled off by reliably heat-sealing with the polyurethane nonwoven fabric 16 forming the fabric 14. Compared with the case where the second fabric 15 is made only from the screen ridges 18, the strength of the second fabric 15 including the screen ridges 18 is increased by the polyurethane film 17. In addition, when the 2nd cloth | flour 15 is made only from the screen cloth 18, it is difficult to heat-seal the screen cloth 18 and the polyurethane nonwoven fabric 16 of the 1st cloth 14, The 1st and 2nd cloth 14 , 15 must be stitched together to make gloves.

塗装面検査用手袋１０Ａでは、第１生地１４のポリウレタン不織布１６と第２生地１５のポリウレタンフィルム１７とが対向した状態で第１生地１４と第２生地１５とが重なり合い、第１生地１４の手挿入口１１を除く周縁部２０に延びるポリウレタン不織布１６と第２生地１５の手挿入口１１を除く周縁部２１に延びるポリウレタンフィルム１７とが熱融着されている。第１生地１４の周縁部２０と第２生地１５の周縁部２１とは、高周波シールやヒートシール、超音波シールによって接合されている。   In the coated surface inspection gloves 10 </ b> A, the first fabric 14 and the second fabric 15 overlap with each other with the polyurethane nonwoven fabric 16 of the first fabric 14 and the polyurethane film 17 of the second fabric 15 facing each other. The polyurethane nonwoven fabric 16 extending to the peripheral edge 20 excluding the insertion opening 11 and the polyurethane film 17 extending to the peripheral edge 21 excluding the manual insertion opening 11 of the second fabric 15 are heat-sealed. The peripheral edge 20 of the first fabric 14 and the peripheral edge 21 of the second fabric 15 are joined by high frequency sealing, heat sealing, or ultrasonic sealing.

塗装面検査用手袋１０Ａの製造手順の一例としては、手の形に作られた手袋成形金型（図示せず）によって第１生地１４の一方向へ延びる原反を型抜きし、第１手袋成型材料を順次作成するとともに、手袋成形金型によって第２生地１５の一方向へ延びる原反を型抜きし、第２手袋成型材料を順次作成した後、ポリウレタン不織布１６とポリウレタンフィルム１７とが対向するように、第１手袋成型材料（第１生地）と第２手袋成型材料（第２生地）とを重ね合わせ、前記シール技術よって手挿入口１１を除くそれら手袋成型材料の周縁部（第１および第２生地１４，１５の周縁部２０，２１）を熱融着する。   As an example of the manufacturing procedure of the coated surface inspection gloves 10A, a raw material extending in one direction of the first fabric 14 is cut out by a glove forming die (not shown) made in a hand shape, and the first gloves The molding material is created in sequence, the original fabric extending in one direction of the second fabric 15 is punched out by the glove molding die, the second glove molding material is created in sequence, and the polyurethane nonwoven fabric 16 and the polyurethane film 17 face each other. As described above, the first glove molding material (first fabric) and the second glove molding material (second fabric) are overlapped, and the peripheral portions (first of the glove molding material excluding the hand insertion port 11 by the sealing technique) And the peripheral parts 20, 21) of the second fabrics 14, 15 are heat-sealed.

塗装面検査用手袋１０Ａ（手袋１０Ｂ〜１０Ｅを含む）を着用するには、第１生地１４が手の甲の側に位置するとともに第２生地１５が手の平の側に位置するように、手挿入口１１から手を挿入し、五指をそれらを覆う手袋１０Ａの指包被部１３に挿入する。手袋１０Ａは、それを着用した着用者が第２生地１５を介して塗装物の塗装面を撫でるように触れ、スクリーン紗１８を通して塗装面から手の平に伝わる触覚によって塗装前および塗装後の塗装物の塗装面における凹凸の有無を検査する。   In order to wear the painted surface inspection gloves 10A (including gloves 10B to 10E), the hand insertion slot 11 is arranged so that the first fabric 14 is positioned on the back of the hand and the second fabric 15 is positioned on the palm. The hand is inserted, and the five fingers are inserted into the finger covering portion 13 of the glove 10A covering them. The glove 10A is touched so that the wearer who wears it strokes the painted surface of the painted object through the second fabric 15, and touches the painted surface of the painted object before and after the painting through the screen ridge 18 from the painted surface to the palm. Inspect the painted surface for irregularities.

ポリウレタンフィルム１７は、そのフィルム厚Ｌ１が５〜４０μｍの範囲にある。ポリウレタンフィルム１７のフィルム厚Ｌ１が５μｍ未満では、ポリウレタンフィルム１７が破損し易く、ポリウレタンフィルム１７がスクリーン紗１８を補強する補強材として機能しない場合がある。また、第１生地１４との接着性が低下し、第１生地１４と第２生地１５とが剥離する場合がある。ポリウレタンフィルム１７のフィルム厚Ｌ１が４０μｍを超過すると、塗装面から着用者の手の平に伝わる感触がポリウレタンフィルム１７によって妨げられ、着用者の手の平の触覚が鈍り、塗装面における凹凸の有無の検査がし難くなる。   The polyurethane film 17 has a film thickness L1 in the range of 5 to 40 μm. When the film thickness L1 of the polyurethane film 17 is less than 5 μm, the polyurethane film 17 is easily damaged, and the polyurethane film 17 may not function as a reinforcing material that reinforces the screen rod 18. Moreover, the adhesiveness with the 1st fabric 14 may fall, and the 1st fabric 14 and the 2nd fabric 15 may peel. When the film thickness L1 of the polyurethane film 17 exceeds 40 μm, the touch transmitted from the painted surface to the wearer's palm is hindered by the polyurethane film 17, the wearer's palm feel is dull, and the coated surface is inspected for unevenness. It becomes difficult.

ポリウレタンフィルム１７のフィルム厚Ｌ１が前記範囲にあるから、ポリウレタンフィルム１７がスクリーン紗１８を補強する補強材として十分に機能するとともに、ポリウレタン不織布１６と確実に熱融着し、第１生地１４と第２生地１５との剥離を防ぐことができ、第１および第２生地１４，１５の周縁部２０，２１におけるピンホールや破れの発生を防ぐことができる。また、ポリウレタンフィルム１７が塗装面から着用者の手の平に伝わる感触の妨げとなることはなく、手袋１０Ａによって塗装面における凹凸の有無を正確に検査することができる。   Since the film thickness L1 of the polyurethane film 17 is in the above range, the polyurethane film 17 functions sufficiently as a reinforcing material that reinforces the screen ridge 18, and is reliably heat-sealed with the polyurethane nonwoven fabric 16 so that the first fabric 14 and the first fabric 14 Separation from the two fabrics 15 can be prevented, and occurrence of pinholes and tears at the peripheral portions 20 and 21 of the first and second fabrics 14 and 15 can be prevented. In addition, the polyurethane film 17 does not hinder the touch that is transmitted from the painted surface to the palm of the wearer, and the presence or absence of irregularities on the painted surface can be accurately inspected by the gloves 10A.

スクリーン紗１８は、そのメッシュ数が５０〜５００／ｃｍの範囲にあり、その紗厚Ｌ２が４０〜１５０μｍの範囲にある。スクリーン紗１８のメッシュ数が５００／ｃｍを超過し、その紗厚Ｌ２が４０μｍ未満では、スクリーン紗１８が破損し易く、塗装物のエッジや尖端に触れたときのスクリーン紗１８（第２生地１５）に破れや解れが発生する場合がある。スクリーン紗１８が破損すると、破損した部分においてスクリーン紗１８の繊維が重なり合うから、塗装面とは異なる感触が着用者の手の平に伝わり、塗装面の凹凸を正確に検査することができない。スクリーン紗１８の紗厚Ｌ２が１５０μｍを超過すると、塗装面から着用者の手の平に伝わる感触がスクリーン紗１８によって妨げられ、着用者の手の平の触覚が鈍り、塗装面における凹凸の有無の検査がし難くなる。   The screen ridge 18 has a mesh number in the range of 50 to 500 / cm and a ridge thickness L2 in the range of 40 to 150 μm. When the mesh number of the screen ridge 18 exceeds 500 / cm and the ridge thickness L2 is less than 40 μm, the screen ridge 18 is likely to be damaged, and the screen ridge 18 (second fabric 15) when touching the edge or tip of the coated object is easily damaged. ) May be broken or broken. When the screen ridge 18 is broken, the fibers of the screen ridge 18 overlap at the damaged portion, so that a touch different from the painted surface is transmitted to the wearer's palm and the unevenness of the painted surface cannot be accurately inspected. When the thickness L2 of the screen ridge 18 exceeds 150 μm, the touch transmitted from the painted surface to the wearer's palm is hindered by the screen ridge 18, the wearer's palm feel is dulled, and the presence or absence of unevenness on the painted surface is inspected. It becomes difficult.

塗装面検査用手袋１０Ａは、手の平および手の平から続く五指の略下半分を覆う第２生地１５がポリウレタンフィルム１７（熱可塑性合成樹脂フィルム）をスクリーン紗１８にラミネートした複合生地から作られているから、ポリウレタンフィルム１７がスクリーン紗１８を補強する補強材となり、第２生地１５がスクリーン紗１８のみから作られている場合と比較し、ポリウレタンフィルム１７によってスクリーン紗１８を含む第２生地１５の強度を高くすることができ、塗装物のエッジや尖端に触れたときのスクリーン紗１７（第２生地１５）における破れや解れの発生を防ぐことができる。   In the coated surface inspection glove 10A, the second fabric 15 covering the palm and the substantially lower half of the five fingers continuing from the palm is made of a composite fabric in which a polyurethane film 17 (thermoplastic synthetic resin film) is laminated on the screen ridge 18. The polyurethane film 17 serves as a reinforcing material that reinforces the screen ridge 18, and the strength of the second fabric 15 including the screen ridge 18 is increased by the polyurethane film 17 compared to the case where the second fabric 15 is made only from the screen ridge 18. It is possible to increase the height, and it is possible to prevent the screen ridge 17 (second fabric 15) from being torn or unraveled when it touches the edge or tip of the paint.

塗装面検査用手袋１０Ａは、第１生地１４を形成するポリウレタン不織布１６の周縁部２０と第２生地１５を形成するポリウレタンフィルム１７の周縁部２１とが熱融着によって接合されているから、第１生地１４と第２生地１５との接合に熱融着の各種技術を利用することができ、第１生地１４と第２生地１５とを縫合する場合と比較し、繊維クズが脱落することはなく、手袋１０Ａの製造における手間やコストを大幅に省くことができ、手袋１０Ａを短時間かつ安価に作ることができる。   In the coated surface inspection glove 10A, the peripheral edge 20 of the polyurethane nonwoven fabric 16 that forms the first fabric 14 and the peripheral edge 21 of the polyurethane film 17 that forms the second fabric 15 are joined by heat fusion. Various techniques of heat-sealing can be used for joining the first fabric 14 and the second fabric 15, and compared with the case where the first fabric 14 and the second fabric 15 are stitched, the fiber scraps can be removed. In addition, the labor and cost in manufacturing the gloves 10A can be greatly reduced, and the gloves 10A can be made in a short time and at low cost.

塗装面検査用手袋１０Ａは、第２生地１５を形成するポリウレタンフィルム１７のフィルム厚Ｌ１が前記範囲にあり、ポリウレタンフィルム１７の全対向面とスクリーン紗１８の全対向面とが接着されているから、ポリウレタンフィルム１７とスクリーン紗１８とが密着し、ポリウレタンフィルム１７が塗装面から着用者の手の平に伝わる触覚の邪魔になることはなく、スクリーン紗１８を通して着用者の手の平に塗装面の触覚が確実に伝わり、塗装前および塗装後の塗装物の塗装面における凹凸の有無を正確に検査することができる。   In the coated surface inspection glove 10A, the film thickness L1 of the polyurethane film 17 forming the second fabric 15 is in the above-mentioned range, and the entire facing surface of the polyurethane film 17 and the all facing surface of the screen bag 18 are bonded. The polyurethane film 17 and the screen ridge 18 are in close contact with each other, so that the polyurethane film 17 does not interfere with the tactile sensation transmitted from the painted surface to the wearer's palm, and the painted surface is surely touched on the wearer's palm through the screen 紗 18. Therefore, it is possible to accurately inspect for the presence or absence of irregularities on the painted surface of the painted product before and after painting.

塗装面検査用手袋１０Ａは、第１生地１４に通気透湿性を有するポリウレタン不織布１６が使用され、手袋１０Ａの着用中に着用者の手から発生する湿気をポリウレタン不織布１６（第１生地１４）から手袋１０Ａの外部に放出するから、着用者中における蒸れを防ぐことができ、手袋１０Ａの着用感の低下を防ぐことができる。手袋１０Ａは、第１生地１４が伸縮性を有するポリウレタン不織布１６であるから、第１生地１４が非伸縮性である場合と比較し、第１生地１４の変形自由度が高く、第１生地１４が着用者の手の動きに容易に追従するから、着用者の手の甲の動きが第１生地１４によって抑制されることはなく、塗装面の検査中における作業性を向上させることができる。   In the coated surface inspection glove 10A, the polyurethane nonwoven fabric 16 having air permeability and moisture permeability is used for the first fabric 14, and moisture generated from the wearer's hand while the glove 10A is worn is from the polyurethane nonwoven fabric 16 (first fabric 14). Since it discharges to the outside of the glove 10A, it is possible to prevent stuffiness in the wearer and to prevent a decrease in the wearing feeling of the glove 10A. Since the first fabric 14 is a stretchable polyurethane nonwoven fabric 16, the glove 10 </ b> A has a higher degree of freedom in deformation of the first fabric 14 than the case where the first fabric 14 is non-stretchable. Easily follows the movement of the wearer's hand, the movement of the back of the wearer's hand is not suppressed by the first fabric 14, and the workability during the inspection of the painted surface can be improved.

図４は、他の一例として示す塗装面検査用手袋１０Ｂの斜視図であり、図５は、図４のＣ−Ｃ線端面図である。図６は、図４のＤ−Ｄ線端面図である。図４では、手袋１０Ｂの挿入口１１近傍を破断して示す。図４では、片方の手袋１０Ｂのみを図示しているが、実際には右手用および左手用の手袋１０Ｂが存在する。塗装面検査用手袋１０Ｂが図１のそれと異なるところは、第１生地にポリウレタンフィルム２２が使用されている点にあり、その他の構成は図１の手袋１０Ａのそれらと同一であるから、図１と同様の符号を付すとともに、図１の説明を援用することで、この手袋１０Ｂのその他の構成の詳細な説明は省略する。   4 is a perspective view of a coated surface inspection glove 10B shown as another example, and FIG. 5 is an end view taken along the line CC of FIG. 6 is an end view taken along the line DD of FIG. In FIG. 4, the vicinity of the insertion slot 11 of the glove 10B is shown broken. In FIG. 4, only one glove 10B is illustrated, but actually there are right-hand and left-hand gloves 10B. The painted surface inspection glove 10B is different from that shown in FIG. 1 in that a polyurethane film 22 is used for the first fabric, and other configurations are the same as those of the glove 10A shown in FIG. A detailed description of the other configuration of the glove 10B will be omitted by using the same reference numerals as in FIG.

塗装面検査用手袋１０Ｂは、挿入口１１と手包被部１２と指包被部１３とを有し、第１生地１４と第２生地１５とから形成されている。第１生地１４には、縦方向および横方向（四方）への伸縮性を有するとともに多数の通気孔２３を有するポリウレタンフィルム２２が使用されている。第２生地１５には、ポリウレタンフィルム１７（熱可塑性合成樹脂フィルム）をスクリーン紗１８にラミネートした複合生地が使用されている。第２生地１５では、ポリウレタンフィルム１７の全対向面（対向面の全域）とスクリーン紗１８の全対向面（対向面の全域）とがウレタン系接着剤１９またはホットメルト接着剤１９によって接着されている。スクリーン紗１８は、図１の手袋１０Ａのそれと同一である。   The painted surface inspection glove 10 </ b> B includes an insertion port 11, a hand wrapping portion 12, and a finger wrapping portion 13, and is formed of a first cloth 14 and a second cloth 15. For the first fabric 14, a polyurethane film 22 having stretchability in the vertical direction and the horizontal direction (four directions) and having a large number of air holes 23 is used. As the second fabric 15, a composite fabric in which a polyurethane film 17 (thermoplastic synthetic resin film) is laminated on a screen basket 18 is used. In the second fabric 15, the entire facing surface of the polyurethane film 17 (the entire area of the facing surface) and the entire facing surface of the screen bag 18 (the entire area of the facing surface) are bonded together by the urethane adhesive 19 or the hot melt adhesive 19. Yes. The screen bag 18 is the same as that of the glove 10A of FIG.

塗装面検査用手袋１０Ｂでは、第１生地１４のポリウレタンフィルム２２と第２生地１５のポリウレタンフィルム１７とが対向した状態で第１生地１４と第２生地１５とが重なり合い、第１生地１４の手挿入口１１を除く周縁部２０に延びるポリウレタンフィルム２２と第２生地１５の手挿入口１１を除く周縁部２１に延びるポリウレタンフィルム１７とが熱融着されている。塗装面検査用手袋１０Ｂの製造手順は、図１の手袋１０Ａのそれと同一である。   In the coated surface inspection glove 10B, the first fabric 14 and the second fabric 15 overlap each other with the polyurethane film 22 of the first fabric 14 and the polyurethane film 17 of the second fabric 15 facing each other. The polyurethane film 22 extending to the peripheral edge 20 excluding the insertion opening 11 and the polyurethane film 17 extending to the peripheral edge 21 excluding the manual insertion opening 11 of the second fabric 15 are heat-sealed. The manufacturing procedure of the coated surface inspection gloves 10B is the same as that of the gloves 10A of FIG.

ポリウレタンフィルム１７のフィルム厚Ｌ１は５〜４０μｍの範囲、スクリーン紗１８のメッシュ数は５０〜５００／ｃｍの範囲にあり、紗厚Ｌ２は４０〜１５０μｍの範囲にある。フィルム厚Ｌ１やメッシュ数、紗厚Ｌ２を前記範囲にする理由は図１の手袋１０Ａのそれらと同一である。手袋１０Ｂは、それを着用した着用者が第２生地１５を介して塗装物の塗装面を撫でるように触れ、スクリーン紗１８を通して塗装面から手の平に伝わる触覚によって塗装前および塗装後の塗装物の塗装面における凹凸の有無を検査する。   The film thickness L1 of the polyurethane film 17 is in the range of 5 to 40 μm, the mesh number of the screen ridge 18 is in the range of 50 to 500 / cm, and the ridge thickness L2 is in the range of 40 to 150 μm. The reason why the film thickness L1, the number of meshes, and the collar thickness L2 are in the above ranges is the same as that of the glove 10A of FIG. The glove 10B is touched so that the wearer who wears it strokes the painted surface of the painted object through the second fabric 15, and touches the painted surface of the painted object through the screen ridge 18 from the painted surface to the palm. Inspect the painted surface for irregularities.

塗装面検査用手袋１０Ｂは、第２生地１５がポリウレタンフィルム１７をスクリーン紗１８にラミネートした複合生地から作られているから、ポリウレタンフィルム１７がスクリーン紗１８を補強する補強材となり、ポリウレタンフィルム１７によってスクリーン紗１８を含む第２生地１５の強度を高くすることができ、塗装物のエッジや尖端に触れたときのスクリーン紗１７（第２生地１５）における破れや解れの発生を防ぐことができる。手袋１０Ｂは、第１生地１４にポリウレタンフィルム２２が使用されているから、第１生地１４の変形自由度が高く、第１生地１４が着用者の手の動きに容易に追従するから、着用者の手の甲の動きが第１生地１４によって抑制されることはなく、塗装面の検査中における作業性を向上させることができる。   In the coated surface inspection glove 10B, the second fabric 15 is made of a composite fabric obtained by laminating the polyurethane film 17 on the screen ridge 18, so the polyurethane film 17 serves as a reinforcing material for reinforcing the screen ridge 18. The strength of the second fabric 15 including the screen basket 18 can be increased, and it is possible to prevent the screen basket 17 (second fabric 15) from being torn or unraveled when it touches the edge or tip of the paint. Since the gloves 10B use the polyurethane film 22 for the first fabric 14, the first fabric 14 has a high degree of freedom of deformation, and the first fabric 14 easily follows the movement of the wearer's hand. The movement of the back of the hand is not suppressed by the first fabric 14, and workability during the inspection of the painted surface can be improved.

塗装面検査用手袋１０Ｂは、第１生地１４を形成するポリウレタンフィルム２２の周縁部２０と第２生地１５を形成するポリウレタンフィルム１７の周縁部２１とが熱融着によって接合されているから、第１生地１４と第２生地１５とを縫合する場合と比較し、繊維クズが脱落することはなく、手袋１０Ｂの製造における手間やコストを大幅に省くことができ、手袋１０Ｂを短時間かつ安価に作ることができる。手袋１０Ｂは、多数の通気孔２３を有するポリウレタンフィルム２２が通気透湿性を有し、手袋１０Ｂの着用中に着用者の手から発生する湿気をポリウレタンフィルム２２から手袋１０Ｂの外部に放出するから、着用者中における蒸れを防ぐことができ、手袋１０Ｂの着用感の低下を防ぐことができる。   In the coated surface inspection glove 10B, the peripheral edge 20 of the polyurethane film 22 forming the first cloth 14 and the peripheral edge 21 of the polyurethane film 17 forming the second cloth 15 are joined by heat sealing. Compared with the case where the first fabric 14 and the second fabric 15 are stitched together, the fiber waste does not fall off, and the labor and cost in manufacturing the glove 10B can be greatly reduced. Can be made. In the glove 10B, since the polyurethane film 22 having a large number of vent holes 23 has air permeability and moisture permeability, moisture generated from the wearer's hand while the glove 10B is worn is released from the polyurethane film 22 to the outside of the glove 10B. Steaming in the wearer can be prevented, and a decrease in the wearing feeling of the gloves 10B can be prevented.

図７は、他の一例として示す塗装面検査用手袋１０Ｃの斜視図であり、図８は、図７のＥ−Ｅ線端面図である。図９は、図７のＦ−Ｆ線端面図である。図７では、片方の手袋１０Ｃのみを図示しているが、実際には右手用および左手用の手袋１０Ｃが存在する。図７の塗装面検査用手袋１０Ｃが図１のそれと異なるところは、第１生地に繊維不織布２４が使用されている点、熱可塑性合成樹脂フィルム２５が繊維不織布２４と略同じ融点の熱可塑性合成樹脂から作られている点、指包被部が五指に分かれていない点、五指を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ４が手の甲および手の平を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ３よりも大きい点にある。なお、この手袋１０Ｃのその他の構成は図１の手袋１０Ａのそれらと同一であるから、図１と同様の符号を付すとともに、図１の説明を援用することで、この手袋１０Ｃのその他の構成の詳細な説明は省略する。   FIG. 7 is a perspective view of a coated surface inspection glove 10C shown as another example, and FIG. 8 is an end view taken along line EE of FIG. 9 is an end view taken along line FF in FIG. Although only one glove 10C is illustrated in FIG. 7, there are actually right-hand and left-hand gloves 10C. 7 differs from that of FIG. 1 in that the fiber nonwoven fabric 24 is used for the first fabric, and the thermoplastic synthetic resin film 25 is a thermoplastic synthetic material having substantially the same melting point as the fiber nonwoven fabric 24. The point made from resin, the finger covering part is not divided into five fingers, and the thermal fusion width L4 between the peripheral parts 20, 21 of the first and second fabrics 14, 15 covering the five fingers It exists in the point larger than the heat-sealing width | variety L3 of the peripheral parts 20 and 21 of the 1st and 2nd material | dough 14 and 15 to cover. In addition, since the other structure of this glove 10C is the same as that of glove 10A of FIG. 1, while attaching | subjecting the code | symbol similar to FIG. 1 and using the description of FIG. The detailed description of is omitted.

塗装面検査用手袋１０Ｃは、挿入口１１と手包被部１２と指包被部１３とを有し、第１生地１４と第２生地１５とから形成されている。指包被部１３は、親指を包被する部分と、人差し指を包被する部分と、中指・人差し指・小指を包被する部分とに分かれ、中指や人差し指、小指が一緒に包被される。第１生地１４には、熱可塑性合成樹脂から作られた通気透湿性を有する繊維不織布２４が使用されている。繊維不織布２４には、スパンボンド法やメルトブローン法、エアレイド法、ケミカルボンド法、サーマルボンド法、ニードルパンチ法、ウォータージェット法によって作られたものを使用することができる。   The painted surface inspection glove 10 </ b> C has an insertion port 11, a hand wrapping portion 12, and a finger wrapping portion 13, and is formed of a first cloth 14 and a second cloth 15. The finger wrapping portion 13 is divided into a portion covering the thumb, a portion covering the index finger, and a portion covering the middle finger, the index finger, and the little finger, and the middle finger, the index finger, and the little finger are covered together. For the first fabric 14, a fiber nonwoven fabric 24 made of thermoplastic synthetic resin and having air permeability and moisture permeability is used. As the fiber nonwoven fabric 24, those made by a spun bond method, a melt blown method, an airlaid method, a chemical bond method, a thermal bond method, a needle punch method, or a water jet method can be used.

第２生地１５には、熱可塑性合成樹脂フィルム２５をスクリーン紗１８にラミネートした複合生地が使用されている。第２生地１５では、熱可塑性合成樹脂フィルム２５の全対向面（対向面の全域）とスクリーン紗１８の全対向面（対向面の全域）とがウレタン系接着剤１９またはホットメルト接着剤１９によって接着されている。熱可塑性合成樹脂フィルム２５は、繊維不織布２４と略同じ融点の熱可塑性合成樹脂から作られている。スクリーン紗１８は、図１の手袋１０Ａのそれと同一である。   As the second fabric 15, a composite fabric in which a thermoplastic synthetic resin film 25 is laminated on a screen basket 18 is used. In the second fabric 15, the entire facing surface of the thermoplastic synthetic resin film 25 (the entire area of the facing surface) and the entire facing surface of the screen rod 18 (the entire area of the facing surface) are formed by the urethane adhesive 19 or the hot melt adhesive 19. It is glued. The thermoplastic synthetic resin film 25 is made of a thermoplastic synthetic resin having substantially the same melting point as that of the fiber nonwoven fabric 24. The screen bag 18 is the same as that of the glove 10A of FIG.

塗装面検査用手袋１０Ｃでは、第１生地１４の繊維不織布２４と第２生地１５の熱可塑性合成樹脂フィルム２５とが対向した状態で第１生地１４と第２生地１５とが重なり合い、第１生地１４の手挿入口１１を除く周縁部２０に延びる繊維不織布２４と第２生地１５の手挿入口１１を除く周縁部２１に延びる熱可塑性合成樹脂フィルム２５とが熱融着されている。塗装面検査用手袋１０Ｃの製造手順は、図１の手袋１０Ａのそれと同一である。   In the coated surface inspection glove 10C, the first fabric 14 and the second fabric 15 overlap with each other in a state where the fiber nonwoven fabric 24 of the first fabric 14 and the thermoplastic synthetic resin film 25 of the second fabric 15 face each other. The fiber nonwoven fabric 24 extending to the peripheral edge 20 excluding the 14 hand insertion ports 11 and the thermoplastic synthetic resin film 25 extending to the peripheral edge 21 excluding the hand insertion ports 11 of the second fabric 15 are heat-sealed. The manufacturing procedure of the coated surface inspection gloves 10C is the same as that of the gloves 10A of FIG.

五指の略上半分を覆う第１生地１４の繊維不織布２４の周縁部２０と五指の略下半分を覆う第２生地１５の熱可塑性合成樹脂フィルム２５の周縁部２１との熱融着幅Ｌ４は、手の甲を覆う第１生地１４の繊維不織布２４の周縁部２０と手の平を覆う第２生地１５の熱可塑性合成樹脂フィルム２５の周縁部２１との熱融着幅Ｌ３よりも大きい。熱融着幅Ｌ３の好ましい寸法は、１〜２．５ｍｍであり、熱融着幅Ｌ４の好ましい寸法は、２〜４ｍｍである。なお、図１の手袋１０Ａや図４の手袋１０Ｂにおいて、五指を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ４が手の甲や手の平を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ３より大きくてもよい。   The thermal fusion width L4 between the peripheral edge 20 of the fiber nonwoven fabric 24 of the first fabric 14 covering the substantially upper half of the five fingers and the peripheral edge 21 of the thermoplastic synthetic resin film 25 of the second fabric 15 covering the substantially lower half of the five fingers is The thermal fusion width L3 between the peripheral edge 20 of the fiber nonwoven fabric 24 of the first fabric 14 covering the back of the hand and the peripheral edge 21 of the thermoplastic synthetic resin film 25 of the second fabric 15 covering the palm is larger. The preferable dimension of the heat-sealing width L3 is 1 to 2.5 mm, and the preferable dimension of the heat-sealing width L4 is 2 to 4 mm. In the glove 10A of FIG. 1 and the glove 10B of FIG. 4, the first and second heat sealing width L4 between the peripheral portions 20, 21 of the first and second fabrics 14, 15 covering the five fingers covers the back of the hand and the palm. It may be larger than the thermal fusion width L3 between the peripheral portions 20, 21 of the two fabrics 14, 15.

熱可塑性合成樹脂フィルム２５のフィルム厚Ｌ１は５〜４０μｍの範囲、スクリーン紗１８のメッシュ数は５０〜５００／ｃｍの範囲にあり、紗厚Ｌ２は４０〜１５０μｍの範囲にある。フィルム厚Ｌ１やメッシュ数、紗厚Ｌ２を前記範囲にする理由は図１の手袋１０Ａのそれらと同一である。手袋１０Ｃは、それを着用した着用者が第２生地１５を介して塗装物の塗装面を撫でるように触れ、スクリーン紗１８を通して塗装面から手の平に伝わる触覚によって塗装前および塗装後の塗装物の塗装面における凹凸の有無を検査する。   The film thickness L1 of the thermoplastic synthetic resin film 25 is in the range of 5 to 40 μm, the mesh number of the screen ridge 18 is in the range of 50 to 500 / cm, and the ridge thickness L2 is in the range of 40 to 150 μm. The reason why the film thickness L1, the number of meshes, and the collar thickness L2 are in the above ranges is the same as that of the glove 10A of FIG. The glove 10C is touched so that the wearer who wears it strokes the painted surface of the painted object through the second fabric 15, and touches the painted surface of the painted object before and after the painting through the screen ridge 18 from the painted surface to the palm. Inspect the painted surface for irregularities.

塗装面検査用手袋１０Ｃは、第２生地１５が熱可塑性合成樹脂フィルム２５をスクリーン紗１８にラミネートした複合生地から作られているから、熱可塑性合成樹脂フィルム２５がスクリーン紗１８を補強する補強材となり、熱可塑性合成樹脂フィルム２５によってスクリーン紗１８を含む第２生地１５の強度を高くすることができ、塗装物のエッジや尖端に触れたときのスクリーン紗１８（第２生地１５）における破れや解れの発生を防ぐことができる。   In the coated surface inspection glove 10C, the second fabric 15 is made of a composite fabric obtained by laminating the thermoplastic synthetic resin film 25 on the screen ridge 18, so that the thermoplastic synthetic resin film 25 reinforces the screen ridge 18 with a reinforcing material. Thus, the thermoplastic synthetic resin film 25 can increase the strength of the second fabric 15 including the screen ridge 18, and the screen （18 (second fabric 15) can be broken when touching the edge or tip of the paint. Generation of unraveling can be prevented.

塗装面検査用手袋１０Ｃは、五指を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ４が手の甲や手の平を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ３よりも大きいから、手袋１０Ｃの着用中に着用者の手の動きによって着用者の五指を覆う第１および第２生地１４，１５に引張力やずれ応力、剥離力等のストレスが作用したとしても、それによって五指を覆う第１および第２生地１４，１５の周縁部２０，２１にピンホールや破れが生じることはなく、着用者の五指に位置する第１および第２生地１４，１５の破損を防ぐことができる。手袋１０Ｃは、着用者の五指に位置する第１および第２生地１４，１５の破損を防ぐことができるから、長期間の使用に耐えることができ、その使用期間を長くすることができるのみならず、手袋１０Ｃの交換コストを省くことができる。   10 C of coating surface test | inspection gloves are the periphery of the 1st and 2nd fabrics 14 and 15 in which the thermal fusion width | variety L4 of the peripheral parts 20 and 21 of the 1st and 2nd fabrics 14 and 15 which covers five fingers covers the back of the hand and the palm Since it is larger than the thermal fusion width L3 between the portions 20 and 21, the first and second fabrics 14 and 15 that cover the wearer's five fingers by the movement of the wearer's hand while wearing the gloves 10C are subjected to tensile force and shear stress. Even if stress such as peeling force is applied, pinholes and tears do not occur in the peripheral portions 20 and 21 of the first and second fabrics 14 and 15 covering the five fingers, thereby being positioned on the wearer's five fingers. Breakage of the first and second fabrics 14 and 15 can be prevented. The glove 10C can prevent damage to the first and second fabrics 14 and 15 located on the wearer's five fingers, so that the glove 10C can withstand long-term use and can extend its use period. Therefore, the replacement cost of the gloves 10C can be omitted.

塗装面検査用手袋１０Ｃは、第１生地１４を形成する繊維不織布２４の周縁部２０と第１生地１４の繊維不織布２４と略同じ融点の熱可塑性合成樹脂から作られた熱可塑性合成樹脂フィルム２５の周縁部２１とが熱融着によって接合されているから、第１生地１４と第２生地１５とを縫合する場合と比較し、繊維クズが脱落することはなく、手袋１０Ｃの製造における手間やコストを大幅に省くことができ、手袋１０Ｃを短時間かつ安価に作ることができる。手袋１０Ｃは、第１生地１４の繊維不織布２４が通気透湿性を有し、手袋１０Ｃの着用中に着用者の手から発生する湿気を繊維不織布２４（第１生地１４）から手袋１０Ｃの外部に放出するから、着用者中における蒸れを防ぐことができ、着用感の低下を防ぐことができる。   The coated surface inspection glove 10 </ b> C includes a thermoplastic synthetic resin film 25 made of a thermoplastic synthetic resin having substantially the same melting point as the peripheral edge portion 20 of the fiber nonwoven fabric 24 forming the first fabric 14 and the fiber nonwoven fabric 24 of the first fabric 14. Since the peripheral edge portion 21 is joined by heat fusion, compared with the case where the first fabric 14 and the second fabric 15 are stitched together, the fiber scrap does not fall off. Costs can be greatly reduced, and the gloves 10C can be made in a short time and at low cost. In the glove 10C, the fiber nonwoven fabric 24 of the first fabric 14 has air permeability and moisture permeability, and moisture generated from the wearer's hand while wearing the glove 10C is transferred from the fiber nonwoven fabric 24 (first fabric 14) to the outside of the glove 10C. Since it discharge | releases, the stuffiness in a wearer can be prevented and the fall of a feeling of wear can be prevented.

図１０は、他の一例として示す塗装面検査用手袋１０Ｄの斜視図であり、図１１は、図１０のＧ−Ｇ線端面図である。図１２は、図１０のＨ−Ｈ線端面図である。図１０では、片方の手袋１０Ｄのみを図示しているが、実際には右手用および左手用の手袋１０Ｄが存在する。図１０の塗装面検査用手袋１０Ｄが図１のそれと異なるところは、五指を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ４が手の甲および手の平を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ３よりも大きい点、第１および第２生地１４，１５の指又域２６の周縁部２０，２１どうしの熱融着幅Ｌ５が第１および第２生地１４，１５の指又域２６を除く残余域２７の周縁部２０，２１どうしの熱融着幅Ｌ４よりも大きい点にある。なお、この手袋１０Ｃのその他の構成は図１の手袋１０Ａのそれらと同一であるから、図１と同様の符号を付すとともに、図１の説明を援用することで、この手袋１０Ｃのその他の構成の詳細な説明は省略する。   10 is a perspective view of a coated surface inspection glove 10D shown as another example, and FIG. 11 is an end view taken along the line GG of FIG. FIG. 12 is an end view taken along the line HH of FIG. Although only one glove 10D is shown in FIG. 10, there are actually right-hand and left-hand gloves 10D. The painted surface inspection glove 10D of FIG. 10 is different from that of FIG. 1 in that the heat-sealing width L4 between the peripheral portions 20, 21 of the first and second fabrics 14, 15 covering the five fingers covers the back of the hand and the palm. A point that is larger than the thermal fusion width L3 between the peripheral portions 20, 21 of the first and second fabrics 14, 15, and the thermal fusion between the peripheral portions 20, 21 of the finger or region 26 of the first and second fabrics 14, 15 The wearing width L5 is larger than the heat-sealing width L4 between the peripheral portions 20 and 21 of the remaining area 27 excluding the finger or the area 26 of the first and second fabrics 14 and 15. In addition, since the other structure of this glove 10C is the same as that of glove 10A of FIG. 1, while attaching | subjecting the code | symbol similar to FIG. 1 and using the description of FIG. The detailed description of is omitted.

塗装面検査用手袋１０Ｄは、挿入口１１と手包被部１２と指包被部１３とを有し、第１生地１４と第２生地１５とから形成されている。第１生地１４には、通気透湿性を有するとともに縦方向および横方向（四方）への伸縮性を有するポリウレタン不織布１６が使用されている。第２生地１５には、ポリウレタンフィルム１７（熱可塑性合成樹脂フィルム）をスクリーン紗１８にラミネートした複合生地が使用されている。第２生地１５では、ポリウレタンフィルム１７の全対向面（対向面の全域）とスクリーン紗１８の全対向面（対向面の全域）とがウレタン系接着剤１９またはホットメルト接着剤１９によって接着されている。スクリーン紗１８は、図１の手袋１０Ａのそれと同一である。   The painted surface inspection glove 10 </ b> D includes an insertion port 11, a hand wrapping portion 12, and a finger wrapping portion 13, and is formed of a first cloth 14 and a second cloth 15. For the first fabric 14, a polyurethane nonwoven fabric 16 having air permeability and moisture permeability and stretchability in the longitudinal direction and the lateral direction (four directions) is used. As the second fabric 15, a composite fabric in which a polyurethane film 17 (thermoplastic synthetic resin film) is laminated on a screen basket 18 is used. In the second fabric 15, the entire facing surface of the polyurethane film 17 (the entire area of the facing surface) and the entire facing surface of the screen bag 18 (the entire area of the facing surface) are bonded together by the urethane adhesive 19 or the hot melt adhesive 19. Yes. The screen bag 18 is the same as that of the glove 10A of FIG.

塗装面検査用手袋１０Ｄでは、第１生地１４のポリウレタン不織布１６と第２生地１５のポリウレタンフィルム１７とが対向した状態で第１生地１４と第２生地１５とが重なり合い、第１生地１４の手挿入口１１を除く周縁部２０に延びるポリウレタン不織布１６と第２生地１５の手挿入口１１を除く周縁部２１に延びるポリウレタンフィルム１７とが熱融着されている。塗装面検査用手袋１０Ｄの製造手順は、図１の手袋１０Ａのそれと同一である。   In the painted surface inspection glove 10D, the first fabric 14 and the second fabric 15 overlap each other with the polyurethane nonwoven fabric 16 of the first fabric 14 and the polyurethane film 17 of the second fabric 15 facing each other. The polyurethane nonwoven fabric 16 extending to the peripheral edge 20 excluding the insertion opening 11 and the polyurethane film 17 extending to the peripheral edge 21 excluding the manual insertion opening 11 of the second fabric 15 are heat-sealed. The manufacturing procedure of the painted surface inspection glove 10D is the same as that of the glove 10A of FIG.

五指の略上半分を覆う第１生地１４のポリウレタン不織布１６の周縁部２０と五指の略下半分を覆う第２生地１５の熱可塑性合成樹脂フィルム２５の周縁部２１との熱融着幅Ｌ４は、手の甲を覆う第１生地１４のポリウレタン不織布１６の周縁部２０と手の平を覆う第２生地１５の熱可塑性合成樹脂フィルム２５の周縁部２１との熱融着幅Ｌ３よりも大きい。さらに、五指の間の指又の略上半分を覆う第１生地１４のポリウレタン不織布１６の指又域２６の周縁部２０と五指の間の指又の略下半分を覆う第２生地１５の熱可塑性合成樹脂フィルム１７の指又域２６の周縁部２１との熱融着幅Ｌ５は、五指の略上半分を覆う第１生地１４のポリウレタン不織布１６の指又域２６を除く残余域２７の周縁部２０と五指の略下半分を覆う第２生地１５の熱可塑性合成樹脂フィルム１７の指又域２６を除く残余域２７の周縁部２１との熱融着幅Ｌ４よりも大きい。熱融着幅Ｌ３の好ましい寸法は、１〜２．５ｍｍであり、熱融着幅Ｌ４の好ましい寸法は、２〜４ｍｍである。熱融着幅Ｌ５の好ましい寸法は、２．５〜４．５ｍｍである。   The thermal fusion width L4 between the peripheral edge 20 of the polyurethane nonwoven fabric 16 of the first fabric 14 covering substantially the upper half of the five fingers and the peripheral edge 21 of the thermoplastic synthetic resin film 25 of the second fabric 15 covering substantially the lower half of the five fingers is The thermal fusion width L3 between the peripheral edge 20 of the polyurethane nonwoven fabric 16 of the first fabric 14 covering the back of the hand and the peripheral edge 21 of the thermoplastic synthetic resin film 25 of the second fabric 15 covering the palm of the hand is larger. Further, the heat of the second fabric 15 covering the substantially lower half of the fingers 20 between the fingers 20 between the fingers 20 in the polyurethane nonwoven fabric 16 of the first fabric 14 and the fingers 20 between the five fingers and covering the upper half of the fingers between the five fingers. The thermal fusion width L5 of the plastic synthetic resin film 17 with the peripheral part 21 of the fingernail area 26 is the peripheral edge of the remaining area 27 excluding the fingernail area 26 of the polyurethane nonwoven fabric 16 of the first fabric 14 covering substantially the upper half of the five fingers. It is larger than the thermal fusion width L4 between the peripheral portion 21 of the remaining region 27 excluding the finger or the region 26 of the thermoplastic synthetic resin film 17 of the second fabric 15 covering the substantially lower half of the part 20 and the five fingers. The preferable dimension of the heat-sealing width L3 is 1 to 2.5 mm, and the preferable dimension of the heat-sealing width L4 is 2 to 4 mm. A preferable dimension of the heat fusion width L5 is 2.5 to 4.5 mm.

なお、図１の手袋１０Ａや図４の手袋１０Ｂにおいて、五指を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ４が手の甲や手の平を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ３より大きくてもよく、指又を覆う第１および第２生地１４，１５の指又域２６の周縁部２０，２１どうしの熱融着幅Ｌ５が第１および第２生地１４，１５の指又域２６を除く残余域２７の周縁部２０，２１どうしの熱融着幅Ｌ４より大きくてもよい。また、図７の手袋１０Ｃにおいて、指又を覆う第１および第２生地１４，１５の指又域２６の周縁部２０，２１どうしの熱融着幅Ｌ５が第１および第２生地１４，１５の指又域２６を除く残余域２７の周縁部２０，２１どうしの熱融着幅Ｌ４より大きくてもよい。   In the glove 10A of FIG. 1 and the glove 10B of FIG. 4, the first and second heat sealing width L4 between the peripheral portions 20, 21 of the first and second fabrics 14, 15 covering the five fingers covers the back of the hand and the palm. 2 may be larger than the heat-sealing width L3 between the peripheral portions 20, 21 of the fabrics 14, 15, and between the peripheral portions 20, 21 of the finger cap region 26 of the first and second fabrics 14, 15 covering the fingers. The thermal fusion width L5 may be larger than the thermal fusion width L4 between the peripheral portions 20 and 21 of the remaining area 27 excluding the finger or the area 26 of the first and second fabrics 14 and 15. Further, in the glove 10C of FIG. 7, the first and second fabrics 14 and 15 have the heat-sealing width L5 between the peripheral portions 20 and 21 of the finger or the region 26 of the first and second fabrics 14 and 15 covering the fingers. It may be larger than the thermal fusion width L4 between the peripheral portions 20 and 21 of the remaining area 27 excluding the finger rest area 26.

ポリウレタンフィルム１７のフィルム厚Ｌ１は５〜４０μｍの範囲、スクリーン紗１８のメッシュ数は５０〜５００／ｃｍの範囲にあり、紗厚Ｌ２は４０〜１５０μｍの範囲にある。フィルム厚Ｌ１やメッシュ数、紗厚Ｌ２を前記範囲にする理由は図１の手袋１０Ａのそれらと同一である。手袋１０Ｄは、それを着用した着用者が第２生地１５を介して塗装物の塗装面を撫でるように触れ、スクリーン紗１８を通して塗装面から手の平に伝わる触覚によって塗装前および塗装後の塗装物の塗装面における凹凸の有無を検査する。   The film thickness L1 of the polyurethane film 17 is in the range of 5 to 40 μm, the mesh number of the screen ridge 18 is in the range of 50 to 500 / cm, and the ridge thickness L2 is in the range of 40 to 150 μm. The reason why the film thickness L1, the number of meshes, and the collar thickness L2 are in the above ranges is the same as that of the glove 10A of FIG. The glove 10D is touched so that the wearer who wears it strokes the painted surface of the painted object through the second fabric 15, and touches the painted surface of the painted object before and after the painting through the screen ridge 18 from the painted surface to the palm. Inspect the painted surface for irregularities.

塗装面検査用手袋１０Ｄは、図１の手袋１０Ａが有する効果に加え、以下の効果を有する。塗装面検査用手袋１０Ｄは、五指を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ４が手の甲や手の平を覆う第１および第２生地１４，１５の周縁部２０，２１どうしの熱融着幅Ｌ３よりも大きいから、手袋１０Ｄの着用中に着用者の手の動きによって着用者の五指を覆う第１および第２生地１４，１５に引張力やずれ応力、剥離力等のストレスが作用したとしても、それによって五指を覆う第１および第２生地１４，１５の周縁部２０，２１にピンホールや破れが生じることはなく、着用者の五指に位置する第１および第２生地１４，１５の破損を防ぐことができる。手袋１０Ｄは、着用者の五指に位置する第１および第２生地１４，１５の破損を防ぐことができるから、長期間の使用に耐えることができ、その使用期間を長くすることができるのみならず、手袋１０Ｄの交換コストを省くことができる。   The painted surface inspection gloves 10D have the following effects in addition to the effects of the gloves 10A of FIG. The coated surface inspection glove 10D has a peripheral edge of the first and second fabrics 14 and 15 in which the thermal fusion width L4 between the peripheral portions 20 and 21 of the first and second fabrics 14 and 15 covering the five fingers covers the back of the hand and the palm. Since it is larger than the heat-sealing width L3 between the portions 20 and 21, the first and second fabrics 14 and 15 that cover the wearer's five fingers by the movement of the wearer's hand while wearing the glove 10D are subjected to tensile force and shear stress. Even if stress such as peeling force is applied, pinholes and tears do not occur in the peripheral portions 20 and 21 of the first and second fabrics 14 and 15 covering the five fingers, thereby being positioned on the wearer's five fingers. Breakage of the first and second fabrics 14 and 15 can be prevented. The glove 10D can prevent damage to the first and second fabrics 14 and 15 located on the wearer's five fingers, so that the glove 10D can withstand long-term use and can extend its use period. Therefore, the replacement cost of the gloves 10D can be omitted.

塗装面検査用手袋１０Ｄは、指又を覆う第１および第２生地１４，１５の指又域２６の周縁部２０，２１どうしの熱融着幅Ｌ５が第１および第２生地１４，１５の指又域２６を除く残余域２７の周縁部２０，２１どうしの熱融着幅Ｌ４よりも大きいから、手袋１０Ｄの着用中に着用者の手の動きが手袋１０Ｄの指又域２６に大きく伝わり、手袋１０Ｄの着用中に着用者の手の動きによって着用者の指又を覆う第１および第２生地１４，１５の指又域２６に引張力やずれ応力、剥離力等のストレスが強く作用したとしても、それによって指又を覆う第１および第２生地１４，１５の指又域２６の周縁部２０，２１にピンホールや破れが生じることはなく、着用者の指又に位置する第１および第２生地１４，１５の破損を防ぐことができる。手袋１０Ｄは、着用者の指又に位置する第１および第２生地１４，１５の破損を防ぐことができるから、長期間の使用に耐えることができ、その使用期間を長くすることができるのみならず、手袋１０Ｄの交換コストを省くことができる。   The coating surface inspection glove 10D has a heat-sealing width L5 between the peripheral portions 20, 21 of the finger or the region 26 of the first and second fabrics 14 and 15 covering the fingers, which is the same as that of the first and second fabrics 14 and 15. Since the thermal fusion width L4 between the peripheral edge portions 20 and 21 of the remaining area 27 excluding the finger block area 26 is larger, the movement of the wearer's hand is greatly transmitted to the finger block area 26 of the glove 10D while wearing the glove 10D. In addition, stresses such as tensile force, shear stress, and peeling force act strongly on the finger or region 26 of the first and second fabrics 14 and 15 that cover the wearer's fingers or the like by movement of the wearer's hand while wearing the gloves 10D. Even if it does, a pinhole and a tear do not arise in the peripheral parts 20 and 21 of the fingernail area | region 26 of the 1st and 2nd fabrics 14 and 15 which cover a fingernail by it, but the 1st position located in a wearer's fingernail. Damage to the first and second fabrics 14 and 15 can be prevented. Since the gloves 10D can prevent the first and second fabrics 14 and 15 located on the wearer's fingers from being damaged, the gloves 10D can withstand long-term use and can only extend the period of use. In addition, the replacement cost of the gloves 10D can be omitted.

１０Ａ 塗装面検査用手袋
１０Ｂ 塗装面検査用手袋
１０Ｃ 塗装面検査用手袋
１０Ｄ 塗装面検査用手袋
１１ 手挿入口
１２ 手包被部
１３ 指包被部
１４ 第１生地
１５ 第２生地
１６ ポリウレタン不織布
１７ ポリウレタンフィルム（熱可塑性合成樹脂フィルム）
１８ スクリーン紗
１９ 接着剤
２０ 周縁部
２１ 周縁部
２２ ポリウレタンフィルム
２３ 通気孔
２４ 繊維不織布
２５ 熱可塑性合成樹脂フィルム
２６ 指又域
２７ 残余域
Ｌ１ フィルム厚
Ｌ２ 紗厚
Ｌ３ 熱融着幅
Ｌ４ 熱融着幅
Ｌ５ 熱融着幅
10A Painted surface inspection glove 10B Painted surface inspection glove 10C Painted surface inspection glove 10D Painted surface inspection glove 11 Hand insertion port 12 Hand covering part 13 Finger covering part 14 First cloth 15 Second cloth 16 Polyurethane non-woven cloth 17 Polyurethane Film (thermoplastic synthetic resin film)
18 Screen ridge 19 Adhesive 20 Peripheral part 21 Peripheral part 22 Polyurethane film 23 Vent hole 24 Textile nonwoven fabric 25 Thermoplastic synthetic resin film 26 Finger rest area 27 Residual area L1 Film thickness L2 Thickness L3 Thermal fusion width L4 Thermal fusion width L5 heat fusion width

Claims (8)

着用者の手の甲と手の平と五指とを包被し、塗装面から前記手の平に伝わる触覚によって塗装前および塗装後の該塗装面における凹凸の有無を検査する塗装面検査用手袋において、
前記手袋が、熱可塑性合成樹脂から作られて前記手の甲および該手の甲から続く五指の略上半分を覆う通気透湿性の第１生地と、前記手の平および該手の平から続く五指の略下半分を覆う第２生地とから形成され、前記第２生地が、前記第１生地に対向する熱可塑性合成樹脂フィルムをスクリーン紗にラミネートした複合生地であり、前記手袋では、前記第１生地の手挿入口を除く周縁部と前記第２生地を形成する熱可塑性合成樹脂フィルムの手挿入口を除く周縁部とが熱融着されていることを特徴とする塗装面検査用手袋。 In a glove for coating surface inspection that covers the back of the wearer's hand, the palm, and the five fingers, and inspects the presence or absence of unevenness on the painted surface before and after painting by touching from the painted surface to the palm,
The glove is made of a thermoplastic synthetic resin and has a breathable and breathable first fabric covering the back of the hand and the upper half of the five fingers continuing from the back of the hand, and a first covering of the palm and the substantially lower half of the five fingers extending from the palm. The second fabric is a composite fabric obtained by laminating a thermoplastic synthetic resin film facing the first fabric on a screen bag, and the glove excludes the manual insertion opening of the first fabric. A coated surface inspection glove characterized in that a peripheral edge portion and a peripheral edge portion excluding a manual insertion port of a thermoplastic synthetic resin film forming the second fabric are heat-sealed. 前記第１生地が、伸縮性を有するポリウレタン不織布であり、前記熱可塑性合成樹脂フィルムが、ポリウレタンフィルムである請求項１に記載の塗装面検査用手袋。   The coated surface inspection glove according to claim 1, wherein the first fabric is a polyurethane nonwoven fabric having elasticity, and the thermoplastic synthetic resin film is a polyurethane film. 前記第１生地が、伸縮性を有するとともに多数の通気孔を有するポリウレタンフィルムであり、前記熱可塑性合成樹脂フィルムが、ポリウレタンフィルムである請求項１に記載の塗装面検査用手袋。   2. The coated surface inspection glove according to claim 1, wherein the first fabric is a polyurethane film having stretchability and a large number of air holes, and the thermoplastic synthetic resin film is a polyurethane film. 前記第１生地が、熱可塑性合成樹脂から作られた繊維不織布であり、前記熱可塑性合成樹脂フィルムが、前記繊維不織布と略同じ融点の熱可塑性合成樹脂から作られている請求項１に記載の塗装面検査用手袋。   The said 1st fabric | fabric is the fiber nonwoven fabric made from the thermoplastic synthetic resin, The said thermoplastic synthetic resin film is made from the thermoplastic synthetic resin of substantially the same melting | fusing point as the said fiber nonwoven fabric. Gloves for coating surface inspection. 前記第２生地では、前記熱可塑性合成樹脂フィルムの全対向面と前記スクリーン紗の全対向面とが接着されている請求項１ないし請求項４いずれかに記載の塗装面検査用手袋。   5. The coated surface inspection glove according to claim 1, wherein, in the second fabric, all the facing surfaces of the thermoplastic synthetic resin film and all the facing surfaces of the screen basket are bonded. 前記熱可塑性合成樹脂フィルムのフィルム厚が、５〜４０μｍの範囲にある請求項１ないし請求項５いずれかに記載の塗装面検査用手袋。   The coated surface inspection glove according to any one of claims 1 to 5, wherein a film thickness of the thermoplastic synthetic resin film is in a range of 5 to 40 µm. 前記五指の略上半分を覆う前記第１生地の周縁部と該五指の略下半分を覆う前記第２生地の熱可塑性合成樹脂フィルムの周縁部との熱融着幅が、前記手の甲を覆う前記第１生地の周縁部と前記手の平を覆う熱可塑性合成樹脂フィルムの周縁部との熱融着幅よりも大きい請求項１ないし請求項６いずれかに記載の塗装面検査用手袋。   The thermal fusion width between the peripheral edge portion of the first fabric covering substantially the upper half of the five fingers and the peripheral edge portion of the thermoplastic synthetic resin film of the second fabric covering the substantially lower half of the five fingers covers the back of the hand. The coated surface inspection glove according to any one of claims 1 to 6, wherein the glove for coating surface inspection is larger than a thermal fusion width between a peripheral edge of the first fabric and a peripheral edge of the thermoplastic synthetic resin film covering the palm. 前記五指の間の指又の略上半分を覆う前記第１生地の指又域の周縁部と該五指の間の指又の略下半分を覆う前記第２生地の熱可塑性合成樹脂フィルムの指又域の周縁部との熱融着幅が、前記五指の略上半分を覆う前記第１生地の指又域を除く残余域の周縁部と該五指の略下半分を覆う前記第２生地の熱可塑性合成樹脂フィルムの指又域を除く残余域の周縁部との熱融着幅よりも大きい請求項７に記載の塗装面検査用手袋。   Fingers of the thermoplastic synthetic resin film of the second fabric covering the peripheral portion of the finger or region of the first fabric covering the upper half of the finger span between the five fingers and the substantially lower half of the finger span between the five fingers In addition, the heat fusion width between the peripheral edge of the region and the second cloth covering the peripheral edge of the remaining area excluding the finger or the area of the first cloth covering the substantially upper half of the five fingers and the substantially lower half of the five fingers. The coated surface inspection glove according to claim 7, wherein the glove for coating surface inspection is larger than a heat-sealing width with a peripheral edge portion of the remaining area excluding a finger or an area of the thermoplastic synthetic resin film.

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