Abstract: A glass cutting apparatus (101) includes a pair of cutters (13a, 13b) installed oppositely to each other in such a way as to sandwich, therebetween, a glass plate with surfaces of the glass plate thereof being along a vertical direction; a first pressing unit (14a) which presses one of the cutters to one of the surfaces of the glass plate in a horizontal direction with a pressing force P; a second pressing unit (14b) which is placed oppositely to the first pressing unit and presses the other one of the cutters to the other surface of the glass plate in the horizontal direction with the pressing force P; and a moving unit (20) which moves the pair of cutters pressing the glass plate with the pressing force P.

Abstract: A film peeling device is provided that can easily peel off a film that has been firmly stuck on a display panel. The film peeling device is configured from a cylindrical motor roller (3) that has an effective length longer than the length of the short side of a face panel (7a) constituting a bulb (7) of a cathode ray tube and has a self-rotating function, a contact plate (4) disposed such that it fits closely with the surface of the motor roller (3), and toggle clamps (5) provided outside of the effective length of the motor roller (3), that press the contact plate (4) against the surface of the motor roller (3).

Abstract: A method and apparatus for efficiently removing a dissimilar material as part of a recycling process, which are free of problems in the terms of worker safety and the work environment, are provided. With the apparatus of the present invention, a working unit is operated to move a blade unit while pressing a plastic product from the outside thereof to punch out the dissimilar material.

Abstract: A particle dispersed resin composition (19) is a composition in which a particle dispersed solvent (17) with and in which functional particulate powder is mixed and dispersed is mixed with a heated and melted resin (16). The amount of the resin (16) is set at a capable amount thereof which the resin (16) impregnates.

Abstract: A metal coating removing apparatus (1) includes a first electrode (13) arranged so as to be opposed to a metal coating (101) as an object to be removed, a second electrode 14 arranged so as to be opposed to the metal coating (101) at a predetermined distance from the first electrode (13), and a pulse power generator (11), for example, that functions as a discharge energy supply portion. The pulse power generator (11) supplies discharge energy between the first electrode (13) and the second electrode (14) so as to allow discharging to occur between the first electrode (13) and the second electrode (14). By allowing discharging to occur between the first electrode (13) and the second electrode (14), the metal coating (101) can be removed.

Abstract: A glass cutting apparatus (101) includes a pair of cutters (13a, 13b) installed oppositely to each other in such a way as to sandwich, therebetween, a glass plate with surfaces of the glass plate thereof being along a vertical direction; a first pressing unit (14a) which presses one of the cutters to one of the surfaces of the glass plate in a horizontal direction with a pressing force P; a second pressing unit (14b) which is placed oppositely to the first pressing unit and presses the other one of the cutters to the other surface of the glass plate in the horizontal direction with the pressing force P; and a moving unit (20) which moves the pair of cutters pressing the glass plate with the pressing force P.

Abstract: At least one resin component which is selected from a biodegradable resin and a plant-based resin, and a flame retardancy-imparting component are kneaded to obtain a resin composition having flame retardancy. This resin composition makes it possible to apply the environment-friendly resin such as the biodegradable resin and the plant-based resin, for example, polylactic acid and polybutylene succinate to exterior bodies of home appliances. Particularly, in the case where polylactic acid is used with the acetylacetonatoiron as the flame-retardant component, a resin composition having excellent flame retardancy can be provided as a non-halogen material.

Abstract: An object of the present invention is to shorten the time required by processing, and to simplify the work and increase the number of samples processed, in the X-ray analysis of a specific substance contained in a sample. To achieve the object, a method for assaying the content of a specific substance in a sample 106, comprises a measurement step (S3) of irradiating the sample 106 with X-rays, and measuring the spectrum of the sample 106, and an assay step (S4) of comparing the components of the specific substance in the spectrum of the sample 106 and in a reference spectrum that has been pre-stored for the sample 106, and determining whether the specific substance is contained in the sample 106 in an amount equal to or greater than a specific value.

Abstract: An object of the present invention is to shorten the time required by processing, and to simplify the work and increase the number of samples processed, in the X-ray analysis of a specific substance contained in a sample. To achieve the object, a method for assaying the content of a specific substance in a sample 106, comprises a measurement step (S3) of irradiating the sample 106 with X-rays, and measuring the spectrum of the sample 106, and an assay step (S4) of comparing the components of the specific substance in the spectrum of the sample 106 and in a reference spectrum that has been pre-stored for the sample 106, and determining whether the specific substance is contained in the sample 106 in an amount equal to or greater than a specific value.

Abstract: In a fluorescent X-ray analysis method, a sample (1) is set on a sample stage (2) on an upper side of an X-ray irradiation chamber (7) and a sample cover (6) is closed from the upper part of the sample (1) to surround the sample (1), and then, a lower plane of the sample (1) is irradiated with X-ray for analysis. When the sample (1) is set on the sample stage (2) and the sample cover (6) is closed, a cover detecting means (8) detects that the sample cover (6) is closed and X-ray is automatically projected from an X-ray source (3) to start analysis.

Abstract: In a recycling process, the homogeneity of glass cullet decreases and the quality of the recycled glass is diminished. To solve this problem, the present involves using a fluorescent X-ray analyzer to analyze the glass composition of display substrates prior to crushing, and thereby identifying glass of the same composition, converting the same into cullet, and recovering the glass.

Abstract: A plastic identifying apparatus according to the present invention identifies the kind of plastic in an object to be identified by using as an identification face at least two faces of a test piece (1) serving as the object to be identified. The plastic identifying apparatus according to the present invention includes an identifying and detecting portion (3, 4) for identifying the kind of the plastic included in the test piece (1) and a toppling system (7a, 7b) for toppling the test piece (1) by applying an external force to the test piece (1) in order to change the identification face of the test piece (1) facing the identifying and detecting portion (3, 4) from a first face (1a) to a second face (1b).

Abstract: A particle dispersed resin composition (19) is a composition in which a particle dispersed solvent (17) with and in which functional particulate powder is mixed and dispersed is mixed with a heated and melted resin (16). The amount of the resin (16) is set at a capable amount thereof which the resin (16) impregnates.

Abstract: In a fluorescent X-ray analysis method, a sample (1) is set on a sample stage (2) on an upper side of an X-ray irradiation chamber (7) and a sample cover (6) is closed from the upper part of the sample (1) to surround the sample (1), and then, a lower plane of the sample (1) is irradiated with X-ray for analysis. When the sample (1) is set on the sample stage (2) and the sample cover (6) is closed, a cover detecting means (8) detects that the sample cover (6) is closed and X-ray is automatically projected from an X-ray source (3) to start analysis.

Abstract: It is possible to solve the problem of the conventional fluorescent X-ray analysis that a concentration calculation result can be obtained only after elapse of a time set as a measurement time. In the fluorescent X-ray analysis method and fluorescent X-ray analysis device according to the present invention, a sample measurement condition is set before starting the measurement and the measurement concentration of the element contained in the sample and the measurement accuracy are calculated. When the measurement accuracy has become a value satisfying the predetermined measurement condition, the measurement is terminated and the concentration at that moment is outputted.

Abstract: It is possible to solve the problem of the conventional fluorescent X-ray analysis that a concentration calculation result can be obtained only after elapse of a time set as a measurement time. In the fluorescent X-ray analysis method and fluorescent X-ray analysis device according to the present invention, a sample measurement condition is set before starting the measurement and the measurement concentration of the element contained in the sample and the measurement accuracy are calculated. When the measurement accuracy has become a value satisfying the predetermined measurement condition, the measurement is terminated and the concentration at that moment is outputted.

Abstract: In a recycling process, the homogeneity of glass cullet decreases and the quality of the recycled glass is diminished. To solve this problem, the present invention involves using a fluorescent X-ray analyzer to analyze the glass composition of display substrates prior to crushing, and thereby identifying glass of the same composition, converting the same into cullet, and recovering the glass.

Abstract: A film peeling device is provided that can easily peel off a film that has been firmly stuck on a display panel. The film peeling device is configured from a cylindrical motor roller (3) that has an effective length longer than the length of the short side of a face panel (7a) constituting a bulb (7) of a cathode ray tube and has a self-rotating function, a contact plate (4) disposed such that it fits closely with the surface of the motor roller (3), and toggle clamps (5) provided outside of the effective length of the motor roller (3), that press the contact plate (4) against the surface of the motor roller (3).

Abstract: A method and apparatus for efficiently removing a dissimilar material as part of a recycling process, which are free of problems in the terms of worker safety and the work environment, are provided. With the apparatus of the present invention, a working unit is operated to move a blade unit while pressing a plastic product from the outside thereof to punch out the dissimilar material.

Abstract: At least one resin component which is selected from a biodegradable resin and a plant-based resin, and a flame retardancy-imparting component are kneaded to obtain a resin composition having flame retardancy. This resin composition makes it possible to apply the environment-friendly resin such as the biodegradable resin and the plant-based resin, for example, polylactic acid and polybutylene succinate to exterior bodies of home appliances. Particularly, in the case where polylactic acid is used with the acetylacetonatoiron as the flame-retardant component, a resin composition having excellent flame retardancy can be provided as a non-halogen material.