Abstract: In a film bonding machine 1 including a laser oscillation means 2 for oscillating laser for processing a tape 7 bonded onto an end surface 8 of a columnar honeycomb structural body 6 by the laser oscillated from the laser oscillation means 2, the film bonding machine 1 further includes an image pick-up means 3 having a moving type or tilt type mirror 4 capable of reflecting the end surface 8 of the honeycomb structural body 6 onto the same axis as the laser oscillation means 2 by reflected light and an image pick-up unit 5 for picking up the image of the end surface 8 of the honeycomb structural body 6 reflected by the mirror 4. In the film bonding machine 1, the processing position of the tape 7 bonded onto the end surface 8 of the honeycomb structural body 6 can be recognized by the image-pick means 3 on the same axis as the laser oscillation means 2. As a result, the tape bonded onto the end surface of the honeycomb structural body can be accurately processed by the laser.

Abstract: A sealing device for a prismatic body that includes an elastic tube disposed on an inner circumference of a frame body, in which a prismatic body W, which is an object of sealing, is inserted. The elastic tube has a shorter inner circumferential length than an outer circumferential length of the prismatic body W. The frame body is formed with an air vent that connects to a backside of the elastic tube, with a vacuum source being connected to this air vent so that the elastic tube is expandable to increase its inner diameter by being sucked toward the frame body. Release of the vacuum from the elastic tube after insertion provides an instantaneous seal.

Abstract: A lithium secondary cell includes an internal electrode body having a positive electrode plate and a negative electrode plate wound and laminated around an external peripheral wall of a hollow cylindrical winding core. The inside of the internal electrode body is impregnated with a nonaqueous electrolyte solution. A cylindrical cell case houses the internal electrode body and has open ends sealed with plate member electrode caps. An external terminal member protrudes onto the surface of the electrode caps to lead current to the outside of the cell case, and an internal terminal member connects with the internal electrode body to take current from the internal electrode body. An elastic body and at least two of the plate member, the external terminal member and the internal terminal member are joined together for construction. An assembly of lithium secondary cells is also disclosed.

Abstract: There is disclosed a method for manufacturing a plugged honeycomb structure capable of manufacturing a plugged honeycomb structure in which the plugging depth is uniform. A method for manufacturing a plugged honeycomb structure, according to the invention, includes disposing a plug filling jig 6 so that it covers the side of the periphery of one end 7a of the honeycomb structure 3 at the side where plugged cells 4a are open and its tip locates being protruded from the end surface of the one end 7a, the end surface of the side of the one end 7a is separated from the surrounding space and the one end 7a of the honeycomb structure 3 where the plug filling jig 6 is disposed is pressed onto a ceramic slurry to thus introduce the ceramic slurry into the plugged cells 4a to form plugged portions.

Abstract: A method for manufacturing a plugged honeycomb structure has a process including the steps of: preparing an unplugged honeycomb structure, supplying ceramic slurry as a plugging material on an upper surface of a belt and leveling the ceramic slurry supplied on the upper surface of the belt by moving the belt to allow a blade having a straight-line side to pass in such a manner that the side of the leveling member is in parallel with the plane, and filling the plugging material into cells from openings on one side of the cells by pressing an end face on one side of the unplugged honeycomb structure against the leveled ceramic slurry. According to the present invention, there can easily be manufactured a plugged honeycomb structure having even depth of plugging members which plug open ends of cells.

Abstract: In a film bonding machine 1 including a laser oscillation means 2 for oscillating laser for processing a tape 7 bonded onto an end surface 8 of a columnar honeycomb structural body 6 by the laser oscillated from the laser oscillation means 2, the film bonding machine 1 further includes an image pick-up means 3 having a moving type or tilt type mirror 4 capable of reflecting the end surface 8 of the honeycomb structural body 6 onto the same axis as the laser oscillation means 2 by reflected light and an image pick-up unit 5 for picking up the image of the end surface 8 of the honeycomb structural body 6 reflected by the mirror 4. In the film bonding machine 1, the processing position of the tape 7 bonded onto the end surface 8 of the honeycomb structural body 6 can be recognized by the image-pick means 3 on the same axis as the laser oscillation means 2. As a result, the tape bonded onto the end surface of the honeycomb structural body can be accurately processed by the laser.

Abstract: A lithium secondary battery comprises an internal electrode body formed by winding a positive electrode and a negative electrode on an outer peripheral wall of a hollow winding core, nonaqueous electrolyte solution contained in the case, a cylindrical battery case containing this internal electrode body inside, at least one electrode cap sealing the internal electrode body, and at least one pressure release hole in a position corresponding with the center axis of the winding core.

Abstract: An inspection method for detecting a defect in a test object. A particulate is generated, then the generated particulate is introduced into a test object. Subsequently, light having high directivity is emitted such that the light passes in the vicinity of the test object to irradiate the particulate discharged from the test object, thereby making the particulate visible. An inspection apparatus for detecting a defect in a test object, including a particulate generator, a particulate introducing device which introduces the particulate into a test object, and a high directional light emitter emitting light passing in the vicinity of the test object and irradiating the particulate discharged from the test object to visualize the particulate. The inspection method and apparatus can detect a defect with high sensitivity and shorten an inspection time and a post-treatment time.

Abstract: A lithium secondary cell includes an internal electrode body having a positive electrode plate and a negative electrode plate wound and laminated around an external peripheral wall of a hollow cylindrical winding core. The inside of the internal electrode body is impregnated with a nonaqueous electrolyte solution. A cylindrical cell case houses the internal electrode body and has open ends sealed with plate member electrode caps. An external terminal member protrudes onto the surface of the electrode caps to lead current to the outside of the cell case, and an internal terminal member connects with the internal electrode body to take current from the internal electrode body. An elastic body and at least two of the plate member, the external terminal member and the internal terminal member are joined together for construction. An assembly of lithium secondary cells is also disclosed.

Abstract: A lithium secondary battery includes a cylindrical battery case provided with electrode caps at both end portions thereof. An electrode body impregnated with a nonaqueous electrolyte solution is contained in the battery case and includes a positive electrode, a negative electrode, and a separator, with the positive electrode and the negative electrode being wound or laminated through the separator. An elastic body is disposed between the battery case and the electrode caps, with portions in which the battery case contacts the elastic body being brought into press-contact to form a caulked portion to seal the battery case. Rbody(mm) is a diameter of a body part of the battery case and Rtop(mm) is a diameter of the caulked portion, wherein Rbody and Rtop fulfill a relationship of Rbody>Rtop.

Abstract: A lithium secondary battery comprises an internal electrode body formed by winding a positive electrode and a negative electrode on an outer peripheral wall of a hollow winding core, nonaqueous electrolyte solution contained in the case, a cylindrical battery case containing this internal electrode body inside, at least one electrode cap sealing the internal electrode body, and at least one pressure release hole in a position corresponding with the center axis of the winding core.

Abstract: A lithium secondary battery has an internal electrode body formed by winding a positive electrode and a negative electrode on an outer peripheral wall of a hollow winding core and filled with nonaqueous electrolyte solution, a cylindrical battery case containing this internal electrode body 1 inside with its both ends being open, and electrode caps which each have a battery cap, an internal terminal, and an external terminal, the internal electrode body being sealed by the electrode caps at both open ends of the battery case. At least one of the electrode caps has a pressure release hole in a position corresponding with the center axis of the winding core.

Abstract: Provided are a method for filling an electrolyte solution and a battery structure of a lithium secondary battery comprising an internal electrode body formed by winding a positive electrode, and a negative electrode, with a separator sandwiched therebetween around the outer periphery of a core, and an electrolyte solution to impregnate said internal electrode body; said method being excellent in productivity, and battery performance as well, and being characterized by an easy filling of an electrode solution, with minimization of excessive electrode solution in the battery, by virtue of the provision of an electrolyte solution injection opening in a specific position, through which the electrolyte solution is injected and extracting efficiently by using a nozzle for injection and/or extraction of electrolyte solution.

Abstract: To provide a lithium secondary cell, which is excellent in productivity since a cell structure is simple and easy for assembly. Provided is a lithium secondary cell having: an internal electrode body including a positive electrode plate, a negative electrode plate, the positive electrode plate and the negative electrode plate being wound and laminated around an external periphery wall of a hollow cylindrical winding core, and inside the internal electrode body a nonaqueous electrolyte solution being impregnated, a cylindrical cell case contained in this internal electrode body 1 with both ends being opened, and two electrode caps sealing the above described internal electrode body 1 at both the open ends of this cell case.

Abstract: A method of manufacturing ceramic bodies having a construction such that cells are alternately sealed at one but not both end surfaces of a ceramic honeycomb structural body by filling a sealing slurry into predetermined cells at both end surfaces of a ceramic honeycomb formed body and sintering the ceramic honeycomb formed body, is performed by: forming a mask for respective ceramic honeycomb formed bodies by arranging a sheet on an end surface of the ceramic honeycomb formed body and piercing holes in the sheet at positions corresponding to the predetermined cells; immersing an end portion of the ceramic honeycomb formed body to which the mask is arranged into the sealing slurry; and filling the sealing slurry into the cells through the holes pierced in the mask.

Abstract: A method of manufacturing ceramic bodies having a construction such that cells are alternately sealed at one but not both end surfaces of a ceramic honeycomb structural body by filling a sealing slurry into predetermined cells at both end surfaces of a ceramic honeycomb formed body and sintering the ceramic honeycomb formed body, is performed by: forming a mask for respective ceramic honeycomb formed bodies by arranging a sheet on an end surface of the ceramic honeycomb formed body and piercing holes in the sheet at positions corresponding to the predetermined cells; immersing an end portion of the ceramic honeycomb formed body to which the mask is arranged into the sealing slurry; and filling the sealing slurry into the cells through the holes pierced in the mask.

Abstract: An inspection method for detecting a defect in a test object. A particulate is generated, then the generated particulate is introduced into a test object. Subsequently, light having high directivity is emitted such that the light passes in the vicinity of the test object to irradiate the particulate discharged from the test object, thereby making the particulate visible. An inspection apparatus for detecting a defect in a test object, including a particulate generating means for generating a particulate, a particulate introducing means for introducing the particulate into a test object, and a light emitting means for emitting light with high directivity that passes in the vicinity of the test object and irradiates the particulate discharged from the test object thereby to visualize the particulate.

Abstract: A lithium secondary battery, includes: a cylindrical battery case (16) provided with electrode caps at both end portions thereof; an electrode body (1) impregnated with a nonaqueous electrolyte solution and contained in the battery case and including a positive electrode, a negative electrode, and a separator, the positive electrode and the negative electrode being wound or laminated through the separator; and moreover, an elastic body (23) disposed between the battery case (16) and the electrode caps with portions in which the battery case (16) contacts the elastic body (23) being brought into press-contact to form a caulked portion to seal the battery case (16). With Rbody (mm) being diameter of a body part of the battery case (16), Rtop (mm) being diameter of the caulked portion, Rbody and Rtop fulfill relationship of Rbody>Rtop.

Abstract: Provided are a method for filling an electrolyte solution and a battery structure of a lithium secondary battery comprising an internal electrode body formed by winding a positive electrode, and a negative electrode, with sandwiching a separator therebetween around the outer periphery of a core, and an electrolyte solution to impregnate said internal electrode body; said method being excellent in the productivity, and battery performance as well, and being characterized by an easy filling of an electrode solution, with minimization of excessive electrode solution in the battery, by virtue of the provision of an electrolyte solution injection opening in a specific position, through which the electrolyte solution is injected and extracting efficiently by using a nozzle for injection and/or extraction of electrolyte solution.

Abstract: Provided are a method for filling an electrolyte solution and a battery structure of a lithium secondary battery comprising an internal electrode body formed by winding a positive electrode, and a negative electrode, with sandwiching a separator therebetween around the outer periphery of a core, and an electrolyte solution to impregnate said internal electrode body; said method being excellent in the productivity, and battery performance as well, and being characterized by an easy filling of an electrode solution, with minimization of excessive electrode solution in the battery, by virtue of the provision of an electrolyte solution injection opening in a specific position, through which the electrolyte solution is injected and extracting efficiently by using a nozzle for injection and/or extraction of electrolyte solution.