TH19670A3 - Valve-controlled lead-acid battery - Google Patents

Abstract

Summary of Invention which will appear on the advert page ReadFile:------02/07/2021------(OCR)Controlled Lead-Acid Battery The valve has a enclosing part in which a storage space is created; one element is stored in that storage space and has a positive electrode plate, plate. The negative electrode and the plate are isolated; and the vent valve The vent valve has a cylindrical valve seat part, in which a contact hole is made, which is in contact with the storage space, and which is created. protruding outside the storage space; and the valve compartment element, which has an periphery wall that surrounds the outer periphery of the valve seat and a cover which faces the valve seat opening in on the opposite side and is configured to cover one end of the surrounding wall section, the pressure change rate of the storage space under pre-defined conditions is equal to or less than 119%----- -------

Claims (9)

Claims (all) that will not appear on the advertised page:------02/07/2021------(OCR) 1. A valve-regulated lead-acid battery consisting of: an enclosure in which a storage space is built; in that storage space and have a positive electrode plate, a negative electrode plate and a separator plate; A contact hole is made in contact with the storage space where the valve seat is made to protrude outside the storage space; and the closure portion which faces the opening of the valve seat on the opposite side and is configured to cover one end of the periphery portion with the characteristic that the rate The tonnes change in storage space under pre-defined conditions is equal to or less than 119%, and the tonnes change rate is calculated by the following formula x=V2/V1*100, where X: Rate of pressure change, V1: storage space pressure in condition one, V2: storage space pressure in condition two, obtained after the first interval from condition one has elapsed. go 2. A valve-regulated lead-acid battery according to claim 1, where the enclosure contains: a container with openings; The opening of the container and the projection leading in a predetermined direction are formed on the outer periphery of the side wall of the lid. 3. Valve-regulated lead-acid batteries according to claim 1 or 2, where the storage space pressure change rate under pre-defined conditions is equal to or less than 117. % 4. Valve-regulated lead-acid batteries according to claim 3, where the storage space pressure change rate under pre-defined conditions is equal to or less than 109%. 5. Valve-regulated lead-acid batteries according to claim 4, where the pressure change rate of the storage space under pre-defined conditions is equal to or less than 101%. 6. Valve-regulated lead-acid batteries according to either of Claim 1 to 5 where the oil is present between the inner peripheral surface of the valve element and the surrounding surface. on the outside of the valve seat in the vent valve 7. Valve-regulated lead-acid batteries according to either of Claim 1 to 6, where protrusions are made on the inner surface of the valve-closing part. The vent and protrusion are positioned within the outline of the valve seat opening when viewed in the axial direction of the contact hole built into the valve seat. 8. Valve-regulated lead-acid batteries according to any one of Claim 1 to 7, where a wall separating the storage space into multiple partitions shall be constructed. The enclosure and its components are stored in individual partitions, and the valve-regulated lead-acid battery also contains a current collector, which is stored in the Each separator is electrically connected to several positive electrode plates or to several negative electrode plates and the maximum thickness of the current collector is equal to or greater than 5.5 mm. 9. A valve-regulated lead-acid battery consists of: an enclosure in which a storage space is built; Openings and lids, which are configured to cover the openings of the container with a projection extending in a pre-determined direction, are built on the outer peripheral surface of the side wall of the lid. closed; one component which is stored in the storage space and contains the positive electrode plate, negative electrode plate and separator plate; is a cylindrical valve seat in which a contact hole is made in contact with the storage space, where the valve seat is made to protrude outside the storage space; and the valve element, which Contains: the periphery which encloses the outer periphery of the valve seat; and a closure which faces the opening of the valve seat on the opposite side and is configured to cover one end of the periphery. It has the characteristic that the pressure change rate of the storage space under pre-defined conditions is equal to or less than 119%, and the pressure change rate is calculated by the following formulaX =V2/V1*100, where X: pressure change rate, V1: storage space pressure in condition one, V2: storage space pressure in condition two, obtained after The first period of time from the first condition has elapsed. 0. A valve-regulated lead-acid battery consisting of: an enclosure in which a built in storage space; and the vent valve where the vent valve has a cylindrical valve seat in which holes are made. a contact which contacts the storage space where the valve seat is constructed to protrude outside the storage space; valve seat; and the closing portion which faces the opening of the valve seat in the opposite casing and is configured to cover one end of the surrounding wall section, characteristically that the pressure change rate of If the storage space under pre-defined conditions is equal to or less than 119%, the oil will exist between the inner periphery of the valve element and the outer periphery of the valve seat in the relief valve. The air and pressure change rate are calculated by the following formula X=V2/V1*100, where X: pressure change rate, V1: pressure in the first storage space, V2: pressure change rate. Push in the storage space in the second condition which is obtained after the first period of time from the first condition has elapsed------------