초록 ▼

Plural magnetic sheets (22) are laminated in circumference direction to form a cylindrical laminated core. Magnetic sheets (22) adjacent to each other have coupling point (25) at an upper section or a lower section and gap (26) on an opposite side of coupling point (25). Coupling point (25) is prepa

Plural magnetic sheets (22) are laminated in circumference direction to form a cylindrical laminated core. Magnetic sheets (22) adjacent to each other have coupling point (25) at an upper section or a lower section and gap (26) on an opposite side of coupling point (25). Coupling point (25) is prepared at upper section (23), then lower section (24), and upper section (23) then lower section (24) alternately. This structure allows assembling a radial laminated core with ease.

대표청구항 ▼

The invention claimed is: 1. A cylindrically shaped laminated core having a plurality of adjacent laminated magnetic sheets forming the cylindrically shaped laminated core, said laminated core comprising: a plurality of couplers for attaching said magnetic sheets to each other, said plurality of co

The invention claimed is: 1. A cylindrically shaped laminated core having a plurality of adjacent laminated magnetic sheets forming the cylindrically shaped laminated core, said laminated core comprising: a plurality of couplers for attaching said magnetic sheets to each other, said plurality of couplers situated along ends of said magnetic sheets which are situated along an outer circumference of said core; said magnetic sheets attached to each other by said couplers at alternately only an upper portion or a lower portion of said ends to form a zig-zag pattern. 2. The laminated core of claim 1, wherein the couplers are welded places which couple the magnetic sheets adjacent to each other. 3. The laminated core of claim 1, wherein the couplers are caulked places which couple the magnetic sheets adjacent to each other. 4. The laminated core of claim 1, wherein another coupler is provided along an inner circumference of said core. 5. The laminated core of claim 1, wherein the magnetic sheets are flat and each one of the sheets has a uniform thickness across each one of the sheets. 6. A laminated core formed by laminating a plurality of magnetic sheets in circumference direction to form a cylindrical shape; said magnetic sheets attached to each other at alternately only an upper portion or a lower portion to form a zig-zag pattern, said magnetic sheets attached to each other by a plurality of couplers situated along ends of said magnetic sheets which are situated along an outer circumference of said core. 7. The laminated core of claim 6, wherein the magnetic sheets and the couplers are unitarily formed and unitarily punched out from an identical steel plate. 8. The laminated core of claim 7, wherein each one of the magnetic sheets is punched out from the steel plate such that longitudinal direction of each one of the magnetic sheets agrees with rolling direction of the steel plate. 9. The laminated core of claim 7, wherein the magnetic sheets are made from double oriented electrical steel sheet. 10. The laminated core of claim 9, wherein longitudinal direction of each one of the magnetic sheets agrees with rolling direction of the double oriented electrical steel sheet. 11. The laminated core of claim 6, wherein an interval between the adjacent magnetic sheets in circumference direction is equal to a length of one of the couplers. 12. The laminated core of claim 8, wherein the laminated core is divided axially. 13. The laminated core of claim 8, wherein the core is molded with resin compound that includes magnetic powder. 14. The laminated core of claim 13, wherein the resin compound includes the magnetic powder not less than 50 volume %. 15. The laminated core of claim 14, wherein the magnetic powder is iron powder. 16. The laminated core of claim 8, further comprising: a radial laminated body formed by laminating the magnetic sheets in circumference direction, wherein said magnetic sheets form an axial laminated body. 17. The laminated core of claim 16, wherein the radial laminated body is made from oriented electrical steel sheet of which easy-to-flow direction for magnetic flux of the steel plate agrees with the axial direction of the laminated core. 18. The laminated core of claim 16, wherein the axial laminated body is made from oriented electrical steel sheet of which easy-to-flow direction for magnetic flux of the steel plate agrees with radial direction of the core. 19. The laminated core of claim 16, wherein the axial laminated body is divided into a plurality of pieces in the circumference direction. 20. A cylindrically shaped laminated core of claim 1, wherein further adjacent magnetic sheets are attached together at a common end of said upper end or said lower end. 21. A laminated core of claim 6, wherein further adjacent magnetic sheets are attached together at a common end of said upper end or said lower end. 22. A laminated core of claim 12, wherein further adjacent magnetic sheets are attached together at a common end of said upper end or said lower end. 23. A laminated core of claim 13, wherein further adjacent magnetic sheets are attached together at a common end of said upper end or said lower end. 24. A laminated core of claim 16, wherein further adjacent magnetic sheets are attached together at a common end of said upper end or said lower end. 25. A linear actuator comprising: a cylindrical outer yoke; an inner yoke disposed inside the outer yoke via a space; a vibrator having a permanent magnet and vibrating in the space; and a coil disposed in a slot provided to one of the outer yoke and the inner yoke, wherein one of the outer yoke and the inner yoke is a laminated core formed by laminating a plurality of magnetic sheets in circumference direction to form a cylindrical shape; the laminated core including: a plurality of couplers provided to the magnetic sheets; wherein the couplers are provided so that said magnetic sheets are attached to each other at alternately only an upper portion or a lower portion to form a zig-zag pattern, said magnetic sheets attached to each other by said plurality of couplers which are situated along an outer circumference of said core. 26. A compressor using a linear actuator as a power source, the actuator comprising: a cylindrical outer yoke; an inner yoke disposed inside the outer yoke via a space; a vibrator having a permanent magnet and vibrating in the space; and a coil disposed in a slot provided to one of the outer yoke and the inner yoke, wherein one of the outer yoke and the inner yoke is a laminated core formed by laminating a plurality of magnetic sheets in circumference direction to form a cylindrical shape; the laminated core including: a plurality of couplers provided to the magnetic sheets; wherein the couplers are provided so that said magnetic sheets are attached to each other at alternately only an upper portion or a lower portion to form a zig-zag pattern, said magnetic sheets attached to each other by said plurality of couplers which are situated along an outer circumference of said core. 27. A linear actuator of claim 25, wherein further adjacent magnetic sheets are attached together at a common end of said upper end or said lower end. 28. A compressor of claim 26, wherein further adjacent magnetic sheets are attached together at a common end of said upper end or said lower end.