IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0339997
(2008-12-19)
|
등록번호 |
US-8430725
(2013-04-30)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Tarolli, Sundheim, Covell & Tummino LLP
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
30 |
초록
▼
An improved abrasive disc for use with an angle grinder is disclosed. The grinder is of the type having a threaded spindle. The disc is of the type having: a central portion defining a threaded bore for receiving said spindle; and abrasive material surrounding the central portion. The improvement co
An improved abrasive disc for use with an angle grinder is disclosed. The grinder is of the type having a threaded spindle. The disc is of the type having: a central portion defining a threaded bore for receiving said spindle; and abrasive material surrounding the central portion. The improvement comprises: a hub defining the threaded bore; an annular element providing the abrasive material, the annular element having a central primary aperture aligned with the threaded bore in the hub to provide access to the bore by said spindle in use; and elements mechanically securing the hub to the annular element, for co-rotation. Apparatus and methods for producing discs are also disclosed.
대표청구항
▼
1. An improved abrasive disc for use with an angle grinder, the grinder being of the type having a threaded spindle and the disc being of the type having: a central portion defining a threaded bore for receiving said spindle; and abrasive material surrounding the central portion, wherein the improve
1. An improved abrasive disc for use with an angle grinder, the grinder being of the type having a threaded spindle and the disc being of the type having: a central portion defining a threaded bore for receiving said spindle; and abrasive material surrounding the central portion, wherein the improvement comprises: a hub defining the threaded bore; an annular element providing the abrasive material, the annular element having a central primary aperture aligned with the threaded bore in the hub to provide access to the bore by said spindle in use; and elements mechanically securing the hub to the annular element, for co-rotation; the annular element, but for the elements, being free to rotate about the spindle in use. 2. A disc according to claim 1, wherein the elements extend through the annular element to the hub. 3. A disc according to claim 2, wherein: the annular element has two or more secondary apertures spaced about the primary aperture; and the elements are provided one for each secondary aperture and extend therethrough to the hub. 4. A disc according to claim 2, further comprising a component spacing apart the elements and from which the elements extend. 5. A disc according to claim 4, wherein the hub has a socket for, and in receipt of, each element. 6. A disc according to claim 5, wherein the elements are secured to the hub by a method selected from the group of methods consisting of: frictional engagement of the elements by the hub; adhesive: mechanical engagement of the hub by the elements; welding. 7. A disc according to claim 5, wherein the elements have enlarged heads, disposed within the sockets and produced via a deformation operation, which mechanically secure the elements to the hub. 8. A disc according to claim 7, wherein the elements are selected from the group of elements consisting of: elements formed integrally with the component; and elements which are formed separately from each of the hub and the component and defined by rivets. 9. A disc according to claim 1, wherein the elements are formed integrally with the hub and extend therefrom through the annular element. 10. A disc according to claim 9, wherein: the annular element has two or more secondary apertures spaced about the primary aperture; and the elements are provided one for each secondary aperture and extend therethrough. 11. A disc according to claim 9, further comprising a component to which the elements extend. 12. A disc according to claim 11, wherein the component has a socket for, and in receipt of, each element. 13. A disc according to claim 12, wherein the elements are secured to the component by a method selected from the group of methods consisting of: frictional engagement of the elements by the component; adhesive: mechanical engagement of the component by the elements; and welding. 14. A disc according to claim 12, wherein the elements have enlarged heads, disposed within the sockets and produced via a deformation operation, which mechanically secure the elements to the component. 15. A disc according to claim 9, wherein the annular element has a socket for, and in receipt of, each element. 16. A disc according to claim 15, wherein the elements are secured to the annular element by a method selected from the group of methods consisting of: frictional engagement of the elements by the annular element; adhesive: mechanical engagement of the annular element by the elements; and welding. 17. A disc according to claim 15, wherein the elements have enlarged heads, disposed in the sockets and produced via a deformation operation, which mechanically secure the elements to the annular element. 18. A disc according to claim 1, wherein: the annular element has two or more secondary apertures spaced about the primary aperture; the elements are provided one for each secondary aperture and extend therethrough; and the elements are defined by rivets. 19. A disc according to claim 1, wherein the elements are pins and, in the event that the disc binds in use, the pins break, to permit the spindle and hub to rotate freely of the annular element. 20. An improved abrasive disc for use with an angle grinder, the grinder being of the type having a threaded spindle with a locating shoulder and the disc being of the type having: a central portion defining a threaded bore for receiving said spindle; and abrasive material surrounding the central portion, wherein the improvement comprises: a hub defining the threaded bore; an annular element providing the abrasive material, the annular element having a central primary aperture aligned with the threaded bore in the hub to provide access to the bore by said spindle in use; and elements mechanically securing the hub to the annular element, for co-rotation; the hub bearing against the locating shoulder in use such that, but for the elements, the annular element would be free to rotate about the spindle in use. 21. A disc according to claim 20, wherein the elements are pins that are adapted to break if the disc binds in use, to permit the spindle and hub to rotate freely of the annular element. 22. An improved abrasive disc for use with an angle grinder, the grinder being of the type having a threaded spindle and the disc being of the type having: a central portion defining a threaded bore for receiving said spindle; and abrasive material surrounding the central portion, wherein the improvement comprises: a hub defining the threaded bore; an annular element providing the abrasive material, the annular element having a central primary aperture aligned with the threaded bore in the hub to provide access to the bore by said spindle in use; elements mechanically securing the hub to the annular element, for co-rotation; and a component spacing apart the elements and from which the elements extend, the hub bearing against the component in use such that, but for the elements, the annular element would be free to rotate about the spindle. 23. A disc according to claim 22, wherein the elements are pins that are adapted to break if the disc binds in use, to permit the spindle and hub to rotate freely of the annular element.
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