IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0829138
(2001-04-09)
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발명자
/ 주소 |
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출원인 / 주소 |
- John D. Brush & Co., Inc.
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대리인 / 주소 |
Danella, Dennis B.Jaeckle Fleischmann & Mugel, LLP
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인용정보 |
피인용 횟수 :
4 인용 특허 :
8 |
초록
▼
A drop and slide escutcheon system where the escutcheon has rims with locking members that fit into locking grooves formed in the funnels on the safe body. The escutcheon is offset by a slight amount, allowing the locking members to slide down into openings that provide access to the locking grooves
A drop and slide escutcheon system where the escutcheon has rims with locking members that fit into locking grooves formed in the funnels on the safe body. The escutcheon is offset by a slight amount, allowing the locking members to slide down into openings that provide access to the locking grooves in the funnel as the escutcheon is inserted into position. The escutcheon is then moved laterally, sliding the locking members into the locking grooves provided.
대표청구항
▼
A drop and slide escutcheon system where the escutcheon has rims with locking members that fit into locking grooves formed in the funnels on the safe body. The escutcheon is offset by a slight amount, allowing the locking members to slide down into openings that provide access to the locking grooves
A drop and slide escutcheon system where the escutcheon has rims with locking members that fit into locking grooves formed in the funnels on the safe body. The escutcheon is offset by a slight amount, allowing the locking members to slide down into openings that provide access to the locking grooves in the funnel as the escutcheon is inserted into position. The escutcheon is then moved laterally, sliding the locking members into the locking grooves provided. aving an elongated tube, an inside surface, an outside surface, and a cylinder liner notch on a top side; providing a block having a bore for concentrically accepting said cylinder liner; providing a locking pin that engages said cylinder liner and said block wherein said cylinder liner further including grooves extending axially along said outside surface. 14. The method of claim 13 wherein said cylinder liner is cylindrical. 15. The method of claim 13 wherein said block further comprises a block notch extending axially along a inside surface of said bore. 16. The method of claim 13 further comprising: providing an annular flange having a top surface and a bottom surface; providing said cylinder liner extending in the axial direction from said bottom surface of said annular flange; providing a flange notch extending in axial direction from said top surface to said bottom surface of said annular flange; and providing a seating surface for said annular flange in said bore; and wherein when said flange and said cylinder liner are inside said bore, said block notch and said flange notch define an aperture for accepting said locking pin for engaging said flange and said block. 17. The method of claim 13 wherein said cylinder liner is made of high wear resistance and low expansion cast iron. 18. The method of claim 13 wherein said block is made of aluminum alloy. 19. The method of claim 13 wherein said cylinder liner further comprises adhesive on said outside surface. 20. A method of producing a high pressure compressor cylinder liner, comprising: providing an annular flange having a top surface, a bottom surface; providing a cylinder liner member extending in the axial direction from said bottom surface of said annular flange; said cylinder liner member having an elongated tube, an inside surface, and a smooth outside surface; providing a block having a bore for concentrically accepting said annular flange and said cylinder liner member; and providing a seating surface for said annular flange in said bore wherein said cylinder liner further including grooves extending axially along said outside surface. 21. The method of claim 20 wherein said cylinder liner is cylindrical. 22. The method of claim 20 wherein said block further comprises a block notch extending axially along an inside surface of said bore. 23. The method of claim 20 wherein said cylinder liner is made of high wear resistance and low expansion cast iron. 24. The method of claim 20 wherein said block is made of aluminum alloy. 25. The cylinder liner system of claim 20 wherein said cylinder liner further comprises adhesive on said outside surface. 26. A cylinder liner system, comprising: a cylinder liner having an elongated tube, an inside surface, an outside surface, and a cylinder liner notch on a top side; a block having a bore for concentrically accepting said cylinder liner; and a locking pin that engages both said cylinder liner and said block; wherein said cylinder liner further including a rough cast outside surface. 27. A cylinder liner system, comprising: an annular flange having a top surface, a bottom surface and a cylinder liner member extending in the axial direction from said bottom surface of said annular flange; said cylinder liner member having an elongated tube, a inside surface, and a smooth outside surface; a block having a bore for concentrically accepting said annular flange and said cylinder liner member; said bore being adapted to present a seating surface for said annular flange; wherein said cylinder liner further including grooves extending axially along said outside surface. 28. A cylinder liner system, comprising: an annular flange having a top surface, a bottom surface and a cylinder liner member extending in the axial direction from said bottom surface of said annular flange; said cylinder liner member having an elongated tube, a inside surface, and a smooth outside surface; a block having a b ore for concentrically accepting said annular flange and said cylinder liner member; said bore being adapted to present a seating surface for said annular flange; wherein said cylinder liner further including a rough cast outside surface. 29. A cylinder liner system, comprising: an annular flange having a top surface, a bottom surface and a cylinder liner member extending in the axial direction from said bottom surface of said annular flange; said cylinder liner member having an elongated tube, a inside surface, and a smooth outside surface; a block having a bore for concentrically accepting said annular flange and said cylinder liner member; said bore being adapted to present a seating surface for said annular flange; said cylinder liner system further including: a locking pin; a flange notch extending in an axial direction from said top surface of said flange; and said flange notch and said block notch being adapted to present a seating surface for said locking pin; wherein when said flange and said cylinder liner are inside said bore, said block notch and said flange notch define an aperture for accepting said locking pin for engaging said flange and said block. 30. A method of producing a high pressure compressor cylinder liner, comprising: providing a cylinder liner having an elongated tube, an inside surface, an outside surface, and a cylinder liner notch on a top side; providing a block having a bore for concentrically accepting said cylinder liner; providing a locking pin that engages said cylinder liner and said block wherein said cylinder liner further including a rough cast outside surface. 31. A method of producing a high pressure compressor cylinder liner, comprising: providing an annular flange having a top surface, a bottom surface; providing a cylinder liner member extending in the axial direction from said bottom surface of said annular flange; said cylinder liner member having an elongated tube, an inside surface, and a smooth outside surface; providing a block having a bore for concentrically accepting said annular flange and said cylinder liner member; and providing a seating surface for said annular flange in said bore; wherein said cylinder liner further including a rough cast outside surface. 32. A method of producing a high pressure compressor cylinder liner, comprising: providing an annular flange having a top surface, a bottom surface; providing a cylinder liner member extending in the axial direction from said bottom surface of said annular flange; said cylinder liner member having an elongated tube, an inside surface, and a smooth outside surface; providing a block having a bore for concentrically accepting said annular flange and said cylinder liner member; and providing a seating surface for said annular flange in said bore; said method further including: providing a locking pin; providing a flange notch extending axially along said flange; said flange notch and said block notch being adapted to provide a seating surface for said locking pin; and wherein when said flange and said cylinder liner are inside said bore, and said block notch and said flange notch define an aperture for accepting said locking pin for engaging said flange and said block.
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