RU2002102225A - CORIOLIS FLOW METER HAVING A HOUSING WITH PROTECTIVE EXTERNAL LAYER - Google Patents

Claims (13)

1. A Coriolis flowmeter (5), comprising a flow tube (101) having an inlet end (101L) and an outlet end (101R); a drive (104) attached to said flow meter tube, which drives said flow meter tube (101) into vibratory motion; sensors (105-105 ’) attached to the specified flow tube (101) for measuring vibrations of the specified flow tube (101) and configured to measure the properties of the material passing through the specified flow tube (101); and a housing (103) generally attached to the indicated inlet end (101L) and the specified outlet end (101R) of the indicated flow tube (101) and enclosing the specified flow tube (101) from the specified inlet end (101L) to the specified output end (101R ); characterized in that the protective coating (150) is attached to the opposite ends (103L-103R) of the outer surface (151) of said housing (103) in order to enclose said outer surface (151) of said housing (103), with the possibility of creating a sanitary a hygienic surface for said enclosure (103). 2. The Coriolis flowmeter (5) according to claim 1, wherein said protective coating (150) is configured to expand and contract at a speed different from said housing. 3. The Coriolis flowmeter (5) according to claim 2, further comprising bellows (191) in said protective coating (150), which enable said coating (150) to expand and contract regardless of said outer surface (151) of said housing (103) . 4. The Coriolis flowmeter (5) according to claim 3, wherein said bellows (191) comprise a bend in said protective coating (150), which expands and contracts in accordance with the expansion and contraction of said body. 5. The Coriolis flowmeter (5) according to claim 1, additionally containing a gap (170) between the specified outer surface (151) of the specified housing (103) and the specified protective coating (150) enclosing the specified outer surface (151) of the specified housing (103) . 6. The Coriolis flowmeter (5) according to claim 5, further comprising an insulation (300) filling the specified gap (170) between the specified protective coating (150) and the specified outer surface (151) of the specified housing (103). 7. The Coriolis flowmeter (5) according to claim 5, further comprising heating elements (400) installed in said gap (170) to create a heating jacket. 8. The Coriolis flow meter (5) according to claim 1, wherein said flow tube (101) is a direct flow tube connected to the inlet flange (122) and the output flange (122 '), and the specified Coriolis flow meter (5) further comprises a first an end (103L) of said housing attached to said inlet flange; a second end (103R) of said housing attached to said output flange; a first end of said protective coating attached to said first end of said housing near said input flange, while said first end of said protective coating encloses said first end of said housing; and a second end of said protective coating attached to said second end of said housing near said inlet flange, while said second end of said protective coating encloses said second end of said housing. 9. The Coriolis flowmeter (5) of claim 8, wherein said body (103) and said flow tube (101) are made of materials having substantially equal thermal expansion coefficients. 10. The Coriolis flowmeter (5) according to claim 9, wherein said flow tube (101) is made of titanium. 11. The Coriolis flowmeter (5) according to claim 9, wherein said body (103) is made of carbon steel. 12. The Coriolis flowmeter (5) according to claim 9, wherein said protective coating (150) is made of a material that has a thermal expansion coefficient significantly different from the thermal expansion coefficient of the material of said flow tube. 13. The Coriolis flowmeter (5) according to claim 12, wherein said protective coating (150) is made of stainless steel.