TH110698A - Fluid flow meter - Google Patents

Abstract

DC60 Flow meter consists of a chamber containing an inlet and an outlet. The rotor is movable within the chamber, and the rotation of the rotor is related to the volume of fluid flowing through it. The chamber has a surface proximal to the rotor end surface. The chamber surface and/or rotor end surface shall contain at least one recess to trap at least some of the debris carried by the fluid to be measured. Ideally, the recess shall be formed to prevent contact of the fluid from the inlet to the outlet across the rotor end surface. One end of the chamber is capped, which, in use, is pressurized by the fluid within the chamber. This cap is bonded at its periphery to the chamber wall, preferably bendable proximal to the periphery to minimize the transfer of bending stresses between the periphery and the remainder of the chamber. Edit 19/04/2017 The flow meter consists of a chamber containing an inlet and an outlet. The rotor is capable of movement within the chamber, such that the rotation of the rotor is related to the volume of fluid flowing through the chamber. The chamber has a surface close to the rotor end surface. The chamber surface and/or rotor end surface shall have at least one recess to contain at least some of the material carried by the fluid to be measured. Ideally, the recess shall be formed so that there is no contact of the fluid from the inlet to the outlet across the rotor end surface. A cap is placed at one end of the chamber, which, in use, is pressurized by the fluid within the chamber. This cap is bonded at the periphery of the cap to the chamber wall, and preferably, can be bent proximal to the periphery of the cap to minimize the transfer of bending stresses between the periphery of the cap and the rest of the cap. --------------------------------------------------------------------------

Claims (9)

All rights reserved which will not appear on the advertisement page: Edited 19/04/2017 1. A fluid flow measuring device comprising: a port (12) having a fluid inlet (16) and an outlet (30); and a rotor (13) having an end surface (34) and side walls (20) within which the rotor can move, the rotation of the rotor being related to the volume of fluid flowing through the port, wherein the port has a surface proximal to that through which the end surface (34) of the rotor passes, wherein the port surface and/or the end surface of the rotor have at least one recess (36, 36") to confine at least a portion of the debris carried by the fluid to be measured, characterized by the at least one recess being formed so as to prevent contact of the fluid from the port into the outlet of the port across the end surface of the rotor through the recess, and wherein the at least one recess has a width in a direction less than the cross-sectional width of the rotor side walls. 2. The fluid flow meter of claim 1, wherein at least one recess is in the surface of the bottom portion (18) of the channel (12). 3. The flow meter of any one of the preceding claims, wherein at least one of the nooks (36, 36") is circular. 4. The fluid flow meter of any one of the preceding claims, wherein the at least one (36, 36") nook is cylindrical. 5. The flow meter of any one of claims 1, 2, or 3, wherein the at least one of the nooks (36, 36") is of a tapered shape. 6. The flow rate meter of any one of the preceding claims, wherein at least one of the nodes is a blind hole (36). 7. The fluid flow meter of any one of the preceding claims wherein at least one nook is adjacent to the side wall (14) of the section (12). 8. A flow meter of any one of the preceding claims comprising said plurality of (36, 36") slots. 9. The flow meter of any one of the preceding claims, wherein the rotor is a rotating piston. The flow meter of any one of the preceding claims, comprising a cap (38) that closes one end of a chamber (12) which, in operation, is subjected to fluid pressure within the chamber, the cap being bonded to the side wall (14) of the chamber, the outer rim of the cap being flexed proximal to the outer rim of the cap to minimize the transfer of bending stress between the outer rim of the cap and the rest of the cap. ------------------------------------------------------------------------