초록 ▼

The present disclosure relates to a removable orifice plate device which has an orifice plate having a circular portion with an aperture therein, and a graspable end portion extending therefrom. A tee body is included which has oppositely extending first and second tee runs and a tee branch. The tee

The present disclosure relates to a removable orifice plate device which has an orifice plate having a circular portion with an aperture therein, and a graspable end portion extending therefrom. A tee body is included which has oppositely extending first and second tee runs and a tee branch. The tee runs are coupled to gas inflow and outflow pipes. The tee body has internal structure forming a slot which is aligned with an opening formed by the tee branch, and which receives the circular portion of the orifice plate. The orifice plate, when installed in the slot in the tee body, thus allows a flow of fluid only through the aperture. A removable cover encloses the orifice plate within the tee body.

대표청구항 ▼

1. A removable orifice plate device, comprising: an orifice plate having a circular portion with a precisely dimensioned aperture therein, and an end portion graspable with the fingers of one hand which extends from the circular portion;a tee body having oppositely extending first and second tee run

1. A removable orifice plate device, comprising: an orifice plate having a circular portion with a precisely dimensioned aperture therein, and an end portion graspable with the fingers of one hand which extends from the circular portion;a tee body having oppositely extending first and second tee runs, and a tee branch extending non-parallel to the first and second tee runs;the first tee run configured to be coupled to a gas inflow pipe;the second tee run configured to be coupled to a gas outflow pipe;the tee body having internal structure forming a slot, the slot being aligned with an opening formed by the tee branch and configured with a dimension for receiving the circular portion of the orifice plate such that the orifice plate, when installed in the slot in the tee body, allows a flow of fluid only through the aperture;a cover adapted to be removably secured to the tee branch to enclose the orifice plate within the tee body;a fixed adapter having a fixed adaptor sleeve disposed at least partially within the tee body adjacent the first tee run, and a first seal member slot;an adjustment adapter having an adjustment adaptor sleeve disposed at least partially within the tee body adjacent the second tee run, and a second seal member slot facing the first seal member slot;a first circumferential seal member disposed in the first seal member slot;a second circumferential seal member disposed in the second seal member slot;the first and second seal members receiving a peripheral edge portion of the orifice plate therebetween; andwherein the fixed adaptor sleeve and the adjustment adaptor sleeve effect a clamping force directed along a longitudinal axis extending through the first and second tee runs, on the peripheral edge portion of the orifice plate. 2. The removable orifice plate device of claim 1, further comprising: an inlet pressure fitting in the tee body on a first side of the orifice plate; andan outlet pressure fitting in communication with an interior of the tee body on a second side of the orifice plate. 3. The removable orifice plate device of claim 1, further comprising a threaded adaptor nut, and wherein the second tee run includes a threaded portion for engaging with the threaded adaptor nut, the threaded adaptor nut effecting the clamping force by urging the adjustment adaptor sleeve against the fixed adaptor sleeve, to thus cause the first and second circumferential seal members to clamp onto the edge of the orifice plate. 4. The removable orifice plate device of claim 3, wherein the first seal member comprises an O-ring seal and the second seal member comprises an O-ring seal. 5. The removable orifice plate device of claim 1, further comprising an inlet pressure sensor, and wherein the first tee run includes a first bore for receiving a portion of the first pressure sensor therein. 6. The removable orifice plate device of claim 1, further comprising an outlet pressure sensor, and wherein the second tee run includes a second bore for receiving a portion of the outlet pressure sensor therein. 7. A removable orifice plate device, comprising: an orifice plate having a circular portion with a precisely dimensioned aperture therein, and an end portion graspable with the fingers of one hand which extends from the circular portion;a tee body having oppositely extending first and second tee runs, and a tee branch extending generally perpendicular to the first and second tee runs;the first tee run configured to be coupled to a gas inflow pipe;the second tee run configured to be coupled to a gas outflow pipe;the tee body having internal structure forming a slot aligned with the tee branch;the slot having opposing seal members each facing the slot;the slot further being dimensioned for receiving the circular portion of the orifice plate such that the orifice plate, when installed in the slot, allows a flow flowing into the first tee run to flow only through the aperture, and subsequently into the second tee run;a cover adapted to be removably secured to the tee branch to enclose the orifice plate within the tee body;the first tee run including a threaded outer surface portion; andthe removable orifice plate device further including a threaded cap configured to be threadably secured to the threaded outer surface portion of the first tee run;wherein the cap is configured to abut a portion of the circumferential adjustment adaptor to urge the circumferential adjustment adaptor toward the fixed adjustment adaptor as the threaded cap is tightened on the threaded outer surface portion of the first tee run. 8. The removable orifice plate device of claim 7, wherein the internal structure of the tee body includes: a circumferential fixed adjustment adaptor having a fixed adaptor sleeve extending through the first tee run; anda circumferential adjustment adaptor having an adjustment adaptor sleeve extending through the second tee run. 9. The removable orifice plate device of claim 8, wherein: the fixed adaptor sleeve is dimensioned to receive a distal portion of the gas inflow pipe therein; andthe adjustment adaptor sleeve is dimensioned to receive a distal portion of the gas outflow pipe therein. 10. The removable orifice plate of claim 7, wherein each of the seal members comprises an O-ring. 11. The removable orifice plate device of claim 10, wherein each of the fixed adaptor sleeve and the adjustment adaptor sleeve includes a slot for one of the O-rings. 12. The removable orifice plate device of claim 7, further comprising an inlet pressure sensor, and wherein the first tee run includes a first bore for receiving a portion of the inlet pressure sensor therein. 13. The removable orifice plate device of claim 7, further comprising an outlet pressure sensor, and wherein the second tee run includes a second bore for receiving a portion of the outlet pressure sensor therein. 14. The removable orifice plate device of claim 7, wherein the circumferential adjustment adaptor includes an outwardly projecting shoulder which engages a portion of the cover to enable the cover to urge the circumferential adjustment adaptor toward the circumferential fixed adjustment adaptor as the cap is tightened onto the first tee run. 15. A removable orifice plate device, comprising: an orifice plate having a circular portion with a precisely dimensioned aperture therein, and an end portion graspable with the fingers of one hand which extends from the circular portion;a tee body having oppositely extending first and second tee runs, and a tee branch extending generally perpendicular to the first and second tee runs;the first tee run configured to be coupled to a gas inflow pipe;the second tee run configured to be coupled to a gas outflow pipe;the tee body having internal structure forming a slot aligned with the tee branch;the slot having a pair of opposing seal members facing the slot and aligned with one another along a longitudinal axis extending through the first and second tee runs;the slot further being dimensioned for receiving the circular portion of the orifice plate such that the orifice plate, when installed in the slot, allows a flow flowing into the first tee run to flow only through the aperture, and subsequently into the second tee run;wherein the internal structure of the tee body includes: a circumferential fixed adjustment adaptor having a fixed adaptor sleeve extending through an internal area of the first tee run; anda circumferential adjustment adaptor having an adjustment adaptor sleeve extending through an internal area of the second tee run; anda cover adapted to be threadably secured to a threaded portion of the tee branch to enclose the orifice plate within the tee body; andwherein said fixed adaptor sleeve and said adjustment adaptor sleeve are configured to exert a longitudinal clamping force from opposing directions on said orifice plate without impeding flow through the aperture of the orifice plate. 16. The removable orifice plate device of claim 15, wherein each of the fixed adaptor sleeve and the adjustment adaptor sleeve include a slot for receiving a respective one of the O-ring seals.