Inline transducer housing assembly

The invention claimed is: 1. An inline transducer meter assembly having an inlet and an outlet for fluid flowing through the inline transducer meter assembly from the inlet to the outlet, the inline transducer meter assembly comprising: a circular shelf integrated in an inline transducer meter body adapted to receive a transducer assembly that interfaces in a complimentary manner with a circular ledge of a circular head section of the transducer assembly, wherein an O-ring is mounted onto the circular ledge of the circular head section to create a seal between the circular ledge to interface in a complimentary manner with the circular shelf formed on the inline transducer meter body; a square or rectangular portal formed between the circular shelf and an inner surface of the inline transducer meter body adapted to interface in a complimentary manner with an alignment section of the transducer assembly having a reduced surface area to reduce upshot force on the alignment section by fluid flowing through the inline transducer housing assembly body and past the square or rectangular portal; a notch formed in the inner surface of the flow tube opposite the square or rectangular portal and adapted to interface with a positioner formed on and extending from a transducer holder as part of the transducer assembly, said transducer holder positioned near a center of the inline transducer meter body between the square or rectangular portal and the notch, said positioner further configured to operate with the square or rectangular portal to secure the transducer holder in alignment with the fluid as it flows through the inline transducer meter body; and at least one locking interface configured with the inline transducer meter body to connect the inline transducer meter assembly with at least one conduit. 2. The inline transducer meter assembly of claim 1 , further comprising a second transducer holder, wherein each of the transducer holder and the second transducer holder includes at least one piezoelectric element therein and in communication with each other. 3. The inline transducer meter assembly of claim 2 , wherein the at least one piezoelectric element is connected by a wire that is accessible from the circular head section. 4. The inline transducer meter assembly of claim 1 , further comprising at least one flow conditioner coupled to a surface of the transducer holder to enhance flow of fluid passing through the inline transducer assembly body. 5. The inline transducer meter assembly of claim 1 , further comprising: a second circular shelf integrated in the inline transducer meter body between the circular shelf and the outlet, said second circular shelf adapted to receive a second transducer assembly and interface in a complimentary manner with a circular ledge of a circular head section of the second transducer assembly; a second square or rectangular portal formed between the second circular shelf and the inner surface of the inline transducer meter body, said second square or rectangular portal adapted to interface in a complimentary manner with an alignment section of the second transducer assembly having a reduced surface area to reduce upshot force on the alignment section by fluid flowing through the inline transducer meter body and past the second square or rectangular portal; and a second notch formed in the inner surface of the inline transducer meter body opposite the second square or rectangular portal and adapted to interface with a second positioner formed on and extending from a second transducer holder as part of the second transducer assembly, said second transducer holder positioned near a center of the inline transducer meter body between the second square or rectangular portal and the second notch, said second positioner further configured to operate with the second square or rectangular portal to secure said second transducer holder in alignment with fluid flowing through the inline transducer meter body. 6. The inline transducer meter assembly of claim 5 , wherein the transducer assembly is positioned with its transducer holder in the inline transducer meter body near the inlet and the second transducer assembly is positioned near the outlet with its transducer holder in the inline transducer meter body and in alignment with the transducer assembly's transducer holder. 7. The inline transducer meter assembly of claim 6 , further comprising at least one flow conditioner coupled to a surface of at least one of the first and second transducer holders to enhance flow of fluid passing through the inline transducer assembly body. 8. The inline transducer meter assembly of claim 5 , wherein the transducer holders of the transducer assembly and the second transducer assembly include piezoelectric element therein and in communication with each other. 9. The inline transducer meter assembly of claim 8 , wherein the piezoelectric element is connected by a wire that is accessible from the circular head section. 10. The inline transducer meter assembly of claim 5 , further comprising at least one flow conditioner coupled to a surface of at least one of the first and second transducer holders to enhance flow of fluid passing through the inline transducer meter body. 11. An inline transducer housing assembly, comprising: a circular head section having a circular ledge adapted to interface with a circular shelf integrated in a flow tube; a square or rectangular alignment section extending from the circular head section within the circular shelf and adapted to interface with a square or rectangular portal formed between the shelf and an inner surface of the flow tube, said square or rectangular alignment section having a reduced surface area to reduce upshot force on the square or rectangular alignment section by fluid flowing through the flow tube; a transducer holder extending from the square or rectangular alignment section into an inner area of the flow tube wherein fluid flows through the flow tube, said transducer holder adapted to retain a first transducer in alignment with a second transducer retained in a second transducer holder located in the flow tube downline from said transducer holder, said transducer holder formed in a fluid flow enhancing profile and configured to retain a flow conditioner in front of the fluid flowing through the flow tube; a positioner formed on and extending from the transducer holder opposite the circular head section, said positioner configured to interface with a notch formed in the inner surface of the flow tube opposite the square or rectangular portal, said positioner further configured to secure the transducer holder and the first transducer held in alignment with fluid flowing through the flow tube; a first narrow support formed between the transducer holder and the square or rectangular alignment section and adapted to interface with the square or rectangular portal formed between the circular shelf and an inner surface; and a second narrow support formed between the first holder and the positioner formed on and extending from the second narrow support opposite the transducer holder. 12. The inline transducer meter assembly of claim 11 , further comprising: a second circular shelf integrated in the inline transducer meter body between the circular shelf and the outlet, said second circular shelf adapted to receive a transducer assembly and interface in a complimentary manner with a circular ledge of a second circular head section of the transducer assembly; a second square or rectangular portal formed between the second circular shelf and the inner surface of the inline transducer meter body, said second square or rectangular por