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Embodiments include a flow regulating device. The flow regulating device may include a check valve. The check valve can have a first flange, a second flange and a ball seated against a seat defined by the first flange. The check valve is in a closed position when the ball is seated against the first

Embodiments include a flow regulating device. The flow regulating device may include a check valve. The check valve can have a first flange, a second flange and a ball seated against a seat defined by the first flange. The check valve is in a closed position when the ball is seated against the first flange. One or more stoppers may be positioned at a distance from the first flange. A fluid may flow through a first orifice and a second orifice defined in the first and second flanges respectively, when the first check valve is in an open position. The fluid lifts the ball from the first orifice, and pushes the ball towards the second orifice. The stoppers abut the ball when the first check valve is in a fully open position.

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1. A check valve, comprising: a first flange having a first orifice;a second flange positioned opposite to the first flange along a center axis of the check valve, at a first distance from the first flange, the second flange having a second orifice;a ball seated against the first orifice when the ch

1. A check valve, comprising: a first flange having a first orifice;a second flange positioned opposite to the first flange along a center axis of the check valve, at a first distance from the first flange, the second flange having a second orifice;a ball seated against the first orifice when the check valve is in a closed position;one or more stoppers positioned at a second distance from the first flange along the axis of the check valve, the second distance being less than or equal to the first distance, extending radially inwardly toward the center axis of the check valve, the center axis passing through the first orifice; anda pair of seating members configured to contact at least a portion of the ball and seat the ball against the first orifice from an open position to the closed position, the pair of seating members being positioned further away from the ball than the stoppers in a direction along the center axis when the check valve is in the open position,wherein, a fluid flows through the first orifice and the second orifice when the check valve is in the open position,the fluid is configured to move the ball from the first orifice, the fluid further configured to exert a pressure on the ball, the pressure moving the ball away from the first orifice, andthe stoppers are configured to abut the ball when the check valve is in a fully open position. 2. The check valve of claim 1, wherein the ball is spherical in shape. 3. The check valve of claim 1, wherein the ball comprises sapphire. 4. The check valve of claim 1, further comprising a first set of ribs extending from the first flange, anda second set of ribs extending from the second flange, the first set of ribs are configured for engaging with the second flange and the second set of ribs are configured for engaging with the first flange. 5. The check valve of claim 4, wherein the first and second sets of ribs engage with the second flange and the first flange respectively via a snap fit or a frictional fit. 6. The check valve of claim 4, wherein the stoppers are integrally formed on the first set of ribs. 7. The check valve of claim 4, wherein the pair of seating members are defined on the second set of ribs, wherein the pair of seating members is configured for exerting a first force on the ball, the first force adapted to seat the ball against the first orifice when the check valve is in the closed position. 8. The check valve of claim 7, wherein the ball is configured for exerting a second force on the pair of seating members, the second force of the ball adapted to overcome the first force from the pair of seating members, and wherein the pair of seating members are configured for deflecting toward the second flange when the second force acts on the pair of seating members. 9. The check valve of claim 1, wherein the second distance approximately equals one-half of a radius of the first orifice. 10. The check valve of claim 1, wherein the second distance is less than approximately one-half of a radius of the first orifice. 11. The check valve of claim 1, wherein the stoppers are coupled to the first flange. 12. The check valve of claim 1, further comprising an insert sealingly engaging with the first orifice of the first flange, the insert having an orifice, the orifice having a tapered internal surface in communication with the fluid, the tapered internal surface forming a taper angle with the axis of the check valve. 13. The check valve of claim 12, wherein the taper angle is between about 30 degrees and about 60 degrees. 14. The check valve of claim 1, wherein the axis of the check valve is parallel to a generally vertical direction. 15. The check valve of claim 1, wherein the ball is adapted to move from the second distance to the first orifice, when the fluid stops flowing from the first orifice to the second orifice. 16. The check valve of claim 15, wherein the ball is adapted to move from the second distance to the first orifice, when the fluid flows from the second orifice to the first orifice. 17. A flow-regulating device for regulating a flow in a fluid line, comprising: a housing;an inlet recess defined in the housing;an outlet recess defined in the housing, such that a fluid flows in a forward direction from the inlet recess to the outlet recess; anda first check valve positioned in the inlet recess, the first check valve comprising a first flange having a first orificea second flange positioned opposite the first flange along an axis of the first check valve, at a first distance from the first flange, the second flange having a second orifice,a ball seated against the first orifice when the first check valve is in a closed position, andone or more of stoppers,a pair of seating members configured for exerting a first force on the ball, the first force adapted to seat the ball against the first orifice when the first check valve is in the closed position,the ball being configured for exerting a second force on the pair of seating members, the second force of the ball adapted to overcome the first force from the pair of seating members,the pair of seating members being configured to deflect toward the second flange when the second force acts on the pair of seating members,wherein, the fluid flows through the first orifice and the second orifice when the first check valve is in an open position,the fluid is configured to lift the ball from the first orifice, the fluid is further configured to push the ball towards the second orifice, andthe stoppers are configured to abut the ball when the first check valve is in a fully open position. 18. The flow-regulating device of claim 17, further comprising a second check valve positioned in the outlet recess. 19. The flow-regulating device of claim 18, further comprising an oval-gear flow meter positioned on the housing between the inlet recess and the outlet recess, the oval-gear flow meter configured for measuring a flow rate of the fluid in the fluid line. 20. The flow-regulating device of claim 19, wherein the first check valve is configured for preventing the fluid from flowing via the second orifice to the first orifice. 21. The flow-regulating device of claim 19, wherein at least one of the first and second check valves is adapted to prevent the fluid from entering into the oval-gear flow meter when the fluid flows in a reverse direction, whereby the reverse direction is opposite to the flow direction of the fluid in the open position. 22. A fluid system for supplying a fluid, comprising: a fluid source holding the fluid;a diaphragm pump coupled to the fluid source, the diaphragm pump configured for pressurizing the fluid;a fluid line coupled to the diaphragm pump, the fluid line providing a passage for the pressurized fluid; anda flow regulating device coupled to the fluid line, the flow regulating device comprising, a housing,an inlet recess defined in the housing,an outlet recess defined in the housing, such that a fluid flows in a direction from the inlet recess to the outlet recess, anda first check valve positioned in the inlet recess, the first check valve comprising a first flange having a first orifice,a second flange positioned opposite the first flange along an axis of the first check valve, at a first distance from the first flange, the second flange having a second orifice,a ball seated against the first orifice when the first check valve is in a closed position, andone or more of stoppers positioned at a second distance from the first flange along the axis of the first check valve, the second distance being less than or equal to the first distance, the stoppers extending radially inwardly toward a center axis of the check valve, the center axis passing through the first orifice, anda pair of seating members configured to contact at least a portion of the ball and seat the ball against the first orifice from an open position to the closed position, the pair of seating members being positioned further away from the ball than the stoppers in a direction along the center axis when the check valve is in the open position,wherein, the fluid flows through the first orifice and the second orifice when the first check valve is in an open position,the fluid is configured to lift the ball from the first orifice, the fluid is further configured to push the ball towards the second orifice, andthe stoppers are configured to abut the ball when the first check valve is in a fully open position. 23. The fluid system of claim 22, wherein the flow regulating device is configured for performing at least one of: measuring a flow rate of fluid through the fluid line;moving the fluid in a forward direction through the first check valve;preventing flow in a reverse direction through the first check valve; andstopping the fluid from flowing through the first check valve when the diaphragm pump generates flow oscillations.