Drip emitter

The invention claimed is: 1. A drip emitter comprising a housing containing a flow path extending between a water inlet and a water outlet, a pressure-reducing segment of the flow path downstream of the inlet and upstream of the outlet, and a dynamic pressure regulator downstream of the water inlet and upstream of the pressure-reducing segment of the flow path, the dynamic pressure regulator being configured such that a decrease in pressure in the pressure-reducing segment of the flow path causes the dynamic pressure regulator to adjust to maintain a generally constant rate of flow through the water inlet as compared to the rate of flow when there is no decrease in pressure in the pressure-reducing segment of the flow path, and the dynamic pressure regulator being configured to substantially or completely block the flow path upstream of the pressure-reducing segment of the flow path and, as part of a check valve, both downstream and spaced from the water inlet. 2. A drip emitter comprising a housing containing a flow path extending between a water inlet and a water outlet, a pressure-reducing segment of the flow path downstream of the inlet and upstream of the outlet, and a dynamic pressure regulator downstream of the water inlet and upstream of the pressure-reducing segment of the flow path, the dynamic pressure regulator being configured such that a decrease in pressure in the pressure-reducing segment of the flow path causes the dynamic pressure regulator to adjust to maintain a generally constant rate of flow through the water inlet as compared to the rate of flow when there is no decrease in pressure in the pressure-reducing segment of the flow path, wherein the dynamic pressure regulator comprises a first portion and a second portion, the first portion being moveable toward the water inlet in response to increased pressure acting on the second portion when there is a higher pressure in the pressure-reducing segment of the flow path and moveable away from the water inlet in response to relatively decreased pressure acting on the second portion when there is a lower pressure in the pressure-reducing segment of the flow path. 3. The drip emitter of claim 2 , wherein the second portion of the dynamic pressure regulator comprises a diaphragm having one side facing the flow path and an opposite side exposed to the environment external to the housing. 4. The drip emitter of claim 3 , further comprising a check valve for substantially or completely blocking the flow path upstream of the pressure-reducing segment of the flow path and downstream of the water inlet in response to the pressure on the one side of the diaphragm facing the flow path being less than the pressure on the opposite side of the diaphragm that is exposed to the environment external to the housing. 5. The drip emitter of claim 4 , wherein the check valve is formed between the diaphragm and a portion of the housing, the diaphragm being moveable toward the portion of the housing when the pressure on the one side of the diaphragm facing the flow path is less than the pressure on the opposite side of the diaphragm that is exposed to the environment external to the housing and moveable away from the portion of the housing when the pressure on the one side of the diaphragm facing the flow path is greater than the pressure on the opposite side of the diaphragm that is exposed to the environment external to the housing. 6. The drip emitter of claim 5 , wherein the pressure-reducing segment of the flow path is a tortuous path. 7. The drip emitter of claim 6 , wherein the housing comprises a lower portion and an upper portion, and the tortuous path is defined between the lower portion and the upper portion. 8. The drip emitter of claim 7 , wherein the lower portion includes the water inlet and the upper portion includes the water outlet. 9. The drip emitter of claim 8 , wherein there is a pressure regulation zone defined as a gap between the water inlet and the first portion of the dynamic pressure regulator, the dynamic pressure regulator being configured such that a decrease in pressure in the pressure-reducing segment of the flow path causes the dynamic pressure regulator to adjust to maintain a generally constant rate of flow through the water inlet by increasing the size of the gap of the pressure regulation zone as compared to the size of the gap when there is no decrease in pressure in the pressure-reducing segment of the flow path. 10. The drip emitter of claim 9 , wherein the lower portion of the housing has a diaphragm chamber in which the diaphragm is seated, the diaphragm dividing the diaphragm chamber into a portion facing the flow path and a portion facing at least one port in communication with the environment external to the housing. 11. The drip emitter of claim 10 , wherein the dynamic pressure regulator is a flexible member. 12. The drip emitter of claim 11 , wherein the lower portion of the housing has a barbed member with a flow path therethrough and in fluid communication with and upstream of the water inlet. 13. The drip emitter of claim 12 , wherein an entrance to the tortuous path is in the upper portion of the housing and an exit from the tortuous path is in the upper portion of the housing. 14. The drip emitter of claim 13 , wherein the water outlet comprises a flow path through a barbed member of the upper portion of the housing. 15. The drip emitter of claim 14 , in combination with a length of drip irrigation tubing, the barbed member of the lower portion of the housing extends into an interior of the length of drip irrigation tubing so that a flow path from the interior of the length of drip irrigation tubing into the drip emitter is provided, and the barbed member of the upper portion of the housing is disposed outside of the interior of the drip irrigation tubing. 16. An irrigation system comprising: a water source; a control zone valve; and a length of drip irrigation tubing downstream of the valve, the drip irrigation tubing in fluid communication with a plurality of drip emitters in accordance with claim 2 for discharging fluid from the water source through the drip emitters when the control zone valve is open. 17. A drip emitter comprising a housing containing a flow path extending between a water inlet and a water outlet, a pressure-reducing segment of the flow path downstream of the inlet and upstream of the outlet, and a dynamic pressure regulator downstream of the water inlet and upstream of the pressure-reducing segment of the flow path, the dynamic pressure regulator being configured such that a decrease in pressure in the pressure-reducing segment of the flow path causes the dynamic pressure regulator to adjust to maintain a generally constant rate of flow through the water inlet as compared to the rate of flow when there is no decrease in pressure in the pressure-reducing segment of the flow path, wherein there is a pressure regulation zone defined as a gap between the water inlet and an adjacent portion of the dynamic pressure regulator, the dynamic pressure regulator being configured such that a decrease in pressure in the pressure-reducing segment of the flow path causes the dynamic pressure regulator to adjust to maintain a generally constant rate of flow through the water inlet by increasing the size of the gap of the pressure regulation zone as compared to the size of the gap when there is no decrease in pressure in the pressure-reducing segment of the flow path. 18. The drip emitter of claim 17 , wherein the dynamic pressure regulator includes a diaphragm portion, the di