Double-ellipsoidal streamlined rotator irrigation emitter plug and mounting method thereof
A technology of emitter and revolving body, which is applied in the field of double ellipse streamline revolving emitter plug, which can solve the problems of large water head loss and achieve the effects of increasing laying length, increasing conveying distance and reducing shape resistance
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Embodiment 1
[0064] like image 3 As shown, a double ellipse streamline rotary emitter plug includes a plug inverted cone 6, the upper end of the plug inverted cone 6 is provided with a plug water inlet 5, and the lower surface of the plug inverted cone 6 is sequentially aligned with the plug cone neck 7 from top to bottom. , the dripper cavity 8 and the dripper outlet pipe 9 are connected, the cross-sectional contour line of the plug inverted cone 6 is a double ellipse streamlined curve; the cross-sectional contour line of the plug cone neck 7 is a plug cone neck double ellipse streamlined curve, and its upper The area of the plane space enclosed by the double elliptical streamlined curve of the taper neck of the plug on the lower end face is the same.
[0065] like figure 1 and figure 2 As shown, the plug inverted cone 6 is obtained by the following method:
[0066] Step 1: Obtain a double ellipse streamlined curve 10 according to the combination of mathematical expressions, set tw...
Embodiment 2
[0080] An installation method for the above-mentioned double ellipse streamline rotary emitter plug, the double ellipse streamline curve 10 of the plug inverted cone 6 of the emitter plug is placed in front along the curve 1-2-3 of the upstream section, and the curve 1-2-3 of the outflow section 4-3 Insert the capillary into the punched hole in the rear direction, and then pull the inserted emitter plug back to the position where the lower end of the plug's inverted cone 6 is close to the inner wall of the capillary to ensure that the plug and the capillary are tightly fitted to prevent watering. water leakage.
Embodiment 3
[0082] The drip irrigation pipe composed of two types of emitters, the conical emitter plug and the double ellipse streamline rotary emitter plug, was simulated to observe the resistance of the two emitter plugs. Set a 1m-long capillary, and insert three double-elliptical streamline rotary emitters into the capillary with a distance of 0.2m. As a control, a 1m long capillary was also taken, and three conical emitters were inserted into it to simulate the total head loss of the capillary. The head loss along the capillary is calculated by Darcy's formula, and the local head loss is obtained by subtracting the head loss along the capillary from the total head. According to the simulation results, the double ellipse streamline rotary emitter can effectively reduce the local resistance of the emitter, and the drag reduction ratio is 17.1%-34.6% (this ratio shows that the double ellipse streamline rotary dripper can effectively reduce the local water head loss of the dripper compar...
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