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Waterjet tee is used in waterjet cutting systems to split the high-pressure water flow into two or more streams. This allows for greater flexibility in the cutting process, as the waterjet can be directed in multiple directions or to multiple cutting heads simultaneously.
Description
Waterjet Tee Assembly, HP, .38 10078590
Waterjet Tee Assembly, HP, .38 10078590 is applied for SL-VI 50HP pump
| Item | Part Number | Description |
| 1 | 72160849 | Intensifier Topworks |
| 2 | 72162513 | Housing, Attenuator Weldment |
| 3 | 05040696 | Attenuator Assembly |
| 4 | 10079531 | Coupling Assembly, HP, .56 x .38 |
| 5 | 10078590 | Tee Assembly, HP, .38 |
| 6 | 20427739 | Valve/Actuator Assembly |
| 7 | 05144837 | Spacer, Attenuator Bracket |
| 8 | 10078715 | HP Collar, .38 |
| 9 | 10078129 | HP Gland, .38 |
| 10 | 49830581 | Coupling Assembly, Bulkhead, .56 x .38 |
| 11 | 72154033 | HP Tube, Bent, .38 |
| 12 | 10094704 | HP Tube, Bent, .38 |
| 13 | 72160906 | HP Tube, Bent, .38 |
| 14 | 72154116 | HP Tube, Bent, .25 |
| 15 | 72154075 | HP Tube, Bent, .38 |
| 16 | 72155967 | HP Tube, Bent, .38 |
| 17 | 95670972 | Lock Washer, .38 |
| 18 | 95375473 | Socket Head Screw, 3/8-16 x 1 |
| 19 | 95660957 | Flat Washer, .38 |
| 20 | 20491892 | Cup Seal |
| 21 | 49831480 | Grommet, 3.0 x 2.25 |
| 22 | 20419432 | Grommet, 2.25 x 1.63 |
| 23 | 95383790 | Socket Head Screw, 1/2-13 x 1 |
| 24 | 95413696 | Lock Washer, .50 |
| 25 | 10083897 | Ferrule, Hose, .25 |
| 26 | 10186153 | Flexible Conduit, .38 |
| 27 | 72162495 | Spacer, Attenuator |
| 28 | 72152547 | Top Pan |
| 29 | 10078459 | HP Gland, .25 |
| 30 | 10078426 | HP Collar, .25 |
| 31 | 49898729 | Flat Washer, M12 |
How to use waterjet tee ?
Waterjet tee is used in waterjet cutting systems to split the high-pressure water flow into two or more streams. This allows for greater flexibility in the cutting process, as the waterjet can be directed in multiple directions or to multiple cutting heads simultaneously. Here are some common ways that waterjet tees are used:
Multiple cutting heads: Waterjet tees are often used to split the high-pressure water flow into multiple streams, each of which is directed to a separate cutting head. This allows for multiple cuts to be made simultaneously, which can increase efficiency and throughput in the cutting process.
Multidirectional cutting: Waterjet tees can be used to split the high-pressure water flow into multiple streams, each of which is directed in a different direction. This can be useful for cutting complex shapes or patterns that require cuts at multiple angles.
High-volume cutting: Waterjet tees can be used to split the high-pressure water flow into multiple streams, each of which is directed to a separate cutting head or nozzle. This can increase the volume of material that can be cut in a given amount of time, as the waterjet can cover a larger area with multiple streams.
Multi-stage cutting: Waterjet tees can be used to split the high-pressure water flow into multiple streams, each of which is directed to a separate cutting head or nozzle with different orifice sizes. This can allow for multi-stage cutting, where the initial cut is made with a larger orifice nozzle and the final cut is made with a smaller orifice nozzle for greater precision.
When using a waterjet tee, it is important to ensure that the flow rate and pressure of the waterjet is properly balanced between each of the outlets. This can be achieved by selecting a tee fitting that is designed to maintain a high-pressure flow of water through each outlet, while minimizing any pressure drop or loss. The diameter of each outlet should also be carefully matched to the needs of the cutting heads or other devices that will be attached to the tee fitting.
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