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Structural features:
1. HR type ammonium nitrate solution pump mainly consists of pump body, impeller, shaft, pump cover, sealing parts, bearing box transmission parts and base plate.
2. The pump shaft adopts an enlarged shaft diameter design to ensure the strength and rigidity of the shaft under high temperatures.The bearings are imported bearings.3. The bearing box is designed with an external water-cooling jacket to take away the heat generated by the bearing operation and the heat transferred by the high-temperature medium at the front of the pump in a timely manner to ensure that the shaft temperature is at a low temperature.
4. Seal In view of the particularity of working conditions, we have conducted technical interactions with seal manufacturers. According to the working conditions of the medium and the structural characteristics of the pump, we have designed a seal specially designed to withstand high temperatures, high pressures and for molten media. .5. The flow-passing part of the pump adopts the form of integral jacket insulation to ensure that the medium will not solidify and crystallize in the pump cavity and sealing cavity, thus damaging seals and other components.
6. The back blade of the impeller is designed to reduce the pressure on the seal in the seal cavity, thereby extending the service life of the seal.
Structural features:
1. HR type ammonium nitrate solution pump mainly consists of pump body, impeller, shaft, pump cover, sealing parts, bearing box transmission parts and base plate.
2. The pump shaft adopts an enlarged shaft diameter design to ensure the strength and rigidity of the shaft under high temperatures.The bearings are imported bearings.3. The bearing box is designed with an external water-cooling jacket to take away the heat generated by the bearing operation and the heat transferred by the high-temperature medium at the front of the pump in a timely manner to ensure that the shaft temperature is at a low temperature.
4. Seal In view of the particularity of working conditions, we have conducted technical interactions with seal manufacturers. According to the working conditions of the medium and the structural characteristics of the pump, we have designed a seal specially designed to withstand high temperatures, high pressures and for molten media. .5. The flow-passing part of the pump adopts the form of integral jacket insulation to ensure that the medium will not solidify and crystallize in the pump cavity and sealing cavity, thus damaging seals and other components.
6. The back blade of the impeller is designed to reduce the pressure on the seal in the seal cavity, thereby extending the service life of the seal.
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