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CN-224215363-U - Flow-guiding slag discharging door

CN224215363UCN 224215363 UCN224215363 UCN 224215363UCN-224215363-U

Abstract

The utility model provides a flow-guide slag discharging door, which belongs to the technical field of slag discharging doors and comprises a slag discharging door main body, a driving mechanism, an overflow groove and a flow-guide device, wherein the driving mechanism is used for driving the slag discharging door main body to move, the overflow groove is fixed on one side of the slag discharging door, and one end of the flow-guide mechanism is arranged between the slag discharging door main body and the overflow groove and used for guiding liquid overflowed from the end part of the slag discharging door main body to the overflow groove. According to the utility model, the flow guiding device is additionally arranged between the slag discharging door main body and the overflow groove, so that slag water filtered by the slag bin is completely guided into the overflow groove, the slag water is prevented from falling to the ground, and the site safety civilized production condition is ensured.

Inventors

  • WU QIAO
  • Lu Hangzheng
  • LIU YONGPING
  • YANG XUEYI

Assignees

  • 湖北能源集团鄂州发电有限公司
  • 湖北能源集团股份有限公司

Dates

Publication Date
20260508
Application Date
20250305

Claims (10)

  1. 1. The flow-guiding slag discharging door is characterized by comprising a slag discharging door main body, a driving mechanism, an overflow groove and a flow guiding device, wherein the driving mechanism is used for driving the slag discharging door main body to move, the overflow groove is fixed on one side of the slag discharging door, one end of the flow guiding device is arranged between the slag discharging door main body and the overflow groove, and the flow guiding device is used for guiding liquid overflowed from the end part of the slag discharging door main body into the overflow groove.
  2. 2. The flow-guide slag discharge door as claimed in claim 1, wherein the flow-guide device is a flow-guide plate, one side of the flow-guide plate is fixed with the end of the slag discharge door body, and the other side of the flow-guide plate is positioned in the overflow groove.
  3. 3. The steerable slag door of claim 2, further comprising a base, the slag door body and the overflow trough being mounted on the base.
  4. 4. A diverter slag door as defined in claim 3, wherein said actuating mechanism is a cylinder coupled to said slag door body for moving said slag door body toward an end remote from said isopipe or said slag door body toward an end proximate to said isopipe.
  5. 5. The diverting and slag discharging door according to claim 4, wherein the slag discharging door body is provided with pulleys on both sides, the pulleys are mounted at the bottom of the slag discharging door body, the pulleys are in contact with the base, and the slag discharging door body is movable on the base via the pulleys.
  6. 6. The flow-guidable slag discharge gate of claim 5 wherein said base is provided with a bottom slag discharge opening.
  7. 7. The flow-guidable slag discharge gate of claim 2 wherein an overflow pipe interface is provided on one side of the overflow trough.
  8. 8. The door of claim 5, wherein the number of pulleys on one side of the door body is 1-3.
  9. 9. The flow-guidable slag door of claim 5 wherein the base is provided with a groove along which the pulley is slidable.
  10. 10. The steerable slag door of claim 7, further comprising an overflow tube for mounting at the overflow tube interface.

Description

Flow-guiding slag discharging door Technical Field The utility model relates to the technical field of slag discharging doors, in particular to a flow-guide slag discharging door. Background The wet slag dragging machine of the thermal power plant conveys ash slag generated by the combustion of the boiler hearth to the slag bin through the scraping plate, and the stored slag in the slag bin is conveyed to the slag dragging vehicle through the opening and closing of the slag discharging door. The slag bin at the upper part of the slag discharging door is fully filled with slag fished out from the slag scooping machine, and the water content is particularly high. The water in the slag bin overflows into the overflow groove through the gap of the slag discharging door, and the overflow pipeline is used for conveying away. However, in the actual use process, due to the deformation of the overflow groove in the use process, too large water content of ash and slag, and the like, the overflowed ash and slag water often flows to the ground from the gap of the overflow groove of the slag discharging door, so that the ash and slag on the ground are accumulated, and the field safety civilized production condition is seriously affected. Disclosure of utility model The utility model provides a flow-guiding slag discharging door which is used for solving the defects of the slag discharging door in the prior art and realizing that slag water left at the upper part of the slag discharging door is completely guided to flow into an overflow groove. The utility model provides a flow-guide slag discharging door which comprises a slag discharging door main body, a driving mechanism, an overflow groove and a flow-guide device, wherein the driving mechanism is used for driving the slag discharging door main body to move, the overflow groove is fixed on one side of the slag discharging door, and one end of the flow-guide mechanism is arranged between the slag discharging door main body and the overflow groove and used for guiding liquid overflowed from the end part of the slag discharging door main body to the overflow groove. According to the flow-guiding slag discharging door provided by the utility model, the flow guiding device is a flow guiding plate, one side of the flow guiding plate is fixed with the end part of the slag discharging door main body, and the other side of the flow guiding plate is positioned in the overflow groove. According to the flow-guide slag discharging door provided by the utility model, the flow-guide slag discharging door further comprises a base, and the slag discharging door main body and the overflow groove are arranged on the base. According to the flow-guide slag discharging door provided by the utility model, the driving mechanism is an air cylinder, and the air cylinder is connected with the slag discharging door main body and is used for moving the slag discharging door main body to one end far away from the overflow groove or moving the slag discharging door main body to one end close to the overflow groove. According to the flow-guide slag discharging door provided by the utility model, the pulleys are arranged on two sides of the slag discharging door main body, the pulleys are arranged at the bottom of the slag discharging door main body, the pulleys are contacted with the base, and the slag discharging door main body can move on the base through the pulleys. According to the flow-guide slag discharging door provided by the utility model, the base is provided with the slag discharging opening at the bottom. According to the flow-guide slag discharging door provided by the utility model, one side of the overflow groove is provided with the overflow pipe connector. According to the diversion slag discharging door provided by the utility model, the number of pulleys on one side of the slag discharging door main body is 1-3. According to the flow-guide slag discharging door provided by the utility model, the base is provided with the groove, and the pulley can slide along the groove. According to the flow-guide slag discharging door provided by the utility model, the flow-guide slag discharging door further comprises an overflow pipe, and the overflow pipe is used for being arranged at the interface of the overflow pipe. According to the diversion slag discharging door provided by the utility model, the diversion device is additionally arranged between the slag discharging door main body and the overflow groove, so that slag water filtered by the slag bin is completely diverted into the overflow groove, the slag water is prevented from falling to the ground, and the safe civilized production condition on site is ensured. Drawings In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings