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CN-224213015-U - Down feather cutting piece cleaning filter

CN224213015UCN 224213015 UCN224213015 UCN 224213015UCN-224213015-U

Abstract

The utility model relates to the technical field related to dehairing equipment, and discloses a down feather cut-part cleaning filter, which is used for solving the problem that down feather on cut-parts drifts everywhere after being blown out, and the down feather blown out from the cut-parts enters a separation chamber and is filtered by a filter cylinder through an air flow blowing assembly, so that the down feather after being filtered enters a collection chamber, and the secondary utilization can be realized, and finally, the effects of plasma blowing and down feather recycling are realized.

Inventors

  • ZHU SHAODONG

Assignees

  • 南通市宏润智能科技有限公司

Dates

Publication Date
20260508
Application Date
20250526

Claims (7)

  1. 1. The utility model provides a eiderdown cut-parts clearance filter which characterized in that includes: a stand (1), the middle part of which is provided with a strand empty carrier (3) for placing the articles to be cleaned; a separation chamber (100) which is positioned below the strand empty carrier (3) and is communicated with the strand empty carrier; A suction chamber (102) which is connected with the separation chamber (100), wherein the suction chamber (102) is subjected to the suction action of the fan (11); When the fan (11) performs suction operation on the suction chamber (102), a negative pressure environment is formed, so that the suction chamber (102) performs suction cleaning on attachments placed on the surfaces of objects on the strand idle platform (3) through the separation chamber (100).
  2. 2. A down cut cleaning filter according to claim 1, characterized in that a plasma blowing assembly (2) is mounted above the frame (1) for blowing air flow towards the strand idle station (3).
  3. 3. A down feather cut-piece cleaning filter according to claim 1, characterized in that a filter cartridge (5) is fixedly mounted in the middle of the frame (1) between the separation chamber (100) and the suction chamber (102).
  4. 4. A down feather cut-piece cleaning filter according to claim 3, characterized in that a collecting hopper (6) positioned at the bottom of the separating chamber (100) is arranged in the frame (1), and a collecting chamber (101) positioned below the collecting hopper (6) is arranged at the bottom of the frame (1).
  5. 5. The down feather cut-piece cleaning filter according to claim 1, wherein the bottom of the frame (1) is fixedly provided with a hollowed-out bottom plate (4), and a chip collecting chamber (103) used for communicating the hollowed-out bottom plate (4) with the separation chamber (100) is arranged at the bottom of the frame (1).
  6. 6. The down feather cut-piece cleaning filter according to claim 5, wherein a carrier piston cylinder (7) is fixedly arranged on the surface of the frame (1), and the carrier piston cylinder (7) can push a carrier flashboard assembly (8) to move and realize connection/blocking of a communication area between the separation chamber (100) and the no-load carrier (3).
  7. 7. The down feather cut-piece cleaning filter according to claim 5, characterized in that a bottom flashboard (10) pushed by a bottom piston cylinder (9) is movably arranged in the middle of the frame (1), and the bottom flashboard (10) can realize the connection/blocking of the communication area of the separation chamber (100) and the chip collecting chamber (103).

Description

Down feather cutting piece cleaning filter Technical Field The utility model relates to the technical field related to dehairing equipment, in particular to a down feather cut-piece cleaning filter. Background In the down production industry, static electricity is generated on the large and small cut pieces filled with down, and a large amount of down is adsorbed on the large and small cut pieces. Because the down feather itself has the characteristics of light weight, fluffiness and easiness in generating static electricity, the surface of the cut piece is inevitably affected by the electrostatic adsorption effect. The electrostatic attraction force is similar to an intangible magnet, so that a large amount of down is tightly adhered to the surface of the cutting piece, and is difficult to fall off by oneself. For a long time, in the aspect of cleaning treatment of down cut pieces, workers mostly adopt a mode of manually operating an air gun to clean the cut pieces. They hold the air gun with the air gun opening aligned to the surface of the cut-pieces, and by activating the air gun to generate a strong air flow, try to blow down attached to the down cut-pieces by using the force of the air flow. This method appears simple and straightforward, but in practice has a number of drawbacks. In the practical application process, the negative effect caused by blowing down by the air gun is quite remarkable. When the air flow sprayed by the air gun impacts the down on the surface of the cutting piece, the down can be instantaneously blown away and quickly floats in the air. These fine down are spread around all corners of the entire down production plant. Workers work in such environments, not only can feel unsmooth breathing, but also the problems of respiratory tract discomfort and the like caused by excessive down inhalation can be caused, and the working efficiency and the physical health of the workers are seriously affected. Meanwhile, the down floating in the air can be attached to various surfaces of equipment, walls, floors and the like of workshops, so that the workshops become messy, and the difficulty and cost of cleaning and maintenance are increased. On the other hand, down directly blown by the air gun is not effectively recycled. The down is originally a precious raw material, and can be put into production again after a series of processing treatments. However, due to the limitations of the conventional cleaning method, the down is optionally blown into the air under the impact of the air gun air flow, and finally scattered at various places in the workshop, and cannot be collected again for use. This not only results in a great waste of down resources, but also increases the production cost of the enterprise. Disclosure of utility model The utility model provides a down feather cut-part cleaning filter, which has the functions of plasma blowing and down feather recycling, and aims to solve the problem that the down feather mentioned in the background art drifts everywhere after being blown out from the cut-parts. The down feather cut-piece cleaning filter comprises a frame, a separating chamber, a suction chamber and a fan, wherein a no-load platform for placing objects to be cleaned is arranged in the middle of the frame, the separating chamber is positioned below the no-load platform and is communicated with the separating chamber, the suction chamber is communicated with the separating chamber and is subjected to suction action of the fan, and when the fan performs suction operation on the suction chamber, a negative pressure environment is formed, so that the suction chamber sucks and cleans attachments placed on the surfaces of the objects on the no-load platform through the separating chamber. Further, a plasma blowing component which blows air flow towards the strand empty carrier is arranged above the frame. Further, a filter cartridge is fixedly arranged in the middle of the frame and is positioned between the separation chamber and the suction chamber. Further, a collecting hopper positioned at the bottom of the separating chamber is arranged in the frame, and a collecting chamber positioned below the collecting hopper is arranged at the bottom of the frame. Further, the bottom of the frame is fixedly provided with a hollowed-out bottom plate, and the bottom of the frame is provided with a chip collecting chamber which is used for communicating the hollowed-out bottom plate with the separation chamber. Further, the surface of the frame is fixedly provided with a carrier piston cylinder, and the carrier piston cylinder can push the carrier flashboard component to move and realize the connection/blocking of a communication area between the separation chamber and the strand idle platform. Further, the middle part of the frame is movably provided with a bottom flashboard pushed by a bottom piston cylinder, and the bottom flashboard can realize the connection/blocking of the communication ar