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CN-224208725-U - Cleaning device for non-magnetic steel

CN224208725UCN 224208725 UCN224208725 UCN 224208725UCN-224208725-U

Abstract

The utility model provides a cleaning device for nonmagnetic steel, which belongs to the field of steel processing equipment and comprises a cleaning box, wherein a cleaning cavity is formed in the cleaning box, a cleaning assembly is arranged in the cleaning cavity, the cleaning assembly comprises symmetrically arranged supporting rods, the supporting rods are positioned at the center of the cleaning cavity and used for supporting materials, and brush rollers used for brushing the materials are arranged at two sides of the supporting rods.

Inventors

  • ZHANG QINGMING
  • YANG PAN
  • ZHAO JIE
  • ZHANG PENGZHUAN
  • WU LIN
  • ZHAO SHIMIN

Assignees

  • 河南神龙石油钻具有限公司

Dates

Publication Date
20260508
Application Date
20250415

Claims (8)

  1. 1. A cleaning device for non-magnetic steel comprises a cleaning box (1), wherein a cleaning cavity (2) is formed in the cleaning box (1), and a cleaning assembly (100) is arranged in the cleaning cavity (2), and the cleaning device is characterized in that the cleaning assembly (100) comprises symmetrically arranged supporting rods (101), the supporting rods (101) are located in the center of the cleaning cavity (2) and used for supporting materials, and brush rollers (102) used for brushing the materials are arranged on two sides of the supporting rods (101).
  2. 2. A cleaning device for non-magnetic steel according to claim 1, characterized in that an opening (103) is obliquely arranged in the middle of the cleaning box (1), the opening (103) is penetratingly arranged on the cleaning box (1), and the supporting rod (101) is arranged below the opening (103).
  3. 3. A cleaning device for non-magnetic steel according to claim 2, characterized in that the brush roller (102) is a stationary brush (104) and a movable brush (105).
  4. 4. A cleaning device for non-magnetic steel according to claim 3, wherein said stationary brush (104) is rotatably disposed below said support rod (101), and wherein a surface of said stationary brush (104) abuts against a lower surface of said support rod (101).
  5. 5. A cleaning device for non-magnetic steel according to claim 4, characterized in that the movable brush (105) comprises a cylinder (106) arranged above the cleaning box (1), and the output end of the cylinder (106) is connected with the movable brush (105).
  6. 6. A cleaning device for non-magnetic steel according to claim 5, characterized in that a spraying shell (3) is arranged on the inner side wall of the cleaning box (1), and the spraying shell (3) is arranged above the supporting rod (101).
  7. 7. The cleaning device for non-magnetic steel according to claim 6, wherein the spraying shell (3) is internally provided with a liquid storage cavity (4), and a nozzle communicated with the liquid storage cavity (4) is arranged on the inner side wall of the spraying shell (3).
  8. 8. The cleaning device for non-magnetic steel according to claim 7, wherein a water pump (5) is arranged at the bottom of the cleaning box (1), an infusion pipeline (6) is connected to the output end of the water pump (5), and the infusion pipeline (6) is communicated with the liquid storage cavity (4).

Description

Cleaning device for non-magnetic steel Technical Field The utility model relates to the field of steel processing equipment, in particular to a cleaning device for non-magnetic steel. Background In the modern industrial field, the nonmagnetic steel tube is widely applied to the scenes of aerospace, medical equipment, electronic equipment and the like with strict requirements on magnetic environment by virtue of the unique nonmagnetic property, high strength and good corrosion resistance. In the production and processing links, cutting is an indispensable step for forming the non-magnetic steel pipe. In order to improve the cutting efficiency, reduce the friction between a cutter and a pipe in the cutting process, reduce the generation of heat, avoid deformation or performance degradation of the pipe caused by overheating, and generally use a cutting agent containing special chemical components in cutting. However, after the cutting operation is completed, a large amount of chemical remains on the surface of the nonmagnetic steel pipe. If the residual medicines are not timely and thoroughly removed, a plurality of difficult problems are brought to subsequent use and storage. From the use point of view, in some application scenes with extremely high requirements on surface precision and cleanliness, such as medical instrument manufacturing, medicament residues can pollute products and affect safety and reliability of the products, and in the field of electronic equipment manufacturing, the residual medicaments can cause short circuits and cause equipment faults. From the aspect of storage, certain chemical components contained in the residual medicament can react with moisture and oxygen in the air, so that the corrosion process of the non-magnetic steel tube is accelerated, the service life of the non-magnetic steel tube is shortened, and the maintenance cost is increased. Disclosure of utility model In view of the above, the utility model provides a cleaning device for non-magnetic steel, which can clean dirt in all directions by starting a water pump to spray cleaning liquid through a spray head, and respectively brushing the bottom and the upper surface of a material by a rotary fixed brush and a movable brush driven by an air cylinder. In order to solve the technical problems, the utility model provides a cleaning device for non-magnetic steel, which comprises a cleaning box, wherein a cleaning cavity is arranged in the cleaning box, the cleaning cavity provides a closed operation space for cleaning the non-magnetic steel, the cleaning liquid is prevented from splashing and foreign impurities are prevented from being mixed in the cleaning process, and the smooth operation of cleaning work is ensured. The cleaning assembly is arranged in the cleaning cavity and used for cleaning materials, the cleaning assembly comprises symmetrically arranged supporting rods, and the supporting rods are located at the center of the cleaning cavity. The design of the position can keep balance and stability of the non-magnetic steel material in the cleaning process, and poor cleaning effect or material sliding caused by gravity center deviation is avoided. The cleaning device is mainly used for supporting materials, ensuring that the materials can be positioned at a proper position during cleaning, and facilitating subsequent cleaning operation. And brush rollers for brushing materials are arranged on two sides of the supporting rod. The brush roller is directly contacted with the non-magnetic steel surface, and dirt and residual medicament on the material surface can be effectively removed through friction force generated by rotation. Wherein, the brush roller is divided into a fixed brush and a movable brush. The fixed brush is rotatably arranged below the supporting rod, and the surface of the fixed brush is in contact with the lower surface of the supporting rod, so that the fixed brush can be tightly attached to the bottom of a material when rotating, and the bottom of the material is continuously and stably brushed. The movable brush comprises an air cylinder arranged above the cleaning box, and the output end of the air cylinder is connected with the movable brush. The cylinder can control the up-and-down motion of the movable brush according to actual demands, so that brushing force and brushing position of the upper surface of the material can be flexibly adjusted. The inner side wall of the cleaning box is provided with a spraying shell, the spraying shell is positioned above the supporting rod, a liquid storage cavity is formed in the spraying shell, and the inner side wall is provided with a spray head communicated with the liquid storage cavity. The water pump at the bottom of the cleaning box pumps out the cleaning liquid, the cleaning liquid is conveyed to the liquid storage cavity through the infusion pipeline, the cleaning liquid is sprayed out through the spray head to perform primary flushing on material