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CN-224208830-U - Detection equipment with alignment structure for stainless steel plate production

CN224208830UCN 224208830 UCN224208830 UCN 224208830UCN-224208830-U

Abstract

The utility model discloses detection equipment with a straightening structure for stainless steel plate production, which comprises a detection equipment body provided with a stainless steel plate body, wherein a laser sensor body is arranged on the detection equipment body, and a clamping and stretching mechanism is arranged on one side of the stainless steel plate body. According to the detection equipment with the alignment structure for producing the stainless steel plate, provided by the utility model, the hydraulic rod and the laser sensor body are started, the stretching mechanism is clamped, and under the cooperation of the alignment component, the stainless steel plate body can be synchronously aligned while the bending degree of the stainless steel plate body is detected, so that the plate can be kept flat during detection by real-time alignment, poor contact or laser reflection angle deviation of an ultrasonic probe caused by bending is avoided, thickness measurement errors and defect misjudgment are reduced, in addition, the image stretching or twisting of the flat plate can be avoided during the detection of the laser sensor, and the recognition accuracy of micro defects such as cracks and pits is improved.

Inventors

  • ZHANG LING
  • SHEN XIANGSHENG

Assignees

  • 兴化市广福金属制品有限公司

Dates

Publication Date
20260508
Application Date
20250521

Claims (6)

  1. 1. The detection equipment with the straightening structure for the production of the stainless steel plate comprises a detection equipment body (1) provided with the stainless steel plate body (12), and is characterized in that a laser sensor body (11) is arranged on the detection equipment body (1), a clamping and stretching mechanism (13) is arranged on one side of the stainless steel plate body (12), a straightening component (2) is arranged on the detection equipment body (1), and the laser sensor body (11) is arranged on the detection equipment body (1) and is positioned on the lower side of the stainless steel plate body (12); The straightening assembly (2) comprises two hydraulic rods (22) arranged on the detection equipment body (1), straightening seats (23) are fixedly arranged at the output ends of the hydraulic rods (22), cleaning assemblies (3) are arranged on the two straightening seats (23), and three upper straightening rollers (24) are rotatably connected between the two straightening seats (23); The cleaning assembly (3) comprises a sector gear (31) rotationally connected with the straightening seat (23), the end part of the sector gear (31) is fixedly connected with the upper straightening roller (24), a set of first oblique brush strips (35) are fixedly arranged on the arc outer wall of the cleaning rod (34), two rack bodies (321) are fixedly arranged on the inner wall of the return strip (32), the two rack bodies (321) are meshed with the sector gear (31), a transmission rotating rod (33) is rotationally arranged on one side of the return strip (32), the end part of the transmission rotating rod (33) is rotationally connected with the cleaning rod (34), the cleaning rod (34) is in sliding connection with the two straightening seats (23), a set of second oblique brush strips (36) are fixedly arranged on the arc outer wall of the cleaning rod (34), a set of center brush strips (37) are arranged between the first oblique brush strips (35) and the set of second oblique brush strips (36), and the center brush strips (37) are fixedly connected with the cleaning rod (34).
  2. 2. The detection device for producing the stainless steel plate with the alignment structure according to claim 1, wherein the alignment assembly (2) comprises lower alignment rollers (21) rotatably connected with the detection device body (1), the laser sensor body (11) is positioned between the two lower alignment rollers (21), and three upper alignment rollers (24) are equidistantly distributed.
  3. 3. The detection device for producing the stainless steel plate with the alignment structure according to claim 2, wherein two lower alignment rollers (21) are symmetrically arranged relative to the detection device body (1), three upper alignment rollers (24) are positioned above the two lower alignment rollers (21), the three upper alignment rollers (24) are distributed with the two lower alignment rollers (21) in a staggered manner, and the stainless steel plate body (12) is positioned between the three upper alignment rollers (24) and the two lower alignment rollers (21).
  4. 4. The detection device for producing the stainless steel plate with the alignment structure according to claim 1, wherein the two ends of the upper alignment roller (24) are fixedly provided with rotating shafts, the rotating shafts are connected with the alignment seat (23) through bearings, and the end parts of the sector gears (31) are fixedly connected with the rotating shafts on the upper alignment roller (24).
  5. 5. The detection device for producing the stainless steel plate with the alignment structure according to claim 1, wherein the two rack bodies (321) are symmetrically arranged relative to the sector gear (31), and a hollow groove is formed in the inner part of the square strip (32).
  6. 6. The detecting device for producing stainless steel plates with alignment structures according to claim 1, wherein each alignment seat (23) is provided with a movable hole matched with a cleaning rod (34), and a group of first oblique brush strips (35) and a group of second oblique brush strips (36) are symmetrically arranged about a central brush strip (37).

Description

Detection equipment with alignment structure for stainless steel plate production Technical Field The utility model relates to the technical field of stainless steel plate production, in particular to detection equipment with a straightening structure for stainless steel plate production. Background The stainless steel plate has smooth surface, high plasticity, toughness and mechanical strength, is resistant to corrosion of acid, alkaline gas, solution and other mediums, is an alloy steel which is not easy to rust, but is not absolutely stainless, the stainless steel plate is a steel plate resistant to corrosion of weak mediums such as atmosphere, steam, water and the like, and the acid-resistant steel plate is a steel plate resistant to corrosion of chemical corrosive mediums such as acid, alkali, salt and the like; Through setting up the detection box, when needing to detect the toughness of panel, place the panel over the detection box and start the rotating electrical machines for the rotating electrical machines can drive the threaded rod through the gear and move downwards, the threaded rod that impels the downward movement can extrude the panel in the inside of detection box, make the detection box extrude the shape of panel gradually, thereby make the panel shut down the rotating electrical machines when unable deformation takes place for panel, and then calculate the toughness of panel through measuring the amplitude of threaded rod downward movement, make the problem that comparatively wastes time and energy when having avoided the manual work to detect panel toughness, and then brought convenience for the toughness detection of panel. In the above patent or the prior art, the stainless steel plate needs to detect the bending degree in the production process, and when the plate is uneven, the ultrasonic probe or the laser sensor cannot stably contact the surface, so that the thickness measurement error or defect is missed, the alignment equipment needs to be configured independently, the carrying and debugging time is increased, the continuity of the production line is interrupted, the deformation problem is found after the detection, the alignment is required to be carried out again, the secondary detection is carried out, the production period is prolonged, the plate can deform again in the carrying after the alignment, and the detection result cannot reflect the final state. Disclosure of utility model The utility model aims to provide a detection device with a straightening structure for producing a stainless steel plate, which solves the problems in the prior art. The detection equipment for stainless steel plate production with the straightening structure comprises a detection equipment body provided with a stainless steel plate body, wherein a laser sensor body is arranged on the detection equipment body, a clamping and stretching mechanism is arranged on one side of the stainless steel plate body, a straightening component is arranged on the detection equipment body, and the laser sensor body is arranged on the lower side of the stainless steel plate body on the detection equipment body; The straightening assembly comprises two hydraulic rods arranged on the detection equipment body, straightening seats are fixedly arranged at the output ends of each hydraulic rod, cleaning assemblies are arranged on the two straightening seats, and three upper straightening rollers are rotatably connected between the two straightening seats; The cleaning assembly comprises a sector gear rotationally connected with the straightening seat, the end part of the sector gear is fixedly connected with an upper straightening roller, a strip is arranged on the straightening seat in a shape of a circle in a sliding mode, two rack bodies are fixedly arranged on the inner wall of the strip in a shape of a circle, the two rack bodies are meshed with the sector gear, a transmission rotating rod is rotationally arranged on one side of the strip in a shape of a circle, the end part of the transmission rotating rod is rotationally connected with a cleaning rod, the cleaning rod is in sliding connection with the two straightening seats, a group of first oblique brush strips are fixedly arranged on the arc outer wall of the cleaning rod, a group of second oblique brush strips are fixedly arranged on the arc outer wall of the cleaning rod, a center brush strip is arranged between the first oblique brush strips and the group of second oblique brush strips, and the center brush strips are fixedly connected with the cleaning rod. Further, the alignment subassembly includes the lower alignment roller of being connected with the check out test set body rotation, the laser sensor body is located between two lower alignment rollers, three go up alignment roller is the equidistance and distributes. Further, two lower leveling rollers are symmetrically arranged about the detection equipment body, three upper leveling rollers are loca