CN210774181U - Online strip steel detection equipment - Google Patents

Abstract

The utility model discloses a strip steel on-line detection device, which comprises a mounting rack; the method is characterized in that: the device also comprises two triaxial moving mechanisms, a burr measuring device, a wave-shaped measuring device, a thickness gauge and a measuring platform; a cross beam is arranged at the top of the mounting frame; the two three-axis moving mechanisms are arranged at two ends of the cross beam in a sliding manner; the burr measuring device is arranged below the two three-axis moving mechanisms, and the wave-shaped measuring device is arranged adjacent to the burr measuring device; the thickness gauge is arranged at the front part of the mounting rack in a sliding manner; the measuring platform is hinged to one side of the mounting frame. The utility model discloses an online accurate measurement of belted steel provides the data foundation for product production facility state adjustment, production parameter setting, for improving belted steel quality provides the means to the finished product quality management and control link of belted steel production has been improved.

Description

Online strip steel detection equipment

Technical Field

The utility model relates to a check out test set especially relates to a belted steel on-line measuring equipment.

Background

The physical quality control factors of the silicon steel product mainly comprise edge burrs, wave shapes, width, thickness, surface quality defects and the like.

The burrs at the edge of the strip steel are roughly divided into several types: continuity of burr out of tolerance; intermittent burrs are out of tolerance and have bright spots (white spots); micro flanging or fly-silk. The reasons for the production of the burrs at the edges of the strip steel are mainly two, one is the burrs generated in the rolling process, and the burrs are often accompanied with edge wave flaws at the edges of the strip steel; the other is that in the edge shearing process, the burrs of the edge formed by shearing are mainly concentrated in the area within 10mm of the edge of the steel strip. Under the normal shearing condition of the edge shearing of the strip steel, a certain gap exists between the upper rolling scissors and the lower rolling scissors, different burrs can be caused by setting different gap values, and the smaller the gap is, the smaller the burr is; during shearing, the contact ratio of the cutter is not more than half of the thickness of the strip steel, and the contact ratio is better and the burrs are smaller under the normal shearing condition. Due to the influence of the repeated precision of the equipment, the problem of edge burr out-of-tolerance often occurs when a cutter is assembled and disassembled and the equipment is adjusted.

The essence of the strip steel edge wave is that the instantaneous force applied to certain areas of the edge of the strip steel exceeds the yield strength of the strip steel material to cause local plastic deformation, the deformation cannot be recovered after the external force disappears, and the appearance of the strip steel edge wave is shown as edge wave.

The dimensional accuracy of the silicon steel products such as width, thickness and the like is also the main quality control target of the silicon steel products. In addition to the size control target, users also pay more and more attention to surface quality defects of silicon steel products, and the common surface quality defects mainly include impressions (indentations and convex hulls), roll marks, holes, uneven coatings, bubbles/inclusions and the like.

The quality control technology and method in the existing finishing production process are as follows: the head and the tail of each coil of steel coil are subjected to sampling detection in a sample plate shearing mode (the middle part also has the requirement of sampling inspection according to the requirement of the production condition), and the sampling length is about 1m each time. After shearing the sample, send special check point to, realize the measurement of burr, wave type, width and "limit in the limit" three point thickness through artifical measuring mode to need carry out surface defect inspection through artifical visual inspection mode. And after the inspection, all the inspection results are filed, if defects or unqualified items are found in the inspection process, the inspection results are manually fed back to a production link for equipment adjustment, and then sampling inspection is required again.

The development trends of silicon steel products are that the product specifications are thinner and thinner, and the requirements of some high-end customers on physical properties of the silicon steel products, such as edge burrs, same-plate differences and the like, are higher and higher, and all the development trends also mean that the quality control requirements of the future silicon steel products are higher and higher. Poor control of any of the above physical quality elements will likely result in quality complaints and disagreements.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem in the prior art and providing the online strip steel detection equipment.

The technical scheme of the utility model is that: the strip steel online detection equipment comprises a mounting rack; the method is characterized in that: the device also comprises two triaxial moving mechanisms, a burr measuring device, a wave-shaped measuring device, a thickness gauge and a measuring platform; a cross beam is arranged at the top of the mounting frame; the two three-axis moving mechanisms are arranged at two ends of the cross beam in a sliding manner; the burr measuring device is arranged below the two three-axis moving mechanisms, and the wave-shaped measuring device is arranged adjacent to the burr measuring device; the thickness gauge is arranged at the front part of the mounting rack in a sliding manner; the measuring platform is hinged to one side of the mounting frame.

Preferably, still include high definition camera and light, high definition camera and light are located the bottom and the mounting bracket below of crossbeam.

Preferably, two triaxial moving mechanism including locate the crossbeam outside the Z axle guide rail, with the first sliding support that the Z axle guide rail slides and meets, drive the Z axle motor that first sliding support removed, locate the X axle guide rail of first sliding support bottom, with the second sliding support that the X axle guide rail slides and meets, drive the X axle motor that second sliding support removed, locate the Y axle guide rail of second sliding support bottom, with the third sliding support and the drive that the Y axle guide rail slides and meets the Y axle motor that third sliding support removed.

Preferably, the wave-shaped measuring device and the burr measuring device are installed inside the third sliding bracket.

Preferably, a fixing plate is arranged at the front part of the mounting rack, and a horizontal guide rail is arranged at the bottom of the fixing plate; the top of the thickness gauge is connected with the horizontal guide rail in a sliding manner; and the top of the fixing plate is provided with a driving motor for driving the thickness gauge to move on the horizontal guide rail.

Preferably, the bottom of the measuring platform is provided with a hydraulic cylinder for lifting and lowering the measuring platform.

Preferably, a platform guide rail is arranged at the top of the measuring platform, a detection platform is arranged on the platform guide rail in a sliding manner, and the detection platform is driven to move by an adjusting motor arranged on one side.

The utility model discloses can realize automated inspection burr, wave shape, thickness, width, surface defect isoparametric to carry out online real-time conveying with the data that detect, realized the full automatization and the unmanned of whole testing process. The utility model discloses an online accurate measurement of belted steel provides the data foundation for product production facility state adjustment, production parameter setting, for improving belted steel quality provides the means to the finished product quality management and control link of belted steel production has been improved.

Drawings

FIG. 1 is a front view of the present invention

FIG. 2 is a front view of the thickness gauge not installed in the present invention

FIG. 3 is a perspective view of the present invention

FIG. 4 is a perspective view of another angle of the present invention

Detailed Description

In order to make the utility model realize that the technical means, technical characteristics, utility model purpose and technological effect are easily understood and known, combine specific figure below, further explain the utility model.

As shown in fig. 1 to 4, for the utility model discloses a strip steel on-line measuring equipment, including a mounting bracket 1, the utility model discloses a mounting bracket 1 includes four landing legs 11 and locates four supports 12 at these four landing legs 11 tops.

The utility model discloses still include two triaxial moving mechanism 2, burr measuring device 3, wave type measuring device 4, calibrator 5 and measuring platform 6.

The top of the mounting rack 1 is provided with a beam 13, and the two triaxial moving mechanisms 2 are slidably arranged at two ends of the beam 13.

Burr measuring device 3 is located two triaxial moving mechanism 2's below, wave type measuring device 4 with burr measuring device 3 adjacent sets up, through controlling triaxial moving mechanism 2 in order to realize the detection to belted steel.

The thickness gauge 5 is arranged at the front part of the mounting rack 1 in a sliding manner; the measuring platform 6 is hinged to one side of the mounting frame 1 and used for supporting strip steel.

Still include two sets of high definition camera 7 and light 70, high definition camera 7 and light 70 are located the bottom of crossbeam 13 and mounting bracket 1 below are shot the upper surface and the lower surface of belted steel respectively.

The two triaxial moving mechanisms 2 have the same structure and are symmetrically arranged at two ends of the cross beam 13.

The two three-axis moving mechanisms respectively comprise a Z-axis guide rail 21 arranged on the outer side of the cross beam 13, a first sliding support 210 connected with the Z-axis guide rail 21 in a sliding manner, a Z-axis motor (not shown in the figure) driving the first sliding support 210 to move, an X-axis guide rail 22 arranged at the bottom of the first sliding support 210, a second sliding support 220 connected with the X-axis guide rail 22 in a sliding manner, an X-axis motor 221 driving the second sliding support 220 to move, a Y-axis guide rail 23 arranged at the bottom of the second sliding support 220, a third sliding support 230 connected with the Y-axis guide rail 23 in a sliding manner and a Y-axis motor 231 driving the third sliding support 230 to move.

The wave-shaped measuring device 4 and the burr measuring device 3 are installed on the inner side of the third sliding support 230, and the burr measuring device 3 and the wave-shaped measuring device 4 are used for detecting burrs and wave shapes on the edge of the strip steel and transmitting the detected data on line in real time.

A fixed plate 8 is arranged at the front part of the mounting rack 1, and a horizontal guide rail 81 is arranged at the bottom of the fixed plate 8; the top of the thickness gauge 5 is connected with the horizontal guide rail 81 in a sliding manner; the top of the fixing plate 8 is provided with a driving motor 82 for driving the thickness gauge 5 to move on the horizontal guide rail 81.

In the embodiment, the thickness gauge 5 has a notch 51 in the middle for the strip steel to pass through, and the strip steel is positioned in the notch, so that the thickness gauge can measure the thickness of the detected strip steel part conveniently, and the thickness data of the strip steel to be measured can be transmitted on line in real time.

The top of the measuring platform 6 is provided with a platform guide rail 61, a detecting platform 62 is arranged on the platform guide rail 61 in a sliding manner, and the detecting platform 62 is driven to move by an adjusting motor 63 arranged on one side so as to adjust the contact area of the surface of the platform.

The side part of the mounting frame 1 can be provided with a mounting hole, and the measuring platform 6 is hinged on the side part of the mounting frame 1 through the mounting hole so as to realize rotation at a certain angle. The utility model discloses measuring platform 6's bottom is equipped with one and rises this platform and descending pneumatic cylinder 64, through controlling this pneumatic cylinder 64 in order to realize controlling measuring platform 6 pivoted purpose.

The utility model discloses detection method of belted steel on-line measuring equipment sees as follows step:

step (1): fixing the strip steel to be collected on a rotatable rotating device, taking out the head end of the strip steel, penetrating the head end of the strip steel through the strip steel online detection device, and fixing the head end on another rotating device to ensure that the strip steel can move forwards at a constant speed;

step (2): starting the on-line detection equipment, opening a hydraulic cylinder through a control device, lifting a measuring platform from an initial vertical state to a horizontal state through the hydraulic cylinder, and adjusting the contact area of the detecting platform and the strip steel according to the size of the strip steel to be detected so as to enable the lower surface of the strip steel to be in contact with the upper surface of the detecting platform;

and (3): starting a driving motor to move the thickness gauge towards the direction of the strip steel to be detected, so that the strip steel to be detected is positioned in the notch of the thickness gauge;

and (4): starting a Z-axis motor in the three-axis moving mechanism to enable a first sliding support to fall to one side of the strip steel to be detected, adjusting the height of the first sliding support to enable the center position of the strip steel to be detected to be located at the middle position of the burr measuring device, controlling an X-axis motor to enable a third sliding support to be close to the strip steel to be detected, and stopping moving when the strip steel to be detected is located in the middle of the burr measuring device;

and (5): starting the rotating equipment, enabling the strip steel to be detected positioned at the front end of the online detection equipment to move forwards, sequentially passing through the thickness gauge, the burr measuring device and the wave-shaped measuring device, and transmitting real-time online acquired data to the server;

and (6): when the upper surface and the lower surface of the strip steel to be detected are detected, the measuring platform falls down and resets to a vertical state through the hydraulic cylinder, and the upper surface and the lower surface of the measuring platform are sampled and sent to a server through a high-definition camera;

and (7): and in the process of advancing the strip steel to be detected, the thickness gauge, the burr measuring device and the wave-shaped measuring device transmit the detected thickness, burr and wave-shaped data on line in real time.

The utility model discloses can realize automated inspection burr, wave shape, thickness, width, surface defect isoparametric to carry out online real-time conveying with the data that detect, realized the full automatization and the unmanned of whole testing process. The utility model discloses an online accurate measurement of belted steel provides the data foundation for product production facility state adjustment, production parameter setting, for improving belted steel quality provides the means to the finished product quality management and control link of belted steel production has been improved.

In summary, the preferred embodiments of the present invention are only described, and the scope of the present invention is not limited thereto. All equivalent changes and modifications made according to the content of the claims of the present invention shall fall within the technical scope of the present invention.

Claims (7)

1. The strip steel online detection equipment comprises a mounting rack; the method is characterized in that: the device also comprises two triaxial moving mechanisms, a burr measuring device, a wave-shaped measuring device, a thickness gauge and a measuring platform; a cross beam is arranged at the top of the mounting frame; the two three-axis moving mechanisms are arranged at two ends of the cross beam in a sliding manner; the burr measuring device is arranged below the two three-axis moving mechanisms, and the wave-shaped measuring device is arranged adjacent to the burr measuring device; the thickness gauge is arranged at the front part of the mounting rack in a sliding manner; the measuring platform is hinged to one side of the mounting frame.

2. The strip steel on-line detection device of claim 1, characterized in that: still include high definition camera and light, high definition camera and light are located the bottom and the mounting bracket below of crossbeam.

3. The strip steel on-line detection device of claim 1, characterized in that: two triaxial moving mechanism including locate the Z axle guide rail in the crossbeam outside, with first sliding support, the drive that the Z axle guide rail slides and meets Z axle motor that first sliding support removed, locate the X axle guide rail of first sliding support bottom, with second sliding support, the drive that the X axle guide rail slides and meets X axle motor that second sliding support removed, locate the Y axle guide rail of second sliding support bottom, with third sliding support and the drive that the Y axle guide rail slides and meets the Y axle motor that third sliding support removed.

4. The strip steel on-line detection device of claim 3, characterized in that: the wave-shaped measuring device and the burr measuring device are arranged on the inner side of the third sliding support.

5. The strip steel on-line detection device according to any one of claims 1 to 4, characterized in that: a fixed plate is arranged at the front part of the mounting rack, and a horizontal guide rail is arranged at the bottom of the fixed plate; the top of the thickness gauge is connected with the horizontal guide rail in a sliding manner; and the top of the fixing plate is provided with a driving motor for driving the thickness gauge to move on the horizontal guide rail.

6. The strip steel on-line detection device according to any one of claims 1 to 4, characterized in that: and a hydraulic cylinder for lifting and descending the measuring platform is arranged at the bottom of the measuring platform.

7. The strip steel on-line detection device of claim 6, characterized in that: the top of the measuring platform is provided with a platform guide rail, a detection platform is arranged on the platform guide rail in a sliding mode, and the detection platform is driven to move by an adjusting motor arranged on one side.

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