CN113533077A - Steel strip processing method - Google Patents

Abstract

The invention relates to the field of steel belt processing, in particular to a steel belt processing method. The steel belt processing method can be used for carrying out bending resistance detection and hardness detection on a product steel belt in the transmission process of the steel belt. The main function of the steel strip processing method is realized by a hardness detection structure and a bending resistance detection structure. Wherein hardness detects the structure setting and is in removal structure top, and hardness detects structure and removal structure sliding connection, and the bending-resistant structure that detects is provided with two, and removal structure sets up in a bending-resistant structure top, and removal structure and bending-resistant structure fixed connection that detects, two bending-resistant structure that detect all fix the setting on transport structure. The hardness detection structure can perform sampling detection work on the steel strip and can feed back the hardness quality condition of the product steel strip in real time; the bending-resistant detection structure can detect the bending strength of the product steel strip, and can bear the hardness detection structure and assist the hardness detection structure in detecting the bending strength.

Description

Steel strip processing method

Technical Field

The invention relates to the field of steel belt processing, in particular to a steel belt processing method.

Background

Steel strip refers to a narrow and long steel strip made of carbon steel and produced at the same time in order to meet the needs of different industrial sectors for the industrial production of various types of metal or mechanical products. Normally, a steel strip is transported and conveyed for a certain distance from the end of production to the coiling, the steel strip processing method provided by the invention mainly works in the link, and the bending resistance detection and hardness detection of the product steel strip can be realized. Through the search and discovery of the prior art documents, such as the publication No. CN107781586A, the invention relates to a steel belt detection support, which comprises a base, a connecting arm and a supporting arm, wherein the connecting arm comprises a bottom end part and an extending part, the bottom end part and the extending part are connected and form an acute angle, an included angle between the extending part and the supporting arm is an obtuse angle and is complementary with the acute angle, the end part of the supporting arm is connected with one end of the extending part and is positioned above the base, a steel belt detection device is arranged on the supporting arm, the supporting arm is connected with the extending part through a bolt, the bottom end part is connected with the base through a bolt, the cross section of the base is U-shaped, the length of the base is one to two times of the length of the supporting arm, and the base, the connecting arm and the supporting arm are made of stainless steel belts. The invention has simple assembly, no need of welding and lower cost; meanwhile, acute angles and obtuse angles are adopted by the base, the connecting arm and the bending part between the connecting arm and the supporting arm, so that stress of the bending part is reduced, the support is more stable, the service life is longer, and material loss is reduced. But the invention can not simultaneously carry out bending resistance detection and hardness detection on the product steel strip in the transmission process of the steel strip.

Disclosure of Invention

The invention aims to provide a steel strip processing method which can be used for carrying out bending resistance detection and hardness detection on a product steel strip in the transmission process of the steel strip.

The purpose of the invention is realized by the following technical scheme:

the invention provides a steel strip processing method, which comprises the following steps:

firstly, a conveying structure conveys a steel belt to a processing position and stops transmission work;

step two, the bending resistance detection structure carries out fixed clamping work on the steel belt, and then the driving roller releases the fixed clamping work on the steel belt;

thirdly, the hardness detection structure operates to a processing position to detect the hardness of the steel strip;

and step four, carrying out bending resistance detection work on the steel strip by using the bending resistance detection structure.

The main function of the steel strip processing method is realized by a hardness detection structure and a bending resistance detection structure. Wherein hardness detects the structure setting and is in removal structure top, and hardness detects structure and removal structure sliding connection, and the bending-resistant structure that detects is provided with two, and removal structure sets up in a bending-resistant structure top, and removal structure and bending-resistant structure fixed connection that detects, two bending-resistant structure that detect all fix the setting on transport structure.

The hardness detection structure of the steel belt processing method mainly comprises a detection device, a display screen, a sliding base, a connecting support and a detection contact. Wherein detection device is fixed to be set up in the sliding bottom top, and the fixed setting of display screen is in detection device front side. The connecting support is arranged on the lower side of the detection device, the connecting support is connected with the detection device in a sliding mode, and the detection contact is fixedly arranged below the detection device.

The bending resistance detection structure of the steel belt processing method mainly comprises a fixed clamping plate, a clamping plate connecting rod, a vertical slide rail, a slide rail support and a fixed slide rail. Wherein two remove the connecting rod and all fix the setting on a solid fixed splint, gu fixed splint is provided with two, and the splint connecting rod is provided with two, and two splint connecting rods are all fixed and are set up on gu fixed splint, and two splint connecting rods set up respectively in two vertical slide rails, two splint connecting rods respectively with two vertical slide rail sliding connection. The two slide rail supporting columns and the two fixed slide rails are arranged respectively, the two slide rail supporting columns are arranged on the two vertical slide rails respectively and are in sliding connection with the two vertical slide rails respectively, the two slide rail supporting columns are arranged in the two fixed slide rails respectively, and the two slide rail supporting columns are in sliding connection with the two fixed slide rails respectively.

The auxiliary function realization part of the steel belt processing method is a moving structure and a transmission structure. Wherein hardness detects the structure setting and is in removal structure top, and hardness detects structure and removal structure sliding connection, and removal structure sets up in an anti-bending detection structure top, and removal structure and anti-bending detection structure fixed connection, two anti-bending detection structures all fix the setting on transport structure.

The moving structure of the steel belt processing method mainly comprises a moving slide rail, a slide rail baffle, a slide rail connecting rod, a moving support and a moving connecting rod. The two movable sliding rails are fixedly arranged on the sliding rail baffle, the sliding base is arranged above the movable sliding rails and is connected with the movable sliding rails in a sliding mode, and the sliding rail connecting rod is fixedly arranged on the sliding rail baffle. The movable support is arranged on the slide rail connecting rods and is connected with the slide rail connecting rods in a sliding mode, the number of the movable connecting rods is two, the two movable connecting rods are arranged below the two movable slide rails, and the two movable connecting rods are connected with the two movable slide rails in a sliding mode.

The conveying structure of the steel belt processing method mainly comprises a fixed support plate, a fixed base, a transmission slide rail and a transmission roller. The fixed supporting plates are provided with two, the four fixed sliding rails are arranged on the two fixed supporting plates, and the two fixed supporting plates are fixedly arranged on the fixed base. The four transmission slide rails are all fixedly arranged on the two fixed support plates, the four transmission rollers are arranged in the four transmission slide rails, and the four transmission rollers are respectively connected with the four transmission slide rails in a sliding mode.

The steel strip processing method has the beneficial effects that:

the steel belt processing method can be used for carrying out bending resistance detection and hardness detection on a product steel belt in the transmission process of the steel belt. Compared with the common steel strip detection device which is usually arranged independently of the transportation structure of the steel strip, the device can perform temporary sampling detection on products during the transmission and conveying of the steel strip, can judge whether the actual quality condition of the batch of product steel strips meets the design requirement through real-time detection feedback, and can save the budget of the independent arrangement device and save the subsequent independent detection link. In conclusion, the device has the advantages of simple working principle, practical and reliable integral structure and strong flexibility, can detect hardness and bending resistance, and can be put into practical production and use.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 schematically shows in perspective view a detection structure according to the invention;

FIG. 2 schematically illustrates in perspective view the operation of the system of the present invention;

FIG. 3 schematically shows in perspective a detection schematic of the system of the present invention;

FIG. 4 schematically shows in perspective a hardness testing structure of the present invention;

fig. 5 shows schematically in a perspective view a moving structure according to the invention;

FIG. 6 is a schematic perspective view of a hardness testing device according to the present invention;

FIG. 7 schematically illustrates in perspective view a bending resistance test structure of the present invention;

FIG. 8 schematically illustrates in perspective view a rear view of the bending resistance test of the present invention;

FIG. 9 schematically illustrates in perspective view a bending test dechucking scheme of the present invention;

fig. 10 schematically shows a conveying structure of the invention in a perspective view.

In the figure: a hardness detection structure 11; a moving structure 12; a bending-resistance detecting structure 13; a transfer structure 14; a detection device 21; a display screen 22; a slide base 23; a connecting strut 24; the detection contact 25; a movable slide rail 31; a slide rail shutter 32; a slide link 33; a moving strut 34; a movable link 35; a fixing splint 41; a clamp link 42; a vertical slide rail 43; a slide rail support 44; a fixed slide rail 45; a fixed support plate 51; a fixed base 52; a transmission slide rail 53; a driving roller 54.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A method of processing a steel strip according to the invention, embodiments of which are shown in connection with fig. 1 to 10, wherein it can be seen that:

the following detailed description is made with reference to fig. 1, 2, 3, 4, 6, 7, 8, and 9. The steel belt processing method can be used for carrying out bending resistance detection and hardness detection on a product steel belt in the transmission process of the steel belt. The main function of the steel strip processing method is realized by a hardness detection structure 11 and a bending resistance detection structure 13. Wherein hardness detects structure 11 and sets up above moving structure 12, and hardness detects structure 11 and moving structure 12 sliding connection, and anti-bending detection structure 13 is provided with two, and moving structure 12 sets up above an anti-bending detection structure 13, and moving structure 12 and anti-bending detection structure 13 fixed connection, two anti-bending detection structures 13 all fix the setting on transport structure 14. The hardness detection structure 11 can perform sampling detection work on the steel strip in the transmission link, can feed back the hardness quality condition of the product steel strip in real time, and performs the sampling detection work and the bending resistance detection work of the steel strip in sequence; the bending-resistance detection structure 13 can perform detection work of bending resistance of the product steel strip, and can carry the hardness detection structure 11 and assist it in the detection work.

The hardness detection structure 11 of the steel strip processing method mainly comprises a detection device 21, a display screen 22, a sliding base 23, a connecting support 24 and a detection contact 25. Wherein the detecting device 21 is fixedly arranged above the sliding base 23, and the display screen 22 is fixedly arranged at the front side of the detecting device 21. The connection support 24 is provided below the detection device 21, the connection support 24 is slidably connected to the detection device 21, and the detection contact 25 is fixedly provided below the detection device 21. The detecting device 21 is a main structure of the hardness detecting structure 11, and the rest of the working elements mainly perform the operation work around the detecting device 21. The display screen 22 arranged on the detection device 21 can analyze and feed back the hardness quality of the steel strip detected by the hardness detection structure 11 in real time, and display the specific hardness parameter condition on the screen, so that an operator can clearly master the hardness quality condition of the batch of steel strip products. The sliding base 23 is mainly responsible for bearing and supporting the normal work of the hardness detection structure 11, and the hardness detection structure 11 can move vertically to the steel strip conveying direction through the sliding connection relation with the movable sliding rail 31, so that the hardness detection work can be performed on any position of the product steel strip. The connection pillar 24 can move vertically relative to the detection device 21 through the telescopic structure, and when the detection device 21 is fixed, the connection pillar 24 will drive the detection contact 25 to descend to the upper surface of the steel strip for hardness detection. When the detection is performed, the connection strut 24 transmits the detection data to the detection device 21 for real-time feedback.

The bending resistance detection structure 13 of the steel strip processing method mainly detects the bending resistance strength of a product steel strip, bears the hardness detection structure 11 and assists the product steel strip in detecting. The bending resistance detection structure 13 mainly includes a fixed clamp plate 41, a clamp plate link 42, a vertical slide rail 43, a slide rail pillar 44, and a fixed slide rail 45. Wherein two remove connecting rod 35 and all fix the setting on a solid fixed splint 41, gu fixed splint 41 is provided with two, splint connecting rod 42 is provided with two, and two splint connecting rods 42 are all fixed and are set up on gu fixed splint 41, and two splint connecting rods 42 set up respectively in two vertical slide rails 43, and two splint connecting rods 42 respectively with two vertical slide rails 43 sliding connection. The slide rail support columns 44 and the fixed slide rails 45 are respectively provided with two slide rail support columns 44, the two slide rail support columns 44 are respectively arranged on the two vertical slide rails 43, the two slide rail support columns 44 are respectively connected with the two vertical slide rails 43 in a sliding mode, the two slide rail support columns 44 are respectively arranged in the two fixed slide rails 45, and the two slide rail support columns 44 are respectively connected with the two fixed slide rails 45 in a sliding mode. The fixing clamp plate 41 mainly can clamp and fix the product steel belt, and when the fixing clamp plate 45 fixedly clamps the product steel belt, the driving roller 54 correspondingly stops the rotation driving work and moves to a direction relatively far away from the product steel belt and releases the steel belt. The fixing clamp plate 41 simultaneously supports the whole hardness detection structure 11 to perform corresponding detection work, and generally preferentially performs hardness detection work on the product steel strip. The fixed clamping plates 41 are totally four in the steel strip processing method, and are correspondingly arranged up and down to clamp, wherein the fixed clamping plates 41 arranged on the upper side and the vertical slide rails 43 are fixedly connected, and the fixed clamping plates 41 arranged on the lower side and the vertical slide rails 43 form a sliding connection relationship through the clamping plate connecting rods 42, so that the fixed clamping plates 41 arranged on the lower side can move in the vertical direction and are attached to the fixed clamping plates 41 arranged on the upper side to clamp the product steel strips. The slide rail support 44 can move perpendicular to the conveying direction of the product steel strip, so as to drive the fixing clamp plate 41 to clamp the product steel strip to the center of the device for bending operation. Meanwhile, the sliding connection relation between the sliding rail support 44 and the fixed sliding rail 45 can drive the bending-resistant detection structure 13 to move in the vertical direction integrally, so that the bending-resistant detection can be used for detection experiments under various bending conditions, and the fixed clamping position of the structure can be well adjusted, so that the flexibility of the device is higher.

The following detailed description is made with reference to fig. 1, 2, 3, 5, 6, and 10. The auxiliary function implementing part of the steel strip processing method is a moving structure 12 and a conveying structure 14. Wherein the hardness detection structure 11 is disposed above the moving structure 12, the hardness detection structure 11 is slidably connected to the moving structure 12, the moving structure 12 is disposed above one bending-resistant detection structure 13, the moving structure 12 is fixedly connected to the bending-resistant detection structure 13, and both bending-resistant detection structures 13 are fixedly disposed on the conveying structure 14. The mobile structure 12 mainly assists the hardness detection structure 11 to perform corresponding detection operation, and meanwhile, the linkage stability between the hardness detection structure 11 and the bending resistance detection structure 13 can be enhanced to a certain extent, so that the whole structure of the device is more stable and reliable; the conveying structure 14 is mainly responsible for the load-bearing and supporting work of the rest of the working elements of the device, and can carry out conveying operation on the product steel strip.

The moving structure 12 of the steel strip processing method mainly comprises a moving slide rail 31, a slide rail baffle 32, a slide rail connecting rod 33, a moving support 34 and a moving connecting rod 35. Wherein the number of the movable slide rails 31 is two, the two movable slide rails 31 are both fixedly arranged on the slide rail baffle 32, the sliding base 23 is arranged above the movable slide rails 31, the sliding base 23 is slidably connected with the movable slide rails 31, and the slide rail connecting rods 33 are fixedly arranged on the slide rail baffle 32. The movable support 34 is disposed on the slide rail connecting rod 33, the movable support 34 is slidably connected to the slide rail connecting rod 33, two movable connecting rods 35 are disposed below the two movable slide rails 31, and the two movable connecting rods 35 are both slidably connected to the two movable slide rails 31. Compared with the main function implementation structure of the present device, the present moving structure 12 can play an auxiliary role to the main working structure, for example, the moving slide rail 31 can implement the position change of the hardness detection structure 11 disposed thereon. The moving link 35 allows the whole of the hardness detecting structure 11 to move in the vertical direction, so that it can freely approach and separate from the product steel strip. The arrangement of the slide rail connecting rod 33 and the movable support 34 mainly enables the whole movable structure 12 to perform synchronous motion relative to the bending-resistant detection structure 13, so that the connection relationship between different structures is more stable and reliable, and the transmission is more stable.

The conveying structure 14 of the steel strip processing method is responsible for carrying and supporting the rest of the working elements of the device, and can convey the product steel strip. The conveying structure 14 mainly includes a fixed support plate 51, a fixed base 52, a transmission slide 53 and a transmission roller 54. The number of the fixed support plates 51 is two, the four fixed slide rails 45 are arranged on the two fixed support plates 51, and the two fixed support plates 51 are fixedly arranged on the fixed base 52. The number of the transmission slide rails 53 is four, the four transmission slide rails 53 are all fixedly arranged on the two fixed support plates 51, the number of the transmission rollers 54 is four, the four transmission rollers 54 are respectively arranged in the four transmission slide rails 53, and the four transmission rollers 54 are respectively connected with the four transmission slide rails 53 in a sliding manner. Generally, the conveying structure 14 is mainly used for conveying the steel strip by the clamping rotation of the driving rollers 54. When the inspection is in progress, drive roller 54 first transfers the product strip to the proper location within the apparatus and stops the rotary drive. When the steel strip stops conveying, the bending-resistance detection structures 13 on the two sides of the device tighten the fixed clamping plates 41 to clamp the product steel strip, and after the clamping operation is finished, the driving rollers 54 move for a certain distance respectively in the direction away from the product steel strip to be loosened and fixed, so that the influence on the hardness and bending-resistance detection operation of the steel strip in the follow-up process is avoided.

The steel belt processing method can be used for carrying out bending resistance detection and hardness detection on a product steel belt in the transmission process of the steel belt. Compared with the common steel strip detection device which is usually arranged independently of the transportation structure of the steel strip, the device can perform temporary sampling detection on products during the transmission and conveying of the steel strip, can judge whether the actual quality condition of the batch of product steel strips meets the design requirement through real-time detection feedback, and can save the budget of the independent arrangement device and save the subsequent independent detection link. In conclusion, the device has the advantages of simple working principle, practical and reliable integral structure and strong flexibility, can detect hardness and bending resistance, and can be put into practical production and use.

Claims (10)

1. A steel strip processing method is characterized in that: the method comprises the following steps:

step one, a conveying structure (14) conveys a steel belt to a processing position and stops transmission work;

step two, the bending resistance detection structure (13) carries out fixed clamping work on the steel strip, and then the driving roller (54) releases the fixed clamping work on the steel strip;

thirdly, the hardness detection structure (11) moves to a detection position to detect the hardness of the steel strip;

and step four, carrying out bending resistance detection work on the steel strip by the bending resistance detection structure (13).

2. A method of processing steel strip according to claim 1, characterized in that: the steel strip processing method uses a steel strip processing system which comprises a hardness detection structure (11), a moving structure (12), two bending-resistance detection structures (13) and a transmission structure (14), wherein the hardness detection structure (11) is arranged above the moving structure (12) in a sliding mode, the two bending-resistance detection structures (13) are arranged, the moving structure (12) is arranged above one bending-resistance detection structure (13), and the two bending-resistance detection structures (13) are both fixedly arranged on the transmission structure (14).

3. A method of processing steel strip according to claim 2, characterized in that: the hardness detection structure (11) comprises a detection device (21), a display screen (22) and a sliding base (23), wherein the detection device (21) is fixedly arranged above the sliding base (23), and the display screen (22) is fixedly arranged on the front side of the detection device (21).

4. A method of processing steel strip according to claim 3, characterized in that: the hardness detection structure (11) further comprises a connecting support column (24) and a detection contact (25), the connecting support column (24) is arranged on the lower side of the detection device (21), the connecting support column (24) is connected with the detection device (21) in a sliding mode, and the detection contact (25) is fixedly arranged below the detection device (21).

5. A method of processing steel strip according to claim 4, characterized in that: the movable structure (12) comprises two movable slide rails (31), two slide rail baffles (32) and two slide rail connecting rods (33), wherein the two movable slide rails (31) are fixedly arranged on the slide rail baffles (32), the sliding base (23) is arranged above the movable slide rails (31) in a sliding manner, and the slide rail connecting rods (33) are fixedly arranged on the slide rail baffles (32).

6. A method of processing steel strip according to claim 5, characterized in that: the moving structure (12) further comprises moving pillars (34) and moving connecting rods (35), the moving pillars (34) are arranged on the sliding rail connecting rods (33) in a sliding mode, the number of the moving connecting rods (35) is two, the two moving connecting rods (35) are arranged below the two moving sliding rails (31), and the two moving connecting rods (35) are connected with the two moving sliding rails (31) in a sliding mode.

7. A method of processing steel strip according to claim 6, characterized in that: bending-resistant detection structure (13) is including solid fixed splint (41), splint connecting rod (42) and vertical slide rail (43), and two removal connecting rod (35) are all fixed to be set up on solid fixed splint (41), and gu fixed splint (41) are provided with two, and splint connecting rod (42) are provided with two, and two splint connecting rod (42) are all fixed to be set up on gu fixed splint (41), and two splint connecting rod (42) set up respectively in two vertical slide rail (43).

8. A method of processing steel strip according to claim 7, characterized in that: bending-resistant detection structure (13) still including slide rail pillar (44) and fixed slide rail (45), slide rail pillar (44) and fixed slide rail (45) all are provided with two, and two slide rail pillars (44) set up respectively on two vertical slide rails (43), and two slide rail pillars (44) set up respectively in two fixed slide rails (45).

9. A method of processing steel strip according to claim 8, characterized in that: the conveying structure (14) comprises two fixed support plates (51) and a fixed base (52), wherein the four fixed support plates (51) are arranged, the four fixed slide rails (45) are arranged on the two fixed support plates (51), and the two fixed support plates (51) are fixedly arranged on the fixed base (52).

10. A method of processing steel strip according to claim 9, characterized in that: the conveying structure (14) further comprises four transmission slide rails (53) and four transmission rollers (54), the four transmission slide rails (53) are all fixedly arranged on the two fixed support plates (51), the four transmission rollers (54) are arranged four, and the four transmission rollers (54) are respectively arranged in the four transmission slide rails (53).

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