CN114751131A - Steel belt deviation rectifying mechanism on steel belt processing line - Google Patents

Abstract

The invention discloses a steel belt deviation rectifying mechanism on a steel belt processing line, which comprises a fixed frame and a guide belt frame arranged in parallel with the fixed frame, wherein a conveying roller set is arranged on the guide belt frame and used for conveying a steel belt, two sides of the surface of the fixed frame are divided into a first side and a second side, a rod shaft is convexly arranged below the first side, the guide belt frame is rotatably sleeved on the rod shaft, a fixed plate convexly extends above the second side of the fixed frame, the fixed plate and the rod shaft are arranged in a diagonal position, a cylinder body is hinged on the fixed plate, the extending end of a telescopic rod of the cylinder body is hinged on the guide belt frame, and the guide belt frame is driven to swing around the rod shaft through the extension and contraction of the telescopic rod of the cylinder body, so that the deviation rectifying adjustment of the steel belt on the conveying roller set is realized. The invention can correct the deviation of the steel belt with deviation and has good deviation correcting effect.

Description

Steel belt deviation rectifying mechanism on steel belt processing line

Technical Field

The invention relates to the field of stainless steel strip conveying deviation correction, in particular to a steel strip deviation correcting mechanism on a steel strip processing line.

Background

The steel strip is a long and narrow stainless steel plate which is commonly used for processing various metals or mechanical products in industrial production, is in a steel coil shape before use, and is processed after a steel coil is unreeled into a long strip steel strip by using an unreeling machine. In the process from unreeling to processing of the steel strip, the steel strip needs to be conveyed to a processing station by using a conveying roller, and sometimes the conveying direction of the steel strip needs to be changed by the conveying roller in the conveying process. However, in the process of changing the conveying direction of the steel strip, the length of the whole production line is long, the steel strip can deviate on the conveying roller, and particularly the steel strip can deviate more easily when the steel strip returns to the upward direction and is conveyed, so that the steel strip can be damaged after the steel strip deviates, the subsequent processing of the steel strip can be influenced, and the production quality and the efficiency of the whole steel strip production line are influenced.

Disclosure of Invention

In order to solve the problems, the invention provides a steel belt deviation rectifying mechanism on a steel belt processing line, which can rectify the deviation of a steel belt with deviation and has good deviation rectifying effect.

The technical scheme of the invention is as follows: a steel belt deviation rectifying mechanism on a steel belt processing line comprises a fixing frame and a steel belt guide frame arranged in parallel with the fixing frame, wherein a conveying roller set is installed on the steel belt guide frame and used for conveying a steel belt, two sides of the surface of the fixing frame are divided into a first side and a second side, a rod shaft is arranged below the first side in a protruding mode, the steel belt guide frame is rotatably sleeved on the rod shaft, a fixing plate is arranged above the second side of the fixing frame in a protruding mode and arranged in a diagonal position with the rod shaft, a cylinder body is hinged to the fixing plate, the extending end of a telescopic rod of the cylinder body is hinged to the steel belt guide frame, the telescopic rod of the cylinder body stretches to drive the steel belt guide frame to swing around the rod shaft, and deviation rectifying adjustment of the steel belt on the conveying roller set is achieved.

Further, the steel belt deviation rectifying mechanism comprises a first auxiliary guide structure arranged above a first side on the surface of the fixing frame, the first auxiliary guide structure comprises a first roller seat, a first mounting seat, a first rotating shaft and a first roller, the first roller seat is arranged on the surface of the fixing frame, the first mounting seat is arranged on the surface of the guide belt frame opposite to the fixing frame, one end of the first rotating shaft is fixedly connected to the first mounting seat, the other end of the first rotating shaft is sleeved with the first roller and extends into the first roller seat, and therefore when the guide belt frame swings around the rod shaft, the first roller rolls in the first roller seat.

Furthermore, the first roller seat is arranged at an upward inclination angle relative to the horizontal direction, the first roller is a bearing, and the first roller seat is arranged in the first roller seat at an upward inclination angle relative to the horizontal direction.

Furthermore, a rolling groove which is inclined upwards in a certain horizontal direction is formed in the first roller seat, and the first roller is installed in the rolling groove and rolls along the extending direction of the rolling groove.

Furthermore, the steel belt deviation rectifying mechanism comprises a second auxiliary guide structure, the second auxiliary guide structure is located below the first side of the surface of the fixed plate, the second auxiliary guide structure comprises a second roller seat, a second mounting seat, a second rotating shaft and a second roller, the second roller seat is mounted on the surface of the fixed frame, the second mounting seat is mounted on the surface of the guide belt frame, which is opposite to the fixed frame, one end of the second rotating shaft is fixedly connected to the second mounting seat, and the other end of the second rotating shaft is sleeved with the second roller and extends into the second roller seat, so that the second roller rolls in the second roller seat when the guide belt frame swings around the rod shaft.

Furthermore, the second roller seat is vertically arranged on the surface of the fixed frame, a wheel groove which is inclined at a certain angle along the longitudinal direction is formed in the second roller seat, and the second roller can be arranged in the wheel groove of the second roller seat in a rolling manner.

Furthermore, the conveying roller group comprises an upper steering roller and a lower steering roller which is arranged below the upper steering roller in parallel, an upper bearing seat and a lower bearing seat are arranged on the guide belt frame, the upper steering roller is arranged between the two upper bearing seats on the guide belt frame, and the lower steering roller is arranged between the two lower bearing seats on the guide belt frame.

Furthermore, be fixed with first articulated seat on the fixed plate, be fixed with the articulated seat of second on the conduction band frame, cylinder body one end articulates on first articulated seat, and the end one end that stretches out of the telescopic link of cylinder body articulates on the articulated seat of second.

Compared with the prior art: the invention provides a steel strip deviation rectifying mechanism on a steel strip processing line, when a steel strip deviates on an upper steering roller and a lower steering roller, a telescopic rod of a cylinder body pushes a strip guide frame, so as to push the upper steering roller and the lower steering roller to swing to rectify the steel strip, meanwhile, a first roller wheel rolls obliquely along a rolling groove of a first roller wheel seat, a second roller wheel rolls obliquely along a rolling groove of a second roller wheel seat, so as to guide the upper steering roller and the lower steering roller on the strip guide frame to swing relative to a fixed frame, and the deviation rectifying effect is good.

Drawings

Fig. 1 is a perspective view of the present invention.

FIG. 2 is a schematic plan view of the deflection correcting of the conveying roller set of the present invention.

Detailed Description

The following describes in further detail embodiments of the present invention with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

Referring to fig. 1, a steel strip deviation rectifying mechanism on a steel strip processing line includes a fixed frame 10 and a guide belt frame 20 parallel to the fixed frame 10, wherein a conveying roller set 50 is installed on the guide belt frame 20 for conveying a steel strip, two sides of the surface of the fixed frame 10 are divided into a first side and a second side, a rod shaft 11 is convexly installed below the first side, the guide belt frame 20 is rotatably sleeved on the rod shaft 11, and the guide belt frame 20 can swing left and right around the rod shaft 11.

A fixing plate 12 protrudes above the second side of the fixing frame 10, the fixing plate 12 and the rod shaft 11 are arranged in a diagonal line, a cylinder body 13 is hinged to the fixing plate 12, and the extending end of a telescopic rod of the cylinder body 13 is hinged to the guide belt frame 20. The telescopic rod of the cylinder body 13 stretches and retracts to drive the guide belt frame 20 to swing around the rod shaft 11, so that the deviation rectification adjustment of the steel belt on the conveying roller set 50 is realized, and the steel belt is conveyed along the correct conveying direction.

Referring to fig. 1 and 2, the steel strip deviation rectifying mechanism includes a first auxiliary guiding structure 30 installed above a first side of the surface of the fixed frame 10, the first auxiliary guiding structure 30 includes a first roller seat 31, a first mounting seat 23, a first rotating shaft 32 and a first roller 33, the first roller seat 31 is installed on the surface of the fixed frame 10, the first mounting seat 23 is installed on the surface of the steel strip frame 20 opposite to the fixed frame 10, one end of the first rotating shaft 32 is fixedly connected to the first mounting seat 23, and the other end is sleeved with the first roller 33 and extends into the first roller seat 31. When the strip guide frame 20 is driven by the cylinder 13 to swing around the rod shaft 11, the first roller 33 rolls in the first roller seat 31, so that the strip guide frame 20 is stably swung, and the conveying roller group 50 on the strip guide frame 20 accurately corrects the deviation of the steel strip.

The first roller seat 31 is disposed at an upward inclination angle with respect to the horizontal direction, in this embodiment, the first roller 33 is a bearing, and is disposed in the first roller seat 31 at an upward inclination angle with respect to the horizontal direction of the first roller seat 31, so that when the tape guide 20 swings around the rod shaft 11, the first roller 33 rolls along the first roller seat 31. In addition, a rolling groove inclined upward in a horizontal direction is formed in the first roller seat 31, and the first roller 33 is installed in the rolling groove to roll in a rolling groove extending direction.

The steel belt deviation rectifying mechanism comprises a second auxiliary guide structure 40, the second auxiliary guide structure 40 is located below a first side on the surface of the fixing plate 12, the second auxiliary guide structure 40 comprises a second roller seat 41, a second mounting seat 24, a second rotating shaft 42 and a second roller 43, the second roller seat 41 is mounted on the surface of the fixing frame 10, the second mounting seat 24 is mounted on the surface of the guide belt frame 20 relative to the fixing frame 10, one end of the second rotating shaft 42 is fixedly connected to the second mounting seat 24, and the other end of the second rotating shaft is sleeved with the second roller 43 and extends into the second roller seat 41. When the tape guide 20 swings around the rod shaft 11, the second roller 43 rolls in the second roller seat 41, so that the tape guide 20 swings more stably.

The second roller seat 41 is vertically installed on the surface of the fixed frame 10, the second roller seat 41 is provided with a wheel groove inclined at a certain angle along the longitudinal direction, and the second roller 43 is rollably installed in the wheel groove of the second roller seat 41. When the cylinder 13 pushes the strip guide frame 20 to swing around the rod shaft 11, the second roller 43 rolls along the roller groove, meanwhile, the first roller 33 rolls along the roller groove, and the conveying roller group 50 installed on the strip guide frame 20 swings at a certain angle to correct the deviation of the steel strip.

Further, the conveying roller set 50 includes an upper steering roller 51 and a lower steering roller 52 installed in parallel below the upper steering roller 51, the belt guide frame 20 is provided with an upper bearing seat 21 and a lower bearing seat 22, the upper steering roller 51 is installed between the two upper bearing seats 21 on the belt guide frame 20, and the lower steering roller 52 is installed between the two lower bearing seats 22 on the belt guide frame 20. The steel strip is simultaneously wound around the upper and lower turning rolls 51 and 52 to effect turning.

Furthermore, a first hinged seat 14 is fixed on the fixing plate 12, a second hinged seat 25 is fixed on the belt guiding frame 20, one end of the cylinder body 13 is hinged on the first hinged seat 14, and one end of the extending end of the telescopic rod of the cylinder body 13 is hinged on the second hinged seat 25. In this embodiment, the first hinge seat 14 and the second hinge seat 25 are both provided with hinge grooves, and the cylinder body and the telescopic rod of the cylinder body 13 are respectively hinged in the corresponding hinge grooves.

Furthermore, a plurality of through holes are formed in the fixing frame 10, notches are formed in the position, corresponding to the through holes, of the guide belt frame 20, and the upper steering roller 51 and the lower steering roller 52 are installed at the notches so that the steel belt can penetrate through the through holes and the notches to be sleeved on the upper steering roller 51 or the lower steering roller 52. In this embodiment, the steel strip passes through the opening at the lower end of the fixing frame 10 and the opening at the lower end of the guide belt frame 20 and is wound around the lower turning roll 52, and the steel strip is further wound around the upper turning roll 51 upwards, and then the steel strip passes through the opening at the upper end of the guide belt frame 20 and the opening at the upper end of the fixing frame 10 and is conveyed forwards, and the conveying direction of the steel strip is changed.

The use mode of the invention is as follows: referring to fig. 1 and 2, when the steel strip deflects on the upper steering roller 51 and the lower steering roller 52, the telescopic rod of the cylinder 13 pushes the strip guiding frame 20 to swing around the rod shaft 11, and the strip guiding frame 20 drives the upper steering roller 51 and the lower steering roller 52 to swing to correct the deviation of the steel strip. When the steel strip deviates to the left of the upper steering roller 51 and the lower steering roller 52, the telescopic rod of the cylinder 13 pulls the steel strip carrier 20 to swing around the rod shaft 11 to the right, in the process, the first roller 33 rolls obliquely and upwards along the rolling groove of the first roller seat 31, and the second roller 43 rolls obliquely and upwards along the roller groove of the second roller seat 41, so as to guide the upper steering roller 51 and the lower steering roller 52 on the steel strip carrier 20 to swing relative to the fixed frame 10, and thus, the steel strip which deviates to the left can be corrected to the right; when the steel strip deflects to the right of the upper steering roller 51 and the lower steering roller 52, the telescopic rod of the cylinder 13 pushes the steel strip carrier 20 to swing leftwards around the rod shaft 11, the first roller 33 rolls obliquely downwards along the rolling groove of the first roller seat 31, and the second roller 43 rolls obliquely downwards along the rolling groove of the second roller seat 41, so as to guide the upper steering roller 51 and the lower steering roller 52 on the steel strip carrier 20 to swing relatively to the fixed frame 10, and thus, the steel strip deflected rightwards can be deflected to the left.

In conclusion, the telescopic rod of the cylinder body 13 drives the upper steering roller 51 and the lower steering roller 52 on the belt guide frame 20 to deflect, so that the deflected steel belt is corrected in the opposite direction, the steel belt is accurately conveyed forwards, and the correction effect is good. The first roller 33 is engaged in the first roller seat 31 to roll, and the second roller 43 is engaged in the second roller seat 41 to roll, so as to ensure that the belt guide 20 is accurately and stably deviated relative to the fixed frame 10, thereby guiding the upper steering roller 51 and the lower steering roller 52 to accurately correct the steel strip.

Any combination of the various embodiments of the present invention should be considered as disclosed in the present invention, unless the inventive concept is contrary to the present invention; within the scope of the technical idea of the invention, any combination of various simple modifications and different embodiments of the technical solution without departing from the inventive idea of the present invention shall fall within the protection scope of the present invention.

Claims (8)

1. The utility model provides a mechanism of rectifying of steel band on steel band processing line, includes mount (10) and guide belt frame (20) with mount (10) parallel arrangement, installs conveying roller set (50) on guide belt frame (20) for the conveying steel band, its characterized in that: the steel belt deviation correcting device is characterized in that two sides of the surface of the fixing frame (10) are divided into a first side and a second side, a rod shaft (11) is arranged below the first side in a protruding mode, the guide belt frame (20) is rotatably sleeved on the rod shaft (11), a fixing plate (12) is arranged above the second side of the fixing frame (10) in a protruding mode, the fixing plate (12) and the rod shaft (11) are arranged in a diagonal line mode, a cylinder body (13) is hinged to the fixing plate (12), the extending end of a telescopic rod of the cylinder body (13) is hinged to the guide belt frame (20), the telescopic rod of the cylinder body (13) stretches and retracts to drive the guide belt frame (20) to swing around the rod shaft (11), and deviation correcting adjustment of steel belts on the conveying roller set (50) is achieved.

2. The steel strip deviation rectifying mechanism according to claim 1, wherein: the steel belt deviation rectifying mechanism comprises a first auxiliary guide structure (30) arranged above a first side on the surface of a fixed frame (10), the first auxiliary guide structure (30) comprises a first roller seat (31), a first installation seat (23), a first rotating shaft (32) and a first roller (33), the first roller seat (31) is arranged on the surface of the fixed frame (10), the first installation seat (23) is arranged on the surface of a guide belt frame (20) relative to the fixed frame (10), one end of the first rotating shaft (32) is fixedly connected onto the first installation seat (23), the other end of the first rotating shaft is sleeved with the first roller (33) and extends into the first roller seat (31), and when the guide belt frame (20) swings around a rod shaft (11), the first roller (33) rolls in the first roller seat (31).

3. The steel strip deviation rectifying mechanism according to claim 2, wherein: the first roller seat (31) is arranged at an upward inclination angle relative to the horizontal direction, the first roller (33) is a bearing, and the first roller seat (31) is arranged in the first roller seat (31) at an upward inclination angle relative to the horizontal direction.

4. The steel strip deviation rectifying mechanism according to claim 2, wherein: a rolling groove which is inclined upwards in the horizontal direction is formed in the first roller seat (31), and the first roller (33) is installed in the rolling groove and rolls along the extending direction of the rolling groove.

5. The steel strip deviation rectifying mechanism according to claim 1, wherein: the steel belt deviation rectifying mechanism comprises a second auxiliary guide structure (40), the second auxiliary guide structure (40) is located below the first side on the surface of the fixing plate (12), the second auxiliary guide structure (40) comprises a second roller seat (41), a second mounting seat (24), a second rotating shaft (42) and a second roller (43), the second roller seat (41) is mounted on the surface of the fixing frame (10), the second mounting seat (24) is mounted on the surface, opposite to the fixing frame (10), of the guide belt frame (20), one end of the second rotating shaft (42) is fixedly connected onto the second mounting seat (24), the other end of the second rotating shaft is sleeved with the second roller (43) and extends into the second roller seat (41), and therefore when the guide belt frame (20) swings around the rod shaft (11), the second roller (43) rolls in the second roller seat (41).

6. The steel strip deviation rectifying mechanism according to claim 5, wherein: the second roller seat (41) is vertically arranged on the surface of the fixed frame (10), a wheel groove which inclines for a certain angle along the longitudinal direction is formed in the second roller seat (41), and the second roller (43) can be arranged in the wheel groove of the second roller seat (41) in a rolling manner.

7. The steel strip deviation rectifying mechanism according to claim 1, wherein: the conveying roller set (50) comprises an upper steering roller (51) and a lower steering roller (52) which is installed below the upper steering roller (51) in parallel, an upper bearing seat (21) and a lower bearing seat (22) are arranged on the belt guide frame (20), the upper steering roller (51) is installed between the two upper bearing seats (21) on the belt guide frame (20), and the lower steering roller (52) is installed between the two lower bearing seats (22) on the belt guide frame (20).

8. The steel strip deviation rectifying mechanism according to claim 1, wherein: the fixed plate (12) is fixed with a first hinged seat (14), the guide belt frame (20) is fixed with a second hinged seat (25), one end of the cylinder body (13) is hinged on the first hinged seat (14), and one end of the extending end of the telescopic rod of the cylinder body (13) is hinged on the second hinged seat (25).

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