CN215543952U - Conduction band mechanism for manufacturing steel coil angle wrapping belt device - Google Patents

Abstract

The utility model discloses a guide belt mechanism for manufacturing a steel coil cornerite belt device, which comprises a frame, a guide belt component and a pressing mechanism, the guide belt component comprises a guide belt plate and two clamp plates, the guide belt plate is arranged at the inlet end of the guide groove of the frame, the clamp plates are arranged on the guide belt plate in a relatively movable manner, the pressing mechanism comprises a hanging rod, a connecting block, a connecting column, an installation block and a roller wheel, two ends of the hanging rod are fixedly arranged at the inlet end of the guide groove, one end of the connecting block is fixedly arranged on the hanging rod, the other end of the connecting block extends out of the upper part of the guide belt plate, one end of the connecting column slidably penetrates through the connecting block and is connected with the installation block downwards, the roller wheel is arranged at the bottom of the installation block, the connecting column is sleeved with a spring, one end of the spring is supported on the bottom surface of the connecting block, and the other end of the spring is pressed on the top surface of the mounting block. The utility model can automatically adapt to the pressure pressed on the surface of the belt body, thereby being convenient for conveying the belt body and avoiding damaging the belt body.

Description

Conduction band mechanism for manufacturing steel coil angle wrapping belt device

Technical Field

The utility model relates to the field of equipment for manufacturing steel coil angle wrapping belt, in particular to a belt guiding mechanism for manufacturing a steel coil angle wrapping belt device.

Background

In the process of conveying a stainless steel coil, a corner protector is required to be coated on the peripheral corner of the stainless steel coil to prevent the corner of the steel coil from being easily damaged by pressure during conveying and moving, a ring-shaped corner covering belt (also called a corner protector belt) is usually adopted as the corner protector, the corner covering belt is a straight plate-shaped belt body which is bent along a midline to form a right-angled belt body, and the belt body is usually processed through the steel coil corner covering belt. In the process of processing the strip body, the strip body which is coiled is firstly uncoiled into a strip-shaped strip body through the strip uncoiling mechanism, the strip body can adopt a stainless steel strip, and then the strip body is guided into the steel coil angle wrapping strip device to complete the processing. In the process of guiding and conveying the belt body into the steel coil angle wrapping belt device, the belt body is easy to arch or shift, so that the belt body conveyed into the steel coil angle wrapping belt device is deformed and cannot be kept flat, and the quality of a finished product belt body processed by the steel coil angle wrapping belt device is poor, and waste products are possibly generated.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a belt guiding mechanism for manufacturing a steel coil angle belt device, which can automatically adapt to the pressure of pressing the surface of a belt body, is convenient for conveying the belt body and simultaneously avoids damaging the belt body.

The technical scheme of the utility model is as follows: the utility model provides a conduction band mechanism of preparation coil of strip belting, includes frame, conduction band subassembly and presses and supports the mechanism, the guide slot has been seted up in the frame, and the entry end of guide slot is equipped with the conduction band subassembly to supply the guide band body, press and support the mechanism and locate conduction band subassembly top, be used for elasticity to press and support the surface that the belt body got into the guide slot entry end, the conduction band subassembly includes conduction band board and two splint, and the conduction band board locates the guide slot entry end of frame, splint set up on the conduction band board with relative movement, press and support the mechanism and include holding rod, connecting block, spliced pole, installation piece and running roller, the holding rod both ends set firmly at the guide slot entry end, and connecting block one end sets firmly on the holding rod, and the other end stretches out to the top of conduction band board, spliced pole one end slidable passes the connecting block and is connected with downwards the installation piece, the running roller is installed in the bottom of installation piece for pressing on the conduction band board, the spliced pole is overlapped and is equipped with the spring, and spring one end supports in the bottom surface of connecting block, and the other end is pressed and is supported the top surface at the installation piece.

Furthermore, a groove is formed in the bottom end of the mounting block, and the roller is mounted in the groove through a pin shaft.

Furthermore, the guide belt assembly comprises two vertical plates and a plurality of adjusting bolts, the vertical plates are oppositely and fixedly arranged on two sides of the guide belt plate, one end of each adjusting bolt is screwed on the vertical plate, and the other end of each adjusting bolt is connected with the clamping plate.

Furthermore, one end of each vertical plate, which is opposite to the corresponding belt guide plate, extends out, and a guide roller is arranged between the extending end parts and used for guiding the belt body to enter the clamping plates.

Furthermore, the top ends of the two clamping plates are bent oppositely, and an inverted L-shaped groove is formed at the top of each clamping plate.

Compared with the prior art: the utility model provides a belt guiding mechanism for manufacturing a steel coil angle belt device, which can automatically adapt to the pressure of a roller pressing against the surface of a belt body through a spring sleeved on a connecting column, so that the belt bodies with different thicknesses can be conveyed on a belt guiding plate flatly, the belt bodies are prevented from being crushed while being prevented from arching, and the conveying effect is better.

Drawings

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

Fig. 2 is a perspective view from another perspective of the present invention.

Fig. 3 is a schematic illustration of the position of the bending mechanism 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 and 2, a belt guiding mechanism for manufacturing a steel coil angle belt device includes a frame 11, a belt guiding assembly 5, a pressing mechanism 6, a bending mechanism 1 and a forming mechanism 2, wherein the frame 11 is provided with a guide groove 13, the inlet end of the guide groove 13 is provided with the belt guiding assembly 5, the belt guiding assembly 5 is used for guiding a belt body into the guide groove 13 of the frame, the pressing mechanism 6 is arranged on the frame 11 and located above the belt guiding assembly 5 and used for elastically pressing the belt body entering the guide groove 13, the bending mechanism 1 is arranged in the guide groove 13 of the frame 11 and used for folding the belt body in half, and the forming mechanism 2 is arranged at the outlet end of the guide groove 13 and used for further press-forming a folded edge of the folded belt body and guiding the belt body into an annular shape.

The belt guiding assembly 5 comprises a belt guiding plate 51 and two clamping plates 54, the belt guiding plate 51 is arranged at the inlet end of the guide groove 13 of the frame 11 and is used for guiding the belt body into the guide groove 13, the clamping plates 54 are arranged on the belt guiding plate 51 in a relatively movable manner, the two clamping plates 54 are parallel to each other and parallel to the direction of the guide groove 13, and the two clamping plates 54 can move towards the central axis of the belt guiding plate 51 towards each other or away from each other, so that the two clamping plates 54 are suitable for clamping belt bodies with different widths.

The pressure is to mechanism 6 including hanging holding pole 61, connecting block 62, spliced pole 63, installation piece 64 and running roller 65, hangs holding pole 61 both ends and sets firmly on 13 entry end both sides tops of guide slot, and connecting block 62 one end sets firmly on hanging holding pole 61, and the other end stretches out to the top of conduction band board 51, is used for the installation spliced pole 63, spliced pole 63 one end is passed connecting block 62 and is connected downwards installation piece 64's top, the bottom at installation piece 64 is installed through the bearing in the running roller 65 both ends for press the area body to on conduction band board 51, in order to avoid the area body to arch. Spliced pole 63 is sliding connection with connecting block 62, further the cover is equipped with the spring on the spliced pole 62, spring one end supports in the bottom surface of connecting block 62, and the other end is pressed and is supported the top surface at installation piece 64. When the roller 65 is pressed against the belt body, the pressure of the roller 65 and the surface of the belt body can be automatically adapted through the spring, so that the roller 65 is prevented from pressing the surface of the belt body.

Referring to fig. 1, in this embodiment, a groove is formed at the bottom end of the mounting block 64, and the roller 65 is mounted in the groove through a pin. The belt guiding assembly 5 comprises two vertical plates 53 and a plurality of adjusting bolts 55, the vertical plates 53 are oppositely and fixedly arranged on two sides of the belt guiding plate 51, one end of each adjusting bolt 55 is screwed on the vertical plate 53, the other end of each adjusting bolt 55 is connected with the clamping plate 54, and the two clamping plates 54 clamp the belt body by adjusting the position of each adjusting bolt 55 screwed on the vertical plate 53. The top ends of the two clamping plates 54 are bent toward each other, and an inverted L-shaped groove is formed at the top of each clamping plate 54 for guiding the strap to pass therethrough, so as to prevent the strap from arching while guiding the strap to pass between the two clamping plates 54.

The two vertical plates 53 extend out from one end of the belt guide plate 51, a guide roller 52 is installed between the extended ends for guiding the belt body into the space between the clamping plates 54, the guide roller 52 is located at the inlet side of the clamping plate 54, and the guide roller 52 is higher than the belt guide plate 51 in the horizontal plane position for pressing and guiding the belt body into the longitudinal groove of the clamping plate 54, so as to prevent the belt body from being damaged due to friction with the inlet end of the clamping plate 54 when the belt guide plate 51 is conveyed.

Referring to fig. 2 and 3, the bending mechanism 1 includes a plurality of bending rollers 12 and a plurality of supporting rollers 14, the outer peripheral surfaces of the plurality of bending rollers 12 are gradually installed in the guide groove 13 according to a predetermined angle, the plurality of supporting rollers 14 are disposed below the corresponding bending rollers 12, and a folding opening for bending the belt body is formed between each supporting roller 14 and the corresponding bending roller 12, so as to gradually bend one side of the belt surface of the belt body, which is conveyed from the belt guiding assembly 5, to a desired angle with respect to the belt surface, where the angle range is 0 to 90 degrees. In this embodiment, the middle of the outer peripheral surface of the bending roll 12 forms a protrusion, the middle of the outer peripheral surface of the supporting roll 14 is recessed to correspond to the protrusion of the outer peripheral surface of the bending roll 12, the passing belt body is bent through the cooperation of the protrusion and the recess, the required angle is gradually bent along with the propulsion of the belt body, the bending is uniform, and the forming effect is good.

Forming mechanism 2 includes pedestal 21, grip block 22, driving piece 23 and gear 24, the export one end of guide slot 13 is located to pedestal 21, and grip block 22 locates the top of pedestal 21 with driving piece 23 relatively, and the output shaft transmission of driving piece 23 is connected gear 24, driving piece 23 drive hour drive gear 24 rotate, and gear 24 is formed with the clearance between the terminal surface of driving piece 23 and the grip block 22 relatively to gear 24 to one side of the area body after supplying the centre gripping to bend, and the teeth of a cogwheel of the gear 24 outer peripheral face is pressed out the predetermined line pattern with the area body another side of flatly laying on pedestal 21 top surface in the rotation.

Wherein, one side of the driving part 23 is provided with a tape guiding disc 3, and the tape guiding disc 3 is used for guiding the tape body. In this embodiment, the top surface of the seat body 21 is provided with a tooth slot for matching with the teeth of the gear 24, so that the gear 24 can be matched to press one side of the belt body with a predetermined grain pattern, such as a tooth shape.

One end of the clamping plate 22 is provided with a guide wheel 25 for guiding the linearly advancing strip onto the guide belt disc 3 on one side. Disk body entrance of guiding dish 3 is equipped with shears mechanism 4 for shear the area body, shears mechanism 4 and includes base 41, actuating cylinder 42, cutting board 43 and cutting board 44, the slope of base 41 sets up on the side of pedestal 21, the one side at base 41 top surface is installed to actuating cylinder 42, cutting board 44 sets firmly the opposite side at base 41 top surface, and actuating cylinder 42's telescopic link is connected with cutting board 43, cutting board 43 and cutting board 44 set up relatively. The driving cylinder 42 drives the knife plate 43 to move towards the cutting plate 44 until the knife plate 43 is dislocated and tangent with the cutting plate 44, thereby cutting off the belt body passing between the knife plate 43 and the cutting plate 44. In this embodiment, the driving cylinder 42 is preferably a hydraulic cylinder or an air cylinder.

The end face cuts of the knife plate 43 and the cutting plate 44 are L-shaped, so that the belt body can be accurately cut. The base 41 is provided with a guide piece 45 for guiding the cutting plate 43 to slide, the guide piece 45 is provided with a clamping groove, and the cutting plate 43 penetrates through the clamping groove to be tangent to the cutting plate 44, so that the belt body shearing effect is better.

The use mode of the utility model is as follows: referring to fig. 1 and 2, after being unwound, the belt body to be processed is guided between the two clamping plates 54 by the guide roller 52, and when passing between the two clamping plates 54, the belt body is pressed against the belt guiding plate 51 by the roller 65, and the degree of compression between the roller 65 and the belt body is automatically adjusted by the spring; the strip body is continuously conveyed forwards to a position between a bending roller 12 and a supporting roller 14 in a guide groove 13, a plurality of groups of parallel bending rollers 12 and corresponding supporting rollers 14 are mutually matched in the rotating process to gradually press the flat strip body into the strip body with a preset bending angle, and the strip body is bent along the advancing direction of the strip body; the bent strip body is continuously conveyed to the base body 21 along the guide groove 13 forwards, one surface of the strip body, which is parallel to the top surface of the base body 21, is pressed into a strip body with a preset pattern, such as a tooth shape, by the gear 24 in the rotation process, the guide wheel 25 on one side of the gear 24 further conveys the strip body to the guide belt disc 3, and the guide belt disc 3 further guides the strip body to an annular shape; when the annular belt bodies can be connected end to end, the driving cylinder 42 drives the cutter plate 43 to be dislocated and tangent to the cutting plate 44 so as to cut the belt bodies, the belt bodies finally form the annular belt bodies which can be spliced end to end on the belt guiding disc 3, and finally the belt bodies on the belt guiding disc 3 are transferred manually or mechanically.

In conclusion, the spring sleeved on the connecting column 63 can automatically adapt to the pressure of the roller 65 pressing against the surface of the belt body, so that the belt bodies with different thicknesses can be conveyed on the belt guide plate 51 in a flat manner, the belt bodies are prevented from being crushed while being prevented from being arched, and the conveying effect is better; the strip body conveyed to the bending mechanism 1 in a leveling way is matched with corresponding supporting rollers 14 through a plurality of groups of bending rollers 12 to gradually press the tiled strip body, and the automation degree is high; preset grain patterns are pressed on the surface of the belt body through the gear 24 and the belt guide disc 3, and the forming quality is high; and the band body is cut off by the cooperation of the cutter plate 43 and the cutting plate 44.

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 utility model, 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 (5)

1. A conduction band mechanism for manufacturing a steel coil angle wrapping belt device is characterized in that: including frame (11), conduction band subassembly (5) and pressure to mechanism (6), guide slot (13) have been seted up in frame (11), the entry end of guide slot (13) is equipped with conduction band subassembly (5) to the confession guide area body, press to mechanism (6) to locate conduction band subassembly (5) top, be used for the elasticity to press to support and get into the surface of guide slot (13) entry end at the area body, conduction band subassembly (5) are including conduction band board (51) and two splint (54), and conduction band board (51) are located the guide slot (13) entry end of frame (11), splint (54) can set up on conduction band board (51) with relative movement, press to mechanism (6) including holding pole (61), connecting block (62), spliced pole (63), installation piece (64) and running roller (65), holding pole (61) both ends set firmly at guide slot (13) entry end, and connecting block (62) one end sets firmly on holding pole (61), the other end stretches out to the top of conduction band board (51), spliced pole (63) one end slidable passes connecting block (62) and is connected with downwards installation piece (64), the bottom at installation piece (64) is installed in running roller (65) for press the area body to support on conduction band board (51), the cover is equipped with the spring on spliced pole (63), and spring one end supports the bottom surface at connecting block (62), and the other end is pressed to the top surface at installation piece (64).

2. A belt guide mechanism as claimed in claim 1, wherein: the bottom end of the mounting block (64) is provided with a groove, and the roller (65) is mounted in the groove through a pin shaft.

3. A belt guide mechanism as claimed in claim 1, wherein: the guide belt assembly (5) comprises two vertical plates (53) and a plurality of adjusting bolts (55), the vertical plates (53) are oppositely and fixedly arranged on two sides of the guide belt plate (51), one end of each adjusting bolt (55) is in threaded connection with the vertical plate (53), and the other end of each adjusting bolt (55) is connected with the clamping plate (54).

4. A belt guide mechanism as claimed in claim 3 wherein: the two vertical plates (53) extend out from one end of the belt guide plate (51), and a guide roller (52) is arranged between the extending ends and used for guiding the belt body to enter the clamping plates (54).

5. A belt guide mechanism as claimed in claim 3 wherein: the top ends of the two clamping plates (54) are bent towards each other, and an inverted L-shaped groove is formed at the top of each clamping plate (54).

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