CN213793559U

CN213793559U - Feeding correction mechanism for flange punching

Info

Publication number: CN213793559U
Application number: CN202022616646.6U
Authority: CN
Inventors: 王德发
Original assignee: Dongguan Bao Jinshan Hardware Products Co ltd
Current assignee: Dongguan Bao Jinshan Hardware Products Co ltd
Priority date: 2020-11-13
Filing date: 2020-11-13
Publication date: 2021-07-27
Anticipated expiration: 2030-11-13

Abstract

The utility model discloses a feeding correction mechanism for flange punching, including the feeding frame, be equipped with a plurality of feeding lower guide rolls between two curb plates around the upper portion casing of feeding frame, the both ends of feeding lower guide roll articulate on two curb plates through the bearing, be fixed with a plurality of driving motor on the lateral wall of one of them curb plate, driving motor drives corresponding feeding lower guide roll and rotates, be fixed with a plurality of compression cylinder on the top surface of the roof of the upper portion casing of feeding frame, the push rod of all compression cylinder passes the bottom surface of the roof of upper portion casing and is fixed with the lifter plate; it can carry out the initial correction and through guide roll under a plurality of feeding and the compression roller correction in the feeding through two direction slant plate mechanism with the steel band that thick steel band rolled up out, and it corrects effectually, and the guide roll adopts a plurality of driving motor to drive the operation under its all feeding moreover for guarantee normal transport when its steel band is corrected, guarantee correction efficiency.

Description

Feeding correction mechanism for flange punching

Technical Field

The utility model relates to a hardware processing equipment technical field, more specifically say and relate to a die-cut feeding aligning gear that uses of flange.

Background

The existing flange plates, such as circular or rhombic, are all formed by direct punch on a horizontal plate in the existing mode, and have poor effect and low efficiency, and cannot be produced continuously, but because the flanges generally adopt plate stamping of 1mm to 10mm, the flanges can adopt thick steel strip coils to realize continuous production, so a continuous mechanism is required to convey the steel strip coils at present, however, when the existing steel strips are rolled out from the steel strip, the existing straightening conveying mechanism firstly needs to be straightened to flatten the steel strips, and only adopts single-roller driving in general, and the steel strips are conveyed and straightened by pressing and guiding an upper pressing roller and a lower roller, so the effect is limited, the conveying effect is poor, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art's is not enough, provides a die-cut feeding correction mechanism of using of flange, and it can carry out the steel band that thick steel band coiled up out through two direction slant template mechanisms and just correct and through compression roller correction on guide roll and the feeding under a plurality of feeding, and it corrects effectually, and the guide roll adopts a plurality of driving motor to drive the operation under its all feeding moreover for guarantee normal transport when its steel band is corrected, guarantee correction efficiency.

The utility model provides a technical problem's scheme is:

a feeding correction mechanism for flange punching comprises a feeding rack, wherein a plurality of feeding lower guide rollers are arranged between a front side plate and a rear side plate of an upper shell of the feeding rack, two ends of each feeding lower guide roller are hinged to the two side plates through bearings, a plurality of driving motors are fixed on the outer side wall of one side plate, the driving motors drive the corresponding feeding lower guide rollers to rotate, a plurality of pressing oil cylinders are fixed on the top surface of a top plate of the upper shell of the feeding rack, push rods of all the pressing oil cylinders penetrate through the bottom surface of the top plate of the upper shell and are fixed with a lifting plate, a plurality of feeding upper compression rollers are arranged below the lifting plate, the feeding upper compression rollers are positioned right above the corresponding feeding lower guide rollers, and central through grooves corresponding to the left and the right are formed in the middle parts of a left side plate and a right side plate of the upper shell;

a feeding transverse guide plate is fixed on the right side wall of the upper shell, a plurality of vertical guide rollers corresponding to each other in the front-back direction are hinged to the top surface of the feeding transverse guide plate, a conveying channel is formed between the vertical guide rollers corresponding to each other in the front-back direction, and the central through groove corresponds to the conveying channel;

the front part and the rear part of the right side wall of the feeding rack are both fixed with feeding guide plates with arc-shaped wall surfaces on the top surfaces, and a plurality of guide rollers are hinged on the upper part between the two feeding guide plates along the arc-shaped top surfaces.

Adjacent two the guide roll between be equipped with the deflector, the bottom surface middle part of deflector is fixed with the connecting block, and the middle part of connecting block is fixed with central articulated shaft, and the both ends of central articulated shaft are fixed on two feeding deflectors.

The front part and the rear part below the lifting plate are both fixed with a plurality of vertical plates, and two ends of the feeding upper compression roller are hinged to the two vertical plates through bearings.

The top ends of all the front vertical guide rollers are hinged in the bearings of the upper horizontal plate, and the top ends of all the rear vertical guide rollers are hinged in the bearings of the upper horizontal plate.

A left supporting plate is fixed on the left side wall of the feeding rack, an upper supporting plate is fixed on the left side wall of the upper shell, hinge blocks arranged at the bottom of a pushing oil cylinder are hinged to the middle parts of the left side walls of the left supporting plate and the upper supporting plate, the end parts of push rods of the pushing oil cylinders are hinged to a guide inclined plate mechanism through hinge shafts, and the right parts of the guide inclined plate mechanisms are hinged to the corresponding left supporting plate or the upper supporting plate;

the right ends of the two guide inclined plate mechanisms which correspond up and down are positioned above and below the central through groove of the left side plate of the upper shell, the right ends of the two guide inclined plate mechanisms which correspond up and down are close to each other, and the left ends of the two guide inclined plate mechanisms which correspond up and down are far away from each other.

The left side wall middle part of left branch fagging and upside backup pad all is fixed with first connecting plate, and articulated piece passes through the articulated shaft and articulates on corresponding first connecting plate.

The direction slant board mechanism includes the shell body, and the inside of shell body is equipped with a plurality of supporting connection blocks, and the one end of supporting connection block is fixed on the internal face of the outside board of shell body, and the middle part shaping of the interior wallboard of shell body has logical groove, and wear-resisting correction plate plug bush is in logical groove, and the inside wall in logical groove is hugged closely to the lateral wall of wear-resisting correction plate, and the wall of wear-resisting correction plate is fixed on one end of all corresponding supporting connection blocks, and the tip of the push rod that promotes the hydro-cylinder all articulates on the lateral wall of the outside board of the shell body that corresponds through the articulated shaft.

An intermediate supporting plate body is arranged between the middle parts of the two feeding guide plates, and the end part of the intermediate supporting plate body is fixed on the inner wall surface of the corresponding feeding guide plate.

The left side and the right side of each vertical plate are respectively fixed with a guide sliding block, a side guide vertical through groove is formed in the front side plate and the rear side plate of the upper shell, the vertical plates and the guide sliding blocks are inserted in the corresponding side guide vertical through grooves, and the left side part and the right side part of each side guide vertical through groove are inserted in the corresponding sliding grooves of the guide sliding blocks.

The utility model discloses an outstanding effect is: it can carry out the initial correction and through compression roller correction under guide roll and the feeding under a plurality of feeding through two direction slant plate mechanism with the steel band that thick steel coil of strip came out, it corrects effectually, and the guide roll adopts a plurality of driving motor to drive the operation under its all feeding moreover for guarantee normal transport when its steel band is corrected, guarantee correction efficiency.

Drawings

Fig. 1 is a partial structural schematic diagram of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

fig. 3 is a partial sectional view at the upper housing.

Detailed Description

An embodiment, as shown in fig. 1 to 3, discloses a feeding straightening mechanism for flange punching, which includes a feeding frame 10, a plurality of feeding lower guide rollers 11 are disposed between front and rear side plates of an upper housing of the feeding frame 10, two ends of each feeding lower guide roller 11 are hinged to the two side plates through bearings, a plurality of driving motors 12 are fixed on an outer side wall of one of the side plates, an output shaft of each driving motor 12 is a spline shaft, the spline shaft is inserted into a spline hole formed at one end of the corresponding feeding lower guide roller 11, the driving motor 12 drives the corresponding feeding lower guide roller 11 to rotate, a plurality of pressing cylinders 13 are fixed on a top surface of a top plate of the upper housing of the feeding frame 10, push rods of all the pressing cylinders 13 penetrate through a bottom surface of the top plate of the upper housing and are fixed with a lifting plate 14, a plurality of feeding upper press rollers 15 are disposed below the lifting plate 14, the feeding upper press rollers 15 are located right above the corresponding feeding lower guide rollers 11, a central through groove 16 corresponding to the left and the right is formed in the middle of the left side plate and the right side plate of the upper shell;

a feeding transverse guide plate 20 is fixed on the right side wall of the upper shell, a plurality of vertical guide rollers 21 corresponding to each other in the front and back are hinged on the top surface of the feeding transverse guide plate 20, a conveying channel is formed between the vertical guide rollers 21 corresponding to each other in the front and back, and the central through groove 16 corresponds to the conveying channel;

the front part and the rear part of the right side wall of the feeding rack 10 are both fixed with feeding guide plates 17 with arc-shaped wall surfaces on the top surfaces, and the upper part between the two feeding guide plates 17 is hinged with a plurality of guide rollers 18 along the arc-shaped top surfaces.

Further, a guide plate 19 is arranged between two adjacent guide rollers 18, a connecting block 191 is fixed in the middle of the bottom surface of the guide plate 19, a central hinge shaft is fixed in the middle of the connecting block 191, and two ends of the central hinge shaft are fixed on the two feeding guide plates 17.

Further, a plurality of vertical plates 141 are fixed to both the front and rear portions of the lifting plate 14, and both ends of the feeding upper press roller 15 are hinged to the two vertical plates 141 through bearings.

Further, the top ends of all the front vertical guide rollers 21 are hinged in the bearings of the upper horizontal plate, and the top ends of all the rear vertical guide rollers 21 are hinged in the bearings of the upper horizontal plate.

Furthermore, a left support plate 30 is fixed on the left side wall of the feeding frame 10, an upper support plate 31 is fixed on the left side wall of the upper shell, hinge blocks 33 arranged at the bottoms of the pushing cylinders 32 are hinged to the middle parts of the left side walls of the left support plate 30 and the upper support plate 31, the end parts of push rods of the pushing cylinders 32 are hinged to guide inclined plate mechanisms 34 through hinge shafts, and the right parts of the guide inclined plate mechanisms 34 are hinged to the corresponding left support plate 30 or the upper support plate 31;

the right ends of the two corresponding upper and lower guide diagonal plate mechanisms 34 are located above and below the central through groove 16 of the left side plate of the upper housing, the right ends of the two corresponding upper and lower guide diagonal plate mechanisms 34 are close to each other, and the left ends of the two corresponding upper and lower guide diagonal plate mechanisms 34 are far away from each other.

Further, first connection plates 35 are fixed to the middle portions of the left side walls of the left support plate 30 and the upper support plate 31, and the hinge blocks 33 are hinged to the corresponding first connection plates 35 through hinge shafts.

Further, the guiding inclined plate mechanism 34 includes an outer housing 341, a plurality of supporting connection blocks 342 are disposed inside the outer housing 341, one end of each supporting connection block 342 is fixed on an inner wall surface of an outer plate of the outer housing 341, a through groove is formed in the middle of an inner wall plate of the outer housing 341, the wear-resistant correcting plate 343 is inserted into the through groove, a side wall of the wear-resistant correcting plate 343 is tightly attached to an inner side wall of the through groove, a wall surface of the wear-resistant correcting plate 343 is fixed on one end of each corresponding supporting connection block 342, and an end of a push rod of the push cylinder 32 is hinged to an outer side wall of the corresponding outer plate of the outer housing 341 through a hinge shaft.

Further, an intermediate support plate 171 is disposed between the middle portions of the two feeding guide plates 17, and the end portions of the intermediate support plate 171 are fixed to the inner wall surfaces of the corresponding feeding guide plates 17.

Further, the guide sliders 142 are fixed to the left side and the right side of the vertical plate 141, the vertical side guide through grooves 143 are formed in the front side plate and the rear side plate of the upper housing, the vertical plate 141 and the guide sliders 142 are inserted into the corresponding vertical side guide through grooves 143, and the left side portion and the right side portion of the vertical side guide through grooves 143 are inserted into the corresponding sliding grooves of the guide sliders 142.

When the device is used, the device is arranged at a steel strip coil discharging mechanism, steel strips output by the steel strip coil discharging mechanism enter between two guide inclined plate mechanisms 34, the guide inclined plate mechanisms 34 are pushed by push rods of the push oil cylinders 32, the two guide inclined plate mechanisms 34 rotate, the two guide inclined plate mechanisms 34 approach to each other, and therefore the steel strips which just enter are subjected to initial correction, and the steel strips are pressed by two wear-resistant correction plates 343 to be corrected;

after finishing, the steel belt enters the upper shell from the central through groove 16 on the left side, is conveyed rightwards through a conveying channel formed between the front and rear corresponding vertical guide rollers 21 after being output from the central through groove 16 on the right side through further correction and conveying of all the feeding lower guide rollers 11 and the feeding upper press rollers 15, and is conveyed rightwards along all the guide rollers 18 and the guide plates 19, and the flatness of the steel belt plate is ensured through secondary correction;

meanwhile, a plurality of driving motors 12 are arranged on the side wall of the upper shell, all the driving motors 12 are in one-to-one correspondence with the feeding lower guide rollers 11, and are driven to operate independently, so that the conveying force is ensured to be large, and the normal conveying of the steel strip during normal pressing and straightening is ensured.

The above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant technical field can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims

1. The utility model provides a die-cut feeding aligning gear of using of flange, includes feeding frame (10), its characterized in that: a plurality of feeding lower guide rollers (11) are arranged between the front side plate and the rear side plate of the upper shell of the feeding rack (10), two ends of the feeding lower guide rollers (11) are hinged on the two side plates through bearings, a plurality of driving motors (12) are fixed on the outer side wall of one side plate, the driving motors (12) drive the corresponding feeding lower guide rollers (11) to rotate, a plurality of pressing oil cylinders (13) are fixed on the top surface of the top plate of the upper shell of the feeding rack (10), push rods of all the pressing oil cylinders (13) penetrate through the bottom surface of the top plate of the upper shell and are fixed with a lifting plate (14), a plurality of feeding upper pressing rollers (15) are arranged below the lifting plate (14), the feeding upper pressing rollers (15) are positioned right above the corresponding feeding lower guide rollers (11), and a left central through groove (16) and a right central through groove (16) which correspond to each other are formed in the middle parts of the left side plate and the right side plate of the upper shell;

a feeding transverse guide plate (20) is fixed on the right side wall of the upper shell, a plurality of vertical guide rollers (21) which correspond to each other in the front-back direction are hinged to the top surface of the feeding transverse guide plate (20), a conveying channel is formed between the vertical guide rollers (21) which correspond to each other in the front-back direction, and the central through groove (16) corresponds to the conveying channel;

the front part and the rear part of the right side wall of the feeding rack (10) are respectively fixed with a feeding guide plate (17) with an arc-shaped wall surface, and a plurality of guide rollers (18) are hinged to the upper part between the two feeding guide plates (17) along the arc-shaped top surface.

2. The feed straightening mechanism for flange blanking according to claim 1, wherein: be equipped with deflector (19) between adjacent two deflector roll (18), the bottom surface middle part of deflector (19) is fixed with connecting block (191), and the middle part of connecting block (191) is fixed with central articulated shaft, and the both ends of central articulated shaft are fixed on two feeding deflector (17).

3. The feed straightening mechanism for flange blanking according to claim 1, wherein: the front part and the rear part of the lifting plate (14) are both fixed with a plurality of vertical plates (141), and the two ends of the feeding upper compression roller (15) are hinged on the two vertical plates (141) through bearings.

4. The feed straightening mechanism for flange blanking according to claim 1, wherein: the top ends of all the front vertical guide rollers (21) are hinged in the bearings of the upper horizontal plate, and the top ends of all the rear vertical guide rollers (21) are hinged in the bearings of the upper horizontal plate.

5. The feed straightening mechanism for flange blanking according to claim 1, wherein: a left supporting plate (30) is fixed on the left side wall of the feeding rack (10), an upper supporting plate (31) is fixed on the left side wall of the upper shell, hinging blocks (33) arranged at the bottoms of the pushing oil cylinders (32) are hinged to the middle parts of the left side walls of the left supporting plate (30) and the upper supporting plate (31), guide inclined plate mechanisms (34) are hinged to the end parts of push rods of the pushing oil cylinders (32) through hinging shafts, and the right parts of the guide inclined plate mechanisms (34) are hinged to the corresponding left supporting plate (30) or the upper supporting plate (31);

the right ends of the two guide inclined plate mechanisms (34) which vertically correspond to each other are positioned above and below the central through groove (16) of the left side plate of the upper shell, the right ends of the two guide inclined plate mechanisms (34) which vertically correspond to each other are close to each other, and the left ends of the two guide inclined plate mechanisms (34) which vertically correspond to each other are far away from each other.

6. The feed straightening mechanism for flange blanking according to claim 5, wherein: the middle parts of the left side walls of the left support plate (30) and the upper side support plate (31) are respectively fixed with a first connecting plate (35), and the hinging blocks (33) are hinged on the corresponding first connecting plates (35) through hinging shafts.

7. The feed straightening mechanism for flange blanking according to claim 5, wherein: the guide inclined plate mechanism (34) comprises an outer shell (341), a plurality of supporting connecting blocks (342) are arranged inside the outer shell (341), one ends of the supporting connecting blocks (342) are fixed on the inner wall surface of an outer plate of the outer shell (341), a through groove is formed in the middle of the inner wall plate of the outer shell (341), the wear-resistant correcting plate (343) is inserted and sleeved in the through groove, the inner side wall of the through groove is tightly attached to the side wall of the wear-resistant correcting plate (343), the wall surface of the wear-resistant correcting plate (343) is fixed at one end of each corresponding supporting connecting block (342), and the end part of a push rod of the push cylinder (32) is hinged to the outer side wall of the outer plate of the corresponding outer shell (341) through a hinge shaft.

8. The feed straightening mechanism for flange blanking according to claim 1, wherein: an intermediate supporting plate body (171) is arranged between the middle parts of the two feeding guide plates (17), and the end part of the intermediate supporting plate body (171) is fixed on the inner wall surface of the corresponding feeding guide plate (17).

9. A feed straightening mechanism for flange blanking according to claim 3, characterized in that: the left side and the right side of the vertical plate (141) are both fixed with guide sliding blocks (142), side guide vertical through grooves (143) are formed in the front side plate and the rear side plate of the upper shell, the vertical plate (141) and the guide sliding blocks (142) are inserted in the corresponding side guide vertical through grooves (143), and the left side and the right side of the side guide vertical through grooves (143) are inserted in the corresponding sliding grooves of the guide sliding blocks (142).