CN111215907A - Semi-automatic cutting device of steel sheet - Google Patents

Abstract

The invention discloses a semi-automatic cutting device for a steel plate, which comprises a rack, a driving mechanism, a stamping mechanism and a shearing mechanism, wherein the driving mechanism comprises a first end plate, a driving roller, a first driving gear and a second driving gear; the stamping mechanism comprises a second end plate, a stamping roller, a first stamping small gear, a first stamping large gear, a second stamping gear, a transmission vertical rod, a transmission transverse rod, a stamping head and a stamping disc, and the stamping disc rotates to drive the stamping head to move up and down; the shearing mechanism comprises a third end plate, a shearing roller, a shearing gear, a shearing knife, a shearing frame and a shearing disc, and the shearing disc rotates to drive the shearing knife to move up and down. The invention has compact structure, can drive the whole equipment through one driving device, can complete the punching and shearing of the steel plate on one equipment, and is very convenient to use.

Description

Semi-automatic cutting device of steel sheet

Technical Field

The invention relates to the field of mechanical equipment, in particular to a semi-automatic cutting device for a steel plate.

Background

The steel plate is usually cut into small pieces during the machining process, and the steel plate is usually punched before cutting. Then, the traditional processing mode to the steel sheet often is through artifical material loading mode with the steel sheet place the stamping equipment on to carry out stamping operation one by one earlier, then transport the shearing equipment on to carry out cutting operation, complex operation, and workman's intensity of labour is great.

Disclosure of Invention

The invention aims to provide a semi-automatic cutting device for a steel plate, aiming at overcoming the defects in the prior art and solving the problems.

The technical problem solved by the invention can be realized by adopting the following technical scheme:

a semi-automatic cutting device of a steel plate, which comprises a frame, a driving mechanism, a punching mechanism and a shearing mechanism,

the driving mechanism comprises a first end plate, a driving roller, a first driving gear and a second driving gear, wherein the first driving gear and the second driving gear are fixedly sleeved on the driving roller; the second driving gear is arranged at the rear end of the driving roller, and the first driving gear is arranged at the front side of the second driving gear;

the stamping mechanism comprises a second end plate, a stamping roller, a first stamping small gear, a first stamping large gear, a second stamping gear, a transmission vertical rod, a transmission cross rod and a stamping head, wherein the second end plate is arranged on the right side of the first end plate, and the two second end plates are respectively and fixedly arranged on the front side and the rear side of the rack; the stamping roller is horizontally arranged, two ends of the stamping roller are rotatably erected on two second end plates, a first stamping small gear, a first stamping large gear and a second stamping gear are fixedly sleeved on the stamping roller, the first stamping small gear is in meshing transmission with the first driving gear through a first transmission assembly, and the second stamping gear is a bevel gear; the tops of the two second end plates are connected through a Z-shaped top plate, the top plate comprises a first transverse plate, a vertical plate and a second transverse plate which are sequentially connected, a third transverse plate is further mounted in the middle of the second end plate on the front side, and the third transverse plate is arranged below the second transverse plate and is parallel to the second transverse plate; the transmission vertical rod is vertically arranged, and two ends of the transmission vertical rod are respectively and rotatably arranged on the second transverse plate and the third transverse plate; a third stamping gear and a fourth stamping gear are respectively arranged at the upper end and the lower end of the transmission vertical rod, the third stamping gear and the fourth stamping gear are both bevel gears, and the fourth stamping gear is in meshing transmission with the second stamping gear; the transmission cross rod is horizontally arranged, two ends of the transmission cross rod are respectively and rotatably erected on the vertical plate and the top of the second end plate at the rear side, the front end of the transmission cross rod extends out of the vertical plate, a fifth stamping gear is installed at the extending end of the transmission cross rod, the fifth stamping gear is a bevel gear, and the fifth stamping gear is in meshing transmission with the third stamping gear; the punching head is arranged below the first transverse plate, a round rod is fixedly arranged at the rear end of the punching head, a sliding block is arranged on the round rod, a sliding groove is formed in the second end plate arranged on the rear side along the height direction of the second end plate, and the sliding block is arranged in the sliding groove in a vertically sliding manner; the rear end of the transmission cross rod is provided with a punching disc, the front side end face of the punching disc is provided with a small eccentric column, and the small eccentric column is connected with the end part of the round rod through a short connecting rod;

the shearing mechanism comprises a third end plate, a shearing roller, a shearing gear, a shearing knife and a shearing frame of a gantry structure, wherein the third end plate is arranged on the right side of the second end plate, and the two third end plates are respectively and fixedly arranged on the front side and the rear side of the rack; the shearing roller is horizontally arranged, two ends of the shearing roller are rotatably erected on the two third end plates, the shearing gear is fixedly sleeved on the shearing roller, and the shearing gear is in meshing transmission with the first punching large gear through the second transmission assembly; a shearing disc is fixed at the rear end of the shearing roller, and a large eccentric column is arranged on the end face of the rear side of the shearing disc; the shearing frame is erected on the rack and is arranged on the right side of the third end plate, guide grooves are respectively formed in two frame arms of the shearing frame along respective height directions of the frame arms, connecting rods are respectively installed at two ends of the shearing knife, guide blocks matched with the guide grooves are arranged on the connecting rods, the guide blocks are arranged in the guide grooves of corresponding sides, and the end portions of the connecting rods arranged on the rear side are connected with the large eccentric columns through long connecting rods.

Further, first transmission assembly includes first frame plate, first driving roller, first transmission gear wheel and first transmission pinion, first frame plate is located between first end plate and the second end plate, first frame plate has two and respectively fixed mounting in both sides around the frame, the both ends of first driving roller rotationally erect on two first frame plates, first transmission gear wheel and first transmission pinion all fixed cover are located on first driving roller, first transmission pinion and the transmission of first drive gear wheel meshing, first transmission gear wheel and the transmission of first punching press pinion meshing.

Further, second transmission assembly second frame plate, second driving roller, second transmission gear wheel and second transmission pinion, the second frame plate is located between second end plate and the third end plate, the second frame plate has two and respectively fixed mounting in both sides around the frame, the both ends of second driving roller rotationally erect on two second frame plates, second transmission gear wheel and second transmission pinion are all fixed the cover and are located on first driving roller, second transmission gear wheel and shearing gear wheel meshing transmission, second transmission pinion and first punching press gear wheel meshing transmission.

The horizontal conveying mechanism comprises a conveying end plate, a horizontal conveying belt, a conveying roller and a conveying gear, the horizontal conveying belt is arranged below the stamping head and the shearing knife, two ends of the horizontal conveying belt are tensioned and driven through the conveying roller respectively, the conveying roller is arranged above the rack through the conveying end plate frame, the conveying gear is mounted at the rear end of the conveying roller arranged on the front side, and the conveying gear is in meshing transmission with the second driving gear; the left side of frame is located to feed mechanism, and the material loading frame is including the material loading conveyer belt that the slope set up, and the left end pan feeding mouth of horizontal conveyor belt is aimed at to the high-end of material loading conveyer belt.

Compared with the prior art, the invention has the following beneficial effects:

the automatic steel plate feeding device is compact in structure, steel plates to be processed are automatically conveyed and fed onto the horizontal conveying belt through the feeding conveying belt, the steel plates are stamped through the stamping head and then are sheared through the shearing knife, and the processed steel plates are sent out from the right side of the horizontal conveying belt; the invention can drive the whole equipment through one driving device, can complete the punching and shearing of the steel plate on one equipment, is very convenient to use and greatly reduces the labor intensity of workers.

Drawings

Fig. 1 is a schematic structural view of a semi-automatic cutting device for a steel plate according to the present invention.

Fig. 2 is a rear view of the semi-automatic cutting apparatus for a steel plate according to the present invention.

Fig. 3 is a schematic view of the internal structure of the semi-automatic cutting device for steel plates according to the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 3, the semi-automatic cutting device for a steel plate according to the present invention includes a frame 10, a driving mechanism, a punching mechanism, and a shearing mechanism.

The driving mechanism includes a first end plate 20, a driving roller 21, and a first driving gear 221 and a second driving gear 222 fixed to the driving roller 21. The first end plates 20 are two and are respectively fixedly installed at the front and rear sides of the frame 10, and the driving rollers 21 are horizontally arranged. Both ends of the driving roller 21 are rotatably mounted on the two first end plates 20, and the front end of the driving roller 21 extends out of the first end plate 20 arranged at the front side and is fixed with a crank 23 at the extending end thereof. When in use, an operator only needs to shake the hand crank 23 to drive the whole device to work. The second drive gear 222 is provided at the rear end of the drive roller 21, and the first drive gear 221 is provided on the front side of the second drive gear 222.

The punching mechanism comprises a second end plate 31, a punching roller 32, a first punching small gear 331, a first punching big gear 332, a second punching gear 333, a transmission vertical rod 34, a transmission cross rod 35 and a punching head 36. The second end plate 31 is disposed at the right side of the first end plate 20, and two second end plates 31 are respectively and fixedly mounted at the front and rear sides of the frame 10. The punching roller 32 is horizontally arranged, two ends of the punching roller 32 are rotatably erected on the two second end plates 31, and the first punching small gear 331, the first punching large gear 332 and the second punching gear 333 are fixedly sleeved on the punching roller 32. The first punching pinion 331 is in mesh transmission with the first driving gear 221 through a first transmission assembly, and the second punching gear 333 is a bevel gear. The tops of the two second end plates 31 are connected through a Z-shaped top plate, and the top plate comprises a first transverse plate, a vertical plate and a second transverse plate which are sequentially connected. The middle part of the second end plate 31 at the front side is also provided with a third transverse plate, and the third transverse plate is arranged below the second transverse plate and is arranged in parallel with the second transverse plate. The vertical transmission rod 34 is vertically arranged, and two ends of the vertical transmission rod are rotatably arranged on the second transverse plate and the third transverse plate respectively. The upper end and the lower end of the vertical transmission rod 34 are respectively provided with a third punching gear 341 and a fourth punching gear 342. The third punching gear 341 and the fourth punching gear 342 are both bevel gears, and the fourth punching gear 342 is in meshing transmission with the second punching gear 333. The transmission cross rod 35 is horizontally arranged, and two ends of the transmission cross rod are respectively and rotatably erected on the tops of the vertical plate and the second end plate 31 on the rear side. The front end of the transmission cross bar 35 extends out of the vertical plate and is provided with a fifth stamping gear 351 at the extending end thereof. The fifth pressing gear 351 is a bevel gear, and the fifth pressing gear 351 is in meshing transmission with the third pressing gear 341. The press head 36 is arranged below the first horizontal plate, a round rod 361 is fixedly arranged at the rear end of the press head 36, and a sliding block 362 is arranged on the round rod 361. The second end plate 31 disposed at the rear side is provided with a slide groove along the height direction thereof, and the slide block 362 is disposed in the slide groove in a vertically slidable manner. The rear end of the transmission cross rod 35 is provided with a punching plate 363, and the front end face of the punching plate 363 is provided with a small eccentric column. The small eccentric cylinder is connected to the end of the circular rod 361 by a short connecting rod 364.

The shearing mechanism comprises a third end plate 40, a shearing roller 41, a shearing gear 42, a shearing knife 43 and a shearing frame 44 of a gantry type structure. The third end plate 40 is disposed at the right side of the second end plate 31, and two third end plates 40 are respectively and fixedly mounted at the front and rear sides of the frame 10. The shearing roller 41 is horizontally arranged, two ends of the shearing roller 41 are rotatably erected on the two third end plates 40, the shearing gear 42 is fixedly sleeved on the shearing roller 41, and the shearing gear 42 is in meshing transmission with the first stamping large gear 332 through the second transmission assembly. A shearing disc 411 is fixed at the rear end of the shearing roller 41, and a large eccentric column is mounted on the rear end face of the shearing disc 411. The shearing frame 44 is erected on the frame 10 and is disposed on the right side of the third end plate 40, and two frame arms of the shearing frame 44 are respectively provided with a guide groove along the respective height direction. The two ends of the shearing knife 43 are respectively provided with a connecting rod 431, and the connecting rod 431 is provided with a guide block matched with the guide groove. The guide block is arranged in the guide groove at the corresponding side, and the end part of the connecting rod 431 arranged at the rear side is connected with the large eccentric column through the long connecting rod 45.

The first transmission assembly comprises a first frame plate, a first transmission roller 51, a first transmission gearwheel 521 and a first transmission pinion. The first frame plate is disposed between the first end plate 20 and the second end plate 31, and the first frame plate has two and is respectively fixedly mounted on the front and rear sides of the frame 10. The two ends of the first driving roller 51 are rotatably erected on the two first frame plates, and the first driving gearwheel 521 and the first driving pinion are fixedly sleeved on the first driving roller 51. The first transmission pinion gear is in meshing transmission with the first driving gear 221, and the first transmission gearwheel 521 is in meshing transmission with the first pressing pinion gear 331.

A second frame plate 60 of the second transmission assembly, a second transmission roller 61, a second transmission gearwheel 621 and a second transmission pinion 622, wherein the second frame plate 60 is arranged between the second end plate 31 and the third end plate 40. The second frame plates 60 are two and are respectively fixedly mounted on the front and rear sides of the frame 10. The two ends of the second driving roller 61 are rotatably erected on the two second frame plates 60, and the second driving gearwheel 621 and the second driving pinion 622 are both fixedly sleeved on the first driving roller 51. The two second driving large gears 621 are respectively in meshed driving with the two shearing gears 42; the second drive pinion 622 is in meshing drive with the first punch gearwheel 332.

The automatic feeding device further comprises a feeding mechanism and a horizontal conveying mechanism, wherein the horizontal conveying mechanism comprises a conveying end plate 70, a horizontal conveying belt 71, a conveying roller 72 and a conveying gear 73. The horizontal conveying belt 71 is arranged below the punching head 36 and the shearing knife 43, and two ends of the horizontal conveying belt 71 are respectively tensioned and driven by the conveying rollers 72. The horizontal conveyor belt 71 is internally provided with a shelf plate, and the phenomenon of sinking when the steel plate on the horizontal conveyor belt 71 is punched and sheared can be prevented through the shelf plate. The left and right ends of the transport roller 72 are respectively erected above the frame 10 by the first end plate 20 and the transport end plate 70. A conveying gear 73 is attached to the rear end of the conveying roller 72 provided on the left side, and the conveying gear 73 is in meshing transmission with the second drive gear 222. The left side of frame 10 is located to feed mechanism, and feed frame 10 is including the material loading conveyer belt 80 that the slope set up, and material loading conveyer belt 80 erects the left side of frame through material loading end plate 83. The high end of the feeding conveyor belt 80 is aligned with the left end feeding port of the horizontal conveyor belt 71. The two ends of the feeding conveyor belt 80 are tensioned through the feeding rollers respectively, the tensioning rollers can be driven by the feeding motor, and corresponding gears meshed with the conveying gears 73 can be arranged on the feeding rollers, so that the whole device can work in a linkage mode through one crank 23. A plurality of partition plates 81 are arranged on the feeding conveyor belt 80 along the conveying direction, and a steel plate to be processed is placed on the feeding conveyor belt 80 between the two partition plates 81 when the feeding conveyor belt is used. The steel plate to be processed is automatically conveyed and fed onto the horizontal conveying belt 71 through the feeding conveying belt 80, the steel plate is stamped through the stamping head and then sheared through the shearing knife, and the processed steel plate is conveyed out from the right side of the horizontal conveying belt.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a semi-automatic cutting device of steel sheet which characterized in that: comprises a frame, a driving mechanism, a punching mechanism and a shearing mechanism,

the driving mechanism comprises a first end plate, a driving roller, a first driving gear and a second driving gear, wherein the first driving gear and the second driving gear are fixedly sleeved on the driving roller; the second driving gear is arranged at the rear end of the driving roller, and the first driving gear is arranged at the front side of the second driving gear;

the stamping mechanism comprises a second end plate, a stamping roller, a first stamping small gear, a first stamping large gear, a second stamping gear, a transmission vertical rod, a transmission cross rod and a stamping head, wherein the second end plate is arranged on the right side of the first end plate, and the two second end plates are respectively and fixedly arranged on the front side and the rear side of the rack; the stamping roller is horizontally arranged, two ends of the stamping roller are rotatably erected on two second end plates, a first stamping small gear, a first stamping large gear and a second stamping gear are fixedly sleeved on the stamping roller, the first stamping small gear is in meshing transmission with the first driving gear through a first transmission assembly, and the second stamping gear is a bevel gear; the tops of the two second end plates are connected through a Z-shaped top plate, the top plate comprises a first transverse plate, a vertical plate and a second transverse plate which are sequentially connected, a third transverse plate is further mounted in the middle of the second end plate on the front side, and the third transverse plate is arranged below the second transverse plate and is parallel to the second transverse plate; the transmission vertical rod is vertically arranged, and two ends of the transmission vertical rod are respectively and rotatably arranged on the second transverse plate and the third transverse plate; a third stamping gear and a fourth stamping gear are respectively arranged at the upper end and the lower end of the transmission vertical rod, the third stamping gear and the fourth stamping gear are both bevel gears, and the fourth stamping gear is in meshing transmission with the second stamping gear; the transmission cross rod is horizontally arranged, two ends of the transmission cross rod are respectively and rotatably erected on the vertical plate and the top of the second end plate at the rear side, the front end of the transmission cross rod extends out of the vertical plate, a fifth stamping gear is installed at the extending end of the transmission cross rod, the fifth stamping gear is a bevel gear, and the fifth stamping gear is in meshing transmission with the third stamping gear; the punching head is arranged below the first transverse plate, a round rod is fixedly arranged at the rear end of the punching head, a sliding block is arranged on the round rod, a sliding groove is formed in the second end plate arranged on the rear side along the height direction of the second end plate, and the sliding block is arranged in the sliding groove in a vertically sliding manner; the rear end of the transmission cross rod is provided with a punching disc, the front side end face of the punching disc is provided with a small eccentric column, and the small eccentric column is connected with the end part of the round rod through a short connecting rod;

the shearing mechanism comprises a third end plate, a shearing roller, a shearing gear, a shearing knife and a shearing frame of a gantry structure, wherein the third end plate is arranged on the right side of the second end plate, and the two third end plates are respectively and fixedly arranged on the front side and the rear side of the rack; the shearing roller is horizontally arranged, two ends of the shearing roller are rotatably erected on the two third end plates, the shearing gear is fixedly sleeved on the shearing roller, and the shearing gear is in meshing transmission with the first punching large gear through the second transmission assembly; a shearing disc is fixed at the rear end of the shearing roller, and a large eccentric column is arranged on the end face of the rear side of the shearing disc; the shearing frame is erected on the rack and is arranged on the right side of the third end plate, guide grooves are respectively formed in two frame arms of the shearing frame along respective height directions of the frame arms, connecting rods are respectively installed at two ends of the shearing knife, guide blocks matched with the guide grooves are arranged on the connecting rods, the guide blocks are arranged in the guide grooves of corresponding sides, and the end portions of the connecting rods arranged on the rear side are connected with the large eccentric columns through long connecting rods.

2. The semi-automatic cutting apparatus for steel plates according to claim 1, characterized in that: first transmission assembly includes first frame plate, first drive roller, first transmission gear wheel and first transmission pinion, first frame plate is located between first end plate and the second end plate, first frame plate has two and respectively fixed mounting in both sides around the frame, the both ends of first drive roller rotationally erect on two first frame plates, first transmission gear wheel and first transmission pinion all fixed cover are located on first drive roller, first transmission pinion and first drive gear meshing transmission, first transmission gear wheel and first punching press pinion meshing transmission.

3. The semi-automatic cutting apparatus for steel plates according to claim 1, characterized in that: second drive assembly second frame plate, second driving roller, second transmission gear wheel and second transmission pinion, the second frame plate is located between second end plate and the third end plate, the second frame plate has two and respectively fixed mounting in both sides around the frame, the both ends of second driving roller rotationally erect on two second frame plates, second transmission gear wheel and second transmission pinion are all fixed the cover and are located on first driving roller, the second transmission gear wheel with cut gear wheel meshing transmission, second transmission pinion and first punching press gear wheel meshing transmission.

4. The semi-automatic cutting apparatus for steel plates according to claim 1, characterized in that: the horizontal conveying mechanism comprises a conveying end plate, a horizontal conveying belt, a conveying roller and a conveying gear, the horizontal conveying belt is arranged below the stamping head and the shearing knife, two ends of the horizontal conveying belt are tensioned and driven by the conveying roller respectively, the conveying roller is arranged above the rack through the conveying end plate frame, the conveying gear is arranged at the rear end of the conveying roller arranged on the front side, and the conveying gear is in meshing transmission with the second driving gear; the left side of frame is located to feed mechanism, and the material loading frame is including the material loading conveyer belt that the slope set up, and the left end pan feeding mouth of horizontal conveyor belt is aimed at to the high-end of material loading conveyer belt.

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