阅读说明：本技术 一种多角度锻造工件输送系统 (Multi-angle forged workpiece conveying system ) 是由 胡芳 曹石松 于 2021-06-29 设计创作，主要内容包括：本发明公开了一种多角度锻造工件输送系统,属于锻造工件输送技术领域,包括支撑底盘、输送机构、多角度调节机构和行走机构,支撑底盘的顶部安装有多角度调节机构,支撑底盘通过多角度调节机构与输送机构连接且输送机构通过多角度调节机构调节输送角度,支撑底盘的底部安装有行走机构,支撑底盘通过行走机构移动。本发明的多角度锻造工件输送系统,通过旋转的传送链条来输送锻造工件,避免了人工转运产生的操作失误而导致的烫伤工人,可提高锻造工件输送的安全性能,且锻造工件的输送角度可根据实际的使用需求进行调节,其适用范围广且使用便利,通过旋转的前驱动轮和后从动轮可使支撑底盘在地面上行走,使输送机构移动便利,使用方便。(The invention discloses a multi-angle forged workpiece conveying system, which belongs to the technical field of forged workpiece conveying and comprises a supporting chassis, a conveying mechanism, a multi-angle adjusting mechanism and a travelling mechanism, wherein the multi-angle adjusting mechanism is installed at the top of the supporting chassis, the supporting chassis is connected with the conveying mechanism through the multi-angle adjusting mechanism, the conveying mechanism adjusts the conveying angle through the multi-angle adjusting mechanism, the travelling mechanism is installed at the bottom of the supporting chassis, and the supporting chassis moves through the travelling mechanism. According to the multi-angle forged workpiece conveying system, forged workpieces are conveyed through the rotary conveying chain, workers are prevented from being scalded due to misoperation caused by manual transfer, the safety performance of conveying of the forged workpieces can be improved, the conveying angle of the forged workpieces can be adjusted according to actual use requirements, the multi-angle forged workpiece conveying system is wide in application range and convenient to use, the supporting chassis can walk on the ground through the rotary front driving wheel and the rotary rear driven wheel, and the conveying mechanism is convenient to move and use.)

1. The utility model provides a multi-angle forges work piece conveying system, its characterized in that, including supporting chassis (1), conveying mechanism (2), multi-angle adjustment mechanism (3) and running gear (4), multi-angle adjustment mechanism (3) are installed to the top of supporting chassis (1), it is connected and conveying mechanism (2) adjust conveying angle through multi-angle adjustment mechanism (3) and conveying mechanism (2) to support chassis (1), running gear (4) are installed to the bottom of supporting chassis (1), it removes through running gear (4) to support chassis (1).

2. The multi-angle conveying system for forged workpieces as claimed in claim 1, the conveying mechanism (2) comprises a supporting outer frame (21), a conveying motor (22), a wedge-shaped supporting seat (23), a front driving roller (24), a conveying chain (25) and a rear driven roller (26), a wedge-shaped supporting seat (23) is arranged on the outer side surface of the supporting outer frame (21), a conveying motor (22) is arranged on the wedge-shaped supporting seat (23), the output shaft of the conveying motor (22) is provided with a front driving roller (24) through a coupling, the front driving roller (24) is connected with a rear driven roller (26) through a transmission chain (25) and a chain wheel, the two ends of the front driving roller (24) and the two ends of the rear driven roller (26) are both mounted on the outer supporting frame (21) through bearings, and the front driving roller (24) and the rear driven roller (26) are respectively located at the two ends of the outer supporting frame (21).

3. The system for conveying forged workpieces at multiple angles as claimed in claim 2, wherein said conveying chain (25) is provided with L-shaped link plates (251), said link plates (251) are bolted to said conveying chain (25) and said link plates (251) are equally spaced on said conveying chain (25), and gaps for falling off scale on the surface of forged workpiece are left between adjacent link plates (251).

4. The multi-angle conveying system for the forged workpieces as claimed in claim 3, wherein the multi-angle adjusting mechanism (3) comprises a fixed base (31), a driving motor (32), a transmission screw rod (33), a lifting slider (34), a support connection traction frame (35), a first rotating shaft (36), a first movable adapter plate (37), a second movable adapter plate (38), a second rotating shaft (39) and a positioning seat (310), the fixed base (31) is installed on the top of the support chassis (1), the driving motor (32) is installed at the bottom of the fixed base (31), the transmission screw rod (33) is installed on the output shaft of the driving motor (32) through a coupler, the transmission screw rod (33) is installed on the fixed base (31) through a bearing, and the lifting slider (34) is connected with the transmission screw rod (33) through a thread, install on lifting slide (34) and support connection traction frame (35), support connection traction frame (35) and wear out fixed baseplate (31) and support connection traction frame (35) and pass through first rotation axis (36) and first activity keysets (37) swing joint, first activity keysets (37) are installed in the bottom that supports outer frame (21), support the bottom of outer frame (21) and still install at second activity keysets (38), second activity keysets (38) are through second rotation axis (39) and positioning seat (310) swing joint, the top at support chassis (1) is installed in positioning seat (310).

5. The multi-angle conveying system for forged workpieces as claimed in claim 4, wherein said fixed base (31) and positioning seat (310) are disposed at both ends of the top portion of the support chassis (1) and said first movable adapter plate (37) and said second movable adapter plate (38) are disposed at both ends of the bottom portion of the support outer frame (21).

6. The multi-angle conveying system for the forged workpieces as claimed in claim 5, wherein guide sliders (341) are mounted at both ends of the lifting slider (34), the guide sliders (341) are embedded on the inner wall of the fixed base (31), a strip-shaped sliding slot (311) for the guide sliders (341) to move is formed in the inner wall of the fixed base (31), and the guide sliders (341) are matched with the strip-shaped sliding slot (311).

7. The multi-angle conveying system for forged workpieces as claimed in claim 6, the travelling mechanism (4) comprises a front supporting seat (41), a double-shaft motor (42), a front driving shaft (43), a front driving wheel (44), a conveying belt (45), a rear driven shaft (46), a rear driven wheel (47) and a rear supporting seat (48), the middle end of the front supporting seat (41) is provided with a double-shaft motor (42), double shafts of the double-shaft motor (42) are connected with a front driving shaft (43) through a coupling, one end of each front driving shaft (43) far away from the double-shaft motor (42) is arranged on the front supporting seat (41) through a bearing, one end of each front driving shaft (43) penetrating out of the front supporting seat (41) is connected with the rear driven shaft (46) through a transmission belt (45) and a belt pulley, and two ends of the rear driven shaft (46) are mounted on a rear supporting seat (48) through bearings.

8. The multi-angle conveying system for forged workpieces as claimed in claim 7, wherein said front driving shaft (43) is splined with a front driving wheel (44), said front driving wheel (44) is located inside a front supporting seat (41), said rear driven shaft (46) is splined with a rear driven wheel (47), said rear driven wheel (47) is located inside a rear supporting seat (48).

9. The multi-angle conveying system for forged workpieces as claimed in claim 8, wherein said front supporting seat (41) and said rear supporting seat (48) are installed at the bottom of the supporting chassis (1) and said front supporting seat (41) and said rear supporting seat (48) are respectively located at both ends of the bottom of the supporting chassis (1).

10. The system for conveying forged workpieces at multiple angles as claimed in claim 9, wherein said front driving wheel (44) and rear driven wheel (47) are driven by a double-shaft motor (42) to rotate the front driving shaft (43), the transmission belt (45) and the rear driven shaft (46) to walk on the ground.

Technical Field

The invention relates to the technical field of conveying of forged workpieces, in particular to a multi-angle conveying system for forged workpieces.

Background

Forging is a processing method which utilizes forging machinery to apply pressure on a metal blank to enable the metal blank to generate plastic deformation so as to obtain a forging with certain mechanical property, certain shape and certain size, the defects of casting-state looseness and the like generated in the smelting process of metal can be eliminated through forging, the microstructure is optimized, and meanwhile, because a complete metal streamline is saved, the mechanical property of the forging is generally superior to that of a casting made of the same material. Important parts with high load and severe working conditions in related machines are mainly forged pieces except for plates, sections or welding pieces which are simple in shape and can be rolled.

Different forging methods have different processes, wherein the hot die forging process has the longest process flow, and the general sequence is as follows: blanking a forging stock; heating the forging stock; roll forging to prepare a blank; die forging and forming; trimming; punching; correcting; intermediate inspection, namely inspecting the size and surface defects of the forged piece; the forging is subjected to heat treatment to eliminate forging stress and improve the metal cutting performance; cleaning, mainly removing surface oxide skin; correcting; and (4) inspection, wherein the appearance and hardness of a common forging are inspected, and important forgings are inspected by chemical component analysis, mechanical property, residual stress and the like and subjected to nondestructive inspection.

The work piece temperature after forging is very high, if use artifical the transportation, misoperation appears very easily, and then scalds the workman, and consequently the hot forging spare uses conveying equipment to carry out automatic transport mostly, and present forging work piece conveying system when carrying the forging work piece, because its forging work piece conveying system is mostly fixed structure, makes the transport angle of forging the work piece can not adjust according to actual user demand, leads to using inconvenient and application scope narrow.

Disclosure of Invention

The invention aims to provide a multi-angle forged workpiece conveying system, wherein forged workpieces are conveyed through a rotary conveying chain, workers are prevented from being scalded due to misoperation caused by manual transfer, the conveying safety performance of the forged workpieces can be improved, the conveying angle of the forged workpieces can be adjusted according to actual use requirements, the multi-angle forged workpiece conveying system is wide in application range and convenient to use, a supporting chassis can walk on the ground through a rotary front driving wheel and a rotary rear driven wheel, and the conveying mechanism is convenient to move and use, so that the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a multi-angle forges work piece conveying system, is including supporting chassis, conveying mechanism, multi-angle adjustment mechanism and running gear, the multi-angle adjustment mechanism is installed at the top of supporting the chassis, it is connected and conveying mechanism adjusts conveying angle through multi-angle adjustment mechanism with conveying mechanism to support the chassis, the running gear is installed to the bottom of supporting the chassis, it removes through running gear to support the chassis.

Further, conveying mechanism is including supporting outer frame, conveying motor, wedge supporting seat, front driving roller, conveying chain and back driven voller, the wedge supporting seat is installed to the lateral surface that supports outer frame, install conveying motor on the wedge supporting seat, conveying motor's output shaft installs front driving roller through the shaft coupling, front driving roller is connected with the back driven voller through conveying chain and sprocket, the both ends of front driving roller and back driven voller all are installed on supporting outer frame through the bearing and front driving roller and back driven voller are located the both ends that support outer frame respectively.

Furthermore, the conveying chain is provided with L-shaped chain plates, the chain plates are fixed on the conveying chain through bolts and are distributed on the conveying chain at equal intervals, and gaps for enabling oxide scales on the surfaces of the forged pieces to fall are reserved between the adjacent chain plates.

Further, the multi-angle adjusting mechanism comprises a fixed base, a driving motor, a transmission screw rod, a lifting slider, a support connection traction frame, a first rotating shaft, a first movable adapter plate, a second rotating shaft and a positioning seat, wherein the fixed base is arranged at the top of the supporting chassis, the driving motor is arranged at the bottom of the fixed base, the transmission screw rod is arranged on an output shaft of the driving motor through a coupler, the transmission screw rod is arranged on the fixed base through a bearing, the transmission screw rod is in threaded connection with the lifting slider, the support connection traction frame is arranged on the lifting slider, the support connection traction frame penetrates out of the fixed base and is movably connected with the first movable adapter plate through the first rotating shaft, the first movable adapter plate is arranged at the bottom of the support outer frame, and the bottom of the support outer frame is also arranged on the second movable adapter plate, the second movable adapter plate is movably connected with the positioning seat through a second rotating shaft, and the positioning seat is installed at the top of the supporting chassis.

Furthermore, the fixed base and the positioning seat are distributed at two ends of the top of the supporting chassis, and the first movable adapter plate and the second movable adapter plate are distributed at two ends of the bottom of the supporting outer frame.

Further, the direction slide is all installed at the both ends of lift slider, the direction slide inlays on fixed baseplate's inner wall, the bar spout that supplies the direction slide to remove is seted up to fixed baseplate's inner wall, direction slide and bar spout adaptation.

Further, running gear includes preceding supporting seat, double-shaft motor, front drive axle, front drive wheel, conveyer belt, back driven shaft, back from driving wheel and back supporting seat, double-shaft motor is installed to the middle-end of preceding supporting seat, double-shaft motor's biax all has front drive axle through the coupling joint, the one end that double-shaft motor all was kept away from to front drive axle is installed on preceding supporting seat through the bearing and the one end that front drive axle wore out preceding supporting seat is passed through conveyer belt and belt pulley and is connected with the back driven shaft, the both ends of back driven shaft are all installed on the back supporting seat through the bearing.

Further, the front driving wheel is installed through the spline to the front driving shaft, the front driving wheel is located the inboard of preceding supporting seat, the back driven shaft is installed through the spline and is followed the driving wheel after, the back is located the inboard of back supporting seat from the driving wheel.

Furthermore, the front supporting seat and the rear supporting seat are both arranged at the bottom of the supporting chassis, and the front supporting seat and the rear supporting seat are respectively positioned at two ends of the bottom of the supporting chassis.

Further, the front driving wheel and the rear driven wheel travel on the ground by driving the front driving shaft, the transmission belt and the rear driven shaft to rotate by the double-shaft motor.

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

1. the conveying mechanism comprises an outer supporting frame, a conveying motor, a wedge-shaped supporting seat, a front driving roller, a conveying chain and a rear driven roller, wherein the front driving roller is mounted on an output shaft of the conveying motor through a coupler, the front driving roller is connected with the rear driven roller through the conveying chain and a chain wheel, the conveying motor is started and drives the front driving roller to rotate, the front driving roller can enable the conveying chain and the rear driven roller to rotate along with the front driving roller in the rotating process, the forged workpieces are conveyed through the rotating conveying chain, manual transfer is not needed, workers are prevented from being scalded due to misoperation caused by manual transfer, and safety performance of conveying the forged workpieces can be improved.

2. According to the multi-angle forged workpiece conveying system, the conveying chain is provided with the L-shaped chain plates, the chain plates are fixed on the conveying chain through bolts and are distributed on the conveying chain at equal intervals, gaps for falling of oxide skins on the surfaces of forged pieces are reserved between the adjacent chain plates, forged workpieces are conveyed to a specified position through the chain plates, the conveying speed of the chain plates can be adjusted through the rotating speed of the conveying motor, the gaps between the adjacent chain plates are large, and the oxide skins on the surfaces of the forged pieces can fall from the gaps sufficiently.

3. The invention relates to a multi-angle forged workpiece conveying system, which comprises a multi-angle adjusting mechanism, a driving motor, a transmission screw rod, a lifting slide block, a support connection traction frame, a first rotating shaft, a first movable adapter plate, a second rotating shaft and a positioning seat, wherein the transmission screw rod is in threaded connection with the lifting slide block, the support connection traction frame is arranged on the lifting slide block, the support connection traction frame is movably connected with the first movable adapter plate through the first rotating shaft, the second movable adapter plate is movably connected with the positioning seat through the second rotating shaft, the driving motor drives the transmission screw rod to rotate so that the lifting slide block can lift along with the guide slide seat under the guide effect, the lifting slide block can lift so that the support connection traction frame can lift along with the support connection traction frame and the support outer frame can rotate under the support effect of the positioning seat, the conveying angle of the conveying mechanism can be adjusted, and the conveying angle of a forged workpiece can be adjusted according to actual use requirements, it has wide application range and convenient use.

4. The invention relates to a multi-angle forged workpiece conveying system, a travelling mechanism comprises a front supporting seat, a double-shaft motor, a front driving shaft, a front driving wheel, a conveying belt, a rear driven shaft, a rear driven wheel and a rear supporting seat, wherein the double-shaft motor is arranged at the middle end of the front supporting seat, double shafts of the double-shaft motor are connected with the front driving shaft through a coupling, one end of the front driving shaft, which is far away from the double-shaft motor, is arranged on the front supporting seat through a bearing, one end of the front driving shaft, which penetrates out of the front supporting seat, is connected with the rear driven shaft through the conveying belt and a belt pulley, the two ends of the rear driven shaft are arranged on the rear supporting seat through bearings, the double-shaft motor drives the front driving shaft and the front driving wheel to rotate, the front driving shaft is connected with the rear driven shaft through the conveying belt and the belt pulley, and the rear driven wheel is arranged on the rear driven shaft through a spline, so that the front driving shaft rotates along with the conveying belt, the rear driven shaft and the rear driven wheel, the supporting chassis can walk on the ground through the rotary front driving wheel and the rotary rear driven wheel, so that the conveying mechanism is convenient to move and use.

Drawings

FIG. 1 is a schematic view of a multi-angle forged workpiece conveying system of the present invention;

FIG. 2 is a schematic view of the delivery mechanism of the present invention;

FIG. 3 is a partial schematic view of the delivery mechanism of the present invention;

FIG. 4 is a schematic view of the uniformly distributed link plates on the conveyor chain of the present invention;

FIG. 5 is a schematic view of the multi-angle adjusting mechanism of the present invention connected to a conveying mechanism;

FIG. 6 is a schematic partial cross-sectional view of a multi-angle adjustment mechanism of the present invention;

FIG. 7 is a schematic view of the support chassis of the present invention with a running gear mounted thereon;

fig. 8 is a bottom view of the support chassis of the present invention with a running gear attached thereto.

In the figure: 1. a support chassis; 2. a conveying mechanism; 21. supporting an outer frame; 22. a conveying motor; 23. a wedge-shaped supporting seat; 24. a front drive roller; 25. a conveyor chain; 251. a chain plate; 26. a rear driven roller; 3. a multi-angle adjusting mechanism; 31. a fixed base; 311. a strip-shaped chute; 32. a drive motor; 33. a transmission screw rod; 34. a lifting slide block; 341. a guide slide; 35. the support is connected with a traction frame; 36. a first rotating shaft; 37. a first movable adapter plate; 38. a second movable adapter plate; 39. a second rotation shaft; 310. positioning seats; 4. a traveling mechanism; 41. a front support base; 42. a double-shaft motor; 43. a front drive shaft; 44. a front drive wheel; 45. a conveyor belt; 46. a rear driven shaft; 47. a rear driven wheel; 48. and a rear support seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a multi-angle forges work piece conveying system, including supporting chassis 1, conveying mechanism 2, multi-angle adjustment mechanism 3 and running gear 4, multi-angle adjustment mechanism 3 is installed at the top of supporting chassis 1, it is connected with conveying mechanism 2 and conveying mechanism 2 is connected through multi-angle adjustment mechanism 3 to support chassis 1 and conveying mechanism 2 adjusts conveying angle through multi-angle adjustment mechanism 3, it is adjustable to make conveying mechanism 2's conveying angle adjustable, the conveying angle that makes the forging work piece can be adjusted according to the user demand of reality, its application scope is wide and convenient to use, running gear 4 is installed to the bottom of supporting chassis 1, it removes through running gear 4 to support chassis 1, it is convenient to make conveying mechanism 2 remove, high durability and convenient use.

Referring to fig. 2-4, the conveying mechanism 2 includes a supporting outer frame 21, a conveying motor 22, a wedge-shaped supporting seat 23, a front driving roller 24, a conveying chain 25 and a rear driven roller 26, the wedge-shaped supporting seat 23 is installed on an outer side surface of the supporting outer frame 21, the conveying motor 22 is installed on the wedge-shaped supporting seat 23, the front driving roller 24 is installed on an output shaft of the conveying motor 22 through a coupling, the front driving roller 24 is connected with the rear driven roller 26 through the conveying chain 25 and a sprocket, both ends of the front driving roller 24 and the rear driven roller 26 are installed on the supporting outer frame 21 through bearings, the front driving roller 24 and the rear driven roller 26 are respectively located at both ends of the supporting outer frame 21, the conveying motor 22 is started, the conveying motor 22 drives the front driving roller 24 to rotate, because the front driving roller 24 is connected with the rear driven roller 26 through the conveying chain 25 and the sprocket, the conveying chain 25 and the rear driven roller 26 can be rotated by the front driving roller 24 in the rotating process, carry the forging work piece through rotatory conveying chain 25, do not need artifical the transportation, avoided artifical the misoperation that transports the production and lead to scald the workman, can improve the security performance that the forging work piece was carried, be provided with the link joint 251 that is L shape on the conveying chain 25, link joint 251 passes through the bolt fastening on conveying chain 25 and link joint 251 equidistant distribution on conveying chain 25, leave the gap that supplies the surperficial cinder of forging to drop between the adjacent link joint 251, the forging work piece passes through link joint 251 and carries assigned position department, the transport speed of its link joint 251 can be adjusted through the rotational speed of conveying motor 22, and the gap between the adjacent link joint 251 is great, can make the cinder on forging surface fully drop from the gap.

Referring to fig. 5-6, the multi-angle adjusting mechanism 3 includes a fixed base 31, a driving motor 32, a transmission screw 33, a lifting slider 34, a support connection traction frame 35, a first rotating shaft 36, a first movable adapter plate 37, a second movable adapter plate 38, a second rotating shaft 39 and a positioning seat 310, when adjusting the conveying angle of the forged workpiece, the driving motor 32 drives the transmission screw 33 to rotate, the transmission screw 33 can make the lifting slider 34 lift along with the transmission screw under the guiding action of the guiding sliding seat 341 during the rotation process, the lifting slider 34 can lift the support connection traction frame 35 along with the transmission screw, the support connection traction frame 35 can make the support outer frame 21 rotate under the supporting action of the positioning seat 310 during the lifting process, so that the conveying angle of the conveying mechanism 2 can be adjusted, the fixed base 31 is installed on the top of the support chassis 1, the driving motor 32 is installed at the bottom of the fixed base 31, an output shaft of the driving motor 32 is provided with a transmission screw 33 through a coupler, the transmission screw 33 is arranged on the fixed base 31 through a bearing, the transmission screw 33 is connected with a lifting slide block 34 through a thread, two ends of the lifting slide block 34 are both provided with guide slide seats 341, the guide slide seats 341 are embedded on the inner wall of the fixed base 31, the inner wall of the fixed base 31 is provided with a strip-shaped chute 311 for the guide slide seats 341 to move, the guide slide seats 341 are matched with the strip-shaped chute 311, the lifting slide block 34 is provided with a support connection traction frame 35, the support connection traction frame 35 penetrates through the fixed base 31 and is movably connected with a first movable adapter plate 37 through a first rotating shaft 36, the driving motor 32 drives the transmission screw 33 to rotate, the lifting slide block 34 can lift along with the guide action of the guide slide seats 341 in the rotating process, and the lifting slide block 34 can lift along with the support connection traction frame 35, the support connecting traction frame 35 can make the support outer frame 21 rotate under the support action of the positioning seat 310 in the lifting process, so that the conveying angle of the conveying mechanism 2 can be adjusted, the first movable adapter plate 37 is installed at the bottom of the support outer frame 21, the bottom of the support outer frame 21 is also installed at the second movable adapter plate 38, the second movable adapter plate 38 is movably connected with the positioning seat 310 through the second rotating shaft 39, the positioning seat 310 is installed at the top of the support chassis 1, the fixed base 31 and the positioning seat 310 are distributed at two ends of the top of the support chassis 1, and the first movable adapter plate 37 and the second movable adapter plate 38 are distributed at two ends of the bottom of the support outer frame 21, when the conveying angle of the forged workpiece is adjusted, the driving motor 32 drives the transmission screw rod 33 to rotate, the transmission screw rod 33 can make the lifting slide block 34 lift along with the guide action of the guide slide seat 341 in the rotating process, the lifting slide block 34 can lift the support connection traction frame 35, and the support connection traction frame 35 can rotate under the supporting action of the positioning seat 310 in the lifting process, so that the conveying angle of the conveying mechanism 2 can be adjusted, the conveying angle of the forged workpiece can be adjusted according to actual use requirements, and the forging machine is wide in application range and convenient to use.

Referring to fig. 7-8, the traveling mechanism 4 includes a front supporting base 41, a dual-shaft motor 42, a front driving shaft 43, a front driving wheel 44, a transmission belt 45, a rear driven shaft 46, a rear driven wheel 47 and a rear supporting base 48, the dual-shaft motor 42 is installed at the middle end of the front supporting base 41, the dual shafts of the dual-shaft motor 42 are connected with the front driving shaft 43 through couplings, one end of the front driving shaft 43 far away from the dual-shaft motor 42 is installed on the front supporting base 41 through a bearing, one end of the front driving shaft 43 penetrating out of the front supporting base 41 is connected with the rear driven shaft 46 through the transmission belt 45 and a belt pulley, both ends of the rear driven shaft 46 are installed on the rear supporting base 48 through a bearing, the dual-shaft motor 42 drives the front driving shaft 43 and the front driving wheel 44 to rotate, because the front driving shaft 43 is connected with the rear driven shaft 46 through the transmission belt 45 and the belt pulley and the rear driven wheel 47 and the rear driven shaft 46 is installed with the rear driven wheel 47 through a spline, therefore, the front driving shaft 43 rotates to enable the conveying belt 45, the rear driven shaft 46 and the rear driven wheel 47 to rotate along with the front driving shaft 43, the supporting chassis 1 can walk on the ground through the rotating front driving wheel 44 and the rotating rear driven wheel 47, the use is convenient, the front supporting seat 41 and the rear supporting seat 48 are both arranged at the bottom of the supporting chassis 1, the front supporting seat 41 and the rear supporting seat 48 are respectively arranged at two ends of the bottom of the supporting chassis 1, the front driving wheel 44 is arranged on the front driving shaft 43 through a spline, the front driving wheel 44 is arranged at the inner side of the front supporting seat 41, the rear driven shaft 46 is arranged on the rear driven wheel 47 through a spline, the rear driven wheel 47 is arranged at the inner side of the rear supporting seat 48, the front driving wheel 44 and the rear driven wheel 47 drive the front driving shaft 43, the conveying belt 45 and the rear driven shaft 46 to rotate through the double-shaft motor 42, the front driving shaft 43 and the front driving wheel 44 rotate on the ground, and the front driving shaft 43 is connected with the rear driven shaft 46 through the conveying belt 45 and the belt pulley and the rear driven shaft 46, and the rear driven shaft 46 passes through the conveying belt pulley 45 Since the rear driven pulley 47 is spline-mounted, the front driving shaft 43 rotates to rotate the belt conveyor 45, the rear driven shaft 46, and the rear driven pulley 47, and the front driving wheel 44 and the rear driven pulley 47 rotate to allow the support chassis 1 to travel on the ground, thereby facilitating the movement and use of the transport mechanism 2.

In summary, in the multi-angle conveying system for forged workpieces of the present invention, the conveying motor 22 is started, the conveying motor 22 drives the front driving roller 24 to rotate, the front driving roller 24 is connected to the rear driven roller 26 through the conveying chain 25 and the sprocket, so that the conveying chain 25 and the rear driven roller 26 can also rotate along with the front driving roller 24 in the rotating process, the forged workpieces are conveyed by the rotating conveying chain 25, manual transportation is not required, workers are prevented from being scalded due to misoperation caused by manual transportation, the conveying safety of the forged workpieces can be improved, the forged workpieces are conveyed to a designated position through the link plates 251, the conveying speed of the link plates 251 can be adjusted by the rotating speed of the conveying motor 22, the gaps between adjacent link plates 251 are large, oxide scales on the surfaces of forged workpieces can sufficiently fall from the gaps, and when the conveying angle of the forged workpieces is adjusted, the driving motor 32 drives the transmission screw 33 to rotate, the transmission screw 33 can lead the lifting slide block 34 to lift along with the guiding action of the guiding slide seat 341 in the rotating process, the lifting slide block 34 can lead the support connecting traction frame 35 to lift along with the lifting slide block, the support connecting traction frame 35 can lead the support outer frame 21 to rotate under the supporting action of the positioning seat 310 in the lifting process, the conveying angle of the conveying mechanism 2 can be adjusted, the conveying angle of the forged workpiece can be adjusted according to the actual use requirement, the application range is wide, the use is convenient, the double-shaft motor 42 drives the front driving shaft 43 and the front driving wheel 44 to rotate, the front driving shaft 43 is connected with the rear driven shaft 46 through the conveying belt 45 and the belt pulley, the rear driven shaft 46 is provided with the rear driven wheel 47 through the spline, therefore, the front driving shaft 43 can lead the conveying belt 45, the rear driven shaft 46 and the rear driven wheel 47 to rotate along with the conveying belt, and the supporting chassis 1 can run on the ground through the rotating front driving wheel 44 and the rear driven wheel 47, the conveying mechanism 2 is convenient to move and use.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.