CN213497647U - Processing device for roller production - Google Patents

Abstract

The utility model provides a processingequipment is used in roller production in the saw pipe equipment technical field, including fixture and cutting mechanism, fixture includes the fixing base, be equipped with clamping jaw one and can be in the clamping jaw two of front and back direction motion on the fixing base, the cutting groove that has linked together is opened respectively on clamping jaw one and the clamping jaw two, cutting mechanism includes the rotation seat, the rotatable saw bit that is connected with on the rotation seat, be equipped with one-level transport mechanism in the cutting frame, one-level transport mechanism includes the removal seat that can be in left and right direction reciprocating linear motion, be equipped with the righting mechanism on the removal seat, the righting mechanism includes clamping jaw three and can be in the clamping jaw four of front and back direction motion; two groups of conveying assemblies are symmetrically arranged on the deburring rack, each conveying assembly comprises a supporting frame, a lower conveying wheel and an upper conveying wheel are rotatably connected onto the supporting frame, the deburring rack is further provided with a deburring assembly, each deburring assembly comprises a rotatable polishing wheel and at least one supporting assembly; the utility model discloses convenient to use, work efficiency is high.

Description

Processing device for roller production

Technical Field

The utility model belongs to the technical field of the pipe sawing equipment, in particular to processingequipment is used in roller production.

Background

The production of roller needs a large amount of pipe materials such as roller outer tube and back shaft, and often needs to cut the pipe material in the production process of pipe material to satisfy the pipe material length that different occasions and model need, in order to make things convenient for the shearing of pipe material, the pipe saw machine commonly used at present cuts the pipe material, and the pipe saw machine that has good comprehensive properties has important meaning to the production of roller.

In the prior art, a worker generally needs to fix a pipe fitting in a mode of pressing with both hands when cutting or deburring the pipe fitting, but the operation has potential safety hazards, the labor intensity is too high, the working efficiency is low, if mass production is realized, a large number of skilled operators must be hired, and the labor cost is high. And manual sawing and deburring are adopted, so that the defects of low repeated precision of manual positioning, difficult feeding, low sawing precision and the like exist, and the yield of the processed finished pipe material is low.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model discloses an aim at solves the weak point among the prior art, has solved and has used inconveniently among the prior art, and technical problem that work efficiency is low provides a processingequipment is used in roller production, and this device convenient to use, work efficiency is high.

The purpose of the utility model is realized like this: a processing device for roller production comprises a cutting rack and a deburring rack, wherein a clamping mechanism and a cutting mechanism are arranged on the cutting rack, the clamping mechanism comprises a fixed seat fixed on the cutting rack, a first clamping jaw and a second clamping jaw capable of reciprocating linear motion in the front-back direction are arranged on the fixed seat, cutting grooves communicated with each other are formed in the first clamping jaw and the second clamping jaw respectively, the two cutting grooves are arranged oppositely, the cutting mechanism comprises a rotating seat capable of rotating up and down, a saw blade is rotatably connected onto the rotating seat and is positioned right above the cutting grooves, a first-stage conveying mechanism is arranged on the cutting rack on one side of the clamping mechanism and comprises a moving seat capable of reciprocating linear motion in the left-right direction, a centering mechanism is arranged on the moving seat and comprises a third clamping jaw and a fourth clamping jaw capable of reciprocating linear motion in the front-back direction, the third clamping jaw and the fourth clamping jaw are oppositely arranged; the automatic deburring machine is characterized in that two groups of conveying assemblies are symmetrically arranged on the deburring machine frame and comprise a supporting frame fixed on the deburring machine frame, at least one lower conveying wheel is rotatably connected onto the supporting frame, an upper conveying wheel which can move up and down and can rotate is connected onto the supporting frame, the upper conveying wheel is arranged right above the lower conveying wheel, two deburring assemblies are symmetrically arranged on the deburring machine frame between the conveying assemblies, each deburring assembly comprises a supporting table, polishing wheels are rotatably connected onto the supporting table, at least one supporting assembly is further arranged between the conveying assemblies, the supporting assemblies are arranged between the two polishing wheels, and the upper ends of the supporting assemblies flush with the upper ends of the lower conveying rollers.

Before the utility model works, the upper conveying wheel is adjusted to move upwards or downwards, so that the pipe can be conveyed by the upper conveying wheel and the lower conveying wheel, and the upper conveying wheel can prevent the pipe from violent shifting in the height direction, when the utility model works, the leftmost end of the pipe is placed between the clamping jaw three and the clamping jaw four, the clamping jaw four moves backwards, so that the pipe is clamped by the clamping jaw three and the clamping jaw four, the first-level conveying mechanism acts, the moving seat drives the pipe to move rightwards, when the pipe reaches between the clamping jaw one and the clamping jaw two, according to the required cutting length, the first-level conveying mechanism stops acting, the clamping jaw two moves backwards, the clamping jaw one and the clamping jaw two clamp the pipe, the cutting mechanism works, the rotating seat rotates from top to bottom, the saw blade rotates in the cutting groove while moving downwards, the saw blade rotates to cut the pipe under the rotating action of the pipe, after the pipe is cut, the rotating seat drives the, the first-stage conveying mechanism continues to work, the moving seat drives the pipe to continue to move rightwards for a set distance, the moving seat stops moving, the rotating seat rotates downwards, the saw blade cuts the pipe again, and the like, so that continuous multiple cutting is realized, a worker can place the cut pipe between the upper conveying wheel and the lower conveying wheel, the lower conveying wheel rotates clockwise, the pipe is continuously conveyed, the pipe moves onto the supporting assembly and continues to move rightwards, when the pipe moves between the two polishing wheels, one polishing wheel rotates at high speed for grinding, the pipe tends to rotate together with the polishing wheel rotating at high speed, the other polishing wheel rotates at the same direction at low speed, the pipe axially rotates at the speed close to that of the polishing wheel rotating at low speed due to the restriction effect of the polishing wheel rotating at low speed, and then a large speed difference is formed between the polishing wheel rotating at high speed and the pipe, get rid of the burr and the protruding grinding on tubular product surface, simultaneously, tubular product receives conveyor components's transport, keep moving right always, thereby realize the first burring processing to whole root tubular product, when the left end of tubular product removed the last delivery wheel on the rightmost side and down between the delivery wheel, the lower delivery wheel anticlockwise rotation on rightmost side, remove tubular product left, when tubular product removed between two polishing wheels, carry out the secondary burring, analogize on by analogy, according to actual need, the polishing number of times of intelligent management tubular product, realize the high-efficient burring work of tubular product: the clamping jaw I and the clamping jaw II in the utility model can stabilize the coffin, avoid the pipe from moving and improve the cutting precision when cutting the pipe; the movable seat, the clamping jaw III and the clamping jaw IV are combined, so that the pipe is stably conveyed to the lower part of the saw blade, continuous cutting is realized, the structure is stable, and the use is convenient; the arrangement of the deburring component realizes the intelligent position adjustment according to the type of the pipe, intelligently manages the deburring processing times, and has the advantages of high intelligent degree, convenient use, labor saving and high working efficiency; the utility model discloses can be applied to in the processing work of tubular product.

In order to realize automatic blanking after the cutting of the pipe, a blanking mechanism is arranged on the cutting frame on the other side of the clamping mechanism and comprises a blanking table connected onto the cutting frame, the pipe cut by the saw blade can fall onto the blanking table, a linear driver IV is arranged on the blanking table, a material pushing rod II capable of linearly moving back and forth in the front-rear direction is arranged on the linear driver IV, and a blanking plate is arranged on the material pushing rod II.

In order to realize automatic feeding of automatic pipes, the automatic pipe feeding device is further provided with a feeding rack, a third moving platform is arranged on the feeding rack, a sliding plate is obliquely arranged on the third moving platform from back to front downwards, the upper end of the sliding plate abuts against the lower side of the blanking plate, a guide plate is further arranged on the third moving platform below the sliding plate, a guide chute is arranged on the guide plate, and a feeding block capable of moving back and forth in the left and right directions along the guide chute is arranged on the guide plate.

In order to realize that the feeding block can reciprocate in the left-right direction, a linear driver V is arranged on the third moving platform, a push-pull rod III capable of reciprocating in the left-right direction is arranged on the linear driver V, a guide rail parallel to the material guide plate is further arranged on the third moving platform, the guide rail is arranged between the push-pull rod III and the material guide plate, a connecting block is arranged on the upper side of the guide rail, one end of the connecting block is connected with the push-pull rod in a three-phase mode, and the other end of the connecting block is connected with.

In order to realize that the supporting component supports the pipe, realize that the throwing aureola rotates, the supporting component includes the supporting seat, rotatable two parallel arrangement's backing roll of being connected with on the supporting seat, be equipped with the rotation motor on the brace table, the output shaft that rotates the motor is connected with the throwing aureola.

In order to realize that the upper conveying wheel can move up and down, threaded connection has adjusting screw on the support frame, and the one end that adjusting screw stretches into in the support frame is equipped with the regulation seat, goes up the rotatable connection of conveying wheel on adjusting the seat, the support frame is opened in the both sides of front and back direction has the adjustment tank, be equipped with on the regulation seat with adjustment tank matched with regulating block, adjusting screw's the other end is equipped with adjustment handle, and the outer one end of lower conveying roller is equipped with driving motor.

In order to realize that the clamping jaw II can reciprocate linearly in the front-back direction, namely the clamping jaw I and the clamping jaw II can clamp the pipe, the fixing seat is further provided with a linear driver I, the linear driver I is provided with a moving rod capable of reciprocating linearly in the front-back direction, and the clamping jaw II is connected with the moving rod.

Realize removing the seat and can be at the reciprocal linear motion of left and right directions, the one end that the unloading platform was kept away from to the cutting frame is equipped with the fixed plate, rotatable being connected with on the fixed plate rotates the screw rod, rotates the rotatable connection of one end that the fixed plate was kept away from to the screw rod on the fixing base, remove a threaded connection on rotating the screw rod, still be connected with at least one and the guide arm of rotating screw rod parallel arrangement on the fixed plate, the guide arm passes and removes the seat and connect on the fixing base, still be equipped with conveyer motor on the fixed plate, conveyer motor's output shaft is connected.

The fourth clamping jaw can move back and forth in a reciprocating mode, the third linear driver is arranged on the moving seat, the third linear driver is provided with a telescopic rod capable of moving back and forth in a reciprocating mode, and the telescopic rod is connected with the fourth clamping jaw.

The saw blade cutting machine is characterized in that the saw blade is rotated, a hinge seat is arranged on the cutting machine frame, the hinge seat is hinged to the hinge seat, a rotating motor is arranged on the rotating seat, the output end of the motor is provided with a driving wheel, the rotating seat is rotatably connected with a rotating shaft, one end of the rotating shaft is provided with a driven wheel, the driving wheel is in transmission connection with the driven wheel through a chain, the other end of the rotating shaft is connected with the saw blade, a second linear driver is arranged on the cutting machine frame, a second lifting push-pull rod is arranged on the second linear driver, and the upper end.

Drawings

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

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

Fig. 3 is a schematic structural diagram of the middle blanking mechanism of the present invention.

Fig. 4 is a schematic structural diagram of the middle blanking mechanism of the present invention.

Fig. 5 is a schematic structural diagram of the middle deburring mechanism of the present invention.

Fig. 6 is a schematic structural diagram of the middle deburring mechanism of the present invention.

Fig. 7 is a partial enlarged view of a portion a in fig. 6.

In the figure: 1 cutting machine frame, 101 waste material port, 102 waste material plate, 2 clamping mechanism, 201 fixed seat, 202 clamping jaw I, 203 clamping jaw II, 204 cutting groove, 205 linear driver I, 206 moving rod, 3 cutting mechanism, 301 rotating seat, 302 saw blade, 303 rotating motor, 304 driving wheel, 305 rotating shaft, 306 driven wheel, 307 linear driver II, 308 push-pull rod I, 4 primary conveying mechanism, 401 moving seat, 402 fixed plate, 403 rotating screw rod, 404 guide rod, 405 driving motor, 5 deburring mechanism, 501 conveying component, 501a supporting frame, 501b lower conveying wheel, 501c upper conveying wheel, 501d adjusting screw rod, 501e adjusting seat, 501f adjusting groove, 501g adjusting block, 501h conveying motor, 502 deburring component, 502a supporting table, 502b guiding groove, 502c polishing wheel, 502d rotating motor, 503 supporting component, 503 supporting seat, 503b supporting roller and 6 righting mechanism, the device comprises a third clamping jaw 601, a fourth clamping jaw 602, a third linear driver 603, a telescopic rod 604, a 7 blanking mechanism, a 701 blanking table, a 702 blanking plate, a fourth linear driver 703, a second pushing rod 704, an 8 feeding assembly, a 801 feeding deburring machine frame, an 802 sliding plate, a third moving table 803, a 804 guide rail, a 805 connecting block, a 806 material guide plate, a 806a material guide groove, a 807 feeding block, a fifth linear driver 808, a third pushing and pulling rod 809 and a 9 adjusting handle.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 7, a processing device for roller production comprises a cutting frame 1 and a deburring frame, a clamping mechanism 2 and a cutting mechanism 3 are arranged on the cutting frame 1, the clamping mechanism 2 comprises a fixed seat 201 fixed on the cutting frame 1, a first clamping jaw 202 and a second clamping jaw 203 capable of reciprocating in a front-back direction are arranged on the fixed seat 201, cutting grooves 204 communicated with each other are respectively arranged on the first clamping jaw 202 and the second clamping jaw 203, the two cutting grooves 204 are oppositely arranged, the cutting mechanism 3 comprises a rotating seat 301 capable of rotating up and down, a saw blade 302 is rotatably connected on the rotating seat 301, the saw blade 302 is right above the cutting grooves 204, a first-stage conveying mechanism 4 is arranged on the cutting frame 1 on one side of the clamping mechanism 2, the first-stage conveying mechanism 4 comprises a moving seat 401 capable of reciprocating in a straight line in a left-right direction, a centering mechanism 6 is arranged on the moving seat 401, the centering mechanism 6 comprises a third clamping jaw 601 and a fourth clamping jaw 602 capable of reciprocating in, the third clamping jaw 601 and the fourth clamping jaw 602 are oppositely arranged; two groups of conveying assemblies 501 are symmetrically arranged on the deburring rack, each conveying assembly 501 comprises a supporting frame 501a fixed on the deburring rack, at least one lower conveying wheel 501b is rotatably connected onto each supporting frame 501a, an upper conveying wheel 501c capable of moving up and down and rotating is connected onto each supporting frame 501a, each upper conveying wheel 501c is arranged right above each lower conveying wheel 501b, two deburring assemblies 502 are symmetrically arranged on the deburring rack between the two conveying assemblies 501, each deburring assembly 502 comprises a supporting table 503, a polishing wheel 502c is rotatably connected onto each supporting table 503, at least one supporting assembly 503 is further arranged between the two conveying assemblies 501, each supporting assembly 503 is arranged between the two polishing wheels 502c, and the upper end of each supporting assembly 503 is flush with the upper end of each lower conveying roller; a blanking mechanism 7 is arranged on the cutting frame 1 on the other side of the clamping mechanism 2, the blanking mechanism 7 comprises a blanking table 701 connected to the cutting frame 1, a pipe cut by the saw blade 302 can fall onto the blanking table 701, a linear driver IV 703 is arranged on the blanking table 701, a pushing rod II 704 capable of reciprocating in a linear motion in the front-back direction is arranged on the linear driver IV 703, and a blanking plate 702 is arranged on the pushing rod II 704; a feeding rack is further arranged, a third moving platform 803 is arranged on the feeding rack, a sliding plate 802 is obliquely arranged on the third moving platform 803 from back to front and downwards, the upper end of the sliding plate 802 abuts against the lower side of the lower plate 702, a material guide plate 806 is further arranged on the third moving platform 803 below the sliding plate 802, a material guide groove 806a is arranged on the material guide plate 806, and a feeding block 807 capable of reciprocating in the left-right direction along the material guide groove 806a is arranged on the material guide plate 806; a linear driver five 808 is arranged on the third moving platform 803, a push-pull rod three 809 capable of reciprocating in the left-right direction is arranged on the linear driver five 808, a guide rail 804 parallel to the material guide plate 806 is further arranged on the third moving platform 803, the guide rail 804 is arranged between the push-pull rod three 809 and the material guide plate 806, a connecting block 805 is arranged on the upper side of the guide rail 804, one end of the connecting block 805 is connected with the push-pull rod three 809, and the other end of the connecting block 805 is connected with the material feeding block 807; the supporting assembly 503 comprises a supporting base 503a, two supporting rollers 503b arranged in parallel are rotatably connected to the supporting base 503a, a rotating motor 502d303 is arranged on the supporting base 503, and an output shaft of the rotating motor 502d303 is connected with the polishing wheel 502 c; an adjusting screw 501d is connected to the supporting frame 501a in a threaded manner, an adjusting seat 501e is arranged at one end of the adjusting screw 501d, which extends into the supporting frame 501a, the upper conveying wheel 501c is rotatably connected to the adjusting seat 501e, adjusting grooves 501f are formed in the supporting frame 501a on two sides in the front-back direction, an adjusting block 501g matched with the adjusting grooves 501f is arranged on the adjusting seat 501e, an adjusting handle 9 is arranged at the other end of the adjusting screw 501d, and a driving motor 405 is arranged at one outward end of the lower conveying roller; the fixed seat 201 is also provided with a first linear driver 205, the first linear driver 205 is provided with a moving rod 206 capable of reciprocating linearly back and forth in a reverse direction, and the second clamping jaw 203 is connected with the moving rod 206; a fixing plate 402 is arranged at one end of the cutting machine frame 1 far away from the blanking table 701, a rotating screw 403 is rotatably connected to the fixing plate 402, one end of the rotating screw 403 far away from the fixing plate 402 is rotatably connected to the fixing seat 201, the moving seat 401 is in threaded connection with the rotating screw 403, at least one guide rod 404 parallel to the rotating screw 403 is further connected to the fixing plate 402, the guide rod 404 penetrates through the moving seat 401 to be connected to the fixing seat 201, a conveying motor 501h is further arranged on the fixing plate 402, and an output shaft of the conveying motor 501h is connected with the rotating screw 403; a third linear driver 603 is arranged on the moving seat 401, a telescopic rod 604 capable of reciprocating in a front-back direction is arranged on the third linear driver 603, and the telescopic rod 604 is connected with a fourth clamping jaw 602; a hinged seat is arranged on the cutting rack 1, the rotating seat 301 is hinged on the hinged seat, a rotating motor 502d303 is arranged on the rotating seat 301, a driving wheel 304 is arranged at the output end of the motor, a rotating shaft 305 is rotatably connected on the rotating seat 301, a driven wheel 306 is arranged at one end of the rotating shaft 305, the driving wheel 304 is in transmission connection with the driven wheel 306 through a chain, the other end of the rotating shaft 305 is connected with the saw blade 302, a linear driver II 307 is arranged on the cutting rack 1, a lifting push-pull rod I308 is arranged on the linear driver II 307, and the upper end of the push-pull rod I; the cutting machine frame 1 is provided with a waste material port 101, the frame is also provided with a waste material plate 102 extending downwards, and the waste material plate 102 is arranged right below the waste material port 101.

Before the utility model works, the adjusting handle 9 is firstly rotated to make the adjusting screw 501d move upwards or downwards on the supporting frame 501a, the adjusting block 501g on the adjusting seat 501e moves up and down along the adjusting groove 501f until the position of the upper conveying wheel 501c is proper, so that the pipe can be pushed to the position between the upper conveying wheel 501c and the lower conveying wheel 501b by the feeding block 807, and the upper conveying wheel 501c can prevent the pipe from violently moving in the height direction, when the utility model works, the leftmost end of the pipe is placed between the clamping jaw three 601 and the clamping jaw four 602, the telescopic rod 604 of the linear driver three 603 moves backwards, the clamping jaw four 602 of the telescopic rod 604 moves backwards, the pipe is pushed by the clamping jaw four 602 to move backwards until the pipe is clamped by the clamping jaw three 601 and the clamping jaw four 602, the driving motor 405 drives the rotating bolt to rotate, the moving seat 401 drives the pipe 403 to move rightwards under the guiding action of the guide rod 404, the pipe material reaches between the first clamping jaw 202 and the second clamping jaw 203, the driving motor 405 is controlled to stop acting according to the required cutting length, the moving rod 206 of the linear driver 205 pushes the second clamping jaw 203 backwards, the pipe material is clamped by the first clamping jaw 202 and the second clamping jaw 203, the cutting mechanism 3 works, the rotating motor 502d303 drives the driving wheel 304 to rotate, the driving wheel 304 drives the driven wheel 306 to rotate through chain transmission (the chain transmission in the utility model is the prior art and is not shown in the drawing), the driven wheel 306 drives the saw blade 302 to rotate through the rotating shaft 305, then the push-pull rod one 308 of the linear driver two 307 moves downwards, the push-pull rod drives the rotating seat 301 to rotate downwards around the hinge seat, namely, the saw blade 302 rotates and moves downwards while rotating, the saw blade 302 rotates to cut the pipe material on the pipe material, after the pipe material is cut, the hinge rod one 308 of the linear driver two 307 moves upwards, the push-pull rod drives the rotating seat 301, the rotating seat 301 drives the saw blade 302 to rotate upwards, then the driving motor 405 of the primary conveying mechanism 4 continues to work, the moving seat 401 drives the pipe to move rightwards continuously to a set distance, the driving motor 405 stops moving again, the push-pull rod I308 of the linear driver II 307 moves downwards, the rotating seat 301 rotates downwards, the saw blade 302 cuts the pipe again, and so on, so that the pipe is cut continuously for multiple times, the cut pipe falls onto the blanking table 701 under the action of rightward thrust, the material pushing rod II 704 of the linear driver IV 703 pushes the blanking plate 702 forwards, the blanking plate 702 pushes the pipe forwards to fall onto the material sliding plate 802, the pipe slides into the material guide groove 806a under the action of gravity, the push-pull rod III 809 of the linear driver V808 moves rightwards, the push-pull rod III 809 drives the material feeding block 807, the material feeding block 807 pushes the pipe to move rightwards to a position between the upper conveying wheel 501c and the, the conveying motor 501h acts, the lower conveying wheel 501b rotates clockwise, the lower conveying wheel 501b and the upper conveying wheel 501c continue to convey the pipe, the pipe moves onto the supporting component 503 and continues to move rightwards, when the pipe moves between the two polishing wheels 502c, the high-speed rotating motor 502d303 drives one polishing wheel 502c to rotate at high speed for grinding, the pipe tends to rotate together with the high-speed rotating polishing wheel 502c, the low-speed rotating motor 502d303 drives the other polishing wheel 502c to rotate at slow speed in the same direction, the pipe is restricted by the slow polishing wheel 502c, so that the pipe rotates axially at a speed close to that of the slow polishing wheel 502c, a large speed difference is formed between the high-speed rotating polishing wheel 502c and the pipe, burrs and bulges on the surface of the pipe are ground and removed, and meanwhile, the pipe is conveyed by the conveying component 501, the pipe is always kept moving rightwards, so that the first deburring treatment on the whole pipe is realized, when the leftmost end of the pipe moves between the rightmost upper conveying wheel 501c and the lower conveying wheel 501b, the rightmost lower conveying wheel 501b rotates anticlockwise to move the pipe leftwards, and when the pipe moves between the two polishing wheels 502c, the second deburring is performed, so on, the polishing times of the pipe are intelligently managed according to actual needs, and the efficient deburring work of the pipe is realized: the arrangement of the first clamping jaw 202 and the second clamping jaw 203 in the utility model can stabilize the coffin, avoid the pipe from moving and improve the cutting precision when cutting the pipe; the movable seat 401, the clamping jaw three 601 and the clamping jaw four 602 are jointly arranged, so that the pipe is stably conveyed to the position below the saw blade 302, continuous cutting is realized, the structure is stable, and the use is convenient; the deburring component 502 is arranged, so that the position can be intelligently adjusted according to the type of the pipe, the deburring processing times can be intelligently managed, the intelligent degree is high, the use is convenient, the labor is saved, and the working efficiency is high; the utility model discloses can be applied to in the processing work of tubular product.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some replacements and transformations for some technical features without creative labor according to the disclosed technical contents, and these replacements and transformations are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides a processingequipment is used in roller production which characterized in that: comprises a cutting machine frame and a deburring machine frame, wherein the cutting machine frame is provided with a clamping mechanism and a cutting mechanism, the clamping mechanism comprises a fixed seat fixed on the cutting machine frame, a clamping jaw I and a clamping jaw II capable of reciprocating linear motion in the front-back direction are arranged on the fixed seat, the first clamping jaw and the second clamping jaw are respectively provided with a cutting groove communicated with each other, the two cutting grooves are oppositely arranged, the cutting mechanism comprises a rotating seat which can rotate up and down, a saw blade is rotatably connected on the rotating seat, the saw blade is arranged right above the cutting groove, a first-stage conveying mechanism is arranged on the cutting machine frame on one side of the clamping mechanism, the first-stage conveying mechanism comprises a moving seat capable of reciprocating and linearly moving in the left-right direction, a righting mechanism is arranged on the moving seat, the righting mechanism comprises a third clamping jaw and a fourth clamping jaw which can reciprocate in a linear motion in the front-back direction, and the third clamping jaw and the fourth clamping jaw are arranged oppositely; the automatic deburring machine is characterized in that two groups of conveying assemblies are symmetrically arranged on the deburring machine frame and comprise a supporting frame fixed on the deburring machine frame, at least one lower conveying wheel is rotatably connected onto the supporting frame, an upper conveying wheel which can move up and down and can rotate is connected onto the supporting frame, the upper conveying wheel is arranged right above the lower conveying wheel, two deburring assemblies are symmetrically arranged on the deburring machine frame between the conveying assemblies, each deburring assembly comprises a supporting table, polishing wheels are rotatably connected onto the supporting table, at least one supporting assembly is further arranged between the conveying assemblies, the supporting assemblies are arranged between the two polishing wheels, and the upper ends of the supporting assemblies flush with the upper ends of the lower conveying rollers.

2. The processing device for producing the roller as claimed in claim 1, wherein: the blanking mechanism is arranged on the cutting frame on the other side of the clamping mechanism and comprises a blanking table connected to the cutting frame, a pipe cut by the saw blade can fall onto the blanking table, a linear driver IV is arranged on the blanking table, a material pushing rod II capable of linearly moving back and forth in the front-back direction is arranged on the linear driver IV, and a blanking plate is arranged on the material pushing rod II.

3. The processing device for producing the roller as claimed in claim 1, wherein: the feeding machine is characterized by further comprising a feeding rack, a third moving platform is arranged on the feeding rack, a sliding plate is obliquely arranged on the third moving platform from back to front downwards, the upper end of the sliding plate abuts against the lower side of the blanking plate, a guide plate is further arranged on the third moving platform below the sliding plate, a guide chute is arranged on the guide plate, and a feeding block capable of moving back and forth in the left and right directions along the guide chute is arranged on the guide plate.

4. The processing device for producing the roller as claimed in claim 3, wherein a linear actuator V is provided on the third movable table, a push-pull rod III capable of reciprocating in the left-right direction is provided on the linear actuator V, a guide rail parallel to the material guide plate is provided on the third movable table, the guide rail is provided between the push-pull rod III and the material guide plate, a connecting block is provided on the upper side of the guide rail, one end of the connecting block is connected with the push-pull rod in a three-phase manner, and the other end of the connecting block is connected with the material feeding block.

5. The processing device for producing the roller as claimed in claim 1, wherein the supporting assembly comprises a supporting base, two supporting rollers arranged in parallel are rotatably connected to the supporting base, a rotating motor is arranged on the supporting base, and an output shaft of the rotating motor is connected with the polishing wheel.

6. The processing device for the roller production as claimed in claim 5, wherein the supporting frame is connected with an adjusting screw through a screw thread, an adjusting seat is arranged at one end of the adjusting screw extending into the supporting frame, the upper conveying wheel is rotatably connected to the adjusting seat, adjusting grooves are formed in the supporting frame at two sides in the front-back direction, an adjusting block matched with the adjusting grooves is arranged on the adjusting seat, an adjusting handle is arranged at the other end of the adjusting screw, and a driving motor is arranged at one end of the lower conveying roller facing outwards.

7. The processing device for producing the roller as claimed in claim 1, wherein: the fixing seat is further provided with a first linear driver, the first linear driver is provided with a moving rod capable of reciprocating linearly in the front-back direction, and the second clamping jaw is connected with the moving rod.

8. The processing device for producing the roller as claimed in claim 7, wherein: the one end that the unloading platform was kept away from to the cutting frame is equipped with the fixed plate, rotatable being connected with on the fixed plate rotates the screw rod, rotates the rotatable connection of one end that the fixed plate was kept away from to the screw rod and is on the fixing base, remove a threaded connection on rotating the screw rod, still be connected with at least one on the fixed plate and rotate screw rod parallel arrangement's guide arm, the guide arm passes and removes a connection on the fixing base, still be equipped with the conveying motor on the fixed plate, the output shaft of conveying motor is connected with the rotation screw rod.

9. The processing device for producing the roller as claimed in claim 8, wherein: the moving seat is provided with a third linear driver, the third linear driver is provided with a telescopic rod capable of reciprocating in the front-back direction, and the telescopic rod is connected with the clamping jaw in a four-phase mode.

10. The processing device for producing the roller as claimed in claim 9, wherein: the cutting machine is characterized in that a hinged seat is arranged on the cutting machine frame, the rotating seat is hinged to the hinged seat, a rotating motor is arranged on the rotating seat, an output end of the motor is provided with a driving wheel, the rotating seat is rotatably connected with a rotating shaft, one end of the rotating shaft is provided with a driven wheel, the driving wheel is in transmission connection with the driven wheel through a chain, the other end of the rotating shaft is connected with a saw blade, a linear driver II is arranged on the cutting machine frame, a liftable push-pull rod I is arranged on the linear driver II, and the upper end of the push.

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