CN118023930B - Panel processing agency - Google Patents

Abstract

The invention relates to the technical field of plate processing, in particular to a plate processing mechanism, which comprises a feeding mechanism, a working frame and a cutting processing mechanism, wherein the feeding mechanism is provided with a quantity control station, a feeding clamping jaw is arranged facing the quantity control station, and a feeding part is arranged away from the quantity control station by the feeding clamping jaw; the working machine frame is provided with a transfer mechanism facing the feeding part, the transfer mechanism comprises a Y-axis moving pair and an X-axis moving pair, the Y-axis moving pair is in driving connection with the working machine frame, two groups of Y-axis moving guide rails are oppositely arranged on the periphery of the Y-axis moving pair, the Y-axis moving pair is provided with a sliding rail in a protruding way facing the feeding part, and the X-axis moving pair is in driving connection with the Y-axis moving guide rails and is provided with a clamping assembly facing the sliding rail; the cutting mechanism is arranged at the side edge of the working frame and connected to the sliding rail, and is provided with a cutting assembly and a drilling assembly facing the clamping assembly at intervals. The invention aims to improve the processing efficiency of a plate.

Description

Panel processing agency

Technical Field

The invention relates to the technical field of plate processing, in particular to a plate processing mechanism.

Background

The plate processing mechanism is high-precision processing equipment integrating numerical control technology, automation technology and advanced processing technology, and is characterized in that the movement and the processing process of a machine tool are controlled through a computer so as to realize high-precision and high-efficiency processing, the plate processing process can be precisely controlled through programming and designing a plate drawing by an operator, and the plate processing mechanism is provided with an automation workbench so as to realize automatic transfer and positioning of a plate in the processing process, and ensure the processing precision and consistency.

In the related art, the feed mechanism of panel processing mechanism connects in the side edge of automation workstation, go up panel to on the automation workstation through feed mechanism, be equipped with vice and conveyer belt on the automation workstation, processing subassembly connects on the vice, can reach the optional position of panel top with processing subassembly through vice, make things convenient for processing subassembly to punch for panel, after processing is accomplished, automation workstation transmits panel to cutting mechanism, for the job stabilization of guarantee cutting mechanism, cutting mechanism can't freely remove, need extra moving mechanism to make panel can be cut smoothly, whole organism structure is complicated, and can't accomplish the processing through automation workstation is integrative, whole machining efficiency is not good.

Disclosure of Invention

The invention mainly aims to provide a plate processing mechanism which aims to improve the processing efficiency of plates.

In order to achieve the above purpose, the invention provides a plate processing mechanism, which comprises a feeding mechanism, a working frame and a cutting processing mechanism:

The feeding mechanism is provided with a quantity control station, a feeding clamping claw is arranged facing the quantity control station, and a feeding part is arranged far away from the quantity control station;

The working machine frame is connected to the side edge of the feeding mechanism, a transfer mechanism is arranged facing the feeding portion, the transfer mechanism comprises a Y-axis moving pair and an X-axis moving pair, the Y-axis moving pair is connected to the working machine frame in a driving manner along the extending direction of the working machine frame, two groups of Y-axis moving guide rails are oppositely arranged on the periphery of the Y-axis moving pair, a sliding rail is convexly arranged on the Y-axis moving pair facing the feeding portion, the X-axis moving pair is connected to the Y-axis moving guide rail in a driving manner and is provided with a clamping assembly facing the sliding rail, a drilling pressing pair is connected to the side edge of the sliding rail in a rotating manner, and the drilling pressing pair is wrapped on the sliding rail and is arranged opposite to the clamping assembly; and

The cutting and processing mechanism is arranged on the side edge of the working machine frame and connected to the sliding rail, the cutting and processing mechanism is provided with a cutting assembly and a drilling assembly facing the clamping assembly, and the cutting assembly and the drilling assembly are arranged at intervals.

In one embodiment of the present application, the cutting mechanism includes a gantry main column and an operation table:

The gantry main column is connected to the side edge of the working frame and is positioned above the sliding rail, and the cutting assembly and the drilling assembly are connected to the gantry main column; and

The operation panel wears to locate the longmen principal post, and connect in the bottom edge of slip track, drilling subassembly and cutting assembly face the operation panel is equipped with intelligent swager subassembly, cutting assembly wears to locate the operation panel.

In an embodiment of the application, the cutting assembly is abutted to the gantry main column, the cutting assembly comprises an upper cutting part, a lower cutting part and a cutting knife, the cutting knife is arranged on the operating platform in a penetrating mode, the gantry main column is provided with an upper frame corresponding to the upper cutting part, a lower frame corresponding to the lower cutting part, the upper cutting part is provided with a protective net facing the operating platform, the protective net is connected to the periphery of the upper cutting part, and the periphery of the lower cutting part is provided with a chamfer knife corresponding to the cutting knife.

In an embodiment of the present application, the upper frame extends out of the temporary storage portion along a direction away from the working frame, a positioning track is provided between the temporary storage portion and the cutting assembly, the drilling assembly is in driving connection with the positioning track, and one end of the temporary storage portion away from the drilling assembly is connected with a tool magazine.

In an embodiment of the present application, the operation table is provided with a cutting support block protruding toward the upper cutting portion, the cutting knife is inserted into the cutting support block, the cutting support block is flush with the sliding track, the operation table is provided with a dust filtering net in a penetrating manner, and the dust filtering net is wrapped around the cutting support block and is disposed toward the lower cutting portion.

In an embodiment of the application, one end of the lower cutting part, which is away from the operation table, is connected with a dust collection assembly, a dust collection end is arranged on the dust collection assembly facing the operation table, a avoidance hole is formed in the dust collection end, the cutting knife penetrates through the avoidance hole, dust collection parts are arranged on the dust collection end facing the dust filtering net, at least two groups of dust collection parts are oppositely arranged, one end of the dust collection parts, which is away from the dust filtering net, is connected with a guide pipe, and the guide pipe penetrates through the lower cutting part and is communicated with the dust collection assembly.

In an embodiment of the present application, the sliding rail is provided with an intelligent drilling support facing the drilling assembly, the intelligent drilling support is abutted against the sliding rail along the extension direction of the X-axis moving pair, the drilling and pressing pair comprises a telescopic rod and a pressing roller, the telescopic rod is rotatably connected to one end of the intelligent drilling support, which is away from the working frame, the pressing roller is connected to the telescopic rod, and the pressing roller is wrapped around the sliding rail.

In an embodiment of the application, the clamping assemblies are provided with a plurality of groups, the clamping assemblies are uniformly arranged at intervals, the X-axis moving pair is provided with an air cylinder facing the clamping assemblies, the air cylinder penetrates through the X-axis moving pair and is in driving connection with the clamping assemblies, the peripheral edge of the clamping assemblies is provided with a tail pushing assembly facing the cutting and processing mechanism, and the tail pushing assembly is connected with one end of the clamping assemblies, which is away from the X-axis moving pair.

In an embodiment of the application, the feeding mechanism further comprises a placing station, the placing station is connected to the side edge of the quantity control station and is arranged at intervals with the quantity control station, the quantity control station is provided with a control box, the feeding mechanism faces the quantity control station and the placing station and is provided with a transfer rail, the transfer rail is communicated with the feeding part, and the feeding clamping claw is in driving connection with the transfer rail.

In an embodiment of the application, the feeding clamping jaw comprises a transfer suction jaw and a feeding level:

the transfer suction claws are connected to the end face of the feeding clamping claw facing the placing station, and are provided with a plurality of groups of transfer suction claws which are arranged at intervals; and

The feeding device comprises a feeding clamping jaw and is characterized in that the feeding level is connected with the outer edge of the feeding clamping jaw, a plurality of groups of feeding levels are arranged, the feeding portions are uniformly arranged at intervals and are wrapped on the outer edge of the transferring suction jaw, the feeding level comprises a driving piece and a hook jaw, the driving piece is in driving connection with the hook jaw, the hook jaw is in sliding connection with the feeding clamping jaw, and the hook jaw is located below the transferring suction jaw.

According to the technical scheme of the invention, an automatic operation is completed by adopting a feeding mechanism to connect a working frame, a quantity control station is arranged on the feeding mechanism, the quantity control station can calculate and feed back the quantity of the plates placed on the feeding mechanism, a feeding clamping claw is used for transferring the plates, after the quantity of the plates stored in the quantity control station reaches a specified quantity, the feeding clamping claw clamps a plurality of groups of plates to a feeding part for feeding, the working frame is connected to the feeding mechanism, the feeding mechanism is provided with a transfer mechanism, the transfer mechanism consists of a Y-axis moving pair and an X-axis moving pair, the moving direction of the Y-axis moving pair is the extending direction of the working frame, a cutting machining mechanism is arranged on the side edge of the working frame, the cutting machining mechanism is connected to the Y-axis moving pair, a cutting assembly and a drilling assembly are arranged on the cutting machining mechanism at intervals, the Y-axis moving pair is provided with a sliding rail, when the plates are fed, the plates are driven to the sliding rail directly, the sliding rail can be reciprocally moved between the feeding mechanism, the cutting assembly and the drilling assembly by mutually matched with the sliding rail, the Y-axis moving pair can move towards the X-axis moving pair, when the cutting assembly moves away from the X-axis moving pair to the X-axis moving pair, and the cutting assembly can move towards the X-axis moving pair, and the plate can move towards the X-axis moving pair and cut assembly when the cutting assembly is relatively to the plate, and the plate is cut, and the plate can move towards the X-axis and the X-axis moving pair and the X-axis assembly, and the plate is cut by the plate, and the plate is cut by the X-moving assembly, and the X-to the X-and the plate, and the plate is cut. Simultaneously can be high-efficient and stable carry out accurate cutting to panel, after the cutting finishes, the Y axle removes the guide rail and carries panel recovery, and Y axle shifting pair continues to drive panel to reach drilling subassembly department, through mutually supporting between Y axle removes guide rail, X axle shifting pair and the drilling subassembly, also can very light and quick arbitrary assigned position to multiunit panel drills, and whole organism can cut/drill simultaneously to multiunit panel automatic high efficiency, need not to shift panel position many times in the course of working, can effectively improve work efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an embodiment of a sheet processing mechanism according to the present invention;

FIG. 2 is a schematic diagram of a feeding mechanism according to an embodiment of the plate processing mechanism of the present invention;

FIG. 3 is a schematic view of a working frame of an embodiment of a sheet processing mechanism according to the present invention;

FIG. 4 is a front view of a work frame of an embodiment of a sheet processing mechanism of the present invention;

fig. 5 is a side view of a work frame of an embodiment of a sheet processing mechanism of the present invention.

Reference numerals illustrate:

1. A feeding mechanism; 11. a number control station; 12. a placement station; 13. transferring the track; 131. a feeding part; 14. feeding clamping jaws; 15. transferring a suction claw; 16. feeding the material; 161. a driving member; 162. a hook claw; 2. a work rack; 3. a transfer mechanism; 31. y-axis moving pairs; 311. a Y-axis moving guide rail; 312. a sliding rail; 313. intelligent drilling support; 32. drilling and pressing a material pair; 321. a telescopic rod; 322. a pinch roller; 33. an X-axis moving pair; 4. a clamping assembly; 41. a cylinder; 42. a tail pushing assembly; 5. a cutting and processing mechanism; 6. a cutting assembly; 61. an upper cutting part; 62. a lower cutting part; 63. a cutting knife; 7. a drilling assembly; 71. an intelligent material pressing component; 8. a gantry main column; 81. an upper frame; 82. a protective net; 83. a temporary storage section; 84. positioning a track; 85. a tool magazine; 86. a lower frame; 9. an operation table; 91. cutting the support block; 92. a dust filtering net; 10. a dust collection assembly; 101. a dust collection end; 102. avoidance holes; 103. a dust collection part; 104. a catheter.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

Referring to fig. 1 to 5, in an embodiment of the present invention, a sheet processing mechanism is provided, which includes a feeding mechanism 1, a work frame 2, and a cutting mechanism 5, wherein the feeding mechanism 1 is provided with a number control station 11, a feeding clamping jaw 14 is provided facing the number control station 11, and the feeding clamping jaw 14 is provided with a feeding portion 131 away from the number control station 11; the working machine frame 2 is connected to the side edge of the feeding mechanism 1, a transfer mechanism 3 is arranged on the upper surface of the feeding portion 131, the transfer mechanism 3 comprises a Y-axis moving pair 31 and an X-axis moving pair 33, the Y-axis moving pair 31 is connected to the working machine frame 2 in a driving manner along the extending direction of the working machine frame 2, two groups of Y-axis moving guide rails 311 are oppositely arranged on the periphery of the Y-axis moving pair 31, a sliding rail 312 is convexly arranged on the upper surface of the feeding portion 131, the X-axis moving pair 33 is connected to the Y-axis moving guide rails 311 in a driving manner, a clamping assembly 4 is arranged on the upper surface of the sliding rail 312, a drilling press pair 32 is rotatably connected to the side edge of the sliding rail 312, and the drilling press pair 32 is wrapped on the sliding rail 312 and is arranged relative to the clamping assembly 4; the cutting mechanism 5 is arranged at the side edge of the working frame 2 and is connected with the sliding rail 312, the cutting mechanism 5 is provided with a cutting assembly 6 and a drilling assembly 7 facing the clamping assembly 4, and the cutting assembly 6 and the drilling assembly 7 are arranged at intervals.

In the plate processing mechanism of the application, the plate processing mechanism comprises a feeding mechanism 1 and a working frame 2, the feeding mechanism 1 is connected with the working frame 2 to complete automatic operation, a quantity control station 11 which can calculate and feed back the quantity of plates placed on the feeding mechanism 1 is arranged on the feeding mechanism 1, a feeding clamping jaw 14 is used for transferring the plates, after the quantity of the plates stored in the quantity control station 11 reaches a specified quantity, the feeding clamping jaw 14 clamps a plurality of groups of plates at a feeding part 131 for feeding, the working frame 2 is connected with the feeding mechanism 1, the feeding mechanism 1 is provided with a transfer mechanism 3, the transfer mechanism 3 consists of a Y-axis moving pair 31 and an X-axis moving pair 33, the moving direction of the Y-axis moving pair 31 is the extending direction of the working frame 2, the side edge of the working frame 2 is provided with a cutting mechanism 5, the cutting mechanism 5 is connected with the Y-axis moving pair 31, and the cutting mechanism 5 is provided with a cutting assembly 6 and a drilling assembly 7 at intervals, the Y-axis moving pair 31 is provided with a sliding rail 312 facing the upper surface of the upper surface clamping jaw 14, when the plates are fed, the plates can be directly fed onto the sliding rail 312, the plates can reciprocate among the feeding mechanism 1, the cutting assembly 6 and the drilling assembly 7 through the mutual matching of the sliding rail 312 and the Y-axis moving pair 31, one end of the Y-axis moving pair 31, which is far away from the cutting mechanism 5, is relatively provided with two groups of Y-axis moving guide rails 311, the X-axis moving pair 33 is in driving connection with the Y-axis moving guide rails 311, the X-axis moving pair 33 can reciprocate towards the cutting assembly 6, the X-axis moving pair 33 faces the cutting mechanism 5, the clamping assembly 4 can clamp a plurality of groups of plates simultaneously, when the Y-axis moving pair 31 drives the plates to reach the cutting assembly 6 after the plates are fed, after the position adjustment is finished, the X-axis moving pair 33 pushes the plate to enter the cutting assembly 6 to cut, the cutting assembly 6 is fixed, the friction force in the X-axis direction of the sliding rail 312 is small, the plate can be cut accurately, meanwhile, the plate can be efficiently and stably cut, after the cutting is finished, the Y-axis moving rail 311 carries the plate to be recovered, the Y-axis moving pair 31 continues to drive the plate to reach the drilling assembly 7, the plate can be matched with the drilling assembly 7 through the Y-axis moving rail 311, the X-axis moving pair 33 and the drilling assembly 7, holes can be easily and rapidly formed in any appointed position of a plurality of groups of plates, the whole machine body can cut/drill a plurality of groups of plates simultaneously automatically and efficiently, the plate position is not required to be transferred for a plurality of times in the machining process, and the working efficiency can be effectively improved.

Further, the feeding clamping jaw 14 comprises a transferring suction jaw 15 and a feeding level 16, the transferring suction jaw 15 is provided with a plurality of groups, the transferring suction jaws 15 are uniformly arranged on the end face of the feeding clamping jaw 14 facing the placing station 12 at intervals, the transferring suction jaw 15 is of an air pump connection sucking disc structure, the plurality of groups of transferring suction jaws 15 can safely and stably transfer the boards on the placing station 12 to the quantity control station 11, the transferring track 13 is also provided with a pushing mechanism facing the quantity control station 11, the pushing mechanism is also provided with an air cylinder 41 similar to the clamping assembly 4, the end face of the air cylinder 41 on the pushing mechanism facing away from the pushing mechanism is provided with a flexible abutting block, the flexible abutting block is pushed by the air cylinder 41 to push the stacked boards, and the end face of the boards facing away from the pushing mechanism is provided with a limiting block, under the cooperation of pushing equipment and limiting piece, the state is neat straight when can guaranteeing that panel piles up, can make things convenient for the material loading clamp claw 14 to carry, when quantity reaches the upper limit, transfer suction claw 15 stop work, material loading position 16 begins to start, material loading position 16 is equipped with the multiunit, multiunit material loading position 16 evenly spaced sets up, and wrap up in the outer fringe that transfers suction claw 15, material loading position 16 includes driving piece 161 and collude claw 162, driving piece 161 is general cylinder 41, same motor, lead screw also can play similar effect, collude claw 162 sliding connection and in material loading clamping jaw 14, through the driving piece 161 drive, collude claw 162 will hook multiunit panel simultaneously, and transfer by material loading clamping jaw 14 department to carry out the material loading, through handling multiunit panel simultaneously, can effectively improve work efficiency.

Further, the upper surface of the working frame 2 is provided with the transfer mechanism 3 on the feeding portion 131, in this embodiment, an adjusting rack is disposed on the working frame 2 along the extending direction of the working frame 2, a driving gear is disposed on the Y-axis moving pair 31 and faces the adjusting rack, the driving gear is connected to a Y-axis driving motor, the Y-axis driving motor can drive the Y-axis moving pair 31 to move the plate between the cutting mechanisms 5, the Y-axis moving guide rail 311 is also in a rack structure, the driving motor is disposed at two ends of the X-axis moving pair 33, the driving motor enables the X-axis moving pair 33 to push the plate or pull the plate, the matching of the rack and the gear can enable the motion mode to be more precise, the processing precision of the plate can be effectively improved, the processing quality can be improved, the driving structure is changed into a structure of a lead screw matching sliding block, the lead screw is utilized, the sliding block is a moving pair can be driven to adjust the position, the lead screw is replaced with a belt pulley, a similar effect can be achieved through the belt pulley driving the moving pair, the main body of the X-axis moving pair 33 is a group of X-axis moving rods, the X-axis moving rod is connected with two driving motors, and the X-axis moving pair is provided with the two driving shafts, and the X-axis moving pair can be used for pushing and the plate recycling assembly 4.

Further, in this embodiment, the sliding rail 312 includes a plurality of sliding rails, the plurality of sliding rails are all disposed at intervals along the direction of the X-axis movement, the base of the sliding rail is made of metal, and a metal reinforcement is disposed between adjacent sliding rails, for ensuring the overall firmness of the sliding rail 312 when the plate slides, avoiding damage to the sliding rail 312 itself when the plate is driven, the sliding rail is provided with a sliding portion facing the plate, for avoiding overlarge contact area between the plate and the sliding rail 312, resulting in rising friction force, the sliding portion of this embodiment is made of bakelite, being capable of being replaced conveniently, ensuring the smoothness of the surface of the sliding rail under the condition of ensuring a little strength, avoiding wearing the plate, the bakelite being connected to the operation table 9, for facilitating the transfer of the plate, and the bakelite being higher than the operation table 9 in horizontal height, for avoiding the plate from being excessively high in resistance of the cutting knife 63 and the operation table 9 during processing, the position of the plates stacked together is deviated, the processing quality of the plates is reduced, the height of one end of the plates, which is connected with the operation table 9, is gradually reduced along the direction facing the operation table 9 in order to enable the plates to normally work, the clamping assembly 4 is used for easily pulling the plates back onto the plates after the plates completely enter the operation table 9, the mechanism is convenient to operate, the sliding rail 312 is provided with the intelligent drilling support 313 facing the drilling assembly 7 along the moving direction of the Y-axis moving pair 31, the intelligent drilling support 313 is connected between the adjacent sliding rails, the supporting effect can be achieved when the plates are drilled, the damage of the transfer mechanism 3 is avoided, the reinforcing effect can be also achieved, the structural strength of the transfer mechanism 3 is enhanced, the intelligent drilling support 313 is designed to be lifted and leveled with the sliding rail 312 when drilling is required, when the drilling is accomplished to when the panel needs to cut, will be retrieved into the enhancement portion, the outer fringe department rotation at the both ends slide rail of slip track 312 is connected with drilling swager pair 32, drilling swager pair 32 includes telescopic link 321 and pinch roller 322, telescopic link 321 rotates the one end of connecting in intelligent drilling support 313 deviating from operation panel 9, the other end rotation of telescopic link 321 is connected with pinch roller 322, when panel material loading, make pinch roller 322 be in operation panel 9 departments through the rotation of telescopic link 321, can not hinder the material loading, after the material loading finishes, telescopic link 321 rotates and resets, and telescopic link 321 is retracted, pinch roller 322 presses to the panel surface, the one end of panel is pressed from both sides tightly by clamping component 4, the other end is pressed tightly by pinch roller 322, can make the stability of panel state when Y axle kinematic pair 31 transport, avoid panel pine to take off, pinch roller 322 itself is the cylinder, X axle kinematic pair 33 during operation, pinch roller 322 also can not hinder panel motion, and when panel material loading, make pinch roller 322 be in clamping component 4 and intelligent drilling support 313 department, the dust that produces keeps off can be partly by the pinch roller 322, can be experienced at the machine body after the improvement of the user of the panel, the convenience of use.

Further, in this embodiment, clamping assembly 4 includes cylinder 41, down press from both sides tight casing and go up clamping part, down press from both sides tight casing and connect in X axle movable pair 33, cylinder 41 wears to locate in the X axle movable rod, cylinder 41 drive connection is in last grip block, and go up the middle part of clamping part and rotate again and connect in down pressing from both sides tight casing, go up clamping part and include splint and lever assembly, when cylinder 41 starts, promote the lever assembly, make splint cooperation down press from both sides tight casing and press from both sides tight multiunit panel, reverse work's cylinder 41 then with the lever assembly pullback, splint loosen the panel through rotating, can make things convenient for panel unloading, clamping assembly 4 are equipped with the multiunit simultaneously, multiunit clamping assembly 4 evenly spaced sets up, can improve the effect of pressing from both sides tight panel, avoid panel pine to take off, and in this embodiment, the tip that clamping assembly 4 deviates from cylinder 41 is equipped with protective structure, protective structure generally is wave rubber material constitution, the opening part of clamping assembly 4 relatively sets up two sets up the clamping ability that can effectively improve clamping assembly 4, can avoid pine to take off, the clamping assembly 4 at both ends is equipped with tailstock release assembly 42, through small-size 41, after tailstock 4 loosens, can make material can be set up for material through the ejector pin mechanism, can make the material through setting up evenly under the ejector pin assembly, can take out the panel, and take out material through setting up 4.

Further, the cutting assembly 6 comprises an upper cutting part 61, a lower cutting part 62 and a cutting knife 63, the gantry main column 8 is relatively provided with an upper frame 81 and a lower frame 86, the cutting knife 63 is penetrated through the operation table 9, the cutting assembly 6 can work more stably, the upper frame 81 is provided with a protective net 82 facing the operation table 9, the protective net 82 is connected with the periphery of the upper cutting part 61, dust generated by cutting a plate can be reduced to fly away, the plate processing mechanism works more environment-friendly, the upper frame 81 is provided with a temporary storage part 83 along the direction deviating from the working frame 2, the drilling assembly 7 is stopped at the temporary storage part 83 in the non-working state/when maintenance is needed, the temporary storage part 83 exceeding the working frame 2 can enable the drilling assembly 7 to be maintained more conveniently, the temporary storage part 83 is provided with a tool magazine 85, the drill bit that can replace, the drill bit of multiple model, even water spray shower nozzle all can store on this replacement frame, drilling subassembly 7 is drilling and is accomplished the back, can change water spray shower nozzle at temporary storage 83 for the drilling department of clearance panel, can improve panel machining efficiency, also make things convenient for follow-up cleanness, and go up frame 81 and be equipped with positioning rail 84 between temporary storage 83 and cutting subassembly 6, the panel is cut the below of accomplishing the back and delivering to positioning rail 84, only X axle kinematic pair 33 can normally work this moment, and drilling subassembly 7 can freely remove in the top Y axle direction of panel under positioning rail 84's help, can make drilling subassembly 7 drill in the optional position of panel through positioning rail 84 and X axle kinematic pair 33 mutually supporting, effectively improve work efficiency.

Further, the operation panel 9 faces upward and cuts portion 61 and is provided with cutting supporting shoe 91, cutting supporting shoe 91 wraps around in cutting knife 63, and its level is parallel and level with the bakelite, panel one end is connected in the bakelite when cutting, the other end is connected in cutting supporting shoe 91, can make panel be in unsettled state except cutting the position through cutting supporting shoe 91, can reduce the resistance that panel received, when conveniently impel the panel, avoid because resistance leads to taking place the skew between the polylith panel, lead to cutting quality poor, operation panel 9 is provided with dust filter 92 at the periphery of supporting shoe, dust filter 92 wraps around in the supporting shoe setting, and be provided with dust collection assembly 10 under the dust filter 92, improve dust removal efficiency through this kind of structure, can effectively maintain user's health, the environmental protection.

Further, dust collection assembly 10 is equipped with dust collection end 101 towards dust filtering net 92, the centre of dust collection end 101 is equipped with dodges hole 102, cut cutter 63 wears to locate dodge hole 102 for avoid influencing the normal work of machine, dust collection end 101 evenly is provided with a plurality of dust collection parts 103 in the periphery circumference of dodging hole 102, dust collection part 103 is the funnel structure, can improve the suction through the fan, reduce pollution, every dust collection part 103 is connected with pipe 104, pipe 104 wears to locate down cuts part 62, and communicate in dust collection assembly 10, dust collection assembly 10's inside is equipped with the filter chamber, the filter chamber is equipped with the filter core, fan and air outlet, dust that processing produced can be collected to the high efficiency through above structure, when improving work efficiency, reduce pollution, the environmental protection.

Referring to fig. 1 to 5 in combination, in an embodiment of the present application, the cutting mechanism 5 includes a gantry main column 8 and an operation table 9, the gantry main column 8 is connected to a side edge of the working frame 2 and above the sliding rail 312, and the cutting assembly 6 and the drilling assembly 7 are connected to the gantry main column 8; the operation panel 9 wears to locate longmen principal post 8 to connect in the bottom edge of sliding rail 312, drilling subassembly 7 and cutting subassembly 6 are equipped with intelligent swager subassembly 71 towards operation panel 9, and cutting subassembly 6 wears to locate operation panel 9.

In the plate processing mechanism, a cutting processing mechanism 5 is arranged on the side edge of a working frame 2, the cutting processing mechanism 5 is connected with a Y-axis moving pair 31, a cutting component 6 and a drilling component 7 are arranged on the cutting processing mechanism 5 at intervals, a sliding rail 312 is arranged on the Y-axis moving pair 31 facing a feeding clamping jaw 14, when the plates are fed, the plates directly go up to the sliding rail 312, the plates can be reciprocally moved among the feeding mechanism 1, the cutting component 6 and the drilling component 7 through the mutual matching of the sliding rail 312 and the Y-axis moving pair 31, two groups of Y-axis moving rails 311 are oppositely arranged at one end of the Y-axis moving pair 31 facing away from the cutting processing mechanism 5, an X-axis moving pair 33 is in driving connection with the Y-axis moving rail 311, the X-axis moving pair 33 can reciprocally move towards the cutting component 6, the X-axis moving pair 33 faces the cutting processing mechanism 5 and is provided with a clamping component 4, after the plates are fed, the clamping assembly 4 can clamp a plurality of groups of plates simultaneously, when the Y-axis moving pair 31 drives the plates to reach the cutting assembly 6, and after the position adjustment is finished, the X-axis moving pair 33 pushes the plates to enter the cutting assembly 6 for cutting, the cutting assembly 6 is fixed, the friction force in the X-axis direction of the sliding rail 312 is small, the plates can not be scratched, meanwhile, the plates can be cut accurately and efficiently and stably, the working efficiency can be effectively improved through an integrated machine, the operating table 9 penetrates through the gantry main column 8 and is connected to the sliding rail 312 for facilitating the subsequent processing, the drilling assembly 7 and the cutting assembly 6 are respectively provided with the intelligent pressing assembly 71 facing the operating table 9, when any one of the drilling assembly 7 and the cutting assembly 6 works, the intelligent pressing assembly wrapped on the outer edge of the assembly can be positioned according to the positioning assembly arranged inside the pressing assembly, when positioning the processing position back, according to the control of locating component, inside drawing of system and operating system, intelligent swager subassembly 71 will descend to will wait to process the multiunit panel of processing position department, rethread drilling subassembly 7 and cutting subassembly 6, it is comparatively obvious to compress tightly the position department atress of waiting to process because waiting to process the position department, if not refuel and press from both sides tightly, the risk that the panel that the multichip piles up together exists the dislocation, result in the processingquality of panel is not good, through intelligent compressing tightly waiting to process the department, can save energy, avoid the panel to appear the skew in the source, and the contact surface is little can effectively increase pressure, can further improve the effect of compressing tightly, improve the machining effect in the time of saving energy, in this embodiment, drilling subassembly 7 all is equipped with intelligent swager subassembly 71 with cutting subassembly 6 on cutting portion 61, intelligent swager subassembly 71 wraps drilling head and cuts the setting of cutting knife 63, drilling intelligent swager subassembly 71 sets up towards intelligent drilling support 313, through two structures mutually supporting, can effectively improve drilling precision and effect, and cut intelligent swager subassembly 71 and set up towards cutting support 91, both can reduce the contact surface and press from both sides tight mode and improve the processing effect in order to improve the processing efficiency.

Referring to fig. 1 to 4, in an embodiment of the application, the cutting assembly 6 is abutted against the gantry main column 8, the cutting assembly 6 includes an upper cutting portion 61, a lower cutting portion 62 and a cutting blade 63, the cutting blade 63 is disposed through the console 9, the gantry main column 8 is provided with an upper frame 81 opposite to the upper cutting portion 61 and a lower frame 86 opposite to the lower cutting portion 62, the upper cutting portion 61 is provided with a protective screen 82 facing the console 9, the protective screen 82 is connected to the periphery of the upper cutting portion 61, and the periphery of the lower cutting portion 62 is provided with a chamfer blade opposite to the cutting blade 63.

In the plate processing mechanism, the cutting assembly 6 comprises the upper cutting part 61, the lower cutting part 62 and the cutting knife 63, the gantry main column 8 is relatively provided with the upper frame 81 and the lower frame 86, the cutting knife 63 is penetrated through the operation table 9, the work of the cutting assembly 6 can be more stable, the upper frame 81 faces the operation table 9 and is provided with the protective net 82, the protective net 82 is connected with the periphery of the upper cutting part 61, dust generated by cutting plates can be reduced to fly, the plate processing mechanism is more environment-friendly in work, the upper frame 81 is provided with the temporary storage part 83 along the direction deviating from the working frame 2, the drilling assembly 7 is stopped at the temporary storage part 83 in the non-working state/when maintenance is needed, the temporary storage part 83 exceeding the working frame 2 can enable the drilling assembly 7 to be more conveniently maintained, the temporary storage part 83 is provided with the tool magazine 85, the replaceable drill bit, the drill bits of various types and even the water spray nozzles can be stored on the replacing frame, the water spray nozzles can be replaced at the temporary storage part 83 after the drilling of the drilling assembly 7 is completed, the drilling part for cleaning the plate can be used for improving the processing efficiency of the plate and facilitating the subsequent cleaning, the upper frame 81 is provided with the positioning rail 84 between the temporary storage part 83 and the cutting assembly 6, the plate is sent to the lower part of the positioning rail 84 after the cutting is completed, only the X-axis moving pair 33 can normally work at the moment, the drilling assembly 7 can freely move in the Y-axis direction above the plate under the help of the positioning rail 84, the drilling assembly 7 can drill at any position of the plate through the mutual matching of the positioning rail 84 and the X-axis moving pair 33, the working efficiency is effectively improved, one end of the cutting blade 63 is connected with the lower cutting part 62, the lower cutting part 62 is provided with a chamfering blade relative to the cutting blade 63, the chamfer sword is connected in the periphery of lower cutting portion 62 to wrap up in cutting knife 63 setting, can solve because the produced burr of cutter cutting principle through the chamfer sword, make the panel product quality of cutting out obtain promoting, can effectively improve the practicality of mechanism.

Referring to fig. 5 in combination, in an embodiment of the present application, the upper frame 81 extends out of the temporary storage portion 83 along a direction away from the working frame 2, a positioning track 84 is disposed between the temporary storage portion 83 and the cutting assembly 6, the drilling assembly 7 is connected to the positioning track 84 in a driving manner, and a tool magazine 85 is connected to an end of the temporary storage portion 83 away from the drilling assembly 7.

In the plate processing mechanism, the upper frame 81 is provided with the temporary storage part 83 along the direction deviating from the working frame 2, the drilling assembly 7 is stopped at the temporary storage part 83 in the non-working state/when maintenance is needed, the temporary storage part 83 exceeding the working frame 2 can enable the drilling assembly 7 to be maintained more conveniently, the temporary storage part 83 is provided with the tool magazine 85, replaceable drill bits and various types of drill bits can be stored on the replacement frame, and after drilling of the drilling assembly 7 is completed, the water spray nozzles can be replaced at the temporary storage part 83 for cleaning the drilling part of a plate, so that the plate processing efficiency can be improved, and subsequent cleaning is convenient.

Referring to fig. 1 to 5 in combination, in an embodiment of the present application, the operation table 9 is provided with a cutting support block 91 protruding toward the upper cutting portion 61, the cutting knife 63 is disposed through the cutting support block 91, the cutting support block 91 is flush with the sliding rail 312, the operation table 9 is provided with a dust filtering net 92, and the dust filtering net 92 is wrapped around the cutting support block 91 and disposed toward the lower cutting portion 62.

In the plate processing mechanism, the cutting support block 91 is arranged on the upper surface of the operation table 9 facing the cutting part 61, the cutting support block 91 is wrapped on the cutting knife 63, the horizontal height of the cutting support block is parallel to that of bakelite, one end of a plate is connected with the bakelite during cutting, the other end of the plate is connected with the cutting support block 91, the plate can be in a suspended state except for the cutting position through the cutting support block 91, the resistance of the plate can be reduced, the plate can be conveniently pushed, and meanwhile, the phenomenon that a plurality of plates deviate due to the resistance is avoided, and the cutting quality is poor.

Referring to fig. 5 in combination, in an embodiment of the present application, a dust collection assembly 10 is connected to an end of the lower cutting portion 62 facing away from the operation table 9, a dust collection end 101 is disposed on the dust collection assembly 10 facing the operation table 9, a avoidance hole 102 is formed in the dust collection end 101, a cutting knife 63 is disposed through the avoidance hole 102, a dust collection portion 103 is disposed on the dust collection end 101 facing the dust filtering net 92, at least two sets of dust collection portions 103 are disposed oppositely, a conduit 104 is connected to an end of the dust collection portion 103 facing away from the dust filtering net 92, and the conduit 104 is disposed through the lower cutting portion 62 and is connected to the dust collection assembly 10.

In the plate processing mechanism, a dust collection end 101 is arranged on a dust collection assembly 10 facing a dust filtering net 92, an avoidance hole 102 is arranged in the middle of the dust collection end 101, a cutting knife 63 is arranged in the avoidance hole 102 in a penetrating mode and used for avoiding affecting normal operation of a machine, a plurality of dust collection parts 103 are uniformly arranged on the periphery of the avoidance hole 102 in the dust collection end 101 in the circumferential direction, the dust collection parts 103 are of funnel structures, suction force can be improved through a fan, pollution is reduced, each dust collection part 103 is connected with a guide pipe 104, the guide pipe 104 is arranged in the lower cutting part 62 in a penetrating mode and communicated with the dust collection assembly 10, a filter cavity is arranged in the dust collection assembly 10, and a filter core, a fan and an air outlet are arranged in the filter cavity.

Referring to fig. 3 to 4 in combination, in an embodiment of the present application, the sliding rail 312 is provided with an intelligent drilling support 313 facing the drilling assembly 7, the intelligent drilling support 313 is abutted against the sliding rail 312 along the extension direction of the X-axis moving pair 33, the drilling press pair 32 includes a telescopic rod 321 and a pressing roller 322, the telescopic rod 321 is rotatably connected to one end of the intelligent drilling support 313 facing away from the working frame 2, the pressing roller 322 is connected to the telescopic rod 321, and the pressing roller 322 is wrapped around the sliding rail 312.

In the plate processing mechanism provided by the application, the sliding track 312 faces the drilling assembly 7 and is provided with the intelligent drilling support 313 along the movement direction of the Y-axis moving pair 31, the intelligent drilling support 313 is connected between the adjacent sliding rails, the supporting effect can be achieved when plates are drilled, the damage of the transfer mechanism 3 is avoided, the supporting effect can be achieved, the structural strength of the transfer mechanism 3 is enhanced, the drilling pressing pair 32 is rotationally connected to the outer edges of the sliding rails at the two ends of the sliding track 312, the drilling pressing pair 32 comprises the telescopic rod 321 and the pressing roller 322, the telescopic rod 321 is rotationally connected to one end of the intelligent drilling support 313, which is far away from the operating platform 9, the pressing roller 322 is rotationally connected to the other end of the telescopic rod 321, when plates are fed, the pressing roller 322 is positioned at the operating platform 9 through the rotation of the telescopic rod 321, the feeding is not blocked, after the feeding is finished, the telescopic rod 321 is rotationally reset, the telescopic rod 321 is retracted, one end of each pressing roller 322 is pressed to the surface of the plates, one end of each clamping assembly 4 is clamped by the pressing roller 322, the other end of each plate is rotationally pressed by the pressing roller 322, the state is rotationally blocked when the Y-axis moving pair 31 is carried, the pressing roller 322 is blocked by the cylinder body, and the plate 322 can be conveniently pressed by the user, when the plate is not pressed by the cylinder body is completely, and the cylinder body is completely pressed by the cylinder body is prevented when the movement of the plate is 33, and the plate is convenient to move, and the plate is can be well stressed when the cylinder body is moved, and can be moved, when the cylinder is 33 is moved, when the plate is can be conveniently is pressed.

Referring to fig. 1 to 3, in an embodiment of the present application, the clamping assembly 4 is provided with a plurality of groups, the groups of clamping assemblies 4 are uniformly spaced, the X-axis moving pair 33 is provided with an air cylinder 41 facing the clamping assembly 4, the air cylinder 41 is arranged through the X-axis moving pair 33 and is in driving connection with the clamping assembly 4, the peripheral surface of the clamping assembly 4 facing the cutting mechanism 5 is provided with a tail pushing assembly 42, and the tail pushing assembly 42 is connected to one end of the clamping assembly 4 facing away from the X-axis moving pair 33.

In the plate processing mechanism disclosed by the application, the clamping assembly 4 comprises the air cylinder 41, the lower clamping shell and the upper clamping part, the lower clamping shell is connected with the X-axis moving pair 33, the air cylinder 41 penetrates through the X-axis moving rod, the air cylinder 41 is in driving connection with the upper clamping plate, the middle part of the upper clamping part is in rotating connection with the lower clamping shell, the upper clamping part comprises the clamping plate and the lever assembly, when the air cylinder 41 is started, the lever assembly is pushed, the clamping plate is matched with the lower clamping shell to clamp a plurality of groups of plates, the air cylinder 41 working reversely pulls the lever assembly back, the clamping plate can facilitate plate blanking by rotating and loosening the clamping assembly 4, a plurality of groups of clamping assemblies 4 are uniformly arranged at intervals, the effect of clamping the plates can be improved, and in the embodiment, the clamping assemblies 4 at two ends are provided with the tail pushing assemblies 42.

Referring to fig. 2 in combination, in an embodiment of the present application, the feeding mechanism 1 further includes a placement station 12, where the placement station 12 is connected to a side edge of the number control station 11 and is spaced from the number control station 11, the number control station 11 is provided with a control box, the feeding mechanism 1 faces the number control station 11 and the placement station 12 and is provided with a transfer rail 13, the transfer rail 13 is connected to the feeding portion 131, and the feeding clamping jaw 14 is drivingly connected to the transfer rail 13.

In the plate processing mechanism disclosed by the application, the placing station 12 and the number control station 11 are sequentially arranged on the frame of the feeding mechanism 1 facing the working frame 2, the placing station 12 can store a large number of plates, the automatic plate processing mechanism is convenient to work, the number control station 11 is provided with the control box and the control meter, after one plate is placed on the number control station 11, the control meter counts the number, when the number of the plates is stored to a certain number, the feeding position 16 enters a working state, the feeding mechanism 1 is provided with the transfer rail 13 facing the placing station 12, the transfer rail 13 is in driving connection with the feeding clamping jaw 14, the transfer rail 13 is provided with the feeding part 131 in the direction deviating from the feeding mechanism 1, and the feeding part 131 is positioned above the working frame 2 and is used for facilitating the feeding of the feeding mechanism 1.

Referring to fig. 1 to 2 in combination, in an embodiment of the present application, a feeding gripper 14 includes a transfer suction gripper 15 and a feeding level 16, the transfer suction gripper 15 is connected to an end surface of the feeding gripper 14 facing the placement station 12, the transfer suction gripper 15 is provided with a plurality of groups, and the plurality of groups of transfer suction grippers 15 are arranged at intervals; the material loading position 16 is connected with the outer edge of the material loading clamping jaw 14, the material loading position 16 is provided with a plurality of groups, the material loading parts 131 of the plurality of groups are uniformly arranged at intervals and are wrapped on the outer edge of the transferring suction jaw 15, the material loading position 16 comprises a driving piece 161 and a hook jaw 162, the driving piece 161 is connected with the hook jaw 162 in a driving way, the hook jaw 162 is connected with the material loading clamping jaw 14 in a sliding way, and the hook jaw 162 is positioned below the transferring suction jaw 15.

In the plate processing mechanism, the feeding clamping claw 14 comprises the transferring suction claw 15 and the feeding level 16, the transferring suction claw 15 is provided with a plurality of groups, the plurality of groups of transferring suction claws 15 are uniformly arranged on the end face of the feeding clamping claw 14 facing the placing station 12 at intervals, the transferring suction claw 15 is of an air pump connection sucking disc structure, the plates on the placing station 12 can be safely and stably and quickly transferred to the quantity control station 11 through the plurality of groups of transferring suction claws 15, the transferring track 13 is also provided with a pushing mechanism facing the quantity control station 11, the pushing mechanism is also provided with an air cylinder 41 similar to the clamping assembly 4, the end face of the air cylinder 41 on the pushing mechanism, which is far away from the pushing mechanism, is provided with a flexible abutting block, the flexible abutting block is pushed by the air cylinder 41, so that the flexible abutting block pushes the stacked plates, the end face of the plates, which is far away from the pushing mechanism, is provided with a limiting block, under the cooperation of pushing equipment and limiting piece, the state is neat straight when can guaranteeing that panel piles up, can make things convenient for the material loading clamp claw 14 to carry, when quantity reaches the upper limit, transfer suction claw 15 stop work, material loading position 16 begins to start, material loading position 16 is equipped with the multiunit, multiunit material loading position 16 evenly spaced sets up, and wrap up in the outer fringe that transfers suction claw 15, material loading position 16 includes driving piece 161 and collude claw 162, driving piece 161 is general cylinder 41, same motor, lead screw also can play similar effect, collude claw 162 sliding connection and in material loading clamping jaw 14, through the driving piece 161 drive, collude claw 162 will hook multiunit panel simultaneously, and transfer by material loading clamping jaw 14 department to carry out the material loading, through handling multiunit panel simultaneously, can effectively improve work efficiency.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present application, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present application and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

The foregoing description of the preferred embodiments of the application is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the application.

Claims (4)

1. A panel processing mechanism, comprising:

the feeding mechanism is provided with a quantity control station, a feeding clamping claw is arranged facing the quantity control station, and a feeding part is arranged far away from the quantity control station;

The working machine frame is connected to the side edge of the feeding mechanism, a transfer mechanism is arranged facing the feeding portion, the transfer mechanism comprises a Y-axis moving pair and an X-axis moving pair, the Y-axis moving pair is connected to the working machine frame in a driving manner along the extending direction of the working machine frame, two groups of Y-axis moving guide rails are oppositely arranged on the periphery of the Y-axis moving pair, a sliding rail is convexly arranged on the Y-axis moving pair facing the feeding portion, the X-axis moving pair is connected to the Y-axis moving guide rail in a driving manner and is provided with a clamping assembly facing the sliding rail, and a drilling pressing pair is rotationally connected to the side edge of the sliding rail, wrapped on the sliding rail and is arranged opposite to the clamping assembly;

The cutting and processing mechanism is arranged at the side edge of the working frame and connected with the sliding rail, a cutting assembly and a drilling assembly are arranged facing the clamping assembly, and the cutting assembly and the drilling assembly are arranged at intervals;

The cutting and processing mechanism comprises a gantry main column and an operating table, wherein the gantry main column is connected to the side edge of the working frame and is positioned above the sliding rail, and the cutting assembly and the drilling assembly are connected to the gantry main column; the operation table penetrates through the gantry main column and is connected to the bottom edge of the sliding rail, the drilling assembly and the cutting assembly are provided with intelligent pressing assemblies facing the operation table, and the cutting assembly penetrates through the operation table;

the cutting assembly is abutted to the gantry main column, the cutting assembly comprises an upper cutting part, a lower cutting part and a cutting knife, the cutting knife penetrates through the operating platform, the gantry main column is provided with an upper frame relative to the upper cutting part and a lower frame relative to the lower cutting part, the upper cutting part is provided with a protective net facing the operating platform, the protective net is connected to the periphery of the upper cutting part, and the periphery of the lower cutting part is provided with a chamfering knife relative to the cutting knife;

The upper frame extends out of the temporary storage part along the direction deviating from the working frame, a positioning track is arranged between the temporary storage part and the cutting assembly, the drilling assembly is in driving connection with the positioning track, and one end of the temporary storage part deviating from the drilling assembly is connected with a tool magazine;

The intelligent drilling support is abutted to the sliding rail along the extending direction of the X-axis moving pair, the drilling pressing pair comprises a telescopic rod and a pressing roller, the telescopic rod is rotatably connected to one end, deviating from the working rack, of the intelligent drilling support, the pressing roller is connected to the telescopic rod, and the pressing roller is wrapped on the sliding rail;

The clamping assemblies are provided with a plurality of groups, the groups of the clamping assemblies are uniformly arranged at intervals, the X-axis moving pair faces the clamping assemblies and is provided with an air cylinder, the air cylinder penetrates through the X-axis moving pair and is in driving connection with the clamping assemblies, the periphery of the clamping assemblies faces the cutting and processing mechanism and is provided with a tail pushing assembly, and the tail pushing assembly is connected with one end, deviating from the X-axis moving pair, of the clamping assemblies; and

The feeding mechanism further comprises a placing station, the placing station is connected to the side edge of the quantity control station and is arranged at intervals with the quantity control station, the quantity control station is provided with a control box, the feeding mechanism faces the quantity control station and is provided with a transferring track, the transferring track is communicated with the feeding part, and the feeding clamping claw is in driving connection with the transferring track.

2. The sheet processing machine of claim 1, wherein the console is provided with a cutting support block protruding toward the upper cutting portion, the cutting blade is disposed through the cutting support block, the cutting support block is flush with the sliding rail, and the console is provided with a dust filter mesh disposed through the console, surrounding the cutting support block, and disposed toward the lower cutting portion.

3. The plate processing mechanism according to claim 2, wherein one end of the lower cutting part, which is away from the operation table, is connected with a dust collection assembly, the dust collection assembly is provided with a dust collection end facing the operation table, the dust collection end is provided with a avoidance hole, the cutting knife is arranged in the avoidance hole in a penetrating manner, the dust collection end is provided with dust collection parts facing the dust filtering net, at least two groups of dust collection parts are arranged relatively, one end of each dust collection part, which is away from the dust filtering net, is connected with a guide pipe, and the guide pipe is arranged in the lower cutting part in a penetrating manner and is communicated with the dust collection assembly.

4. A sheet processing machine according to claim 1, wherein said loading jaw comprises:

The transfer suction claws are connected to the end face of the feeding clamping claw facing the placing station, and are provided with a plurality of groups of transfer suction claws which are arranged at intervals; and

The feeding device comprises a feeding jaw and a feeding jaw, wherein the feeding jaw is connected with the outer edge of the feeding jaw, a plurality of groups of feeding jaws are arranged on the feeding jaw, the feeding jaws are uniformly arranged at intervals and are wrapped on the outer edge of the transferring jaw, the feeding jaw comprises a driving piece and a hook jaw, the driving piece is in driving connection with the hook jaw, the hook jaw is in sliding connection with the feeding jaw, and the hook jaw is located below the transferring jaw.