CN112222957A - Raw material cutting and polishing equipment for machining solid wood door - Google Patents

Abstract

The invention discloses a raw material cutting and polishing device for processing a solid wood door, which comprises a workbench, wherein a movable fixed rotating structure is arranged on the workbench, and a cutting and polishing structure is arranged on the workbench and above the movable rotating structure.

Description

Raw material cutting and polishing equipment for machining solid wood door

Technical Field

The invention relates to the field of raw material preprocessing of solid wood doors, in particular to raw material cutting and polishing equipment for processing solid wood doors.

Background

The solid wood door refers to a wood door made of natural logs or solid wood laminated wood from forests. The selected wood is noble wood, such as walnut, teak, red oak, northeast China ash, sapelli, etc.

Along with the continuous improvement of the life quality of people, the solid wood door belongs to a high-grade luxury product due to high hardness, good luster, no deformation and aging resistance when being decorated and decorated at home. Mothproof, dampproof, antifouling, heat-resistant, crack-resistant, firm and non-deformable, sound-proof and heat-insulating, and belongs to a durable product. The environment-friendly composite material is nontoxic, tasteless, free of formaldehyde and toluene, free of radiation pollution, environment-friendly and healthy, and belongs to an excellent environment-friendly product. Rich in artistic sense, seem noble and elegant, can play the effect of interspersing the room, all can select the wood door to use, in order to satisfy people's demand, begin a large amount of production wood doors, the wood door is when decorating, can use the wood door raw materials to carry out processing, can cut the wood door raw materials according to the needs of customization and polish, processing in the later stage of carrying out, current cutting equipment needs personnel material loading unloading, very trouble, and cutting polishing equipment is independent, working procedure is more, influence work efficiency, in view of this, to above-mentioned problem, the deep research is carried out and is carried out the present case and produce.

Disclosure of Invention

The invention aims to solve the problems and designs raw material cutting and polishing equipment for processing solid wood doors.

The technical scheme of the invention is that the raw material cutting and polishing equipment for processing the solid wood door comprises a workbench, wherein a movable fixed rotating structure is arranged on the workbench, and a cutting and polishing structure is arranged on the workbench and above the movable rotating structure;

the mobile fixed rotating structure comprises: the device comprises a pair of first straight pin screw rod modules with the same structure, a pair of first mounting columns with the same structure, a pair of first hydraulic cylinders with the same structure, a pair of second mounting columns with the same structure, a pair of first mounting blocks with the same structure, a pair of first servo motors with the same structure, a pair of first connecting plates with the same structure, a pair of third mounting columns with the same structure, a pair of first cylinders with the same structure, a pair of first connecting blocks with the same structure, a pair of bearing plates with the same structure, a pair of mounting frames with the same structure, a pair of second cylinders with the same structure and a pair of pressing plates with the same structure;

a pair of the first straight-pin screw modules are arranged on a workbench, a pair of the first mounting columns are arranged on moving ends of the pair of the first straight-pin screw modules, a pair of the first hydraulic cylinders are embedded in upper wall surfaces of the pair of the first mounting columns, a pair of the second mounting columns are arranged on telescopic ends of the pair of the first hydraulic cylinders and are positioned in the pair of the first mounting columns, a pair of the first mounting blocks are arranged on upper wall surfaces of the pair of the second mounting columns, a pair of the first servo motors are embedded in opposite wall surfaces of the pair of the first mounting blocks, a pair of the first connecting plates are arranged on driving ends of the pair of the first servo motors and are contacted with the pair of the first mounting blocks, a pair of the third mounting columns are arranged on opposite wall surfaces of the pair of the first connecting plates, and a pair of the first air cylinders are embedded in opposite wall surfaces of the pair of the third mounting columns, the pair of first connecting blocks are arranged on the pair of first cylinder telescopic ends and located in the pair of third mounting columns, the pair of bearing plates are arranged on the lower wall surfaces of the pair of first connecting blocks, the pair of mounting frames are arranged on the upper wall surfaces of the pair of first connecting blocks, the pair of second cylinders are arranged on the lower wall surfaces of the pair of mounting frame cross beams, and the pair of pressing plates are arranged on the pair of second cylinder telescopic ends.

Preferably, the cutting sanding structure includes: the device comprises a first support frame, a second straight pin screw rod module, a first electric push rod, a first extension rod, a second installation block, a second servo motor, a second connecting plate, a first rotating motor, a connecting rod, a cutter, a pair of third straight pin screw rod modules with the same structure, a second support frame, a fourth straight pin screw rod module, a second electric push rod, a second extension rod, a third connecting plate, a second rotating motor and a polishing head;

the first support frame is arranged on a workbench and positioned above the pair of first straight pin screw rod modules, the second straight pin screw rod module is arranged on the lower wall surface of a cross beam of the first support frame, the first electric push rod is arranged on the lower wall surface of the moving end of the second straight pin screw rod module, the first extension rod is arranged on the telescopic end of the first electric push rod, the second installation block is arranged on the lower end surface of the first extension rod, the second servo motor is embedded in the lower wall surface of the second installation block, the second connecting plate is arranged on the driving end of the second servo motor, the first rotating motor is arranged on the lower wall surface of the second connecting plate, the connecting rod is arranged on the driving end of the first rotating motor, the cutter is arranged on the end surface of the connecting rod, the pair of third straight pin screw rod modules are arranged on the workbench and positioned on two sides of the pair of first straight pin screw rod modules, the second support frame is arranged on the moving end of the pair of the third straight pin screw rod modules and positioned on the On one side, the fourth straight pin screw module is arranged on the lower wall surface of the second support frame cross beam, the second electric push rod is arranged on the lower wall surface of the moving end of the fourth straight pin screw module, the second extension rod is arranged on the telescopic end of the second electric push rod, the third connecting plate is arranged on the lower end surface of the second extension rod, the second rotating motor is arranged on the lower wall surface of the third connecting plate, the polishing head is arranged on the driving end of the second rotating motor, a pair of first telescopic rods is arranged between the moving end of the second straight pin screw module and the second mounting block and located on two sides of the first electric push rod, and a pair of second telescopic rods is arranged between the moving end of the fourth straight pin screw module and the third connecting plate and located on two sides of the second electric push rod.

Preferably, a first bearing platform is arranged on the workbench and below the first support frame.

Preferably, a second bearing table is installed on the workbench and below the second support frame, two pairs of third electric push rods with the same structure are installed on the second bearing table, and a pair of top plates are installed at the telescopic ends of the two pairs of third electric push rods.

Preferably, a pair of material storage platforms with the same structure are installed on the workbench and between the pair of first straight-pin screw modules, a pair of material storage tanks with the same structure are formed in the pair of material storage platforms, a pair of second hydraulic cylinders with the same structure are installed on the inner lower surfaces of the pair of material storage tanks, and a pair of support plates are installed on the telescopic ends of the pair of second hydraulic cylinders.

Preferably, the first support frame and the second support frame are both n-shaped.

Preferably, two pairs of cushion blocks are mounted on the lower wall surface of the workbench.

Preferably, a pair of openings with the same structure are formed in the front wall surfaces of the pair of storage tables, and a pair of shutters is movably assembled on the pair of openings.

Preferably, an annular waste collecting groove is arranged on the workbench and around the first bearing platform.

Preferably, a pair of rubber layers is mounted on opposite wall surfaces of the pair of first connecting blocks.

According to the raw material cutting and polishing device for processing the solid wood door, disclosed by the invention, the raw materials are stored in batches, the jacking is automatic, the moving and carrying of the raw materials are carried out by matching with the moving and rotating structure, and then the cutting and polishing structure is matched, so that the customized cutting and polishing treatment of the width and the length of the raw materials of the solid wood door are realized, the modification of the solid wood door in the later period is facilitated, the automatic operation is carried out in batches, the cutting and polishing are integrated, the automatic feeding and discharging are realized, the use is convenient, and the working efficiency is high.

Drawings

FIG. 1 is a schematic structural diagram of a raw material cutting and polishing device for machining a solid wood door according to the present invention;

FIG. 2 is a schematic structural diagram of a top view of the raw material cutting and polishing device for machining a solid wood door according to the present invention;

FIG. 3 is a schematic structural diagram of a side view cross section of the raw material cutting and polishing device for machining a solid wood door according to the present invention;

FIG. 4 is a schematic structural diagram of a side view cross section of the raw material cutting and polishing device for machining a solid wood door according to the present invention;

FIG. 5 is a schematic structural diagram of a side view cross section of the raw material cutting and polishing device for machining a solid wood door according to the present invention;

FIG. 6 is a schematic view of a part of the enlarged structure of the cutting and polishing device for the raw material for machining the solid wood door according to the present invention shown in FIG. 1;

FIG. 7 is a schematic view of a portion of the raw material cutting and polishing apparatus for machining a solid wood door according to the present invention;

FIG. 8 is an enlarged partial schematic view of the cutting and polishing device for the raw material used in the solid wood door processing according to the present invention;

in the figure, 1, a workbench; 2. a first straight pin screw rod module; 3. a first mounting post; 4. a first hydraulic cylinder; 5. a second mounting post; 6. a first mounting block; 7. a first servo motor; 8. a first connecting plate; 9. a third mounting post; 10. a first cylinder; 11. a first connection block; 12. a carrier plate; 13. a mounting frame; 14. a second cylinder; 15. pressing a plate; 16. a first support frame; 17. a second straight pin screw rod module; 18. a first electric push rod; 19. a first spreader bar; 20. a second mounting block; 21. a second servo motor; 22. a second connecting plate; 23. a first rotating electrical machine; 24. a connecting rod; 25. a cutter; 26. a third straight pin screw rod module; 27. a second support frame; 28. a fourth straight pin screw rod module; 29. a second electric push rod; 30. a second spreader bar; 31. a third connecting plate; 32. a second rotating electrical machine; 33. polishing the polishing head; 34. a first telescopic rod; 35. a second telescopic rod; 36. a first carrier stage; 37. a second carrier table; 38. a third electric push rod; 39. a top plate; 40. a material storage table; 41. a second hydraulic cylinder; 42. a carrier plate; 43. cushion blocks; 44. a shutter; 45. an annular waste collection tank; 46. a rubber layer.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-8, a raw material cutting and polishing device for solid wood door processing comprises a workbench 1, wherein a movable fixed rotating structure is mounted on the workbench 1, and a cutting and polishing structure is mounted on the workbench 1 and above the movable rotating structure; the mobile fixed rotating structure comprises: the device comprises a pair of first straight pin screw rod modules 2 with the same structure, a pair of first mounting columns 3 with the same structure, a pair of first hydraulic cylinders 4 with the same structure, a pair of second mounting columns 5 with the same structure, a pair of first mounting blocks 6 with the same structure, a pair of first servo motors 7 with the same structure, a pair of first connecting plates 8 with the same structure, a pair of third mounting columns 9 with the same structure, a pair of first air cylinders 10 with the same structure, a pair of first connecting blocks 11 with the same structure, a pair of bearing plates 12 with the same structure, a pair of mounting frames 13 with the same structure, a pair of second air cylinders 14 with the same structure and a pair of pressing plates 15 with the same structure; a pair of the first straight pin screw modules 2 are arranged on a workbench 1, a pair of the first mounting columns 3 are arranged on the moving ends of the pair of the first straight pin screw modules 2, a pair of the first hydraulic cylinders 4 are embedded in the upper wall surfaces of the pair of the first mounting columns 3, a pair of the second mounting columns 5 are arranged on the telescopic ends of the pair of the first hydraulic cylinders 4 and are positioned in the pair of the first mounting columns 3, a pair of the first mounting blocks 6 are arranged on the upper wall surfaces of the pair of the second mounting columns 5, a pair of the first servo motors 7 are embedded in the opposite wall surfaces of the pair of the first mounting blocks 6, a pair of the first connecting plates 8 are arranged on the driving ends of the pair of the first servo motors 7 and touch the pair of the first mounting blocks 6, a pair of the third mounting columns 9 are arranged on the opposite wall surfaces of the pair of the first connecting plates 8, and a pair of the first air cylinders 10 are embedded in the opposite wall surfaces of the pair of the third mounting columns 9, a pair of said first connecting blocks 11 are disposed on the telescopic ends of a pair of said first cylinders 10 and located in a pair of said third mounting posts 9, a pair of said bearing plates 12 are disposed on the lower wall surfaces of a pair of said first connecting blocks 11, a pair of said mounting brackets 13 are disposed on the upper wall surfaces of a pair of said first connecting blocks 11, a pair of said second cylinders 14 are disposed on the lower wall surfaces of the cross beams of a pair of said mounting brackets 13, and a pair of said pressing plates 15 are disposed on the telescopic ends of a pair of said second cylinders 14; the cutting and polishing structure comprises: the device comprises a first support frame 16, a second straight pin screw rod module 17, a first electric push rod 18, a first extension rod 19, a second mounting block 20, a second servo motor 21, a second connecting plate 22, a first rotating motor 23, a connecting rod 24, a cutter 25, a pair of third straight pin screw rod modules 26 with the same structure, a second support frame 27, a fourth straight pin screw rod module 28, a second electric push rod 29, a second extension rod 30, a third connecting plate 31, a second rotating motor 32 and a polishing head 33; the first support frame 16 is arranged on the workbench 1 and positioned above the pair of first straight pin screw rod modules 2, the second straight pin screw rod module 17 is arranged on the lower wall surface of the cross beam of the first support frame 16, the first electric push rod 18 is arranged on the lower wall surface of the moving end of the second straight pin screw rod module 17, the first extension rod 19 is arranged on the telescopic end of the first electric push rod 18, the second installation block 20 is arranged on the lower end surface of the first extension rod 19, the second servo motor 21 is embedded in the lower wall surface of the second installation block 20, the second connection plate 22 is arranged on the driving end of the second servo motor 21, the first rotating motor 23 is arranged on the lower wall surface of the second connection plate 22, the connecting rod 24 is arranged on the driving end of the first rotating motor 23, the cutter 25 is arranged on the end surface of the connecting rod 24, the pair of third straight pin screw rod modules 26 is arranged on the workbench 1 and positioned on two sides of the pair of the first straight pin screw rod modules 2, the second supporting frame 27 is disposed on the moving end of the third straight pin screw module 26 and is located at one side of the first supporting frame 16, the fourth straight pin screw rod module 28 is arranged on the lower wall surface of the cross beam of the second support frame 27, the second electric push rod 29 is arranged on the lower wall surface of the moving end of the fourth straight pin screw rod module 28, the second extending rod 30 is arranged on the telescopic end of the second electric push rod 29, the third connecting plate 31 is arranged on the lower end surface of the second extending rod 30, the second rotating motor 32 is arranged on the lower wall surface of the third connecting plate 31, the polishing head 33 is arranged on the driving end of the second rotating motor 32, a pair of first telescopic rods 34 are arranged between the moving end of the second straight pin screw rod module 17 and the second mounting block 20 and positioned at two sides of the first electric push rod 18, a pair of second telescopic rods 35 are arranged between the moving end of the fourth straight pin screw rod module 28 and the third connecting plate 31 and positioned at two sides of the second electric push rod 29; a first bearing platform 36 is arranged on the workbench 1 and below the first support frame 16; a second bearing table 37 is arranged on the workbench 1 and below the second support frame 27, two pairs of third electric push rods 38 with the same structure are arranged on the second bearing table 37, and a pair of top plates 39 are arranged at the telescopic ends of the two pairs of third electric push rods 38; a pair of material storage tables 40 with the same structure are arranged on the workbench 1 and between the pair of first straight pin screw rod modules 2, a pair of material storage tanks with the same structure are arranged on the pair of material storage tables 40, a pair of second hydraulic cylinders 41 with the same structure are arranged on the inner lower surfaces of the pair of material storage tanks, and a pair of support plates 42 are arranged on the telescopic ends of the pair of second hydraulic cylinders 41; the first support frame 16 and the second support frame 27 are both n-shaped; two pairs of cushion blocks 43 are arranged on the lower wall surface of the workbench 1; a pair of openings with the same structure are formed in the front wall surfaces of the material storage tables 40, and a pair of stop doors 44 are movably assembled on the pair of openings; an annular waste collecting tank 45 is arranged on the workbench 1 and positioned around the first bearing platform 36; a pair of rubber layers 46 are mounted on the opposite wall surfaces of the pair of first connecting blocks 11.

The cutting and polishing device is characterized by comprising a workbench 1, wherein a movable fixed rotating structure is arranged on the workbench 1, and a cutting and polishing structure is arranged on the workbench 1 and above the movable rotating structure; remove fixed rotating-structure includes: the device comprises a pair of first straight pin screw rod modules 2 with the same structure, a pair of first mounting columns 3 with the same structure, a pair of first hydraulic cylinders 4 with the same structure, a pair of second mounting columns 5 with the same structure, a pair of first mounting blocks 6 with the same structure, a pair of first servo motors 7 with the same structure, a pair of first connecting plates 8 with the same structure, a pair of third mounting columns 9 with the same structure, a pair of first air cylinders 10 with the same structure, a pair of first connecting blocks 11 with the same structure, a pair of bearing plates 12 with the same structure, a pair of mounting frames 13 with the same structure, a pair of second air cylinders 14 with the same structure and a pair of pressing plates 15 with the same structure; a pair of first straight pin screw modules 2 are arranged on a workbench 1, a pair of first mounting columns 3 are arranged on the moving ends of the pair of first straight pin screw modules 2, a pair of first hydraulic cylinders 4 are embedded in the upper wall surfaces of the pair of first mounting columns 3, a pair of second mounting columns 5 are arranged on the telescopic ends of the pair of first hydraulic cylinders 4 and are positioned in the pair of first mounting columns 3, a pair of first mounting blocks 6 are arranged on the upper wall surfaces of the pair of second mounting columns 5, a pair of first servo motors 7 are embedded in the opposite wall surfaces of the pair of first mounting blocks 6, a pair of first connecting plates 8 are arranged on the driving ends of the pair of first servo motors 7 and are contacted with the pair of first mounting blocks 6, a pair of third mounting columns 9 are arranged on the opposite wall surfaces of the pair of first connecting plates 8, a pair of first cylinders 10 are embedded in the opposite wall surfaces of the pair of third mounting columns 9, a pair of first connecting blocks 11 are arranged on the telescopic ends of the pair of first cylinders 10 and are positioned in the pair of, a pair of loading board 12 is settled on wall under a pair of first connecting block 11, a pair of mounting bracket 13 is settled on wall on a pair of first connecting block 11, a pair of second cylinder 14 is settled on wall under a pair of mounting bracket 13 crossbeam, a pair of clamp plate 15 is settled on the flexible end of a pair of second cylinder 14, through carrying out the material stock in batches, automatic jacking, the rotating-structure is removed in the cooperation, carry out the removal transport of raw materials, the structure of polishing is cut in the deuterogamy, the realization is to the customization cutting and the polishing processing of length of wood door raw materials, the decoration of the wood door in later stage of being convenient for, automatic operation is customized processing in batches, the cutting is polished integratedly, automatic material loading unloading, high durability and convenient use.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

The following are the models and functions of various electric parts;

a motor driver: the S700 series driver referred to as a "servo controller" or a "servo amplifier" is a controller for controlling a servo motor, and functions like a frequency converter acting on a common ac motor, belonging to a part of a servo system and mainly applied to a high-precision positioning system. The servo motor is generally controlled by three modes of position, speed and moment, so that the high-precision positioning of a transmission system is realized, and the servo motor is a high-end product of a transmission technology at present.

In the embodiment, when in use, a worker opens one of the shutters 44 installed on the storage table 40 to stack the solid wood door raw material plates to be processed on the support plate 42 in the storage table 40 one by one, after the stacking is finished, the shutter 44 is closed, the power is switched on to electrify the device, the worker performs control operation through the programmable controller which is installed on the device and matched with the programmable controller and is edited with a control program, one of the second hydraulic cylinders 41 installed in the storage table 40 pushes the support plate 42 installed on the telescopic end of the second hydraulic cylinder to ascend, the solid wood door raw material plate placed on the support plate 42 ascends, the second hydraulic cylinder 41 stops ascending after one solid wood door raw material plate is leaked, the standby is performed, the driving end of the first straight pin screw rod module 2 installed on the working table 1 receives a signal sent by the motor driver and then drives the moving end of the first straight pin screw rod module to move through the, the first hydraulic cylinder 4 installed in the first mounting column 3 at the moving end of the first straight pin screw rod module 2 pushes up and movably installs the second mounting column 5 on the telescopic end of the first mounting column 3 to slide and rise in the first mounting column 3, so that the first connecting block 11 is positioned at the two sides of the solid wood door raw material plate and stops, the first cylinder 10 installed in the third mounting column 9 drives the first connecting block 11 installed on the telescopic end to move relatively in the third mounting column 9, so that the bearing plate 12 installed on the first connecting block 11 shovels the solid wood door raw material plate for bearing, meanwhile, the first connecting block 11 pushes up the solid wood door raw material plate, and the second cylinder 14 installed on the mounting frame 13 drives the pressing plate 15 installed on the telescopic end to descend for bearing and extruding the solid wood door raw material plate for fixing, after the fixing is finished, the first hydraulic cylinder 4 pushes up the second mounting column 5 again to rise for setting height, meanwhile, the moving end of the first straight pin screw rod module 2 starts moving and stops after moving to the position below the first supporting frame 16, the first hydraulic cylinder 4 drives the fixed solid wood door raw material plate to descend and is placed on the first bearing table 36, after the placement is finished, a worker performs control operation through a programmable controller according to cutting requirements, a first electric push rod 18 arranged at the moving end of a second straight pin screw rod module 17 of the first supporting frame 16 drives a first extending rod 19 arranged at the extending end of the first electric push rod module to descend after receiving a signal sent by a motor driver, so that a cutter 25 is in contact with the solid wood door raw material plate, a first rotating motor 23 is electrified to drive the cutter 25 to rotate through a connecting rod 24 to cut the solid wood door raw material plate, and simultaneously, a driving end of the second straight pin screw rod module 17 arranged on the lower wall surface of a cross beam of the first supporting frame 16 drives the moving end of the second straight pin screw rod module to start moving through a screw rod to perform width cutting, when the cutting of one side is finished, the moving end of the first straight pin screw rod module 2 moves for a set distance, the other side of the solid wood door raw material plate is positioned below the cutter 25 for cutting, after the width cutting debugging is finished, the second servo motor 21 arranged in the second installation block 20 receives a signal sent by the motor driver and drives the second connecting plate 22 arranged on the driving end to rotate for 90 degrees, the cutter 25 rotates for 90 degrees along with the cutter, the first electric push rod 18 descends, the moving end of the first straight pin screw rod module 2 is matched with the left-right movement for the length cutting debugging, when the cutting of one side is finished, the second air cylinder 14 drives the pressure plate 15 to ascend, leftover materials fall down, the first air cylinder 10 moves relatively again to push the solid raw material, the second air cylinder 14 drives the pressure plate 15 to descend again to fix the solid wood door raw material plate, the moving end of the second straight pin screw rod module 17 moves to the other side of the solid wood, repeating the above steps to cut the other side, after the cutting is finished, the first cylinder 10 stretches, the second cylinder 14 drives the pressing plate 15 to descend and tighten, the wood door raw material plate has the length and the width, after the cutting and debugging are finished, the moving end of the first straight pin screw rod module 2 moves again, the first straight pin screw rod module 2 moves to the second supporting frame 27 to be placed and stopped, the wood door raw material plate is placed on the second supporting frame 37 and positioned between the top plates 39, the first cylinder 10 and the second cylinder 14 are relaxed and reset, so that the wood door raw material plate is completely separated and placed on the second supporting frame 37, the third electric push rod 38 arranged on the second supporting frame 37 drives the top plate 39 arranged on the stretching end to move relatively after receiving the signal sent by the motor driver, the wood door raw material plate is fixed, after the fixing is finished, the second electric push rod 29 arranged on the moving end of the fourth straight pin screw rod module 28 of the second supporting frame 27 drives the second stretching rod 30 arranged on the stretching end to descend after receiving the, the second rotating motor 32 mounted on the third connecting plate 31 on the second extending rod 30 descends along with the descending, meanwhile, the second rotating motor 32 is electrified to drive the polishing head 33 mounted on the driving end to rotate to polish and polish the cut solid wood door raw material plate, the driving end of the fourth straight pin screw rod module 28 receives a signal sent by the motor driver and drives the moving end of the fourth straight pin screw rod module to move back and forth through the screw rod, the solid wood door raw material plate is polished, meanwhile, the driving end of the third straight pin screw rod module 26 receives a signal sent by the motor driver and drives the moving end of the third straight pin screw rod module to move back and forth through the screw rod, the polishing area of the solid wood door raw material plate is increased, when one surface is polished, the first air cylinder 10 moves relatively, the second air cylinder 14 drives the pressing plate 15 to descend for fixing, the third electric push rod 38 is slowly loosened while the fixing is carried out, after receiving a signal sent by a motor driver, a first servo motor 7 arranged in a first mounting block 6 drives a fixed solid wood door raw material plate to rotate 180 degrees, after the rotation is finished, a first hydraulic cylinder 4 descends, a first cylinder 10 and a second cylinder 14 relax, so that the solid wood door raw material plate is separated from and falls on a second bearing table 37 again, a third electric push rod 38 carries out jacking and fixing again, the steps are repeated to carry out grinding and polishing of the other surface, after the grinding and polishing of the other surface are finished, the steps are repeated to fix the solid wood door raw material plate again, the first hydraulic cylinder 4 ascends, the moving end of a first straight pin screw rod module 2 moves to two sides of another material storage table 40 again and stops, the first hydraulic cylinder 4 descends, so that the processed solid wood door raw material plate is placed on another material storage plate 42, the first cylinder 10 and the second cylinder 14 relaxes, another second hydraulic cylinder 41 drives the material storage plate 42 arranged on the telescopic end of the other straight pin screw rod module to descend, meanwhile, the processed solid wood door raw material plates placed on the solid wood door raw material plate are retracted into the storage tank to be prevented, the steps are repeated, the solid wood door raw material plates are processed continuously, the cushion blocks 43 are used for assisting in supporting and preventing the placed ground from being uneven, the annular waste collecting groove 45 is used for collecting waste materials, the rubber layer 46 is used for increasing friction force to prevent slipping, the first telescopic rod 34 protects the first electric push rod 18, and the second telescopic rod 35 protects the second electric push rod 29.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (10)

1. The raw material cutting and polishing equipment for machining the solid wood door comprises a workbench (1) and is characterized in that a movable fixed rotating structure is mounted on the workbench (1), and a cutting and polishing structure is mounted on the workbench (1) and above the movable rotating structure;

the mobile fixed rotating structure comprises: the device comprises a pair of first straight pin screw rod modules (2) with the same structure, a pair of first mounting columns (3) with the same structure, a pair of first hydraulic cylinders (4) with the same structure, a pair of second mounting columns (5) with the same structure, a pair of first mounting blocks (6) with the same structure, a pair of first servo motors (7) with the same structure, a pair of first connecting plates (8) with the same structure, a pair of third mounting columns (9) with the same structure, a pair of first cylinders (10) with the same structure, a pair of first connecting blocks (11) with the same structure, a pair of bearing plates (12) with the same structure, a pair of mounting frames (13) with the same structure, a pair of second cylinders (14) with the same structure and a pair of pressing plates (15) with the same;

a pair of the first straight pin screw modules (2) is arranged on a workbench (1), a pair of the first mounting columns (3) is arranged on the moving ends of the pair of the first straight pin screw modules (2), a pair of the first hydraulic cylinders (4) is embedded in the upper wall surfaces of the pair of the first mounting columns (3), a pair of the second mounting columns (5) is arranged on the telescopic ends of the pair of the first hydraulic cylinders (4) and is positioned in the pair of the first mounting columns (3), a pair of the first mounting blocks (6) is arranged on the upper wall surfaces of the pair of the second mounting columns (5), a pair of the first servo motors (7) is embedded in the opposite wall surfaces of the pair of the first mounting blocks (6), a pair of the first connecting plates (8) is arranged on the driving ends of the pair of the first servo motors (7) and is contacted with the pair of the first mounting blocks (6), a pair of the third mounting columns (9) is arranged on the opposite wall surfaces of the pair of the first connecting plates (8), the pair of first air cylinders (10) are embedded in opposite wall surfaces of the pair of third mounting columns (9), the pair of first connecting blocks (11) is arranged on telescopic ends of the pair of first air cylinders (10) and located in the pair of third mounting columns (9), the pair of bearing plates (12) is arranged on lower wall surfaces of the pair of first connecting blocks (11), the pair of mounting frames (13) is arranged on upper wall surfaces of the pair of first connecting blocks (11), the pair of second air cylinders (14) is arranged on lower wall surfaces of cross beams of the pair of mounting frames (13), and the pair of pressing plates (15) is arranged on telescopic ends of the pair of second air cylinders (14).

2. The apparatus of claim 1, wherein the cutting and grinding structure comprises: the device comprises a first support frame (16), a second straight pin screw rod module (17), a first electric push rod (18), a first extension rod (19), a second installation block (20), a second servo motor (21), a second connecting plate (22), a first rotating motor (23), a connecting rod (24), a cutter (25), a pair of third straight pin screw rod modules (26) with the same structure, a second support frame (27), a fourth straight pin screw rod module (28), a second electric push rod (29), a second extension rod (30), a third connecting plate (31), a second rotating motor (32) and a polishing head (33);

the first support frame (16) is arranged on the workbench (1) and positioned above the pair of first straight pin screw rod modules (2), the second straight pin screw rod module (17) is arranged on the lower wall surface of a cross beam of the first support frame (16), the first electric push rod (18) is arranged on the lower wall surface of the moving end of the second straight pin screw rod module (17), the first extending rod (19) is arranged on the extending end of the first electric push rod (18), the second mounting block (20) is arranged on the lower end surface of the first extending rod (19), the second servo motor (21) is embedded in the lower wall surface of the second mounting block (20), the second connecting plate (22) is arranged on the driving end of the second servo motor (21), the first rotating motor (23) is arranged on the lower wall surface of the second connecting plate (22), and the connecting rod (24) is arranged on the driving end of the first rotating motor (23), the cutter (25) is arranged on the end face of the connecting rod (24), the pair of third straight pin screw rod modules (26) is arranged on the workbench (1) and positioned on two sides of the pair of first straight pin screw rod modules (2), the second support frame (27) is arranged on the moving end of the pair of third straight pin screw rod modules (26) and positioned on one side of the first support frame (16), the fourth straight pin screw rod module (28) is arranged on the lower wall surface of the beam of the second support frame (27), the second electric push rod (29) is arranged on the lower wall surface of the moving end of the fourth straight pin screw rod module (28), the second extension rod (30) is arranged on the extension end of the second electric push rod (29), the third connecting plate (31) is arranged on the lower end face of the second extension rod (30), the second rotating motor (32) is arranged on the lower wall surface of the third connecting plate (31), and the polishing head (33) is arranged on the driving end of the second rotating motor (32), the second straight pin screw rod module (17) moves between end and second installation piece (20) and is located first electric putter (18) both sides and installs a pair of first telescopic link (34), fourth straight pin screw rod module (28) moves between end and third connecting plate (31) and is located second electric putter (29) both sides and installs a pair of second telescopic link (35).

3. The cutting and grinding device for the raw material for machining the solid wood door is characterized in that a first bearing table (36) is arranged on the workbench (1) and below the first supporting frame (16).

4. The raw material cutting and polishing equipment for machining the solid wood door as claimed in claim 2, wherein a second bearing table (37) is installed on the workbench (1) and below the second supporting frame (27), two pairs of third electric push rods (38) with the same structure are installed on the second bearing table (37), and a pair of top plates (39) are installed on the telescopic ends of the two pairs of third electric push rods (38).

5. The raw material cutting and polishing equipment for machining the solid wood door as claimed in claim 1, wherein a pair of storage platforms (40) with the same structure are installed on the workbench (1) and between the pair of first straight pin screw modules (2), a pair of storage troughs with the same structure are formed in the pair of storage platforms (40), a pair of second hydraulic cylinders (41) with the same structure are installed on the inner lower surfaces of the pair of storage troughs, and a pair of support plates (42) are installed on the telescopic ends of the pair of second hydraulic cylinders (41).

6. The cutting and grinding device for the raw material for machining the solid wood door as claimed in claim 1, wherein the first support frame (16) and the second support frame (27) are both n-shaped.

7. The cutting and grinding device for the raw material for machining the solid wood door is characterized in that two pairs of cushion blocks (43) are installed on the lower wall surface of the workbench (1).

8. The raw material cutting and grinding device for machining the solid wood door as claimed in claim 5, wherein a pair of openings with the same structure are formed in the front wall surfaces of the storage platforms (40), and a pair of stop doors (44) are movably assembled on the openings.

9. The raw material cutting and polishing device for machining the solid wood door as claimed in claim 3, characterized in that an annular waste collecting tank (45) is arranged on the workbench (1) and around the first bearing platform (36).

10. The apparatus for cutting and grinding a raw material for manufacturing a solid wood door according to claim 1, wherein a pair of rubber layers (46) are mounted on opposite wall surfaces of a pair of the first connecting blocks (11).

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