CN215149841U - Through type full-automatic wooden door scrap numerical control slitting saw - Google Patents

Abstract

The utility model discloses a full-automatic timber leftover bits numerical control slitting saw of through-type, including lathe bed, longitudinal rail, longitudinal rack, conveying roller, guide roller post, first adsorption platform, second adsorption platform, screw drive mechanism, positioning mechanism, vertical slider, crossbeam, slitting saw device and control cabinet, the lathe bed is formed by a plurality of steel pipe welding, the longitudinal rail is fixed and is located the lathe bed both sides, the fixed lathe bed both sides of locating of longitudinal rack. The utility model belongs to the technical field of the slitting saw, specifically a servo motor automatically regulated processing platform's width, positioning mechanism carries out terminal surface and side location to the work piece automatically, and servo motor fixes a position accurately, has improved the machining precision, and the platform adsorbs the work piece firmly reliably, and the slitting saw device is automatic to accomplish the cutting to 4 limits of work piece with the crossbeam cooperation, and whole cutting process need not artificial intervention and realizes the full automatization, has improved a through-type full-automatic timber rim charge numerical control slitting saw of machining efficiency and security.

Description

Through type full-automatic wooden door scrap numerical control slitting saw

Technical Field

The utility model belongs to the technical field of the slitting saw, especially, relate to a full-automatic timber rim charge numerical control slitting saw of through-type.

Background

A dicing saw is a common device in the woodworking industry for cutting off excess trimmings according to set dimensions. Most of the existing cutting saws have the problems of manual feeding, manual positioning, unadjustable width of a processing platform, low automation degree, low processing efficiency, low processing precision, poor safety and the like. Therefore, the width of the machining platform is automatically adjusted, the machining precision is improved, the platform adsorbs workpieces firmly and reliably, the whole cutting process is full-automatic without manual intervention, and the defect is overcome by the through type full-automatic wooden door scrap numerical control cutting saw with the improved machining efficiency and safety.

Disclosure of Invention

To the above situation, for overcoming prior art's defect, the utility model provides a full-automatic timber rim charge numerical control slitting saw of through-type has the width of automatically regulated processing platform, improves the machining precision, and firm reliable, the whole cutting process of platform absorption work piece need not artificial intervention and realizes the full automatization, improves the beneficial effect of machining efficiency and security.

The utility model adopts the technical scheme as follows: a through type full-automatic numerical control cutting saw for wooden door scraps comprises a machine body, a longitudinal guide rail, a longitudinal rack, a conveying roller, a guide roller column, a first adsorption platform, a second adsorption platform, a screw rod transmission mechanism, a positioning mechanism, a longitudinal sliding block, a cross beam, a cutting saw device and a control console, wherein the machine body is formed by welding a plurality of steel pipes, the longitudinal guide rail is fixedly arranged on two sides of the machine body, the longitudinal rack is fixedly arranged on two sides of the machine body, the longitudinal guide rail and the longitudinal rack are arranged in an up-down parallel mode, the conveying roller is arranged on the machine body, the guide roller column is arranged on a discharge end and a feed end of the machine body, the first adsorption platform is arranged on the machine body, the second adsorption platform is arranged on the machine body, the screw rod transmission mechanism is arranged on the machine body, the positioning mechanism is arranged on the machine body, the longitudinal sliding block is arranged on the longitudinal guide rail in a sliding mode, the cross beam is arranged on the longitudinal sliding block, the cutting saw device is arranged on the cross beam, the control console is connected and arranged on the machine body through a conducting wire, the conveying roller comprises a roller shaft, a sliding plate and a fixed seat, the fixed seat is fixedly connected and arranged on the machine body, the sliding plate is slidably connected and arranged on the fixed seat, two ends of the roller shaft are fixedly connected and arranged on the sliding plate, and the roller shaft is provided with a plurality of groups.

Furthermore, a transverse guide rail, a transverse rack, a side guide rail, a side rack and a longitudinal driving device are fixedly connected to the cross beam, and the longitudinal driving device is meshed with the longitudinal rack on the lathe bed.

Further, the guide roller comprises a roller, a roller support and a connecting seat, the connecting seat is fixedly connected to the machine body, the roller support is fixedly connected to the connecting seat, two ends of the roller are rotatably connected to the roller support, and the rollers are provided with multiple groups.

Further, first adsorption platform includes even board, first platform crossbeam, first platform adsorption plate and first conveying assembly, even the board is located on the lathe bed, even the board is equipped with the multiunit, on the lathe bed was located to the first platform crossbeam through multiunit even board fixed connection, first platform adsorption plate is fixed to be located first platform crossbeam upper end, first platform crossbeam side is equipped with first guide rail, second guide rail, first lift cylinder and second lift cylinder, first conveying assembly slides and locates on first guide rail and the second guide rail, be equipped with first slider, second slider, first lift cylinder and second lift cylinder on the first conveying assembly.

Furthermore, the second adsorption platform comprises a sliding connecting plate, a second platform beam, a second platform adsorption plate and a second conveying assembly, the sliding connecting plate is arranged on the transverse guide rail in a sliding connection mode, the lower plane of the second platform beam is fixedly connected to the sliding connecting plate, the second platform adsorption plate is fixedly arranged at the upper end of the second platform beam, a fifth guide rail, a sixth guide rail, a third lifting cylinder and a fourth lifting cylinder are arranged on the side face of the second platform beam, the second conveying assembly is arranged on the fifth guide rail and the sixth guide rail in a sliding connection mode, and a seventh sliding block, an eighth sliding block, a third lifting cylinder and a fourth lifting cylinder are arranged on the second conveying assembly.

Further, the screw rod transmission mechanism comprises a servo motor, a motor base, a coupler, a ball screw, a nut connecting plate and a screw rod fixing base, the motor base is fixedly connected with the lathe bed, the servo motor is fixedly connected with the motor base, one end of the coupler is fixedly connected to an output shaft of the servo motor, the ball screw is fixedly connected to the other end of the coupler, the screw is connected with the ball screw in a sliding way, the screw fixing seat is arranged on the ball screw, a bearing hole is arranged on the screw fixing seat, the ball screw is sleeved in a bearing hole of the screw fixing seat, the upper end of the screw nut connecting plate is fixedly connected with the side surface of the second platform beam, the lower end of the screw nut connecting plate is fixedly arranged on the screw nut, thereby rotate through servo motor and make ball screw rotate and make the screw remove and drive screw link plate and second adsorption platform along the horizontal direction removal.

Furthermore, the positioning mechanism comprises a front end positioning component, a rear material pushing cylinder, a rear end positioning cylinder, a side surface positioning component, a side material pushing cylinder and a rear end positioning cylinder seat, wherein the front end positioning component is fixedly connected with the discharge ends of the first adsorption platform and the second adsorption platform, the rear material pushing cylinder is fixedly connected with the feed end of the lathe bed, the rear end positioning cylinder seat is fixedly connected with the cylinder rod of the rear material pushing cylinder, the rear end positioning cylinder is fixedly connected with the rear end positioning cylinder seat, the side surface positioning component is fixedly connected with one side of the first adsorption platform, and the side material pushing cylinder is fixedly connected with one side of the second adsorption platform.

Further, the slitting saw device includes horizontal saw subassembly, first vertical saw subassembly, the vertical saw subassembly of second, fifth lift cylinder, sixth lift cylinder and seventh lift cylinder, horizontal saw subassembly slides and locates on the transverse guide, horizontal saw subassembly and the horizontal rack toothing on the crossbeam, first vertical saw subassembly sliding connection locates on the side guide, and the vertical saw subassembly of second passes through slider and the side guide sliding connection on the crossbeam, and the vertical saw subassembly of second meshes with the side rack on the crossbeam.

After the structure is adopted, the utility model discloses beneficial effect as follows: the utility model relates to a full-automatic timber leftover bits numerical control slitting saw of through-type, servo motor automatically regulated processing platform's width, positioning mechanism carries out terminal surface and side location to the work piece automatically, and servo motor fixes a position accurately, has improved the machining precision, and the platform adsorbs the work piece firmly reliably, and slitting saw device and crossbeam cooperation are automatic accomplishes the cutting to 4 limits of work piece, and whole cutting process need not artificial intervention and realizes the full automatization, has improved machining efficiency and security.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

FIG. 1 is a schematic view of the whole structure of a through type full-automatic numerical control cutting saw for wooden door scrap of the present invention;

FIG. 2 is a front view of the bed of the through type full automatic numerical control cutting saw for wooden door scrap of the present invention;

FIG. 3 is a front view of a first adsorption platform of the through type full-automatic numerical control cutting saw for wooden door scrap;

FIG. 4 is a front view of a second adsorption platform of the through type full-automatic numerical control cutting saw for wooden door scrap of the present invention;

FIG. 5 is a front view of a screw driving mechanism of the through type full automatic numerical control cutting saw for wooden door scrap;

FIG. 6 is a front view of a positioning mechanism of the through type full automatic numerical control cutting saw for wooden door scrap of the present invention;

FIG. 7 is a structural diagram of a cross beam of the through type full automatic wooden door scrap numerical control cutting saw of the utility model;

figure 8 is the utility model relates to a full-automatic timber leftover bits numerical control slitting saw's of through type slitting saw's structure chart.

In the drawings: 1. a lathe bed, 101, a steel pipe, 102, a first longitudinal guide rail, 103, a second longitudinal guide rail, 104, a first longitudinal rack, 105, a second longitudinal rack, 2, a conveying roller, 201, a roller shaft, 202, a sliding plate, 203, a fixed seat, 3, a guide roller column, 301, a roller column, 302, a roller column bracket, 303, a connecting seat, 4, a first adsorption platform, 401, a connecting plate, 402, a first platform beam, 403, a first platform adsorption plate, 404, a first guide rail, 405, a first sliding block, 406, a second guide rail, 407, a second sliding block, 408, a first lifting cylinder, 409, a second lifting cylinder, 410, a first conveying assembly, 5, a second adsorption platform, 501, a sliding connecting plate, 502, a second platform beam, 503, a second platform adsorption plate, 504, a third guide rail, 505, a third sliding block, 506, a fourth guide rail, 507, a fourth sliding block, 508, a third lifting cylinder, 509, a fourth lifting cylinder, 510. a second conveying assembly, 6, a screw rod transmission mechanism, 601, a servo motor, 602, a motor base, 603, a coupling, 604, a ball screw, 605, a screw nut, 606, a screw nut connecting plate, 607, a screw rod fixing base, 7, a positioning mechanism, 701, a front end positioning assembly, 702, a rear pushing cylinder, 703, a rear end positioning cylinder, 704, a side positioning assembly, 705, a side pushing cylinder, 706, a rear end positioning cylinder base, 8, a cross beam, 801, a longitudinal sliding block, 802, a transverse guide rail, 803, a transverse rack, 804, a side guide rail, 805, a side rack, 806, a longitudinal driving device, 9, a cutting saw device, 901, a transverse saw assembly, 902, a first longitudinal saw assembly, 903, a second longitudinal saw assembly, 904, a fifth lifting cylinder, 905, a sixth lifting cylinder, 906, a seventh lifting cylinder, 10 and a control console.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

As shown in fig. 1-8, a through type full-automatic numerical control cutting saw for wooden door scrap comprises a machine body 1, a longitudinal guide rail, a longitudinal rack, a conveying roller 2, a guide roller column 3, a first adsorption platform 4, a second adsorption platform 5, a screw rod transmission mechanism 6, a positioning mechanism 7, a longitudinal slider 801, a cross beam 8, a cutting saw device 9 and a control console 10, wherein the machine body 1 is formed by welding a plurality of steel pipes 101, the longitudinal guide rail is fixedly arranged on two sides of the machine body 1, the longitudinal rack is fixedly arranged on two sides of the machine body 1, the longitudinal guide rail and the longitudinal rack are arranged in parallel up and down, the conveying roller 2 is arranged on the machine body 1, the guide roller column 3 is arranged on a discharge end and a feed end of the machine body 1, the first adsorption platform 4 is arranged on the machine body 1, the second adsorption platform 5 is arranged on the machine body 1, the screw rod transmission mechanism 6 is arranged on the machine body 1, the positioning mechanism 7 is arranged on the machine body 1, the cutting saw device comprises a longitudinal sliding block 801, a transverse beam 8, a cutting saw device 9, a control console 10, a conveying roller 2 and a plurality of groups of rollers 201, sliding plates 202 and fixing seats 203, wherein the longitudinal sliding block 801 is arranged on a longitudinal guide rail in a sliding connection mode, the transverse beam 8 is arranged on the longitudinal sliding block 801, the cutting saw device 9 is arranged on the transverse beam 8, the control console 10 is arranged on a machine body 1 in a connecting mode through a conducting wire, the conveying roller 2 comprises the rollers 201, the sliding plates 202 and the fixing seats 203, the fixing seats 203 are fixedly connected on the machine body 1, the sliding plates 202 are arranged on the fixing seats 203 in a sliding connection mode, two ends of the rollers 201 are fixedly connected on the sliding plates 202, and the rollers 201 are provided with a plurality of groups.

The cross beam 8 is fixedly connected with a transverse guide rail 802, a transverse rack 803, a side guide rail 804, a side rack 805 and a longitudinal driving device 806, and the longitudinal driving device 806 is meshed with the longitudinal rack on the bed.

Guide roller 3 includes roller 301, roller 301 support and connecting seat 303, connecting seat 303 fixed connection locates on the lathe bed 1, roller 301 support fixed connection locates on connecting seat 303, rotatable connection is located on roller 301 support at roller 301 both ends, roller 301 is equipped with the multiunit.

The first adsorption platform 4 comprises a connecting plate 401, a first platform beam 402, a first platform adsorption plate 403 and a first conveying assembly 410, wherein the connecting plate 401 is arranged on the machine body 1, multiple groups of connecting plates 401 are arranged, the first platform beam 402 is fixedly connected on the machine body 1 through multiple groups of connecting plates 401, the first platform adsorption plate 403 is fixedly arranged at the upper end of the first platform beam 402, a first guide rail 404, a second guide rail 406, a first lifting cylinder 408 and a second lifting cylinder 409 are arranged on the side surface of the first platform beam 402, the first conveying assembly 410 is slidably arranged on the first guide rail 404 and the second guide rail 406, and a first sliding block 405, a second sliding block 407, a first lifting cylinder 408 and a second lifting cylinder 409 are arranged on the first conveying assembly 410.

The second adsorption platform 5 comprises a sliding connecting plate 501, a second platform beam 502, a second platform adsorption plate 503 and a second conveying assembly 510, the sliding connecting plate 501 is slidably connected to a transverse guide rail 802, the lower plane of the second platform beam 502 is fixedly connected to the sliding connecting plate 501, the second platform adsorption plate 503 is fixedly arranged at the upper end of the second platform beam 502, a fifth guide rail, a sixth guide rail, a third lifting cylinder 508 and a fourth lifting cylinder 509 are arranged on the side surface of the second platform beam 502, the second conveying assembly 510 is slidably connected to the fifth guide rail and the sixth guide rail, and a seventh slider, an eighth slider, a third lifting cylinder 508 and a fourth lifting cylinder 509 are arranged on the second conveying assembly 510.

The screw transmission mechanism 6 comprises a servo motor 601, a motor base 602, a coupler 603, a ball screw 604, a nut 605, a nut connecting plate 606 and a screw fixing seat 607, the motor base 602 is fixedly connected to the bed 1, the servo motor 601 is fixedly connected to the motor base 602, one end of the coupler 603 is fixedly connected to an output shaft of the servo motor 601, the ball screw 604 is fixedly connected to the other end of the coupler 603, the nut 605 is slidably connected to the ball screw 604, the screw fixing seat 607 is arranged on the ball screw 604, a bearing hole is formed in the screw fixing seat 607, the ball screw 604 is sleeved in the bearing hole of the screw fixing seat 607, the upper end of the nut connecting plate 606 is fixedly connected to the side surface of the second platform beam 502, the lower end of the nut connecting plate 606 is fixedly arranged on the nut 605, and the ball screw 604 rotates through the rotation of the servo motor 601, so that the nut 605 moves to drive the nut connecting plate 606 and the second platform beam 502 and the nut connecting plate 606 and the second platform beam 607 The adsorption platform 5 moves in the horizontal direction.

The positioning mechanism 7 comprises a front end positioning component 701, a rear material pushing cylinder 702, a rear end positioning cylinder 703, a side positioning component 704, a side material pushing cylinder 705 and a rear end positioning cylinder 703 seat, wherein the front end positioning component 701 is fixedly connected to the discharge ends of the first adsorption platform 4 and the second adsorption platform 5, the rear material pushing cylinder 702 is fixedly connected to the feed end of the bed body 1, the rear end positioning cylinder 703 seat is fixedly connected to the cylinder rod of the rear material pushing cylinder 702, the rear end positioning cylinder 703 is fixedly connected to the rear end positioning cylinder 703 seat, the side positioning component 704 is fixedly connected to one side of the first adsorption platform 4, and the side material pushing cylinder 705 is fixedly connected to one side of the second adsorption platform 5.

The cutting saw device 9 comprises a transverse saw assembly 901, a first longitudinal saw assembly 902, a second longitudinal saw assembly 903, a fifth lifting cylinder 904, a sixth lifting cylinder 905 and a seventh lifting cylinder 906, wherein the transverse saw assembly 901 is slidably arranged on a transverse guide rail 802, the transverse saw assembly 901 is meshed with a transverse rack 803 on the cross beam 8, the first longitudinal saw assembly 902 is slidably connected on a side guide rail 804, the second longitudinal saw assembly 903 is slidably connected with the side guide rail 804 on the cross beam 8 through a sliding block, and the second longitudinal saw assembly 903 is meshed with a side rack 805 on the cross beam 8.

When the device is used specifically, an operator sets processing parameters on the control console 10, the longitudinal driving device 806 drives the cross beam 8 to return to an initial position, the fifth lifting cylinder 904, the sixth lifting cylinder 905 and the seventh lifting cylinder 906 simultaneously act to respectively drive the transverse saw assembly 901, the first longitudinal saw assembly 902 and the second longitudinal saw assembly 903 to be lifted, the servo motor 601 drives the second adsorption platform 5 to move to a set position along the horizontal direction, the first lifting cylinder 408 and the second lifting cylinder 409 simultaneously act to drive the first conveying assembly 410 to be lifted, the third lifting cylinder 508 and the fourth lifting cylinder 509 simultaneously act to drive the second conveying assembly 510 to be lifted, the servo motor on the 903 drives the second longitudinal saw assembly 903 to move to a set position along the horizontal direction, the servo motor on the transverse saw assembly 901 drives the transverse saw assembly 901 to move to a set position along the horizontal direction, and resetting is completed, the workpiece rolls through the conveying rollers 2 and is guided to the first conveying assembly 410 and the second conveying assembly 510 through the guide rollers 3, the first conveying assembly 410 and the second conveying assembly 510 rotate the belt to convey the workpiece simultaneously, meanwhile, the front end positioning assembly 701 and the side surface positioning assembly 704 are lifted, the workpiece reaches a set position and then is sent to the control console 10, the control console 10 controls the first conveying assembly 410 and the second conveying assembly 510 to stop rotating, the first lifting cylinder 408 and the second lifting cylinder 409 simultaneously act to drive the first conveying assembly 410 to fall down, the third lifting cylinder 508 and the fourth lifting cylinder 509 simultaneously act to drive the second conveying assembly 510 to fall down, the workpiece is placed on the first adsorption platform 4 and the second adsorption platform 5, the cylinder rod of the side material pushing cylinder 705 extends to abut against the workpiece to the side surface positioning assembly 704, the cylinder rod of the side material pushing cylinder 705 retracts, the cylinder rod of the rear end positioning cylinder 703 extends, the cylinder rod of the rear material pushing cylinder 702 retracts to drive the rear end positioning cylinder 703 to move towards the discharge end along the horizontal direction, the cylinder rod of the rear end positioning cylinder 703 abuts against a workpiece to the front end positioning component 701, the cylinder rod of the rear material pushing cylinder 702 extends, the cylinder rod of the rear end positioning cylinder 703 retracts to finish centering, the negative pressure pumps externally connected with the first adsorption platform 4 and the second adsorption platform 5 are started to fix the workpiece on the first adsorption platform 4 and the second adsorption platform 5, the saw blades of the first longitudinal saw component 902 and the second longitudinal saw component 903 rotate simultaneously, the sixth lifting cylinder 905 and the seventh lifting cylinder 906 simultaneously act to respectively drive the first longitudinal saw component 902 and the second longitudinal saw component 903 to fall down, the longitudinal driving device 806 drives the cross beam 8 to move to the setting position along the horizontal direction to finish simultaneous longitudinal cutting of two sides of the workpiece, and the sixth lifting cylinder 905 and the seventh lifting cylinder 906 simultaneously act to respectively drive the first longitudinal saw component 902, the second longitudinal saw component 903 and the second longitudinal saw component 903 to simultaneously cut two sides of the workpiece, The second longitudinal saw component 903 is lifted, the saw blades of the first longitudinal saw component 902 and the second longitudinal saw component 903 stop rotating at the same time, the saw blade of the transverse saw component 901 rotates, the fifth lifting cylinder 904 drives the transverse saw component 901 to fall down, a servo motor on the transverse saw component 901 drives the transverse saw component 901 to move to a set position along the horizontal direction to complete transverse cutting on the front end of the workpiece, the fifth lifting cylinder 904 drives the transverse saw component 901 to lift, the saw blade of the transverse saw component 901 stops rotating, a servo motor on the transverse saw component 901 drives the transverse saw component 901 to return to the set position, the longitudinal driving device 806 drives the cross beam 8 to return to the set position, the saw blade of the transverse saw component 901 rotates, the fifth lifting cylinder 904 drives the transverse saw component 901 to fall down, the servo motor on the transverse saw component 901 drives the transverse saw component 901 to move to the set position along the horizontal direction to complete transverse cutting on the rear end of the workpiece, the fifth lifting cylinder 904 drives the transverse saw assembly 901 to lift, the saw blade of the transverse saw assembly 901 stops rotating, the machining is completed, the negative pressure pump externally connected with the first adsorption platform 4 and the second adsorption platform 5 stops releasing the workpiece, the first lifting cylinder 408 and the second lifting cylinder 409 simultaneously act to drive the first conveying assembly 410 to lift, the third lifting cylinder 508 and the fourth lifting cylinder 509 simultaneously act to drive the second conveying assembly 510 to lift, the workpiece is placed on the first conveying assembly 410 and the second conveying assembly 510, the first conveying assembly 410 and the second conveying assembly 510 simultaneously rotate the belt to convey the workpiece to the conveying roller 2 at the discharging end to roll to the next process, and each component resets to wait for the next workpiece.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (8)

1. The utility model provides a full-automatic timber leftover bits numerical control slitting saw of through-type which characterized in that: the cutting and sawing machine comprises a machine body, a longitudinal guide rail, a longitudinal rack, a conveying roller, a guide roller column, a first adsorption platform, a second adsorption platform, a screw rod transmission mechanism, a positioning mechanism, a longitudinal sliding block, a cross beam, a cutting and sawing device and a control console, wherein the machine body is formed by welding a plurality of steel pipes, the longitudinal guide rail is fixedly arranged on two sides of the machine body, the longitudinal rack is fixedly arranged on two sides of the machine body, the longitudinal guide rail and the longitudinal rack are arranged in an up-down parallel mode, the conveying roller is arranged on the machine body, the guide roller column is arranged on a discharge end and a feed end of the machine body, the first adsorption platform is arranged on the machine body, the second adsorption platform is arranged on the machine body, the screw rod transmission mechanism is arranged on the machine body, the positioning mechanism is arranged on the machine body, the longitudinal sliding block is arranged on the longitudinal guide rail in a sliding manner, the cross beam is arranged on the longitudinal sliding block, and the cutting and sawing device is arranged on the cross beam, the control cabinet is connected and arranged on the bed body through a conducting wire, the conveying roller comprises a roller shaft, a sliding plate and a fixed seat, the fixed seat is fixedly connected and arranged on the bed body, the sliding plate is slidably connected and arranged on the fixed seat, two ends of the roller shaft are fixedly connected and arranged on the sliding plate, and the roller shaft is provided with a plurality of groups.

2. The through type full-automatic numerical control cutting saw for wooden door scraps as claimed in claim 1, wherein: the transverse beam is fixedly connected with a transverse guide rail, a transverse rack, a side guide rail, a side rack and a longitudinal driving device, and the longitudinal driving device is meshed with the longitudinal rack on the lathe bed.

3. The through type full-automatic numerical control cutting saw for wooden door scraps as claimed in claim 2, wherein: the guide roller column comprises a roller column, a roller column support and a connecting seat, the connecting seat is fixedly connected with the machine body, the roller column support is fixedly connected with the connecting seat, two ends of the roller column are rotatably connected with the roller column support, and the roller column is provided with a plurality of groups.

4. The through type full-automatic numerical control cutting saw for wooden door scraps as claimed in claim 3, wherein: first adsorption platform includes even board, first platform crossbeam, first platform adsorption plate and first conveying assembly, even the board is located on the lathe bed, even the board is equipped with the multiunit, on the lathe bed was located to the first platform crossbeam through multiunit even board fixed connection, first platform adsorption plate is fixed to be located first platform crossbeam upper end, first platform crossbeam side was equipped with first guide rail, second guide rail, first lift cylinder and second lift cylinder, first conveying assembly slides and locates on first guide rail and the second guide rail, be equipped with first slider, second slider, first lift cylinder and second lift cylinder on the first conveying assembly.

5. The through type full-automatic numerical control cutting saw for wooden door scraps as claimed in claim 4, wherein: the second adsorption platform comprises a sliding connecting plate, a second platform cross beam, a second platform adsorption plate and a second conveying assembly, the sliding connecting plate is arranged on the transverse guide rail in a sliding connection mode, the lower plane of the second platform cross beam is fixedly connected to the sliding connecting plate, the second platform adsorption plate is fixedly arranged at the upper end of the second platform cross beam, a fifth guide rail, a sixth guide rail, a third lifting cylinder and a fourth lifting cylinder are arranged on the side face of the second platform cross beam, the second conveying assembly is arranged on the fifth guide rail and the sixth guide rail in a sliding connection mode, and a seventh sliding block, an eighth sliding block, a third lifting cylinder and a fourth lifting cylinder are arranged on the second conveying assembly.

6. The through type full-automatic numerical control cutting saw for wooden door scraps as claimed in claim 5, wherein: the lead screw drive mechanism includes servo motor, motor cabinet, shaft coupling, ball screw, screw company board and lead screw fixing base, motor cabinet fixed connection locates on the lathe bed, servo motor fixed connection locates on the motor cabinet, the one end fixed connection of shaft coupling locates on servo motor's the output shaft, ball screw fixed connection locates on the other end of shaft coupling, screw sliding connection locates ball screw, the lead screw fixing base is located on ball screw, be equipped with the dead eye on the lead screw fixing base, ball screw cup joints in the dead eye of locating the lead screw fixing base, the upper end fixed connection of screw company board locates second platform crossbeam side, the lower extreme of screw company board is fixed to be located on the screw.

7. The through type full-automatic numerical control cutting saw for wooden door scraps as claimed in claim 6, wherein: the positioning mechanism comprises a front end positioning component, a rear material pushing cylinder, a rear end positioning cylinder, a side positioning component, a side material pushing cylinder and a rear end positioning cylinder seat, wherein the front end positioning component is fixedly connected with the discharge ends of the first adsorption platform and the second adsorption platform, the rear material pushing cylinder is fixedly connected with the feed end of the lathe bed, the rear end positioning cylinder seat is fixedly connected with a cylinder rod of the rear material pushing cylinder, the rear end positioning cylinder is fixedly connected with the rear end positioning cylinder seat, the side positioning component is fixedly connected with one side of the first adsorption platform, and the side material pushing cylinder is fixedly connected with one side of the second adsorption platform.

8. The through type full-automatic numerical control cutting saw for wooden door scraps as claimed in claim 7, wherein: the slitting saw device includes horizontal saw subassembly, first vertical saw subassembly, the vertical saw subassembly of second, fifth lift cylinder, sixth lift cylinder and seventh lift cylinder, horizontal saw subassembly slides and locates on the transverse guide, horizontal saw subassembly meshes with the horizontal rack on the crossbeam, on the side guide was located to first vertical saw subassembly sliding connection, the vertical saw subassembly of second passes through side guide sliding connection on slider and the crossbeam, the vertical saw subassembly of second meshes with the side rack on the crossbeam.

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