CN215094197U

CN215094197U - Through type full-automatic numerical control drilling and milling machine for wooden door slotted hole

Info

Publication number: CN215094197U
Application number: CN202121297496.5U
Authority: CN
Inventors: 李广宣; 赵东锋; 许言顺
Original assignee: Shandong Guangjie Intelligent Equipment Co ltd
Current assignee: Shandong Guangjie Intelligent Equipment Co ltd
Priority date: 2021-06-10
Filing date: 2021-06-10
Publication date: 2021-12-10
Anticipated expiration: 2031-06-10

Abstract

The utility model discloses a through type full-automatic numerical control drilling and milling machine for wooden door slotted holes, which comprises a lathe bed, a fixed processing platform, an adjustable processing platform, a screw rod transmission mechanism, a beam unit, a hinge slotted hole unit, a door lock slotted hole unit and a control cabinet; the utility model belongs to the milling and drilling machine field specifically is a numerical control milling and drilling machine is controlled by numerical control system, cylinder on the processing platform is automatic to carry out terminal surface and side location back and press from both sides tightly to the work piece, but hinge slotted hole unit and lock slotted hole unit independent and simultaneous processing separately, it is first, second conveyor components moves simultaneously and carries the work piece automation to ejection of compact region, whole course of working need not artificial intervention and realizes the full automatization, machining efficiency and security have been improved, but the wide and narrow automatically regulated size that has reduced equipment of processing platform has reduced the manufacturing cost of equipment, servo motor location is accurate, the full-automatic timber slotted hole numerical control milling and drilling machine of through-type of machining precision has been improved.

Description

Through type full-automatic numerical control drilling and milling machine for wooden door slotted hole

Technical Field

The utility model belongs to the technical field of drilling and milling machine, specifically indicate a full-automatic timber slotted hole numerical control drilling and milling machine of through-type.

Background

The slotted hole numerical control drilling and milling machine is common equipment in the wood door processing industry, and is used for processing mounting grooves and holes of hardware on wood doors, and mounting grooves and holes of hinges and door locks are common. The existing hinge hole and door lock hole processing equipment is single station, namely the hinge hole and the door lock hole are processed one station and then the other station by using the same drilling and milling device, the production efficiency is low, and the automation degree is low.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a whole course of working need not artificial intervention and realizes the full automatization, has improved machining efficiency and security, but the size that the wide and narrow automatically regulated of processing platform has reduced equipment has reduced the manufacturing cost of equipment, and servo motor location is accurate, has improved the full-automatic timber slotted hole numerical control drilling and milling machine of through-type of machining precision.

The utility model adopts the following technical scheme: the utility model relates to a full-automatic timber slotted hole numerical control drilling and milling machine of through type, including lathe bed, fixed processing platform, adjustable processing platform, lead screw drive mechanism, crossbeam unit, hinge slotted hole unit, lock slotted hole unit and switch board, the lathe bed includes frame, left side longitudinal rail, left side longitudinal rack, right side longitudinal rail, right side longitudinal rack and transverse guide, the frame is formed by a plurality of steel pipe welding, left side longitudinal rail and left side longitudinal rack parallel fixation are in frame one side, left side longitudinal rail is located both sides about the left side longitudinal rack, right side longitudinal rail and right side longitudinal rack parallel fixation are at the frame opposite side, right side longitudinal rail is located both sides about the right side longitudinal rack, transverse guide fixes the plane in the frame.

Further, the fixed processing platform comprises a connecting plate, a guide roller column, a fixed platform cross beam, a fixed platform wear-resisting plate, a first conveying assembly lifting cylinder, a first conveying assembly, a first front-end pushing cylinder, a first rear-end positioning stop block, a side positioning baffle plate, a side positioning clamping cylinder and a clamping block, wherein the connecting plate is uniformly arranged on the fixed platform cross beam, the fixed platform cross beam is fixedly connected with the lathe bed through the connecting plate, the guide roller column is fixedly connected with the fixed platform cross beam, the fixed platform wear-resisting plate is fixed on the upper plane of the fixed platform cross beam, a cylinder barrel of the first conveying assembly lifting cylinder is fixedly connected to the side surface of the fixed platform cross beam, the first conveying assembly is arranged on a guide rail of the fixed platform cross beam in a vertical sliding mode through a sliding block, a cylinder rod of the first conveying assembly lifting cylinder is fixedly connected to the side surface of the first conveying assembly, and the first front-end pushing cylinder is fixedly connected to the feeding end of the fixed platform cross beam, the first front end pushes away the rectangular hole longitudinal sliding who offers along the fixed platform crossbeam of the cylinder pole of material, first rear end location dog fixed connection is at the discharge end of fixed platform crossbeam, the side location baffle is connected in the side of fixed platform crossbeam, the side location baffle is along the rectangular hole longitudinal sliding who offers of fixed platform crossbeam, side location die clamping cylinder fixed connection is on the side location baffle, press from both sides tight piece fixed connection on the cylinder pole of side location die clamping cylinder.

Furthermore, the adjustable processing platform comprises a sliding connecting plate, an adjustable platform cross beam, an adjustable platform wear-resisting plate, a second conveying assembly lifting cylinder, a second conveying assembly, a second front-end material pushing cylinder, a second rear-end positioning stop block and a side material pushing cylinder, the sliding connecting plate is in sliding connection with a transverse guide rail fixed on the lathe bed through a sliding block fixed on the sliding connecting plate, the adjustable platform cross beam is fixedly connected to the upper plane of the sliding connecting plate, the adjustable platform wear-resisting plate is fixed on the upper plane of the adjustable platform cross beam, the second conveying assembly is vertically and slidably arranged on a guide rail fixed on the adjustable platform cross beam through the sliding block, the second conveying assembly lifting cylinder is arranged on the adjustable platform cross beam, a cylinder rod of the second conveying assembly lifting cylinder is fixedly connected to the side surface of the second conveying assembly, and the second front-end material pushing cylinder is connected to the feeding end of the adjustable platform cross beam, the second front-end material pushing cylinder longitudinally slides along the long hole formed in the adjustable platform beam, the second front-end material pushing cylinder is flush with the first front-end material pushing cylinder, the second rear-end positioning stop block is fixedly connected to the discharge end of the adjustable platform beam and flush with the first rear-end positioning stop block, the side material pushing cylinder is fixedly connected to the side face of the adjustable platform beam through a connecting plate, and a cylinder rod of the material pushing cylinder can longitudinally slide along the long hole formed in the adjustable platform beam.

Further, screw drive mechanism includes that servo motor, motor cabinet, shaft coupling, ball screw, screw and screw link the board, the motor cabinet passes through bolt fixed connection on the lathe bed, servo motor passes through bolt fixed connection on the motor cabinet, the one end fixed connection of shaft coupling is on servo motor's output shaft, ball screw fixed connection is on the other end of shaft coupling, ball screw and screw sliding connection, the upper end fixed connection of screw link the board is in adjustable platform crossbeam side of adjustable processing platform, the lower extreme of screw link the board is fixed on the screw.

Furthermore, a longitudinal sliding block, a transverse guide rail, a transverse rack and a longitudinal driving device are fixedly connected to the transverse beam unit, the transverse beam unit is in sliding connection with the right longitudinal guide rail on the lathe bed through the longitudinal sliding block, and the longitudinal driving device is meshed with the right rack on the lathe bed.

Further, the hinge slot hole unit comprises a longitudinal feeding device, a fixed seat, a first transverse feeding device, a fixed frame, a hinge Z-direction feeding device, a hinge slot device and a hinge hole device, wherein the longitudinal feeding device is longitudinally and horizontally connected with a left longitudinal guide rail on the machine body through the fixed seat and a slide block fixed on the fixed seat in a sliding manner, the longitudinal feeding device is meshed with a left longitudinal rack on the machine body, the first transverse feeding device is fixedly connected with the longitudinal feeding device, the hinge Z-direction feeding device is fixedly connected with a slide block fixed on the first transverse feeding device through the fixed frame and horizontally slides along a guide rail fixed on the first transverse feeding device in a transverse manner, the hinge slot device is fixedly connected with the hinge Z-direction feeding device through a connecting plate, and the hinge slot device can vertically slide along the guide rail fixed on the left side of the fixed frame through the slide block, the cutter of the hinge groove device is horizontally arranged transversely, the hinge hole device is fixedly connected with the hinge Z-direction feeding device through a connecting plate, the hinge hole device can vertically slide along a guide rail fixed on the right side of the fixing frame through a sliding block, and the cutter of the hinge hole device is horizontally arranged transversely.

Further, the door lock slotted hole unit comprises a second transverse feeding device, a door lock Z-direction feeding device, a sliding seat, a lock tongue groove device, a lock tongue hole device, a lock cylinder hole device and a lock hole device, the second transverse feeding device is connected with a transverse guide rail on the cross beam unit in a sliding mode through a sliding block, the second transverse feeding device is meshed with a transverse rack on the cross beam unit, the door lock Z-direction feeding device is fixedly connected with the second transverse feeding device, the sliding seat is connected with a guide rail on the lock Z-direction feeding device in a vertical up-down sliding mode through a sliding block door, the lock tongue groove device is connected to the front side of the sliding seat in a vertical up-down sliding mode, a cutter of the lock tongue groove device is horizontally arranged in a transverse direction, the lock tongue hole device is connected to the bottom of the sliding seat in a vertical up-down sliding mode, the cutter of the lock tongue hole device is horizontally arranged in a transverse direction, and the lock cylinder hole device is connected to the left side of the sliding seat in a vertical up-down sliding mode, the cutter of lock core hole device sets up along vertical, lock hole device fixed connection leans on preceding one end in the left side of slide, the cutter of lock hole device sets up along vertical.

Furthermore, the control cabinet is an operation table for parameter setting, the control cabinet is provided with a display and a control switch, and the motor, the pneumatic element and the detection element on the fixed processing platform, the adjustable processing platform, the screw rod transmission mechanism, the cross beam unit, the hinge slotted hole unit and the door lock slotted hole unit are respectively connected with the control cabinet through circuits.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: the utility model provides a full-automatic timber slotted hole numerical control drilling and milling machine of through type, this numerical control drilling and milling machine is controlled by numerical control system, servo motor automatically regulated processing platform's width, it is first, second conveyor components moves simultaneously and carries the work piece to the machining region automatically, cylinder on the processing platform is automatic to carry out terminal surface and side location back and press from both sides tightly to the work piece, hinge slotted hole unit and lock slotted hole unit are independent separately and can simultaneous processing, it is first, second conveyor components moves simultaneously and carries the work piece automatically to ejection of compact region, whole course of working need not manual intervention and realizes the full automatization, machining efficiency and security have been improved, but the size that processing platform width automatically regulated has reduced equipment has reduced the manufacturing cost of equipment, servo motor location is accurate, machining precision has been improved. Compared with the prior art, the utility model, have substantive characteristics and progress, the beneficial effect of its implementation is also obvious.

Drawings

FIG. 1 is a structural diagram of a through type full-automatic numerical control drilling and milling machine for wooden door slots of the present invention;

fig. 2 is a front view of the bed of the present invention;

FIG. 3 is a block diagram of a fixed tooling platform;

FIG. 4 is a front view of the adjustable tooling platform;

FIG. 5 is a front view of the screw drive mechanism;

fig. 6 is a front view of the beam unit;

FIG. 7 is a view of the structure of a hinge slot unit;

fig. 8 is a structural view of a door lock slot unit.

Wherein, 1, a lathe bed, 101, a frame, 102, a left longitudinal guide rail, 103, a left longitudinal guide rail, 104, a right longitudinal guide rail, 105, a right longitudinal rack, 106, a transverse guide rail, 2, a fixed processing platform, 201, a plurality of connecting plates, 202, a guide roller column, 203, a fixed platform beam, 204, a fixed platform wear-resistant plate, 205, a first conveying assembly lifting cylinder, 206, a first conveying assembly, 207, a first front end pushing cylinder, 208, a first rear end positioning block, 209, a side positioning baffle, 210, a side positioning clamping cylinder, 211, a clamping block, 3, an adjustable processing platform bag, 301, a sliding connecting plate, 302, an adjustable platform beam, 303, an adjustable platform wear-resistant plate, 304, a second conveying assembly lifting cylinder, 305, a second conveying assembly, 306, a second front end cylinder, 307, a second rear end positioning block, 308, a side pushing cylinder, 4 and a screw rod mechanism, 401. the device comprises a servo motor, 402, a motor base, 403, a coupler, 404, a ball screw, 405, a nut, 406, a nut connecting plate, 5, a beam unit, 501, a longitudinal sliding block, 502, a transverse guide rail, 503, a transverse rack, 504, a longitudinal driving device, 6, a hinge slotted hole unit, 601, a longitudinal feeding device, 602, a fixed base, 603, a first transverse feeding device, 604, a fixed frame, 605 and a hinge Z-direction feeding device, 606, a hinge slot device, 607, a hinge hole device, 7, a door lock slotted hole unit, 701, a second transverse feeding device, 702, a door lock Z-direction feeding device, 703, a sliding base, 704, a lock tongue slot device, 705, a lock tongue hole device, 706, a core hole device, 707, a lock hole device, 8 and a control cabinet.

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.

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.

As shown in figures 1-8, the utility model relates to a through type full-automatic numerical control drilling and milling machine for wooden door slots, which comprises a through type full-automatic numerical control drilling and milling machine for wooden door slots, comprising a machine body 1, a fixed processing platform 2, an adjustable processing platform 3, a screw rod transmission mechanism 4, a beam unit 5, a hinge slot unit 6, a door lock slot unit 7 and a control cabinet 8, wherein the machine body 1 comprises a machine frame 101, a left longitudinal guide rail 102, a left longitudinal rack 103, a right longitudinal guide rail 104, a right longitudinal rack 105 and a transverse guide rail 106, the machine frame 101 is formed by welding a plurality of steel pipes, the left longitudinal guide rail 102 and the left longitudinal rack 103 are fixed on one side of the machine frame 101 in parallel, the left longitudinal guide rail 102 is positioned on the upper and lower sides of the left longitudinal rack 103, the right longitudinal guide rail 104 and the right longitudinal rack 105 are fixed on the other side of the machine frame 101 in parallel, the right longitudinal guide rail 104 is positioned on the upper and lower sides of the right longitudinal rack 105, the transverse guide 106 is fixed on the upper plane of the frame 101.

Wherein the fixed processing platform 2 comprises a connecting plate 201, guide rollers 202, a fixed platform beam 203, a fixed platform wear-resisting plate 204, a first conveying assembly lifting cylinder 205, a first conveying assembly 206, a first front end pushing cylinder 207, a first rear end positioning stop block 208, a side positioning baffle 209, a side positioning clamping cylinder 210 and a clamping block 211, the connecting plate 201 is uniformly arranged on the connecting plate 203, the fixed platform beam 203 is fixedly connected with the machine bed 1 through the connecting plate 201, the guide rollers 202 are fixedly connected with the fixed platform beam 203, the fixed platform wear-resisting plate 204 is fixed on the upper plane of the fixed platform beam 203, a cylinder barrel of the first conveying assembly lifting cylinder 205 is fixedly connected on the side surface of the fixed platform beam 203, the first conveying assembly 206 is arranged on a guide rail of the fixed platform beam 203 in a vertical sliding manner through a sliding block, a rod of the first conveying assembly lifting cylinder 205 is fixedly connected on the side surface of the first conveying assembly 206, the first front-end material pushing cylinder 207 is fixedly connected to the feeding end of the fixed platform cross beam 203, a cylinder rod of the first front-end material pushing cylinder 207 longitudinally slides along a long hole formed in the fixed platform cross beam 203, the first rear-end positioning stop block 208 is fixedly connected to the discharging end of the fixed platform cross beam 203, the side positioning baffle 209 is connected to the side surface of the fixed platform cross beam 203, the side positioning baffle 209 longitudinally slides along the long hole formed in the fixed platform cross beam 203, the side positioning clamping cylinder 210 is fixedly connected to the side positioning baffle 209, and the clamping block 211 is fixedly connected to the cylinder rod of the side positioning clamping cylinder 210.

The adjustable processing platform comprises a sliding connecting plate 301, an adjustable platform cross beam 302, an adjustable platform wear-resisting plate 303, a second conveying assembly lifting cylinder 304, a second conveying assembly 305, a second front end pushing cylinder 306, a second rear end positioning stop 307 and a side pushing cylinder 308, wherein the sliding connecting plate 301 is in sliding connection with a transverse guide rail 106 fixed on the bed body 1 through a sliding block fixed on the sliding connecting plate, the adjustable platform cross beam 302 is fixedly connected to the upper plane of the sliding connecting plate 301, the adjustable platform wear-resisting plate 303 is fixed on the upper plane of the adjustable platform cross beam 302, the second conveying assembly 305 is arranged on the guide rail fixed on the adjustable platform cross beam 302 in a vertical sliding mode through the sliding block, the second conveying assembly lifting cylinder 304 is arranged on the adjustable platform cross beam 302, and a cylinder rod of the second conveying assembly lifting cylinder 304 is fixedly connected to the side face of the second conveying assembly 305, the second front-end material pushing cylinder 306 is connected to the feed end of the adjustable platform beam 302, the second front-end material pushing cylinder 306 longitudinally slides along the elongated hole formed in the adjustable platform beam 302, the second front-end material pushing cylinder 306 is flush with the first front-end material pushing cylinder 207, the second rear-end positioning stop block 307 is fixedly connected to the discharge end of the adjustable platform beam 302 and is flush with the first rear-end positioning stop block 208, the side material pushing cylinder 308 is fixedly connected to the side surface of the adjustable platform beam 302 through a connecting plate, and a cylinder rod of the material pushing cylinder 308 can longitudinally slide along the elongated hole formed in the adjustable platform beam 302.

The screw transmission mechanism 4 comprises a servo motor 401, a motor base 402, a coupler 403, a ball screw 404, a nut 405 and a nut connecting plate 406, the motor base 402 is fixedly connected to the bed body 1 through bolts, the servo motor 401 is fixedly connected to the motor base 402 through bolts, one end of the coupler 403 is fixedly connected to an output shaft of the servo motor 401, the ball screw 404 is fixedly connected to the other end of the coupler 403, the ball screw 404 is slidably connected with the nut 405, the upper end of the nut connecting plate 406 is fixedly connected to the side surface of the adjustable platform beam 302 of the adjustable processing platform 3, and the lower end of the nut connecting plate 406 is fixed to the nut 405.

The beam unit 5 is fixedly connected with a longitudinal sliding block 501, a transverse guide rail 502, a transverse rack 503 and a longitudinal driving device 504, the beam unit 5 is connected with the right longitudinal guide rail 104 on the bed 1 in a sliding mode through the longitudinal sliding block 501, and the longitudinal driving device 504 is meshed with the right rack 105 on the bed 1.

The hinge slot hole unit 6 comprises a longitudinal feeding device 601, a fixed seat 602, a first transverse feeding device 603, a fixed frame 604, a hinge Z-direction feeding device 605, a hinge slot device 606 and a hinge hole device 607, wherein the longitudinal feeding device 601 is longitudinally and horizontally connected with a left longitudinal guide rail 102 on the machine bed 1 through the fixed seat 602 and a slide block fixed on the fixed seat 602 in a sliding manner, the longitudinal feeding device 601 is meshed with a left longitudinal rack 103 on the machine bed 1, the first transverse feeding device 603 is fixedly connected with the longitudinal feeding device 601, the hinge Z-direction feeding device 605 is fixedly connected with a slide block fixed on the first transverse feeding device 603 through the fixed frame 604 and horizontally slides along a guide rail fixed on the first transverse feeding device 603, the hinge slot device 606 is fixedly connected with the hinge Z-direction feeding device 605 through a connecting plate, the hinge slot device 606 can vertically slide along the guide rail fixed on the left side of the fixed frame 604 through the slide block, the cutter of the hinge slot device 606 is horizontally arranged, the hinge hole device 607 is fixedly connected with the hinge Z-direction feeding device 605 through a connecting plate, the hinge hole device 607 can vertically slide up and down along a guide rail fixed on the right side of the fixed frame 604 through a sliding block, and the cutter of the hinge hole device 607 is horizontally arranged.

The door lock slotted hole unit 7 comprises a second transverse feeding device 701, a door lock Z-direction feeding device 702, a sliding seat 703, a lock tongue groove device 704, a lock tongue hole device 705, a lock cylinder hole device 706 and a lock hole device 707, wherein the second transverse feeding device 701 is connected with a transverse guide rail 502 on the cross beam unit 5 in a sliding manner through a sliding block, the second transverse feeding device 701 is meshed with a transverse rack 503 on the cross beam unit 5, the door lock Z-direction feeding device 702 is fixedly connected with the second transverse feeding device 701, the sliding seat 703 is connected with a guide rail on the lock Z-direction feeding device 702 in a vertical up-down sliding manner through a sliding block door, the lock tongue groove device 704 is connected to the front side of the sliding seat 703 in a vertical up-down sliding manner, a cutter of the lock tongue groove device 704 is horizontally arranged along the transverse direction, the lock tongue hole device 705 is connected to the bottom of the sliding seat 703 in a vertical up-down sliding manner, and a cutter of the lock tongue hole device 705 is horizontally arranged along the transverse direction, the lock cylinder hole device 706 is vertically and vertically connected to the left side of the sliding seat 703 in a sliding manner, a cutter of the lock cylinder hole device 706 is vertically arranged, the lock hole device 707 is fixedly connected to the front end of the left side of the sliding seat 703, and the cutter of the lock hole device 707 is vertically arranged.

The control cabinet 8 is an operation table for parameter setting, the control cabinet 8 is provided with a display and a control switch, and the motor, the pneumatic element and the detection element on the fixed processing platform, the adjustable processing platform, the screw rod transmission mechanism, the cross beam unit, the hinge slotted hole unit and the door lock slotted hole unit are respectively connected with the control cabinet through circuits.

When the device is used, an operator sets processing parameters in a control cabinet 8, the beam unit 5, the hinge slot unit 6 and the door lock hole unit 7 are respectively reset, the servo motor 401 drives the adjustable processing platform 5 to horizontally move to a set position along the transverse direction, the first conveying component lifting cylinder 205 drives the first conveying component 206 to lift up, the second conveying component lifting cylinder 304 drives the second conveying component 305 to lift up to wait for feeding, a workpiece is guided to the first conveying component 206 and the second conveying component 305 through the guide roller column 202, the first conveying component 206 and the second conveying component 305 simultaneously rotate the belt to convey the workpiece, the workpiece reaches the set position and then signals to the control cabinet 8, the control cabinet 8 controls the first conveying component 206 and the second conveying component 305 to stop rotating, the first conveying component lifting cylinder 205 drives the first conveying component 206 to fall down, the second conveying component lifting cylinder 304 drives the second conveying component 305 to fall down, the workpiece is placed on the fixed processing platform 2 and the adjustable processing platform 3, the first front-end material pushing cylinder 207 and the second front-end material pushing cylinder 306 simultaneously act to push the workpiece to tightly abut against the first rear-end positioning stop block 208 and the second rear-end positioning stop block 307, the side material pushing cylinder 308 pushes the workpiece to tightly abut against the side positioning stop block 209, the side positioning clamping cylinder 210 acts on the clamping block 211 to clamp the workpiece, the workpiece is fixed, the longitudinal feeding device 601 drives the hinge slotted hole unit 6 to move to the hinge slotted hole processing position, the longitudinal driving device 504 drives the beam unit 2 simultaneously, the second transverse feeding device 701 drives the door lock slotted hole unit 7 to move to the door lock slotted hole processing position, the hinge slotted hole unit 6 and the door lock slotted hole unit 7 simultaneously act to sequentially complete the processing of the hinge slot, the hinge hole and the lock tongue slot, the lock tongue hole, the lock core hole and the lock hole, the side positioning clamping cylinder 210 acts on the clamping block 211 to release the workpiece, the first conveying assembly lifting cylinder 205 drives the first conveying assembly 206 to lift up, the second conveying assembly lifting cylinder 304 drives the second conveying assembly 305 to lift up, the workpiece is placed on the first conveying assembly 206 and the second conveying assembly 305, the first conveying assembly 206 and the second conveying assembly 305 simultaneously rotate the belt to convey the workpiece to the discharging end, and each part is reset to wait for the next workpiece.

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.

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.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. 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

1. The utility model provides a full-automatic timber slotted hole numerical control drilling and milling machine of through type which characterized in that: including lathe bed, fixed processing platform, adjustable processing platform, lead screw drive mechanism, crossbeam unit, hinge slotted hole unit, lock slotted hole unit and switch board, the lathe bed includes frame, left side longitudinal rail, left side longitudinal rack, right side longitudinal rail, right side longitudinal rack and transverse guide, the frame is formed by a plurality of steel pipe welding, left side longitudinal rail and left side longitudinal rack parallel fixation are in frame one side, left side longitudinal rail is located both sides about the left side longitudinal rack, right side longitudinal rail and right side longitudinal rack parallel fixation are at the frame opposite side, right side longitudinal rail is located both sides about the right side longitudinal rack, transverse guide fixes in frame upper plane.

2. The passing type full-automatic numerical control drilling and milling machine for wooden door and slotted holes as claimed in claim 1, characterized in that: the fixed machining platform comprises a connecting plate, a guide roller column, a fixed platform cross beam, a fixed platform wear-resisting plate, a first conveying assembly lifting cylinder, a first conveying assembly, a first front-end material pushing cylinder, a first rear-end positioning stop block, a side positioning baffle plate, a side positioning clamping cylinder and a clamping block, wherein the connecting plate is uniformly arranged on the fixed platform cross beam, the fixed platform cross beam is fixedly connected with the lathe bed through the connecting plate, the guide roller column is fixedly connected with the fixed platform cross beam, the fixed platform wear-resisting plate is fixed on the upper plane of the fixed platform cross beam, a cylinder barrel of the first conveying assembly lifting cylinder is fixedly connected to the side surface of the fixed platform cross beam, the first conveying assembly is arranged on a guide rail of the fixed platform cross beam in a vertical sliding mode through a sliding block, a cylinder rod of the first conveying assembly lifting cylinder is fixedly connected to the side surface of the first conveying assembly, and the first front-end material pushing cylinder is fixedly connected to the feeding end of the fixed platform cross beam, the first front end pushes away the rectangular hole longitudinal sliding who offers along the fixed platform crossbeam of the cylinder pole of material, first rear end location dog fixed connection is at the discharge end of fixed platform crossbeam, the side location baffle is connected in the side of fixed platform crossbeam, the side location baffle is along the rectangular hole longitudinal sliding who offers of fixed platform crossbeam, side location die clamping cylinder fixed connection is on the side location baffle, press from both sides tight piece fixed connection on the cylinder pole of side location die clamping cylinder.

3. The passing type full-automatic numerical control drilling and milling machine for wooden door and slotted holes as claimed in claim 2, characterized in that: the adjustable processing platform comprises a sliding connecting plate, an adjustable platform cross beam, an adjustable platform wear-resisting plate, a second conveying assembly lifting cylinder, a second conveying assembly, a second front-end material pushing cylinder, a second rear-end positioning stop block and a side material pushing cylinder, wherein the sliding connecting plate is in sliding connection with a transverse guide rail fixed on a lathe bed through a sliding block fixed on the sliding connecting plate, the adjustable platform cross beam is fixedly connected to the upper plane of the sliding connecting plate, the adjustable platform wear-resisting plate is fixed on the upper plane of the adjustable platform cross beam, the second conveying assembly is vertically and slidably arranged on the guide rail fixed on the adjustable platform cross beam through the sliding block, the second conveying assembly lifting cylinder is arranged on the adjustable platform cross beam, a cylinder rod of the second conveying assembly lifting cylinder is fixedly connected to the side surface of the second conveying assembly, and the second front-end material pushing cylinder is connected to the feeding end of the adjustable platform cross beam, the second front-end material pushing cylinder longitudinally slides along the long hole formed in the adjustable platform beam, the second front-end material pushing cylinder is flush with the first front-end material pushing cylinder, the second rear-end positioning stop block is fixedly connected to the discharge end of the adjustable platform beam and flush with the first rear-end positioning stop block, the side material pushing cylinder is fixedly connected to the side face of the adjustable platform beam through a connecting plate, and a cylinder rod of the material pushing cylinder can longitudinally slide along the long hole formed in the adjustable platform beam.

4. The pass-through type full-automatic numerical control drilling and milling machine for wooden door slots and holes as claimed in claim 3, wherein: screw drive mechanism includes servo motor, motor cabinet, shaft coupling, ball screw, screw and links the board, the motor cabinet passes through bolt fixed connection on the lathe bed, servo motor passes through bolt fixed connection on the motor cabinet, the one end fixed connection of shaft coupling is on servo motor's output shaft, ball screw fixed connection is on the other end of shaft coupling, ball screw and screw sliding connection, the upper end fixed connection that the screw links the board is in adjustable platform crossbeam side of adjustable processing platform, the lower extreme that the screw links the board is fixed on the screw.

5. The pass-through type full-automatic numerical control drilling and milling machine for wooden door slots and holes as claimed in claim 4, wherein: the beam unit is fixedly connected with a longitudinal sliding block, a transverse guide rail, a transverse rack and a longitudinal driving device, the beam unit is connected with a right longitudinal guide rail on the lathe bed in a sliding mode through the longitudinal sliding block, and the longitudinal driving device is meshed with the right rack on the lathe bed.

6. The pass-through type full-automatic numerical control drilling and milling machine for wooden door slots and holes as claimed in claim 5, wherein: the hinge slot hole unit comprises a longitudinal feeding device, a fixed seat, a first transverse feeding device, a fixed frame, a hinge Z-direction feeding device, a hinge slot device and a hinge hole device, wherein the longitudinal feeding device is longitudinally and horizontally connected with a left longitudinal guide rail on the machine body through the fixed seat and a sliding block fixed on the fixed seat in a sliding manner, the longitudinal feeding device is meshed with a left longitudinal rack on the machine body, the first transverse feeding device is fixedly connected with the longitudinal feeding device, the hinge Z-direction feeding device is fixedly connected with a sliding block fixed on the first transverse feeding device through the fixed frame and transversely and horizontally slides along the guide rail fixed on the first transverse feeding device, the hinge slot device is fixedly connected with the hinge Z-direction feeding device through a connecting plate, and the hinge slot device can vertically slide along the guide rail fixed on the left side of the fixed frame through the sliding block, the cutter of the hinge groove device is horizontally arranged transversely, the hinge hole device is fixedly connected with the hinge Z-direction feeding device through a connecting plate, the hinge hole device can vertically slide along a guide rail fixed on the right side of the fixing frame through a sliding block, and the cutter of the hinge hole device is horizontally arranged transversely.

7. The pass-through type full-automatic numerical control drilling and milling machine for wooden door slots and holes as claimed in claim 6, wherein: the door lock slotted hole unit comprises a second transverse feeding device, a door lock Z-direction feeding device, a sliding seat, a lock tongue groove device, a lock tongue hole device, a lock cylinder hole device and a lock hole device, the second transverse feeding device is connected with a transverse guide rail on the cross beam unit in a sliding mode through a sliding block, the second transverse feeding device is meshed with a transverse rack on the cross beam unit, the door lock Z-direction feeding device is fixedly connected with the second transverse feeding device, the sliding seat is connected with a guide rail on the lock Z-direction feeding device in a vertical up-down sliding mode through a sliding block door, the lock tongue groove device is connected to the front side of the sliding seat in a vertical up-down sliding mode, a cutter of the lock tongue groove device is horizontally arranged in a transverse direction, the lock tongue hole device is connected to the bottom of the sliding seat in a vertical up-down sliding mode, the cutter of the lock tongue hole device is horizontally arranged in a transverse direction, and the lock cylinder hole device is connected to the left side of the sliding seat in a vertical up-down sliding mode, the cutter of lock core hole device sets up along vertical, lock hole device fixed connection leans on preceding one end in the left side of slide, the cutter of lock hole device sets up along vertical.

8. The pass-through type full-automatic numerical control drilling and milling machine for wooden door slots and holes as claimed in claim 7, wherein: the control cabinet is an operation table with parameter setting, the control cabinet is provided with a display and a control switch, and the motor, the pneumatic element and the detection element on the fixed processing platform, the adjustable processing platform, the screw rod transmission mechanism, the cross beam unit, the hinge slotted hole unit and the door lock slotted hole unit are respectively connected with the control cabinet through circuits.