CN219725513U - Novel three-station combined integrated processing machine - Google Patents

Abstract

The utility model provides a novel three-station combined integrated processing machine, which relates to the technical field of processing equipment and comprises a frame, wherein a first lower drilling and milling workbench is arranged on the frame, a first processing area is connected to the rear of the first lower drilling and milling workbench, a second lower drilling and milling workbench is connected to the rear of the first processing area, a second processing area is connected to the rear of the second lower drilling and milling workbench, a third processing area is connected to the rear of the second processing area, a pressing mechanism is arranged above the first processing area, a lower drilling and milling device is arranged below the first processing area, a front upper drilling and milling device is arranged above the second processing area, a rear upper drilling and milling device is arranged above the third processing area, the front upper drilling and milling device is in sliding connection with the frame, and the rear upper drilling and milling device is in sliding connection with the frame. The utility model has the advantages that a plurality of processing areas are designed, a plurality of materials can be processed at the same time, the discharging time of the equipment is greatly shortened, and the production efficiency is greatly improved.

Description

Novel three-station combined integrated processing machine

Technical Field

The utility model relates to the technical field of processing equipment, in particular to a novel three-station combined integrated processing machine.

Background

The cutting of panel and the application of processing equipment are very extensive, but most processing equipment on the market only has a station, can only process a panel once, and efficiency is not high enough, when mass production, can not reach the effect of assembly line many simultaneous processing.

The technical contents disclosed in the Chinese patent document (application number: CN202011389928.5, patent name: a material cutting integrated machine) are as follows: "a material all-in-one is cut to material, its characterized in that: comprises a frame; the upper side edge of the frame is symmetrically provided with an upper sliding rail; the lower side edge of the frame is symmetrically provided with a lower sliding rail; the front end of the frame is provided with a lower drilling and milling device; the rear end of the frame is provided with an upper drilling and milling device; the lower drilling and milling device and the upper drilling and milling device are both slidably arranged on the symmetrical upper sliding rail; an auxiliary supporting device is arranged at the front end of the frame; the auxiliary supporting devices are symmetrically arranged at the front end and the rear end of the lower drilling and milling device; the auxiliary supporting device is slidably arranged on the symmetrical lower sliding rail … … and further comprises a connecting bracket fixed on the frame; the connecting bracket is provided with a first long-stroke cylinder; the piston end of the first long-stroke cylinder is connected with the first roller bracket; a second long-stroke cylinder is arranged on the first roller bracket; the piston end of the second long-stroke cylinder is connected with a second roller bracket. "

According to the scheme, when the plate cutting and processing are performed, although the upper drill and the lower drill are arranged, the plates can be processed simultaneously, but only one station is used, a plurality of plates cannot be processed simultaneously, the efficiency is not improved greatly, a multi-station processing device is urgently needed for production workshops for mass processing of production lines, a plurality of plates can be processed simultaneously, and the production efficiency is accelerated.

Disclosure of Invention

The utility model overcomes the defects in the prior art, and provides a novel three-station combined integrated processing machine which can overcome the problems in the background art.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model provides a novel three-station combined integrated processing machine, includes the frame, be provided with down in the frame and bore and mill first workstation, down bore and mill first workstation rear and connect first processing district, first processing district rear connection bores and mills the second workstation down, down bore and mill second workstation rear connection second processing district, third processing district is connected at second processing district rear, first processing district top sets up pressing mechanism, first processing district below sets up down bores and mills the device, second processing district top sets up preceding and bores and mills the device, third processing district top sets up the back and bores and mill the device, preceding go up bore and mill the device with frame sliding connection, the back go up bore and mill the device with frame sliding connection, frame side sets up the tong device with frame sliding connection, it is provided with first suspended wheel to bore down on the first workstation, it mills the second suspended wheel to bore down.

Still further, the swager constructs including the swager base, the swager base is provided with the pinch roller.

Still further, the device is milled down to the brill is provided with down and moves the slide rail, move the rack and move the gear down, move the gear down with move the rack meshing connection down, move the slide rail and move elevating motor sliding connection down, it connects down the lead screw to bore elevating motor, it is connected with down the lead screw piece threaded connection down to bore the lead screw, it is provided with down first slide rail down on the slide rail base to bore the lead screw piece rigid coupling down the slide rail base down, down second slide rail and down third slide rail down on the slide rail base down.

Still further, the first slide rail of boring with bore first cylinder rigid coupling down, bore first slide rail with bore first motor sliding connection down, the release end of boring first cylinder is connected bore first motor down, bore first motor is connected with bore first milling cutter down, bore slide rail base with bore second cylinder rigid coupling down, bore second slide rail with bore second motor sliding connection down, the release end of boring second cylinder is connected bore second motor down, bore second motor is connected with bore second milling cutter down, bore slide rail base with bore third cylinder rigid coupling down, bore third slide rail with bore third motor sliding connection down, bore third motor connection down the release end of boring third cylinder down, bore the third motor and be connected with the sword down.

Still further, the frame both sides are provided with processingequipment and move the slide rail, preceding boring and milling device with processingequipment removes slide rail sliding connection, preceding boring and milling device is provided with the lateral shifting slide rail, the lateral shifting board with lateral shifting slide rail sliding connection, lateral shifting board and preceding boring and milling elevator motor rigid coupling, preceding boring and milling elevator motor rigid coupling is gone up in front and is milled the lead screw, preceding boring and milling lead screw and preceding boring and milling lead screw piece threaded connection, preceding boring and milling lead screw piece and preceding boring and milling slide rail mounting panel rigid coupling, preceding boring and milling is provided with preceding boring and milling first slide rail, preceding boring and milling second slide rail and preceding boring and milling third slide rail on the preceding boring and milling slide rail mounting panel.

Still further, the first cylinder rigid coupling is milled with preceding brill to preceding brill on the slide rail mounting panel, the first motor is milled with preceding brill on the first cylinder of preceding brill on the push-out end connection, preceding brill on the first motor with preceding brill on the first slide rail sliding connection of milling, preceding brill on the first motor connection of boring on the first milling cutter before preceding, preceding brill on the slide rail mounting panel and preceding brill on the second cylinder rigid coupling, preceding brill on the push-out end connection of second cylinder is gone on the brill on the second motor before preceding, preceding brill on the second motor with preceding brill on the second slide rail sliding connection, preceding brill on the second motor connection preceding brill on the milling head, preceding brill on the slide rail mounting panel and preceding brill on the third cylinder rigid coupling, preceding brill on the third motor is milled on the third motor before preceding brill on the push-out end connection of third cylinder, preceding brill on the third motor with preceding brill on the third slide rail sliding connection, preceding brill on the third motor connection.

Still further, the frame side sets up tong removal slide rail, tong device with tong removal slide rail sliding connection, the tong device is provided with tong shield.

Still further, the first workstation side of boring and milling is provided with the side liftout part, the side liftout part is provided with the side liftout cylinder.

Still further, the ejector pin of side liftout cylinder connects side liftout ejector pad, the below and the side liftout push wheel rotation of side liftout ejector pad are connected, the both sides of side liftout cylinder are provided with side liftout pulley.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model discloses a novel three-station combined integrated processing machine, which is designed to drill and mill a first workbench, a first processing area, a second workbench for drill and mill, a second processing area and a third processing area, wherein materials to be processed are firstly processed in the first processing area by a drill hole groove, the processed materials are dragged into the second processing area by a clamping hand to drill holes and mill grooves, and then are dragged into the third processing area by the clamping hand to cut and process.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model, and are incorporated in and constitute a part of this specification, in which:

FIG. 1 is a first general view of a three-in-one machine;

FIG. 2 is a second general view of a three-in-one machine;

FIG. 3 is a general view of a frame of a three-in-one machine;

FIG. 4 is a schematic diagram of a down-hole weight beam apparatus;

FIG. 5 is an exploded view of the press mechanism;

FIG. 6 is a schematic diagram of a press mechanism;

FIG. 7 is a schematic diagram of a side ejector component;

FIG. 8 is a schematic diagram of a down-hole milling apparatus;

FIG. 9 is an exploded view of the down-hole milling apparatus;

FIG. 10 is a schematic view of front top milling;

FIG. 11 is a schematic diagram of a front up drilling and milling explosion;

FIG. 12 is a schematic view of a post-milling explosion;

FIG. 13 is a schematic view of a rear top facing;

FIG. 14 is a schematic view of a hand grip apparatus;

fig. 15 is an exploded view of the hand grip device.

In the figure: 1. a frame; 101. a lower hole processing station; 102. a transition pulley; 103. the processing device moves the slide rail; 104. the clamping hand moves the slide rail; 2. a first suspension wheel; 201. a second suspension wheel; 3. a lower beam weight device; 31. a material pressing mechanism; 310. a first lower pressure cylinder; 311. pressing a material base; 312. pressing down the base; 313. a second pressing cylinder; 314. a boost cylinder; 3141. a pressing plate; 315. a pinch roller base; 316. a pinch roller; 32. a fixed air compressing cylinder; 4. a drilling and milling device; 401. drilling a moving rack; 402. drilling a moving gear; 403. drilling a mobile slide rail; 404. drilling a first milling cutter; 4041. drilling a first cylinder; 4042. drilling a first motor; 405. drilling a second milling cutter; 4051. drilling a second cylinder; 4052. drilling a second motor; 406. setting down a drill; 4061. drilling a third cylinder; 4062. drilling a third electricity; 407. a drill lifting motor is drilled down; 408. a screw rod is drilled down; 409. a screw rod block is drilled down; 4010. drilling a slide rail base; 4011. drilling a first cylinder seat; 4012. drilling a second cylinder seat; 4013. drilling a third cylinder seat; 4014. drilling a first sliding rail; 4015. drilling a second sliding rail; 4016. drilling a third sliding rail; 5. a hand clamping device; 51. a hand clamping motor; 52. a hand clamping gear; 53. the clamping hand lifts the base; 54. the clamping hand lifts the sliding rail; 55. an upper clamp; 56. a lower clamp; 57. a clamping cylinder; 571. positioning a cylinder; 58. clamping a cylinder rod; 581, positioning the cylinder rod; 59. a grip dust cap; 6. a front upper drilling and milling device; 61. transversely moving the slide rail; 62. a front-back moving gear; 63. moving the slider back and forth; 64. a lateral moving plate; 65. a front upper drilling and milling lifting motor; 651. a front drilling and milling screw rod; 652. a front upper drilling and milling screw rod block; 660. drilling and milling a slide rail mounting plate on the front; 661. drilling and milling a first sliding rail on the front; 662. drilling and milling a second sliding rail on the front; 663. drilling and milling a third sliding rail on the front; 67. a first cylinder is drilled and milled on the front; 68. a second cylinder is drilled and milled on the front; 69. a third cylinder is drilled and milled on the front; 671. a first milling cutter seat is drilled and milled on the front; 681. a drill bit seat is drilled and milled on the front; 691. a second milling cutter seat is drilled and milled on the front; 610. a first motor is drilled and milled on the front; 611. a first milling cutter is drilled and milled on the front; 620. a second motor is drilled and milled on the front; 621. a front upper drill milling head; 630. a third motor is drilled and milled on the front; 631. a second milling cutter is drilled and milled on the front; 7. the rear drilling and milling device; 71. drilling and milling a transverse sliding rail; 72. drilling and milling front and rear gears; 73. the front and rear sliding blocks are drilled and milled at the rear; 74. a dust collection mechanism; 75. drilling and milling left and right plates; 751. drilling and milling left and right sliding blocks; 761. drilling and milling a lifting slide rail; 77. drilling and milling a sliding rail plate; 78. a first cylinder is drilled and milled afterwards; 781. drilling and milling a first sliding rail; 782. drilling and milling a first motor; 783. drilling and milling a first milling cutter; 79. a second cylinder is drilled and milled; 781. drilling and milling a second sliding rail; 782. drilling and milling a second motor; 783. a second milling cutter is drilled and milled at the rear; 8. a side ejection part; 801. a side ejection cylinder; 802. side ejection pushing blocks; 803. a side ejection pulley; 804. side ejection pushing wheels; 9. a first workbench is drilled and milled; 10. a first processing zone; 11. a second workbench is drilled and milled; 12. a second processing zone; 13. and a third processing zone.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

As shown in fig. 1, 2 and 3, the whole equipment is divided into a first drill down first workbench 9, a first processing area 10, a second drill down second workbench 11, a second processing area 12 and a third processing area 13, the equipment comprises a frame 1, the first drill down first workbench 9 is arranged above the front end of the frame 1, a first suspension wheel 2 is arranged on the first drill down first workbench 9, materials waiting to be processed are placed above the first drill down workbench 9, friction force is reduced when the first suspension wheel 2 is arranged to facilitate pushing the materials to the processing area, the first processing area 10 is arranged behind the first drill down first workbench 9, the first processing area 10 comprises a lower hole processing position 101 between the first drill down workbench 9 and the second drill down second workbench 11, and a lower drill down weight beam device 3 which is arranged below the frame 1 and is right below the lower hole processing position 101. And a lower drilling and pressing beam device 3 is further arranged above the lower hole processing station 101, and when the lower drilling and milling device 4 processes the plate, the plate is pressed and fixed by the lower drilling and pressing beam device 3, and otherwise the plate is moved. The rear of the first processing area 10 is next to the second lower drilling and milling workbench 11, a second suspension wheel 201 is arranged above the second lower drilling and milling workbench 11, a processed plate can conveniently move above the second lower drilling and milling workbench 11, a transition pulley 102 is arranged between the second lower drilling and milling workbench 11 and the second lower drilling and milling workbench 11, the plate can conveniently move from the second lower drilling and milling workbench 11 to the second processing area 12, a front upper drilling and milling device 6 is arranged above the second processing area 12, a rear upper drilling and milling device 7 is arranged above the third processing area 13, and the front upper drilling and milling device 6 and the rear upper drilling and milling device 7 can both move front, back, right and left above the second processing area 12 and the third processing area 13. The clamping device 5 is installed on the side of the frame 1, in this embodiment, more than one clamping device 5 is installed, the clamping device 5 can move along the length direction of the whole frame 1, and the clamping device 5 is responsible for moving and placing the plates between different areas.

As shown in fig. 4, fig. 5, fig. 6 and fig. 7, the lower beam pressing device 3 is fixedly connected above the frame 1, the lower beam pressing device 3 is provided with a beam pressing mechanism 31 and a fixed pressing cylinder 32, when the lower beam pressing device 4 processes a plate, the beam pressing mechanism 31 and the fixed pressing cylinder 32 are both in a downward pressing state to press the plate, the plate is prevented from being moved, a pressing wheel 316 is arranged at the bottom of the beam pressing mechanism 31, rolling can be generated between the pressing mechanism and the plate, damage to the surface of the plate is prevented, the fixed pressing cylinder 32 is contacted with the plate in a point manner, and no indentation with a large area is generated. The two can compress tightly the panel and can not produce the injury to the panel when cooperating.

The pressing mechanism 31 comprises a pressing base 311, a first pressing cylinder 310 is mounted on the pressing base 311, the pushing end of the first pressing cylinder 310 is connected with a pressing base 312, and under the action of the first pressing cylinder 310, the whole pressing base 312 can move up and down, and the action of the step is to control whether the pressing mechanism 31 is pressed down or not. The pressing base 312 is provided with a second pressing cylinder 313, the pushing end of the second pressing cylinder 313 is connected with a pressing wheel base 315, two sides of the second pressing cylinder 313 are provided with a pressurizing cylinder 314, the pushing end of the pressurizing cylinder 314 is connected with a pressing plate 3141, the second pressing cylinder 313 can give pressure to the pressing wheel base 315 and can control the pressing wheel base 315 to move up and down, the pressurizing cylinder 314 is not connected with the pressing wheel base 315, only when the pressing base is pressed down, the pressurizing cylinder 314 pushes out and increases the pressure given to the pressing wheel base 315, the lower end of the pressing wheel base 315 is connected with more than one pressing wheels 316, the pressing wheels 316 can rotate relative to the pressing wheel base 315, and the pressing wheels 316 are in direct contact with a plate.

The side of milling the first workstation 9 is provided with side liftout part 8 down, side liftout part 8 can be to placing the panel that drills down on milling the first workstation 9 and fix a position to standardize the position that panel got into equipment, side liftout part 8 is provided with side liftout cylinder 801, side liftout cylinder 801's ejecting end connection side liftout ejector half 801, side liftout ejector half 802 connects side liftout impeller 804, side liftout impeller 804 can rotate for side liftout ejector half 802, side liftout pulley 803 is still installed to the both sides of side liftout cylinder 801, side liftout pulley 803 can rotate, but side liftout cylinder 801 release lateral shifting panel when panel is fixed a position, but side liftout pulley 803 and side liftout impeller 804 contact with the panel, can not prevent panel to continue to move forward when fixing a position again to the panel, in this embodiment, side liftout part 8 has set up two, well fix a position one side of panel, kept panel parallel relative to equipment.

As shown in fig. 8 and 9, the down milling device 4 is provided with a down moving slide rail 403, a down moving gear 402 and a down moving rack 401, the down moving gear 402 is meshed with the down moving rack 401, so that a drill bit of the down milling device 4 can move left and right, the down milling device 4 is provided with a down lifting motor 401, the down lifting motor 407 is connected with a down screw 408, the down screw 408 is in threaded connection with a down screw block 409, so that when the down lifting motor 407 operates, the down screw block 409 can be driven to move up and down, so that the drill bit, a milling cutter and the like of the whole down milling device 4 can be driven to move up and down to drill and mill, the down screw block 409 is fixedly connected with a down slide rail base 4010, so that the down slide rail base 4010 can move up and down under the driving of the down lifting motor 407, a down first slide rail 4014, a down second slide rail 4015 and a down third slide rail 4016 are mounted on the down slide rail base 4010, a first drill-down cylinder block 4011, a second drill-down cylinder block 4012 and a third drill-down cylinder block 4013 are fixedly connected to the first drill-down slide rail base 4010, a first drill-down cylinder 4041 is mounted on the first drill-down cylinder block 4011, a slide block of the first drill-down slide rail 4014 is connected with the first drill-down motor 4042, a push rod of the first drill-down cylinder 4041 is connected with the first drill-down motor 4042, therefore, the first drill-down cylinder 4041 can push the first drill-down motor 4042 to move up and down, the first drill-down motor 4042 is connected with the first drill-down cutter 404, a second drill-down cylinder 4051 is mounted on the second drill-down cylinder block 4012, a slide block of the second drill-down slide rail 4015 is connected with the second drill-down motor 4052, a push rod of the second drill-down cylinder 4051 is connected with the second drill-down motor 4052, therefore, the second drill-down cylinder 4051 can push the second drill-down motor 4052 to move up and down, the second drill-down motor 4052 is connected with the second drill-down cutter 405, the third cylinder block 4013 is provided with the third cylinder 4061, the sliding block of the third sliding rail 4016 is connected with the third motor 4062, the push rod of the third cylinder 4061 is connected with the third motor 4062, so the third cylinder 4061 can push the third motor 4062 to move up and down, the third motor 4062 is connected with the cutter 406, the milling device 4 is provided with two milling cutters and one set of cutters, and the device can move left and right to drill and mill the plate from the bottom surface of the plate.

As shown in fig. 3, 10 and 11, two sides of the frame 1 are provided with a processing device moving slide rail 103, two sides of the front upper drilling and milling device 6 are provided with a front and rear moving slide block 63, and the front and rear moving slide block 63 is slidably connected with the processing device moving slide rail 103, so that the front upper drilling and milling device 6 can move front and rear above the frame 1, the front upper drilling and milling device 6 is further provided with a front and rear moving gear 62, and the front and rear moving gear 62 is meshed with an external rack to drive the front upper drilling and milling device 6 to move front and rear. The front upper drilling and milling device 6 is provided with a transverse moving plate 64 and a transverse moving slide rail 61, and the transverse moving plate 64 and the transverse moving slide rail 61 are in sliding connection, so that the front upper drilling and milling device 6 can transversely move left and right above the frame 1, and the front upper drilling and milling device 6 can longitudinally move left and right in the upper plane space of the frame 1. The transverse moving plate 64 is provided with a front upper drilling and milling lifting motor 65, the front upper drilling and milling lifting motor 65 is connected with a front upper drilling and milling screw rod 651, the front upper drilling and milling screw rod 651 is in threaded connection with a front upper drilling and milling screw rod block 652, the front upper drilling and milling screw rod block 652 is fixedly connected with a front upper drilling and milling sliding rail mounting plate 660, therefore, the front upper drilling and milling sliding rail mounting plate 660 can move up and down under the driving of the front upper drilling and milling lifting motor 65, the front upper drilling and milling sliding rail mounting plate 660 is provided with a front upper drilling and milling first sliding rail 661, a front upper drilling and milling second sliding rail 662 and a front upper drilling and milling third sliding rail 663, the front upper drilling and milling sliding rail mounting plate 660 is fixedly connected with a front upper drilling and milling first cylinder 67, the push-out end of the front upper drilling and milling first cylinder 67 is connected with a front upper drilling and milling first cutter seat 671, the front upper drilling and milling first motor 610 is arranged on the front upper drilling and milling first sliding rail 661, the front upper drill first motor 610 is connected with the front upper drill first milling cutter 611, the front upper drill slide mounting plate 660 is fixedly connected with the front upper drill second cylinder 68, the push-out end of the front upper drill second cylinder 68 is connected with the front upper drill bit seat 681, the front upper drill second motor 620 is installed on the front upper drill bit seat 681, the front upper drill second motor 620 is in sliding connection with the front upper drill second slide 662, the front upper drill second motor 620 is connected with the front upper drill milling head 621, the front upper drill slide mounting plate 660 is fixedly connected with the front upper drill third cylinder 69, the push-out end of the front upper drill third cylinder 69 is connected with the front upper drill second milling cutter seat 691, the front upper drill third motor 630 is installed on the front upper drill second cutter seat 691 and is in sliding connection with the front upper drill third slide 663, and the front upper drill third motor 630 is connected with the front upper drill second milling cutter 631. The front milling and drilling device 6 is thus provided with two sets of milling cutters and one set of drilling cutters and can be moved left and right, so that the sheet material can be drilled and milled from above.

As shown in fig. 3, 12 and 13, two sides of the frame 1 are provided with a processing device moving slide rail 103, two sides of the rear upper drilling and milling device 7 are provided with rear upper drilling and milling front and rear slide blocks 73, and the rear upper drilling and milling front and rear slide blocks 73 are slidably connected with the processing device moving slide rail 103, so that the rear upper drilling and milling device 7 can move front and rear above the frame 1, the rear upper drilling and milling device 7 is further provided with a rear upper drilling and milling front and rear gear 72, the rear upper drilling and milling front and rear gear 72 is meshed with an external rack, and the rear upper drilling and milling device 6 is driven to move front and rear. The rear upper milling device 7 is provided with a rear upper milling left and right plate 75, rear upper milling left and right slide blocks 751 are mounted on the back of the rear upper milling left and right plate 75, and the rear upper milling left and right slide blocks 751 are in sliding connection with the rear upper milling transverse slide rail 71, so that the rear upper milling device 7 can transversely move left and right above the frame 1, and the rear upper milling device 7 can longitudinally move left and right in the upper plane space of the frame 1.

The left and right rear upper milling plates 75 are provided with rear upper milling lifting slide rails 761, the rear upper milling lifting slide rails 761 are in sliding connection with the rear upper milling slide rail plates 77, the rear upper milling slide rail plates 77 can move up and down, the rear upper milling slide rail plates 77 are provided with rear upper milling first slide rails 781 and rear upper milling second slide rails 791, the rear upper milling first air cylinders 78 are fixedly connected to the rear upper milling slide rail plates 77, the rear upper milling first slide rails 781 are in sliding connection with the rear upper milling first motor 782, the push-out ends of the rear upper milling first air cylinders 78 are connected with the rear upper milling first motor 782, the rear upper milling first motor 782 is connected with the rear upper milling first milling cutter 783, the rear upper milling second air cylinders 79 are fixedly connected to the rear upper milling slide rail plates 77, the rear upper milling second slide rails 791 are in sliding connection with the rear upper milling second motor 792, the push-out ends of the rear upper milling second air cylinders 79 are connected with the rear upper milling second motor 792, and the rear upper milling plates can move from the left and right side milling plates.

As shown in fig. 3, 14 and 15, a hand moving slide rail 104 is installed on the side of the frame 1, the hand moving slide rail 104 is in sliding connection with a hand clamping device 5, the hand clamping device 5 is provided with a hand clamping motor 51 and a hand clamping gear 52, the hand clamping motor 51 drives the hand clamping gear 52 to rotate, the hand clamping gear 52 is externally connected with a rack, therefore, the hand clamping device 5 can move back and forth on the side of the frame 1 according to the setting, the hand clamping device 5 is provided with a hand lifting base 53, the hand lifting slide rail 54 is installed on the hand lifting base 53, the hand lifting slide rail 54 is in sliding connection with an upper clamp 55 and a lower clamp 56, a clamping cylinder 57 is installed above the upper clamp 55, the clamping cylinder 57 is provided with a clamping cylinder rod 58, the clamping cylinder rod 58 is in sliding connection with the clamping cylinder 57, the bottom end of the clamping cylinder rod 58 is connected with the lower clamp 56, a positioning cylinder 571 is fixedly connected with the upper clamp 55, the positioning cylinder 571 is provided with the positioning cylinder rod 581, when the positioning cylinder rod 581 stretches out, the lower clamp 56 can be touched, the clamping cylinder rod 57 is required to be opened, the upper clamp 55 and the lower clamp 5 are closed, the clamping cylinder rod is clamped by the upper clamp 5 is in a state, the clamping cylinder rod is opened, the upper clamp 5 is closed, the plate clamping device is clamped by the upper clamp 5 is in a state, and the plate clamping device is in a state, the clamping device is closed, and the plate clamping device is in a state when the clamping device is in a state, and the upper clamp 5 is in a state, and the state is in a state closed, and the clamping state, and the plate is in a state is in tightly closed.

When the plate is processed, the clamping device 5 clamps the plate to move between the first drilling and milling workbench 9 and the second drilling and milling workbench 11, the pressing mechanism 31 presses the plate, and the pressing mechanism 31 is provided with the pressing wheel 316, so that the plate is not prevented from moving when the first processing area 10 processes holes in different places. The lower drilling and milling device 4 below the first processing area 10 processes the plate, after the lower drilling and milling device 4 processes the plate, the clamping device 5 drags the plate into the second processing area 12, the clamping device 5 loosens the plate, the vacuum adsorption system outside below the second processing area 12 is started to suck the plate, and the clamping device 5 returns to the first processing area 10 to continue working. The front upper drilling and milling device 6 is arranged above the second processing area 12, at the moment, the front upper drilling and milling device 6 processes the plates, after the front upper drilling and milling device 6 processes the plates, the other group of clamping devices 5 clamp and drag the plates to the third processing area 13, at the moment, the vacuum adsorption system arranged outside below the third processing area 13 is started to suck the plates, the clamping devices 5 return to the second processing area 12 to continue to work, the rear upper drilling and milling device 7 is arranged above the third processing area 13, at the moment, the rear upper drilling and milling device 7 processes the plates, the first processing area 10, the second processing area 12 and the third processing area 13 can process different plates at the same time, each plate is sent to the next processing area to continue to process after the processing of one processing area is completed, namely, three plates can be processed on the equipment at the same time, and the processing mode of the assembly line is high in efficiency, and a large amount of time is saved for production.

Finally, it should be noted that: although the present utility model has been described in detail with reference to the embodiments, it should be understood that the utility model is not limited to the preferred embodiments, but is capable of modification and equivalents to some of the features described in the foregoing embodiments, but is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (9)

1. The utility model provides a novel three-station combined integrated processing machine, its characterized in that, which comprises a frame, be provided with down in the frame and bore and mill first workstation, down bore and mill first workstation rear and connect first processing district, first processing district rear connection bores and mills second workstation down, down bore and mill second workstation rear connection second processing district, third processing district is connected at second processing district rear, first processing district top sets up pressing mechanism, first processing district below sets up down bores and mills the device, second processing district top sets up preceding and bores and mills the device, third processing district top sets up the back and bores and mill the device, preceding go up bore and mill the device with frame sliding connection, last bore and mill the device with frame sliding connection, frame side sets up the tong device with frame sliding connection, it is provided with first suspended wheel to bore down and mill first workstation, it is provided with the second suspended wheel to bore down on the second workstation.

2. The novel three-station integrated processing machine according to claim 1, wherein the pressing mechanism comprises a pressing base, and the pressing base is provided with a pressing wheel.

3. The novel three-station combined integrated processing machine according to claim 1, wherein the milling device is provided with a drilling moving slide rail, a drilling moving rack and a drilling moving gear, the drilling moving gear is in meshed connection with the drilling moving rack, the drilling moving slide rail is in sliding connection with a drilling lifting motor, the drilling lifting motor is connected with a drilling screw rod, the drilling screw rod is in threaded connection with a drilling screw rod block, the drilling screw rod block is fixedly connected with a drilling slide rail base, and the drilling slide rail base is provided with a drilling first slide rail, a drilling second slide rail and a drilling third slide rail.

4. The novel three-station combined integrated processing machine according to claim 3, wherein the first drill-down slide rail base is fixedly connected with a first drill-down cylinder, the first drill-down slide rail is fixedly connected with a first drill-down motor, the push-out end of the first drill-down cylinder is connected with the first drill-down motor, the first drill-down motor is connected with a first milling cutter, the second drill-down slide rail base is fixedly connected with a second drill-down cylinder, the second drill-down slide rail is fixedly connected with a second drill-down motor, the push-out end of the second drill-down cylinder is connected with the second drill-down motor, the second drill-down motor is connected with a second milling cutter, the second drill-down slide rail base is fixedly connected with a third drill-down cylinder, the third drill-down slide rail is fixedly connected with the third drill-down motor, the push-out end of the third drill-down cylinder is connected with a third drill-down cutter.

5. The novel three-station combined integrated processing machine according to claim 1, wherein processing device moving slide rails are arranged on two sides of the frame, the front upper drilling and milling device is in sliding connection with the processing device moving slide rails, the front upper drilling and milling device is provided with a transverse moving slide rail, a transverse moving plate is in sliding connection with the transverse moving slide rail, the transverse moving plate is fixedly connected with a front upper drilling and milling lifting motor, the front upper drilling and milling lifting motor is fixedly connected with a front upper drilling and milling screw rod, the front upper drilling and milling screw rod is in threaded connection with a front upper drilling and milling screw rod block, the front upper drilling and milling screw rod block is fixedly connected with a front upper drilling and milling slide rail mounting plate, and the front upper drilling and milling slide rail mounting plate is provided with a front upper drilling and milling first slide rail, a front upper drilling and milling second slide rail and a front upper drilling and milling third slide rail.

6. The novel three-station combined integrated processing machine according to claim 5, wherein the front upper-drilling and milling slide mounting plate is fixedly connected with the front upper-drilling and milling first cylinder, the push-out end of the front upper-drilling and milling first cylinder is connected with the front upper-drilling and milling first motor, the front upper-drilling and milling first motor is connected with the front upper-drilling and milling first milling cutter, the front upper-drilling and milling slide mounting plate is fixedly connected with the front upper-drilling and milling second cylinder, the push-out end of the front upper-drilling and milling second cylinder is connected with the front upper-drilling and milling second motor, the front upper-drilling and milling second motor is connected with the front upper-drilling and milling second cylinder in a sliding manner, the front upper-drilling and milling slide mounting plate is fixedly connected with the front upper-drilling and milling third cylinder in a sliding manner, the push-out end of the front upper-drilling and milling third cylinder is connected with the front upper-drilling and milling third motor, and the front upper-drilling and milling third motor is connected with the front upper-drilling and milling third motor in a sliding manner.

7. The novel three-station combined integrated processing machine according to claim 1, wherein a hand-clamping moving sliding rail is arranged on the side of the frame, the hand-clamping device is in sliding connection with the hand-clamping moving sliding rail, and the hand-clamping device is provided with a hand-clamping dust cover.

8. The novel three-station combined integrated processing machine according to claim 1, wherein a side ejection part is arranged on the side of the first drilling and milling workbench, and a side ejection cylinder is arranged on the side ejection part.

9. The novel three-station combined integrated processing machine according to claim 8, wherein the push rod of the side-pushing cylinder is connected with the side-pushing push block, the lower part of the side-pushing push block is rotationally connected with the side-pushing push wheel, and two sides of the side-pushing cylinder are provided with side-pushing pulleys.