CN218985089U - Novel full-automatic servo numerical control milling and drilling machining center - Google Patents

Abstract

The utility model provides a novel full-automatic servo numerical control milling and drilling machining center, which comprises a frame, wherein the frame is provided with a plurality of sliding rails which are in sliding connection with a milling and drilling machining assembly; a conveying mechanism is arranged on the side of the milling and drilling processing assembly, and the conveying mechanism corresponds to the milling and drilling processing assembly; the feed inlet is provided with a photoelectric switch. The utility model has the advantages that the plate is placed on the chain block and the roller, the plate is compressed by the compressing mechanism, and then is conveyed by the conveying mechanism, when the photoelectric switch senses the plate, the milling and drilling processing assembly moves along the sliding rail under the action of the first motor, so that the aim of processing while moving is fulfilled; the drilling assembly can be adjusted in position from front to back, up and down, left and right through the front and back driving assembly, the up and down driving assembly and the left and right driving assembly, so that the drilling assembly can drill round holes and mill special-shaped holes, and the requirements of various drilling and milling processes are effectively met.

Description

Novel full-automatic servo numerical control milling and drilling machining center

Technical Field

The utility model relates to the technical field of machining, in particular to a novel full-automatic servo numerical control milling and drilling machining center.

Background

The earliest of panel is carpentry's solid wood board, is used as and makes furniture or other living facilities, and the definition of panel is very extensive at technological development now, and the panel that all has different materials in furniture manufacturing, building industry, processing industry etc. is in the in-process of installing, and the panel need be perforated in advance on the panel to the position of fixed panel.

Among the prior art, chinese patent literature (patent number: CN110815408A, patent name: a timber punching equipment) technical scheme is disclosed, "one side of fixed plate is through bolted connection there being pneumatic push rod, pneumatic push rod's flexible end is equipped with the clamp splice, the upside left end of bottom plate is fixed with first backup pad, the upside right-hand member of bottom plate is fixed with the second backup pad, fixedly connected with slide bar between second backup pad and the first backup pad, the below of slide bar is equipped with the threaded rod, swing joint between threaded rod's the left end passes through bearing and the first backup pad, swing joint between threaded rod's the right-hand member passes through bearing and the second backup pad, the movable block has been cup jointed through the screw thread on the threaded rod, first through-hole and second through-hole have been seted up on the movable block, first through-hole cup joints on the slide bar, set up to sliding connection between first through-hole and the slide bar, the second through-hole is in the below of first through-hole, threaded connection between second through-hole and the threaded rod, fixedly connected with electric push rod between the bottom of movable block, the output motor of electric push rod is connected with the motor, the output motor of flexible end and the second through-hole is connected with the output end of threaded rod, positive and negative and positive and negative. The clamping block is pushed to clamp and fix the wood board through the work of the pneumatic push rod, the wood board is prevented from shaking during punching, the punching accuracy is improved, the electric push rod pushes the punching motor and the punching drill bit to move downwards, and the punching position is adjusted.

When the specification and the drawings of the patent document are combined, the wood board fixing and punching efficiency is low during punching, special-shaped holes cannot be milled, and the requirements of other processing technologies except punching cannot be met.

Disclosure of Invention

The utility model overcomes the defects in the prior art, provides a novel full-automatic servo numerical control milling and drilling machining center, and can overcome the defects in the prior art mentioned in the background art.

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

the novel full-automatic servo numerical control milling and drilling machining center comprises a frame, wherein the frame is provided with a plurality of sliding rails which are in sliding connection with a milling and drilling machining assembly;

a conveying mechanism is arranged on the side of the milling and drilling processing assembly, and the conveying mechanism corresponds to the milling and drilling processing assembly;

the conveying mechanism is provided with a feed inlet and a discharge outlet, and the plates are input from the feed inlet and finally output from the discharge outlet;

the feeding port is provided with a photoelectric switch, and the photoelectric switch is electrically connected with the milling and drilling processing assembly.

Furthermore, a plurality of first sliding blocks are arranged below the milling and drilling processing assembly and are in sliding connection with the sliding rails, a motor support is arranged at one end of the milling and drilling processing assembly, a first motor is arranged on the motor support, and the first motor is connected with a first gear; the rack is arranged on the side edge of the rack, and the rack is connected with the first gear in a meshed mode.

Still further, the milling and drilling processing assembly comprises a front driving assembly, a rear driving assembly, an up-down driving assembly and a left-right driving assembly, wherein the up-down driving assembly is arranged above the left-right driving assembly, and the left-right driving assembly is arranged above the front-rear driving assembly.

Still further, upper and lower drive assembly is provided with first slide, first slide is provided with a plurality of guide pillar, the guide pillar is provided with the crossbeam, be provided with ball in the middle of the crossbeam, ball is connected with the second motor, the guide pillar with ball sliding connection has drilling subassembly.

Still further, drive assembly is provided with the second slide about, the second slide is provided with first lead screw nut seat, first lead screw nut seat is connected with first lead screw, first lead screw one end is connected with the third motor, first lead screw other end rotates and is connected with first supporting seat, first lead screw nut seat both sides are provided with first linear rail, first linear rail sliding connection has a plurality of second slider, second slider top is provided with first backing plate, first lead screw nut seat and first backing plate are fixed the below of first slide.

Still further, drive assembly is provided with the third slide around, the third slide is provided with second lead screw nut seat, second lead screw nut seat is connected with the second lead screw, second lead screw one end is connected with the fourth motor, the second lead screw other end rotates and is connected with the second supporting seat, second lead screw nut seat both sides are provided with the second line rail, second line rail sliding connection has a plurality of third slider, third slider top is provided with the second backing plate, second lead screw nut seat and second backing plate are fixed the below of second slide.

Still further, the drilling component is provided with a sliding seat, a plurality of third rails are arranged on two sides of the sliding seat, a plurality of fourth sliding blocks are connected with the third rails in a sliding manner, a seat plate is arranged on the fourth sliding blocks, a high-speed electric spindle is arranged on the seat plate, a drill bit is arranged on the high-speed electric spindle, a cylinder is arranged on the side edge of the seat plate, and the sliding seat is connected to the guide pillar and the ball screw in a sliding manner; the side of the sliding seat is provided with a motor connecting plate, the motor connecting plate is provided with a seventh motor, and the seventh motor is connected with a saw blade.

Still further, conveying mechanism includes fifth motor, driven sprocket and chain, the fifth motor is connected with the driving sprocket, the driving sprocket as well as driven sprocket with the chain is mutually supported and is connected, the top of chain is provided with a plurality of chain piece.

Still further, conveying mechanism side is provided with the bracket component, the bracket component is including a plurality of support frame, the support frame is provided with the screw rod, the screw rod is connected with and rolls the frame, be provided with a plurality of gyro wheel in the frame that rolls.

Still further, conveying mechanism top is provided with hold-down mechanism, hold-down mechanism includes fixing device and compresses tightly the plate, it is provided with a plurality of pinch roller to compress tightly the plate below, it is provided with the turbine seat to compress tightly the plate top, the turbine seat top is connected with sixth motor, the turbine seat is connected with the third lead screw, the third lead screw both ends are connected with lifting assembly, lifting assembly includes the shaft coupling, shaft coupling one end is connected with the third lead screw, the shaft coupling other end is connected with the worm, the worm is connected with the second gear, the second gear side is provided with the turbine, the second gear with the turbine meshing is connected, be provided with the fourth lead screw in the turbine, the fourth lead screw rotates to be connected on the fixing device, fixing device fixes the frame both sides.

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

the plate is placed on the chain block and the roller, the plate is compressed by the compressing mechanism, the plate is conveyed by the conveying mechanism, and when the photoelectric switch senses the plate, the milling and drilling processing assembly moves along the sliding rail under the action of the first motor, so that the aim of moving and processing is fulfilled; the drilling assembly can be adjusted in position from front to back, up and down, left and right through the front and back driving assembly, the up and down driving assembly and the left and right driving assembly, so that the drilling assembly can drill round holes and cut plates, special-shaped holes can be milled, and the requirements of various drilling and milling processing technologies are effectively met.

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 general diagram of a full-automatic servo numerical control milling and drilling machining center;

FIG. 2 is a schematic view of a milling assembly;

FIG. 3 is a schematic diagram of an up and down drive assembly;

FIG. 4 is a schematic diagram of a left and right drive assembly;

FIG. 5 is a schematic view of a front-rear drive assembly

FIG. 6 is a schematic view of a drilling assembly;

FIG. 7 is a schematic view of a motor connection plate, a seventh motor, and a saw blade;

FIG. 8 is a schematic view of a hold-down mechanism;

FIG. 9 is a schematic diagram of a transport mechanism;

FIG. 10 is a schematic view of a bracket assembly;

FIG. 11 is a schematic view of a fixture and lift assembly;

fig. 12 is a cross-sectional view of the lift assembly.

In the figure: 1-milling and drilling assembly, 101-front and rear drive assembly, 1011-third slide, 1012-second lead screw nut seat, 1013-second lead screw, 1014-fourth motor, 1015-second support seat, 1016-second wire rail, 1017-third slide, 1018-second backing plate, 102-up and down drive assembly, 1021-first slide, 1022-guide post, 1023-cross beam, 1024-ball screw, 1025-second motor, 103-left and right drive assembly, 1031-second slide, 1032-first lead screw nut seat, 1033-first lead screw, 1034-third motor, 1035-first support seat, 1036-first wire rail, 1037-second slide, 1038-first backing plate, 2-drilling assembly, 201-sliding seat, 202-third wire rail, 203-fourth sliding block, 204-seat plate, 205-high-speed motorized spindle, 206-drill bit, 207-cylinder, 208-motor connecting plate, 209-seventh motor, 210-saw blade, 3-conveying mechanism, 301-fifth motor, 302-chain, 303-driving sprocket, 304-chain block, 4-bracket assembly, 401-supporting frame, 402-roller frame, 403-roller, 404-screw, 5-pressing mechanism, 501-fixing device, 502-pressing plate, 503-pressing wheel, 504-turbine seat, 505-sixth motor, 506-third screw, 507-lifting assembly, 5071-coupling, 5072-worm, 5073-second gear, 5074-turbine, 5075-fourth screw, 6-feed inlet, 7-panel, 8-frame, 9-slide rail, 10-first slider, 11-motor support, 12-first motor, 13-helical gear, 14-rack chute.

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.

Example 1

As shown in fig. 1 to 7, a novel full-automatic servo numerical control milling and drilling machining center comprises a frame 8, wherein the frame 8 is provided with two sliding rails 9, four first sliding blocks 10 are arranged below a milling and drilling machining assembly 1, the first sliding blocks 10 are in sliding connection with the sliding rails 9, a motor support 11 is arranged at one end of the milling and drilling machining assembly 1, a first motor 12 is arranged on the motor support 11, a first gear is connected with the first motor 12, the first gear is a bevel gear 13, and the bevel gear 13 has the advantages of good meshing performance, high contact ratio and compact structure; the rack is arranged on the side edge of the frame 8, the rack is a bevel rack 14, the bevel rack 14 has the advantages of stable running and large transmission torque, the bevel rack 14 is meshed with the bevel gear 13, when the first motor 12 is started, the bevel gear 13 rolls on the bevel rack 14, and the bevel gear 13 rolls and drives the milling and drilling assembly 1 to move left and right on the sliding rail 9 through the motor support 11.

The milling and drilling machining assembly 1 comprises a front-rear driving assembly 101, an up-down driving assembly 102 and a left-right driving assembly 103, wherein the up-down driving assembly 102 is arranged above the left-right driving assembly 103, the left-right driving assembly 103 is arranged above the front-rear driving assembly 101, the up-down driving assembly 102 is provided with a first slide plate 1021, the first slide plate 1021 is provided with two guide posts 1022, the guide posts 1022 are provided with a cross beam 1023, a ball screw 1024 is arranged in the middle of the cross beam 1023, the ball screw 1024 is connected with a second motor 1025, the guide posts 1022 and the ball screw 1024 are in sliding connection with a drilling assembly 2, the second motor 1025 is started to drive the drilling assembly 2 to move up and down on the guide posts 1022 through the ball screw 1024, and the up-down position of drilling can be adjusted; the left-right driving assembly 103 is provided with a second sliding plate 1031, the second sliding plate 1031 is provided with a first screw nut seat 1032, the first screw nut seat 1032 is connected with a first screw 1033, one end of the first screw 1033 is connected with a third motor 1034, the other end of the first screw 1033 is rotationally connected with a first supporting seat 1035, two sides of the first screw nut seat 1032 are provided with first linear rails 1036, the first linear rails 1036 are slidably connected with four second sliding blocks 1037, a first base plate 1038 is arranged above the second sliding blocks 1037, the first screw nut seat 1032 and the first base plate 1038 are fixed below the first sliding plate 1021, and when the third motor 1034 is started, the first screw nut seat 1032 drives the first sliding plate 1021 to move left and right on the first linear rails 6 through the second sliding blocks 1035, so that the up-down driving assembly 102 and the drilling assembly 2 can move left and right, and the left and right positions of a drilling hole can be adjusted; the front-back driving assembly 101 is provided with a third sliding plate 1011, the third sliding plate 1011 is provided with a second screw nut seat 1012, the second screw nut seat 1012 is connected with a second screw 1013, one end of the second screw 1013 is connected with a fourth motor 1014, the other end of the second screw 1013 is rotationally connected with a second supporting seat 1015, two sides of the second screw nut seat 1012 are provided with second line rails 1016, the second line rails 1016 are slidably connected with four third sliding blocks 1017, a second base plate 1018 is arranged above the third sliding blocks 1017, the second screw nut seat 1012 and the second base plate 1018 are fixed below the second sliding plate 1031, and when the fourth motor 1014 is started, the second screw nut seat 1012 drives the second sliding plate 1031 to move back and forth on the second line rails 1016 through the third sliding blocks 1017, so that the front-back driving assembly 102, the left-right driving assembly 103 and the drilling assembly 2 can move back and forth, and the front-back positions of the drilling assembly 2 can be adjusted.

The drilling assembly 2 is provided with the slide 201, two third wire rails 202 are arranged on two sides of the slide 201, four fourth slide blocks 203 are slidably connected with the third wire rails 202, the fourth slide blocks 203 are provided with a seat plate 204, the seat plate 204 is provided with a high-speed electric spindle 205, the high-speed electric spindle 205 is provided with a drill bit 206, the side edge of the seat plate 204 is provided with a cylinder 207, the slide 201 is slidably connected to a guide column 1022 and a ball screw 1024, the high-speed electric spindle 205 on the seat plate 204 is driven to move back and forth on the third wire rails 202 through the cylinder 207, the operation of drilling the plate 7 is realized, the drill bit 206 on the high-speed electric spindle 205 can be replaced by a milling cutter, the drilling assembly 2 can be adjusted in a front-back vertical and left-right position through the front-right driving assembly 101, the up-down driving assembly 102 and the left-right driving assembly 103, the plate 7 is milled with a special-shaped hole, the side edge of the slide seat 201 is provided with a motor connecting plate 208, the motor connecting plate 208 is provided with a seventh motor 209, the seventh motor 209 is connected with a saw blade 210, and the seventh motor 209 is started to enable the saw blade 210 to rotate, and the plate 7 is cut, and various requirements are effectively met.

Example two

As shown in fig. 1 to 12, this embodiment is an improvement on the basis of the first embodiment, and the improvement of this embodiment is that: the milling and drilling processing assembly 1 is provided with a conveying mechanism 3 on the side, the conveying mechanism 3 comprises a fifth motor 301, a driven sprocket and a chain 302, the fifth motor 301 is connected with a driving sprocket 303, the driving sprocket 303 and the driven sprocket are mutually matched and connected with the chain 302, the fifth motor 301 is started to drive the driving sprocket 303 and the driven sprocket to drive the chain 302 to rotate, the effect of conveying the plate 7 is achieved, a plurality of chain blocks 304 are arranged above the chain 302, friction force can be increased by the chain blocks 304, and conveying is facilitated; the bracket assembly 4 is arranged on the side of the conveying mechanism 3, the bracket assembly 4 comprises two supporting frames 401, the supporting frames 401 are provided with screw rods 404, the screw rods 404 are connected with rolling frames 402, a plurality of rollers 403 are arranged in the rolling frames 402, the screw rods 404 are provided with nuts, the upper position and the lower position of the screw rods 404 can be adjusted by unscrewing the nuts, the screw rods 404 drive the rollers 403 in the rolling frames 402 to move, the rollers 403 and the chain blocks 304 are positioned on the same horizontal line, and the plate 7 is placed on the chain blocks 304 and the rollers 403, so that the effect of supporting the plate 7 is achieved, the plate 7 is in a flat state and cannot incline; the upper part of the conveying mechanism 3 is provided with a compressing mechanism 5, the compressing mechanism 5 comprises a fixing device 501 and a compressing plate 502, a plurality of pressing wheels 503 are arranged below the compressing plate 502, a turbine seat 504 is arranged above the compressing plate 502, a sixth motor 505 is connected above the turbine seat 504, the turbine seat 504 is connected with a third screw rod 506, two ends of the third screw rod 506 are connected with lifting components 507, the lifting components 507 comprise a coupling 5071, one end of the coupling 5071 is connected with the third screw rod 506, the other end of the coupling 5071 is connected with a worm 5072, the worm 5072 is connected with a second gear 5073, a turbine 5074 is arranged on the side edge of the second gear 5073, the second gear 5073 is in meshed connection with the turbine 5074, a fourth screw rod 5075 is arranged in the turbine 5074 and is rotationally connected to the fixing device 501, the fixing device 501 is fixed on two sides of a frame 8, the sixth motor 505 is started to rotate the third screw rod 506, the third screw rod 506 drives a second gear 5073 on a worm 5072 to rotate through a coupler 5071, the second gear 5073 drives a turbine 5074 to rotate, simultaneously, a fourth screw rod 5075 in the turbine 5074 moves up and down in a fixing device 501, a pressing plate 502 moves downwards to press and fix a plate 7, the pressing plate 502 moves upwards to release the plate 7, the plate 7 is convenient to take out, a conveying mechanism 3 is provided with a feed inlet 6 and a discharge outlet, the plate 7 is input from the feed inlet 6 and finally output from the discharge outlet, the feed inlet 6 is provided with a photoelectric switch, the photoelectric switch is electrically connected with a milling and drilling assembly 1, the plate 7 is placed on a chain block 304 and a roller 403, the plate 7 is pressed by a pressing mechanism 5, the plate 7 is conveyed by the conveying mechanism 3, when the photoelectric switch senses the plate 7, the photoelectric switch transmits a signal to a control element (for example, a PLC system), and the control element controls the motor associated with the milling and drilling assembly 1 to work, so that the milling and drilling assembly 1 starts to operate and moves left and right, the punching efficiency is improved, and the plate 7 can be cut.

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 (10)

1. The novel full-automatic servo numerical control milling and drilling machining center is characterized by comprising a frame, wherein the frame is provided with a plurality of sliding rails which are in sliding connection with a milling and drilling machining assembly;

a conveying mechanism is arranged on the side of the milling and drilling processing assembly, and the conveying mechanism corresponds to the milling and drilling processing assembly;

the conveying mechanism is provided with a feed inlet and a discharge outlet, and the plates are input from the feed inlet and finally output from the discharge outlet;

the feeding port is provided with a photoelectric switch, and the photoelectric switch is electrically connected with the milling and drilling processing assembly.

2. The novel full-automatic servo numerical control milling and drilling machining center according to claim 1, wherein a plurality of first sliding blocks are arranged below the milling and drilling machining assembly and are in sliding connection with the sliding rails, a motor support is arranged at one end of the milling and drilling machining assembly, a first motor is arranged on the motor support, and a first gear is connected with the first motor;

the rack is arranged on the side edge of the rack, and the rack is connected with the first gear in a meshed mode.

3. The novel full-automatic servo numerical control milling and drilling machining center according to claim 2, wherein the milling and drilling machining assembly comprises a front driving assembly, a rear driving assembly, an upper driving assembly, a lower driving assembly and a left driving assembly and a right driving assembly, the upper driving assembly and the lower driving assembly are arranged above the left driving assembly and the right driving assembly, and the left driving assembly and the right driving assembly are arranged above the front driving assembly and the rear driving assembly.

4. The novel full-automatic servo numerical control milling and drilling machining center according to claim 3, wherein the upper and lower driving components are provided with a first sliding plate, the first sliding plate is provided with a plurality of guide posts, the guide posts are provided with cross beams, ball screws are arranged in the middle of the cross beams, the ball screws are connected with a second motor, and the guide posts are slidably connected with the ball screws to form a drilling component.

5. The novel full-automatic servo numerical control milling and drilling machining center according to claim 4, wherein the left and right driving assembly is provided with a second sliding plate, the second sliding plate is provided with a first screw nut seat, the first screw nut seat is connected with a first screw, one end of the first screw is connected with a third motor, the other end of the first screw is rotationally connected with a first supporting seat, two sides of the first screw nut seat are provided with first linear rails, the first linear rails are slidingly connected with a plurality of second sliding blocks, a first base plate is arranged above the second sliding blocks, and the first screw nut seat and the first base plate are fixed below the first sliding plate.

6. The novel full-automatic servo numerical control milling and drilling machining center according to claim 5, wherein the front-rear driving assembly is provided with a third sliding plate, the third sliding plate is provided with a second screw nut seat, the second screw nut seat is connected with a second screw, one end of the second screw is connected with a fourth motor, the other end of the second screw is rotationally connected with a second supporting seat, two sides of the second screw nut seat are provided with second linear rails, the second linear rails are slidably connected with a plurality of third sliding blocks, a second base plate is arranged above the third sliding blocks, and the second screw nut seat and the second base plate are fixed below the second sliding plate.

7. The novel full-automatic servo numerical control milling and drilling machining center according to claim 4, wherein the drilling assembly is provided with a sliding seat, a plurality of third linear rails are arranged on two sides of the sliding seat, the third linear rails are connected with a plurality of fourth sliding blocks in a sliding mode, the fourth sliding blocks are provided with seat plates, the seat plates are provided with high-speed electric spindles, the high-speed electric spindles are provided with drill bits, the side edges of the seat plates are provided with air cylinders, and the sliding seat is connected with the guide posts and the ball screw in a sliding mode; the side of the sliding seat is provided with a motor connecting plate, the motor connecting plate is provided with a seventh motor, and the seventh motor is connected with a saw blade.

8. The novel full-automatic servo numerical control milling and drilling machining center according to claim 1, wherein the conveying mechanism comprises a fifth motor, a driven sprocket and a chain, the fifth motor is connected with a driving sprocket, the driving sprocket and the driven sprocket are mutually matched and connected with the chain, and a plurality of chain blocks are arranged above the chain.

9. The novel full-automatic servo numerical control milling and drilling machining center according to claim 8, wherein a bracket assembly is arranged on the side of the conveying mechanism, the bracket assembly comprises a plurality of supporting frames, the supporting frames are provided with screws, the screws are connected with rolling frames, and a plurality of rollers are arranged in the rolling frames.

10. The novel full-automatic servo numerical control milling and drilling machining center according to claim 8, wherein a pressing mechanism is arranged above the conveying mechanism and comprises a fixing device and a pressing plate block, a plurality of pressing wheels are arranged below the pressing plate block, a turbine seat is arranged above the pressing plate block, a sixth motor is connected above the turbine seat, the turbine seat is connected with a third screw rod, two ends of the third screw rod are connected with lifting assemblies, the lifting assemblies comprise a coupler, one end of the coupler is connected with the third screw rod, the other end of the coupler is connected with a worm, the worm is connected with a second gear, a turbine is arranged on the side edge of the second gear, the second gear is connected with the turbine in a meshed mode, a fourth screw rod is arranged in the turbine, the fourth screw rod is rotatably connected to the fixing device, and the fixing device is fixed on two sides of the frame.

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