CN214724984U - Machining center structure - Google Patents

Abstract

The utility model relates to the technical field of woodworking machinery, in particular to a processing center structure, which comprises a frame, a first center beam and a second center beam, wherein the first center beam and the second center beam are arranged on the frame in a sliding manner, the first center beam and the second center beam are both provided with a transverse driving mechanism, two sides of the frame are both provided with driving racks matched and driven and connected with the transverse driving mechanism, and the transverse driving mechanism is matched with the driving racks to drive the first center beam and the second center beam to move along the length direction of the frame; the utility model discloses it is convenient for it fixes a position, mills type, banding rubber coating, truing and scrapes the processing of limit processing to panel, and degree of automation is high, novel structure uses in a flexible way, can realize fixing a position, milling type, banding rubber coating, truing and scrape the limit simultaneously and handle, convenient to use, and work efficiency is high, reduces artifical the participation, reduces the cost of labor.

Description

Machining center structure

Technical Field

The utility model belongs to the technical field of wood working machinery technique and specifically relates to indicate a machining center structure.

Background

The edge sealing operation is an important process in the manufacturing process of the panel furniture, and the quality of the edge sealing directly influences the quality, price and grade of the product. The edge sealing can well improve the appearance quality of the furniture, prevent the damage of the corner parts and the lifting or peeling of the veneering layer of the furniture in the transportation and use processes, simultaneously play the roles of preventing water, sealing the release of harmful gas, reducing the deformation and the like, and beautify the furniture and enjoy the mood. The raw materials used by plate furniture production enterprises mainly comprise shaving boards, medium density boards and other artificial boards, and the selected edge sealing bands mainly comprise PVC, polyester, melamine, battens and the like. The edge banding machine mainly comprises a manual straight-curve edge banding machine, the manual edge banding machine is simple in structure, the installation, the use and the maintenance of the manual edge banding machine are relatively easy, but the working efficiency is low, and the labor cost is high.

Disclosure of Invention

The utility model discloses problem to prior art provides a machining center structure, and it fixes a position, mills type, banding rubber coating, truing and scrapes the processing of limit processing to panel to be convenient for, and degree of automation is high, novel structure, and design benefit uses in a flexible way, can realize fixing a position, milling type, banding rubber coating, truing and scraping the limit processing to panel simultaneously, convenient to use, and work efficiency is high, reduces artifical the participation, reduces the cost of labor.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a machining center structure, including the frame and first central crossbeam and second central crossbeam that slide to set up in the frame, first central crossbeam and second central crossbeam all are provided with the transverse driving mechanism, the both sides of frame all are provided with the drive rack that is connected with the cooperation drive of transverse driving mechanism, the cooperation of transverse driving mechanism and drive rack drives first central crossbeam and second central crossbeam along the length direction of frame removes;

the two ends of the first central cross beam are provided with a gluing five-shaft head and a scraping edge five-shaft head in a sliding mode, the output end of the gluing five-shaft head is connected with a gluing support, and the output end of the scraping edge five-shaft head is connected with a scraping edge support; the gluing bracket is provided with a material receiving and gluing mechanism for gluing the edge sealing strip; the edge scraping support is provided with an edge scraping mechanism for scraping edges of the plate;

the two ends of the second central cross beam are provided with a milling five-shaft head and a finishing five-shaft head in a sliding manner, the output end of the milling five-shaft head is connected with a milling support, and the output end of the finishing five-shaft head is connected with a finishing support; the milling support is provided with a milling mechanism for milling the plate; the fine trimming support is provided with a fine trimming mechanism for fine trimming the plate.

The material receiving and gluing mechanism further comprises a gluing machine table, and a guide wheel, a locking assembly, a traction assembly, a gluing device and a belt pressing assembly which are sequentially arranged on the gluing machine table, wherein the guide wheel is rotatably connected to the gluing machine table;

the rubber coating board facial make-up is equipped with a plurality of limit for height pieces, limit for height piece with form the space that supplies the banding strip to pass through between the rubber coating board.

The traction assembly comprises a traction transmission shaft, a traction roller connected to the top end of the traction transmission shaft and a traction transmission chain wheel connected to the bottom end of the traction transmission shaft; the traction transmission shaft is rotatably arranged on the gluing machine table;

the gluing machine table is also provided with a traction abutting cylinder, a traction movable frame and a traction abutting wheel which is rotatably arranged at the front end of the traction movable frame, the output end of the traction abutting cylinder is in driving connection with the traction movable frame, and the traction abutting cylinder drives the traction abutting wheel to be close to or far away from the traction roller;

the material receiving and gluing mechanism further comprises a gluing transmission motor, and the gluing transmission motor is in driving connection with the traction transmission chain wheel and the gluing device.

The belt pressing assembly comprises a belt pressing cylinder, a belt pressing movable frame and a belt pressing wheel which is rotatably arranged at the front end of the belt pressing movable frame, and the belt pressing cylinder is in driving connection with the rear end of the belt pressing movable frame;

the press belt assembly further comprises a pressing cylinder, a movable swing arm and a pressing trailing guide wheel, one end of the movable swing arm is connected with the press belt movable frame in a rotating mode, the pressing trailing guide wheel is connected with the other end of the movable swing arm in a rotating mode, the pressing cylinder is arranged on the gluing machine table, and the output end of the pressing cylinder is connected with the other end of the movable swing arm.

The edge scraping mechanism comprises an edge scraping lifting guide post and two edge scraping bases which are arranged oppositely and are in sliding connection with the edge scraping lifting guide post, an edge scraping lifting driving piece used for driving the edge scraping bases to move up and down is arranged on one side of each edge scraping base, a flat edge scraping assembly and an inclined edge scraping assembly are respectively arranged at two ends of each edge scraping base, and a tensioning assembly is arranged between the two edge scraping bases;

the tensioning assembly comprises a middle fixing block, two tensioning guide pillars, two tensioning pressing plates and two tensioning springs, the two tensioning pressing plates are respectively fixed on the two scraping edge bases, the middle fixing block is fixed on the scraping edge support, one ends of the two tensioning guide pillars are respectively fixed on the upper side and the lower side of the fixing block, the other ends of the two tensioning guide pillars are respectively penetrated through the tensioning pressing plates in a sliding mode, the two tensioning springs are respectively sleeved on the peripheries of the two tensioning guide pillars, and the two ends of each tensioning spring are respectively connected with the tensioning pressing plates and the fixing blocks;

scrape limit lift guide pillar and be provided with two, two scrape limit lift guide pillar and all slide and wear to locate scrape the limit base.

The flat scraping edge assembly comprises a flat scraping base, a flat scraper seat arranged on the flat scraping base and a flat scraper blade arranged on the flat scraper seat, wherein the flat scraper blade is provided with a binding surface and a flat scraper edge, the binding surface is obliquely arranged towards the side where a workpiece is located along the running direction of the workpiece, and the flat scraper edge is arranged on the binding surface along the far end edge of the running direction of the workpiece;

the bonding surface is of a square structure, the bonding surface is provided with four end edges, and the four end edges are provided with the flat scraper blades;

the inclined scraping edge assembly comprises an inclined scraping base, an inclined scraping base obliquely arranged on the inclined scraping base and an inclined scraping blade arranged on the inclined scraping base, wherein a first installation guide groove used for installing the inclined scraping blade is formed in one end, far away from the inclined scraping base, of the inclined scraping base, and the middle of the inclined scraping blade is locked on the inclined scraping base through a bolt; the oblique scraper edge of the oblique scraper blade is in an inwards concave arc shape.

The milling mechanism comprises a milling driving piece and a milling head connected with the output end of the milling driving piece, and the milling driving piece is arranged on one side of the milling support.

The fine trimming mechanism comprises a fine trimming support, a fine trimming lifting guide column, an upper fine trimming lifting seat and a lower fine trimming lifting seat, wherein the upper fine trimming lifting seat and the lower fine trimming lifting seat are arranged oppositely, and are in sliding connection with the fine trimming lifting guide column, an upper fine trimming assembly is installed on the upper fine trimming lifting seat, a lower fine trimming assembly is installed on the lower fine trimming lifting seat, a first lifting driving piece is arranged on one side of the upper fine trimming lifting seat, a second lifting driving piece is arranged on one side of the lower fine trimming lifting seat, and an upper clamping plate head and a lower clamping plate head are respectively installed at the front end of the upper fine trimming assembly and the front end of the lower fine trimming assembly.

The upper fine trimming component comprises a first horizontal sliding seat, a first horizontal driving piece, a first guide pillar and an upper fine trimming driving piece, the first guide pillar and the first horizontal driving piece are both arranged on the upper fine trimming lifting seat, the first horizontal sliding seat is slidably sleeved on the periphery of the first guide pillar, the first horizontal driving piece drives the first horizontal sliding seat to reciprocate along the first guide pillar, the upper fine trimming driving piece is arranged on the first horizontal sliding seat, and the output end of the upper fine trimming driving piece is connected with an upper fine trimming cutter wheel.

The lower fine trimming component comprises a second horizontal sliding seat, a second horizontal driving piece, a second guide pillar and a lower fine trimming driving piece, the second guide pillar and the second horizontal driving piece are arranged on the lower fine trimming lifting seat, the second horizontal sliding seat is slidably sleeved on the periphery of the second guide pillar, the second horizontal driving piece drives the second horizontal sliding seat to reciprocate along the second guide pillar, the lower fine trimming driving piece is arranged on the second horizontal sliding seat, and the output end of the lower fine trimming driving piece is connected with a lower fine trimming cutter wheel.

The utility model has the advantages that:

the utility model discloses it is convenient for it fixes a position, mills type, banding rubber coating, truing and scrapes the processing of limit processing to panel, degree of automation is high, novel structure, design benefit, the rubber coating five spindle nose scrape the five spindle nose in limit milling five spindle noses and the truing five spindle nose can order about the rubber coating support respectively, scrape the limit support, mill type support and truing the support rotation to can order about it and remove along first central crossbeam and second central crossbeam, degree of automation is high, and can order about and connect material rubber coating mechanism, scrape limit mechanism, mill type mechanism and truing mechanism rotation direction, use in a flexible way, can realize fixing a position, mill type, banding rubber coating, truing and scrape the limit processing simultaneously to panel, convenient to use, work efficiency is high, reduces artifical the participation, reduces the cost of labor.

Drawings

Fig. 1 is a schematic structural diagram of a machining center structure of the present invention.

Fig. 2 is the structure diagram of the utility model after hiding the frame.

Fig. 3 is the structure diagram of the material receiving and gluing mechanism of the utility model.

Fig. 4 is the utility model discloses a connect the material rubber coating mechanism to hide the structure sketch map behind the rubber coating support.

Fig. 5 is the internal structure diagram of the material receiving and gluing mechanism of the present invention.

Fig. 6 is a schematic structural view of the glue spreading device of the present invention.

Fig. 7 is a partial exploded view of the gluing device of the present invention.

Fig. 8 is a schematic structural view of the glue door of the present invention.

Fig. 9 is a schematic structural view of the edge scraping mechanism of the present invention.

Fig. 10 is an enlarged view of fig. 9 at a.

Fig. 11 is another view angle structure diagram of the scraping mechanism of the present invention.

Fig. 12 is a schematic structural view of the scraping edge base, the flat scraping edge assembly and the inclined scraping edge assembly of the present invention.

Fig. 13 is a schematic structural diagram of the milling mechanism, the finishing mechanism and the second central beam of the present invention.

Fig. 14 is a schematic structural view of the finishing mechanism of the present invention.

Fig. 15 is another view structure diagram of the finishing mechanism of the present invention.

The reference numerals in fig. 1 to 15 include:

200. a material receiving and gluing mechanism;

1. a gluing machine table; 2. a material guide wheel; 3. a locking assembly; 4. a traction assembly; 5. a gluing device; 6. a belt pressing assembly; 7. gluing a bracket; 9. an anti-loose telescopic cylinder; 10. a loose-proof movable frame; 11. an anti-loose butting wheel; 12. a locking clamping wheel; 13. a height limiting member; 14. a traction drive shaft; 15. a traction roller; 16. a traction drive sprocket; 17. a gluing transmission motor; 18. a traction abutting cylinder; 19. a traction movable frame; 20. drawing the butting wheels; 21. a belt pressing cylinder; 22. a movable frame for pressing belt; 23. a pinch roller; 24. a pressing cylinder; 25. a movable swing arm; 26. a compression trailing guide wheel; 27. a glue box; 28. a glue door; 29. glue spreading roller; 30. gluing a transmission chain wheel; 31. A connecting rod; 32. gluing a driving piece; 33. a support fixing plate; 34. a glue inlet;

300. an edge scraping mechanism;

301. a scraping edge bracket; 302. scraping the lifting guide post; 303. a scraping base; 304. a scraping edge lifting driving piece; 305. a scraping edge component; 306. the inclined scraping edge assembly; 307. a tension assembly; 308. A middle fixed block; 309. tensioning the guide post; 310. tensioning the pressing plate; 311. tensioning the spring; 313. A flat scraping base; 314. a flat scraper seat; 315. a flat scraper blade; 316. a binding face; 317. flattening the scraper edge; 318. obliquely scraping the base; 319. an inclined scraper seat; 320. a beveled doctor blade; 321. a first mounting channel; 322. a beveled scraper edge;

400. a first central beam; 401. gluing five-shaft heads; 402. scraping edge five-shaft head; 403. a lateral drive mechanism; 404. a drive rack; 405. a frame;

500. a second central beam; 501. milling five-shaft heads; 502. finely trimming the five shaft heads; 503. milling a support; 504. a milling mechanism; 505. a fine trimming mechanism; 506. milling a driving piece; 507. milling a profile head;

601. finely trimming the bracket; 602. finely trimming the lifting guide pillar; 603. finishing the lifting seat; 604. lower fine trimming of the lifting seat; 605. a first lifting drive member; 606. a second lifting drive member; 607. an upper clamping plate head; 608. a lower clamping plate head; 609. a first horizontal slide; 610. a first horizontal drive member; 611. a first guide post; 612. finishing the driving piece; 613. finishing a cutter wheel; 614. a second horizontal slide; 615. a second horizontal drive; 616. a second guide post; 617. lower finishing of the driving piece; 618. and (5) finishing the cutter wheel.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention will be described in detail with reference to the accompanying drawings.

A machining center structure, as shown in fig. 1 to 15, including a rack 405, and a first central beam 400 and a second central beam 500 slidably disposed on the rack 405, where the first central beam 400 and the second central beam 500 are both provided with a transverse driving mechanism 403, both sides of the rack 405 are provided with driving racks 404 matched and drivingly connected with the transverse driving mechanism 403, and the transverse driving mechanism 403 and the driving racks 404 are matched to drive the first central beam 400 and the second central beam 500 to move along the length direction of the rack 405;

two ends of the first central cross beam 400 are slidably provided with a gluing five-shaft head 401 and a scraping edge five-shaft head 402, the output end of the gluing five-shaft head 401 is connected with a gluing support 7, and the output end of the scraping edge five-shaft head 402 is connected with a scraping edge support 301; the gluing bracket 7 is provided with a material receiving and gluing mechanism 200 for gluing the edge sealing strip; the edge scraping support 301 is provided with an edge scraping mechanism 300 for scraping edges of the plate;

two ends of the second central cross beam 500 are slidably provided with a milling five-axis head 501 and a finishing five-axis head 502, the output end of the milling five-axis head 501 is connected with a milling support 503, and the output end of the finishing five-axis head 502 is connected with a finishing support 601; the milling support 503 is provided with a milling mechanism 504 for milling the plate; the finishing support is provided with a finishing mechanism 505 for finishing the plate.

Specifically, the transverse driving mechanism 403 may be a motor and a driving gear, and is engaged and driven by the driving gear and the driving rack 404 to drive the first central beam 400 and the second central beam 500 to move transversely along the rack 405, so as to drive the material receiving gluing mechanism 200, the edge scraping mechanism 300, the milling mechanism 504 and the finishing mechanism 505 to move transversely on the rack in a reciprocating manner, so as to facilitate the processes of positioning, milling, edge sealing and gluing, finishing and edge scraping for the sheet material, and the gluing five-axis head 401, the edge scraping five-axis head 402, the milling five-axis head 501 and the finishing five-axis head 502 can respectively drive the gluing support 7, the edge scraping support 301, the milling support 503 and the finishing support 601 to rotate and can drive the gluing support 7, the edge scraping support 301, the milling support 503 and the finishing support 601 to move along the first central beam 400 and the second central beam 500, degree of automation is high to can order about and connect material rubber coating mechanism 200, scrape limit mechanism 300, mill type mechanism 504 and finishing mechanism 505 rotation direction, use in a flexible way, can realize fixing a position, milling type, banding rubber coating, finishing and scrape the limit to panel simultaneously and handle, convenient to use, work efficiency is high, reduces artifical the participation, reduces the cost of labor.

In the machining center structure of this embodiment, the material receiving and gluing mechanism 200 further includes a gluing machine 1, and a guide wheel 2, a locking assembly 3, a traction assembly 4, a gluing device 5, and a belt pressing assembly 6 which are sequentially mounted on the gluing machine 1, wherein the guide wheel 2 is rotatably connected to the gluing machine 1; specifically, when the material receiving and gluing mechanism works, the belt conveying trolley mechanism supplies the edge sealing strips, so that the edge sealing strips sequentially pass through the guide wheel 2, the anti-loosening assembly 3, the traction assembly 4, the gluing device 5 and the belt pressing assembly 6, the anti-loosening assembly 3 can firmly clamp the edge sealing strips, and the edge sealing strips can be conveniently pulled and the required workpiece edge sealing strip length can be calculated in the next step; the traction component 4 is used for driving the edge sealing strip to move forwards; the gluing device 5 is used for gluing the edge sealing strip, and pressing and pasting the panel through the belt pressing assembly 6 after gluing.

The gluing machine table 1 is provided with a plurality of height limiting pieces 13, and a space for a sealing strip to pass through is formed between each height limiting piece 13 and the gluing machine table 1. Specifically, the height of banding strip when carrying can be injectd to above-mentioned setting, avoids banding strip skew.

This embodiment a machining center structure, locking subassembly 3 including locking telescopic cylinder 9, locking adjustable shelf 10, rotate set up in locking butt joint wheel 11 of locking adjustable shelf 10 and rotate set up in locking pinch-off blades 12 of rubber coating board 1, locking telescopic cylinder 9's output with locking adjustable shelf 10 drive is connected, locking telescopic cylinder 9 orders about locking butt joint wheel 11 is close to or keeps away from locking pinch-off blades 12. Specifically, above-mentioned setting can order about locking butt joint wheel and locking pinch roller cooperation centre gripping banding strip under locking telescopic cylinder 9's drive and carry out the centre gripping firm, makes things convenient for banding strip pulling on next step and calculates required work piece banding strip length work.

In the machining center structure of this embodiment, the traction assembly 4 includes a traction transmission shaft 14, a traction roller 15 connected to the top end of the traction transmission shaft 14, and a traction transmission sprocket 16 connected to the bottom end of the traction transmission shaft 14; the traction transmission shaft 14 is rotatably arranged on the gluing machine table 1; specifically, the material receiving and gluing mechanism further comprises a gluing transmission motor 17, and the gluing transmission motor 17 is in driving connection with the traction transmission chain wheel 16 and the gluing device 5; the gluing transmission motor 17 drives the traction transmission shaft 14 to rotate to drive the traction roller 15 to rotate so as to drive the edge sealing strip to move forwards.

The gluing machine 1 is further provided with a traction abutting cylinder 18, a traction movable frame 19 and a traction abutting wheel 20 which is rotatably arranged at the front end of the traction movable frame 19, the output end of the traction abutting cylinder 18 is in driving connection with the traction movable frame 19, and the traction abutting cylinder 18 drives the traction abutting wheel 20 to be close to or far away from the traction roller 15;

the material receiving and gluing mechanism further comprises a gluing transmission motor 17, and the gluing transmission motor 17 is in driving connection with the traction transmission chain wheel 16 and the gluing device 5. Specifically, the edge sealing strip is driven to move forwards by the matching of the traction butting wheel 20 and the traction roller 15, so that the looseness of the edge sealing strip in the transmission process can be prevented, and the structure is reliable.

In the structure of the machining center according to this embodiment, the belt pressing assembly 6 includes a belt pressing cylinder 21, a belt pressing movable frame 22, and a belt pressing wheel 23 rotatably disposed at a front end of the belt pressing movable frame 22, and the belt pressing cylinder 21 is drivingly connected to a rear end of the belt pressing movable frame 22;

the press belt assembly 6 further comprises a pressing cylinder 24, a movable swing arm 25 and a pressing trailing guide wheel 26, one end of the movable swing arm 25 is connected with the press belt movable frame 22 in a rotating mode, the pressing trailing guide wheel 26 is connected with the other end of the movable swing arm 25 in a rotating mode, the pressing cylinder 24 is arranged on the gluing machine table 1, and the output end of the pressing cylinder 24 is connected with the other end of the movable swing arm 25.

Specifically, when the edge sealing strip is discharged, the pressing cylinder 21 can drive the pressing roller 23 to reciprocate back and forth through the pressing roller 23 and the pressing trailing guide wheel 26, and can press the edge sealing strip and the processed plate, so that the processed plate and the edge sealing strip are seamlessly pressed and attached, and the structure is reliable; wherein, the compressing cylinder 24 can drive the movable swing arm 25 to rotate, so as to adjust the tightness of the jointing of the edge banding strip with the plate through the compressing trailing guide wheel 26.

In the machining center structure of this embodiment, the glue spreading device 5 includes a glue box 27, a glue door 28 and a glue spreader 29, a glue outlet is provided on a side surface of a lower end of the glue box 27, the glue door 28 is provided at the glue outlet, and the glue spreader 29 is vertically provided at an outer side of the glue door 28; the side of gluing box 27 is equipped with support fixed plate 33, support fixed plate 33 facial make-up is equipped with the rubber coating driving piece 32, the rubber coating driving piece 32 is used for driving glue door 28 rotates, the bottom of glue spreader 29 is provided with rubber coating drive sprocket 30. Specifically, the gluing transmission motor 17 is in driving connection with the traction transmission chain wheel 16 and the gluing transmission chain wheel 30 through a synchronous belt so as to synchronously drive the traction transmission shaft 14 and the gluing roller 29 to rotate, and the gluing device is reliable in structure, ingenious and novel in design; this embodiment novel structure, the hand (hold) among the conventional art is changed into rubber coating driving piece 32, when opening and closing rubber coating device 5, rubber coating driving piece 32 work drives gluey door 28 rotation to when reaching the switch rubber coating, gluey door 28 can automatic switch, does not need the manual work to open and close, makes the operation more simple automatic avoided appearing leaking the condition appearance of gluing because of carelessness, reduces the human cost, improves work efficiency and operating mass with rated load, and the structure is reliable.

Of course, the gluing device 5 of this embodiment may also be a conventional and existing gluing device 5, and the sealing of the sealing strip may be achieved.

The top end of the glue door 28 is connected with a connecting rod 31, the output end of the glue driving piece 32 is connected with one end, far away from the glue door 28, of the connecting rod 31, and the glue driving piece 32 drives the connecting rod 31 to swing to drive the glue door 28 to rotate. Specifically, the connecting rod 31 is close to the pot head of gluey door 28 and is established in the periphery on gluey door 28 top, the output of rubber coating driving piece 32 with the connecting rod 31 is kept away from gluey one end of 28 and is connected, rubber coating driving piece 32 is the cylinder, orders about the connecting rod 31 swing through the piston rod of cylinder is flexible, orders about gluey door 28 then and rotates.

The glue doors 28 are rotatable flat-square glue doors 28, two flat-square glue doors 28 are provided, and the two flat-square glue doors 28 are matched with each other to open or close the glue outlet; the gluing driving pieces 32 are two air cylinders, and the air cylinders correspond to the flat square glue doors 28 one by one; the top of the glue box 27 is provided with a glue inlet 34. Wherein, be provided with the heating pipe in the glue spreader 29, in this embodiment, this heating pipe and the coaxial setting of glue spreader 29, the rubber coating portion of glue spreader 29 is just to going out the jiao kou, and the height that the rubber coating portion length more than or equal to of glue spreader 29 goes out jiao kou, and the heating pipe is located glue spreader 29, and the length more than or equal to of heating pipe glue spreader 29's length to carry out the abundant heating to glue spreader 29, effectively avoid the melten gel on the glue spreader 29 to take place the solidification phenomenon.

In the machining center structure of this embodiment, the edge scraping mechanism 300 includes an edge scraping lifting guide pillar 302 and two edge scraping bases 303 that are disposed opposite to each other and are both slidably connected to the edge scraping lifting guide pillar 302, one side of the edge scraping bases 303 is provided with an edge scraping lifting driving member 304 for driving the edge scraping bases 303 to move up and down, two ends of the edge scraping bases 303 are respectively provided with a flat edge scraping assembly 305 and an inclined edge scraping assembly 306, and a tensioning assembly 307 is disposed between the two edge scraping bases 303;

specifically, the flat scraping edge assemblies 305 on the two scraping edge bases 303 are arranged oppositely, and the inclined scraping edge assemblies 306 on the two scraping edge bases 303 are arranged oppositely; when the workpiece needs to be scraped, the scraping edge lifting driving part 304 drives the two scraping edge bases 303 to approach each other respectively, and when the workpiece needs to be scraped horizontally, the two flat scraping edge assemblies 305 which are arranged just opposite approach each other to press the upper surface and the lower surface of the workpiece tightly, and the external driving mechanism drives the scraping edge support 301 to move, so that the flat scraping edge treatment of the workpiece can be realized; when the workpiece needs to be obliquely scraped, the external driving mechanism drives the scraping edge support 301 to rotate, so that the oblique scraping edge component 306 is aligned with the workpiece, the workpiece is pressed by the two oblique scraping edge components 306 which are oppositely arranged, and the external driving mechanism drives the scraping edge support 301 to move, so that the oblique scraping edge treatment of the workpiece can be realized; the utility model realizes the installation of the oblique scraping edge component 306 and the horizontal scraping edge component 305 through one scraping edge bracket 301, and can realize the switching between the oblique scraping edge and the horizontal scraping edge by an external driving mechanism, thereby saving the waiting time for replacing parts, improving the processing efficiency, having reliable structure, ingenious and novel design and effectively reducing the production cost; the tensioning assembly 307 can increase the compression amount of the inclined scraping edge assembly 306 and the flat scraping edge assembly 305 on the workpiece, and the upper and lower compression amount control and avoidance functions of the inclined scraping edge assembly 306 and the flat scraping edge assembly 305 are realized by matching with the scraping edge lifting driving piece 304.

The tensioning assembly 307 comprises a middle fixing block 308, two tensioning guide pillars 309, two tensioning pressing plates 310 and two tensioning springs 311, wherein the two tensioning pressing plates 310 are respectively fixed on the two edge scraping bases 303, the middle fixing block 308 is fixed on the edge scraping support 301, one ends of the two tensioning guide pillars 309 are respectively fixed on the upper side and the lower side of the fixing block, the other ends of the two tensioning guide pillars 309 are respectively penetrated through the tensioning pressing plates 310 in a sliding manner, the two tensioning springs 311 are respectively sleeved on the peripheries of the two tensioning guide pillars 309, and two ends of the tensioning spring 311 are respectively connected with the tensioning pressing plates 310 and the fixing block; specifically, the tensioning guide column 309 can play a role in guiding sliding, the tensioning spring 311 tensions the two tensioning pressing plates 310, and the two scraping edge bases 303 can be pulled, so that the flat scraping edge assemblies 305 and the inclined scraping edge assemblies 306 at the two ends of the two scraping edge bases 303 can better press the workpiece.

The two scraping edge lifting guide columns are arranged and penetrate through the scraping edge base in a sliding mode. Specifically, the edge scraping lifting guide post 302 provided above effectively improves the stability of the movement of the edge scraping base 303.

The machining center structure of this embodiment, the flat edge component 305 includes the flat base 313 of scraping, installs at the flat base 314 of scraping of flat base 313 and installs the flat scraper blade 315 on flat base 314, flat scraper blade 315 has binding face 316 and flat scraper blade 317, and this binding face 316 inclines to set up towards work piece place side along work piece traffic direction, and the distal edge along work piece traffic direction on this binding face 316 is provided with aforementioned flat scraper blade 317. Specifically, the edge is scraped to the work piece to the aforesaid sets up the convenience through flat scraper blade 315 to scraping the five spindle nose in limit, scraping under the cooperation of limit lift driving piece 304, realizing scraping the limit through the machine replacement tradition manual work, effectively improved and scraped limit efficiency.

The attachment surface 316 is a square structure, and the attachment surface 316 has four end edges, and the four end edges are provided with the flat scraper edges 317; when the scraper edge 317 at the distal end edge is worn, the scraper blade 315 can be removed and reinstalled to have its other scraper edge 317 at the distal end for scraping.

The inclined scraping edge assembly 306 comprises an inclined scraping base 318, an inclined scraping tool seat 319 obliquely arranged on the inclined scraping base 318, and an inclined scraping blade 320 arranged on the inclined scraping tool seat 319, wherein a first installation guide groove 321 for installing the inclined scraping blade 320 is arranged at one end, far away from the inclined scraping base 318, of the inclined scraping tool seat 319, and the middle part of the inclined scraping blade 320 is locked on the inclined scraping tool seat 319 through a bolt; the inclined scraper edge 322 of the inclined scraper blade 320 is concave arc-shaped. Specifically, the first installation guide groove 321 plays a role in guiding and limiting the inclined scraper blade 320, the main body of the inclined scraper blade 320 is accommodated in the first installation guide groove 321, and the inclined scraper edge 322 of the inclined scraper blade 320 protrudes out of the first installation guide groove 321, so that the inclined scraper blade 320 and the inclined scraper seat 319 can be conveniently assembled, and the stability and the position accuracy of the inclined scraper blade 320 installed on the inclined scraper seat 319 are improved; the inclined scraper blade 320 is obliquely arranged, and the workpiece is obliquely scraped by the inclined scraper edge 322 which is concave and arc-shaped.

In the machining center structure of this embodiment, the milling mechanism 504 includes a milling driving element 506 and a milling head 507 connected to an output end of the milling driving element 506, and the milling driving element 506 is mounted on one side of the milling support 503. Specifically, the milling drive 506 may be a motor, and the milling drive 506 drives the milling head 507 to rotate to mill the sheet material.

In the machining center structure of this embodiment, the finishing mechanism 505 includes a finishing support 601, a finishing lifting guide pillar 602, and an upper finishing lifting seat 603 and a lower finishing lifting seat 604 that are disposed opposite to each other and are slidably connected to the finishing lifting guide pillar 602, an upper finishing assembly is installed on the upper finishing lifting seat 603, a lower finishing assembly is installed on the lower finishing lifting seat 604, a first lifting driving member 605 is disposed on one side of the upper finishing lifting seat 603, a second lifting driving member 606 is disposed on one side of the lower finishing lifting seat 604, and an upper clamping plate head 607 and a lower clamping plate head 608 are respectively installed at the front end of the upper finishing assembly and the front end of the lower finishing assembly. Specifically, the utility model discloses first lift driving piece 605 with under the effect of second lift driving piece 606, can order about up truing lift seat 603 and down truing lift seat 604 and reciprocate along truing lift guide pillar 602, carry out the centre gripping to panel through last splint head 607 and lower splint head 608, the centre gripping is firm back, carries out the truing to panel through last truing subassembly and lower truing subassembly again, and reliable structure, degree of automation is high, cliies panel moreover, and stability is good, the reliable operation.

In the structure of the machining center according to this embodiment, the upper finishing assembly includes a first horizontal sliding seat 609, a first horizontal driving member 610, a first guide post 611, and an upper finishing driving member 612, the first guide post 611 and the first horizontal driving member 610 are both installed on the upper finishing lifting seat 603, the first horizontal sliding seat 609 is slidably sleeved on the periphery of the first guide post 611, the first horizontal driving member drives the first horizontal sliding seat 609 to reciprocate along the first guide post 611, the upper finishing driving member 612 is installed on the first horizontal sliding seat 609, and an output end of the upper finishing driving member 612 is connected to an upper finishing cutter wheel 613. Specifically, the above arrangement facilitates adjusting the position of the first horizontal sliding seat 609 as required to adjust the position of the upper finishing cutter wheel 613 aligned to the sheet material, and the adjustment is convenient, and the upper finishing cutter wheel 613 is driven to rotate by the upper finishing driving member 612 to perform finishing edge processing on the sheet material.

The first lifting driving member 605 and the second lifting driving member 606 are both cylinders, and the output ends thereof are connected to the finishing support 601, so as to control the upper finishing lifting seat 603 and the lower finishing lifting seat 604 to move up and down.

Wherein, the upper clamping plate head 607 is detachably connected to the front end of the first horizontal sliding seat 609. Specifically, the removable mounting mode of upper clamp plate head 607 both had conveniently been changed and was installed on the one hand, and on the other hand also conveniently adjusts the position of upper clamp plate head 607 to in use processing demand.

Wherein the upper finishing drive 612 is a motor.

In the structure of the machining center according to this embodiment, the lower finishing assembly includes a second horizontal sliding seat 614, a second horizontal driving element 615, a second guide post 616, and a lower finishing driving element 617, the second guide post 616 and the second horizontal driving element 615 are both installed on the lower finishing lifting seat 604, the second horizontal sliding seat 614 is slidably sleeved on the periphery of the second guide post 616, the second horizontal driving element drives the second horizontal sliding seat 614 to reciprocate along the second guide post 616, the lower finishing driving element 617 is installed on the second horizontal sliding seat 614, and an output end of the lower finishing driving element 617 is connected to a lower finishing cutter wheel 618. Specifically, the position of the second horizontal sliding seat 614 can be adjusted conveniently according to the requirement, so as to adjust the position of the lower finishing cutter wheel 618 aligned with the plate, the adjustment is convenient, and the lower finishing cutter wheel 618 is driven to rotate by the lower finishing driving part 617 to finish the edge of the plate; wherein, the finishing edge treatment can be simultaneously performed on the plate material by the upper finishing cutter wheel 613 and the lower finishing cutter wheel 618.

Wherein the lower chuck head 608 is detachably connected to the front end of the second horizontal sliding base 614. Specifically, lower plate head 608 demountable installation mode, on the one hand both conveniently change and install, on the other hand also conveniently adjusts lower plate head 608's position to in use processing demand.

Wherein, the lower finishing driving part 617 is a motor.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention is disclosed in the preferred embodiment, it is not limited to the above description, and any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, but all the technical solutions of the present invention are within the scope of the present invention.

Claims (10)

1. A machining center structure characterized in that: the device comprises a rack, and a first central cross beam and a second central cross beam which are arranged on the rack in a sliding manner, wherein the first central cross beam and the second central cross beam are both provided with a transverse driving mechanism, two sides of the rack are both provided with driving racks matched and in driving connection with the transverse driving mechanism, and the transverse driving mechanism is matched with the driving racks to drive the first central cross beam and the second central cross beam to move along the length direction of the rack; the two ends of the first central cross beam are provided with a gluing five-shaft head and a scraping edge five-shaft head in a sliding mode, the output end of the gluing five-shaft head is connected with a gluing support, and the output end of the scraping edge five-shaft head is connected with a scraping edge support; the gluing bracket is provided with a material receiving and gluing mechanism for gluing the edge sealing strip; the edge scraping support is provided with an edge scraping mechanism for scraping edges of the plate;

the two ends of the second central cross beam are provided with a milling five-shaft head and a finishing five-shaft head in a sliding manner, the output end of the milling five-shaft head is connected with a milling support, and the output end of the finishing five-shaft head is connected with a finishing support; the milling support is provided with a milling mechanism for milling the plate; the fine trimming support is provided with a fine trimming mechanism for fine trimming the plate.

2. A machining center structure according to claim 1, characterized in that: the material receiving and gluing mechanism further comprises a gluing machine table, and a guide wheel, an anti-loosening assembly, a traction assembly, a gluing device and a belt pressing assembly which are sequentially arranged on the gluing machine table, wherein the guide wheel is rotationally connected to the gluing machine table;

the rubber coating board facial make-up is equipped with a plurality of limit for height pieces, limit for height piece with form the space that supplies the banding strip to pass through between the rubber coating board.

3. A machining center structure according to claim 2, wherein: the traction assembly comprises a traction transmission shaft, a traction roller connected to the top end of the traction transmission shaft and a traction transmission chain wheel connected to the bottom end of the traction transmission shaft; the traction transmission shaft is rotatably arranged on the gluing machine table; the gluing machine table is also provided with a traction abutting cylinder, a traction movable frame and a traction abutting wheel which is rotatably arranged at the front end of the traction movable frame, the output end of the traction abutting cylinder is in driving connection with the traction movable frame, and the traction abutting cylinder drives the traction abutting wheel to be close to or far away from the traction roller;

the material receiving and gluing mechanism further comprises a gluing transmission motor, and the gluing transmission motor is in driving connection with the traction transmission chain wheel and the gluing device.

4. A machining center structure according to claim 2, wherein: the belt pressing assembly comprises a belt pressing cylinder, a belt pressing movable frame and a belt pressing wheel which is rotatably arranged at the front end of the belt pressing movable frame, and the belt pressing cylinder is in driving connection with the rear end of the belt pressing movable frame;

the press belt assembly further comprises a pressing cylinder, a movable swing arm and a pressing trailing guide wheel, one end of the movable swing arm is connected with the press belt movable frame in a rotating mode, the pressing trailing guide wheel is connected with the other end of the movable swing arm in a rotating mode, the pressing cylinder is arranged on the gluing machine table, and the output end of the pressing cylinder is connected with the other end of the movable swing arm.

5. A machining center structure according to claim 1, characterized in that: the scraping mechanism comprises a scraping edge lifting guide pillar and two scraping edge bases which are arranged oppositely and are in sliding connection with the scraping edge lifting guide pillar, a scraping edge lifting driving piece used for driving the scraping edge bases to move up and down is arranged on one side of each scraping edge base, a flat scraping edge assembly and an inclined scraping edge assembly are respectively arranged at two ends of each scraping edge base, and a tensioning assembly is arranged between the two scraping edge bases; the tensioning assembly comprises a middle fixing block, two tensioning guide pillars, two tensioning pressing plates and two tensioning springs, the two tensioning pressing plates are respectively fixed on the two scraping edge bases, the middle fixing block is fixed on the scraping edge support, one ends of the two tensioning guide pillars are respectively fixed on the upper side and the lower side of the fixing block, the other ends of the two tensioning guide pillars are respectively penetrated through the tensioning pressing plates in a sliding mode, the two tensioning springs are respectively sleeved on the peripheries of the two tensioning guide pillars, and the two ends of each tensioning spring are respectively connected with the tensioning pressing plates and the fixing blocks;

scrape limit lift guide pillar and be provided with two, two scrape limit lift guide pillar and all slide and wear to locate scrape the limit base.

6. A machining center structure according to claim 5, wherein: the flat scraping edge assembly comprises a flat scraping base, a flat scraper seat arranged on the flat scraping base and a flat scraper blade arranged on the flat scraper seat, wherein the flat scraper blade is provided with a binding surface and a flat scraper edge, the binding surface is obliquely arranged towards the side where a workpiece is located along the running direction of the workpiece, and the flat scraper edge is arranged on the binding surface along the far end edge of the running direction of the workpiece;

the bonding surface is of a square structure, the bonding surface is provided with four end edges, and the four end edges are provided with the flat scraper blades;

the inclined scraping edge assembly comprises an inclined scraping base, an inclined scraping base obliquely arranged on the inclined scraping base and an inclined scraping blade arranged on the inclined scraping base, wherein a first installation guide groove used for installing the inclined scraping blade is formed in one end, far away from the inclined scraping base, of the inclined scraping base, and the middle of the inclined scraping blade is locked on the inclined scraping base through a bolt; the oblique scraper edge of the oblique scraper blade is in an inwards concave arc shape.

7. A machining center structure according to claim 1, characterized in that: the milling mechanism comprises a milling driving piece and a milling head connected with the output end of the milling driving piece, and the milling driving piece is arranged on one side of the milling support.

8. A machining center structure according to claim 1, characterized in that: the fine trimming mechanism comprises a fine trimming support, a fine trimming lifting guide column, an upper fine trimming lifting seat and a lower fine trimming lifting seat, wherein the upper fine trimming lifting seat and the lower fine trimming lifting seat are arranged oppositely and are in sliding connection with the fine trimming lifting guide column, an upper fine trimming assembly is installed on the upper fine trimming lifting seat, a lower fine trimming assembly is installed on the lower fine trimming lifting seat, a first lifting driving piece is arranged on one side of the upper fine trimming lifting seat, a second lifting driving piece is arranged on one side of the lower fine trimming lifting seat, and an upper clamping plate head and a lower clamping plate head are respectively installed at the front end of the upper fine trimming assembly and the front end of the lower fine trimming assembly.

9. A machining center structure according to claim 8, wherein: go up the truing subassembly and include first horizontal sliding seat, first horizontal driving piece, first guide pillar and go up the truing driving piece, first guide pillar with first horizontal driving piece is all installed at last truing lift seat, first horizontal sliding seat slip cap is located the periphery of first guide pillar, first horizontal driving piece orders about first horizontal sliding seat along first guide pillar reciprocating motion goes up the truing driving piece and installs at first horizontal sliding seat, the output of going up the truing driving piece is connected with the truing break bar.

10. A machining center structure according to claim 8, wherein: the lower fine trimming component comprises a second horizontal sliding seat, a second horizontal driving piece, a second guide pillar and a lower fine trimming driving piece, the second guide pillar and the second horizontal driving piece are arranged on the lower fine trimming lifting seat, the second horizontal sliding seat is slidably sleeved on the periphery of the second guide pillar, the second horizontal driving piece drives the second horizontal sliding seat to reciprocate along the second guide pillar, the lower fine trimming driving piece is arranged on the second horizontal sliding seat, and the output end of the lower fine trimming driving piece is connected with a lower fine trimming cutter wheel.

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