CN205342633U - Automatic go up unloading machining center production line - Google Patents

Abstract

The utility model discloses an automatic go up unloading machining center production line, including material loading machine, machining center and blanking machine, this material loading machine, machining center and blanking machine transversely set up in proper order side by side, this material loading machine is provided with a mark head and a bar printer including material loading lathe bed, cantilever beam and slide on this slide, this machining center is including processing lathe bed, portal frame, slip table and aircraft nose, this blanking machine is including unloading frame, conveying mechanism on, dust absorption mechanism, dust absorption mechanism and a plurality of supporting legs mechanism down, be provided with material loading machine, machining center and blanking machine through the cooperation, this equipment can be accomplished material loading, automatic joint strip sign indicating number automatically in proper order, once accomplish processes such as milling type drilling fluting, unloading, can show improvement work efficiency, the saving timber manufacturing time, effectively improves the productivity.

Description

Automatic loading/unloading machining center production line

Technical field

This utility model relates to woodworking machinery art, refers in particular to a kind of automatic loading/unloading machining center production line.

Background technology

Along with the appearance of microprocessor, the world enters brand-new numerical control epoch, and the lathe of the multijoint control that just can realize with computer is rapidly growing, makes timber be machined into automatization, an intellectualization times；In prior art, general machining center is all single machining operation, and automaticity is low, and production efficiency is low, it is necessary to many people do loading and unloading work, and cost of labor is high；And without patch bar code function, it is impossible to realize intellectuality and produce.Therefore, for the deficiencies in the prior art, it is provided that a kind of can automatic loading/unloading and can the machining center production line of automatic strip sticking code, very necessary.

Utility model content

In view of this, this utility model is for the disappearance of prior art existence, and its main purpose is to provide a kind of automatic loading/unloading machining center production line, and it can effectively solve the existing problem that timber machining center automaticity is low, production efficiency is low.

For achieving the above object, this utility model adopts such as purgation technical scheme:

A kind of automatic loading/unloading machining center production line, includes feeder, machining center and blanking machine；This feeder, machining center and blanking machine are arranged successively laterally side by side；

This feeder includes feeding lathe bed, cantilever beam and slide, this feeding lathe bed has hydraulic elevating platform, this cantilever beam can be arranged on feeding lathe bed and be positioned at the top of hydraulic elevating platform by transverse reciprocating actively, this cantilever beam longitudinal extension, this slide can longitudinally be arranged on cantilever beam back and forth actively, and this slide is provided with labeling head and bar code printer；

This machining center includes processing lathe bed, portal frame, slide unit and head；The input end of this processing lathe bed is provided with auxiliary feeding platform, auxiliary feeding platform connects the outfan of feeder, this portal frame can be arranged on processing lathe bed by transverse reciprocating actively, and this slide unit can longitudinally be arranged on portal frame back and forth actively, and this head can vertically be arranged on slide unit back and forth actively；

This blanking machine includes blanking frame, conveying mechanism, upper dust collection mechanism, lower dust collection mechanism and multiple supporting leg mechanism；This conveying mechanism is arranged in blanking frame, on this, dust collection mechanism is arranged in blanking frame and is positioned at the surface of input of conveying mechanism, this lower dust collection mechanism is arranged in blanking frame and is positioned at immediately below the outfan of conveying mechanism, and the plurality of supporting leg mechanism interval is arranged on the bottom of blanking frame.

As a kind of preferred version, the rear side of described cantilever beam is provided with rear end floating pusher, and this slide is provided with side floating pusher.

As a kind of preferred version, the outfan of described processing lathe bed is arranged below lathe bed dust collection mechanism, this lathe bed dust collection mechanism includes reclaiming plate and dust shield, this reclaiming plate is installed on outside the outfan of processing lathe bed by one first mounting blocks and two second mounting blocks, reclaiming plate is connected between processing lathe bed and blanking frame, being provided with multiple air suction opening on reclaiming plate, this dust shield is positioned at the underface of reclaiming plate, and reclaiming plate covers the upper end open of dust shield.

As a kind of preferred version, described slide unit being provided with the first dust suction switch, this first dust suction switch connects lathe bed dust collection mechanism by airduct.

As a kind of preferred version, described auxiliary feeding platform includes multiple aluminium section bar bar and multiple roller installing plate, the plurality of spaced and parallel setting of aluminium section bar bar, the plurality of spaced and parallel setting of roller installing plate, each roller installing plate is all provided with multiple roller on each aluminium section bar bar, each roller installing plate.

As a kind of preferred version, one lateral margin of described processing lathe bed is provided with location-plate mechanism, and this location-plate mechanism includes location-plate and positioning cylinder, this location-plate horizontal expansion, this positioning cylinder is fixed on processing lathe bed, and this positioning cylinder drives location-plate up and down.

As a kind of preferred version, described slide unit being provided with material grabbing mechanism, this material grabbing mechanism is controlled to be turned on and off by vacuum switch valve.

As a kind of preferred version, described portal frame being provided with two slide rails and a screw mandrel, this slide unit is longitudinally movable back and forth along two slide rails, and this screw mandrel is connected with slide unit, and this screw mandrel drives rotation with motor and belt.

As a kind of preferred version, described head includes engraves milling mechanism and gang drill mechanism, and this gang drill mechanism is positioned at engraves by the side of milling mechanism.

As a kind of preferred version, described portal frame arranging pusher dust collection mechanism and the second dust suction switch, the second dust suction switch connects pusher dust collection mechanism by airduct.

This utility model compared with prior art has clear advantage and beneficial effect, specifically, as shown from the above technical solution:

By being equipped with feeder, machining center and blanking machine, this equipment can automatically be sequentially completed feeding, automatic strip sticking code, once complete the milling type boring operation such as fluting, blanking, work efficiency can be significantly improved, save the timber processing and manufacturing time, be effectively improved production capacity.

For more clearly setting forth architectural feature of the present utility model and effect, below in conjunction with accompanying drawing and specific embodiment, this utility model is described in detail.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the preferred embodiment of this utility model；

Fig. 2 be this utility model preferred embodiment in the amplification schematic perspective view of machining center；

Fig. 3 is the exploded view of the preferred embodiment medial bed dust collection mechanism of this utility model；

Fig. 4 be this utility model preferred embodiment in auxiliary feeding platform enlarged diagram；

Fig. 5 be this utility model preferred embodiment in the exploded view of location-plate mechanism；

Fig. 6 be this utility model preferred embodiment in the exploded view of vacuum switch valve；

Fig. 7 be this utility model preferred embodiment in the enlarged diagram of portal frame；

Fig. 8 be this utility model preferred embodiment in the enlarged diagram of outer housing；

Fig. 9 be this utility model preferred embodiment in the enlarged diagram of slide unit；

Figure 10 be this utility model preferred embodiment in another angle enlargement schematic diagram of slide unit；

Figure 11 be this utility model preferred embodiment in first dust suction switch enlarged diagram；

Figure 12 be this utility model preferred embodiment in the enlarged diagram of head；

Figure 13 be this utility model preferred embodiment in engrave the enlarged diagram of milling mechanism；

Figure 14 be this utility model preferred embodiment in the enlarged diagram of gang drill mechanism；

Figure 15 be this utility model preferred embodiment in the enlarged diagram of tool magazine mechanism；

Figure 16 be this utility model preferred embodiment in the exploded view of material grabbing mechanism；

Figure 17 be this utility model preferred embodiment in the exploded view of pusher dust collection mechanism；

Figure 18 be this utility model preferred embodiment in second dust suction switch enlarged diagram.

Accompanying drawing identifier declaration:

10, feeder 11, feeding lathe bed

12, cantilever beam 13, slide

14, hydraulic elevating platform 15, labeling head

16, bar code printer 17, side floating pusher

20, machining center 21, processing lathe bed

22, portal frame 23, slide unit

24, head 241, engrave milling mechanism

242, gang drill mechanism 243, tool magazine mechanism

25, auxiliary feeding platform 251, aluminium section bar bar

252, roller installing plate 253, roller

26, lathe bed dust collection mechanism 261, reclaiming plate

262, dust shield the 263, first mounting blocks

264, the second mounting blocks 265, air suction opening

27, location-plate mechanism 271, location-plate

272, positioning cylinder the 28, first dust suction switch

29, material grabbing mechanism 201, slide rail

202, screw mandrel 203, motor

204, belt 205, pusher dust collection mechanism

206, second dust suction switch 207, vacuum switch valve

208, protective cover 30, blanking machine

31, blanking frame 32, conveying mechanism

33, upper dust collection mechanism 34, lower dust collection mechanism

35, supporting leg mechanism.

Detailed description of the invention

Refer to shown in Fig. 1 to Figure 18, that show the concrete structure of the preferred embodiment of this utility model, include feeder 10, machining center 20 and blanking machine 30, this feeder 10, machining center 20 and blanking machine 30 are arranged successively laterally side by side.

This feeder 10 includes feeding lathe bed 11, cantilever beam 12 and slide 13, this feeding lathe bed 11 has hydraulic elevating platform 14, this cantilever beam 12 can be arranged on feeding lathe bed 11 and be positioned at the top of hydraulic elevating platform 14 by transverse reciprocating actively, this cantilever beam 12 longitudinal extension, this slide 13 can longitudinally be arranged on cantilever beam 12 back and forth actively, and this slide 13 is provided with labeling head 15 and bar code printer 16；In the present embodiment, the rear side of described cantilever beam 12 is provided with rear end floating pusher (not shown), and this slide 13 is provided with side floating pusher 17.

This machining center 20 includes processing lathe bed 21, portal frame 22, slide unit 23 and head 24；The input end of this processing lathe bed 21 is provided with auxiliary feeding platform 25, auxiliary feeding platform 25 connects the outfan of feeder 10, this portal frame 22 can be arranged on processing lathe bed 21 by transverse reciprocating actively, this slide unit 23 can longitudinally be arranged on portal frame 22 back and forth actively, and this head 24 can vertically be arranged on slide unit 23 back and forth actively.

This blanking machine 30 includes blanking frame 31, conveying mechanism 32, upper dust collection mechanism 33, lower dust collection mechanism 34 and multiple supporting leg mechanism 35；This conveying mechanism 32 is arranged in blanking frame 31, on this, dust collection mechanism 33 is arranged in blanking frame 31 and is positioned at the surface of input of conveying mechanism 32, this lower dust collection mechanism 34 is arranged in blanking frame 31 and is positioned at immediately below the outfan of conveying mechanism 32, and the plurality of supporting leg mechanism 35 interval is arranged on the bottom of blanking frame 31.

In the present embodiment, the outfan of described processing lathe bed 21 is arranged below lathe bed dust collection mechanism 26, as shown in Figure 3, this lathe bed dust collection mechanism 26 includes reclaiming plate 261 and dust shield 262, this reclaiming plate 261 is installed on outside the outfan of processing lathe bed 21 by one first mounting blocks 263 and two second mounting blocks 264, reclaiming plate 261 is connected between processing lathe bed 21 and blanking frame 31, reclaiming plate 261 is provided with multiple air suction opening 265, this dust shield 262 is positioned at the underface of reclaiming plate 261, reclaiming plate 261 covers the upper end open of dust shield 262, and, described slide unit 23 is provided with the first dust suction switch 28, this first dust suction switch 28 connects lathe bed dust collection mechanism 26 by airduct (not shown), the concrete structure of the first dust suction switch 28 is as shown in figure 11, it is by support, the parts such as main switch and shrouding form.As shown in Figure 4, described auxiliary feeding platform 25 includes multiple aluminium section bar bar 251 and multiple roller installing plate 252, the plurality of spaced and parallel setting of aluminium section bar bar 251, the plurality of spaced and parallel setting of roller installing plate 252, each roller installing plate 252 is all provided with multiple roller 253 on each aluminium section bar bar 251, each roller installing plate 252.And, one lateral margin of described processing lathe bed 21 is provided with location-plate mechanism 27, as shown in Figure 5, this location-plate mechanism 27 includes location-plate 271 and positioning cylinder 272, this location-plate 271 horizontal expansion, this positioning cylinder 272 is fixed on processing lathe bed 21, and this positioning cylinder 272 drives location-plate 271 up and down.

And, as it is shown in fig. 7, be provided with two slide rail 201 and screw mandrels 202 on described portal frame 22, this slide unit 23 is longitudinally movable back and forth along two slide rails 201, and this screw mandrel 202 is connected with slide unit 23, and this screw mandrel 202 drives rotation with motor 203 and belt 204.As shown in figure 12, described head 24 includes engraves milling mechanism 241 and gang drill mechanism 242, this gang drill mechanism 242 is positioned at by the side engraving milling mechanism 241, this gang drill mechanism 242 is the gang drill mechanism of double; two suction port, being additionally provided with tool magazine mechanism 243 on processing lathe bed 21, this tool magazine mechanism 243 is servo tool magazine mechanism.

Additionally, described portal frame 22 arranges pusher dust collection mechanism 205 and the second dust suction switch 206, second dust suction switch 206 connects pusher dust collection mechanism 205 by airduct (not shown), the concrete structure of this pusher dust collection mechanism 205 is as shown in figure 17, it is made up of pusher sweep-up pipe, cylinder, control joint and dust shield etc., as shown in figure 18, it is made up of this second dust suction switch 206 support, shrouding, switch, cylinder etc..And, the periphery of this portal frame 22 is provided with protective cover 208, covers 24 weeks lateral margins of head outside this protective cover 208.

Described slide unit 23 is provided with material grabbing mechanism 29, this material grabbing mechanism 29 is controlled to be turned on and off by vacuum switch valve 207, the concrete structure of this material grabbing mechanism 29 is as shown in figure 16, it is made up of parts such as sucker, buffer bar, cylinders, as shown in Figure 6, it is made up of this vacuum switch valve 207 parts such as cylinder, acoustic filter, four-way connections.

The work process that the present embodiment is described in detail in detail is as follows:

First, being pitched by sheet material on the hydraulic elevating platform 14 of feeder 10 by fork truck, operator clicks the starting switch on guidance panel, and production line automatically begins to running.

Then, sheet material is pushed against the work on datum level: plate is increased to the position of inductive switch and stops (height of machining center table top) by hydraulic elevating platform 14, the transverse shifting of feeder 10 moves cantilever beam 12 to the position outside sheet material, side floating pusher 17 declines, vertically move work, floating pusher is made to be pushed against by sheet material on lathe bed horizontal direction datum level, longitudinal axis is return, side floating pusher 17 rises, cantilever beam 12 moves on to high order end, floating pusher in rear end declines, transverse shifting, floating pusher in rear end is made to be pushed against by sheet material on feeding lathe bed 11 longitudinal direction datum level, transverse moving mechanism is return, side floating pusher 17 rises, complete the work being pushed against on datum level by sheet material.

Then, the work of grab bar code joint strip code: longitudinal moving mechanism makes labeling head 15 move to the position of label outlet, and bar code printer 16 prints bar code, and vacuum generator works, extract the air of bar code sucker out, making label sucker be adsorbed on sucker by bar code, transverse shifting moves to the position of joint strip code, bar code cylinder intake with vertically moving work, bar code sucker declines, making bar code be attached on sheet material, bar code sucker rises, and completes the work of joint strip code；

Then, sending plate to work: cantilever beam 12 is moved on to high order end by transverse shifting, floating pusher in rear end declines, and transverse moving mechanism makes cantilever beam 12 move, and makes floating pusher in rear end be shifted onto by sheet material on the auxiliary feeding platform 25 of machining center 20.

Then, material grasping pusher dust suction works: material grasping works: vacuum pump starts, and material grasping vacuum valve is opened, material grasping cylinder intake, makes material grasping sucker paster on sheet material, and the vacuum thimble switch on sucker is opened simultaneously, and sucker holds sheet material；Pusher dust suction works: pusher dust suction switch is opened, pusher dust suction cylinder intake, and pusher dust absorbing structure declines, discharging guide frame cylinder intake, and discharging guide frame rises；The transverse moving mechanism of machining center 20 makes portal frame 22 transverse shifting, the sheet material processed is released machining center 20, dust on table top in processing is siphoned away by pusher dust collection mechanism 205 simultaneously, and sheet material is dragged on the table top of machining center 20 by material grabbing mechanism 29, completes material grasping pusher dust suction work.

Then, sheet material puts in place, and table top vacuum switch valve is opened on the table top that sheet material adsorbs the clamping work in-process heart 20, and sheet material is started processing by the head 24 of machining center 20 automatically.

Then, machine, machining center 20 repeats material grasping pusher dust suction work, and the sheet material processed is shifted onto on blanking machine 30, and the dust of plate surface is siphoned away by upper dust collection mechanism 33, when sheet material is transferred to end photoswitch place, conveying mechanism 32 stops, in order to avoid sheet material drops on the ground, when sheet material is taken away by operator, conveying mechanism 32 start the sheet material of far-end is sent to end stop, restarting when sheet material is taken away.

Design focal point of the present utility model is in that: by being equipped with feeder, machining center and blanking machine, this equipment can automatically be sequentially completed feeding, automatic strip sticking code, once complete the milling type boring operation such as fluting, blanking, work efficiency can be significantly improved, save the timber processing and manufacturing time, be effectively improved production capacity.

The above, it it is only preferred embodiment of the present utility model, not technical scope of the present utility model is imposed any restrictions, therefore every any trickle amendment, equivalent variations and modification above example made according to technical spirit of the present utility model, all still fall within the scope of technical solutions of the utility model.

Claims (10)

1. an automatic loading/unloading machining center production line, it is characterised in that: include feeder, machining center and blanking machine；This feeder, machining center and blanking machine are arranged successively laterally side by side；

This feeder includes feeding lathe bed, cantilever beam and slide, this feeding lathe bed has hydraulic elevating platform, this cantilever beam can be arranged on feeding lathe bed and be positioned at the top of hydraulic elevating platform by transverse reciprocating actively, this cantilever beam longitudinal extension, this slide can longitudinally be arranged on cantilever beam back and forth actively, and this slide is provided with labeling head and bar code printer；

This machining center includes processing lathe bed, portal frame, slide unit and head；The input end of this processing lathe bed is provided with auxiliary feeding platform, auxiliary feeding platform connects the outfan of feeder, this portal frame can be arranged on processing lathe bed by transverse reciprocating actively, and this slide unit can longitudinally be arranged on portal frame back and forth actively, and this head can vertically be arranged on slide unit back and forth actively；

This blanking machine includes blanking frame, conveying mechanism, upper dust collection mechanism, lower dust collection mechanism and multiple supporting leg mechanism；This conveying mechanism is arranged in blanking frame, on this, dust collection mechanism is arranged in blanking frame and is positioned at the surface of input of conveying mechanism, this lower dust collection mechanism is arranged in blanking frame and is positioned at immediately below the outfan of conveying mechanism, and the plurality of supporting leg mechanism interval is arranged on the bottom of blanking frame.

2. automatic loading/unloading machining center production line according to claim 1, it is characterised in that: the rear side of described cantilever beam is provided with rear end floating pusher, and this slide is provided with side floating pusher.

3. automatic loading/unloading machining center production line according to claim 1, it is characterized in that: the outfan of described processing lathe bed is arranged below lathe bed dust collection mechanism, this lathe bed dust collection mechanism includes reclaiming plate and dust shield, this reclaiming plate is installed on outside the outfan of processing lathe bed by one first mounting blocks and two second mounting blocks, reclaiming plate is connected between processing lathe bed and blanking frame, reclaiming plate is provided with multiple air suction opening, this dust shield is positioned at the underface of reclaiming plate, and reclaiming plate covers the upper end open of dust shield.

4. automatic loading/unloading machining center production line according to claim 3, it is characterised in that: being provided with the first dust suction switch on described slide unit, this first dust suction switch connects lathe bed dust collection mechanism by airduct.

5. automatic loading/unloading machining center production line according to claim 1, it is characterized in that: described auxiliary feeding platform includes multiple aluminium section bar bar and multiple roller installing plate, the plurality of spaced and parallel setting of aluminium section bar bar, the plurality of spaced and parallel setting of roller installing plate, each roller installing plate is all provided with multiple roller on each aluminium section bar bar, each roller installing plate.

6. automatic loading/unloading machining center production line according to claim 1, it is characterized in that: a lateral margin of described processing lathe bed is provided with location-plate mechanism, this location-plate mechanism includes location-plate and positioning cylinder, this location-plate horizontal expansion, this positioning cylinder is fixed on processing lathe bed, and this positioning cylinder drives location-plate up and down.

7. automatic loading/unloading machining center production line according to claim 1, it is characterised in that: being provided with material grabbing mechanism on described slide unit, this material grabbing mechanism is controlled to be turned on and off by vacuum switch valve.

8. automatic loading/unloading machining center production line according to claim 1, it is characterized in that: described portal frame is provided with two slide rails and a screw mandrel, this slide unit is longitudinally movable back and forth along two slide rails, and this screw mandrel is connected with slide unit, and this screw mandrel drives rotation with motor and belt.

9. automatic loading/unloading machining center production line according to claim 1, it is characterised in that: described head includes engraves milling mechanism and gang drill mechanism, and this gang drill mechanism is positioned at engraves by the side of milling mechanism.

10. automatic loading/unloading machining center production line according to claim 1, it is characterised in that: arranging pusher dust collection mechanism and the second dust suction switch on described portal frame, the second dust suction switch connects pusher dust collection mechanism by airduct.