CN106695349A - Vertical and horizontal double-function machining center - Google Patents

Abstract

The invention discloses a vertical and horizontal double-function machining center. The vertical and horizontal double-function machining center comprises a machine seat, a worktable, a cross beam, a first guide rail, a second guide rail, a vertical machining device, a first driving mechanism, a horizontal machining device and a second driving mechanism. Wood needing machining is arranged on the worktable. The first driving mechanism drives the vertical machining device to move along the second guide rail, so that machining of the top surface of the wood is completed through the vertical machining device. The second driving mechanism drives the horizontal machining device to move along the first guide rail, so that machining of the side surface of the wood is completed through the horizontal machining device. The situation that a traditional machining center can only machine one side of a workpiece is changed, so that the workloads are reduced, and machining efficiency is improved.

Description

A kind of vertical horizontal difunctional machining center

Technical field

The present invention relates to furniture processing machine field, and in particular to a kind of vertical horizontal difunctional machining center.

Background technology

Many cabinet-woods generally need Cutter Body Processing with Machining Center.Multiple faces are generally needed to process due to timber；Due to mesh Preceding machining center generally only has three axis machining, accordingly, it would be desirable to timber needs to be processed by multiple clamping, so as to cause processing Workload is big, extremely inefficient；In view of disadvantages described above, is necessary a kind of vertical horizontal difunctional machining center of design in fact.

The content of the invention

The technical problems to be solved by the invention are：There is provided a kind of vertical horizontal difunctional machining center existing to solve The machining center workload of some cabinet-woods is big, the low problem of efficiency.

In order to solve the above technical problems, the technical scheme is that：A kind of vertical horizontal difunctional machining center, including Support, workbench, crossbeam, the first guide rail, the second guide rail, vertical processing unit (plant), the first drive mechanism, horizontal processing unit (plant) and Two drive mechanisms；The workbench and the crossbeam are located at the support upper end；The crossbeam is located at the side of the workbench Top；First guide rail is located at the support lower end；Second guide rail is located at the crossbeam upper end；Second guide rail and First guide rail is parallel to each other；First drive mechanism drives the vertical processing unit (plant) to want second slide； Second drive mechanism drives the horizontal processing unit (plant) along first slide.

Further, the workbench is lattice-shaped.

Further, the vertical organisation of working includes：First slide, move forward and backward mechanism, installing plate, up-down mechanism With vertical organisation of working；The first slide is on second guide rail；First drive mechanism drives described first to slide Seat is along second slide；The mechanism that moves forward and backward is in the first slide；The installing plate is before described The front end of motion afterwards；The up-down mechanism is on the installing plate；The vertical organisation of working is located on described On lower motion.

Further, first drive mechanism includes：The first servomotor on the crossbeam, watches with described first Take the first screw mandrel of electric machine main shaft connection, and the first nut being placed on first screw mandrel；The end of first screw mandrel with The crossbeam rotates connection, and first nut is connected with the vertical processing unit (plant) close-fitting.

Further, the mechanism that moves forward and backward includes：First guide holder, second slide and front and rear drive mechanism；Described One guide holder quantity is four, and four first guide holders are relative in the first slide；On first guide holder It is provided with chute；The second slide bottom is provided with the slide rail being stuck in the chute；Drive mechanism drives described the before and after described Two slides are moved forward and backward；The up-down mechanism includes：Second guide holder, the 3rd slide and upper lower drive mechanism；Described Two guide holder quantity are four, and four second guide holders are relative located at the installation front edge of board；Described second is oriented to slide It is provided with gathering sill；The 3rd slide back side is located at the slide rail being stuck in the gathering sill；The upper lower drive mechanism drives 3rd slide moves up and down.

Further, the vertical organisation of working quantity is three groups；The vertical organisation of working includes：Located at the installing plate The first cylinder and upper/lower guide；The first air cylinder driven spindle motor is slided along the upper/lower guide；The spindle motor It is provided with main shaft.

Further, the horizontal processing unit (plant) includes：Base on first guide rail, on the base Elevating mechanism, on the elevating mechanism second moves forward and backward mechanism, and is moved forward and backward in mechanism located at described second Horizontal organisation of working.

Further, second drive mechanism includes：Located at the second servomotor of the support lower end, located at described The second screw mandrel on two servomotor spindles, and the second nut being placed on second screw mandrel；One end of second screw mandrel Rotated with the support and be connected；Second nut is fixedly connected with the horizontal processing unit (plant).

Further, the elevating mechanism includes：Located at the upright guide rail of the base side, on the upright guide rail " L " type mounting seat, and drive the upright driving mechanism that the mounting seat moves up and down along the upright guide rail.

Further, the horizontal organisation of working quantity is three groups；The horizontal organisation of working includes：Before described second Second cylinder and front and rear guide rail of motion afterwards；Second cylinder pushes away the second spindle motor along sliding before and after the front and rear guide rail It is dynamic；Second spindle motor is provided with the second main shaft.

Compared with prior art, the vertical horizontal difunctional machining center, including support, workbench, crossbeam, first are led Rail, the second guide rail, vertical processing unit (plant), the first drive mechanism, horizontal processing unit (plant) and the second drive mechanism；The workbench and The crossbeam is located at the support upper end；The crossbeam is located at the side top of the workbench；First guide rail is located at institute State support lower end；Second guide rail is located at the crossbeam upper end；Second guide rail and first guide rail are parallel to each other；Institute Stating the first drive mechanism drives the vertical processing unit (plant) to want second slide；Second drive mechanism drives described Horizontal processing unit (plant) is along first slide.The timber of processing can will be needed to set on the table；There is the first driving machine Structure drives vertical processing unit (plant) to be moved along the second guide rail, therefore, the processing of timber top surface is completed by vertical processing unit (plant).By The two horizontal processing unit (plant)s of drive mechanism driving are moved along the first guide rail, therefore, timber side can be completed by horizontal processing unit (plant) Processing；So as to instead of the side processing that traditional machining center can be only done workpiece, so as to reduce workload, improve Processing efficiency.

Brief description of the drawings

Fig. 1 is the three-dimensional view of the vertical horizontal difunctional machining center of the present invention；

Fig. 2 is the top view of the vertical horizontal difunctional machining center of the present invention；

Fig. 3 is the three-dimensional view of vertical processing unit (plant) described in the vertical horizontal difunctional machining center of the present invention；

Fig. 4 is the sectional view of vertical processing unit (plant) described in the vertical horizontal difunctional machining center of the present invention；

Fig. 5 is the sectional view of crossbeam described in the vertical horizontal difunctional machining center of the present invention；

Fig. 6 is the three-dimensional view of horizontal processing unit (plant) described in the vertical horizontal difunctional machining center of the present invention；

Fig. 7 is the sectional view of horizontal processing unit (plant) described in the vertical horizontal difunctional machining center of the present invention；

Fig. 8 is the sectional view of the second drive mechanism described in the vertical horizontal difunctional machining center of the present invention.

Specific embodiment

Following specific embodiment will be further illustrated with reference to above-mentioned accompanying drawing.

Hereinafter, various specific details are elaborated, to provide the saturating of the concept to constituting described embodiment basis Thorough understanding.However, it will be apparent to those skilled in the art that described embodiment can be without these specific details In it is some or all in the case of put into practice.In other cases, without the well-known process step of specific descriptions.

As shown in figures 1-8, a kind of vertical horizontal difunctional machining center, including support 1, workbench 2, crossbeam 3, first are led Rail 4, the second guide rail 5, vertical processing unit (plant) 6, the first drive mechanism 7, the drive mechanism 9 of horizontal processing unit (plant) 8 and second；The work Make platform 2 and the crossbeam 3 is located at the upper end of the support 1；The crossbeam 3 is located at the side top of the workbench 2；Described first Guide rail 4 is located at the lower end of the support 1；Second guide rail 5 is located at the upper end of the crossbeam 3；Second guide rail 5 and described first Guide rail 4 is parallel to each other；First drive mechanism 7 drives the vertical processing unit (plant) 6 to want second guide rail 5 to slide；It is described Second drive mechanism 9 drives the horizontal processing unit (plant) 8 to be slided along first guide rail 4.The timber of processing can will be needed to set On workbench 2；There is the first drive mechanism 7 to drive vertical processing unit (plant) 6 to be moved along the second guide rail 5, therefore, by processing vertically Device 6 completes the processing of timber top surface.Moved along the first guide rail 4 by the horizontal processing unit (plant) 8 of the driving of the second drive mechanism 9, therefore, The processing of timber side can be completed by horizontal processing unit (plant) 8；So as to the machining center that instead of traditional can be only done workpiece Side processes, and so as to reduce workload, improves processing efficiency.

Further, the workbench 2 is lattice-shaped.Therefore, the wood chip produced during processing can be easy to discharge.

As shown in Figure 3-4, the vertical organisation of working 6 includes：First slide 60, move forward and backward mechanism 61, installing plate 62, Up-down mechanism 63 and vertical organisation of working 64；The first slide 60 is on second guide rail 4；Described first drives Mechanism 7 drives the first slide 60 to be slided along second guide rail 5；The mechanism 61 that moves forward and backward is located at the first slide On 60；The installing plate 62 is located at the front end for moving forward and backward mechanism 61；The up-down mechanism 63 is located at the installation On plate 62；The vertical organisation of working 64 is in the up-down mechanism 63.Therefore, can be by moving forward and backward the band of mechanism 61 Dynamic up-down mechanism is moved forward and backward, and drives vertical organisation of working 64 to move up and down by upper motion 63, so that vertically Organisation of working 64 can complete the front processing of timber.

As shown in figure 5, first drive mechanism 7 includes：The first servomotor 70 on the crossbeam 3, with institute State the first screw mandrel 71 of the main shaft of the first servomotor 70 connection, and the first nut 72 being placed on first screw mandrel 71；It is described The end of the first screw mandrel 71 rotates with the crossbeam 3 and is connected, and first nut 72 connects with the close-fitting of vertical processing unit (plant) 6 Connect.Therefore, the first screw mandrel 71 is driven to move by the first servomotor 70, the first screw mandrel coordinates with 72 with the first nut 72, reaches Slided along the second guide rail 5 to vertical processing unit (plant) 6 is driven.

As shown in Figure 3-4, the mechanism 61 that moves forward and backward includes：First guide holder 610, second slide 611 and front and rear drive Motivation structure 612；The quantity of first guide holder 610 is four, and four first guide holders 610 are relative located at the described first cunning On seat 60；First guide holder 610 is provided with chute；The bottom of the second slide 611 is provided with the cunning being stuck in the chute Rail；Drive mechanism 612 drives the second slide 611 to move forward and backward before and after described；The up-down mechanism 63 includes：Second Guide holder 630, the 3rd slide 631 and upper lower drive mechanism 632；The quantity of second guide holder 630 is four, four described the Two guide holders 630 are relative located at the front end of the installing plate 62；The second guiding slide 630 is provided with gathering sill；Described 3rd The back side of slide 631 is located at the slide rail being stuck in the gathering sill；The upper lower drive mechanism 63 is driven on the 3rd slide 631 Lower motion.So as to reach promote vertical organisation of working 64 around, move up and down so that vertical organisation of working 64 can be completed The processing of workpiece.Wherein front and rear drive mechanism 612 is made up of front and rear servomotor, front and rear screw mandrel and front and rear nut, by front and rear Screw mandrel is rotated before and after servomotor drives, and reaches nut motion before and after drive, and the front and rear fortune of second slide 611 is driven by front and rear nut It is dynamic；Upper lower drive mechanism 632 is that rear servomotor, upper and lower screw mandrel and upper lower nut are constituted up and down, is driven by upper and lower servomotor Upper and lower screw mandrel rotation, reaches the upper lower nut motion of drive, drives the 3rd slide 631 to move forward and backward by upper lower nut.

As shown in Figure 3-4, the quantity of vertical organisation of working 64 is three groups.Therefore by three groups of vertical processing machines of independence Structure 64 can be respectively completed the coarse-fine processing of the different parts or same position of workpiece.The vertical organisation of working 64 includes：If In first cylinder 640 and upper/lower guide 641 of the installing plate 62；The drive shaft motor 642 of first cylinder 640 is along described Upper/lower guide 641 is slided；The spindle motor 642 is provided with main shaft 643.When processing is needed, master is promoted by the first cylinder 640 Vertically guide rail 641 is down slided spindle motor 642 so that the processing knife filled on main shaft 643 is moved at part Working position, by Active motor 642 drives main shaft 643 to run at high speed.

As shown in fig. 6-7, the horizontal processing unit (plant) 8 includes：Base 80 on first guide rail 4, located at institute The elevating mechanism 81 on base 80 is stated, second on the elevating mechanism 81 moves forward and backward mechanism 82, and located at described Two move forward and backward the horizontal organisation of working 83 in mechanism 82.Therefore, base 80 or so is promoted to transport by due to the second drive mechanism 9 It is dynamic, move forward and backward the horizontal organisation of working 83 of the promotion of mechanism 82 by second and move forward and backward, so as to part side sustained height can be completed The processing of position；Drive second to move forward and backward mechanism 82 by elevating mechanism 81 to move up and down, so that it is different to complete side surface of workpiece The processing of height.Wherein：Second moves forward and backward mechanism 82 includes：Drive mechanism before and after second guide holder, second slide and second； Drive mechanism is servo straight line driving mechanism before and after second.

As shown in figure 8, second drive mechanism 9 includes：Located at the second servomotor 90 of the lower end of the support 1, if The second screw mandrel 91 on the main shaft of the second servomotor 90, and the second nut 92 being placed on second screw mandrel 91；Institute The one end for stating the second screw mandrel 91 is connected with the rotation of the support 1；Second nut 92 is fixed with the horizontal processing unit (plant) 8 and connected Connect.Therefore, the second screw mandrel 91 is driven to rotate by the second servomotor 90 so that the second nut 92 moves up and down, so as to drive Base 80 is along the side-to-side movement of the first guide rail 4.

As shown in fig. 6-7, the elevating mechanism 81 includes：Located at the upright guide rail 810 of the side of the base 80, located at institute " L " the type mounting seat 811 on upright guide rail 810 is stated, and drives the mounting seat 811 to be moved up and down along the upright guide rail 810 Upright driving mechanism 810.So as to realize that horizontal organisation of working 83 moves up and down.Wherein going up lower drive mechanism 810 includes setting In the servomotor on base, the screw mandrel on servomotor, and the nut being placed on screw mandrel, wherein nut and mounting seat 811 are fixedly connected, and drive screw mandrel to rotate by servomotor, drive nut to move up and down.

As shown in fig. 6-7, the quantity of horizontal organisation of working 83 is three groups.Can be only by three groups of horizontal organisation of working 83 Vertical processing workpiece, therefore without tool changing, complete the processing of the whole side of workpiece.The horizontal organisation of working 83 includes：Located at institute State the second the second cylinder 830 and front and rear guide rail 831 for moving forward and backward mechanism 82；Second cylinder 830 pushes away the second spindle motor 832 along the slide anteroposterior of front and rear guide rail 831；Second spindle motor 832 is provided with the second main shaft 833.Therefore, by second Cylinder 830 releases the second spindle motor 832 so that cutter on the second main shaft 833 of second spindle motor 832 with Absorption surface, so as to complete the processing of workpiece.

The present invention is not limited to above-mentioned specific embodiment, one of ordinary skill in the art from above-mentioned design, Without performing creative labour, a variety of conversion made are within the scope of the present invention.

Claims (10)

1. a kind of vertical horizontal difunctional machining center, it is characterised in that：Including support, workbench, crossbeam, the first guide rail, Two guide rails, vertical processing unit (plant), the first drive mechanism, horizontal processing unit (plant) and the second drive mechanism；The workbench and described Crossbeam is located at the support upper end；The crossbeam is located at the side top of the workbench；First guide rail is located at the machine Seat lower end；Second guide rail is located at the crossbeam upper end；Second guide rail and first guide rail are parallel to each other；Described One drive mechanism drives the vertical processing unit (plant) to want second slide；Second drive mechanism drives the level Processing unit (plant) is along first slide.

2. vertical horizontal difunctional machining center as claimed in claim 1, it is characterised in that the workbench is lattice-shaped.

3. vertical horizontal difunctional machining center as claimed in claim 1, it is characterised in that the vertical organisation of working bag Include：First slide, move forward and backward mechanism, installing plate, up-down mechanism and vertical organisation of working；The first slide is located at institute State on the second guide rail；First drive mechanism drives the first slide along second slide；It is described to move forward and backward Mechanism is in the first slide；The installing plate is located at the front end for moving forward and backward mechanism；The up-down mechanism On the installing plate；The vertical organisation of working is in the up-down mechanism.

4. vertical horizontal difunctional machining center as claimed in claim 1, it is characterised in that the first drive mechanism bag Include：The first servomotor on the crossbeam, the first screw mandrel being connected with first servomotor spindle, and it is placed on institute State the first nut on the first screw mandrel；The end of first screw mandrel and the crossbeam are rotated and are connected, first nut and institute State vertical processing unit (plant) close-fitting connection.

5. vertical horizontal difunctional machining center as claimed in claim 3, it is characterised in that described to move forward and backward mechanism's bag Include：First guide holder, second slide and front and rear drive mechanism；The first guide holder quantity is four, and four described first are led It is relative in the first slide to seat；First guide holder is provided with chute；The second slide bottom is provided with and is stuck in Slide rail in the chute；Drive mechanism drives the second slide to move forward and backward before and after described；The up-down mechanism bag Include：Second guide holder, the 3rd slide and upper lower drive mechanism；The second guide holder quantity is four, and four described second are led The installation front edge of board is located to seat is relative；The second guiding slide is provided with gathering sill；The 3rd slide back side is located at It is stuck in the slide rail in the gathering sill；The upper lower drive mechanism drives the 3rd slide to move up and down.

6. the vertical horizontal difunctional machining center as described in claim 3 or 5, it is characterised in that the vertical organisation of working Quantity is three groups；The vertical organisation of working includes：Located at first cylinder and upper/lower guide of the installing plate；First gas Cylinder drive shaft motor is slided along the upper/lower guide；The spindle motor is provided with main shaft.

7. vertical horizontal difunctional machining center as claimed in claim 1, it is characterised in that the horizontal processing unit (plant) bag Include：Base on first guide rail, the elevating mechanism on the base, on the elevating mechanism second Mechanism is moved forward and backward, and the horizontal organisation of working in mechanism is moved forward and backward located at described second.

8. vertical horizontal difunctional machining center as claimed in claim 1, it is characterised in that the second drive mechanism bag Include：Located at the second servomotor of the support lower end, the second screw mandrel on second servomotor spindle, and it is placed on The second nut on second screw mandrel；One end of second screw mandrel rotates with the support and is connected；Second nut with The horizontal processing unit (plant) is fixedly connected.

9. vertical horizontal difunctional machining center as claimed in claim 7, it is characterised in that the elevating mechanism includes：If In the upright guide rail of the base side, " L " the type mounting seat on the upright guide rail, and the mounting seat is driven along institute State the upright driving mechanism of upright guide rail up and down motion.

10. vertical horizontal difunctional machining center as claimed in claim 7, it is characterised in that the horizontal organisation of working number Measure is three groups；The horizontal organisation of working includes：Located at the described second the second cylinder and front and rear guide rail for moving forward and backward mechanism；Institute State the second cylinder and push away the second spindle motor along the front and rear guide rail slide anteroposterior；Second spindle motor is provided with the second master Axle.