CN102166907A - Connecting-rod-type transmission mechanism of three-dimensional engraving machine - Google Patents

Abstract

The invention relates to a connecting-rod-type transmission mechanism of a three-dimensional engraving machine, comprising a lathe bed which is provided with a working table which is driven by a third screw to slide forward and backward; the working table is provided with a turntable frame which is evenly provided with a plurality of turntables; the working table is also provided with a tail seat frame which can slide forward and backward; the tail seat frame is provided with tail seats which correspond to the turntables; and a clamping mechanism is formed by each tail seat and each turntable. The transmission mechanism is characterized in that the turntables are driven by the connecting rod which is connected with each turntable through a pin; the positions on the turntables, which are provided with the pin, are consistent; and the connecting rod is driven by a driving mechanism which comprises a drive motor and a reducer connected with the drive motor. The technical scheme is characterized in that the turntables of the engraving machine are driven by the connecting rod; and the connecting rod is driven by the driving mechanism. Compared with the prior art, the transmission mechanism has the advantage of obviously lowering the cost of the engraving machine; and the synchronous rotation of the turntables is realized, and the processing precision of the three-dimensional engraving machine is improved.

Description

The connecting rod type transmission mechanism of solid carving machine

Technical field

The present invention relates to a kind of connecting rod type transmission mechanism of solid carving machine, belong to technical field of engraving.

Background technology

China Patent No. is the headgear that the patent document of CN200820083901.1 discloses a kind of solid carving machine, as shown in Figure 4, a plurality of rotating disks 103 are installed on this engraving machine, and each rotating disk 103 is driven by a turbine and worm decelerator 102, servomotor 101 drives 102, the second of first turbine and worm decelerators and follow-up turbine and worm decelerator 102 drives by rotating shaft 104 and shaft coupling 105; The shortcoming of this headgear is to have several rotating disks 103 just to need several turbine and worm decelerators 102, cost is higher, when most importantly turbine and worm decelerator 102 is worked, the contact-making surface of turbine and worm screw is sliding friction, therefore wearing and tearing are very fast, are easy to generate the gap, are unfavorable for processing, as because of equidistantly worm screw not being carried out the gap adjustment, cost will be multiplied again.In addition, solid carving machine headgear at present commonly used also comprises two kinds of Fig. 5 and Fig. 6.Each rotating disk 203 of the solid carving machine headgear of Fig. 5 drives by a servomotor 201 and turbine and worm decelerator 202, clearly the cost of this transmission mechanism is higher, and each servomotor 201 and corresponding turbine and worm decelerator 202 relatively independent work, therefore difficult the realization fully synchronously.First rotating disk 303 of the support body engraving machine headgear of Fig. 6 is driven by servomotor 301 and corresponding turbine and worm decelerator 302, follow-up rotating disk 303 by with first rotating disk 303 rotate synchronously synchronously with 305 and supporting regulating wheel 304 and synchromesh gear 306 drive, the regulating wheel 304 of this mechanism is not easy to regulate, when making when being with 305 tension force big slightly synchronously, the load of servomotor 301 is very big, influence the engraving machine operate as normal, and be with 305 tension force slightly hour synchronously, be with synchronously 305 and rotating disk 303 skid easily, and rotating disk 303 shakes easily, influences machining accuracy.

Summary of the invention

It is low to the purpose of this invention is to provide a kind of cost, can realize that rotating disk rotates synchronously, thereby improves the connecting rod type transmission mechanism of the solid carving machine of machining accuracy.

The technical solution adopted in the present invention is to achieve the above object of the invention:

The connecting rod type transmission mechanism of solid carving machine, comprise lathe bed, be equipped with on the lathe bed by the 3rd screw mandrel drive carry out before, back slip workbench, turntable mounting is installed on the workbench, a plurality of rotating disks evenly are installed on the turntable mounting, also be equipped with on the described workbench can carry out before, the tail-holder rack that slides in the back, install and the corresponding tailstock of rotating disk on the tail-holder rack, tailstock and rotating disk constitute clamping device, it is characterized in that described a plurality of rotating disk is driven by connecting rod, connecting rod is connected by pin with each rotating disk, the position that pin is installed on each rotating disk is consistent, described connecting rod is driven by driving mechanism, and described driving mechanism comprises drive motors and the decelerator that links to each other with the drive motors axle.

The characteristics of the technical program are that a plurality of rotating disks of engraving machine are driven by connecting rod, connecting rod is connected by pin with each rotating disk, the position that pin is installed on each rotating disk is consistent, described connecting rod is driven by driving mechanism, and described driving mechanism comprises drive motors and the decelerator that links to each other with the drive motors axle; A plurality of like this rotating disks only need dispose a drive motors and decelerator, have compared with prior art obviously reduced the cost of engraving machine; And all rotating disks drive by a connecting rod, guarantee to realize the synchronous rotation of all rotating disks, have improved the machining accuracy of solid carving machine.

Column is installed in the both sides of described lathe bed, described column inside is equipped with bearing block, dispose second screw mandrel on the bearing block, second screw mandrel is driven by servomotor, be equipped with between two columns by the upper and lower mobile crossbeam of second screw mandrel drive carrying out, be fixed with upper and lower two guide rails on the crossbeam, dispose on upper and lower two guide rails by first screw mandrel and drive the left and right cross slide that horizontally slips, on two cross slides toolframe is installed, be fixed with a plurality of spindle motors on the toolframe, mounting cutter in the rotating shaft of spindle motor, cutter is corresponding one by one with described clamping device.The technical program is equivalent to the transmission mechanism of vertical direction of the prior art is moved on on two columns, laterally transmission mechanism is placed on the transmission mechanism of vertical direction, make like this and have only toolframe on the cross slide and be installed in spindle motor and cutter on the toolframe, when the left and right slip of cross slide, significantly reduce motional inertia, reduced the impact of cross slide column and lathe bed simultaneously; In addition under the prerequisite that does not increase cross slide width and weight, cross slide on two guide rails can be shifted to a end near column, make cross slide to two ends, the support force of toolframe, thereby reduced the shockproofness at toolframe two ends, and then guarantee product quality near toolframe.

Described lathe bed is made up of base one and base two, and the width of described workbench is corresponding with the width of described base one.The base one general width of solid carving machine is little at present, but the width of workbench is bigger, the technical program is with the reduced width of the workbench width to described base one, not only reduced waste of material, alleviated the overall weight of solid carving machine, and make complete machine seem small and exquisite, the handled easily personnel operation.

Below in conjunction with accompanying drawing embodiments of the present invention are described further:

Description of drawings

Fig. 1 is solid (forward) structural representation of embodiment of the present invention;

Fig. 2 is solid (back to) structural representation of embodiment of the present invention;

Fig. 3 is the structural representation of Fig. 2 turntable transmission mechanism;

Fig. 4 is that the patent No. is the structural representation of headgear of solid carving machine of the patent document record of CN200820083901.1;

Fig. 5 is the structural representation of the another kind of headgear of using always of prior art of the present invention;

Fig. 6 is the structural representation of another headgear commonly used of prior art of the present invention.

The specific embodiment

As Fig. 1, Fig. 2 and shown in Figure 3, the connecting rod type transmission mechanism of solid carving machine, comprise lathe bed 1, be equipped with on the lathe bed 1 by the 3rd screw mandrel 21 drive carry out before, back slip workbench 2, turntable mounting 3 is installed on the workbench 2, a plurality of rotating disks 31 evenly are installed on the turntable mounting 3, also be equipped with on the described workbench 2 can carry out before, the tail-holder rack 4 that slides in the back, install and rotating disk 31 corresponding tailstocks 41 on the tail-holder rack 4, tailstock 41 constitutes clamping device with rotating disk 31, it is characterized in that described a plurality of rotating disk 31 is driven by connecting rod 32, connecting rod 32 is connected by pin 321 with each rotating disk 31, the position that pin 321 is installed on each rotating disk 31 is consistent, and described connecting rod 32 is driven by driving mechanism 33, and described driving mechanism comprises drive motors and the decelerator that links to each other with the drive motors axle.The characteristics of the technical program are that a plurality of rotating disks 31 of engraving machine are driven by connecting rod 32, connecting rod 32 is connected by pin 321 with each rotating disk 31, the position that pin 321 is installed on each rotating disk 31 is consistent, described connecting rod 32 is driven by driving mechanism 33, and described driving mechanism comprises drive motors and the decelerator that links to each other with the drive motors axle; 31 of a plurality of like this rotating disks need drive motors of configuration and decelerator, have compared with prior art obviously reduced the cost of engraving machine; And all rotating disks 31 drive by a connecting rod 32, guarantee to realize the synchronous rotation of all rotating disks 31, have improved the machining accuracy of solid carving machine.Column 9 is installed in the both sides of described lathe bed 1, described column 9 internal fixation are equipped with bearing block 92, dispose second screw mandrel 91 on the bearing block 92, second screw mandrel 91 is driven by servomotor 94, be equipped with between two columns 9 by second screw mandrel 91 drive carry out on, mobile down crossbeam 7, matching relationship between second screw mandrel 91 and the crossbeam 7 is: be fixed with at crossbeam 7 two ends and second screw mandrel, 91 fit screw rod nuts, second screw mandrel 91 rotates and realizes on feed screw nut and the crossbeam 7 in the course of work, move down, be fixed with on the described crossbeam 7, following two guide rails 71, on, dispose on two guide rails 71 down by first screw mandrel 8 and drive a left side that horizontally slips, right cross slide 6 (is clear other mechanism of expressing among the figure, right cross slide 6 only draws), toolframe 5 (right half part that only shows toolframe 5 among the figure) is installed on two cross slides 6, be fixed with a plurality of spindle motors 51 on the toolframe 5, mounting cutter 52 in the rotating shaft of spindle motor 51, and cutter 52 is corresponding one by one with described clamping device.The technical program is equivalent to the transmission mechanism on the vertical direction of the prior art is moved on on two columns 9, laterally transmission mechanism is placed on the transmission mechanism of vertical direction, make like this and have only toolframe 5 on the cross slide 6 and be installed in spindle motor 51 and cutter 52 on the toolframe 5, when cross slide 6 left and right slips, significantly reduce motional inertia, reduced the impact of cross slide 6 columns 9 and lathe bed 1 simultaneously; In addition under the prerequisite that does not increase cross slide 6 width and weight, left and right cross slide 6 on two guide rails 71 can be shifted to a end respectively near column 9, make the support force of 6 pairs of toolframes 5 of cross slide near the two ends of toolframe 5, thereby reduced the shockproofness at toolframe 5 two ends, and then guaranteed product quality.Described lathe bed 1 is made up of base 1 and base 2 12, and the width of described workbench 2 is corresponding with the width of described base 1.The base one 11 general width of solid carving machine are little at present, but the width of workbench 2 is bigger, the technical program is with the reduced width of workbench 2 width to described base 1, not only reduced waste of material, alleviated the overall weight of solid carving machine, and make complete machine seem small and exquisite, the handled easily personnel operation.

More than describe preferred embodiment of the present invention in detail.The ordinary skill that should be appreciated that this area need not creative work and just can design according to the present invention make many modifications and variations.Therefore, all technical staff in the art all should be in the determined protection domain by claims under this invention's idea on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment.

Claims (3)

1. the connecting rod type transmission mechanism of solid carving machine, comprise lathe bed (1), be equipped with on the lathe bed (1) by the 3rd screw mandrel (21) drive carry out before, back slip workbench (2), turntable mounting (3) is installed on the workbench (2), turntable mounting (3) is gone up a plurality of rotating disks (31) evenly is installed, also be equipped with on the described workbench (2) can carry out before, the tail-holder rack (4) that slides in the back, tail-holder rack (4) is gone up and is installed and the corresponding tailstock of rotating disk (31) (41), tailstock (41) constitutes clamping device with rotating disk (31), it is characterized in that described a plurality of rotating disk (31) is driven by connecting rod (32), connecting rod (32) is connected by pin (321) with each rotating disk (31), it is consistent that each rotating disk (31) is gone up the position that pin (321) is installed, described connecting rod (32) is driven by driving mechanism (33), and described driving mechanism comprises drive motors and the decelerator that links to each other with the drive motors axle.

2. the connecting rod type transmission mechanism of solid carving machine according to claim 1, column (9) is installed in the both sides that it is characterized in that described lathe bed (1), described column (9) inside is equipped with bearing block (92), dispose second screw mandrel (91) on the bearing block (92), second screw mandrel (91) is driven by servomotor (94), be equipped with between two columns (9) by second screw mandrel (91) drive carry out on, mobile down crossbeam (7), crossbeam is fixed with on (7), following two guide rails (71), on, dispose by first screw mandrel (8) on two guide rails (71) down and drive a left side that horizontally slips, right cross slide (6), toolframe (5) is installed on two cross slides (6), be fixed with a plurality of spindle motors (51) on the toolframe (5), mounting cutter (52) in the rotating shaft of spindle motor (51), cutter (52) is corresponding one by one with described clamping device.

3. the connecting rod type transmission mechanism of solid carving machine according to claim 1 is characterized in that described lathe bed (1) is made up of base one (11) and base two (12), and the width of described workbench (2) is corresponding with the width of described base one (11).

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