CN204867523U - Supporting glass mold in digital control processing machine presss from both sides dress slewer - Google Patents

Abstract

The utility model provides a supporting glass mold in digital control processing machine presss from both sides dress slewer, belongs to glass mold processing equipment technical field. The bed body and numerical control drilling assembly are drawn together to the digital control processing press packed bale, and the setting of numerical control drilling assembly is gone up at the bed body and lie in a left end of personally experiencing sth. Part of the body, glass mold presss from both sides dress slewer and includes a three -jaw chuck axial rotation mechanism and the horizontal rotation mechanism of a three -jaw chuck, the horizontal rotation mechanism of three -jaw chuck corresponding to the position on the right side of numerical control drilling assembly sets up the right -hand member of the bed body, three -jaw chuck axle go out rotation mechanism to be fixed on the horizontal rotation mechanism of three -jaw chuck, drives three -jaw chuck axial rotation mechanism by the horizontal rotation mechanism of three -jaw chuck and rotates. Realize awaiting supplying numerical control drilling assembly to bore that the glass mold who establishes the inclined hole presss from both sides the dress by three -jaw chuck axial rotation mechanism and drive three -jaw chuck axial rotation mechanism by the horizontal rotation mechanism of three -jaw chuck and rotate, therefore can satisfy the technological requirement that the inclined hole was established to the digital control processing machine drill.

Description

The glass mold being matched in numerical control machine clamps slewing equipment

Technical field

The utility model belongs to glass mold technical field of processing equipment, is specifically related to a kind of glass mold being matched in numerical control machine and clamps slewing equipment.

Background technology

Above mentioned numerical control machine is as digital control drilling machine, CNC milling machine, numerically control grinder, etc., due to this machinery, to have automaticity high, the strong points such as good processing accuracy and working (machining) efficiency are high, thus be widely used in the manufacture of electronic product, and be called automated machine machining center.

In the manufacture process of glass mold, need on mould, be drilled with inclined hole (being namely incubated hole), prior art is completed with manual mode of operation by workman usually to being drilled with of inclined hole on common drilling machine, the self-evident shortcoming of this processing mode is: because efficiency is restricted, and thus can only be made up by the quantity and corresponding personnel dropping into drilling machine; Large and the quality that is boring of the operation intensity of operator is subject to the impact of human factor.

Certainly, if adopt aforesaid numerical control machine as digital control drilling machine, so above-mentioned technical problem is just solved, and the technical information be no lack of in disclosed Chinese patent literature about digital control drilling machine, as CN102009201A(multi-station speed-governing numerical control drilling machine), CN102019446A(NC polar drilling machine), CN102773512A(numerical control part rig), CN10417713A(digital control hole drilling device) and CN104043853A(numeric control drilling machine tool), etc.Because these patent application schemes being not limited to exemplify are all for the workpiece being drilled with straight hole, in the processing of reality, thus there is not technology puzzled.But, due to the particularity of glass mold shape, especially because the aforementioned Cooling Holes of glass mold is inclined hole, thus cannot be completed by numerical control machine, so need not only to clamp glass mold but also by the special device of glass mold rotation, one group inclined hole (i.e. Cooling Holes) can be drilled with out with space state in order to numerical control machine on glass mold and around the circular arc direction of glass mold for numerical control machine is equipped with.The applicant has done more intensive literature search for this reason, but is showed no in patent up to now and non-patent literature and allly has referential technology to enlighten.

Summary of the invention

Task of the present utility model is to provide a kind of glass mold that not only reliably can clamp but also can be in the state of clamping to the glass mold awaiting being drilled with inclined hole to rotate and uses and meet numerical control machine and be drilled with the glass mold being matched in numerical control machine that inclined hole requires and clamp slewing equipment.

Task of the present utility model has been come like this, a kind of glass mold being matched in numerical control machine clamps slewing equipment, described numerical control machine comprises a body and digital control hole drilling assembly, digital control hole drilling assembly to be arranged on a body and to be positioned at the left end of a body, described glass mold clamps slewing equipment and comprises the axial slew gear of a scroll chuck and a scroll chuck horizontal rotation mechanism, scroll chuck horizontal rotation mechanism is arranged on the right-hand member of described bed body in the position on the right side corresponding to described digital control hole drilling assembly, scroll chuck axle goes out slew gear and is fixed in scroll chuck horizontal rotation mechanism, the axial slew gear of scroll chuck is driven to rotate by scroll chuck horizontal rotation mechanism.

In a specific embodiment of the present utility model, the axial slew gear of described scroll chuck comprises chuck seat, chuck, motor, main driving wheel, driven transmission wheel, driving-belt, friction stopping device, pinion and gear ring, chuck seat is fixed with the described scroll chuck horizontal rotation mechanism of the right-hand member being arranged on described bed body, be configured with in the middle position of this chuck seat one from the left side of chuck seat the through chuck supporting base mating cavity to right side, the position that chuck is corresponding to chuck supporting base mating cavity is bearing on chuck seat rotationally, and on this chuck, around the circumferencial direction of chuck, equidistant intervals state is provided with one group of claw, motor is fixed on motor cabinet, the position of motor cabinet above the right side corresponding to chuck seat is arranged on chuck seat, main driving wheel is fixed on the motor shaft of motor, driven transmission wheel is fixed in the position of the right accent corresponding to chuck supporting base mating cavity and chuck, and the friction stop dish that a diameter is greater than the diameter of driven transmission wheel is fixed with on the right side of this driven transmission wheel, one end of driving-belt is enclosed within main driving wheel, the other end is nested with in driven transmission wheel, friction stopping device is arranged on the right side of chuck seat in the position corresponding to friction stop dish and matches with friction stop dish, to be bearing in pinion rotation on chuck and to be meshed with gear ring, and gear ring is arranged in the gear ring groove that is formed on chuck, the position of described claw is being corresponded to and is being configured with the screw locking ring of the left-hand face being raised in gear ring in the left side of gear ring, this screw locking ring matches with the claw helical tooth of claw.

In another specific embodiment of the present utility model, described main driving wheel and driven transmission wheel are synchronous pulley, and described driving-belt is Timing Belt, and described motor is servomotor.

In another specific embodiment of the present utility model, described motor cabinet is extended with a motor cabinet fixing feet, the position of this motor fixing feet above the right side corresponding to described chuck seat is fixed on chuck seat, and motor cabinet is configured with a motor base cavity, a motor cabinet accent shrouding is fixed with in the position of the motor cabinet accent corresponding to this motor base cavity, the middle position of this motor cabinet accent shrouding is provided with a motor shaft block bearing, described motor the tip of the axis is bearing on motor shaft block bearing rotationally, the position of described main driving wheel on motor shaft is positioned at motor base cavity.

In another specific embodiment of the present utility model, a bearing bore is configured with in the left side of described chuck seat, a bearing is provided with in this bearing bore, described chuck is fixed with one for described gear ring being limited to the gear ring back-up ring in gear ring groove in the position of notch corresponding to described gear ring groove, a bearing position-arresting disk is fixed with in the position in the left side corresponding to described bearing, and an end ring for limiting bearing is fixed with in the position on right side corresponding to bearing, in described chuck supporting base mating cavity and the position being positioned at right accent is embedded with a block bearing, a bearing trim ring is equipped in the position on the right side corresponding to this block bearing, this bearing trim ring and chuck seat are fixed, a bearing supporting cavity is configured with on chuck and corresponding to the position of described bearing, and be configured with a bearing block chamber in the position corresponding to described block bearing, bearing supporting cavity matches with bearing, and match with block bearing in bearing block chamber.

Also have in a specific embodiment of the present utility model, a pinion chamber is offered on described chuck and corresponding to the position of described pinion, and offer a pin hole in the position of the roof corresponding to this pinion chamber, this pin hole communicates with pinion chamber, and on this pin hole, be provided with a bayonet lock, pinion is formed in the middle part of pinion shaft, the right-hand member of pinion shaft is bearing on the right chamber wall in pinion chamber rotationally, the left end of pinion shaft is configured with the gear shaft driver plate that a diameter is greater than the diameter of pinion shaft, this gear shaft driver plate is bearing on the left accent in pinion chamber rotationally, and on gear shaft driver plate, be configured with a bayonet lock groove around the circumferencial direction of gear shaft driver plate, described bayonet lock probes in this bayonet lock groove.

More of the present utility model and in a specific embodiment, described friction stopping device comprises an air valve holder and an air valve, air valve holder is fixed on the right side of described chuck seat corresponding to the position above described friction stop dish, air valve is fixed on air valve holder, this air valve has a pair intermediate plate, this is configured to friction stop dish groove to the space between intermediate plate, and the edge of friction stop dish probes in this friction stop dish groove.

In an of the present utility model and then specific embodiment, a horizontal rotation mechanism support is fixed with at the right-hand member of described bed body, this horizontal rotation mechanism support is configured with a worm gear case container cavity, described scroll chuck horizontal rotation mechanism comprises endless screw electric motor, worm gear case, worm screw, worm gear, bearing block fixed head, center axle bed, central shaft and chuck seat fixed underpan, the position that worm gear case is corresponding to described worm gear case container cavity is fixed on described bed body, endless screw electric motor is fixed by endless screw electric motor seat and worm gear case, worm and worm wheel are positioned at the worm gear case chamber of worm gear case, on the corresponding cavity wall that the two ends of worm screw are bearing in worm gear case chamber rotationally and worm screw be connected towards one end of endless screw electric motor and the endless screw electric motor through-drive of endless screw electric motor, worm gear is meshed with worm screw, and the bottom of this worm gear and central shaft is fixed, bearing block fixed head is fixed on the top of described horizontal rotation mechanism support, center axle bed is fixed with bearing block fixed head and worm gear case simultaneously, be bearing on the axle bed of center central axis, chuck seat chassis is fixed in the position corresponded to above central shaft and central shaft, described chuck seat and chuck seat fixed underpan are fixed.

Of the present utility model again more and in a specific embodiment, described center axle bed has an axle bed chamber, center, in this axle bed chamber, center and the top being positioned at axle bed chamber, center is provided with block bearing on central shaft, and bottom is provided with central shaft lower support bearing, and on center shaft, be provided with a bearing inner spacing collar and a bearing outer separator between lower support bearing, described central shaft is rotatably assorted with block bearing on central shaft and central shaft lower support bearing simultaneously.

In an again of the present utility model and then specific embodiment, described endless screw electric motor is servomotor.

The glass mold that the technical scheme that the utility model provides is realized awaiting being drilled with for digital control hole drilling assembly inclined hole by the axial slew gear of scroll chuck clamps and drives the axial slew gear of scroll chuck to rotate by scroll chuck horizontal rotation mechanism, thus can meet the technological requirement that numerical control machine is drilled with inclined hole.

Accompanying drawing explanation

Fig. 1 is embodiment schematic diagram of the present utility model.

Fig. 2 is the detailed structure view of the axial slew gear of the scroll chuck shown in Fig. 1.

Fig. 3 is the sectional view of Fig. 1.

Fig. 4 is the detailed structure view of the scroll chuck horizontal rotation mechanism shown in Fig. 1.

Detailed description of the invention

In order to enable the auditor of Patent Office especially the public clearly understand technical spirit of the present utility model and beneficial effect, applicant will elaborate below by way of example, but not all the restriction to the utility model scheme to the description of embodiment, any according to being only pro forma but not substantial equivalent transformation and all should being considered as the technical solution of the utility model category done by the utility model design.

Everyly in the following description relate to upper and lower, left and right, the concept of directionality (or claim directionality) of front and rear is all for the location status residing for the figure be described, object is to facilitate public understanding, thus can not be understood as being particularly limited to the technical scheme that the utility model provides.

Refer to Fig. 1, give a body 1 and a digital control hole drilling assembly 2 of the structural system belonging to numerical control machine in FIG, digital control hole drilling assembly 2 is arranged on the left end of a body 1, also show the drill bit 21 of digital control hole drilling assembly and tool magazine 22(and drill bit storehouse in FIG) etc.Because numerical control machine belongs to prior art, and entrust professional manufacturer to make by market acquisition or according to instructions for use, thus the applicant no longer launches explanation to it.

Figure 1 illustrates the axial slew gear 3 of a scroll chuck and a scroll chuck horizontal rotation mechanism 4 of the structural system belonging to the utility model glass plywood slewing equipment, scroll chuck horizontal rotation mechanism 4 is arranged on the right-hand member of aforementioned bed body 1 in the position on the right side corresponding to aforementioned digital control hole drilling assembly 2, scroll chuck axle goes out slew gear 3 and is fixed in scroll chuck horizontal rotation mechanism 4, drives the axial slew gear 3 of scroll chuck to rotate by scroll chuck horizontal rotation mechanism 4.

Refer to Fig. 2, the axial slew gear 3 of aforesaid scroll chuck comprises chuck seat 31, chuck 32, motor 33, main driving wheel 34, driven transmission wheel 35, driving-belt 36, friction stopping device 37, pinion 38 and gear ring 39, chuck seat 31 is fixed by the scroll chuck horizontal rotation mechanism 4 of chuck seat hold-down screw 314 with the right-hand member being arranged on aforementioned bed body 1, be configured with in the middle position of this chuck seat 31 one from the left side of chuck seat 31 the through chuck supporting base mating cavity 311 to right side, the position that chuck 32 is corresponding to chuck supporting base mating cavity 311 is bearing on chuck seat 31 rotationally, and on this chuck 32, around the circumferencial direction of chuck 32, equidistant intervals state is provided with one group of claw 321, the quantity of this group claw 321 has three, spaced 120 ° of circumferencial direction around chuck 32, figure 2 illustrates and be opened on chuck 32 and correspond to the claw chamber 3211 of position of claw 321, claw 321 can be movable in claw chamber 3211.Motor 33 is fixed on motor cabinet 332, the position of motor cabinet 332 above the right side corresponding to chuck seat 31 is arranged on chuck seat 31, main driving wheel 34 is fixed on the motor shaft 331 of motor 33, driven transmission wheel 35 is fixed in the position of the right accent corresponding to chuck supporting base mating cavity 311 and chuck 32, specifically: in driven transmission wheel 35, offer one group driven transmission wheel fixing threaded hole 352 around the circumferencial direction of driven transmission wheel 35 with space state in the position of right-hand member end face corresponding to chuck 32, and on the right-hand member end face of chuck 32, offer chuck end face screw 322b, the position that one group of driven transmission wheel hold-down screw 3521 is corresponding to driven transmission wheel fixing threaded hole 352 is adopted driven transmission wheel 35 to be fixed with chuck end face screw 322b, the space of the middle position of driven transmission wheel 35 is configured to glass mold resigning hole 353.The friction stop dish 351 that a diameter is greater than the diameter of driven transmission wheel 35 is fixed with on the right side of driven transmission wheel 35, specifically: the circumferencial direction on friction stop dish 351 and around friction stop dish 351 offers one group of stop valve snail hole 3511 with space state, and one group of stop dish fixing screw hole 354 is offered in driven transmission wheel 35 and in the position corresponding to one group of stop valve snail hole 3511, by the position that stop dish hold-down screw 35111 is corresponding to one group of stop valve snail hole 3511, friction stop dish 35 and stop dish fixing screw hole 354 are fixed.One end of driving-belt 36 is enclosed within main driving wheel 34, the other end is nested with in driven transmission wheel 35, friction stopping device 37 is arranged on the right side of chuck seat 31 in the position corresponding to friction stop dish 351 and matches with friction stop dish 351, pinion 38 to be bearing in rotationally on chuck 32 and to be meshed with gear ring 39, and gear ring 39 is arranged in the gear ring groove 322a that is formed on chuck 32, the position of aforementioned claw 321 is being corresponded to and is being configured with the screw locking ring 391 of the left-hand face being raised in gear ring 39 in the left side of gear ring 39, this screw locking ring 391 matches with the claw helical tooth 3212 of claw 321, by gear ring 39 clockwise or be rotated counterclockwise, acted on by screw locking ring 391 pairs of claw helical tooths 3212 and make the chuck chamber 322c(of aforesaid one group of claw 321 pairs of chucks 32 be glass mold container cavity) in glass mold clamp or discharge.

In the present embodiment, aforesaid main driving wheel 34 and driven transmission wheel 35 are synchronous pulley, and aforementioned drive band 36 is Timing Belt, and aforesaid motor 33 is servomotor.

Refer to Fig. 3 and composition graphs 2, aforesaid motor cabinet 332 is extended with a motor cabinet fixing feet 3321, the position of this motor fixing feet 3321 above the right side corresponding to aforementioned chuck seat 31 adopts fixing feet screw 33211 to be fixed on chuck seat 31.As shown in Figure 2, be configured with a pin and insert chamber 315 on chuck seat 31 and corresponding to the position of motor cabinet fixing feet 3321, motor cabinet fixing feet 3321 is inserted in this fixing feet and inserts in chamber 315, and is fixed with the chamber wall that fixing feet inserts chamber 315 by aforesaid fixing feet screw 33211.Motor cabinet 332 is also configured with a motor base cavity 3322, shrouding hold-down screw 33232 is adopted to be fixed with a motor cabinet accent shrouding 3323 in the position of the motor cabinet accent corresponding to this motor base cavity 3322, the middle position of this motor cabinet accent shrouding 3323 is provided with a motor shaft block bearing 33231, the end of aforementioned motor axle 331 is bearing on motor shaft block bearing 33231 rotationally, and the aforesaid position of main driving wheel 34 on motor shaft 331 is positioned at motor base cavity 3322.Also show the motor cabinet bearing 3324(Fig. 3 be positioned on motor cabinet 332 in the drawings to show), the base portion of motor shaft 331 is bearing on this motor cabinet bearing 3324 rotationally.

Continue to see Fig. 2 and Fig. 3, a bearing bore 312 is configured with in the left side of aforementioned chuck seat 31, a bearing 3121 is provided with in this bearing bore 312, aforementioned chuck 32 is fixed with one for aforementioned gear ring 39 being limited to the gear ring back-up ring 323 in gear ring groove 322a in the position of notch corresponding to aforementioned gear ring groove 322a by gear ring back-up ring screw 3231, a bearing position-arresting disk 329 is fixed with by bearing position-arresting disk screw 3291 in the position in the left side corresponding to aforementioned bearings 3121, and be fixed with an end ring 324 for limiting bearing 3121 in the position on the right side corresponding to bearing 3121 by end ring screw 3241, in aforementioned chuck supporting base mating cavity 311 and the position being positioned at right accent is embedded with a block bearing 3111, be equipped in the position on the right side corresponding to this block bearing 3111 and be namely fixed with a bearing trim ring 313 by bearing trim ring screw 3131, that is bearing trim ring 313 is fixed with chuck seat 31.A bearing supporting cavity 325 is configured with on chuck 32 and corresponding to the position of aforementioned bearings 3121, and be configured with a bearing block chamber 326 in the position of holding 3111 corresponding to aforementioned bearing shaft, bearing supporting cavity 325 matches with bearing 3121, and matches with block bearing 3111 in bearing block chamber 326.

Please see Fig. 2 by emphasis, a pinion chamber 327 is offered on aforesaid chuck 32 and corresponding to the position of aforementioned pinion 38, and offer a pin hole 328 in the position of the roof corresponding to this pinion chamber 327, this pin hole 328 communicates with pinion chamber 327, and on this pin hole 328, be provided with a bayonet lock 3281, pinion 38 is formed in the middle part of pinion shaft 381, the right-hand member of pinion shaft 381 is bearing on the right chamber wall in pinion chamber 327 rotationally, the left end of pinion shaft 381 is configured with the gear shaft driver plate 3811 that a diameter is greater than the diameter of pinion shaft 381, this gear shaft driver plate 3811 is bearing on the left accent in pinion chamber 327 rotationally, and on gear shaft driver plate 3811, be configured with a bayonet lock groove 38111 around the circumferencial direction of gear shaft driver plate 3811, described bayonet lock 3281 probes in this bayonet lock groove 38111.

Aforesaid friction stopping device 37 comprises air valve holder 371 and an air valve 372, air valve holder 371 is fixed on the right side of aforementioned chuck seat 31 corresponding to employing air valve chamber, the position above aforementioned friction stop dish 351 seat hold-down screw 3711, air valve 372 is fixed on air valve holder 371, this air valve 372 has a pair intermediate plate 3721, this is configured to friction stop dish groove 3722 to the space between intermediate plate 3721, and the edge of friction stop dish 351 probes in this friction stop dish groove 3722.Can not stop immediately because driven transmission wheel 35 exists inertia, thus drive a pair intermediate plate 3721 by the work of air valve 372, by a pair intermediate plate 3721, friction stop dish 351 is clamped, namely frictional force is applied to friction stop dish 351, driven transmission wheel 35 is stopped.

Refer to Fig. 4, a horizontal rotation mechanism support 11 is fixed with at the right-hand member of aforementioned bed body 1, this horizontal rotation mechanism support 11 is configured with a worm gear case container cavity 111(Fig. 1 and shows), aforesaid scroll chuck horizontal rotation mechanism 4 comprises endless screw electric motor 41, worm gear case 42, worm screw 43, worm gear 44, bearing block fixed head 45, center axle bed 46, central shaft 47 and chuck seat fixed underpan 48, the position that worm gear case 42 is corresponding to worm gear case container cavity 111 is fixed on described bed body 1, endless screw electric motor 41 is fixed by endless screw electric motor seat 412 and worm gear case 42, worm screw 43 and worm gear 44 are positioned at the worm gear case chamber 421 of worm gear case 42, on the two ends of worm screw 43 are respectively bearing in worm gear case chamber 421 rotationally corresponding cavity wall by worm shaft bearing 431 and worm screw 43 show towards one end of endless screw electric motor 41 and endless screw electric motor axle 411(Fig. 1 of endless screw electric motor 41) be in transmission connection, worm gear 44 is meshed with worm screw 43, and this worm gear 44 is fixed by the central shaft screw 471 of worm gear hold-down screw 441 with the bottom of central shaft 47, bearing block fixed head 45 is shown by fixed head screw 451(Fig. 1) be fixed on the top of aforementioned levels slew gear bearing support 11, center axle bed 46 is fixed with bearing block fixed head 45 and worm gear case 42 simultaneously, specifically: the bottom of center axle bed 46 is fixed by bottom hold-down screw 462 and worm gear case 42, and top is being fixed corresponding to the position of the bearing block fixed head screw 452 be preset on bearing plate 45 and bearing block fixed head 45 by top hold-down screw 463.Central shaft 47 is bearing on center axle bed 46 rotationally, chuck seat chassis 48 is fixed with central shaft 47 in the position corresponding to the central shaft screw hole 472 be preset on central shaft 47 corresponding to employing chassis, the position hold-down screw 481 above central shaft 47, and aforementioned chuck seat 31 is fixing with the position and chuck seat fixed underpan 48 being preset in the screw 482 on chuck seat fixed underpan 48 by chuck seat hold-down screw 314.

As shown in Figure 4, aforesaid central axle bed 46 has an axle bed chamber, center 461, in this axle bed chamber, center 461 and the top being positioned at axle bed chamber, center 461 is provided with block bearing 4611 on central shaft, and bottom is provided with central shaft lower support bearing 4612, and on center shaft, be provided with bearing inner spacing collar 4613 and a bearing outer separator 4614 between lower support bearing 4611,4612, aforesaid central shaft 47 is rotatably assorted with block bearing on central shaft 4611 and central shaft lower support bearing 4612 simultaneously.

Preferably, between the below of flange on top corresponding to central shaft 47 and aforesaid central axle upper bearing (metal) 4611, arranges a upper bearing (metal) back-up ring 473 for limiting central shaft upper bearing (metal) 4611, this upper bearing (metal) back-up ring 473 with back-up ring screw 4731 and the back-up ring screw hole 4612 on being formed in axle bed chamber, center 461 step fixing.Preferably, the upper surface of the spindle seat 46 and circumferencial direction around axle bed chamber, center 461 arranges a sealed step 464 in the preamble, sealed step 464 arranges a sealing ring 4641.

In the present embodiment, aforesaid endless screw electric motor is servomotor.

Applicant's composition graphs 1 to Fig. 4 describes use of the present utility model, first by online assignment personnel, the left side of the glass mold awaiting being drilled with inclined hole for the drill bit 21 of digital control hole drilling assembly 2 location status is as shown in Figure 1 placed in the 322c of chuck chamber, made the motor 33 of the axial slew gear 3 of scroll chuck work again by the operation (pressing corresponding electric button) to electric control box, drive main driving wheel 34 by the motor shaft 331 of motor 33, drive driven transmission wheel 35 through driving-belt 36.Because driven transmission wheel 35 is fixedly connected with chuck 32, thus drive chuck 32 by driven transmission wheel 35.Again because gear ring 39 is arranged in the gear ring groove 322a of chuck 32, also because pinion 85 is meshed with gear ring 39, and then can move with chuck 32, thus when driven transmission wheel 35 drives chuck 32 to move due to pinion 38, pinion 38 also corresponding sports, drives gear ring 39 by pinion 38.Because the screw locking ring 391 on gear ring 39 contacts with one group of claw 321, thus by screw locking ring 391, one group of claw 321 is acted on when gear ring 39 rotates, make one group of claw 321 towards the direction displacement of glass mold, until reliably clamped by glass mold.The motional inertia of driven transmission wheel 35 is eliminated by aforementioned friction stopping device 37.After glass mold has clamped, drill bit 21 works, scroll chuck horizontal rotation mechanism 4 is according to the technological requirement work of setting simultaneously, specifically passed through to operate the corresponding button on electric control box by online assignment personnel, endless screw electric motor 41 is worked, drives worm screw 43 by endless screw electric motor axle 411, worm gear 44 is driven by worm screw 43, be with central shaft 47 by worm gear 44, drive chuck fixed underpan 48 by central shaft 47, drive the axial slew gear 3 of whole scroll chuck by chuck fixed underpan 48.An inclined hole is drilled with to glass mold and after drill bit 21 recesses inclined hole, endless screw electric motor 41 just rotates an angle, to make drill bit 21 be drilled with next inclined hole, until bored the inclined hole according to needing quantity on glass mold whenever drill bit 21 completes.Then aforementioned motor 33 reverse operation, makes one group of claw 321 remove and clamps state to glass mold, change by online assignment personnel the glass mold that the next one awaits being drilled with inclined hole.

In sum, the technical scheme that the utility model provides overcomes the shortcoming in prior art, successfully completes invention task, has cashed the technique effect referred in the superincumbent technique effect hurdle of applicant faithfully.

Claims (10)

1. a kind of glass mold being matched in numerical control machine clamps slewing equipment, described numerical control machine comprises a body (1) and digital control hole drilling assembly (2), digital control hole drilling assembly (2) is arranged on a body (1) and goes up and the left end being positioned at a body (1), it is characterized in that described glass mold clamps slewing equipment and comprises the axial slew gear (3) of a scroll chuck and a scroll chuck horizontal rotation mechanism (4), scroll chuck horizontal rotation mechanism (4) is arranged on the right-hand member of described bed body (1) in the position on the right side corresponding to described digital control hole drilling assembly (2), scroll chuck axle goes out slew gear (3) and is fixed in scroll chuck horizontal rotation mechanism (4), the axial slew gear (3) of scroll chuck is driven to rotate by scroll chuck horizontal rotation mechanism (4).

2. the glass mold being matched in numerical control machine according to claim 1 clamps slewing equipment, it is characterized in that the axial slew gear (3) of described scroll chuck comprises chuck seat (31), chuck (32), motor (33), main driving wheel (34), driven transmission wheel (35), driving-belt (36), friction stopping device (37), pinion (38) and gear ring (39), chuck seat (31) is fixed with the described scroll chuck horizontal rotation mechanism (4) of the right-hand member being arranged on described bed body (1), be configured with in the middle position of this chuck seat (31) one from the left side of chuck seat (31) the through chuck supporting base mating cavity (311) to right side, the position that chuck (32) is corresponding to chuck supporting base mating cavity (311) is bearing on chuck seat (31) rotationally, and on this chuck (32), around the circumferencial direction of chuck (32), equidistant intervals state is provided with one group of claw (321), motor (33) is fixed on motor cabinet (332), the position of motor cabinet (332) above the right side corresponding to chuck seat (31) is arranged on chuck seat (31), main driving wheel (34) is fixed on the motor shaft (331) of motor (33), driven transmission wheel (35) is fixed in the position of the right accent corresponding to chuck supporting base mating cavity (311) and chuck (32), and the friction stop dish (351) that a diameter is greater than the diameter of driven transmission wheel (35) is fixed with on the right side of this driven transmission wheel (35), one end of driving-belt (36) is enclosed within main driving wheel (34), the other end is nested with in driven transmission wheel (35), friction stopping device (37) is arranged on the right side of chuck seat (31) in the position corresponding to friction stop dish (351) and matches with friction stop dish (351), pinion (38) is bearing in chuck (32) rotationally and goes up and be meshed with gear ring (39), and gear ring (39) is arranged in the gear ring groove (322a) that is formed on chuck (32), the position of described claw (321) is being corresponded to and is being configured with the screw locking ring (391) of the left-hand face being raised in gear ring (39) in the left side of gear ring (39), this screw locking ring (391) matches with the claw helical tooth (3212) of claw (321).

3. the glass mold being matched in numerical control machine according to claim 2 clamps slewing equipment, it is characterized in that described main driving wheel (34) and driven transmission wheel (35) are synchronous pulley, described driving-belt (36) is Timing Belt, and described motor (33) is servomotor.

4. the glass mold being matched in numerical control machine according to claim 2 clamps slewing equipment, it is characterized in that being extended with a motor cabinet fixing feet (3321) on described motor cabinet (332), the position of this motor fixing feet (3321) above the right side corresponding to described chuck seat (31) is fixed on chuck seat (31), and motor cabinet (332) is configured with a motor base cavity (3322), a motor cabinet accent shrouding (3323) is fixed with in the position of the motor cabinet accent corresponding to this motor base cavity (3322), a motor shaft block bearing (33231) is provided with in the middle position of this motor cabinet accent shrouding (3323), the end of described motor shaft (331) is bearing on motor shaft block bearing (33231) rotationally, the position of described main driving wheel (34) on motor shaft (331) is positioned at motor base cavity (3322).

5. the glass mold being matched in numerical control machine according to claim 2 clamps slewing equipment, it is characterized in that being configured with a bearing bore (312) in the left side of described chuck seat (31), a bearing (3121) is provided with in this bearing bore (312), go up at described chuck (32) and be fixed with one for described gear ring (39) being limited to the gear ring back-up ring (323) in gear ring groove (322a) in the position of the notch corresponding to described gear ring groove (322a), a bearing position-arresting disk (329) is fixed with in the position in the left side corresponding to described bearing (3121), and an end ring (324) for limiting bearing (3121) is fixed with in the position on right side corresponding to bearing (3121), in described chuck supporting base mating cavity (311) and the position being positioned at right accent is embedded with a block bearing (3111), a bearing trim ring (313) is equipped in the position on the right side corresponding to this block bearing (3111), this bearing trim ring (313) is fixed with chuck seat (31), go up at chuck (32) and be configured with a bearing supporting cavity (325) in the position corresponding to described bearing (3121), and be configured with a bearing block chamber (326) in the position corresponding to described block bearing (3111), bearing supporting cavity (325) matches with bearing (3121), and bearing block chamber (326) match with block bearing (3111).

6. the glass mold being matched in numerical control machine according to claim 2 clamps slewing equipment, it is characterized in that going up at described chuck (32) and offering a pinion chamber (327) in the position corresponding to described pinion (38), and offer a pin hole (328) in the position of the roof corresponding to this pinion chamber (327), this pin hole (328) communicates with pinion chamber (327), and on this pin hole (328), be provided with a bayonet lock (3281), pinion (38) is formed in the middle part of pinion shaft (381), the right-hand member of pinion shaft (381) is bearing on the right chamber wall of pinion chamber (327) rotationally, the left end of pinion shaft (381) is configured with the gear shaft driver plate (3811) that a diameter is greater than the diameter of pinion shaft (381), this gear shaft driver plate (3811) is bearing on the left accent in pinion chamber (327) rotationally, and on gear shaft driver plate (3811), be configured with a bayonet lock groove (38111) around the circumferencial direction of gear shaft driver plate (3811), described bayonet lock (3281) probes in this bayonet lock groove (38111).

7. the glass mold being matched in numerical control machine according to claim 2 clamps slewing equipment, it is characterized in that described friction stopping device (37) comprises an air valve holder (371) and an air valve (372), air valve holder (371) is fixed on the right side of described chuck seat (31) in the position of the top corresponding to described friction stop dish (351), air valve (372) is fixed on air valve holder (371), this air valve (372) has a pair intermediate plate (3721), this is configured to friction stop dish groove (3722) to the space between intermediate plate (3721), the edge of friction stop dish (351) probes in this friction stop dish groove (3722).

8. the glass mold being matched in numerical control machine according to claim 2 clamps slewing equipment, it is characterized in that being fixed with a horizontal rotation mechanism support (11) at the right-hand member of described bed body (1), this horizontal rotation mechanism support (11) is configured with a worm gear case container cavity (111), described scroll chuck horizontal rotation mechanism (4) comprises endless screw electric motor (41), worm gear case (42), worm screw (43), worm gear (44), bearing block fixed head (45), center axle bed (46), central shaft (47) and chuck seat fixed underpan (48), the position that worm gear case (42) is corresponding to described worm gear case container cavity (111) is fixed on described bed body (1), endless screw electric motor (41) is fixed by endless screw electric motor seat (412) and worm gear case (42), worm screw (43) and worm gear (44) are positioned at the worm gear case chamber (421) of worm gear case (42), on the corresponding cavity wall that the two ends of worm screw (43) are bearing in worm gear case chamber (421) rotationally and worm screw (43) be in transmission connection towards one end of endless screw electric motor (41) and the endless screw electric motor axle (411) of endless screw electric motor (41), worm gear (44) is meshed with worm screw (43), and this worm gear (44) is fixed with the bottom of central shaft (47), bearing block fixed head (45) is fixed on the top of described horizontal rotation mechanism support (11), center axle bed (46) is fixed with bearing block fixed head (45) and worm gear case (42) simultaneously, central shaft (47) is bearing on center axle bed (46) rotationally, chuck seat chassis (48) is fixing at position and the central shaft (47) of the top corresponding to central shaft (47), described chuck seat (31) is fixed with chuck seat fixed underpan (48).

9. the glass mold being matched in numerical control machine according to claim 8 clamps slewing equipment, it is characterized in that described center axle bed (46) has an axle bed chamber, center (461), in this axle bed chamber, center (461) and the top being positioned at axle bed chamber, center (461) is provided with block bearing on central shaft (4611), and bottom is provided with central shaft lower support bearing (4612), and on center shaft, lower support bearing (4611, 4612) a bearing inner spacing collar (4613) and a bearing outer separator (4614) is provided with between, described central shaft (47) is rotatably assorted with block bearing on central shaft (4611) and central shaft lower support bearing (4612) simultaneously.

10. the glass mold being matched in numerical control machine according to claim 8 clamps slewing equipment, it is characterized in that described endless screw electric motor (41) is servomotor.