CN116080047A - Water bores, flat brill plastic uptake machine - Google Patents

Abstract

The invention provides a water drill and flat bottom drill plastic sucking machine, which relates to the field of plastic sucking processing of decorative drills and comprises a frame, a lower rotating disc, an upper rotating disc, a decorative drill template for paving the drill, a plurality of groups of sieve drill bit mechanisms and a plurality of drill sucking bit mechanisms, wherein the lower rotating disc and the upper rotating disc are coaxially and rotatably connected to the frame, a motor for driving the lower rotating disc and the lower rotating disc is arranged on the frame, the sieve drill bit mechanisms and the drill sucking bit mechanisms are respectively arranged on the lower rotating disc and the upper rotating disc in a circular way and correspond to each other one by one, and the sieve drill bit mechanisms are used for paving the decorative drill on the decorative drill template. According to the water drill and flat bottom drill plastic sucking machine, after the decorative drill on the decorative drill template on the screen drill work position mechanism below is fully paved, the decorative drill template filled with the decorative drill is transferred to the upper drill sucking work position mechanism through the upper-lower conversion mechanism, and meanwhile, the empty decorative drill template is transferred to the screen drill work position mechanism below.

Description

Water bores, flat brill plastic uptake machine

Technical Field

The invention relates to the technical field of plastic sucking processing of a decorative drill, in particular to a plastic sucking machine of a water drill and a flat bottom drill.

Background

In order to improve the processing efficiency of end surface grinding and polishing processing and spraying processing of the rhinestone and the flat bottom rhinestone, a processing method for manufacturing a plastic film is generally adopted before processing, and the invention patent with the publication number of CN100484711 discloses a rhinestone end surface grinding and polishing processing method.

Currently, there are also some automatic integrated rhinestone ironing and drilling plastic sucking devices on the market, such as a decoration drilling plastic sucking integrated device with a chinese patent publication No. CN114347437a, which comprises a plurality of plywood stations, an upper manipulator, a lower manipulator, a board separating station, a rotary manipulator, a set of automatic upper and lower film stations, etc.

The plastic sucking equipment can finish plastic sucking operation, but a plurality of stations are transversely arranged, the occupied space is very large, a small number of production lines can be installed in the same workshop, and the utilization efficiency is low.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a plastic sucking machine for a water drill and a flat bottom drill, which solves the problems in the prior art.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a water bores, flat brill plastic uptake machine, includes frame, lower part carousel, upper portion carousel, is used for the decorations bushing plate of shop brill and a plurality of groups sieve drilling tool position mechanism and suction drilling tool position mechanism, lower part carousel, upper portion carousel coaxial rotation connect in the frame, be provided with the motor that is used for driving lower part carousel in the frame, a plurality of groups sieve drilling tool position mechanism, suction drilling tool position mechanism are the hoop setting respectively on lower part carousel, upper portion carousel and the correspondence from top to bottom, sieve drilling tool position mechanism is used for spreading the decorations brill on the decorations bushing plate, suction drilling tool position mechanism is used for processing decorations brill and film composite vacuum plastic uptake technology on the decorations bushing plate, set gradually along a plurality of stations in the frame and throw drilling tool mechanism, upper and lower transition mechanism, film throwing mechanism, toast plastic uptake mechanism and shedding mechanism, throw drilling tool mechanism is used for throwing the decorations brill to sieve drilling tool position mechanism, upper and lower transition mechanism is used for taking down two decorations bushing plate on sieve drilling tool position mechanism and the suction drilling tool position mechanism and the film and is placed after 180 and is used for taking the films and toasts the decorations and is used for doing the film and toasts on the drilling tool position mechanism and the top and is used for taking the films and toasting the decorations and the films.

Preferably, the screen drilling station mechanism comprises a base, a jacking component, a supporting groove, a receiving groove and a swinging component, wherein the base is fixed on a lower rotary table, a bottom cavity with an open front face is arranged at the middle bottom of the supporting groove, the bottom of the bottom cavity is rotationally connected to the base, the jacking component is arranged on the base and can drive the bottom cavity to rotate towards the receiving groove, and the swinging component is arranged on the bottom cavity and can drive the supporting groove to swing back and forth.

Preferably, the drill sucking station mechanism comprises a fixed body, an outer frame, at least two support columns, a first worm gear component, a second worm gear component and a bottom plate, wherein the fixed body is fixed on the upper rotary table, the outer frame is sleeved outside the fixed body in a clearance mode, the bottom plate is fixed at the bottom of the upper rotary table, the two support columns are vertically matched with the fixed body in a sliding mode, the first worm gear component is arranged on the bottom plate and used for driving the support columns to lift, and the second worm gear component is arranged on the bottom plate and used for driving the outer frame to lift.

Preferably, the up-down conversion mechanism comprises a moving frame, a roll-over stand, a motor III and a transverse moving assembly, wherein the transverse moving assembly is arranged on the frame and can drive the moving frame to move towards the screen drilling station mechanism and the drill sucking station mechanism, the middle section of the roll-over stand is rotationally connected to the moving frame, the motor III is arranged on the moving frame and is in transmission connection with a rotating shaft of the output shaft and the roll-over stand, the upper end and the lower end of the roll-over stand are respectively provided with a grabbing assembly, and the grabbing assemblies are used for clamping the screen drilling station mechanism and the drill decorating plate on the drill sucking station mechanism.

Preferably, the grabbing component comprises an outer clamping arm, an inner clamping arm, an outer chuck, an inner clamping disc and a servo motor, wherein the outer chuck and the inner clamping disc are respectively arranged on the outer clamping arm and the inner clamping arm and correspond to each other up and down, a screw rod sliding rail component is arranged on the roll-over stand along the clamping direction of the inner clamping arm, the servo motor is arranged on the roll-over stand, the output end of the servo motor is connected with a screw rod of the screw rod sliding rail component, the outer clamping arm is connected with a sliding block of the screw rod sliding rail component, and a hole matched with a chuck clamping jaw is formed in the bottom of the decorative drilling template.

Preferably, the throwing drilling mechanism comprises a lifting module, a throwing hopper and a storage bin, the lifting module can drive the throwing hopper to lift, the bottom of the throwing hopper is rotationally connected to a lifting body of the lifting module, a driving motor coaxially connected with the throwing hopper is arranged on the lifting body, the throwing hopper can respectively correspond to a supporting groove and a bottom opening of a receiving groove, an outlet corresponding to the throwing hopper is arranged on one side of the storage bin, a baffle is movably arranged at the outlet of the storage bin, the baffle is controlled by a second cylinder, and the lifting module can be a rack and pinion module, a synchronous sliding rail module or a ball screw module.

Preferably, the film throwing mechanism comprises a film placing frame, a swing arm I, a sucker I and a swing motor I, one end of the swing arm I is rotationally connected to the frame, the other end of the swing arm I is connected with the sucker I, the swing motor I is arranged on the frame and is coaxially connected with the swing arm, and the sucker I is respectively corresponding to the upper parts of the film placing frame and the fixing body.

Preferably, the baking and plastic sucking mechanism comprises a lifting plate, a positioning frame, a lifting cylinder, a guide rod, a guide sleeve, an electric heating plate and a lower pressing cylinder, wherein the lifting cylinder is vertically fixed on a frame, the output end of the lifting cylinder is connected with the lifting plate, the guide rod is vertically fixed at the bottom of the lifting plate, the positioning frame is fixed at the bottom of the guide rod, the guide sleeve is sleeved on the guide rod and is fixed on the frame, the electric heating plate is in clearance fit with the inner side and the outer side of the positioning frame, the lower pressing cylinder is vertically fixed on the lifting plate, the output end of the lower pressing cylinder is connected with the electric heating plate, the positioning frame corresponds to the outer frame up and down, and the electric heating plate corresponds to the fixed body up and down.

Preferably, the unloading mechanism comprises a second swing arm, a second sucker and a second swing motor, one end of the second swing arm is rotationally connected to the frame, the other end of the second swing arm is connected with the second sucker, the second swing motor is arranged on the frame and is coaxially connected with the second swing arm, and the second sucker corresponds to the decorative drilling template at the top of the support column.

Preferably, a cooling fan is arranged above a corresponding station between the baking plastic sucking mechanism and the unloading mechanism, and the cooling fan corresponds to the decorative drill plate on the drill sucking station mechanism.

(III) beneficial effects

The invention provides a rhinestone and flat bottom diamond plastic sucking machine. The beneficial effects are as follows:

1. this water bores, flat brill plastic uptake machine, with a plurality of groups sieve drilling station mechanism and inhale the drilling station mechanism integration on upper and lower portion carousel and the upper portion carousel that corresponds, after being located the decoration drill on the decoration drill plate on the sieve drilling station mechanism of below and spread, will fill up the decoration drill plate that drills and shift to the upper portion inhale the drilling station mechanism through upper and lower conversion mechanism, shift the sieve drilling station mechanism of below with empty decoration drill plate simultaneously on, this plastic uptake machine has area to be little, simultaneously owing to get and put the decoration drill plate of full decoration drill and put the process of empty decoration drill plate and go on simultaneously, compare and get earlier the back put than current needs, the process is saved, work efficiency effectively promotes.

Drawings

FIG. 1 is a schematic diagram of an up-down conversion mechanism according to the present invention;

FIG. 2 is a state diagram of the grabbing assembly of the present invention grabbing a trim drill plate;

FIG. 3 is a state diagram of the grabbing assembly of the present invention after grabbing the ornamental drill plate;

FIG. 4 is a schematic view of the construction of the drilling mechanism of the present invention;

FIG. 5 is a schematic view of a baking and vacuum forming mechanism according to the present invention;

FIG. 6 is a cross-sectional view of a baking and blister mechanism of the present invention;

FIG. 7 is a schematic view of a discharge mechanism according to the present invention;

FIG. 8 is a schematic diagram of a screen drilling station mechanism of the present invention;

FIG. 9 is a schematic diagram of the bottom cavity and the receiving trough of the present invention;

FIG. 10 is a diagram showing a rotation state of the supporting groove according to the present invention;

FIG. 11 is a schematic diagram of a suction drilling station mechanism according to the present invention;

fig. 12 is a cross-sectional view of a suction drilling station mechanism of the present invention.

In the figure: 1 sieve drilling working position mechanism, 11 jacking component, 101 motor I, 102 connecting rod I, 103 connecting rod II, 12 base, 13 supporting groove, 14 bottom cavity, 15 receiving groove, 16 cylinder I, 17 swinging component, 171 motor II, 172 eccentric wheel, 173 guide rail, 174 guide block, 2 suction drilling working position mechanism, 21 fixing body, 22 outer frame, 23 supporting column, 24 worm and gear component I, 25 worm and gear component II, 26 base plate, 27 sealing ring, 3 up-down conversion mechanism, 31 moving frame, 32 turning frame, 33 motor III, 34 traversing component, 35 traversing slide rail, 36 sliding block, 37 motor IV, 38 gear, 39 rack, 4 grabbing component I41 outer arm lock, 42 inner arm lock, 43 outer chuck, 44 inner chuck, 45 servo motor, 5 throw the brill mechanism, 51 lifting module, 52 throw the hopper, 53 feed bin, 54 cylinder two, 6 film throw mechanism, 61 film rack, 62 swing arm one, 63 sucking disc one, 64 swing motor one, 7 toast plastic sucking mechanism, 71 lifter plate, 72 locating frame, 73 lifting cylinder, 74 guide bar, 75 uide bushing, 76 electrical heating board, 77 pushing down cylinder, 8 unloading mechanism, 81 swing arm two, 82 sucking disc two, 83 swing motor two, 9 decorations bushing plate, 10 frame, 20 lower carousel, 30 upper carousel, 40 cooling fan.

Detailed Description

The embodiment of the invention provides a water drill and flat bottom drill plastic sucking machine, which comprises a frame 10, a lower rotary table 20, an upper rotary table 30, a decoration drill template 9 for laying a drill, a plurality of groups of screen drill station mechanisms 1 and suction drill station mechanisms 2, as shown in figures 1-12. In this embodiment five groups of screen drilling and suction drilling stations 1 and 2 are used.

As shown in fig. 1, the lower turntable 20 and the upper turntable 30 are coaxially and rotatably connected to the frame 10, and a stepping motor for driving the lower turntable 20 is provided on the frame 10 and is used for driving the lower turntable 20 and the upper turntable 30 to rotate synchronously.

As shown in fig. 1, five groups of screen drilling station mechanisms 1 and suction drilling station mechanisms 2 are respectively arranged on the lower rotary table 20 and the upper rotary table 30 in a circumferential direction and distributed around the center at equal angles, and the five groups of screen drilling station mechanisms 1 and suction drilling station mechanisms 2 are in one-to-one correspondence.

The upper surface of the decoration drill plate 9 is provided with compact slot holes for the decoration drill to be embedded. The screen drill station mechanism 1 is used for fully laying the ornamental drill on the ornamental drill template 9. The suction drill station mechanism 2 is used for processing a decoration drill on the decoration drill template 9 and a film composite vacuum plastic suction process, so that the decoration drill is transferred to the film, and the subsequent polishing process is facilitated.

The frame 10 is provided with a drilling mechanism 5, an up-down conversion mechanism 3, a film throwing mechanism 6, a baking plastic sucking mechanism 7, a cooling fan 40 and a discharging mechanism 8 in sequence along five stations. In the first station, the feeding mechanism 5 is used for feeding the decoration drill to the sieving drill station mechanism 1, and the discharging mechanism 8 is used for taking off the finished product of the film and the decoration drill after plastic sucking from the drilling station mechanism. On the second station, the up-down conversion mechanism 3 is used for taking down and turning over two ornamental drill templates 9 on the screen drilling station mechanism 1 and the suction drilling station mechanism 2 for 180 degrees and then exchanging and placing. At the third station the film feeding mechanism 6 is used to place the film on top of the finishing jig plate 9 on the suction drilling station mechanism 2. And in the fourth station, the baking plastic sucking mechanism 7 is used for baking and shaping the film and the decoration drill on the decoration drill plate 9. On the fifth station, the cooling fan 40 cools the baked and shaped combination of the diamond and the film, and the station of the cooling fan 40 can be added with one to two stations behind the fifth station for thorough cooling.

As shown in fig. 2 and 8, the screen drilling station mechanism 1 comprises a base 12, a jacking component 11, a supporting groove 13, a receiving groove 15 and a swinging component 17, wherein the base 12 is fixed on a lower rotary table 20, a bottom cavity 14 with an open front surface is arranged at the middle bottom of the supporting groove 13, and the bottom cavity 14 is used for storing the decorative drills screened from the supporting groove 13. And the bottom cavity 14 is arranged to allow the outer chuck 43 to extend into the bottom of the trim drill plate 9 when the grabbing component 4 grabs the trim drill plate 9. The swinging component 17 is arranged on the bottom cavity 14 and can drive the supporting groove 13 to swing back and forth. Through setting up swing subassembly 17, drive the decoration bushing plate 9 swing when the sieve is bored, make all inslot of its top equipartitions full decoration bore. The bottom of the bottom cavity 14 is rotatably connected to the base 12, the jacking component 11 is arranged on the base 12 and can drive the bottom cavity 14 to rotate towards the receiving groove 15, and by arranging the jacking component 11, the bottom cavity 14 and the supporting groove 13 are jacked up by a certain angle after the screen drilling is completed, so that redundant decoration drills on the decoration drill template 9 fall into the bottom cavity 14 and finally fall into the receiving groove 15.

As shown in fig. 8, the swinging assembly 17 includes a second motor 17, an eccentric wheel 172, a guide rail 173, and a guide block 174 slidably fitted on the guide rail 173, the guide rail 173 is disposed on the top of the bottom cavity 14, and the supporting groove 13 is disposed on the guide block 174. The second motor 17 is fixed at the bottom of the bottom cavity 14, the second motor 17 is used for driving the eccentric wheel 172 to rotate, the eccentric wheel 172 is pivoted on the bottom cavity 14 and is coaxially connected with the second motor 17, a protruding head is eccentrically arranged on the eccentric wheel 172, a transverse groove for the protruding head to move is arranged at the bottom of the supporting groove 13, and the transverse groove is perpendicular to the guide rail 173. The longitudinal width of the transverse groove is slightly larger than the diameter of the raised head, and the transverse width is larger than the diameter of the eccentric wheel. The supporting groove 13 can be driven to slide back and forth along the length direction of the guide rail 173 by the cooperation of the protruding head and the transverse groove.

As shown in fig. 8 and 9, the jacking assembly 11 comprises a first motor 101, a first connecting rod 102 and a second connecting rod 103, wherein the first motor 101 is fixed on the base 12, the first connecting rod 102 is hinged with the second connecting rod 103 end to end, the other end of the first connecting rod 102 is hinged on an output shaft of the first motor 101, and the other end of the second connecting rod 103 is hinged with the inner end of the bottom cavity 14. When the motor I101 drives, the supporting groove 13 is driven to turn over by the connecting rod I102 and the connecting rod II 103.

As shown in fig. 10, an opening is formed at the bottom of the receiving slot 15, and a shutter that can be opened and closed is arranged on the opening, and the shutter drives the opening and closing of the opening through a first cylinder 16. The receiving groove 15 and the first cylinder 16 are fixed on the frame 10 or other carriers, and the first cylinder 16 can drive the baffle plate to transversely move so as to close or open the opening.

As shown in fig. 3 and 11, the drill sucking station mechanism 2 comprises a fixed body 21, an outer frame 22, at least two support columns 23, a first worm and gear assembly 24, a second worm and gear assembly 25 and a bottom plate 26. The fixing body 21 is fixed on the upper turntable 30, the fixing body 21 is used for plastic suction, and a plurality of through holes which are vertically communicated are formed in the fixing body 21. The bottom of the fixed body 21 is provided with an air pump, and an air suction pipe of the air pump is covered outside the through hole. The outer frame 22 is sleeved outside the fixed body 21 in a clearance way, a plurality of sealing rings 27 are vertically and equidistantly arranged on the outer ring of the fixed body 21, and the sealing rings 27 are in contact with the outer frame 22. By providing the seal ring 27, air leakage between the outer frame 22 and the fixed body 21 during suction molding can be prevented. The bottom plate 26 is fixed in the bottom of upper portion carousel 30, and two support columns 23 vertical slip adaptation are on the fixed body 21, and worm gear assembly one 24 sets up on the bottom plate 26 and is used for driving support column 23 lift, when upper and lower conversion mechanism 3 switches the decorations bushing plate 9 at support column 23 top, drives support column 23 jack-up through worm gear assembly one 24, makes to form the space that can supply outer arm lock 41 to get into between two support columns 23, is convenient for press from both sides and gets decorations bushing plate 9. The second worm gear assembly 25 is disposed on the bottom plate 26 and is used for driving the outer frame 22 to lift. Because the film throwing mechanism 6 directly throws the film onto the decoration drill plate 9, two problems can occur, firstly, if the film is directly placed on the decoration drill plate 9, the decoration drill is easy to crush or displace, and if the film is thrown downwards in a non-contact manner, the position of the film is easy to deviate. So that the outer frame 22 is driven to lift by the worm and gear assembly II 25. Before plastic suction, the second worm and gear assembly 25 is used for driving the outer frame 22 to lift to the upper side of the decorative drilling template 9, and after the film is placed on the outer frame 22 in a contact mode, the second worm and gear assembly 25 drives the outer frame 22 to descend to be flush with the fixing body 21, so that the film is in contact with the decorative drilling template 9. And then the air pump is used for pumping air to firmly adsorb the diamond on the film.

The worm gear component is an existing commercial product, the model can be an SJ worm gear screw lifter, the principle of the first worm gear component 24 and the second worm gear component 25 is that the ball screw is lifted or the gear rack is lifted after worm gear speed reduction, the specific structure is not repeated, and the worm gear component can also be replaced by other lifters, such as a cylinder, a ball screw and the like.

As shown in fig. 4, the drill throwing mechanism 5 includes a lifting module 51, a throwing hopper 52 and a storage bin 53, the lifting module 51 can drive the throwing hopper 52 to lift, the bottom of the throwing hopper 52 is rotationally connected to a lifting body of the lifting module 51, a driving motor coaxially connected with the throwing hopper 52 is arranged on the lifting body, and the driving motor is used for controlling the throwing hopper 52 to overturn. The throwing hopper 52 can respectively correspond to the bottom openings of the supporting groove 13 and the receiving groove 15, one side of the stock bin 53 is provided with an outlet corresponding to the throwing hopper 52, the outlet of the stock bin 53 is movably provided with a baffle, the baffle is controlled by the second air cylinder 54, and the stock bin 53 and the second air cylinder 54 are fixed on the frame 10 or other carriers. The second cylinder 54 can drive the baffle plate to move transversely so as to close the outlet or open the outlet. The lifting module can be a gear rack, a synchronous sliding rail module or a ball screw module.

When the drilling mechanism 5 specifically works, firstly, the lifting module 51 descends the feeding hopper 52 below the outlet of the storage bin 53, at this time, the outlet of the storage bin 53 is aligned to the top of the discharging hopper 52, and the second air cylinder 54 drives to open the baffle plate, so that the decoration drill in the storage bin 53 enters the feeding hopper 52. Then, the lifting module 51 drives the throwing hopper 52 to rise above the supporting groove 13, and the throwing hopper 52 is driven by the driving motor to rotate towards the side of the supporting groove 13, so that the decoration drill in the throwing hopper 52 is poured into the top of the decoration drill template 9 in the supporting groove 13. When the receiving groove 15 is fully stored with the jewel, the lifting module 51 is utilized to drive the throwing hopper 52 to the lower part of the receiving groove 15, at the moment, the bottom opening of the receiving groove 15 is aligned with the throwing hopper 52, and then the first cylinder 16 drives the baffle to open the opening, so that the jewel in the receiving groove 15 is poured into the throwing hopper 52.

As shown in fig. 1, the up-down conversion mechanism 3 includes a moving frame 31, a turning frame 32, a third motor 33, and a traversing assembly 34, where the traversing assembly 34 is disposed on the frame 10 and can drive the moving frame 31 to advance toward the screen drilling station mechanism 1 and the suction drilling station mechanism 2, the middle section of the turning frame 32 is rotatably connected to the moving frame 31, the third motor 33 is disposed on the moving frame 31 and is in transmission connection with the output shaft and the rotating shaft of the turning frame 32, and the third motor 33 can be driven by a belt pulley and the rotating shaft of the turning frame 32, or by a gear transmission, or the output shaft of the third motor 33 can be directly connected with the rotating shaft of the turning frame 32. The upper and lower both ends of roll-over stand 32 all are provided with snatch subassembly 4, snatch subassembly 4 be used for centre gripping sieve drilling station mechanism 1 and inhale decorations bushing plate 9 on the drilling station mechanism 2.

As shown in fig. 1 and 5, the grabbing assembly 4 includes an outer clamping arm 41, an inner clamping arm 42, an outer clamping disc 43, an inner clamping disc 44 and a servo motor 45, the outer clamping disc 43 and the inner clamping disc 44 are existing chucks, at least two clamping jaws capable of stretching and retracting inside and outside are arranged on the chucks, and a hole matched with the clamping jaws of the chucks is formed in the bottom of the diamond decorating plate 9. The outer chuck 43 and the inner chuck 44 are respectively arranged on the outer clamping arm 41 and the inner clamping arm 42, and correspond to each other vertically, a screw rod sliding rail assembly is arranged on the roll-over frame 32 along the clamping direction of the inner clamping arm 42, a servo motor 45 is arranged on the roll-over frame 32, the output end of the servo motor is connected with a screw rod of the screw rod sliding rail assembly, and the outer clamping arm 41 is connected with a sliding block of the screw rod sliding rail assembly. The outer chuck 43 is driven to lift by the servo motor 45, so that the decorative drill templates 9 clamped on the upper chuck and the outer chuck are mutually attached.

The up-down conversion mechanism 3 specifically works: the upper and lower grabbing assemblies 4 are respectively named as a and B, and in the first step, as shown in fig. 1, in the initial state, an empty decoration drilling template 9 is clamped on the outer clamping disc 43 on the a and the inner clamping disc 44 on the B of the two grabbing assemblies 4, firstly, the support column 23 jacks up the empty decoration drilling template 9, and then the traversing assembly 34 drives the inner clamping disc 44 of the a to travel to the lower part of the decoration drilling template 9 on the support column 23. Step two, as shown in fig. 2, an outer clamping disc 43 of the step B clamps the full ornament drill plate 9 on the sieve drill bit position mechanism 1, and an inner clamping disc 44 of the step a clamps the blank ornament drill plate 9 on the suction drill bit position mechanism 2; then, the outer clamping arm 41 of the B is matched with the servo motor 45 to move towards the inner clamping arm 42 of the B, so that the outer clamping disc 43 on the B and the two templates 9 on the inner clamping disc 44 are clamped, and the support column 23 is retracted downwards. Step three, as shown in fig. 3, the grabbing component 4 drives the decoration drill plate 9 to move out of the station through the traversing component 34, then the motor three 33 drives the turnover plate 32 to turn 180 degrees, so that the decoration drill plate 9 positioned below turns to the upper side, in the process, the decoration drill forms a transfer on the decoration drill plate 9, and the decoration drill on the decoration drill plate 9 on the outer chuck 43 of the B falls on the decoration drill plate 9 clamped above the inner clamping disc 44 of the B in advance. Step four, as shown in fig. 2, the traversing assembly 34 sends the trim drill form 9 filled with the trim drill to the top of the support column 23 and sends the empty trim drill form 9 onto the support slot 13. Step five, as shown in fig. 1, the up-down conversion mechanism 3 is reset (the turning mechanism does not need 180 degrees of reset).

As shown in fig. 3, the traversing assembly 34 includes a traversing rail 35, a slider 36 slidably fitted on the traversing rail 35, a fourth motor 37, a gear 38, and a rack 39, the traversing rail 35 is disposed on the frame 10, the moving frame 31 is fixed on the slider 36, the rack 38 is disposed on the frame 10 along the direction of the traversing rail 35, the fourth motor 37 is fixed on the moving frame 31, and the gear 38 is coaxially connected to the output end of the fourth motor 37 and is engaged with the rack 38. When the traverse assembly 34 specifically acts, the gear 38 is driven to rotate by the motor four 37, so that the gear 38 is meshed and rotated along the length direction of the rack 38, and the movable frame 31 is driven to move along the direction of the traverse slide rail 35. The traversing assembly 34 may be replaced by a ball screw or other type of movement.

As shown in fig. 3, the film feeding mechanism 6 includes a film placing frame 61, a swing arm one 62, a suction cup one 63 and a swing motor one 64, a lifting table is provided on the film placing frame 61, and the lifting table is lifted by an electric push rod, so that the height of the film material placed on the lifting table is always at the grabbing height. One end of the swing arm I62 is rotatably connected to the frame 10, the other end is connected to the suction cup I63, the swing motor I64 is arranged on the frame 10 and is coaxially connected with the swing arm I62, and the swing motor I64 is used for controlling the displacement of the suction cup I63. The first suction cup 63 corresponds to the upper part of the film placing frame 61 and the fixing body 21. The first sucker 63 is an existing commercial product, is a vacuum sucker, and the specific structure is not described again.

When the film feeding mechanism 6 feeds the film, the first suction cup 63 is moved to the film placing frame 61 to suck a film. Then, the film is conveyed to the upper side of the outer frame 22 by the swing arm I62, when the outer frame 22 is lifted to contact the film, the film is loosened by the suction cup I63, and then the film throwing mechanism 6 is reset.

As shown in fig. 5 to 6, the baking and plastic sucking mechanism 7 comprises a lifting plate 71, a positioning frame 72, a lifting air cylinder 73, a guide rod 74, a guide sleeve 75, an electric heating plate 76 and a pressing air cylinder 77, wherein the lifting air cylinder 73 is vertically fixed on the frame 10, the output end of the lifting air cylinder 73 is connected with the lifting plate 71, and the lifting air cylinder 73 is used for driving the lifting plate 71 to lift. The guide rod 74 is vertically fixed at the bottom of the lifting plate 71, the positioning frame 72 is fixed at the bottom of the guide rod 74, the guide sleeve 75 is sleeved on the guide rod 74 and fixed on the frame 10, and the cooperation of the guide rod 74 and the guide sleeve 75 is used for improving the stability of the lifting plate 71 during lifting. The electric heating plate 76 is in clearance fit with the inside and outside of the positioning frame 72, the electric heating plate 76 is an existing commercial product, the electric heating plate 76 is made of a metal material with good heat conductivity, and an electric heating wire is contained in the electric heating plate 76. The pressing cylinder 77 is used to drive the electric heating plate 76 up and down. The lower pressure cylinder 77 is vertically fixed on the lifting plate 71, and its output end is connected with the electric heating plate 76, the positioning frame 72 corresponds to the outer frame 22 up and down, and the electric heating plate 76 corresponds to the fixing body 21 up and down.

When the baking plastic sucking mechanism 7 specifically works, the lifting cylinder 73 is used for driving the positioning frame 72 and the electric heating plate 76 to synchronously descend, so that the positioning frame 72 contacts the outer frame 22, and the film is clamped. Then the pressing cylinder 77 drives the electric heating plate 76 to press down onto the film, and the film is baked, so that the diamond is adsorbed on the film. After baking is completed, the lifting cylinder 73 and the pressing cylinder 77 are reset upwards.

As shown in fig. 8, the unloading mechanism 8 includes a second swing arm 81, a second suction cup 82, and a second swing motor 83, one end of the second swing arm 81 is rotatably connected to the frame 10, the other end of the second swing arm is connected to the second suction cup 82, the second swing motor 83 is disposed on the frame 10 and coaxially connected to the second swing arm 81, and the second swing motor 83 is used for controlling displacement of the second suction cup 82. The second suction cup 82 corresponds to the ornamental drill plate 9 on the top of the support column 23. The second sucker 82 is the same as the first sucker 63 and is an existing commercial product, and is a vacuum sucker, and the specific structure is not repeated.

When the unloading mechanism 8 works, the second sucker 82 is moved to the position above the decorative drilling template 9 on the station of the drilling station mechanism 2. The support column 23 jack up the film to the lower side of the second sucker 82, then the film with the decorative drill is sucked by the second sucker 82, and after the support column 23 resets, the finished film with the decorative drill is moved out of the station by the second swing arm 81. The subsequent receiving station does not protect the center of gravity.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A water bores, flat brill plastic uptake machine which characterized in that: the automatic drilling machine comprises a frame (10), a lower rotary table (20), an upper rotary table (30), a decoration drilling template (9) for laying a drill, a plurality of groups of sieve drilling bit mechanisms (1) and a suction drilling bit mechanism (2), wherein the lower rotary table (20) and the upper rotary table (30) are coaxially and rotatably connected to the frame (10), a motor for driving the lower rotary table (20) is arranged on the frame (10), the groups of sieve drilling bit mechanisms (1) and the suction drilling bit mechanism (2) are respectively arranged on the lower rotary table (20) and the upper rotary table (30) in a circular way and correspond to each other one by one, the sieve drilling bit mechanisms (1) are used for laying the decoration drill on the decoration drilling template (9), the suction drilling bit mechanism (2) is used for processing decoration drill and film composite vacuum plastic suction technology on the decoration drilling template (9), a throwing mechanism (5), an upper and lower conversion mechanism (3), a film throwing mechanism (7) and a discharging mechanism (8) are sequentially arranged on the frame (10) along a plurality of stations, the throwing mechanism (5) is used for throwing the two layers of sieve drilling bit mechanisms (1) to be used for placing the two layers of sieve drilling bit mechanisms (180) on the drilling bit mechanism (1), the film throwing mechanism (6) is used for placing a film on the top of a decoration drill plate (9) on the drilling station mechanism (2), the baking plastic sucking mechanism (7) is used for baking the film and the decoration drill on the decoration drill plate (9), and the discharging mechanism (8) is used for taking down a finished product of the film and the decoration drill plastic sucking.

2. The water drill, flat bottom drill plastic sucking machine as claimed in claim 1, wherein: the screen drilling station mechanism (1) comprises a base (12), a jacking component (11), a supporting groove (13), a receiving groove (15) and a swinging component (17), wherein the base (12) is fixed on a lower rotary table (20), a front open bottom cavity (14) is arranged at the bottom of the middle of the supporting groove (13), the bottom of the bottom cavity (14) is rotationally connected to the base (12), the jacking component (11) is arranged on the base (12) and can drive the bottom cavity (14) to rotate towards the receiving groove (15), and the swinging component (17) is arranged on the bottom cavity (14) and can drive the supporting groove (13) to swing back and forth.

3. The water drill, flat bottom drill plastic sucking machine as claimed in claim 2, wherein: the drilling station mechanism (2) comprises a fixed body (21), an outer frame (22), at least two support columns (23), a first worm gear component (24), a second worm gear component (25) and a bottom plate (26), wherein the fixed body (21) is fixed on an upper rotating disc (30), the outer frame (22) is sleeved outside the fixed body (21) in a gap mode, the bottom plate (26) is fixed at the bottom of the upper rotating disc (30), the two support columns (23) are vertically and slidably matched on the fixed body (21), the first worm gear component (24) is arranged on the bottom plate (26) and used for driving the support columns (23) to lift, and the second worm gear component (25) is arranged on the bottom plate (26) and used for driving the outer frame (22) to lift.

4. A water drill, flat bottom drill plastic sucking machine as claimed in claim 3, wherein: the up-down conversion mechanism (3) comprises a moving frame (31), a turning frame (32), a motor III (33) and a transverse moving assembly (34), wherein the transverse moving assembly (34) is arranged on the frame (10) and can drive the moving frame (31) to move towards the screen drilling station mechanism (1) and the suction drilling station mechanism (2), the middle section of the turning frame (32) is rotationally connected to the moving frame (31), the motor III (33) is arranged on the moving frame (31) and is in transmission connection with a rotating shaft of the output shaft and the turning frame (32), the grabbing assemblies (4) are respectively arranged at the upper end and the lower end of the turning frame (32), and the grabbing assemblies (4) are used for clamping the screen drilling station mechanism (1) and the decoration drilling template (9) on the suction drilling station mechanism (2).

5. The water drill, flat bottom drill plastic sucking machine as set forth in claim 4, wherein: the grabbing component (4) comprises an outer clamping arm (41), an inner clamping arm (42), an outer clamping disc (43), an inner clamping disc (44) and a servo motor (45), wherein the outer clamping disc (43) and the inner clamping disc (44) are respectively arranged on the outer clamping arm (41) and the inner clamping arm (42) and correspond up and down, a screw rod sliding rail component is arranged on the roll-over frame (32) along the clamping direction of the inner clamping arm (42), the servo motor (45) is arranged on the roll-over frame (32) and the output end of the servo motor is connected with a screw rod of the screw rod sliding rail component, the outer clamping arm (41) is connected with a sliding block of the screw rod sliding rail component, and a hole matched with a chuck clamping jaw is formed in the bottom of the decoration drilling template (9).

6. The water drill, flat bottom drill plastic sucking machine as claimed in claim 2, wherein: the utility model provides a throw and bore mechanism (5) including lifting module (51), throw in hopper (52), feed bin (53), lifting module (51) can drive and throw in hopper (52) go up and down, the bottom of throwing in hopper (52) rotates to be connected on the lifting body of lifting module (51), be provided with on the lifting body with throw in the coaxial continuous driving motor of hopper (52), throw in hopper (52) can respectively with supporting groove (13) and the bottom opening of receiving groove (15) corresponding, one side of feed bin (53) is provided with the export corresponding with throwing in hopper (52), the export activity of feed bin (53) is provided with the baffle, and this baffle passes through cylinder two (54) control, and lifting module can be rack and pinion, synchronous slide rail module or ball module.

7. A water drill, flat bottom drill plastic sucking machine as claimed in claim 3, wherein: film delivery mechanism (6) are including film rack (61), swing arm one (62), sucking disc one (63) and swing motor one (64), one end rotation of swing arm one (62) is connected on frame (10), and sucking disc one (63) are connected to the other end, swing motor one (64) set up on frame (10) and link to each other with swing arm one (62) is coaxial, sucking disc one (63) respectively with film rack (61), the top of fixed body (21) is corresponding.

8. A water drill, flat bottom drill plastic sucking machine as claimed in claim 3, wherein: the baking plastic suction mechanism (7) comprises a lifting plate (71), a positioning frame (72), a lifting air cylinder (73), a guide rod (74), a guide sleeve (75), an electric heating plate (76) and a lower air cylinder (77), wherein the lifting air cylinder (73) is vertically fixed on a frame (10), the output end of the lifting air cylinder is connected with the lifting plate (71), the guide rod (74) is vertically fixed at the bottom of the lifting plate (71), the positioning frame (72) is fixed at the bottom of the guide rod (74), the guide sleeve (75) is sleeved on the guide rod (74) and is fixed on the frame (10), the electric heating plate (76) is in clearance fit with the inside and outside of the positioning frame (72), the lower air cylinder (77) is vertically fixed on the lifting plate (71), the output end of the lower air cylinder is connected with the electric heating plate (76), the positioning frame (72) corresponds to the outer frame (22) up and down, and the electric heating plate (76) corresponds to the fixing body (21) up and down.

9. The water drill, flat bottom drill plastic sucking machine as claimed in claim 1, wherein: the unloading mechanism (8) comprises a second swing arm (81), a second suction cup (82) and a second swing motor (83), one end of the second swing arm (81) is rotationally connected to the frame (10), the other end of the second swing arm is connected with the second suction cup (82), the second swing motor (83) is arranged on the frame (10) and is coaxially connected with the second swing arm (81), and the second suction cup (82) corresponds to the decorative drilling template (9) at the top of the support column (23).

10. The water drill, flat bottom drill plastic sucking machine as claimed in claim 1, wherein: a cooling fan (40) is arranged above a corresponding station between the baking plastic sucking mechanism (7) and the unloading mechanism (8), and the cooling fan (40) corresponds to the decorative drilling template (9) on the drilling station mechanism (2).

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