CN103990968B - Combined machining device - Google Patents

Abstract

A combined machining device comprises a machine frame, a conveying device, a discharging frame, a hole milling device, an inclined hole machining device and a multi-hole machining device, wherein the conveying device is arranged on the machine frame, the discharging frame, the hole milling device, the inclined hole machining device and the multi-hole machining device are arranged outside the conveying device in a surrounding mode, an atomizer which is not machined is placed on the conveying device through the discharging frame, and the machine frame is provided with a fixing plate. The conveying device comprises a rotary plate arranged on the machine frame, a plurality of conveying frames arranged on the rotary plate and a conveying motor connected to the rotary plate, the rotary plate is pivoted to the middle of the machine frame, each conveying frame is fixed to the position, close to the edge, of the upper end face of the rotary plate, the conveying motor drives the rotary plate to rotate on the machine frame intermittently, so that each conveying frame sequentially moves to the front of the discharging frame, the front of the hole milling device, the front of the inclined hole machining device and the front of the multi-hole machining device for hole milling, inclined hole machining and through hole machining respectively, the automation degree of the whole machining process is high, and labor cost is saved.

Description

Complex machining device

Technical field

The present invention relates to a kind of process equipment of atomizer, more particularly to a kind of brill of atomizer, hole milling processing Complex machining device.

Background technology

Electronic cigarette, also known as electronic cigarette, is that smoker provides a kind of smoking substitute.Electronic cigarette is that a kind of non-naked light is inhaled Cigarette device, electronic cigarette includes battery component and two workpieces of atomizer assembly, when user is in the atomization of electronic cigarette When making aspiratory action at device part, the pneumatic sensor of battery component works and triggers battery component output voltage, by battery The positive electrode of assembly and negative electrode are powered and to be made the heating wire work of atomizer assembly to the positive electrode of atomizer assembly and negative electrode Make.General atomizer is provided with multiple through holes, generally when user simulates smoking action by this electronic cigarette air-breathing, mist The through hole changed on device is responsible for the suction of air-flow and the ejection of cigarette.

Through hole on atomizer is generally directly holed on the shell that atomizer preparatory processing completes, due to atomizer On through hole on atomizer different parts punched, each hole towards all differing, but also need to opening in atomizer Carry out hole milling at mouth, when existing processing unit (plant) is processed, boring and hole milling processing often need to be completed on different machines, entirely add Frock puts complex structure, and automatization level is not high, and serious restriction produces, and reduces production efficiency.

Content of the invention

Based on this, present invention aims to the deficiencies in the prior art, a kind of automatization level height is provided, saves people The complex machining device of work.

A kind of complex machining device, for being processed to atomizer it is characterised in that：Including frame, transmitting device, under Bin, milling device, slant hole processing device and porous processing device, described transmitting device is installed in frame, described blanking rack, Milling device, slant hole processing device and porous processing device enclose outside transmitting device, and described blanking rack is by unprocessed atomization Device is placed on transmitting device, and described frame is provided with a fixed disk, and described transmitting device includes one and is installed in turning in frame Disk, some transmission frames being installed on rotating disk and be connected to transmission electrical machine on rotating disk, described rotating disk is articulated in the middle part of frame And it is located at the lower section of fixed disk, the radius of a circle of rotating disk is more than the radius of a circle of fixed disk, and each transmission frame is fixed on rotating disk Near edge, described transmission electrical machine drives rotating disk intermittent in frame to rotate to end face, so that each transmission frame is transported successively respectively Move blanking rack, milling device, slant hole processing device and the position corresponding to porous processing device, this transmission frame top is provided with one Fixed block, offer in the middle part of fixed block pre-and post perforative perforation to house atomizer, described milling device, slant hole processing device and Porous processing device carries out hole milling processing, inclined hole processing and through hole processing respectively to atomizer, and described porous processing device includes First clamping device, the two hole machined seats being oppositely arranged and second clamping device relative with the first clamping device, described first Clamping device, transmission frame, hole machined seat and the second clamping device are horizontally disposed with successively, and described first clamping device is installed in fixation On disk, outside rotating disk, described first clamping device includes gripper cylinder and work for described second clamping device and hole machined seat The dynamic thimble being articulated on gripper cylinder, described gripper cylinder drives thimble elastic, this thimble and gripper cylinder pivot joint, top Pin can rotate relative to gripper cylinder, the axially-extending line of thimble vertical with fixed block and pass through feed mechanism perforation.

Further, described blanking rack includes shaking material machine, expects the expects pipe that seat, two ends are connected on shake material machine and material seat And pusher cylinder, described material seat is provided with an entrance and an outlet, and the entrance of material seat towards pusher cylinder, expects the outlet of seat towards passing Defeated frame, the height of described outlet is identical with the height of the perforation of transmission frame, and described pusher cylinder is connected with a push rod.

Further, described milling device includes being installed on fixed disk milling cutter module, it is located at outside rotating disk and and milling The relative screens module of cutting die group, described transmission frame is located between milling cutter module and screens module, and described milling cutter module includes the Installing plate that one cylinder is connected with the first cylinder and is slidedly arranged on slide rail, the cutter motor being installed on installing plate, it is articulated in peace The milling cutter being connected on dress plate and with cutter motor, the height of this milling cutter is identical with the height of perforation, and described first cylinder drives peace Dress plate slide anteroposterior, thus adjusting the position of milling cutter, makes milling cutter stretch in perforation, described atomizer includes a threaded portion, described It is provided with the second cavity, described cutter motor drives milling cutter to carry out hole milling to the second cavity of atomizer in the middle part of threaded portion；Described card Position module includes the second cylinder and is connected to fixture block on the second cylinder, and described second cylinder drives fixture block towards milling cutter module direction Support forward, so that fixture block is fitted with transmission frame lateral surface, atomizer is carried out spacing.

Further, described slant hole processing device includes a pedestal, two hole machined modules, a fixed module and spacing dress Put, described hole machined module, fixed module, stopping means are installed on pedestal, and described stopping means is installed on fixed disk, institute Stating stopping means with fixed module is in be oppositely arranged, and two hole machined modules are respectively arranged on fixed module both sides, each described hole Angle between processing module and fixed module is identical.

Further, described hole machined module includes processing motor, the drill bit being connected on processing motor and promotes processing The processing cylinder that motor moves forward and backward, described processing motor drives drill bit to rotate, and described fixed module includes a fixed mount, installing Fixing cylinder on fixed mount, the push rod being connected to fixing cylinder and the fixed cover being connected to push rod free end, described fixation In barrel-shaped, described cylinder drives push rod to move forward and backward makes the fixed cover threaded portion to atomizer that travels forward be fixed to set.

Further, respectively positioned at the both sides of charging seat, described stopping means includes for described stopping means and fixed module Grip cylinder and be connected to the push rod gripping on cylinder, the height of described push rod, fixed cover and perforation is identical, described gripping cylinder Drive push rod to move forward and backward, make push rod pass through installing hole to exit towards the motion of fixed module direction or from installing in the hole.

Further, described hole machined seat is oppositely arranged by two mounting seat, first being installed in each mounting seat electricity Machine and be connected to drill bit composition on the first motor, the drill bit in two mounting seats axially on the same line, and two drill bits are high Degree is identical, and the line of two drill bits intersects and is mutually perpendicular to the axially-extending line of thimble.

Further, described second clamping device includes driving means, the second motor connecting this driving means, connecting should The positioning strip of the main shaft of the second motor, described driving means drive the second motor to move forward and backward, and described second motor drives this fixed Position bar intermittent rotates, and described driving means drive the second motor to move forward and backward, and described positioning strip and thimble are oppositely arranged, described Between positioning strip and thimble, the line between line, two drill bits is vertical and intersects.

Further, also include anti-sticking structure, described anti-sticking structure between transmission frame and hole machined seat, this anti-stick Structure can be elastic, gripper cylinder drive thimble return when, anti-sticking structure stretch forward atomizer is carried out spacing.

In sum, complex machining device of the present invention is by being provided with transmitting device, blanking rack, milling device, inclined hole processing Device and porous processing device, unprocessed atomizer is placed on transmitting device described blanking rack, and rotating disk will be placed with mist The each feeding rack changing device turns to before milling device, slant hole processing device and porous processing device successively, milling device, Slant hole processing device and porous processing device carry out hole milling processing, inclined hole processing and through hole processing respectively to atomizer, entirely add Hand process automatization level is high, improve production efficiency, saves cost of labor, improves the competitiveness of enterprise.

Brief description

Fig. 1 is the sectional view of the atomizer of processing required for complex machining device of the present invention.

Fig. 2 is the structural representation of complex machining device of the present invention.

Fig. 3 is the structural representation of another angle of complex machining device shown in Fig. 2.

Fig. 4 is the enlarged drawing of the part A of complex machining device shown in Fig. 2.

Fig. 5 is the enlarged drawing of the part B of complex machining device shown in Fig. 2.

Fig. 6 is the structural representation of the inclined hole processing module of complex machining device shown in Fig. 2.

Fig. 7 is the C portion enlarged drawing that inclined hole shown in Fig. 6 processes module.

Fig. 8 is the structural representation of the through hole processing module of complex machining device shown in Fig. 2.

Fig. 9 is the D magnified partial view that through hole shown in Fig. 8 processes module.

Figure 10 is the top view that through hole shown in Fig. 8 processes module.

Specific embodiment

In order that technical scheme can more clearly show, below in conjunction with the accompanying drawings the present invention is made further Explanation.

Refer to Fig. 1, the complex machining device of the present invention, for being punched and hole milling to the atomizer 10 of an electronic cigarette Processing.This atomizer 10 includes a base portion 11, extends downwardly from this upwardly extending resettlement section 12 of base portion 11 and from this base portion 11 Threaded portion 13.It is provided with the first cavity 120, described base portion 11 is provided with the oblique of two inclinations being oppositely arranged in the middle part of this resettlement section 12 Hole 110.In the present embodiment, the center line of this inclined hole 110 and the center line of base portion 11 are in 45 degree of angle settings.Each inclined hole 110 Connect the outer wall of described first cavity 120 and base portion 11.It is provided with the second cavity 130, this threaded portion 13 in the middle part of described threaded portion 13 It is provided with the through hole 130 of some radial directions, each through hole 130 connects the outer wall of described second cavity 130 and threaded portion 13.Described base Portion 11 is provided with centre bore (figure is not marked), and this centre bore connects described first cavity 120 and the second cavity 130.In the present embodiment, The detection means of the atomizer of described electronic cigarette is used for measuring the inclined hole 110 of the inclination of described base portion 11.

Refer to 2 to Figure 10, described complex machining device includes frame (figure is not marked), transmitting device 30, blanking rack 40, milling Aperture apparatus 50, slant hole processing device 60 and porous processing device 70, described transmitting device 30 is installed in frame, described blanking rack 40th, milling device 50, slant hole processing device 60 and porous processing device 70 enclose counterclockwise outside transmitting device 30, institute State blanking rack 40 unprocessed atomizer is placed on transmitting device 30, rotating disk by be placed with each feeding rack of atomizer according to Secondary turn to before milling device 50, slant hole processing device 60 and porous processing device 70, milling device 50, inclined hole processing dress Put 60 and porous processing device 70 carries out hole milling processing respectively to atomizer, inclined hole is processed and through hole processing.

Described frame is provided with the fixed disk 20 of a circle, and fixed disk 20 is provided with slide rail 21.Described transmitting device 30 wraps The some transmission frames 32 include a rotating disk 31 being installed in frame, being installed on rotating disk 31 and the transmission being connected on rotating disk 31 are electric Machine (not shown).Described rotating disk 31 is articulated in the middle part of frame and is located at the lower section of fixed disk 20.The radius of a circle of rotating disk 31 is big In the radius of a circle of fixed disk 20, each transmission frame 32 is fixed on rotating disk 31 upper surface near edge, described transmission electrical machine band Dynamic rotating disk 31 intermittent in frame rotates, and makes that each transmission frame 32 moves to blanking rack 40 successively, milling device 50, inclined hole add Frock is put before 60 and porous processing device 70.This transmission frame 32 top is provided with a fixed block (figure is not marked), in this fixed block Portion offers pre-and post perforative perforation 33, and described perforation 33 is used for housing atomizer 10, the threaded portion 13 of atomizer 10 outwardly, mist Change the resettlement section 12 of device 10 inwardly.This perforation 33 is provided with boss (not shown), day with fog 10 is carried out spacing, makes 10, atomizer Can outwards take out.

Described blanking rack 40 includes shaking material machine 41, expects the material that seat 42, two ends are connected on shake material machine 41 and material seat 42 Pipe 43 and pusher cylinder 44.Described material seat 42 is provided with an entrance and an outlet.Wherein, the entrance of material seat 42 is towards pusher cylinder 44, towards transmission frame 32, the height of described outlet is identical with the height of the perforation 33 of transmission frame 32 for the outlet of material seat 42.Described push away Cylinder 44 of taking offence is connected with a push rod 45, and during charging, described shake material machine 41 passes through expects pipe 43 and by being sent to, atomizer 10 is expected seat 42 Interior, described pusher cylinder 44 is passed through push rod 45 and is supported the atomizer 10 expected in seat 42 in perforation 33.

Milling cutter module 51 that described milling device 50 includes being installed on fixed disk 20, it is located at rotating disk 31 outside and milling cutter The relative screens module 55 of module 51, described transmission frame 32 is located between milling cutter module 51 and screens module 55.Described milling cutter mould Group 51 includes installing plate 53 that the first cylinder 52 is connected with the first cylinder 52 and is slidedly arranged on slide rail 21, is installed in installing plate 53 On cutter motor 54, the milling cutter (figure do not mark) being articulated on installing plate 53 and being connected with cutter motor 54.The height of this milling cutter Identical with the height of perforation 33, described first cylinder 52 drives installing plate 53 slide anteroposterior, thus adjusting the position of milling cutter, makes milling Knife stretches in perforation 33, and described cutter motor 54 drives milling cutter to carry out hole milling to the second cavity 120 of atomizer 10.Described screens Module 55 includes the second cylinder 56 and is connected to fixture block 57 on the second cylinder 56, and described second cylinder 56 drives fixture block 57 towards milling Cutting die group 51 direction is supported forward, so that fixture block 57 is fitted with transmission frame 32 lateral surface, and the outer end of closing perforation 33, to atomizer 10 carry out spacing, during processing, described milling cutter module 51 from perforation 33 rear stretch in the second cavity 120, to the second cavity 120 Side wall carry out hole milling.

Described slant hole processing device 60 includes 61, two hole machined modules 62 of a pedestal, a fixed module 63 and spacing dress Put 64, described hole machined module 62, fixed module 63, stopping means 64 are installed on pedestal 61, described stopping means 64 is installed On fixed disk 20.Described stopping means 64 and fixed module 63 are in be oppositely arranged, and two hole machined modules 62 are respectively arranged on admittedly Cover half group 63 both sides, the center line of two hole machined modules 62 is in 90 ° of settings, each described hole machined module 62 and fixed module Angle between 63 is identical, is 45 °.

Described hole machined module 62 includes processing motor 622, the drill bit 621 being connected on processing motor 622 and promotion and adds The processing cylinder 63 that work motor 622 moves forward and backward, described processing motor 622 drives drill bit 621 to rotate.Described fixed module 63 is wrapped Include a fixed mount 631, the fixing cylinder 632 being installed on fixed mount 631, be connected to the push rod 633 of fixing cylinder 632 and connect In the fixed cover 634 of push rod 633 free end, described fixed cover 634 is in barrel-shaped, and described cylinder drives push rod 633 to move forward and backward Fixed cover 634 threaded portion to atomizer that travels forward is made to be fixed.

, respectively positioned at the both sides of charging seat 42, described stopping means 64 includes pressing from both sides for described stopping means 64 and fixed module 63 Take cylinder 641 and be connected to the push rod 642 gripping on cylinder 641, the height phase of described push rod 642, fixed cover 634 and perforation 33 With described gripping cylinder 641 drives push rod 642 to move forward and backward, and makes push rod 642 pass through installing hole to move towards fixed module 63 direction Or exit from installing in the hole.

During described slant hole processing device 60 work, the fixing cylinder 632 of fixed module 63 promotes fixed cover 634 towards atomizer 10 direction motions, meanwhile, gripping cylinder 641 promotes push rod 642 towards atomizer direction, and push rod 642 and fixed cover 634 are from atomizer Two ends grip atomizer；After completing gripping, fixing cylinder 632 drives fixed cover 634 to travel forward, and gripping cylinder 641 drives top Bar 642 rearward movement, fixing cylinder 632 drives fixed cover 634 that atomizer is fixed in perforation 33.Two hole machined modules 62 Carry out hole machined respectively with the axis of atomizer 10 in 45 ° of both sides to atomizer 10, processing cylinder 63 drives processing motor 622 travel forward, and processing motor 622 drives drill bit to rotate, and is punched, and after completing processing, processing cylinder 63 drives processing electricity Machine 622 return.

Described porous processing device 70 include hole machined seat 72 that the first clamping device 71, two is oppositely arranged and with the first folder Hold the second relative clamping device 73 of device 71, described first clamping device 71, transmission frame 32, hole machined seat 72 and the second clamping Device 73 is from left to right horizontally disposed with successively, and described first clamping device 71 is installed on fixed disk 20, described second clamping dress Put 73 and hole machined seat 72 outside rotating disk 31.

Described first clamping device 71 includes the thimble 712 that gripper cylinder 711 and activity are articulated on gripper cylinder 711, Described gripper cylinder 711 drives thimble 712 elastic, this thimble 712 and gripper cylinder 711 pivot joint, and thimble 712 can press from both sides relatively Hold cylinder 711 to rotate, the axially-extending line of thimble 712 vertical with fixed block and pass through feed mechanism perforation 33.

Mounting seat 721 that described hole machined seat 72 is oppositely arranged by two, the first motor being installed in each mounting seat 721 722 and the drill bit 723 that is connected on the first motor 722 form.The axial direction of the drill bit 723 in two mounting seats 721 is in same straight line On, and two drill bits 723 are highly identical, the line of two drill bits 723 intersects and is mutually perpendicular to the axially-extending line of thimble 712.

Described second clamping device 73 includes driving means 733, the second motor 732 connecting this driving means 733, connects The positioning strip 731 of the main shaft of this second motor 732, described driving means 733 drive the second motor 732 to move forward and backward, and described the Two motor 732 drives this positioning strip 731 intermittent to rotate, and described driving means 733 drive the second motor 732 to move forward and backward.Institute State positioning strip 731 to be oppositely arranged with thimble 712, the company between line, two drill bits 723 between described positioning strip 731 and thimble 712 Line vertically and intersects.

During porous processing device 70 work, the driving means 733 on described second clamping device 73 drive the second motor 732 Move towards atomizer 10 direction, the positioning strip 731 of described second clamping device 73 supports the threaded portion 13 in atomizer 10, described The gripper cylinder 711 of the first clamping device 71 drives thimble 712 to support forward, and thimble 712 stretches in resettlement section 12, the first clamping After device 71 and the second clamping device 73 complete gripping to atomizer 10, the gripper cylinder 711 of described first clamping device 71 carries Dynamic thimble 712 is supported further along, positioning strip 731 return backward, and thimble 712 passes through perforation 33, and atomizer 10 is from perforation 33 Inside eject and move between two hole machined seats 72, the first motor 722 band on hole machined seat 72 drives drill bit 723 court respectively The motion of atomizer 10 direction is holed to atomizer 10, and processing every time forms one group of (two) through hole.After completing once to hole, Described first motor 722 drives drill bit 723 to withdraw from atomizer 10, and described second motor 732 drives positioning strip 731 to press one Individual clockwise rotates 60 °, and atomizer 10 and thimble 712 rotate in the lump with positioning strip 731, the lateral surface phase of adjustment threaded portion 13 Position to drill bit 723, hole machined seat 72 carries out holes drilled through again to atomizer 10, forms another group of through hole, repeats aforesaid operations, Form 3 groups of through holes, after completing the through hole processing on atomizer 10, gripper cylinder 711 drives thimble 712 return, driving means 733 Drive positioning strip 731 return backward, atomizer 10 falls in the retracting device of porous processing device 70 lower section.In addition, for preventing During thimble 712 return, atomizer 10 is stuck on thimble 712, and porous processing device 70 is additionally provided with anti-sticking structure 74, described anti-stick , between transmission frame 32 and hole machined seat 72, this anti-sticking structure 74 can be elastic for structure 74, and gripper cylinder 711 drives thimble During 712 return, anti-sticking structure 74 stretch forward atomizer 10 is carried out spacing.

In sum, complex machining device of the present invention is by being provided with transmitting device 30, blanking rack 40, milling device 50, tiltedly Hole processing device 60 and porous processing device 70, unprocessed atomizer is placed on transmitting device 30 described blanking rack 40, The each feeding rack being placed with atomizer is turned to milling device 50, slant hole processing device 60 and porous processing by rotating disk 31 successively Before device 70, milling device 50, slant hole processing device 60 and porous processing device 70 carry out hole milling to atomizer respectively and add Work, inclined hole processing and through hole processing, entirely add hand process automatization level height, improve production efficiency, save cost of labor, improve The competitiveness of enterprise.

Embodiment described above only have expressed one embodiment of the present invention, and its description is more concrete and detailed, but simultaneously Therefore the restriction to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, some deformation can also be made and improve, these broadly fall into the guarantor of the present invention Shield scope.Therefore, the protection domain of patent of the present invention should be defined by claims.

Claims (9)

1. a kind of complex machining device, for being processed to atomizer it is characterised in that：Including frame, transmitting device, blanking Frame, milling device, slant hole processing device and porous processing device, described transmitting device is installed in frame, described blanking rack, milling Aperture apparatus, slant hole processing device and porous processing device enclose outside transmitting device, and described blanking rack is by unprocessed atomizer Be placed on transmitting device, described frame is provided with a fixed disk, described transmitting device include a rotating disk being installed in frame, Some transmission frames of being installed on rotating disk and be connected to transmission electrical machine on rotating disk, described rotating disk is articulated in middle part the position of frame In the lower section of fixed disk, the radius of a circle of rotating disk is more than the radius of a circle of fixed disk, and each transmission frame is fixed on rotating disk upper surface Near edge, described transmission electrical machine drives rotating disk intermittent in frame to rotate, and so that each transmission frame is moved to successively respectively Blanking rack, milling device, slant hole processing device and the position corresponding to porous processing device, it is fixing that this transmission frame top is provided with one Block, offers pre-and post perforative perforation to house atomizer, described milling device, slant hole processing device and porous in the middle part of fixed block Processing unit (plant) carries out hole milling processing, inclined hole processing and through hole processing respectively to atomizer, and described porous processing device includes first Clamping device, the two hole machined seats being oppositely arranged and second clamping device relative with the first clamping device, described first clamping Device, transmission frame, hole machined seat and the second clamping device are horizontally disposed with successively, and described first clamping device is installed in fixed disk On, outside rotating disk, described first clamping device includes gripper cylinder and activity for described second clamping device and hole machined seat It is articulated in the thimble on gripper cylinder, described gripper cylinder drives thimble elastic, this thimble and gripper cylinder pivot joint, thimble Can rotate relative to gripper cylinder, the axially-extending line of thimble vertical with fixed block and pass through feed mechanism perforation.

2. complex machining device as claimed in claim 1 is it is characterised in that described blanking rack includes shaking material machine, material seat, two ends It is connected to the expects pipe on shake material machine and material seat and pusher cylinder, described material seat is provided with an entrance and an outlet, expects entering of seat Towards pusher cylinder, towards transmission frame, described pusher cylinder is connected with a push rod to mouth for the outlet expecting seat.

3. complex machining device as claimed in claim 1 is it is characterised in that described milling device includes being installed on fixed disk Milling cutter module, be located at rotating disk outside and the screens module relative with milling cutter module, described transmission frame be located at milling cutter module and card Between the module of position；Described milling cutter module includes installing plate, the installing that the first cylinder is connected with the first cylinder and is slidedly arranged on slide rail In the cutter motor on installing plate, the milling cutter, the height of this milling cutter and the perforation that are articulated on installing plate and are connected with cutter motor Height identical, described first cylinder drive installing plate slide anteroposterior, thus adjusting the position of milling cutter, make milling cutter stretch into perforation Interior, described atomizer includes a threaded portion, is provided with the second cavity in the middle part of described threaded portion, and described cutter motor drives milling cutter to mist The second cavity changing device carries out hole milling；Described screens module includes the second cylinder and is connected to fixture block on the second cylinder, described Second cylinder drives fixture block to support forward towards milling cutter module direction, so that fixture block is fitted with transmission frame lateral surface, atomizer is entered Row is spacing.

4. complex machining device as claimed in claim 1 it is characterised in that described slant hole processing device include a pedestal, two Individual hole machined module, a fixed module and stopping means, described hole machined module, fixed module, stopping means are installed in pedestal On, described stopping means is installed on fixed disk, and described stopping means and fixed module are in be oppositely arranged, two hole machined modules It is respectively arranged on fixed module both sides, the angle between each described hole machined module and fixed module is identical.

5. complex machining device as claimed in claim 4 is it is characterised in that described hole machined module includes processing motor, connects The processing cylinder that motor moves forward and backward is processed in the drill bit being connected on processing motor and promotion, and described processing motor drives drill bit to turn Dynamic, described fixed module includes a fixed mount, the fixing cylinder being installed on fixed mount, the push rod being connected to fixing cylinder and company Be connected to the fixed cover of push rod free end, described fixed cover is in barrel-shaped, described cylinder drive push rod move forward and backward make fixed cover to Front motion is fixed to the threaded portion of atomizer.

6. complex machining device as claimed in claim 5 is it is characterised in that described stopping means and fixed module are located at respectively The both sides of charging seat, described stopping means includes gripping cylinder and is connected to the push rod gripping on cylinder, described push rod, fixed cover And the height of perforation is identical, described gripping cylinder drives push rod to move forward and backward, and makes push rod pass through installing hole towards fixed module direction Move or exit from installing in the hole.

7. complex machining device as claimed in claim 1 is it is characterised in that described hole machined seat is by two installations being oppositely arranged Seat, the first motor being installed in each mounting seat and the drill bit being connected on the first motor form, the drill bit in two mounting seats Axially on the same line, and two crown heights are identical, and the line of two drill bits intersects with the axially-extending line of thimble and mutual Vertically.

8. complex machining device as claimed in claim 7 it is characterised in that described second clamping device include driving means, The second motor of connecting this driving means, the positioning strip of the main shaft connecting this second motor, described driving means drive the second electricity Machine moves forward and backward, and described second motor drives this positioning strip intermittent to rotate, and described driving means are moved before and after driving the second motor Dynamic, described positioning strip and thimble are oppositely arranged, the vertical simultaneously phase of the line between line, two drill bits between described positioning strip and thimble Hand over.

9. it is characterised in that also including anti-sticking structure, described anti-sticking structure sets complex machining device as claimed in claim 8 Between transmission frame and hole machined seat, this anti-sticking structure can be elastic, gripper cylinder drive thimble return when, anti-sticking structure to Front stretching, extension carries out spacing to atomizer.