CN110481228A - A kind of High Precision Stereo engraving machine evaluating production capacity and equipment - Google Patents

Abstract

The invention discloses a kind of High Precision Stereo engraving machine evaluating production capacity and equipment, wherein the blowning installation includes: duct, dust Attraction block, steam ring, valve, gas off-take, Alevaire spout, dust filter screen, air intake duct；Gas off-take positioned at one end, output port are equipped with valve, connect with DSP control system conducting wire；It is internal on the left of gas off-take to be equipped with Alevaire spout, Alevaire spout is tubaeform, it is open to the left, connect by conduit with exterior atomization agent；It is equipped with steam ring on the left of Alevaire spout, is equipped with a large amount of through-holes on the left of steam ring ring textures；Dust filter screen, dust Attraction block, duct, air intake duct are successively arranged on the left of steam ring.In blowning installation work.A kind of High Precision Stereo engraving machine evaluating production capacity and device structure of the present invention are new reasonable, and engraving precision is high, and the scope of application is wide.

Description

A kind of High Precision Stereo engraving machine evaluating production capacity and equipment

Technical field

The invention belongs to economic calculating fields, and in particular to a kind of High Precision Stereo engraving machine evaluating production capacity and equipment.

Background technique

In modern mechanical manufacturing, universal numerical control lathe is since strong with process flexibility, machining accuracy is high, high production efficiency The advantages that and be widely adopted, especially suitable for small mount, multi items, the processing space that product variations are frequent and part shape is complicated It closes.Typical universal numerical control lathe has numerically controlled lathe, CNC milling machine and numerical control clock bed etc..

In recent years, the rapid development of the technologies such as microelectric technique, control theory, detection technique, computer control, numerical control system System is constantly updated, and the function of universal numerical control lathe constantly improve, and versatility, flexibility also further increase.Meanwhile with general The popularization and application of Numeric Control Technology, Numeric Control Technology is also constantly to special purpose machine tool, other nonmetallic manufacture field extensions.Numerical control carving Quarter, machine was wherein an example, it is as a kind of special numerically-controlled machine tool, it can be achieved that the Carving Machining that tradition is completed by artisan craftsmanship Automation, high efficiency and high-precision, can be applied not only to the Precision Machining of the complex parts such as metal die, and be widely applied In other nonmetallic processing, such as advertising, carpenter field.

Under prior art conditions, engraving machine can generate a large amount of bits, dust and doping at work, lesser dust, Hidden danger can be generated to the health of staff by considering particle sucking human body to be worth doing, and largely bits, doping cleaning are relatively complicated.Meanwhile it is existing Equipment positioning accuracy is poor, and computer control error is big, and carving efficiency is low, requires height to material, causes high rejection rate, at high cost, needs A kind of new technology is wanted to solve the above problems.

In the prior art, the working efficiency in relation to engraving equipment, production capacity application and relevant calculation, assessment, data analysis There is no relevant report, and in actual production, enterprise pays much attention to the cost accounting of equipment, it is desirable to relevant calculation analytical technology energy Enough solve the above problems.

Summary of the invention

In order to solve the above technical problem, the present invention provides a kind of High Precision Stereo engraving equipments, comprising: bottom driving is total At device 1, core apparatus 2, workpiece 3, DSP control system 4 are carved；1 upper surface of bottom driving assembly apparatus is equipped with engraving Core apparatus 2, screw is fixedly connected between the engraving core apparatus 2 and bottom driving assembly apparatus 1, and the workpiece 3 is located at Between bottom driving assembly apparatus 1 and engraving core apparatus 2, the DSP control system 4 is located at bottom driving assembly apparatus 1 one Side；The longitudinal transmission total kilometres of the bottom driving assembly apparatus 1 are between the m of 0.2 m~5；The engraving core apparatus 2 is vertical It is driven total kilometres and is driven total kilometres between the m of 0.1 m~2, laterally between the m of 0.15 m~2.5.

Further, the bottom driving assembly apparatus 1 includes: transmission fixed plate 1-1, is driven slide bar 1-2, driving block 1-3, lateral fixed beam 1-4 are mounted laterally plate 1-5, drive assembly motor 1-6, drive assembly screw rod 1-7, dust collection machine 1- 8；The transmission upper surface fixed plate 1-1 is equipped with transmission slide bar 1-2, and the transmission slide bar 1-2 is located at transmission fixed plate 1-1 or so Both sides, transmission slide bar 1-2 quantity are 2 groups, pass through lateral fixed beam 1-4 connection between two groups of transmission slide bar 1-2；The transmission is slided Block 1-3 is located at the transmission upper surface slide bar 1-2, and driving block 1-3 is slidably connected with transmission slide bar 1-2；It is described to be mounted laterally plate 1-5 Positioned at the transmission front and rear sides fixed plate 1-1, it is mounted laterally plate 1-5 and transmission fixed plate 1-1 and is welded and fixed；The drive assembly electricity Machine 1-6, which is located in one of, is mounted laterally the outer surface plate 1-5, and drive assembly motor 1-6 and 4 polygon control survey of DSP control system connect It connects, drive assembly motor 1-6 output end is equipped with drive assembly screw rod 1-7, and the drive assembly screw rod 1-7 passes through lateral fixed beam It pilot hole and is fixed on another and is mounted laterally the surface plate 1-5 among 1-4；The dust collection machine 1-8 is located at transmission fixed plate The bottom 1-1, the two perforation.

Further, the engraving core apparatus 2 includes: vertical power motor 2-1, vertical slide bar 2-2, vertical guide pad 2-3, laterally steering block 2-4, horizontal sliding bar 2-5 install locating rack 2-6, lateral dynamics motor 2-7, carve guide plate 2-8, micro- Elevating lever 2-9 is adjusted, cutterhead 2-10, coordinate receiver 2-11 are carved；The vertical power motor 2-1 is led with DSP control system 4 Line traffic control connection, the vertical slide bar 2-2 are mounted on vertical power motor 2-1 output end and pass through vertical guide pad 2-3, vertically Slide bar 2-2 screw-rod structure is connect with vertical guide pad 2-3 screw thread；The lateral dynamics motor 2-7 is fixed on installation positioning The outer surface frame 2-6, lateral dynamics motor 2-7 are connect with 4 polygon control survey of DSP control system, and lateral dynamics motor 2-7 output end is set There are horizontal sliding bar 2-5, the horizontal sliding bar 2-5 to pass through the pilot hole that the surface laterally steering block 2-4 is equipped with, horizontal sliding bar 2-5 spiral shell Rod structure is connect with laterally steering block 2-4 screw thread；The engraving guide plate 2-8 is installed on vertical guide pad 2-3 side wall table Face, engraving guide plate 2-8 is L-shaped, and engraving is equipped with pilot hole among the bottom edge guide plate 2-8；The fine tuning elevating lever 2-9 is installed on It carves above guide plate 2-8, fine tuning elevating lever 2-9 is connect with 4 polygon control survey of DSP control system, finely tunes elevating lever 2-9 output end Equipped with engraving cutterhead 2-10；The coordinate receiver 2-11 be located at engraving the lower surface guide plate 2-8, coordinate receiver 2-11 with The connection of 4 polygon control survey of DSP control system；Vertical guide pad 2-3, laterally steering block 2-4, engraving guide plate 2-8 are integral.

Further, the engraving cutterhead 2-10 includes: blowning installation 2-10-1, collet tension clips 2-10-2, drill bit Component 2-10-3, angle positioning ring 2-10-4, air blowing pipe clamp 2-10-5, air blowing upright bar 2-10-6, upright bar collet 2-10-7, lock 2-10-8, turntable 2-10-9；Angle positioning ring 2-10-4 positioned at top, flat strip shaped oval structures, surface are equipped with a large amount of positioning Hole；It is equipped with drill bit assembly 2-10-3 in its underpart, the two passes through lock 2-10-8 connection；Lock 2-10-8 is inserted into as needed to be appointed Meaning location hole realizes that drill bit assembly 2-10-3 operating angle arbitrarily positions；It is tensioned in drill bit assembly 2-10-3 waist equipped with collet 2-10-2 is pressed from both sides, the collet tension clips 2-10-2 other end is connect by upright bar collet 2-10-7 with air blowing upright bar 2-10-6, described vertical Bar cramp set 2-10-7 is socketed in outside air blowing upright bar 2-10-6, and collet tension clips 2-10-2 opposition bar cramp set 2-10-7 implements pressure Tightly, it realizes and air blowing upright bar 2-10-6 is clamped；Air blowing pipe clamp 2-10-5, air blowing pipe clamp are connected in the lower part air blowing upright bar 2-10-6 The lower part 2-10-5 holds blowning installation 2-10-1, and wherein the one end blowning installation 2-10-1 connects external gas cylinder, and the other end goes out Stomata is directed at the end drill bit assembly 2-10-3；Turntable 2-10-9 is equipped in the lower part drill bit assembly 2-10-3.

Further, the upright bar collet 2-10-7 includes: collet pedestal 2-10-7-1, telescopic sleeve 2-10-7-2, base Seat fixing bolt 2-10-7-3, inner tube 2-10-7-4, collet column 2-10-7-5, from stretcher 2-10-7-6, upper attachment 2- 10-7-7；Collet pedestal 2-10-7-1 positioned at bottom, upper surface outer ring are equipped with pedestal fixing bolt 2-10-7-3, quantity four It is a, it is fixed for collet pedestal 2-10-7-1 with lower workpiece；Telescopic sleeve 2-10- is equipped in the middle part of collet pedestal 2-10-7-1 7-2, it is flexible up and down, protect internal collet column 2-10-7-5；Collet column 2-10-7-5 is to be clamped position, elongated tubular, Inside is equipped with inner tube 2-10-7-4；The collet top column 2-10-7-5 is equipped with from stretcher 2-10-7-6, realizes collet column 2- 10-7-5 dismantles and connect locking with upper attachment 2-10-7-7；Upper attachment 2-10-7-7 is the connection with external workpiece Device is located at the top of collet column 2-10-7-5, detachable structure.

Further, it is described from stretcher 2-10-7-6 include: from tensioning shell 2-10-7-6-1, synanche cable wire 2-10- 7-6-2, retaining tooth harrow 2-10-7-6-3, cable wire tighten knob 2-10-7-6-4, synanche hoof column 2-10-7-6-5, upper attachment Vertical shaft 2-10-7-6-6；Positioned at the vertical shape of upper attachment vertical shaft 2-10-7-6-6 from the middle part of tensioning shell 2-10-7-6-1 State, surrounded by 4 synanche hoof column 2-10-7-6-5, equidistant arrangements, 4 synanche hoof column 2-10-7-6-5 under natural conditions There are gaps between upper attachment vertical shaft 2-10-7-6-6；Each synanche hoof column 2-10-7-6-5 or more respectively has one to lead to Hole, upper and lower two groups of synanche cable wire 2-10-7-6-2 pass through through-hole and concatenate 4 synanche hoof column 2-10-7-6-5, synanche cable wire 2- The both ends 10-7-6-2 are intertwined and connected with cable wire tightening knob 2-10-7-6-4；Cable wire tightening knob 2-10-7-6-4 is fixed on certainly It is tensioned outside shell 2-10-7-6-1；It is equipped with retaining tooth harrow 2-10-7-6-3 in cable wire tightening one end knob 2-10-7-6-4, only Moving back tooth harrow 2-10-7-6-3 prevents cable wire from tightening reversion when knob 2-10-7-6-4 is screwed.

Further, the lock 2-10-8 includes: lock column 2-10-8-1, auxiliary positioning bolt 2-10-8-2, auxiliary Bolt adjuster 2-10-8-3, extensible top cap 2-10-8-4, thrust plate 2-10-8-5, top cap knob 2-10-8-6, anti-dropout card Detain 2-10-8-7；Extensible top cap 2-10-8-4 umbrella positioned at side is deployable, contraction structure, passes through top cap knob 2- The generation of rotation the control expansion and contractive action of 10-8-6；Extensible top cap 2-10-8-4 passes through horizontal column and right side thrust plate 2-10-8-5 is fixedly connected；In side, thrust plate 2-10-8-5 upper and lower ends are respectively provided with auxiliary positioning bolt 2-10-8-2 and auxiliary bolt tune Device 2-10-8-3 is saved, the two assists extensible top cap 2-10-8-4 to position jointly；It is fixedly connected in the lower part thrust plate 2-10-8-5 There is lock column 2-10-8-1, is connect with drill bit assembly 2-10-3；It is buckled in the side thrust plate 2-10-8-5 equipped with anti-dropout 2-10-8-7。

Further, the extensible top cap 2-10-8-4 includes: to adjust draw-tube 2-10-8-4-1, top cap casing 2- 10-8-4-2, face cap 2-10-8-4-3, horizon bar 2-10-8-4-4, brace 2-10-8-4-5；Adjusting positioned at bottom is taken out Trombone slide 2-10-8-4-1 is vertically arranged, and slides through top cap casing 2-10-8-4-2, and with the one end horizon bar 2-10-8-4-4 Hingedly, the horizon bar 2-10-8-4-4 other end and brace 2-10-8-4-5 bottom end are hinged；The horizon bar 2-10-8-4- 4, brace 2-10-8-4-5 is 18 each, mutually corresponds, and is angularly laid out with center vertical pivot, wherein 18 brace 2- The convergence one of the top 10-8-4-5 is point articulated；It is fixed with face cap 2-10-8-4-3 on 18 surfaces brace 2-10-8-4-5, For highly elastic material production.

Further, the horizontal sliding bar 2-5 includes: auxiliary rod 2-5-1, and counterweight links up with 2-5-2, end sleeve 2-5-3, Deceleration spring 2-5-4 hits monitor 2-5-5, main slide bar 2-5-6, damping spring 2-5-7, laterally steering block 2-4；Positioned at bottom Auxiliary rod 2-5-1 is connect by both ends with the main slide bar 2-5-6 in top, and auxiliary rod 2-5-1 is socketed two counterweights and links up with 2-5-2；In The both ends main slide bar 2-5-6 top is equipped with damping spring 2-5-7, is fixedly connected with channel steel, hits for buffering sliding to equipment shadow It rings；The surface main slide bar 2-5-6 is socketed laterally steering block 2-4；Both end sleeve 2-5-3 are socketed in the one end main slide bar 2-5-6 It is slidably connected；It is equipped with deceleration spring 2-5-4 on the right side of end sleeve 2-5-3, is equipped on the right side of deceleration spring 2-5-4 and hits monitor 2- 5-5。

Further, the shock monitor 2-5-5 includes: wraping plate shaft 2-5-5-1, buffer 2-5-5-2, wraping plate 2- 5-5-3, optical reflective disk shaft 2-5-5-4, optical reflective disk 2-5-5-5, Laser emission receiver 2-5-5-6, vertical adjuster 2-5-5- 7, ordinary light source focusing device 2-5-5-8, level governor 2-5-5-9；The wraping plate 2-5-5-3 is with wraping plate shaft 2-5-5-1 Axis is freely rotated, wraping plate 2-5-5-3 vertical display, and wherein one end is equipped with deceleration spring 2-5-4 and is equipped with buffer at the end back side 2-5-5-2, the other end are rotatablely connected by optical reflective disk shaft 2-5-5-4 and optical reflective disk 2-5-5-5, wherein optical reflective disk shaft 2-5- 5-4 is for finely tuning optical reflective disk 2-5-5-5 angle；Optical reflective disk 2-5-5-5 opposite be equipped with Laser emission receiver 2-5-5-6, Ordinary light source focusing device 2-5-5-8, optical reflective disk 2-5-5-5 respectively with Laser emission receiver 2-5-5-6, ordinary light source focusing device 2-5-5-8 is on same level axis；It is equipped on Laser emission receiver 2-5-5-6, ordinary light source focusing device 2-5-5-8 vertical Adjuster 2-5-5-7 and level governor 2-5-5-9, for adjusting irradiation and reflection angle；Laser emission receiver 2-5-5-6 It is connect with 4 conducting wire of DSP control system.

Further, the cable wire tightening knob 2-10-7-6-4 includes: joystick knob 2-10-7-6-4-1, knob driving 2-10-7-6-4-2, cable wire driven wheel 2-10-7-6-4-3, knob locking tooth 2-10-7-6-4-4 are taken turns, cable wire is around wheel 2-10-7- 6-4-5 passes in and out oil pipe 2-10-7-6-4-6, immersion oil case 2-10-7-6-4-7, retaining tooth harrow 2-10-7-6-3；Rotation positioned at side Button handle 2-10-7-6-4-1 is fixedly connected with knob driving wheel 2-10-7-6-4-2；Knob driving wheel 2-10-7-6-4-2 and steel Rope driven wheel 2-10-7-6-4-3 teeth engaged transmission；Cable wire is around wheel 2-10-7-6-4-5 and cable wire driven wheel 2-10-7-6-4-3 It is fixedly and coaxially connected, cable wire is around wheel 2-10-7-6-4-5 surface wrap cable wire, and cable wire is around wheel 2-10-7-6-4-5 and winding steel Rope half soaks product in immersion oil case 2-10-7-6-4-7, and the open inside of upper part is equipped with antirust oil；In immersion oil case 2-10-7-6-4-7 Side is equipped with disengaging oil pipe 2-10-7-6-4-6；The knob locking tooth 2-10-7-6-4-4 and cable wire driven wheel 2-10-7-6- 4-3 is fixedly and coaxially connected；It is connected on the knob surface locking tooth 2-10-7-6-4-4 with the retaining tooth harrow 2-10-7-6-3 in outside.

Further, the anti-dropout buckle 2-10-8-7 includes: block button base 2-10-8-7-1, buckles bolt 2-10-8- 7-2, return spring 2-10-8-7-3, snaps into position bolt 2-10-8-7-4, dovetail pitch 2-10-8-7-5, wedge shape buckle 2-10-8- 7-6, safety pin 2-10-8-7-7；Block button base 2-10-8-7-1 positioned at bottom is equipped with pitches 2-10- with dovetail at an upper portion thereof The sliding slot that 8-7-5 matches, the two are slidably connected；Among two vertical chutes, perpendicular on stationary plane be equipped with snaps into position bolt 2-10-8-7-4, it defines that dovetail fork 2-10-8-7-5 can only be slided in block button base 2-10-8-7-1 sliding slot；In dovetail It pitches the bottom 2-10-8-7-5 and is equipped with buckle bolt 2-10-8-7-2 and return spring 2-10-8-7-3, dovetail fork 2-10-8-7-5 passes through The two is realized and the vertical elastic connection of block button base 2-10-8-7-1；Dovetail pitches 2-10-8-7-5 and other side wedge shape buckles 2- 10-8-7-6 structure is integral, wherein being wedge shape on the outside of wedge shape buckle 2-10-8-7-6, inside is equipped with Telescopic safety pin 2- 10-8-7-7。

Further, the turntable 2-10-9 includes: rotary tray motor 2-10-9-1, transaxle 2-10-9-2, turntable tooth 2- 10-9-3, workpiece jack 2-10-9-4, disk shaft 2-10-9-5；Rotary tray motor 2-10-9-1 positioned at one end, output end It connect with transaxle 2-10-9-2, while also being connect with 4 conducting wire of DSP control system；The transaxle 2-10-9-2 other end and turntable Tooth 2-10-9-3 connection；6 workpiece jack 2-10-9-4 being laid out in pairs, turntable tooth 2- are equipped with inside turntable tooth 2-10-9-3 The center 10-9-3 is equipped with disk shaft 2-10-9-5.

Further, the fine tuning elevating lever 2-9 includes: lifting column 2-9-1, column axle envelope 2-9-2, air storage chamber 2-9- 3, air pump 2-9-4, Bidirectional Air Valve 2-9-5 go up and down shell 2-9-6；Air pump 2-9-4 positioned at side passes through Bidirectional Air Valve 2-9-5 It is penetrated through with air storage chamber 2-9-3 level, while air pump 2-9-4, Bidirectional Air Valve 2-9-5 are connect with 4 conducting wire of DSP control system；Gas storage Room 2-9-3 is laid out vertically, one end is closed, the other end is equipped with column axle envelope 2-9-2, and column axle envelope 2-9-2 is in air storage chamber 2-9-3 Inner wall is fitted closely and is slided up and down；The lower part column axle envelope 2-9-2 is fixedly connected with lifting column 2-9-1.

Further, the blowning installation 2-10-1 includes: duct 2-10-1-1, dust Attraction block 2-10-1-2, steam Ring 2-10-1-3, valve 2-10-1-4, gas off-take 2-10-1-5, Alevaire spout 2-10-1-6, dust filter screen 2-10-1-7, Air intake duct 2-10-1-8；Gas off-take 2-10-1-5 positioned at one end, output port are equipped with valve 2-10-1-4, control with DSP 4 conducting wire of system connection processed；It is internal on the left of gas off-take 2-10-1-5 to be equipped with Alevaire spout 2-10-1-6, Alevaire spout 2- 10-1-6 is tubaeform, it is open to the left, connect by conduit with exterior atomization agent；It is equipped with and steams on the left of Alevaire spout 2-10-1-6 A large amount of through-holes are equipped on the left of vapour ring 2-10-1-3, steam ring 2-10-1-3 ring textures；On the left of steam ring 2-10-1-3 successively Equipped with dust filter screen 2-10-1-7, dust Attraction block 2-10-1-2, duct 2-10-1-1, air intake duct 2-10-1-8.

Further, a kind of High Precision Stereo engraving equipment, the equipment working method including the following steps:

Step 1: workpiece 3 is placed between bottom driving assembly apparatus 1 and engraving core apparatus 2, DSP control system 4 is opened Program instruction is simultaneously transferred to coordinate receiver 2-11 by coordinate receiver 2-11, and coordinate receiver 2-11 in turn passes program instruction It is handed to bottom driving assembly apparatus 1 and engraving core apparatus 2；DSP control system 4 opens drive assembly motor 1-6, drive assembly Motor 1-6 drives drive assembly screw rod 1-7 to carry out helical rotation according to instruction, and drive assembly screw rod 1-7 drives driving block 1-3 Specified coordinate position is moved to along transmission slide bar 1-2；

Step 2: DSP control system 4 opens lateral dynamics motor 2-7, and lateral dynamics motor 2-7 drives engraving core according to instruction Transversely slide bar 2-5 moves to specified coordinate position to device 2；

Step 3: DSP control system 4 opens vertical power motor 2-1, and vertical power motor 2-1 drives graver to have according to instruction Vertically slide bar 2-2 moves to specified coordinate position to head 2-10；DSP control system 4 opens fine tuning elevating lever 2-9, fine tuning lifting Bar 2-9 drives engraving cutterhead 2-10 micro-adjustment, and then carries out engraving processing to workpiece 3；

Step 4: in engraving cutterhead 2-10 work, drill bit assembly 2-10-3 is by lock 2-10-8 in angle positioning ring 2- 10-4 fixes operating angle；Blowning installation 2-10-1 is vertical by collet tension clips 2-10-2, air blowing pipe clamp 2-10-5, air blowing simultaneously Bar 2-10-6, upright bar collet 2-10-7 adjust operating angle, make its alignment work face；

Step 5: in upright bar collet 2-10-7 work, collet pedestal 2-10-7-1 passes through pedestal fixing bolt 2-10-7-3 and lower part Workpiece connection, upper attachment 2-10-7-7 from stretcher 2-10-7-6 and collet column 2-10-7-5 by locking；Collet It grips 2-10-2 and is clamped in collet column 2-10-7-5 waist；

Step 6: from stretcher 2-10-7-6 work, hand Screw cable wire tightens knob 2-10-7-6-4, by two groups of locks Larynx cable wire 2-10-7-6-2 tightening, drives 4 synanche hoof column 2-10-7-6-5 by upper attachment vertical shaft 2-10-7-6-6 locking, Prevent upper attachment 2-10-7-7 from being detached from from stretcher 2-10-7-6；Retaining tooth harrow 2-10-7-6-3 is opened, in spring Under the action of synanche cable wire 2-10-7-6-2 unfold reset automatically, synanche hoof column 2-10-7-6-5 is released to upper attachment vertical shaft The constraint of 2-10-7-6-6；

Step 7: lock 2-10-8 work in, top cap knob 2-10-8-6 rotate so that extensible top cap 2-10-8-4 shrink, And angle positioning ring 2-10-4 location hole is passed through, top cap knob 2-10-8-6 rotation is so that extensible top cap 2-10-8-4 after clamping In location hole outwardly deploying, locking function is realized；

Step 8: it in extensible top cap 2-10-8-4 initial, expanded condition, adjusts draw-tube 2-10-8-4-1 and passes through top cap casing 2-10-8-4-2 upward sliding, promote the bottom end horizon bar 2-10-8-4-4 shrink, drive the bottom end brace 2-10-8-4-5 to Axle center is pulled back, and extensible top cap 2-10-8-4 is promoted to shrink, on the contrary then stretch；

Step 9: in horizontal sliding bar 2-5 work, laterally steering block 2-4 is freely moved left and right on main slide bar 2-5-6；Once horizontal It being moved to the right to guide pad 2-4 high speed, hits end sleeve 2-5-3, part of it kinetic energy is decelerated spring 2-5-4 and is absorbed, Another part kinetic energy, which passes to, hits monitor 2-5-5, and then feeds back to DSP control system 4 and sound an alarm.

Step 10: in hitting monitor 2-5-5 work, pass through ordinary light source focusing device 2-5-5-8, vertical adjuster 2- 5-5-7 and level governor 2-5-5-9 adjustment laser irradiation and reflection angle, verifying Laser emission receiver 2-5-5-6 transmitting And it can be received by optical reflective disk 2-5-5-5 institute reflection laser；When the lower end wraping plate 2-5-5-3 is hit, optical reflective disk is driven 2-5-5-5 rotation, changes laser reflection angle, prevent Laser emission receiver 2-5-5-6 is from receiving reflection laser, into And it feeds back to DSP control system 4 and sounds an alarm.

Step 11: in cable wire tightening knob 2-10-7-6-4 work, joystick knob 2-10-7-6-4-1 is rotated, rotation is passed through Button driving wheel 2-10-7-6-4-2 band running wire driven wheel 2-10-7-6-4-3, cable wire are rotated and are tightened around wheel 2-10-7-6-4-5 Cable wire, while antirust oil is coated with to cable wire by immersion oil case 2-10-7-6-4-7；At the same time, knob locking tooth 2-10-7-6- 4-4 and retaining tooth harrow 2-10-7-6-3 collective effect prevent from oneself from reversely rotating.

Step 12: in anti-dropout buckle 2-10-8-7 work, the wedge shape buckle outer surface 2-10-8-7-6 projected angle of impact is fixed Position ring 2-10-4 location hole, so that wedge shape buckle 2-10-8-7-6 drives dovetail fork 2-10-8-7-5 relative to block button base 2- 10-8-7-1 is overhanging, and wedge shape buckle 2-10-8-7-6 enters location hole, in buckle bolt 2-10-8-7-2 and return spring 2-10-8- Dovetail fork 2-10-8-7-5 drives wedge shape buckle 2-10-8-7-6 return under 7-3 collective effect, and further passes through safety pin 2-10-8-7-7 is locked.

Step 13: in turntable 2-10-9 work, DSP control system 4 controls rotary tray motor 2-10-9-1, and passes through conversion Axis 2-10-9-2 drives turntable tooth 2-10-9-3 to rotate by a certain angle along disk shaft 2-10-9-5, so that workpiece jack 2- Different workpieces in 10-9-4, are converted according to needed for work.

Step 14: in fine tuning elevating lever 2-9 work, air pump 2-9-4 controllably generates air pressure, so that air storage chamber 2-9-3 is pressed Power increases, and pushes lifting column 2-9-1 to move down by column axle envelope 2-9-2；Conversely, lifting column 2-9-1 is moved up.

Step 15: in blowning installation 2-10-1 work, air enters from air intake duct 2-10-1-8, passes through duct 2-10- 1-1 successively removes dust by dust Attraction block 2-10-1-2, dust filter screen 2-10-1-7；It is generated by steam ring 2-10-1-3 120 degree of high-temperature steams purification；The Alevaire that Alevaire spout 2-10-1-6 is generated carries out bulky grain sedimentation to air, passes through gas The door controllable outlet of 2-10-1-4.

A kind of High Precision Stereo engraving machine evaluating production capacity of the present invention and equipment, novel and reasonable structure, homework precision is high, The scope of application is wide.

Detailed description of the invention

Fig. 1 is a kind of High Precision Stereo engraving equipment figure in the present invention.

Fig. 2 is 1 figure of bottom drive assembly device in the present invention.

Fig. 3 is engraving 2 figure of core apparatus in the present invention.

Fig. 4 is that cutterhead 2-10 figure is carved in the present invention.

Fig. 5 is neutral bar cramp set 2-10-7 figure of the invention.

Fig. 6 is to scheme in the present invention from stretcher 2-10-7-6.

Fig. 7 is that 2-10-8 figure is latched in the present invention.

Fig. 8 is extensible top cap 2-10-8-4 figure in the present invention.

Fig. 9 is that horizontal sliding bar 2-5 schemes in the present invention.

Figure 10 is that monitor 2-5-5 figure is hit in the present invention.

Figure 11 is cable wire tightening knob 2-10-7-6-4 figure in the present invention.

Figure 12 is anti-dropout buckle 2-10-8-7 figure in the present invention.

Figure 13 is turntable 2-10-9 figure of the present invention.

Figure 14 is that elevating lever 2-9 figure is finely tuned in the present invention.

Figure 15 is that blowning installation 2-10-1 schemes in the present invention.

Specific embodiment

A kind of High Precision Stereo engraving equipment provided by the invention is carried out furtherly with reference to the accompanying drawings and examples It is bright.

Embodiment

It is a kind of High Precision Stereo engraving equipment figure in the present invention shown in Fig. 1.It include: bottom driving assembly apparatus 1, engraving Core apparatus 2, workpiece 3, DSP control system 4；1 upper surface of bottom driving assembly apparatus is equipped with engraving core apparatus 2, institute It states screw between engraving core apparatus 2 and bottom driving assembly apparatus 1 to be fixedly connected, the workpiece 3 is located at bottom driving assembly Between device 1 and engraving core apparatus 2, the DSP control system 4 is located at 1 side of bottom driving assembly apparatus；The bottom passes The longitudinal transmission total kilometres of dynamic assembly apparatus 1 are between the m of 0.2 m~5；Vertically transmission total kilometres exist the engraving core apparatus 2 Between the m of 0.1 m~2, laterally transmission total kilometres between the m of 0.15 m~2.5.

It is 1 figure of bottom drive assembly device in the present invention shown in Fig. 2.The bottom driving assembly apparatus 1 includes: that transmission is solid Fixed board 1-1 is driven slide bar 1-2, and driving block 1-3, lateral fixed beam 1-4 are mounted laterally plate 1-5, drive assembly motor 1-6, Drive assembly screw rod 1-7, dust collection machine 1-8；The transmission upper surface fixed plate 1-1 is equipped with transmission slide bar 1-2, the transmission Slide bar 1-2 is located at transmission fixed plate 1-1 the right and left, and transmission slide bar 1-2 quantity is 2 groups, passes through between two groups of transmission slide bar 1-2 Lateral fixed beam 1-4 connection；The driving block 1-3 is located at the transmission upper surface slide bar 1-2, driving block 1-3 and transmission slide bar 1-2 is slidably connected；The plate 1-5 that is mounted laterally is located at the transmission front and rear sides fixed plate 1-1, is mounted laterally plate 1-5 and transmission is solid Fixed board 1-1 is welded and fixed；The drive assembly motor 1-6, which is located in one of, is mounted laterally the outer surface plate 1-5, drive assembly electricity Machine 1-6 is connect with 4 polygon control survey of DSP control system, and drive assembly motor 1-6 output end is equipped with drive assembly screw rod 1-7, described Drive assembly screw rod 1-7, which passes through lateral fixed beam 1-4 centre pilot hole and is fixed on another, is mounted laterally the surface plate 1-5；Institute It states dust collection machine 1-8 and is located at the transmission bottom fixed plate 1-1, the two perforation.

It is engraving 2 figure of core apparatus in the present invention shown in Fig. 3.The engraving core apparatus 2 includes: vertical power motor 2- 1, vertical slide bar 2-2, vertical guide pad 2-3, laterally steering block 2-4, horizontal sliding bar 2-5 install locating rack 2-6, lateral dynamics Motor 2-7 carves guide plate 2-8, finely tunes elevating lever 2-9, carves cutterhead 2-10, coordinate receiver 2-11；It is described vertical dynamic Force motor 2-1 is connect with 4 polygon control survey of DSP control system, and the vertical slide bar 2-2 is mounted on vertical power motor 2-1 output Vertical guide pad 2-3 is held and passes through, vertical slide bar 2-2 screw-rod structure is connect with vertical guide pad 2-3 screw thread；The transverse direction Power motor 2-7 is fixed on the installation outer surface locating rack 2-6, and lateral dynamics motor 2-7 and 4 polygon control survey of DSP control system connect It connects, lateral dynamics motor 2-7 output end is equipped with horizontal sliding bar 2-5, and the horizontal sliding bar 2-5 passes through the surface laterally steering block 2-4 The pilot hole being equipped with, horizontal sliding bar 2-5 screw-rod structure are connect with laterally steering block 2-4 screw thread；The engraving guide plate 2-8 Vertical guide pad 2-3 sidewall surfaces are installed on, engraving guide plate 2-8 is L-shaped, and engraving is equipped with guiding among the bottom edge guide plate 2-8 Hole；The fine tuning elevating lever 2-9 is installed on above engraving guide plate 2-8, fine tuning elevating lever 2-9 and 4 conducting wire control of DSP control system System connection, fine tuning elevating lever 2-9 output end are equipped with engraving cutterhead 2-10；The coordinate receiver 2-11 is located at engraving guide plate The lower surface 2-8, coordinate receiver 2-11 are connect with 4 polygon control survey of DSP control system；Vertical guide pad 2-3, laterally steering block 2- 4, engraving guide plate 2-8 is integral.

It is that cutterhead 2-10 figure is carved in the present invention shown in Fig. 4.The engraving cutterhead 2-10 includes: blowning installation 2- 10-1, collet tension clips 2-10-2, drill bit assembly 2-10-3, angle positioning ring 2-10-4, air blowing pipe clamp 2-10-5, air blowing upright bar 2-10-6, upright bar collet 2-10-7 latch 2-10-8, turntable 2-10-9；Angle positioning ring 2-10-4 positioned at top, flat strip shaped Oval structures, surface are equipped with a large amount of location holes；It is equipped with drill bit assembly 2-10-3 in its underpart, the two is connected by lock 2-10-8 It connects；Lock 2-10-8 is inserted into any location hole as needed, realizes that drill bit assembly 2-10-3 operating angle arbitrarily positions；In drill bit Component 2-10-3 waist be equipped with collet tension clips 2-10-2, the collet tension clips 2-10-2 other end by upright bar collet 2-10-7 with Air blowing upright bar 2-10-6 connection, the upright bar collet 2-10-7 are socketed in outside air blowing upright bar 2-10-6, collet tension clips 2-10- 2 opposition bar cramp set 2-10-7 implement to compress, and realize and clamp to air blowing upright bar 2-10-6；It is connected in the lower part air blowing upright bar 2-10-6 The lower part air blowing pipe clamp 2-10-5, air blowing pipe clamp 2-10-5 holds blowning installation 2-10-1, wherein the one end blowning installation 2-10-1 External gas cylinder is connected, the venthole of the other end is directed at the end drill bit assembly 2-10-3；It is equipped with and turns in the lower part drill bit assembly 2-10-3 Disk 2-10-9.

It is neutral bar cramp set 2-10-7 figure of the invention shown in Fig. 5.The upright bar collet 2-10-7 includes: collet pedestal 2- 10-7-1, telescopic sleeve 2-10-7-2, pedestal fixing bolt 2-10-7-3, inner tube 2-10-7-4, collet column 2-10-7-5 open certainly Tight device 2-10-7-6, upper attachment 2-10-7-7；Collet pedestal 2-10-7-1 positioned at bottom, upper surface outer ring are equipped with base Seat fixing bolt 2-10-7-3, quantity are four, are fixed for collet pedestal 2-10-7-1 with lower workpiece；In collet pedestal 2- Telescopic sleeve 2-10-7-2 is equipped in the middle part of 10-7-1, it is flexible up and down, protect internal collet column 2-10-7-5；Collet column 2- 10-7-5 is to be clamped position, elongated tubular, and inside is equipped with inner tube 2-10-7-4；The collet top column 2-10-7-5 is equipped with from tensioning Device 2-10-7-6 realizes that collet column 2-10-7-5 dismantles and connect locking with upper attachment 2-10-7-7；Upper attachment 2-10-7-7 is the connector with external workpiece, is located at the top of collet column 2-10-7-5, detachable structure.

It is to scheme in the present invention from stretcher 2-10-7-6 shown in shown in Fig. 6.It is described from stretcher 2-10-7-6 include: from Tight shell 2-10-7-6-1, synanche cable wire 2-10-7-6-2, retaining tooth harrow 2-10-7-6-3, cable wire tighten knob 2-10-7-6- 4, synanche hoof column 2-10-7-6-5, upper attachment vertical shaft 2-10-7-6-6；Positioned at from the middle part of tensioning shell 2-10-7-6-1 Upper attachment vertical shaft 2-10-7-6-6 vertical state, surrounded by 4 synanche hoof column 2-10-7-6-5, equidistant arrangements, There are gaps between 4 synanche hoof column 2-10-7-6-5 and upper attachment vertical shaft 2-10-7-6-6 under natural conditions；Each lock Larynx hoof column 2-10-7-6-5 or more respectively has a through-hole, and upper and lower two groups of synanche cable wire 2-10-7-6-2 pass through through-hole for 4 synanches Hoof column 2-10-7-6-5 concatenation, the both ends synanche cable wire 2-10-7-6-2 are intertwined and connected with cable wire tightening knob 2-10-7-6-4； Cable wire tightening knob 2-10-7-6-4 is fixed on from outside tensioning shell 2-10-7-6-1；Knob 2-10-7-6-4 is tightened in cable wire One end is equipped with retaining tooth harrow 2-10-7-6-3, when retaining tooth harrow 2-10-7-6-3 prevents cable wire tightening knob 2-10-7-6-4 from screwing Reversion.

Fig. 7 is that 2-10-8 figure is latched in the present invention.The lock 2-10-8 includes: lock column 2-10-8-1, and auxiliary is fixed Position bolt 2-10-8-2, assists bolt adjuster 2-10-8-3, extensible top cap 2-10-8-4, thrust plate 2-10-8-5, top cap knob 2-10-8-6, anti-dropout buckle 2-10-8-7；Extensible top cap 2-10-8-4 umbrella positioned at side is deployable, contraction structure, The generation with contractive action is unfolded by the rotation control of top cap knob 2-10-8-6 in it；Extensible top cap 2-10-8-4 passes through water Flat column is fixedly connected with right side thrust plate 2-10-8-5；In side, thrust plate 2-10-8-5 upper and lower ends are respectively provided with auxiliary positioning bolt 2- 10-8-2 and auxiliary bolt adjuster 2-10-8-3, the two assist extensible top cap 2-10-8-4 to position jointly；In thrust plate 2-10- The lower part 8-5 is fixedly connected with lock column 2-10-8-1, connect with drill bit assembly 2-10-3；In the side thrust plate 2-10-8-5 2-10-8-7 is buckled equipped with anti-dropout.

It is extensible top cap 2-10-8-4 figure in the present invention shown in Fig. 8.The extensible top cap 2-10-8-4 includes: to adjust Draw-tube 2-10-8-4-1, top cap casing 2-10-8-4-2, face cap 2-10-8-4-3, horizon bar 2-10-8-4-4, brace 2-10-8-4-5；Adjusting draw-tube 2-10-8-4-1 positioned at bottom is vertically arranged, and slides through top cap casing 2-10-8-4- 2, and, the horizon bar 2-10-8-4-4 other end and brace 2-10-8-4-5 bottom one hinged with the one end horizon bar 2-10-8-4-4 End is hinged；The horizon bar 2-10-8-4-4, brace 2-10-8-4-5 are 18 each, mutually correspond, with center vertical pivot It is angularly laid out, wherein 18 top brace 2-10-8-4-5 convergences one are point articulated；In 18 brace 2-10-8-4-5 tables Face is fixed with face cap 2-10-8-4-3, makes for highly elastic material.

It is that horizontal sliding bar 2-5 schemes in the present invention shown in Fig. 9.The horizontal sliding bar 2-5 includes: auxiliary rod 2-5-1, and counterweight is hung Hook 2-5-2, end sleeve 2-5-3, deceleration spring 2-5-4 hit monitor 2-5-5, main slide bar 2-5-6, damping spring 2-5-7, horizontal To guide pad 2-4；Auxiliary rod 2-5-1 positioned at bottom is connect by both ends with the main slide bar 2-5-6 in top, auxiliary rod 2-5-1 set Meet two counterweight hook 2-5-2；It is equipped with damping spring 2-5-7 on the both ends main slide bar 2-5-6 top, is fixedly connected, uses with channel steel Hitting in buffering sliding influences equipment；The surface main slide bar 2-5-6 is socketed laterally steering block 2-4；In main mono- end cap of slide bar 2-5-6 Both end sleeve 2-5-3 are connected to be slidably connected；Deceleration spring 2-5-4 is equipped on the right side of end sleeve 2-5-3, in deceleration spring 2-5- 4 right sides, which are equipped with, hits monitor 2-5-5.

It is that monitor 2-5-5 figure is hit in the present invention shown in Figure 10.The shock monitor 2-5-5 includes: wraping plate shaft 2-5-5-1, buffer 2-5-5-2, wraping plate 2-5-5-3, optical reflective disk shaft 2-5-5-4, optical reflective disk 2-5-5-5, Laser emission connect Receive device 2-5-5-6, vertical adjuster 2-5-5-7, ordinary light source focusing device 2-5-5-8, level governor 2-5-5-9；It is described to stick up Plate 2-5-5-3 is freely rotated using wraping plate shaft 2-5-5-1 as axis, wraping plate 2-5-5-3 vertical display, and wherein one end is equipped with deceleration spring 2-5-4 is simultaneously equipped with buffer 2-5-5-2 at the end back side, and the other end passes through optical reflective disk shaft 2-5-5-4 and optical reflective disk 2-5-5- 5 rotation connections, wherein optical reflective disk shaft 2-5-5-4 is for finely tuning optical reflective disk 2-5-5-5 angle；It opposes in optical reflective disk 2-5-5-5 Face be equipped with Laser emission receiver 2-5-5-6, ordinary light source focusing device 2-5-5-8, optical reflective disk 2-5-5-5 respectively with Laser emission Receiver 2-5-5-6, ordinary light source focusing device 2-5-5-8 are on same level axis；In Laser emission receiver 2-5-5-6, general Light passing source focusing device 2-5-5-8 be equipped with vertical adjuster 2-5-5-7 and level governor 2-5-5-9, for adjust irradiation and Reflection angle；Laser emission receiver 2-5-5-6 is connect with 4 conducting wire of DSP control system.

It is cable wire tightening knob 2-10-7-6-4 figure in the present invention shown in Figure 11.The cable wire tightens knob 2-10-7-6-4 It include: joystick knob 2-10-7-6-4-1, knob driving wheel 2-10-7-6-4-2, cable wire driven wheel 2-10-7-6-4-3, knob Locking tooth 2-10-7-6-4-4, cable wire pass in and out oil pipe 2-10-7-6-4-6, immersion oil case 2-10-7-6- around wheel 2-10-7-6-4-5 4-7, retaining tooth harrow 2-10-7-6-3；Joystick knob 2-10-7-6-4-1 positioned at side is fixedly connected with knob driving wheel 2- 10-7-6-4-2；Knob driving wheel 2-10-7-6-4-2 and cable wire driven wheel 2-10-7-6-4-3 teeth engaged transmission；Cable wire around Wheel 2-10-7-6-4-5 and cable wire driven wheel 2-10-7-6-4-3 is fixedly and coaxially connected, and cable wire is twined around the wheel surface 2-10-7-6-4-5 Around cable wire, cable wire soaks product in immersion oil case 2-10-7-6-4-7 around wheel 2-10-7-6-4-5 and winding cable wire half, and upper part is spacious Mouth is internal to be equipped with antirust oil；Disengaging oil pipe 2-10-7-6-4-6 is equipped in the immersion oil side case 2-10-7-6-4-7；The knob stops Tooth 2-10-7-6-4-4 and cable wire driven wheel 2-10-7-6-4-3 is moved back to be fixedly and coaxially connected；In knob locking tooth 2-10-7-6-4-4 Surface is connected with the retaining tooth harrow 2-10-7-6-3 in outside.

It is anti-dropout buckle 2-10-8-7 figure in the present invention shown in Figure 12.The anti-dropout buckle 2-10-8-7 includes: card Pedestal 2-10-8-7-1 is detained, bolt 2-10-8-7-2, return spring 2-10-8-7-3, snaps into position bolt 2-10-8-7-4, swallow are buckled Caudal furca 2-10-8-7-5, wedge shape buckle 2-10-8-7-6, safety pin 2-10-8-7-7；Block button base 2-10- positioned at bottom 8-7-1, is equipped with the sliding slot to match with dovetail fork 2-10-8-7-5 at an upper portion thereof, and the two is slidably connected；In two vertical chutes Between, perpendicular to stationary plane be equipped with snaps into position bolt 2-10-8-7-4, it define dovetail fork 2-10-8-7-5 can only buckle Sliding in pedestal 2-10-8-7-1 sliding slot；Buckle bolt 2-10-8-7-2 and return spring are equipped in the dovetail fork bottom 2-10-8-7-5 2-10-8-7-3, dovetail are pitched 2-10-8-7-5 and are realized and the vertical elastic connection of block button base 2-10-8-7-1 by the two；Dovetail It pitches 2-10-8-7-5 and wedge shape buckle 2-10-8-7-6 structure in the other side is integral, wherein being on the outside of wedge shape buckle 2-10-8-7-6 Wedge shape, inside are equipped with Telescopic safety pin 2-10-8-7-7.

It is turntable 2-10-9 figure of the present invention shown in Figure 13.The turntable 2-10-9 includes: rotary tray motor 2-10-9-1, is turned Change axis 2-10-9-2, turntable tooth 2-10-9-3, workpiece jack 2-10-9-4, disk shaft 2-10-9-5；Turntable positioned at one end Motor 2-10-9-1, output end are connect with transaxle 2-10-9-2, while also being connect with 4 conducting wire of DSP control system；Transaxle The 2-10-9-2 other end is connect with turntable tooth 2-10-9-3；6 workpiece being laid out in pairs are equipped with inside turntable tooth 2-10-9-3 to insert Hole 2-10-9-4, the turntable center tooth 2-10-9-3 are equipped with disk shaft 2-10-9-5.

It is that elevating lever 2-9 figure is finely tuned in the present invention shown in Figure 14.The fine tuning elevating lever 2-9 includes: lifting column 2-9- 1, column axle envelope 2-9-2, air storage chamber 2-9-3, air pump 2-9-4, Bidirectional Air Valve 2-9-5 go up and down shell 2-9-6；Positioned at side Air pump 2-9-4 is penetrated through by Bidirectional Air Valve 2-9-5 and air storage chamber 2-9-3 level, at the same air pump 2-9-4, Bidirectional Air Valve 2-9-5 with The connection of 4 conducting wire of DSP control system；Air storage chamber 2-9-3 is laid out vertically, one end is closed, the other end is equipped with column axle envelope 2-9-2, Column axle envelope 2-9-2 is fitted closely and is slided up and down in air storage chamber 2-9-3 inner wall；The lower part column axle envelope 2-9-2 is fixedly connected with Lifting column 2-9-1.

It is that blowning installation 2-10-1 schemes in the present invention shown in Figure 15.The blowning installation 2-10-1 includes: duct 2-10-1- 1, dust Attraction block 2-10-1-2, steam ring 2-10-1-3, valve 2-10-1-4, gas off-take 2-10-1-5, Alevaire spout 2- 10-1-6, dust filter screen 2-10-1-7, air intake duct 2-10-1-8；Gas off-take 2-10-1-5 positioned at one end, output port Equipped with valve 2-10-1-4, it is connect with 4 conducting wire of DSP control system；It is internal on the left of gas off-take 2-10-1-5 to be equipped with Alevaire Spout 2-10-1-6, Alevaire spout 2-10-1-6 is tubaeform, it is open to the left, connect by conduit with exterior atomization agent；In mist It is equipped with steam ring 2-10-1-3 on the left of agent spout 2-10-1-6, is equipped on the left of steam ring 2-10-1-3 ring textures a large amount of logical Hole；Dust filter screen 2-10-1-7, dust Attraction block 2-10-1-2, duct 2- are successively arranged on the left of steam ring 2-10-1-3 10-1-1, air intake duct 2-10-1-8.

Claims (10)

1. a kind of High Precision Stereo engraving equipment, comprising: bottom driving assembly apparatus (1) is carved core apparatus (2), workpiece (3), DSP control system (4)；It is characterized in that, bottom driving assembly apparatus (1) upper surface is equipped with engraving core apparatus (2), screw is fixedly connected between the engraving core apparatus (2) and bottom driving assembly apparatus (1), and the workpiece (3) is located at Between bottom driving assembly apparatus (1) and engraving core apparatus (2), the DSP control system (4) is located at bottom driving assembly dress Set (1) side；The bottom driving assembly apparatus (1) is longitudinally driven total kilometres between the m of 0.2 m~5；The engraving core Vertically transmission total kilometres are driven total kilometres between the m of 0.15 m~2.5 to device (2) between the m of 0.1 m~2, laterally；

The engraving core apparatus (2) is equipped with engraving cutterhead (2-10)；

The engraving cutterhead (2-10) is equipped with blowning installation (2-10-1)；

The blowning installation (2-10-1) includes: duct (2-10-1-1), dust Attraction block (2-10-1-2), steam ring (2-10- 1-3), valve (2-10-1-4), gas off-take (2-10-1-5), Alevaire spout (2-10-1-6), dust filter screen (2-10-1- 7), air intake duct (2-10-1-8)；Gas off-take (2-10-1-5) positioned at one end, output port are equipped with valve (2-10-1-4), It connect with DSP control system (4) conducting wire；It is internal on the left of gas off-take (2-10-1-5) to be equipped with Alevaire spout (2-10-1- 6), Alevaire spout (2-10-1-6) it is tubaeform, it is open to the left, connect by conduit with exterior atomization agent；In Alevaire spout It is equipped with steam ring (2-10-1-3) on the left of (2-10-1-6), a large amount of through-holes are equipped on the left of steam ring (2-10-1-3) ring textures； Dust filter screen (2-10-1-7), dust Attraction block (2-10-1-2), duct are successively arranged on the left of steam ring (2-10-1-3) (2-10-1-1), air intake duct (2-10-1-8)；

A kind of High Precision Stereo engraving machine evaluating production capacity method, this method calculate as follows:

In formula:

DKTProduction capacity growth rate；yProduct average selling price；H- product actual production；aSell year-on-year growth rate；mFormer material Expect waste；The b- prices of raw materials.

2. a kind of High Precision Stereo engraving equipment according to claim 1, which is characterized in that the bottom driving assembly apparatus (1) include: transmission fixed plate (1-1), be driven slide bar (1-2), driving block (1-3), lateral fixed beam (1-4) is mounted laterally Plate (1-5), drive assembly motor (1-6), drive assembly screw rod (1-7), dust collection machine (1-8)；Transmission fixed plate (the 1- 1) upper surface is equipped with transmission slide bar (1-2), and the transmission slide bar (1-2) is located at transmission fixed plate (1-1) the right and left, and transmission is slided Bar (1-2) quantity is 2 groups, is connected between two groups of transmission slide bars (1-2) by lateral fixed beam (1-4)；Driving block (the 1- 3) it is located at transmission upper surface slide bar (1-2), driving block (1-3) is slidably connected with transmission slide bar (1-2)；It is described to be mounted laterally plate (1-5) is located at transmission front and rear sides fixed plate (1-1), is mounted laterally plate (1-5) and is welded and fixed with transmission fixed plate (1-1)；Institute It states drive assembly motor (1-6) and is located in one of and be mounted laterally the outer surface plate (1-5), drive assembly motor (1-6) and DSP are controlled System (4) polygon control survey connection processed, drive assembly motor (1-6) output end are equipped with drive assembly screw rod (1-7), and the transmission is total It passes through the intermediate pilot hole of lateral fixed beam (1-4) at screw rod (1-7) and is fixed on another and be mounted laterally the surface plate (1-5)；Institute It states dust collection machine (1-8) and is located at transmission bottom fixed plate (1-1), the two perforation.

3. a kind of High Precision Stereo engraving equipment according to claim 2, which is characterized in that the engraving core apparatus (2) It include: vertical power motor (2-1), vertical slide bar (2-2), vertical guide pad (2-3), laterally steering block (2-4), horizontal sliding bar (2-5) is installed locating rack (2-6), lateral dynamics motor (2-7), is carved guide plate (2-8), is finely tuned elevating lever (2-9), engraving Cutterhead (2-10), coordinate receiver (2-11)；The vertical power motor (2-1) and DSP control system (4) polygon control survey connect It connects, the vertical slide bar (2-2) is mounted on vertical power motor (2-1) output end and passes through vertical guide pad (2-3), vertical sliding Bar (2-2) screw-rod structure is connect with vertical guide pad (2-3) screw thread；The lateral dynamics motor (2-7) is fixed on installation The outer surface locating rack (2-6), lateral dynamics motor (2-7) are connect with DSP control system (4) polygon control survey, lateral dynamics motor (2-7) output end is equipped with horizontal sliding bar (2-5), and the horizontal sliding bar (2-5) is led across what the surface laterally steering block (2-4) was equipped with Xiang Kong, horizontal sliding bar (2-5) screw-rod structure are connect with laterally steering block (2-4) screw thread；Engraving guide plate (2-8) peace Loaded on vertical guide pad (2-3) sidewall surfaces, engraving guide plate (2-8) is L-shaped, and engraving is equipped among the bottom edge guide plate (2-8) Pilot hole；The fine tuning elevating lever (2-9) is installed on above engraving guide plate (2-8), and fine tuning elevating lever (2-9) and DSP are controlled The connection of system (4) polygon control survey, fine tuning elevating lever (2-9) output end are equipped with engraving cutterhead (2-10)；The coordinate receiver (2-11) is located at engraving lower surface guide plate (2-8), and coordinate receiver (2-11) is connect with DSP control system (4) polygon control survey； Vertical guide pad (2-3), laterally steering block (2-4), engraving guide plate (2-8) are integral.

4. a kind of High Precision Stereo engraving equipment according to claim 3, which is characterized in that the engraving cutterhead (2-10) It include: blowning installation (2-10-1), collet tension clips (2-10-2), drill bit assembly (2-10-3), angle positioning ring (2-10-4), Air blowing pipe clamp (2-10-5), air blowing upright bar (2-10-6), upright bar collet (2-10-7) latch (2-10-8), turntable (2-10-9)； Angle positioning ring (2-10-4) positioned at top, flat strip shaped oval structures, surface are equipped with a large amount of location holes；It is equipped with and bores in its underpart Head assembly (2-10-3), the two pass through lock (2-10-8) connection；Lock (2-10-8) is inserted into any location hole as needed, real Existing drill bit assembly (2-10-3) operating angle arbitrarily positions；Collet tension clips (2-10- is equipped in drill bit assembly (2-10-3) waist 2), collet tension clips (2-10-2) other end is connect by upright bar collet (2-10-7) with air blowing upright bar (2-10-6), described vertical Bar cramp set (2-10-7) is socketed in air blowing upright bar (2-10-6) outside, and collet tension clips (2-10-2) oppose bar cramp set (2-10-7) Implement to compress, realizes and air blowing upright bar (2-10-6) is clamped；Air blowing pipe clamp (2- is connected in the lower part air blowing upright bar (2-10-6) 10-5), the lower part air blowing pipe clamp (2-10-5) holds blowning installation (2-10-1), and wherein blowning installation one end (2-10-1) connects The venthole of external gas cylinder, the other end is directed at the end drill bit assembly (2-10-3)；It is equipped with and turns in the drill bit assembly lower part (2-10-3) Disk (2-10-9).

5. a kind of High Precision Stereo engraving equipment according to claim 4, which is characterized in that the upright bar collet (2-10-7) It include: collet pedestal (2-10-7-1), telescopic sleeve (2-10-7-2), pedestal fixing bolt (2-10-7-3), inner tube (2-10-7- 4), collet column (2-10-7-5), from stretcher (2-10-7-6), upper attachment (2-10-7-7)；Collet positioned at bottom Pedestal (2-10-7-1), upper surface outer ring is equipped with pedestal fixing bolt (2-10-7-3), quantity is four, is used for collet pedestal (2-10-7-1) is fixed with lower workpiece；It is equipped with telescopic sleeve (2-10-7-2) in the middle part of collet pedestal (2-10-7-1), up and down It is flexible, protect internal collet column (2-10-7-5)；Collet column (2-10-7-5) is to be clamped position, elongated tubular, internal Equipped with inner tube (2-10-7-4)；The collet column top (2-10-7-5) is equipped with from stretcher (2-10-7-6), realizes collet column (2-10-7-5) dismantles and connect locking with upper attachment (2-10-7-7)；Upper attachment (2-10-7-7) is and external work The connector of part is located at the top of collet column (2-10-7-5), detachable structure.

6. a kind of High Precision Stereo engraving equipment according to claim 5, which is characterized in that described from stretcher (2-10-7- It 6) include: from tensioning shell (2-10-7-6-1), synanche cable wire (2-10-7-6-2), retaining tooth harrow (2-10-7-6-3), cable wire It tightens knob (2-10-7-6-4), synanche hoof column (2-10-7-6-5), upper attachment vertical shaft (2-10-7-6-6)；It is opened positioned at oneself Upper attachment vertical shaft (2-10-7-6-6) vertical state in the middle part of tight shell (2-10-7-6-1), locks surrounded by 4 Larynx hoof column (2-10-7-6-5), equidistant arrangement, under natural conditions 4 synanche hoof columns (2-10-7-6-5) and upper attachment vertical shaft There are gaps between (2-10-7-6-6)；Each synanche hoof column (2-10-7-6-5) respectively has a through-hole, upper and lower two groups of locks up and down Larynx cable wire (2-10-7-6-2) passes through through-hole and concatenates 4 synanche hoof columns (2-10-7-6-5), synanche cable wire (2-10-7-6-2) Both ends are intertwined and connected with cable wire tightening knob (2-10-7-6-4)；Cable wire tightening knob (2-10-7-6-4) is fixed on from tensioning Shell (2-10-7-6-1) is external；It is equipped with retaining tooth harrow (2-10-7-6-3) in cable wire tightening knob one end (2-10-7-6-4), Reversion when retaining tooth harrow (2-10-7-6-3) prevents cable wire tightening knob (2-10-7-6-4) from screwing.

7. a kind of High Precision Stereo engraving equipment according to claim 6, which is characterized in that lock (2-10-8) packet Include: lock column (2-10-8-1), auxiliary positioning bolt (2-10-8-2) assist bolt adjuster (2-10-8-3), extensible top cap (2-10-8-4), thrust plate (2-10-8-5), top cap knob (2-10-8-6), anti-dropout buckle (2-10-8-7)；Positioned at side Extensible top cap (2-10-8-4) umbrella is deployable, contraction structure, controlled by the rotation of top cap knob (2-10-8-6) The generation of expansion and contractive action；Extensible top cap (2-10-8-4) is fixed by horizontal column and right side thrust plate (2-10-8-5) Connection；In side, thrust plate (2-10-8-5) upper and lower ends are respectively provided with auxiliary positioning bolt (2-10-8-2) and auxiliary bolt adjuster (2- 10-8-3), the two assists extensible top cap (2-10-8-4) to position jointly；It is fixedly connected in the lower part thrust plate (2-10-8-5) It latches column (2-10-8-1), is connect with drill bit assembly (2-10-3)；Anti-dropout is equipped in the thrust plate side (2-10-8-5) It buckles (2-10-8-7).

8. a kind of High Precision Stereo engraving equipment according to claim 7, which is characterized in that the extensible top cap (2-10- It 8-4) include: to adjust draw-tube (2-10-8-4-1), top cap casing (2-10-8-4-2), face cap (2-10-8-4-3), level Bar (2-10-8-4-4), brace (2-10-8-4-5)；Adjusting draw-tube (2-10-8-4-1) positioned at bottom is vertically arranged, It slides through top cap casing (2-10-8-4-2), and hinged with the one end horizon bar (2-10-8-4-4), horizon bar (2-10-8-4- 4) other end and brace (2-10-8-4-5) bottom end are hinged；The horizon bar (2-10-8-4-4), brace (2-10- 8-4-5) each 18, mutual one-to-one correspondence, are angularly laid out with center vertical pivot, wherein 18 braces (2-10-8-4-5) tops End convergence one is point articulated；It is fixed with face cap (2-10-8-4-3) on 18 brace (2-10-8-4-5) surfaces, is high-elastic Property material production.

9. a kind of High Precision Stereo engraving equipment according to claim 8, which is characterized in that horizontal sliding bar (2-5) packet Include: auxiliary rod (2-5-1), counterweight link up with (2-5-2), end sleeve (2-5-3), and deceleration spring (2-5-4) hits monitor (2- 5-5), main slide bar (2-5-6), damping spring (2-5-7), laterally steering block (2-4)；Auxiliary rod (2-5-1) positioned at bottom, passes through Both ends are connect with top main slide bar (2-5-6), and auxiliary rod (2-5-1) is socketed two counterweight hooks (2-5-2)；In main slide bar (2- 5-6) both ends top is equipped with damping spring (2-5-7), is fixedly connected with channel steel, influences for buffering sliding and hitting on equipment；It is main The slide bar surface (2-5-6) is socketed laterally steering block (2-4)；End sleeve (2-5-3) two is socketed in the one end main slide bar (2-5-6) Person is slidably connected；It is equipped with deceleration spring (2-5-4) on the right side of end sleeve (2-5-3), is equipped with and hits on the right side of deceleration spring (2-5-4) Monitor (2-5-5)；

The shock monitor (2-5-5) includes: wraping plate shaft (2-5-5-1), buffer (2-5-5-2), wraping plate (2-5-5- 3), optical reflective disk shaft (2-5-5-4), optical reflective disk (2-5-5-5), Laser emission receiver (2-5-5-6), vertical adjuster (2- 5-5-7), ordinary light source focusing device (2-5-5-8), level governor (2-5-5-9)；The wraping plate (2-5-5-3) is turned with wraping plate Axis (2-5-5-1) is freely rotated for axis, wraping plate (2-5-5-3) vertical display, wherein one end be equipped with deceleration spring (2-5-4) and The end back side is equipped with buffer (2-5-5-2), and the other end is turned by optical reflective disk shaft (2-5-5-4) and optical reflective disk (2-5-5-5) Dynamic connection, wherein optical reflective disk shaft (2-5-5-4) is for finely tuning optical reflective disk (2-5-5-5) angle；It is right in optical reflective disk (2-5-5-5) Facade be equipped with Laser emission receiver (2-5-5-6), ordinary light source focusing device (2-5-5-8), optical reflective disk (2-5-5-5) respectively with Laser emission receiver (2-5-5-6), ordinary light source focusing device (2-5-5-8) are on same level axis；It is received in Laser emission Device (2-5-5-6), ordinary light source focusing device (2-5-5-8) are equipped with vertical adjuster (2-5-5-7) and level governor (2-5- 5-9), for adjusting irradiation and reflection angle；Laser emission receiver (2-5-5-6) is connect with DSP control system (4) conducting wire；

Cable wire tightening knob (2-10-7-6-4) includes: joystick knob (2-10-7-6-4-1), knob driving wheel (2-10- 7-6-4-2), cable wire driven wheel (2-10-7-6-4-3), knob locking tooth (2-10-7-6-4-4), cable wire is around wheel (2-10-7-6- 4-5), oil pipe (2-10-7-6-4-6) is passed in and out, immersion oil case (2-10-7-6-4-7), retaining tooth harrow (2-10-7-6-3)；Positioned at one The joystick knob (2-10-7-6-4-1) of side is fixedly connected with knob driving wheel (2-10-7-6-4-2)；Knob driving wheel (2-10- 7-6-4-2) with cable wire driven wheel (2-10-7-6-4-3) teeth engaged transmission；Cable wire around wheel (2-10-7-6-4-5) and cable wire from Driving wheel (2-10-7-6-4-3) is fixedly and coaxially connected, and cable wire is around wheel (2-10-7-6-4-5) surface wrap cable wire, and cable wire is around wheel (2-10-7-6-4-5) and winding cable wire half soak product in immersion oil case (2-10-7-6-4-7), and upper part opening is internal to be equipped with antirust Oil；Disengaging oil pipe (2-10-7-6-4-6) is equipped in the immersion oil case side (2-10-7-6-4-7)；Knob locking tooth (the 2-10- 7-6-4-4) it is fixedly and coaxially connected with cable wire driven wheel (2-10-7-6-4-3)；On the surface knob locking tooth (2-10-7-6-4-4) It is connected with the retaining tooth harrow (2-10-7-6-3) in outside.

10. a kind of High Precision Stereo engraving equipment according to claim 9, which is characterized in that the anti-dropout buckles (2- 10-8-7) include: block button base (2-10-8-7-1), buckles bolt (2-10-8-7-2), return spring (2-10-8-7-3), buckle Pilot pin (2-10-8-7-4), dovetail pitch (2-10-8-7-5), wedge shape buckle (2-10-8-7-6), safety pin (2-10-8-7- 7)；Block button base (2-10-8-7-1) positioned at bottom is equipped with the cunning to match with dovetail fork (2-10-8-7-5) at an upper portion thereof Slot, the two are slidably connected；It is equipped with snaps into position bolt (2-10-8-7-4) among two vertical chutes, perpendicular on stationary plane, it Define that dovetail fork (2-10-8-7-5) can only the sliding in block button base (2-10-8-7-1) sliding slot；(2-10-8- is pitched in dovetail 7-5) bottom is equipped with buckle bolt (2-10-8-7-2) and return spring (2-10-8-7-3), and dovetail pitches (2-10-8-7-5) and passes through two Person realizes and block button base (2-10-8-7-1) vertical elastic connection；Dovetail pitches (2-10-8-7-5) and other side wedge shape buckles (2-10-8-7-6) structure is integral, wherein being wedge shape on the outside of wedge shape buckle (2-10-8-7-6), inside is equipped with Telescopic safety Pin (2-10-8-7-7)；

The turntable (2-10-9) includes: rotary tray motor (2-10-9-1), transaxle (2-10-9-2), turntable tooth (2-10-9- 3), workpiece jack (2-10-9-4), disk shaft (2-10-9-5)；Rotary tray motor (2-10-9-1) positioned at one end, output End is connect with transaxle (2-10-9-2), while also being connect with DSP control system (4) conducting wire；Transaxle (2-10-9-2) is another End is connect with turntable tooth (2-10-9-3)；6 workpiece jack (2-10- being laid out in pairs are equipped with inside turntable tooth (2-10-9-3) 9-4), the turntable tooth center (2-10-9-3) is equipped with disk shaft (2-10-9-5)；

The fine tuning elevating lever (2-9) includes: lifting column (2-9-1), column axle envelope (2-9-2), air storage chamber (2-9-3), gas It pumps (2-9-4), Bidirectional Air Valve (2-9-5), goes up and down shell (2-9-6)；Air pump (2-9-4) positioned at side passes through Bidirectional Air Valve (2-9-5) and air storage chamber (2-9-3) is horizontal to be penetrated through, while air pump (2-9-4), Bidirectional Air Valve (2-9-5) and DSP control system (4) conducting wire connects；Layout, one end closing, the other end are equipped with column axle envelope (2-9-2) to air storage chamber (2-9-3) vertically, column axis Envelope (2-9-2) is fitted closely and is slided up and down in air storage chamber (2-9-3) inner wall；The lower part column axle envelope (2-9-2) is fixedly connected with Lifting column (2-9-1)；

The equipment working method including the following steps:

Step 1: workpiece (3) is placed between bottom driving assembly apparatus (1) and engraving core apparatus (2), DSP control system (4) open and coordinate receiver (2-11) and be transferred to program instruction coordinate receiver (2-11), coordinate receiver (2-11) into And program instruction is transferred to bottom driving assembly apparatus (1) and engraving core apparatus (2)；DSP control system (4) opens transmission Assembly motor (1-6), drive assembly motor (1-6) drive drive assembly screw rod (1-7) to carry out helical rotation, transmission according to instruction Assembly screw rod (1-7) drives driving block (1-3) to move to specified coordinate position along transmission slide bar (1-2)；

Step 2: DSP control system (4) opens lateral dynamics motor (2-7), and lateral dynamics motor (2-7) drives carving according to instruction Carving core apparatus (2), transversely slide bar (2-5) moves to specified coordinate position；

Step 3: DSP control system (4) opens vertical power motor (2-1), and vertical power motor (2-1) drives carving according to instruction Carving cutterhead (2-10), vertically slide bar (2-2) moves to specified coordinate position；DSP control system (4) opens fine tuning elevating lever (2-9), fine tuning elevating lever (2-9) drives engraving cutterhead (2-10) micro-adjustment, and then carries out engraving processing to workpiece (3)；

Step 4: in engraving cutterhead (2-10) work, drill bit assembly (2-10-3) is positioned by lock (2-10-8) in angle Ring (2-10-4) fixes operating angle；Blowning installation (2-10-1) passes through collet tension clips (2-10-2), air blowing pipe clamp (2- simultaneously 10-5), air blowing upright bar (2-10-6), upright bar collet (2-10-7) adjust operating angle, make its alignment work face；

Step 5: in upright bar collet (2-10-7) work, collet pedestal (2-10-7-1) passes through pedestal fixing bolt (2-10-7-3) It is connect with lower workpiece, upper attachment (2-10-7-7) is by from stretcher (2-10-7-6) and collet column (2-10-7-5) Locking；Collet tension clips (2-10-2) are clamped in collet column (2-10-7-5) waist；

Step 6: from stretcher (2-10-7-6) work, hand Screw cable wire tightens knob (2-10-7-6-4), by two Group synanche cable wire (2-10-7-6-2) tightening, drives 4 synanche hoof columns (2-10-7-6-5) by upper attachment vertical shaft (2-10- 7-6-6) locking be detached from upper attachment (2-10-7-7) cannot with from stretcher (2-10-7-6)；Open retaining tooth harrow (2- 10-7-6-3), synanche cable wire (2-10-7-6-2) unfolds reset, synanche hoof column (2-10-7-6-5) automatically under the action of the spring Release the constraint to upper attachment vertical shaft (2-10-7-6-6)；

Step 7: in lock (2-10-8) work, top cap knob (2-10-8-6) rotates so that extensible top cap (2-10-8-4) It shrinks, and passes through angle positioning ring (2-10-4) location hole, top cap knob (2-10-8-6) rotation is so that extensible top after clamping Cap (2-10-8-4) realizes locking function in location hole outwardly deploying；

Step 8: it in extensible top cap (2-10-8-4) initial, expanded condition, adjusts draw-tube (2-10-8-4-1) and passes through top cap Casing (2-10-8-4-2) upward sliding promotes the horizon bar bottom end (2-10-8-4-4) to shrink, and drives brace (2-10-8- 4-5) bottom end is pulled back to axle center, and extensible top cap (2-10-8-4) is promoted to shrink, on the contrary then stretch；

Step 9: in horizontal sliding bar (2-5) work, laterally steering block (2-4) is freely moved left and right on main slide bar (2-5-6)； Once laterally steering block (2-4) high speed moves to the right, hit end sleeve (2-5-3), part of it kinetic energy is decelerated spring (2- It 5-4) is absorbed, another part kinetic energy, which passes to, hits monitor (2-5-5), and then feeds back to DSP control system (4) and issue Alarm；

Step 10: in hitting monitor (2-5-5) work, pass through ordinary light source focusing device (2-5-5-8), vertical adjuster (2-5-5-7) and level governor (2-5-5-9) adjust laser irradiation and reflection angle, verify Laser emission receiver (2-5- 5-6) emit and can be received by optical reflective disk (2-5-5-5) institute reflection laser；When the lower end wraping plate (2-5-5-3) is hit It hits, drives optical reflective disk (2-5-5-5) rotation, laser reflection angle is changed, so that Laser emission receiver (2-5-5-6) cannot Reflection laser is received, and then feeds back to DSP control system (4) and sounds an alarm；

Step 11: it in cable wire tightening knob (2-10-7-6-4) work, rotates joystick knob (2-10-7-6-4-1), passes through rotation Button driving wheel (2-10-7-6-4-2) band running wire driven wheel (2-10-7-6-4-3), cable wire are rotated around wheel (2-10-7-6-4-5) And cable wire is tightened, while antirust oil is coated with to cable wire by immersion oil case (2-10-7-6-4-7)；At the same time, knob locking tooth (2-10-7-6-4-4) and retaining tooth harrow (2-10-7-6-3) collective effect prevent from oneself from reversely rotating；

Step 12: in anti-dropout buckle (2-10-8-7) work, wedge shape buckle (2-10-8-7-6) outer surface projected angle of impact is fixed Position ring (2-10-4) location hole, so that wedge shape buckle (2-10-8-7-6) drives dovetail fork (2-10-8-7-5) relative to buckle base Seat (2-10-8-7-1) is overhanging, and wedge shape buckle (2-10-8-7-6) enters location hole, in buckle bolt (2-10-8-7-2) and return Dovetail fork (2-10-8-7-5) drives wedge shape buckle (2-10-8-7-6) return under spring (2-10-8-7-3) collective effect, goes forward side by side One step is locked by safety pin (2-10-8-7-7)；

Step 13: in turntable (2-10-9) work, DSP control system (4) controls rotary tray motor (2-10-9-1), and by turning Changing axis (2-10-9-2) drives turntable tooth (2-10-9-3) to rotate by a certain angle along disk shaft (2-10-9-5), so that workpiece Different workpieces in jack (2-10-9-4), are converted according to needed for work；

Step 14: in fine tuning elevating lever (2-9) work, air pump (2-9-4) controllably generates air pressure, so that air storage chamber (2-9-3) Pressure increase pushes lifting column (2-9-1) to move down by column axle envelope (2-9-2)；Conversely, lifting column (2-9-1) It moves up；

Step 15: in blowning installation (2-10-1) work, air enters from air intake duct (2-10-1-8), passes through duct (2-10- 1-1), dust is successively removed by dust Attraction block (2-10-1-2), dust filter screen (2-10-1-7)；By steam ring (2-10-1- 3) the 120 degree of high-temperature steams purification generated；It is heavy that the Alevaire that Alevaire spout (2-10-1-6) generates carries out bulky grain to air Drop, passes through valve (2-10-1-4) controllable outlet.