CN108187952A - A kind of coating machine molding powder recovery system - Google Patents

Abstract

The invention discloses a kind of coating machine molding powder recovery systems, its structure includes coating body, control computer, computer rack, coating engine base, can sieve retracting device, molding powder conveying end, support foot rest, coating table top, fixed station, sliding beam, movable heater, push-pull shaft, high pressure painting device, molding powder adding tube, working condition lamp, control computer is placed in above computer rack, computer rack is set on front on the left of coating body and is flexibly connected by hinge, and control computer is electrically connected with coating body.The present invention can sieve retracting device by being equipped with, while realization to molding powder high efficiente callback, the molding powder of recycling can be sieved, the molding powder of caking is sieved into discharge, prevent it from influencing reusing for molding powder recycling, it is effectively improved the rate of recovery of coating machine molding powder recovery system, while enhances recycling molding powder and reuse performance.

Description

A kind of coating machine molding powder recovery system

Technical field

The present invention is a kind of coating machine molding powder recovery system, belongs to coating machine domain.

Background technology

Coating machine exactly needs a kind of position of patch special glue on point in advance above the pcb board, after curing using Oven.Coating carries out automatically according to program.Coating machine machine is mainly used for the three-proofing coating in Product Process, UV glue and other Liquid is accurately sprayed, is applied, point drips to each product exact position, can be used for realizing setting-out, round or camber.

But the molding powder rate of recovery of the coating machine molding powder recovery system of the prior art is relatively low, and can not to the molding powder of recycling into Row screening, causes the molding powder block of caking to be mixed with molding powder, influences reusing for molding powder.

Invention content

In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of coating machine molding powder recovery system, to solve The molding powder rate of recovery of the coating machine molding powder recovery system of the prior art is relatively low, and the molding powder of recycling can not be sieved, and causes The molding powder block of caking is mixed with molding powder, influences the defects of reusing of molding powder.

To achieve these goals, the present invention is to realize by the following technical solutions：A kind of coating machine molding powder recycling System, structure include coating body, control computer, computer rack, coating engine base, can sieve retracting device, molding powder taking-up Mouth, support foot rest, coating table top, fixed station, sliding beam, movable heater, push-pull shaft, high pressure painting device, molding powder addition Pipe, working condition lamp, the control computer are placed in above computer rack, and the computer rack is set on front on the left of coating body And be flexibly connected by hinge, the control computer is electrically connected with coating body, and the coating engine base is set under coating body In integrated molding structure, the retracting device that sieves is set on coating base inner and with applying in engine base for portion and coating body Wall is connected by electric welding, and it is in integrated molding knot that the molding powder conveying end, which is set on coating engine base right lateral surface with coating engine base, Structure, the support foot rest are set there are four and set on apply four ends below engine base, and the support foot rest passes through electric welding and coating engine base Perpendicular shape is connected, and the coating table top is set on coating internal body and positioned at coating frame upper surface, the coating table top Centre is equipped with circular groove, and the fixed station is set on the circular groove inside center of coating table top, and the sliding beam, which is set on, to be applied It applies above internal body, the sliding beam both ends are connected with wall in coating machine body by being welded perpendicular shape, the activity Formula heater is connect set on sliding beam outer surface with sliding beam stir yourself, described push-pull shaft one end and movable heater By electric welding connection, the push-pull shaft is electrically connected inside sliding beam with coating body, and the high pressure painting device, which is set on, lives Below conducting heater and above fixed station, the molding powder adding tube is set on coating block upper surface rear portion, the molding powder Adding tube is connected with coating body perforation, and the working condition lamp is set on above coating body passes through electricity with coating block upper surface Vertical connection is welded, the working condition lamp is electrically connected with coating body, and the retracting device that sieves is by molding powder collection bucket, inductance Actuating mechanism, connect motor structure, heater, screening recovery cylinder, cross sieve, motor, rotating sliding mechanism, molding powder stocking mechanism, Gear transfer mechanism forms, and the molding powder collection bucket is set on coating table top center and is connected with coating table top by electric welding, described Inductance actuating mechanism is electrically connected with coating body, described to connect motor structure set on inductance actuating mechanism inboard side and twined by traction rope Around being connected, the motor structure that connects is electrically connected with heater, and the heater is wrapped in molding powder collection bucket outer surface and is received with molding powder Collection bucket is fitted and connected, and the screening recovery cylinder is set on immediately below molding powder collection bucket, the lower port and molding powder of the screening recovery cylinder Collection bucket perforation connection, the sieve of crossing are set on inside screening recovery cylinder with screening recovery cylinder inner wall into skewed by being welded phase Connection, the motor are set on the coating base inner lower left corner, and the motor passes through screws with inner wall under coating engine base Connection, the rotating sliding mechanism engage flexible connection, the modeling with motor set on motor right side side by driving belt Powder stocking mechanism is set on the coating base inner lower right corner, and the molding powder stocking mechanism is connected with screening recovery cylinder by being welded perforation It connects, the gear transfer mechanism is set on above motor, and the line shaft of the gear transfer mechanism and motor is by being driven skin Band engagement flexible connection.

Further, the inductance actuating mechanism by electromagnet, felt pad, small iron block, motion bar, strut, the first spring, Traction rope, fixed pulley composition, the electromagnet are passed through by felt pad and coating engine base side inner wall Adherents junction, the electromagnet Electric wire is electrically connected with coating body, and the small iron block is set on the outside of motion bar upper end, and the small iron block passes through glue with motion bar Adherents junction, the motion bar are set on strut inner end in vertical shape and are connected by articulate, and the motion bar outer end is with applying It applies engine base side inner wall and is set on motion bar lower end, the first spring left and right ends by being welded vertical connection, first spring Engine base side inner wall and motion bar lower end is respectively applied by electric welding connection, described traction rope one end passes through kinking with motion bar lower end Circle is intertwined and connected, and the traction rope other end is intertwined and connected around fixed pulley with connecing motor structure by kinking circle.

Further, it is described connect motor structure by L-type frame, lateral slip pipe, second spring, vertical slip pipe, movable connecting rod, draw Electric block, connect electric block, connect wires, heater switch, gripper shoe groups are set up in into, the L-type below heater and are passed through with support plate Electric welding is connected, and the transverse direction slip pipe is gap-matched set on L-type frame lower end with L-type frame, the transverse direction slip pipe and traction rope It is intertwined and connected, for the second spring with lateral slip pipe by electric welding connection, the vertical slip pipe is set on L-type frame upper end and L-type frame It is gap-matched, described movable connecting rod one end is flexibly connected by hinge with lateral slip pipe, institute's movable connecting rod other end Be flexibly connected by hinge with vertical slip pipe, it is described draw electric block and be set on to connect be connected immediately below electric block with vertical slip pipe by connecting rod It connects, described to connect electric block and be electrically connected with heater by connecting wires below the support plate, the heater switch is embedded in heater Outer surface, the horizontal coating base inner both sides that are set on of the support plate connect with coating engine base madial wall by the way that electric welding is vertical It connects.

Further, there are two the heater is set, inboard face is fitted closely for arc with molding powder collection bucket outer surface.

Further, the screening recovery cylinder is in hollow cylinder, and inner bottom surface is in the shape that is tilted to the right.

Further, the rotating sliding mechanism is by the first driving belt, rotating wheel, wheel carrier, rotating sliding bar, welding Block, sliding block, slide bar, sliding rod frame, push-pull rod composition, described first driving belt one end engage activity company with the line shaft of motor It connects, the first driving belt other end engages flexible connection with the wheel shaft of rotating wheel, and the wheel is set up in below rotating wheel, institute It states rotating wheel to weld by wheel carrier and coating inboard wall of base, described rotating sliding bar one end is lived by hinge and rotating wheel front surface Dynamic connection, the rotating sliding bar other end are flexibly connected by hinge with welding block, and the welding block is set on slider front It is connected with welding block by electric welding, the sliding block is placed on slide bar outer surface and is gap-matched with slide bar, and the slide bar passes through Sliding rod frame is fixed below screening recovery cylinder, and described push-pull rod one end is connected with sliding block right lateral surface by being welded perpendicular shape and fixing It connects, the push-pull rod other end passes through glue Adherents junction with molding powder stocking mechanism.

Further, the molding powder stocking mechanism is stored up by laddertron, the first check valve, the second check valve, elastic skin, molding powder Cylinder composition is deposited, described laddertron one end is with screening recovery cylinder lower right-hand side by being welded perforation connection, the laddertron other end First check valve, the second check valve are connected inside the turn of laddertron by being welded perforation with molding powder storage cylinder, The elasticity skin is set on laddertron stage casing left-hand face, and the elasticity skin is tightly connected by glue and laddertron.

Further, for the elastic skin between the first check valve and the second check valve, the elasticity skin is recessed When, the first check valve is in opening state in shape, the second check valve is closed, and when the elasticity skin is convex, the first check valve is in opening Shape is opened, the second check valve is in closing shape.

Further, the gear transfer mechanism by the second driving belt, tooth belt wheel, spur gear, active transmission wheel, Feed belt, driven transmission wheel, sludge outlet composition, activity is engaged in described second driving belt one end with the line shaft of motor Connection, the second driving belt other end engage flexible connection with the wheel shaft of tooth belt wheel, and the spur gear is set on gear Between belt pulley and active transmission wheel, the spur gear engages flexible connection by the gear teeth with tooth belt wheel, active transmission wheel, The feed belt is set between active transmission wheel and driven transmission wheel, and the feed belt is obliquely set on screening recovery cylinder Left side side, the active transmission wheel, driven transmission wheel are set on inside feed belt and engagement flexible connection, the sludge outlet are set Below feed belt left end, the sludge outlet is connected with coating engine base by electric welding.

Advantageous effect

A kind of coating machine molding powder recovery system of the present invention, first inserts coating internal body by molding powder from molding powder adding tube, System power supply is connected, after molding powder can be heated by movable heater, then is sprayed on and is placed in admittedly after the supercharging of high pressure painting device Determine the article that is coated on platform, during which because of high pressure splash, part molding powder is sprayed in molding powder collection bucket；In coating body connection power supply While, also energizing magnetic, attraction are fixed on the small iron block of motion bar upper end to electromagnet, make to put outside motion bar upper end, lead to Lever principle is crossed, then the interior one end put, pull traction rope of meeting, the other end of traction rope are pullled around fixed pulley for the lower end of motion bar Lateral slip pipe is slided along outside L-type frame, while lateral slip pipe pushes vertical slip pipe to move up by movable connecting rod, and vertical slip pipe moves up While drive and draw electric block and move up, it is made to be contacted with connecing electric block, connects the circuit of heater, heater, which is started to work, receives molding powder Collection bucket is heated, and molding powder is made to come off from molding powder collection bucket inner wall and is slipped into screening recovery cylinder, falls and is carried out on the net in sieving Screening；The motor for working at the same time state engages drive rotating wheel rotation, rotating wheel rotation by line shaft with the first driving belt Turn to drive the rotation of rotating sliding bar one end, and then band movable slider slidably reciprocates the rotating sliding bar other end along slide bar, works as sliding block When sliding to the left end of slide bar, elastic skin Zola is heaved by push-pull rod, the first check valve is in opening at this time, and second is unidirectional Valve is in closed state, and the thin molding powder that will fall off by atmospheric pressure in screening recovery cylinder bottom is sucked inside laddertron, works as sliding block When sliding to the right end of slide bar, the elastic skin right side is pushed away by recess by push-pull rod, the first check valve is in closed state at this time, and second is unidirectional Valve is in opening, and the molding powder in laddertron is pressed into inside molding powder storage cylinder by atmospheric pressure, can be with after work Recycling is taken out from molding powder conveying end by the molding powder in molding powder storage cylinder；The motor for working at the same time state passes through line shaft It is engaged with the second driving belt and drives the rotation of tooth belt wheel, tooth belt wheel drives spur gear to rotate further through the gear teeth, commutating tooth Wheel drives active transmission wheel to rotate by the gear teeth again, and driven transmission wheel cooperation active transmission wheel drives feed belt to revolve counterclockwise Turn, the mesh screen that will be sieved divides the filter residue that molding powder generates to be discharged by feed belt from sludge outlet, realizes the screening recycling of molding powder.

A kind of coating machine molding powder recovery system of the present invention, can sieve retracting device by being equipped with, realize efficient to molding powder While recycling, the molding powder of recycling can be sieved, the molding powder of caking is sieved into discharge, prevent it from influencing molding powder recycling again Secondary utilization, is effectively improved the rate of recovery of coating machine molding powder recovery system, while enhances the reusing property of recycling molding powder Energy.

Description of the drawings

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is a kind of structure diagram of coating machine molding powder recovery system of the present invention.

Fig. 2 is a kind of structural plan figure of coating machine molding powder recovery system of the present invention.

Fig. 3 is a kind of structural plan figure for sieving retracting device of the present invention.

Fig. 4 is a kind of detailed construction schematic diagram for sieving retracting device of the present invention.

Fig. 5 is a kind of working state figure for sieving retracting device of the present invention.

In figure：Coating body -1, control computer -2, computer rack -3, coating engine base -4, can sieve retracting device -5, Molding powder conveying end -6, support foot rest -7, coating table top -8, fixed station -9, sliding beam -10, movable heater -11, push-and-pull Axis -12, high pressure painting device -13, molding powder adding tube -14, working condition lamp -15, molding powder collection bucket -50, inductance actuating mechanism - 51st, it connects motor structure -52, heater -53, screening recovery cylinder -54, cross sieve -55, motor -56, rotating sliding mechanism -57, modeling Powder stocking mechanism -58, gear transfer mechanism -59, electromagnet -510, felt pad -511, small iron block -512, motion bar -513, branch Bar -514, the first spring -515, traction rope -516, fixed pulley -517, L-type frame -520, lateral slip pipe -521, second spring - 522nd, vertical slip pipe -523, movable connecting rod -524, draw electric block -525, connect electric block -526, -527, heater switch of connecting wires - 528th, support plate -529, the first driving belt -570, rotating wheel -571, wheel carrier -572, rotating sliding bar -573, welding block - 574th, sliding block -575, slide bar -576, sliding rod frame -577, push-pull rod -578, laddertron -580, the first check valve -581, the second list To valve -582, elastic skin -583, molding powder storage cylinder -584, the second driving belt -590, tooth belt wheel -591, spur gear - 592nd, active transmission wheel -593, feed belt -594, driven transmission wheel -595, sludge outlet -596.

Specific embodiment

To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, with reference to Specific embodiment, the present invention is further explained.

- Fig. 5 is please referred to Fig.1, the present invention provides a kind of technical solution of coating machine molding powder recovery system：Its structure includes applying It applies body 1, control computer 2, computer rack 3, coating engine base 4, retracting device 5, molding powder conveying end 6, support foot rest can be sieved 7th, table top 8, fixed station 9, sliding beam 10, movable heater 11, push-pull shaft 12, high pressure painting device 13, molding powder addition are applied Pipe 14, working condition lamp 15, the control computer 2 are placed in 3 top of computer rack, and the computer rack 3 is set on coating body 1 It is flexibly connected in front of left side and by hinge, the control computer 2 is electrically connected with coating body 1, and the coating engine base 4 is set on 1 lower part of body is applied with coating body 1 in integrated molding structure, the retracting device 5 that sieves is set on inside coating engine base 4 And be connected with coating 4 inner wall of engine base by electric welding, the molding powder conveying end 6 is set on coating 4 right lateral surface of engine base and coating machine In integrated molding structure, the support foot rest 7 sets there are four and is set on 4 lower section of coating engine base, four ends, the support foot rest seat 4 7 are connected by electric welding with coating 4 perpendicular shape of engine base, and the coating table top 8 is set on 1 inside of coating body and positioned at coating machine 4 upper surfaces of seat, 8 centre of coating table top are equipped with circular groove, and the fixed station 9 is set in the circular groove of coating table top 8 Portion center, the sliding beam 10 are set on coating 1 inner upper of body, 10 both ends of sliding beam and coating 1 inner wall of body It is connected by being welded perpendicular shape, the movable heater 11 is set on 10 outer surface of sliding beam and 10 activity of sliding beam Flexible connection, described 12 one end of push-pull shaft is with movable heater 11 by electric welding connection, and the push-pull shaft 12 is embedded in slip horizontal stroke 10 inside of beam is electrically connected with coating body 1, and the high pressure painting device 13 is set on movable 11 lower section of heater and positioned at fixed station 9 Top, the molding powder adding tube 14 are set on 1 upper surface rear portion of coating body, and the molding powder adding tube 14 is penetrated through with coating body 1 Connection, the working condition lamp 15 is set on 1 top of coating body with 1 upper surface of coating body by being welded vertical connection, described Working condition lamp 15 is electrically connected with coating body 1, and the retracting device 5 that sieves is by molding powder collection bucket 50, inductance actuating mechanism 51st, it connects motor structure 52, heater 53, screening recovery cylinder 54, cross sieve 55, motor 56, rotating sliding mechanism 57, molding powder storage Mechanism 58, gear transfer mechanism 59 form, and the molding powder collection bucket 50 is set on coating 8 center of table top and passes through electricity with coating table top 8 Weldering is connected, and the inductance actuating mechanism 51 is electrically connected with coating body 1, and the motor structure 52 that connects is set on inductance actuating mechanism 51 Inboard side and by traction rope winding be connected, the motor structure 52 that connects is electrically connected with heater 53, and the heater 53 wraps up It is fitted and connected in 50 outer surface of molding powder collection bucket with molding powder collection bucket 50, the screening recovery cylinder 54 is being set on molding powder collection bucket 50 just Lower section, lower port and the perforation of molding powder collection bucket 50 of the screening recovery cylinder 54 connect, and the sieve 55 of crossing is set on into skewed 54 inside of screening recovery cylinder is connected with screening 54 inner wall of recovery cylinder by electric welding, and the motor 56 is set in coating engine base 4 The portion lower left corner, the motor 56 are connect with coating 4 times inner walls of engine base by screws, and the rotating sliding mechanism 57 is set on Flexible connection is engaged with motor 56 by driving belt by 56 right side side of motor, and the molding powder stocking mechanism 58 is set on coating machine The 4 inside lower right corner of seat, the molding powder stocking mechanism 58 is with screening recovery cylinder 54 by being welded perforation connection, the gear conveyer Structure 59 is set on 56 top of motor, and the gear transfer mechanism 59 engages activity with the line shaft of motor 56 by driving belt Connection, the inductance actuating mechanism 51 is by electromagnet 510, felt pad 511, small iron block 512, motion bar 513, strut 514, first Spring 515, traction rope 516, fixed pulley 517 form, and the electromagnet 510 is sticked by felt pad 511 and coating 4 side inner wall of engine base Connection is closed, the electromagnet 510 is electrically connected by electric wire with coating body 1, and the small iron block 512 is set on 513 upper end of motion bar Outside, for the small iron block 512 with motion bar 513 by glue Adherents junction, the motion bar 513 is set on strut in vertical shape 514 inner ends and connected by articulate, 513 outer end of motion bar with coating 4 side inner wall of engine base by being welded vertical connection, First spring 515 be set on 513 lower end of motion bar, 515 left and right ends of the first spring be respectively applied 4 side inner wall of engine base and 513 lower end of motion bar is intertwined and connected by electric welding connection, described 516 one end of traction rope with 513 lower end of motion bar by kinking circle, 516 other end of traction rope is intertwined and connected around fixed pulley 517 with connecing motor structure 52 by kinking circle, described to connect motor structure 52 By L-type frame 520, lateral slip pipe 521, second spring 522, vertical slip pipe 523, movable connecting rod 524, draw electric block 525, connect electric block 526th, 527, heater switch 528, the support plate 529 of connecting wires form, the L-type frame 520 be set on the lower section of heater 53 and with support Plate 529 is connected by electric welding, and the transverse direction slip pipe 521 is gap-matched set on 520 lower end of L-type frame with L-type frame 520, institute It states lateral slip pipe 521 to be intertwined and connected with traction rope 516, the second spring 522 passes through electric welding connection, institute with lateral slip pipe 521 It states vertical slip pipe 523 to be gap-matched with L-type frame 520 set on 520 upper end of L-type frame, described 524 one end of movable connecting rod passes through Hinge is flexibly connected with lateral slip pipe 521, and 524 other end of institute's movable connecting rod is flexibly connected by hinge with vertical slip pipe 523, It is described draw electric block 525 and be set on to connect be connected immediately below electric block 526 with vertical slip pipe 523 by connecting rod, it is described to connect electric block 526 and set It 527 is electrically connected in the lower section of support plate 529 and heater 53 by connecting wires, the heater switch 528 is embedded in outside heater 53 Surface, the support plate 529 are horizontal vertical by electric welding set on coating 4 inside both sides of engine base and coating 4 madial wall of engine base Connection, there are two the heater 53 is set, inboard face is fitted closely for arc with 50 outer surface of molding powder collection bucket, the screening Recovery cylinder 54 is in hollow cylinder, and inner bottom surface is in the shape that is tilted to the right, and the rotating sliding mechanism 57 is by the first driving belt 570th, rotating wheel 571, wheel carrier 572, rotating sliding bar 573, welding block 574, sliding block 575, slide bar 576, sliding rod frame 577, push-and-pull Bar 578 forms, and described first driving belt, 570 one end engages flexible connection, first transmission with the line shaft of motor 56 570 other end of belt engages flexible connection with the wheel shaft of rotating wheel 571, and the wheel carrier 572 is set on 571 lower section of rotating wheel, described Rotating wheel 571 is welded by wheel carrier 572 and 4 inner wall of coating engine base, and described 573 one end of rotating sliding bar passes through hinge and rotating wheel 571 front surfaces are flexibly connected, and 573 other end of rotating sliding bar is flexibly connected by hinge with welding block 574, the welding Block 574 is set on 575 front surface of sliding block and is connected with welding block 574 by electric welding, and the sliding block 575 is placed on 576 outer surface of slide bar It is gap-matched with slide bar 576, the slide bar 576 is fixed on 54 lower section of screening recovery cylinder, the push-and-pull by sliding rod frame 577 578 one end of bar is fixedly connected with 575 right lateral surface of sliding block by being welded perpendicular shape, 578 other end of push-pull rod and molding powder Stocking mechanism 58 is by glue Adherents junction, and the molding powder stocking mechanism 58 is by laddertron 580, first the 581, second list of check valve It is formed to valve 582, elastic skin 583, molding powder storage cylinder 584, described 580 one end of laddertron leads to screening 54 lower right-hand side of recovery cylinder Electric welding perforation connection is crossed, 580 other end of laddertron is unidirectional by being welded perforation connection described first with molding powder storage cylinder 584 Inside the turn of laddertron 580, it is left that the elasticity skin 583 is set on 580 stage casing of laddertron for valve 581, the second check valve 582 Side surface, the elasticity skin 583 are tightly connected by glue and laddertron 580, and the elasticity skin 583 is located at the first check valve 581 and second between check valve 582, and when the elasticity skin 583 is recessed, for the first check valve 581 in shape is closed, second is unidirectional Valve 582 be in opening state, it is described elasticity skin 583 it is convex when, the first check valve 581 be in opening state, the second check valve 582 in close Shape is closed, the gear transfer mechanism 59 is by the second driving belt 590, tooth belt wheel 591, spur gear 592, active transmission wheel 593rd, feed belt 594, driven transmission wheel 595, sludge outlet 596 form, described second driving belt, 590 one end and motor 56 line shaft engagement flexible connection, 590 other end of the second driving belt engage activity with the wheel shaft of tooth belt wheel 591 Connection, the spur gear 592 are set between tooth belt wheel 591 and active transmission wheel 593, and the spur gear 592 passes through the gear teeth Engage flexible connection with tooth belt wheel 591, active transmission wheel 593, the feed belt 594 be set on active transmission wheel 593 with Between driven transmission wheel 595, the feed belt 594 is obliquely set on 54 left side side of screening recovery cylinder, the active transmission Wheel 593, driven transmission wheel 595 are set on 594 inside of feed belt and engagement flexible connection, the sludge outlet 596 are set on transmission Below 594 left end of belt, the sludge outlet 596 is connected with coating engine base 4 by electric welding.

A kind of coating machine molding powder recovery system of the present invention, operation principle are：First molding powder is added from molding powder adding tube 14 Enter to apply inside body 1, system power supply is connected, after molding powder can be heated by movable heater 11, then through high pressure painting device The article that is coated being placed on fixed station 9 is sprayed on after 13 superchargings, during which because of high pressure splash, part molding powder is sprayed on molding powder collection bucket In 50；While the connection power supply of body 1 is applied, also energizing magnetic, attraction are fixed on motion bar 513 electromagnet 510 The small iron block 512 at end makes to put outside 513 upper end of motion bar, and by lever principle, the lower end of motion bar 513 interior can then be put, and is pullled and is led One end of messenger 516, the other end of traction rope 516 pull lateral slip pipe 521 along sliding outside L-type frame 520 around fixed pulley 517, Lateral slip pipe 521 pushes vertical slip pipe 523 to move up by movable connecting rod 524 simultaneously, and vertical slip pipe 523 drives while moving up Draw electric block 525 to move up, it is made to be contacted with connecing electric block 526, connect the circuit of heater 53, heater 53, which is started to work, receives molding powder Collection bucket 50 is heated, and molding powder is made to come off from 50 inner wall of molding powder collection bucket and is slipped into screening recovery cylinder 54, falls and is crossing sieve It is sieved on 55；The motor 56 for working at the same time state engages drive rotating wheel by line shaft with the first driving belt 570 571 rotations, the rotation of rotating wheel 571 drives the 573 one end rotation of rotating sliding bar, and 573 other end of rotating sliding bar then drives cunning Block 575 slidably reciprocates along slide bar 576, when sliding block 575 slides to the left end of slide bar 576, by push-pull rod 578 by elastic skin 583 Zolas heave, and the first check valve 581 is in opening at this time, and the second check valve 582 is in closed state, passes through atmospheric pressure It will fall off inside the thin molding powder sucking laddertron 580 of 54 bottom of screening recovery cylinder, when sliding block 575 slides to the right end of slide bar 576 When, elastic 583 right side of skin is pushed away by recess by push-pull rod 578, the first check valve 581 is in closed state, the second check valve 582 at this time In opening, the molding powder in laddertron 580 is pressed into inside molding powder storage cylinder 584 by atmospheric pressure, after work, Recycling can be taken out from molding powder conveying end 6 by the molding powder in molding powder storage cylinder 584；Work at the same time the motor 56 of state Being engaged by line shaft with the second driving belt 590 drives tooth belt wheel 591 to rotate, and tooth belt wheel 591 is further through the gear teeth Spur gear 592 is driven to rotate, spur gear 592 drives active transmission wheel 593 to rotate by the gear teeth again, and driven transmission wheel 595 coordinates Active transmission wheel 593 drives feed belt 594 to rotate counterclockwise, will cross sieve 55 and sieves the filter residue of molding powder generation by transmitting skin Band 594 is discharged from sludge outlet 596, realizes the screening recycling of molding powder.

The present invention solve the problems, such as be the coating machine molding powder recovery system of the prior art the molding powder rate of recovery it is relatively low, and can not The molding powder of recycling is sieved, the molding powder block of caking is caused to be mixed with molding powder, influences reusing for molding powder, the present invention passes through Above-mentioned component is combined with each other, and retracting device can be sieved by being equipped with, can be to recycling while realization to molding powder high efficiente callback Molding powder is sieved, and the molding powder of caking is sieved discharge, prevents it from influencing reusing for molding powder recycling, is effectively improved painting The rate of recovery of machine molding powder recovery system is applied, while enhance recycling molding powder reuses performance.

The basic principles, main features and the advantages of the invention have been shown and described above, for this field skill For art personnel, it is clear that the present invention is not limited to the details of above-mentioned exemplary embodiment, and without departing substantially from the present invention spirit or In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state Bright restriction, it is intended that including all changes falling within the meaning and scope of the equivalent requirements of the claims in the present invention It is interior.Any reference numeral in claim should not be considered as to the involved claim of limitation.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in each embodiment can also be properly combined, forms those skilled in the art The other embodiment being appreciated that.

Claims (9)

1. a kind of coating machine molding powder recovery system, structure include coating body (1), control computer (2), computer rack (3), Coating engine base (4) can sieve retracting device (5), molding powder conveying end (6), support foot rest (7), coating table top (8), fixed station (9), sliding beam (10), movable heater (11), push-pull shaft (12), high pressure painting device (13), molding powder adding tube (14), work Make status lamp (15), it is characterised in that：

The control computer (2) is placed in above computer rack (3), before the computer rack (3) is on the left of coating body (1) It is flexibly connected just and by hinge, the control computer (2) is electrically connected with coating body (1), and the coating engine base (4) is set on Body (1) lower part is applied with coating body (1) in integrated molding structure, the retracting device (5) that sieves is set on coating machine Seat (4) is internal and is connected with coating engine base (4) inner wall by electric welding, and the molding powder conveying end (6) is right set on coating engine base (4) With coating engine base (4) in integrated molding structure, the support foot rest (7) sets there are four and is set on coating engine base (4) for side surface Four end of lower section, the support foot rest (7) are connected by electric welding with coating engine base (4) perpendicular shape, and the coating table top (8) sets In coating body (1) inside and it is located at coating engine base (4) upper surface, it is described equipped with circular groove among the coating table top (8) Fixed station (9) is set on the circular groove inside center of coating table top (8), and the sliding beam (10) is in coating body (1) Above portion, sliding beam (10) both ends are connected with coating body (1) inner wall by being welded perpendicular shape, described movable Heater (11) is connect set on sliding beam (10) outer surface with sliding beam (10) stir yourself, described push-pull shaft (12) one end With movable heater (11) by electric welding connection, the push-pull shaft (12) is embedded in sliding beam (10) inside and coating body (1) it is electrically connected, the high pressure painting device (13) is described below movable heater (11) and above fixed station (9) Set on coating body (1) upper surface rear portion, the molding powder adding tube (14) penetrates through with coating body (1) to be connected molding powder adding tube (14) It connecing, the working condition lamp (15) is above coating body (1) and coating body (1) upper surface is by being welded vertical connection, The working condition lamp (15) is electrically connected with coating body (1)；

It is described sieve retracting device (5) by molding powder collection bucket (50), inductance actuating mechanism (51), connect motor structure (52), heating Device (53), crosses sieve (55), motor (56), rotating sliding mechanism (57), molding powder stocking mechanism at screening recovery cylinder (54) (58), gear transfer mechanism (59) forms；

The molding powder collection bucket (50) is connected set on coating table top (8) center with coating table top (8) by electric welding, the inductance Actuating mechanism (51) is electrically connected with coating body (1), it is described connect motor structure (52) set on inductance actuating mechanism (51) inboard side and It is connected by traction rope winding, the motor structure (52) that connects is electrically connected with heater (53), and the heater (53) is wrapped in Molding powder collection bucket (50) outer surface is fitted and connected with molding powder collection bucket (50), and the screening recovery cylinder (54) is set on molding powder collection bucket (50) immediately below, lower port and molding powder collection bucket (50) perforation of the screening recovery cylinder (54) connect, described to cross sieve (55) It is connected into skewed screening recovery cylinder (54) inside that is set on screening recovery cylinder (54) inner wall by electric welding, the motor (56) set on the internal lower left corner of coating engine base (4), the motor (56) is connected with inner wall under coating engine base (4) by screws It connects, the rotating sliding mechanism (57) is engaged activity by driving belt with motor (56) set on motor (56) right side side and connected It connects, the molding powder stocking mechanism (58) is set on the internal lower right corner of coating engine base (4), and the molding powder stocking mechanism (58) is with sieving back Cylinder (54) is received by being welded perforation connection, the gear transfer mechanism (59) is above motor (56), the gear transmission Mechanism (59) engages flexible connection with the line shaft of motor (56) by driving belt.

2. a kind of coating machine molding powder recovery system according to claim 1, it is characterised in that：The inductance actuating mechanism (51) by electromagnet (510), felt pad (511), small iron block (512), motion bar (513), strut (514), the first spring (515), traction rope (516), fixed pulley (517) composition, the electromagnet (510) pass through felt pad (511) and coating engine base (4) Side inner wall Adherents junction, the electromagnet (510) are electrically connected by electric wire with coating body (1), and the small iron block (512) is set on On the outside of motion bar (513) upper end, the small iron block (512) passes through glue Adherents junction, the motion bar with motion bar (513) (513) it is set on strut (514) inner end in vertical shape and is connected by articulate, motion bar (513) outer end and coating machine Seat (4) side inner wall is by being welded vertical connection, and first spring (515) is set on motion bar (513) lower end, first spring (515) engine base (4) side inner wall is respectively applied in left and right ends and motion bar (513) lower end passes through electric welding connection, the traction rope (516) one end is intertwined and connected with motion bar (513) lower end by kinking circle, and traction rope (516) other end bypasses fixed pulley (517) it is intertwined and connected with connecing motor structure (52) by kinking circle.

3. a kind of coating machine molding powder recovery system according to claim 1, it is characterised in that：It is described connect motor structure (52) by L-type frame (520), second spring (522), vertical slip pipe (523), movable connecting rod (524), draws electric block at lateral slip pipe (521) (525), it connects electric block (526), connect wires (527), heater switch (528), support plate (529) composition, the L-type frame (520) sets It is connected below heater (53) and with support plate (529) by electric welding, the transverse direction slip pipe (521) is set on L-type frame (520) Lower end is gap-matched with L-type frame (520), and the transverse direction slip pipe (521) is intertwined and connected with traction rope (516), and described second Spring (522) is with lateral slip pipe (521) by electric welding connection, and the vertical slip pipe (523) is set on L-type frame (520) upper end and L-type Frame (520) is gap-matched, and described movable connecting rod (524) one end is flexibly connected by hinge with lateral slip pipe (521), institute Movable connecting rod (524) other end is flexibly connected by hinge with vertical slip pipe (523), and the electric block (525) that draws is set on connecing electricity It is connected immediately below block (526) with vertical slip pipe (523) by connecting rod, the electric block (526) that connects is under support plate (529) Side with heater (53) by connect wires (527) be electrically connected, the heater switch (528) is embedded in heater (53) outer surface, The support plate (529) is horizontal vertical by electric welding set on the internal both sides of coating engine base (4) and coating engine base (4) madial wall Connection.

4. a kind of coating machine molding powder recovery system according to claim 1, it is characterised in that：The heater (53) is equipped with Two, inboard face is fitted closely for arc with molding powder collection bucket (50) outer surface.

5. a kind of coating machine molding powder recovery system according to claim 1, it is characterised in that：The screening recovery cylinder (54) In hollow cylinder, inner bottom surface is in the shape that is tilted to the right.

6. a kind of coating machine molding powder recovery system according to claim 1, it is characterised in that：The rotating sliding mechanism (57) by the first driving belt (570), rotating wheel (571), wheel carrier (572), rotating sliding bar (573), welding block (574), cunning Block (575), slide bar (576), sliding rod frame (577), push-pull rod (578) composition, described first driving belt (570) one end with it is electronic The line shaft engagement flexible connection of machine (56), the first driving belt (570) other end are engaged with the wheel shaft of rotating wheel (571) Flexible connection, for the wheel carrier (572) below rotating wheel (571), the rotating wheel (571) passes through wheel carrier (572) and coating Engine base (4) inner wall welds, and described rotating sliding bar (573) one end is flexibly connected by hinge with rotating wheel (571) front surface, institute It states rotating sliding bar (573) other end to be flexibly connected with welding block (574) by hinge, the welding block (574) is set on sliding block (575) front surface is connected with welding block (574) by electric welding, and the sliding block (575) is placed on slide bar (576) outer surface and slide bar (576) it is gap-matched, the slide bar (576) is fixed on by sliding rod frame (577) below screening recovery cylinder (54), described to push away Pull rod (578) one end is fixedly connected with sliding block (575) right lateral surface by being welded perpendicular shape, and the push-pull rod (578) is another End passes through glue Adherents junction with molding powder stocking mechanism (58).

7. a kind of coating machine molding powder recovery system according to claim 1, it is characterised in that：The molding powder stocking mechanism (58) by laddertron (580), the first check valve (581), the second check valve (582), elastic skin (583), molding powder storage cylinder (584) Composition, described laddertron (580) one end is with screening recovery cylinder (54) lower right-hand side by being welded perforation connection, the laddertron (580) other end connects first check valve (581), the second check valve with molding powder storage cylinder (584) by being welded perforation (582) inside the turn of laddertron (580), the elasticity skin (583) set on laddertron (580) stage casing left-hand face, The elasticity skin (583) is tightly connected by glue and laddertron (580).

8. a kind of coating machine molding powder recovery system according to claim 1 or 7, it is characterised in that：The elasticity skin (583) Between the first check valve (581) and the second check valve (582), it is described elasticity skin (583) it is recessed when, the first check valve (581) in closing shape, the second check valve (582) is in opening state, when the elasticity skin (583) is convex, the first check valve (581) in opening state, the second check valve (582) is in closing shape.

9. a kind of coating machine molding powder recovery system according to claim 1, it is characterised in that：The gear transfer mechanism (59) by the second driving belt (590), tooth belt wheel (591), spur gear (592), active transmission wheel (593), feed belt (594), driven transmission wheel (595), sludge outlet (596) composition, described second driving belt (590) one end and motor (56) Line shaft engagement flexible connection, the second driving belt (590) other end engages work with the wheel shaft of tooth belt wheel (591) Dynamic connection, the spur gear (592) is between tooth belt wheel (591) and active transmission wheel (593), the spur gear (592) flexible connection, the feed belt (594) are engaged with tooth belt wheel (591), active transmission wheel (593) by the gear teeth Between active transmission wheel (593) and driven transmission wheel (595), the feed belt (594) is obliquely set on and sieves back Cylinder (54) left side side is received, the active transmission wheel (593), driven transmission wheel (595) is internal set on feed belt (594) and engages Flexible connection, the sludge outlet (596) is below feed belt (594) left end, the sludge outlet (596) and coating machine Seat (4) is connected by electric welding.