CN208391662U - A kind of scrap cleaning device of numerically controlled lathe - Google Patents

Abstract

The utility model discloses a kind of scrap cleaning devices of numerically controlled lathe, its structure includes air gun, cushion block, pedestal, chip removal pipeline, coolant liquid recyclable device, antirust agent tank, kerve, switching door, lathe main body, control panel, handrail, observe glass, side door, there are two cushion block is set altogether and shape size is identical, cushion block is welded in the lower end of pedestal, chip removal pipeline is welded in the right surface of pedestal, the lower end glue connection of air gun is connected to the left end of base front surface, antirust agent tank is embedded in the upper end of coolant liquid recyclable device, coolant liquid recyclable device is welded in the right end of chip removal pipeline, the utility model is by being equipped with coolant liquid recyclable device, after waste residue is filtered out, the coolant liquid of numerically controlled lathe is recycled, antirust agent is added in coolant liquid, make coolant liquid that can not only cool down in processing to part and cutter, part can also be prevented raw Rust, easy to use, coolant liquid recycles, and reduces cost, meets green idea.

Description

A kind of scrap cleaning device of numerically controlled lathe

Technical field

The utility model is a kind of scrap cleaning device of numerically controlled lathe, belongs to numerically controlled lathe and scrap cleaning applications.

Background technique

Numerically-controlled machine tool is the abbreviation of numerically-controlled machine tool, is a kind of automated machine tool equipped with program control system, the control System processed, which can be handled logically, has control coding or other symbolic instruction regulated procedures, and is decoded, to make machine Bed, which acts and processes part, can generate scrap during processing part, need to clear up scrap, technology is public at present Equipment when clearing up scrap, only scrap is handled, in process due to part, also use cooling Liquid, the main component of coolant liquid are emulsion, contain a certain amount of coolant liquid in scrap, unrecovered coolant liquid not only results in Environmental pollution, and will increase manufacturing cost, it is not environmentally protective enough.

Utility model content

In view of the deficienciess of the prior art, the utility model aim is to provide a kind of scrap sanitizer cartridge of numerically controlled lathe It sets, to solve the common equipment of current technology when clearing up scrap, only scrap is handled, since part is being processed In the process, coolant liquid is also used, the main component of coolant liquid is emulsion, contains a certain amount of coolant liquid in scrap, does not return Coolant liquid is received, not only results in environmental pollution, and will increase manufacturing cost, not environmentally protective enough problem.

To achieve the goals above, the utility model is achieved through the following technical solutions: a kind of numerically controlled lathe Scrap cleaning device, structure include air gun, cushion block, pedestal, chip removal pipeline, coolant liquid recyclable device, antirust agent tank, kerve, Switching door, lathe main body, control panel, handrail, observation glass, side door, the cushion block set altogether there are two and shape size it is identical, The cushion block is welded in the lower end of pedestal, and the chip removal pipeline is welded in the right surface of pedestal, the lower end glue connection of the air gun In the left end of base front surface, the antirust agent tank is embedded in the upper end of coolant liquid recyclable device, the coolant liquid recyclable device welding In the right end of chip removal pipeline, the lathe main body is welded in the upper end of pedestal, and the switching door is articulated with the right table of lathe main body Face, the kerve are embedded in the right surface of switching door, and the control panel is fixed by screws in the positive upper end of lathe main body, institute The front that side door is slidably connected to lathe main body is stated, the observation glass cement is connected to the positive center of side door, the handrail weldering It is connected to the positive right end of side door, the upper surface of the switching door and pedestal is orthogonal, and the coolant liquid recyclable device is by motor Driving structure, planetary gear structure, belt transmission structure, gear transmission structure, antirust agent are pumped into structure, filter structure, antirust agent Mixed structure, crust of the device composition, the filter structure are welded in the upper end inside crust of the device, the antirust agent mixed structure Embedded in the lower end of filter structure, the motor-driven structure is fitted in the lower end of antirust agent mixed structure, the planetary gear structure It is sequentially connected in the right end of motor-driven structure, the belt transmission structure is nested in the lower end of planetary gear structure, the antirust Agent is pumped into the right end that structure is engaged on filter structure, and the gear transmission structure transmission connection is pumped into the right side of structure in antirust agent End.

To optimize above-mentioned technical proposal, the measure further taken are as follows:

According to a kind of embodiment, the motor-driven structure is by ratchet fixing seat, slotted vane, motor fixing seat, driving Motor, the first roller, the first halved belt, spring leaf, ratchet composition, the driving motor are fixed by screws in motor fixing seat Front, the left end of the slotted vane is flexibly connected with ratchet fixing seat, and first roller is mechanically connected to ratchet fixing seat Middle section, the ratchet are movably connected on the right end of ratchet fixing seat, the right end clearance fit of the slotted vane the first roller just Face, the lower end of the spring leaf and ratchet clearance fit, the top ring of first halved belt is around being connected to the outer of the first roller The left end of circle, the ratchet and planetary gear structure is sequentially connected, and the ratchet fixing seat is pumped into the lower end phase of structure with antirust agent Fitting, the right end and belt transmission structure of the driving motor are interference fitted, the motor fixing seat and antirust agent mixed structure Lower end mutually weld.

According to a kind of embodiment, the planetary gear structure is by ratchet synchronous belt, sun gear, planetary gear, channel bar, the sun Fixing seat, channel bar fixed plate, short connection sheet, second tin roller composition are taken turns, the right end of the ratchet synchronous belt, which is surround, is connected to the sun The outer ring of wheel, the sun gear are movably connected on the lower end of sun gear fixing seat, and it is solid that the channel bar fixed plate is welded in sun gear The right end of reservation lower surface, the planetary gear are engaged on the inner ring of sun gear, the channel bar clearance fit in the front end of planetary gear, The left end of the short connection sheet is flexibly connected with channel bar, and the right end and second tin roller of the short connection sheet are mechanically connected, the slot The lower gap of bar and channel bar fixed plate cooperates, and the second tin roller is flexibly connected with the upper end of belt transmission structure, it is described too Sun wheel fixing seat and the lower end of gear transmission structure are mutually welded.

According to a kind of embodiment, the belt transmission structure by output channel, shaft coupling, shaft, the second halved belt, Third roller, belt, gear pump, roller fixing seat composition, the gear pump are embedded in the right end of output channel, the right side of the belt Splaying cooperation is connect by belt with third drum drive in the front end of gear pump, the gear pump, second halved belt Lower loop around the outer ring for being connected to third roller, the shaft is connect by the second halved belt with third drum drive, described Shaft coupling is embedded in the left end of shaft, and the left end of the output channel is mutually welded with the lower end of antirust agent mixed structure.

According to a kind of embodiment, the gear transmission structure is by cam synchronous belt, cam chair, cam, coupled pole, straight Gear, right ratch, swing rod, left ratch, turntable composition, the cam activation is connected to the positive upper end of cam chair, described convex The top ring of synchronous belt is taken turns around the front end for being connected to cam, the lower mechanical of the coupled pole is connected to the upper end of cam chair, institute The upper mechanical for stating coupled pole is connected to the middle section of swing rod, and the left end of the swing rod is flexibly connected with the upper end of right ratch, described The right end of straight-tooth gear and right ratch clearance fit, the left end of the straight-tooth gear and left ratch clearance fit, the left ratch Upper gap cooperation in the front of turntable, the turntable is connect with antirust agent suction structure driven.

According to a kind of embodiment, the antirust agent be pumped into structure by turntable synchronous belt, input duct, crank, draw water Bar, fixed frame, rotating cylinder, lower tooth disk, rotating cylinder synchronous belt, liquid outlet pipe composition, the left end of the turntable synchronous belt is around connection In the outer ring of crank, the crank is movably connected on the upper end of fixed frame, the rotating cylinder clearance fit fixed frame just Face, the crank are connect with the upper mechanical for the bar that draws water, and for the bar clearance fit of drawing water in the front of rotating cylinder, the rotating cylinder is synchronous The right end of band is sequentially connected around the outer ring for being connected to rotating cylinder, the lower tooth disk by rotating cylinder synchronous belt and rotating cylinder, the liquid out The upper end of pipeline is embedded in the left side of fixed frame lower end, and the lower end of the input duct is welded in the right side of fixed frame lower end, The lower tooth disk and filter structure clearance fit, the lower tooth disk and antirust agent mixed structure are sequentially connected.

According to a kind of embodiment, the filter structure by conical gear, gear connecting rod, bevel type gear, upper fluted disc, Rose Box, residue-removing rod, filter plate, Residue extraction pipeline, deslagging conveyer belt composition, the conical gear are interference fitted in gear connecting rod Lower end, the bevel type gear is nested in the upper end of gear connecting rod, and the bevel type gear is engaged on the front of fluted disc, described The right end clearance fit of upper fluted disc and residue-removing rod, the filter plate are welded in the inside of Rose Box, and the residue-removing rod is flexibly connected Upper end inside Rose Box, the Residue extraction pipeline are welded in the left end of Rose Box, and the deslagging conveyer belt is set to Residue extraction pipeline Lower end, the lower end of the Rose Box is mutually welded with the upper end of antirust agent mixed structure.

According to a kind of embodiment, the antirust agent mixed structure is by fluted disc synchronous belt, upper spring plate, motion bar, big Cylinder, mini-roundabout, mixing tank, lower Group spring are at the left end of the fluted disc synchronous belt is around the rear end for being connected to mini-roundabout, institute State the front end that motion bar is mechanically connected to mini-roundabout, the large cylinder clearance fit mixing tank inner ring, the motion bar Upper end is slidably connected to the inner ring of large cylinder, and the upper spring plate is welded in the upper end of motion bar, and the lower latch plate is embedded in work The lower end of lever, the upper spring plate is identical as lower latch plate shape size, the lower end of the motion bar and the inner ring of large cylinder Clearance fit.

Beneficial effect

A kind of scrap cleaning device of numerically controlled lathe of the utility model, at work, equipment is placed on properly by operator Place, equipment components are detected, check it is errorless after, equipment is controlled by control panel, part processes Afterwards, scrap is discharged in coolant liquid recyclable device from chip removal pipeline, is then turned on driving motor, is passed through first after driving motor rotation Halved belt drives the first roller, and the first roller drives ratchet by slotted vane, and spring leaf plays the role of a positioning to ratchet, so Ratchet drives sun gear by ratchet synchronous belt afterwards, rotates sun gear, then sun gear is solid in planetary gear, channel bar, sun gear Rotate second tin roller under reservation, channel bar fixed plate and the cooperation of short connection sheet, then second tin roller passes through cam synchronous belt band Moving cam rotates, then cam driven coupled pole, and then coupled pole swings swing rod, and then swing rod pulls right ratch and in straight-tooth Under the cooperation of gear, move up and down left ratch, then left ratch drives turntable, rotates turntable, then turntable passes through turntable Synchronous belt drives crank, rotates crank, and then crank drives rotating cylinder by the bar that draws water, when the bar that draws water stretches, by antirust agent tank Antirust liquid agent be extracted into mixing tank from input duct and liquid outlet pipe, in drum rotation, rotating cylinder passes through rotating cylinder synchronous belt Lower tooth disk is driven, lower tooth disk rotates bevel type gear, then bevel type gear band under the cooperation of conical gear and gear connecting rod Dynamic upper fluted disc rotates fluted disc, and then upper fluted disc drives residue-removing rod, rotates residue-removing rod, then residue-removing rod by waste residue via Residue extraction pipeline is discharged on deslagging conveyer belt, and outside device for transferring, and filtered coolant liquid flows to mixing tank from Rose Box, in lower tooth When disk rotates, lower tooth disk drives mini-roundabout by fluted disc synchronous belt, then in upper spring plate, motion bar, large cylinder, lower latch plate Cooperation under, coolant liquid is admixed together with antirust agent, in driving motor rotation, shaft is driven by shaft coupling, the Rotate gear pump under the cooperation of two halved belts, third roller and belt, gear pump passes through output channel for mixed cooling Liquid extracts equipment out, recycles coolant liquid.

The scrap cleaning device of a kind of numerically controlled lathe of the utility model, by being equipped with coolant liquid recyclable device, by waste residue mistake It filters out after coming, the coolant liquid of numerically controlled lathe is recycled, antirust agent is added in coolant liquid, add coolant liquid not only can Working hour cools down to part and cutter, can also prevent part from getting rusty, and easy to use, coolant liquid recycles, and reduces cost, Meet green idea.

Detailed description of the invention

In order to illustrate more clearly of the technical solution of the utility model embodiment, below by the attached drawing in being described to embodiment It introduces in detail, with this other features, objects and advantages of the utility model will be become more apparent upon:

Fig. 1 is a kind of structural schematic diagram of the scrap cleaning device of numerically controlled lathe of the utility model.

Fig. 2 is the structural schematic diagram of the utility model coolant liquid recyclable device.

Fig. 3 is the structural schematic diagram of the utility model motor-driven structure operating.

Fig. 4 is structural schematic diagram when the utility model antirust agent is pumped into structure drawing liquid.

Description of symbols: air gun -1, cushion block -2, pedestal -3, chip removal pipeline -4, coolant liquid recyclable device -5, antirust agent Tank -6, kerve -7, switching door -8, lathe main body -9, control panel -10, handrail -11, observation glass -12, side door -13, motor Driving structure -51, planetary gear structure -52, belt transmission structure -53, gear transmission structure -54, antirust agent be pumped into structure -55, Filter structure -56, antirust agent mixed structure -57, crust of the device -58, ratchet fixing seat -511, slotted vane -512, motor fixing seat - 513, driving motor -514, the first roller -515, the first halved belt -516, spring leaf -517, ratchet -518, ratchet synchronous belt - 521, sun gear -522, planetary gear -523, channel bar -524, sun gear fixing seat -525, channel bar fixed plate -526, short connection sheet - 527, second tin roller -528, output channel -531, shaft coupling -532, shaft -533, the second halved belt -534, third roller - 535, belt -536, gear pump -537, roller fixing seat -538, cam synchronous belt -541, cam chair -542, cam -543, multiple Close bar -544, straight-tooth gear -545, right ratch -546, swing rod -547, left ratch -548, turntable -549, turntable synchronous belt -551, Input duct -552, crank -553, the bar -554 that draws water, fixed frame -555, rotating cylinder -556, lower tooth disk -557, rotating cylinder synchronous belt - 558, liquid outlet pipe -559, conical gear -561, gear connecting rod -562, bevel type gear -563, upper fluted disc -564, Rose Box - 565, residue-removing rod -566, filter plate -567, Residue extraction pipeline -568, deslagging conveyer belt -569, fluted disc synchronous belt -571, upper spring Plate -572, motion bar -573, large cylinder -574, mini-roundabout -575, mixing tank -576, lower latch plate -577.

Specific embodiment

To be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, below In conjunction with specific embodiment, the utility model is further described.

Fig. 1-Fig. 4 is please referred to, the utility model provides a kind of scrap cleaning device of numerically controlled lathe: its structure includes air gun 1, cushion block 2, pedestal 3, chip removal pipeline 4, coolant liquid recyclable device 5, antirust agent tank 6, kerve 7, switching door 8, lathe main body 9, control Panel 10 processed, handrail 11, observation glass 12, side door 13, the cushion block 2 set altogether there are two and shape size it is identical, the cushion block 2 It is welded in the lower end of pedestal 3, the chip removal pipeline 4 is welded in the right surface of pedestal 3, and the lower end glue connection of the air gun 1 is connected to bottom 3 positive left ends of seat, the antirust agent tank 6 are embedded in the upper end of coolant liquid recyclable device 5, and the coolant liquid recyclable device 5 welds In the right end of chip removal pipeline 4, the lathe main body 9 is welded in the upper end of pedestal 3, and the switching door 8 is articulated with lathe main body 9 Right surface, the kerve 7 are embedded in the right surface of switching door 8, and the control panel 10 is fixed by screws in 9 front of lathe main body Upper end, the side door 13 is slidably connected to the front of lathe main body 9, and it is positive that 12 glue connection of observation glass is connected to side door 13 Center, the handrail 11 are welded in the positive right end of side door 13, and the upper surface of the switching door 8 and pedestal 3 is orthogonal, described Coolant liquid recyclable device 5 is driven by motor structure 51, planetary gear structure 52, belt transmission structure 53, gear transmission structure 54, prevents Agent of becoming rusty is pumped into structure 55, filter structure 56, antirust agent mixed structure 57, crust of the device 58 and forms, and the filter structure 56 welds Upper end inside crust of the device 58, the antirust agent mixed structure 57 are embedded in the lower end of filter structure 56, the motor driven Structure 51 is fitted in the lower end of antirust agent mixed structure 57, and the transmission connection of planetary gear structure 52 is in motor-driven structure 51 Right end, the belt transmission structure 53 are nested in the lower end of planetary gear structure 52, and the antirust agent is pumped into structure 55 and was engaged on The right end of structure 56 is filtered, the transmission connection of gear transmission structure 54 is pumped into the right end of structure 55 in antirust agent, and the motor drives Dynamic structure 51 is handed over by ratchet fixing seat 511, slotted vane 512, motor fixing seat 513, driving motor 514, the first roller 515, first It pitches band 516, spring leaf 517, ratchet 518 to form, the driving motor 514 is being fixed by screws in motor fixing seat 513 just The left end in face, the slotted vane 512 is flexibly connected with ratchet fixing seat 511, and first roller 515 is mechanically connected to ratchet and fixes The middle section of seat 511, the ratchet 518 are movably connected on the right end of ratchet fixing seat 511, and the right end gap of the slotted vane 512 is matched It closes in the front of the first roller 515, the lower end of the spring leaf 517 and 518 clearance fit of ratchet, first halved belt 516 Top ring around the outer ring for being connected to the first roller 515, the left end of the ratchet 518 and planetary gear structure 52 is sequentially connected, institute It states the lower end that ratchet fixing seat 511 is pumped into structure 55 with antirust agent to fit, the right end and belt of the driving motor 514 are driven Structure 53 is interference fitted, and the motor fixing seat 513 and the lower end of antirust agent mixed structure 57 are mutually welded, the planetary gear structure 52 by ratchet synchronous belt 521, sun gear 522, planetary gear 523, channel bar 524, sun gear fixing seat 525, channel bar fixed plate 526, Short connection sheet 527, second tin roller 528 form, and the right end of the ratchet synchronous belt 521 surround the outer ring for being connected to sun gear 522, The sun gear 522 is movably connected on the lower end of sun gear fixing seat 525, and it is solid that the channel bar fixed plate 526 is welded in sun gear The right end of 525 lower surface of reservation, the planetary gear 523 are engaged on the inner ring of sun gear 522, and 524 clearance fit of channel bar exists The left end of the front end of planetary gear 523, the short connection sheet 527 is flexibly connected with channel bar 524, the right end of the short connection sheet 527 It is mechanically connected with second tin roller 528, the channel bar 524 and the lower gap of channel bar fixed plate 526 cooperate, the second tin roller 528 are flexibly connected with the upper end of belt transmission structure 53, the lower end phase of the sun gear fixing seat 525 and gear transmission structure 54 Welding, the belt transmission structure 53 is by output channel 531, shaft coupling 532, shaft 533, the second halved belt 534, third roller 535, belt 536, gear pump 537, roller fixing seat 538 form, and the gear pump 537 is embedded in the right end of output channel 531, institute The right end clearance fit of belt 536 is stated in the front end of gear pump 537, the gear pump 537 passes through belt 536 and third roller 535 transmission connections, for the lower loop of second halved belt 534 around the outer ring for being connected to third roller 535, the shaft 533 is logical It crosses the second halved belt 534 to be sequentially connected with third roller 535, the shaft coupling 532 is embedded in the left end of shaft 533, the output The left end of pipeline 531 and the lower end of antirust agent mixed structure 57 are mutually welded, and the gear transmission structure 54 is by cam synchronous belt 541, cam chair 542, cam 543, coupled pole 544, straight-tooth gear 545, right ratch 546, swing rod 547, left ratch 548, turntable 549 compositions, the cam 543 are movably connected on the positive upper end of cam chair 542, the top ring of the cam synchronous belt 541 around It is connected to the front end of cam 543, the lower mechanical of the coupled pole 544 is connected to the upper end of cam chair 542, the coupled pole 544 upper mechanical is connected to the middle section of swing rod 547, and the left end of the swing rod 547 is flexibly connected with the upper end of right ratch 546, The right end of the straight-tooth gear 545 and right 546 clearance fit of ratch, the left end of the straight-tooth gear 545 and left 548 gap of ratch Cooperation, in the front of turntable 549, the turntable 549 is pumped into structure 55 with antirust agent for the upper gap cooperation of the left ratch 548 Transmission connection, the antirust agent are pumped into structure 55 by turntable synchronous belt 551, input duct 552, crank 553, the bar 554 that draws water, solid Determine frame 555, rotating cylinder 556, lower tooth disk 557, rotating cylinder synchronous belt 558, liquid outlet pipe 559 to form, the turntable synchronous belt 551 Left end is movably connected on the upper end of fixed frame 555, the rotating cylinder around the outer ring for being connected to crank 553, the crank 553 In the front of fixed frame 555, the crank 553 is connect 556 clearance fits with the upper mechanical for the bar 554 that draws water, described to draw water For 554 clearance fit of bar in the front of rotating cylinder 556, the right end of the rotating cylinder synchronous belt 558 surround the outer ring for being connected to rotating cylinder 556, The lower tooth disk 557 is sequentially connected by rotating cylinder synchronous belt 558 and rotating cylinder 556, and the upper end of the liquid outlet pipe 559 is embedded in fixation The lower end in the left side of 555 lower end of frame, the input duct 552 is welded in the right side of 555 lower end of fixed frame, the lower tooth disk 557 are sequentially connected with 56 clearance fit of filter structure, the lower tooth disk 557 with antirust agent mixed structure 57, the filter structure 56 by conical gear 561, gear connecting rod 562, bevel type gear 563, upper fluted disc 564, Rose Box 565, residue-removing rod 566, filtering Plate 567, Residue extraction pipeline 568, deslagging conveyer belt 569 form, and the conical gear 561 is interference fitted in gear connecting rod 562 Lower end, the bevel type gear 563 are nested in the upper end of gear connecting rod 562, and the bevel type gear 563 is engaged on fluted disc 564 Front, the right end clearance fit of the upper fluted disc 564 and residue-removing rod 566, the filter plate 567 is welded in Rose Box 565 Inside, the residue-removing rod 566 are movably connected on the upper end inside Rose Box 565, and the Residue extraction pipeline 568 is welded in Rose Box 565 left end, the deslagging conveyer belt 569 are set to the lower end of Residue extraction pipeline 568, the lower end of the Rose Box 565 and antirust agent The upper end of mixed structure 57 is mutually welded, and the antirust agent mixed structure 57 is by fluted disc synchronous belt 571, upper spring plate 572, motion bar 573, large cylinder 574, mini-roundabout 575, mixing tank 576, lower latch plate 577 form, and the left end of the fluted disc synchronous belt 571 is surround It is connected to the rear end of mini-roundabout 575, the motion bar 573 is mechanically connected to the front end of mini-roundabout 575, between the large cylinder 574 Gap cooperates the inner ring in mixing tank 576, and the upper end of the motion bar 573 is slidably connected to the inner ring of large cylinder 574, the upper bullet Spring plate 572 is welded in the upper end of motion bar 573, and the lower latch plate 577 is embedded in the lower end of motion bar 573, the upper spring plate 572 is identical as lower 577 shape size of latch plate, the lower end of the motion bar 573 and the inner ring clearance fit of large cylinder 574.

At work, equipment is placed on suitable place by operator, is detected to equipment components, is checked errorless Afterwards, equipment is controlled by control panel 10, after part processes, scrap is discharged to coolant liquid recycling dress from chip removal pipeline 4 5 li to be set, driving motor 514 is then turned on, driving motor 514 passes through the first halved belt 516 after rotating and drives the first roller 515, First roller 515 drives ratchet 518 by slotted vane 512, and spring leaf 517 plays the role of a positioning to ratchet 518, then spine Wheel 518 by ratchet synchronous belt 521 drive sun gear 522, make sun gear 522 rotate, then sun gear 522 planetary gear 523, Second tin roller 528 is rotated under channel bar 524, sun gear fixing seat 525, channel bar fixed plate 526 and the cooperation of short connection sheet 527, Then second tin roller 528 is rotated by cam synchronous belt 541 with moving cam 543, and then cam 543 drives coupled pole 544, then Coupled pole 544 swings swing rod 547, and then swing rod 547 pulls right ratch 546 under the cooperation of straight-tooth gear 545, makes left tooth Bar 548 moves up and down, and then left ratch 548 drives turntable 549, rotates turntable 549, and then turntable 549 is synchronous by turntable Band 551 drives crank 553, rotates crank 553, and then crank 553 drives rotating cylinder 556 by the bar 554 that draws water, and draw water bar 554 When flexible, the antirust liquid agent of antirust agent tank 6 is extracted into mixing tank 576 from input duct 552 and liquid outlet pipe 559, is being turned When cylinder 556 rotates, rotating cylinder 556 drives lower tooth disk 557 by rotating cylinder synchronous belt 558, and lower tooth disk 557 is in conical gear 561 and tooth Under the cooperation for taking turns connecting rod 562, rotate bevel type gear 563, then bevel type gear 563 drives upper fluted disc 564, makes fluted disc 564 rotations, then upper fluted disc 564 drives residue-removing rod 566, rotates residue-removing rod 566, then residue-removing rod 566 is by waste residue via row Slag pipeline 568 is discharged on deslagging conveyer belt 569, and outside device for transferring, and filtered coolant liquid flows to mixing tank from Rose Box 565 576, when lower tooth disk 557 rotates, lower tooth disk 557 drives mini-roundabout 575 by fluted disc synchronous belt 571, then in upper spring plate 572, under the cooperation of motion bar 573, large cylinder 574, lower latch plate 577, coolant liquid is admixed together with antirust agent, it is driving When motor 514 rotates, shaft 533 is driven by shaft coupling 532, in the second halved belt 534, third roller 535 and belt 536 Rotate gear pump 537 under cooperation, gear pump 537 extracts mixed coolant liquid out equipment by output channel 531, makes to cool down Liquid can recycle.

The utility model is combined with each other by above-mentioned component, after waste residue is filtered out, to the coolant liquid of numerically controlled lathe It is recycled, antirust agent is added in coolant liquid, make coolant liquid that can not only cool down in processing to part and cutter, also It can prevent part from getting rusty, easy to use, coolant liquid recycles, and reduces cost, meets green idea, current to solve with this The common equipment of technology only handles scrap, in process due to part, also uses when clearing up scrap Coolant liquid, the main component of coolant liquid are emulsion, contain a certain amount of coolant liquid in scrap, unrecovered coolant liquid, not only It will cause environmental pollution, and will increase manufacturing cost, not environmentally protective enough problem.

The basic building block of cyclic train belonging to sun gear 522 described in the utility model, in planetary gear train, as in The external gear of heart gear claims sun gear.

Specific embodiment described herein is only to give an example to the utility model.The affiliated skill of the utility model The technical staff in art field can make various modifications or additions to the described embodiments or using similar side Formula substitution, but without departing from the utility model or beyond the scope of the appended claims.

Claims (8)

1. a kind of scrap cleaning device of numerically controlled lathe, structure includes air gun (1), cushion block (2), pedestal (3), chip removal pipeline (4), coolant liquid recyclable device (5), antirust agent tank (6), kerve (7), switching door (8), lathe main body (9), control panel (10), Handrail (11), observation glass (12), side door (13), it is characterised in that:

There are two the cushion block (2) sets altogether and shape size is identical, and the cushion block (2) is welded in the lower end of pedestal (3), the row Bits pipeline (4) are welded in the right surface of pedestal (3), and the lower end glue connection of the air gun (1) is connected to pedestal (3) positive left end, institute The upper end that antirust agent tank (6) are embedded in coolant liquid recyclable device (5) is stated, the coolant liquid recyclable device (5) is welded in chip removal pipeline (4) right end, the lathe main body (9) are welded in the upper end of pedestal (3), and the switching door (8) is articulated with lathe main body (9) Right surface, the kerve (7) are embedded in the right surface of switching door (8), and the control panel (10) is fixed by screws in lathe master Body (9) positive upper end, the side door (13) are slidably connected to the front of lathe main body (9), observation glass (12) glue connection It is connected to side door (13) positive center, the handrail (11) is welded in side door (13) positive right end, the switching door (8) and bottom The upper surface of seat (3) is orthogonal；

The coolant liquid recyclable device (5) be driven by motor structure (51), planetary gear structure (52), belt transmission structure (53), Gear transmission structure (54), antirust agent are pumped into structure (55), filter structure (56), antirust agent mixed structure (57), crust of the device (58) it forms；

The filter structure (56) is welded in the internal upper end of crust of the device (58), and the antirust agent mixed structure (57) was embedded in The lower end of structure (56) is filtered, the motor-driven structure (51) is fitted in the lower end of antirust agent mixed structure (57), the planet Wheel construction (52) is sequentially connected in the right end of motor-driven structure (51), and the belt transmission structure (53) is nested in planetary gear knot The lower end of structure (52), the antirust agent are pumped into the right end that structure (55) are engaged on filter structure (56), the gear transmission structure (54) it is sequentially connected and is pumped into the right end of structure (55) in antirust agent.

2. a kind of scrap cleaning device of numerically controlled lathe according to claim 1, it is characterised in that: the motor driven knot Structure (51) is by ratchet fixing seat (511), slotted vane (512), motor fixing seat (513), driving motor (514), the first roller (515), the first halved belt (516), spring leaf (517), ratchet (518) composition, the driving motor (514) are screwed It is flexibly connected in the left end in the front of motor fixing seat (513), the slotted vane (512) with ratchet fixing seat (511), described first Roller (515) is mechanically connected to the middle section of ratchet fixing seat (511), and the ratchet (518) is movably connected on ratchet fixing seat (511) right end, the right end clearance fit of the slotted vane (512) is in the front of the first roller (515), the spring leaf (517) Lower end and ratchet (518) clearance fit, the top ring of first halved belt (516) is around being connected to the first roller (515) Outer ring, the left end transmission connection of the ratchet (518) and planetary gear structure (52), the ratchet fixing seat (511) and antirust agent The lower end for being pumped into structure (55) fits, and the right end of the driving motor (514) and belt transmission structure (53) are interference fitted, institute It states motor fixing seat (513) and the lower end of antirust agent mixed structure (57) is mutually welded.

3. a kind of scrap cleaning device of numerically controlled lathe according to claim 1 or 2, it is characterised in that: the planetary gear Structure (52) is by ratchet synchronous belt (521), sun gear (522), planetary gear (523), channel bar (524), sun gear fixing seat (525), channel bar fixed plate (526), short connection sheet (527), second tin roller (528) composition, the right side of the ratchet synchronous belt (521) End ring is movably connected under sun gear fixing seat (525) around the outer ring for being connected to sun gear (522), the sun gear (522) End, the channel bar fixed plate (526) are welded in the right end of sun gear fixing seat (525) lower surface, planetary gear (523) engagement Inner ring in sun gear (522), channel bar (524) clearance fit is in the front end of planetary gear (523), the short connection sheet (527) left end is flexibly connected with channel bar (524), and the right end of the short connection sheet (527) and second tin roller (528) are mechanical even It connects, the lower gap of the channel bar (524) and channel bar fixed plate (526) cooperates, and the second tin roller (528) and belt transmission are tied The upper end of structure (53) is flexibly connected, and the sun gear fixing seat (525) and the lower end of gear transmission structure (54) are mutually welded.

4. a kind of scrap cleaning device of numerically controlled lathe according to claim 2, it is characterised in that: the belt transmission knot Structure (53) is by output channel (531), shaft coupling (532), shaft (533), the second halved belt (534), third roller (535), skin Band (536), gear pump (537), roller fixing seat (538) composition, the gear pump (537) are embedded in the right side of output channel (531) End, for the right end clearance fit of the belt (536) in the front end of gear pump (537), the gear pump (537) passes through belt (536) it is sequentially connected with third roller (535), the lower loop of second halved belt (534) is around being connected to third roller (535) Outer ring, the shaft (533) is sequentially connected by the second halved belt (534) and third roller (535), the shaft coupling (532) left end of shaft (533), the left end of the output channel (531) and the lower end phase of antirust agent mixed structure (57) are embedded in Welding.

5. a kind of scrap cleaning device of numerically controlled lathe according to claim 3, it is characterised in that: the gear drive knot Structure (54) is by cam synchronous belt (541), cam chair (542), cam (543), coupled pole (544), straight-tooth gear (545), right tooth Bar (546), swing rod (547), left ratch (548), turntable (549) composition, the cam (543) are movably connected on cam chair (542) positive upper end, the top ring of the cam synchronous belt (541) is around the front end for being connected to cam (543), the coupled pole (544) lower mechanical is connected to the upper end of cam chair (542), and the upper mechanical of the coupled pole (544) is connected to swing rod (547) left end in middle section, the swing rod (547) is flexibly connected with the upper end of right ratch (546), the straight-tooth gear (545) Right end and right ratch (546) clearance fit, the left end of the straight-tooth gear (545) and left ratch (548) clearance fit, it is described The upper gap cooperation of left ratch (548) is pumped into structure (55) in the front of turntable (549), the turntable (549) and antirust agent Transmission connection.

6. a kind of scrap cleaning device of numerically controlled lathe according to claim 2, it is characterised in that: the antirust agent is pumped into Structure (55) by turntable synchronous belt (551), input duct (552), crank (553), the bar that draws water (554), fixed frame (555), Rotating cylinder (556), lower tooth disk (557), rotating cylinder synchronous belt (558), liquid outlet pipe (559) composition, the turntable synchronous belt (551) Around the outer ring for being connected to crank (553), the crank (553) is movably connected on the upper end of fixed frame (555), described for left end Rotating cylinder (556) clearance fit connects in the front of fixed frame (555), the crank (553) and the upper mechanical for the bar (554) that draws water It connects, the bar that draws water (554) clearance fit is in the front of rotating cylinder (556), and the right end of the rotating cylinder synchronous belt (558) is around connection In the outer ring of rotating cylinder (556), the lower tooth disk (557) is sequentially connected by rotating cylinder synchronous belt (558) and rotating cylinder (556), described The upper end of liquid outlet pipe (559) is embedded in the left side of fixed frame (555) lower end, and the lower end of the input duct (552) is welded in The right side of fixed frame (555) lower end, the lower tooth disk (557) and filter structure (56) clearance fit, the lower tooth disk (557) It is sequentially connected with antirust agent mixed structure (57).

7. a kind of scrap cleaning device of numerically controlled lathe according to claim 6, it is characterised in that: the filter structure (56) by conical gear (561), gear connecting rod (562), bevel type gear (563), upper fluted disc (564), Rose Box (565), clear Expect bar (566), filter plate (567), Residue extraction pipeline (568), deslagging conveyer belt (569) composition, conical gear (561) interference In the lower end of gear connecting rod (562), the bevel type gear (563) is nested in the upper end of gear connecting rod (562), described for cooperation Bevel type gear (563) is engaged on the front of fluted disc (564), and the upper fluted disc (564) and the right end gap of residue-removing rod (566) are matched It closes, the filter plate (567) is welded in the inside of Rose Box (565), and the residue-removing rod (566) is movably connected on Rose Box (565) internal upper end, the Residue extraction pipeline (568) are welded in the left end of Rose Box (565), the deslagging conveyer belt (569) Set on the lower end of Residue extraction pipeline (568), the lower end of the Rose Box (565) and the upper end of antirust agent mixed structure (57) are mutually welded It connects.

8. a kind of scrap cleaning device of numerically controlled lathe according to claim 6 or 7, it is characterised in that: the antirust agent Mixed structure (57) is by fluted disc synchronous belt (571), upper spring plate (572), motion bar (573), large cylinder (574), mini-roundabout (575), mixing tank (576), lower latch plate (577) composition, the left end of the fluted disc synchronous belt (571), which is surround, is connected to mini-roundabout (575) rear end, the motion bar (573) are mechanically connected to the front end of mini-roundabout (575), and large cylinder (574) gap is matched Close the inner ring in mixing tank (576), the upper end of the motion bar (573) is slidably connected to the inner ring of large cylinder (574), it is described on Latch plate (572) is welded in the upper end of motion bar (573), and the lower latch plate (577) is embedded in the lower end of motion bar (573), institute State that upper spring plate (572) is identical as lower latch plate (577) shape size, the lower end and large cylinder (574) of the motion bar (573) Inner ring clearance fit.