CN109093102A - The process equipment of aluminum alloy cylinder cover - Google Patents

Abstract

The present invention relates to cylinder cap processing equipment fields, it aims to solve the problem that in existing cylinder cap manufacturing process, cylinder cap sand mud mould and cylinder cap need overall separation, time-consuming, the problem of the high requirements on the equipment, there is provided the process equipment of aluminum alloy cylinder cover comprising local air cooling equipment shakes off device, sawdust device, inner headed face detection device and transfer robot arm；Local air cooling equipment shakes off the transfer that device, sawdust device and inner headed face detection device realize cylinder cap to be processed by transfer robot arm, and transfer robot arm includes two fixture hands being oppositely arranged, and the length extending direction of two fixture hands is mutually perpendicular to；Local air cooling equipment cools down the bottom of cylinder cap, is then scraped bottom desert by shaking off device, is finally cut the redundance of cylinder cap bottom using sawdust device.By only being cooled down to the bottom of cylinder cap, then sand mud mould at this is shaken off, directly cuts the redundance of cylinder cap bottom, greatly reduces cooling time, accelerate the overall processing time of cylinder cap.

Description

The process equipment of aluminum alloy cylinder cover

Technical field

The present invention relates to cylinder cap processing equipment fields, in particular to the process equipment of aluminum alloy cylinder cover.

Background technique

Currently, aluminum alloy cylinder cover is to make product using husky mould, mud mould, by shaking device after making, by sand mud Deng with product overall separation, finally the extra part of mold bottom is cut down using saw.But in this way operation, exist with Lower disadvantage, whole cooling, time-consuming, the low disadvantage of producing efficiency, while the high requirements on the equipment, high production cost.

Summary of the invention

The present invention is intended to provide a kind of process equipment of aluminum alloy cylinder cover, to solve in existing cylinder cap manufacturing process, cylinder The problem of lid sand mud mould and cylinder cap need overall separation, and time-consuming, the high requirements on the equipment.

The embodiment of the present invention is achieved in that

The embodiment of the present invention provides the process equipment of aluminum alloy cylinder cover,

Including local air cooling equipment, shake off device, sawdust device, inner headed face detection device and transfer robot arm；Local wind Device for cooling shakes off the transfer that device, sawdust device and inner headed face detection device realize cylinder cap to be processed by transfer robot arm, turns Telephone-moving tool hand includes two fixture hands being oppositely arranged, and the length extending direction of two fixture hands is mutually perpendicular to；

Local air cooling equipment includes air pump, air hose and cooling device；Cooling device includes device noumenon and position-limit mechanism；Dress The air-out chamber that ontology is provided with open-top setting is set, is provided with above air-out chamber at the top of device noumenon and and air-out chamber The cylinder cap limiting slot of connection；Position-limit mechanism includes the regulating part and supporting element for being set to device noumenon, and supporting element is horizontally set at Air-out chamber, regulating part can driving support member move up and down to adjust between vertical between supporting element and cylinder cap limiting slot bottom end Away from；

Shake off device to include process support frame, scrape component and the first shaker mechanism；Process support erection is equipped with and can limit The processing frame of cylinder cap processed and support are set to the support column of processing frame bottom；Scraping component includes being obliquely installed in the bottom of processing frame The mounting plate of side, and be clouded in the top of mounting plate and scrape needle；The driving end of first shaker mechanism and mounting plate driving connect It connects, and being capable of drive installation plate shake up and down；

Sawdust device includes sawdust platform, sawdust knife group and adjusting component；Sawdust platform is provided with sawdust up and down Process mouth；Sawdust knife group includes being set to the driving mechanism and knife group of sawdust platform top side, and driving mechanism drives movable cutter set along saw The surface of last platform moves back and forth to realize mobile cutting；Component is adjusted to include the first elevating mechanism and be laterally correspondingly arranged in saw Adjustable plate below end processing mouth；The driving end of first elevating mechanism and adjustable plate are drivingly connected, to drive adjustable plate close and Mouth is processed far from sawdust.

In an embodiment of the present embodiment:

Inner headed face detection device includes detection scaffold, mobile device and inner headed face detector；

Detection scaffold is provided with being capable of lock ring cylinder cap periphery and limit through slot up and down；

Mobile device is set to the lower section of limit through slot, and mobile device includes the guide rail of the open setting in bottom, rotation The screw rod that is set in guide rail, sliding be embedded at guide rail and with the moving member of wire rod thread cooperation, be set to movement Part bottom and the third elevating mechanism for driving moving member to move up and down and the synchronization rail for being set to third elevating mechanism bottom Road；

Moving member, which is provided with, extends vertically through the elongate slots that the direction of guide rail extends, and the two sides of elongate slots penetrate through and wear If screw rod, the top inner wall of elongate slots is provided with the matching thread with screw rod cooperation；Geo-stationary orbit sliding is embedded with synchronization blocks；The Three elevating mechanisms are set to synchronization blocks；

Inner headed face detector is set to moving member, and inner headed face detector can be successively arranged with cylinder cap under the driving of screw rod Inner headed face it is corresponding.

In an embodiment of the present embodiment:

Device noumenon is additionally provided with the wind gathering chamber below air-out chamber, and wind gathering chamber is provided with air inlet, and air pump passes through wind Pipe gives air inlet air feed；Pass through multiple densely covered intercommunicating pore connections between the bottom of air-out chamber and the top of wind gathering chamber.

In an embodiment of the present embodiment:

It is vertically provided with wind deflector in air-out chamber, air-out chamber is divided into air outlet at the top of air-out chamber and opened by wind deflector At least one wind guide chamber of mouth；

The bottom of each wind guide chamber is correspondingly arranged the intercommunicating pore of preset quantity.

In an embodiment of the present embodiment:

Shaking off device further includes cleaning assembly and the second shaker mechanism；

Cleaning assembly includes the cleaning plate and the cleaning brush at the top for being clouded in cleaning plate being obliquely installed in mounting plate bottom side；

Mounting plate is provided with avoid holes, and cleaning brush passes through avoid holes；

The driving end of second shaker mechanism and cleaning plate are drivingly connected, and cleaning plate can be driven to shake up and down.

In an embodiment of the present embodiment:

Scrape needle array distribution, two adjacent column, which scrape, is provided with avoid holes between needle, avoid holes length direction it is corresponding from One end that one column scrape needle extends to the other end for scraping needle；

Cleaning brush is correspondingly arranged with avoid holes.

In an embodiment of the present embodiment:

Sawdust device further includes the position-limit mechanism being set to above sawdust platform；

Position-limit mechanism includes the second elevating mechanism and the limit plate that is horizontally set above sawdust platform, the second elevating mechanism Driving end and limit plate be drivingly connected, with drive limit plate close to and far from sawdust platform, between limit plate and sawdust platform Form limit space.

In an embodiment of the present embodiment:

Sawdust device further includes the guiding ruler component being oppositely arranged with sawdust knife group；

Guiding ruler component includes power mechanism and slides vertically the guiding ruler for being embedded at sawdust platform, the driving end of power mechanism with Guiding ruler is drivingly connected, and guiding ruler can be driven to project upwards sawdust platform, and guiding ruler can be driven to move down make its top It is flushed with sawdust platform.

In an embodiment of the present embodiment:

The bottom of moving member is arranged side by side, and there are two gib blocks；

There are two the guiding elongated slot for being parallel to the setting of screw rod extending direction, two guiding elongated slots to distinguish position for guide rail setting In the two sides of screw rod；

Each gib block passes through guiding elongated slot and connect with the driving end of third elevating mechanism, and matches with guiding elongated slot sliding It closes.

In an embodiment of the present embodiment:

The bore of limit through slot is gradually reduced from top to bottom end；

The inner wall of limit through slot is provided with flexible glue layer.

The beneficial effects of the present invention are: then shaken off sand mud mould at this by only being cooled down to the bottom of cylinder cap, The redundance for directly cutting cylinder cap bottom, greatly reduces cooling time, accelerates the overall processing time of cylinder cap.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is the structural schematic diagram of the transfer robot arm of the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention；

Fig. 2 is that the internal structure of local air cooling equipment in the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention is shown It is intended to；

Fig. 3 is the one of which in the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention in local air cooling equipment The top view of the air-out chamber of structure；

Fig. 4 is the air-out chamber in the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention in local air cooling equipment Another top view of structure；

Fig. 5 is the integral outer structural schematic diagram in the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention.

Fig. 6 is the structural schematic diagram for shaking off device in the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention；

Fig. 7 is the partial structurtes signal for shaking off device in the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention Figure.

Fig. 8 is the structural schematic diagram of the sawdust device in the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention；

Fig. 9 is the partial structurtes signal of the sawdust device in the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention Figure；

Figure 10 is the partial enlarged view of A in Fig. 9 provided in an embodiment of the present invention；

Figure 11 is the discharge component in the sawdust device in the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention Structural schematic diagram.

Figure 12 is that the structure of inner headed face detection device in the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention is shown It is intended to；

Figure 13 is the internal structure signal of inner headed face detection device in the process equipment of aluminum alloy cylinder cover of the embodiment of the present invention Figure；

Figure 14 be moving member in the process equipment of aluminum alloy cylinder cover of the embodiment of the present invention in inner headed face detection device with The structural schematic diagram of moving track cooperation；

Figure 15 is the top view of Figure 14 provided in an embodiment of the present invention；

Figure 16 is the fit structure schematic diagram of synchronization blocks provided in an embodiment of the present invention and geo-stationary orbit；

Figure 17 is showing along the structure for being parallel to geo-stationary orbit direction for the telescopic block in Figure 16 provided in an embodiment of the present invention It is intended to.

Icon: 100- sawdust platform；101- sawdust processes mouth；110- sawdust knife group；111- driving mechanism；112- knife group； 120- adjusts component；The first elevating mechanism of 121-；122- adjustable plate；130- limit assembly；The second elevating mechanism of 131-；132- limit Position plate；140- guiding ruler component；141- power mechanism；142- guiding ruler；143- measuring block；144- mating groove；145- sliding groove； 146- adjusting screw rod；150- discharge component；151- impeller；152- exports plate；200- process support frame；201- processes frame； 202- support column；210- scrapes component；211- mounting plate；220- avoid holes；221- scrapes needle；222- cleaning assembly；223- is clear Manage plate；224- cleaning brush；The first cam pack of 230-；The first cam of 231-；The first input shaft of 232-；The first output shaft of 233-； The second cam pack of 240-；The second cam of 241-；The second input shaft of 242-；The second output shaft of 243-；300- air pump；301- wind Pipe；302- cooling device；310- device noumenon；311- air-out chamber；320- wind gathering chamber；321- air inlet；330- intercommunicating pore； 340- cylinder cap limiting slot；350- wind deflector；351- arc panel；352- annular slab；353- spacing board；360- cold wind shell； 361- accommodating chamber；362- watch window；370- cold wind main body；371- position-limit mechanism；380- regulating part；381- screw rod；390- branch Support member；391- supporting network；392- adjustable column；400- detects scaffold；401- limits through slot；410- mobile device；411- guiding Track；412- screw rod；413- is oriented to elongated slot；414- gib block；415- moving member；416- elongate slots；420- third elevator Structure；421- hydraulic stem；422- drive block；423- mounting rack；The vertical passageway 424-；425- installs detent；430- geo-stationary orbit； 431- synchronization blocks；432- limit hole；433- pulley；434- wheel track；435- telescopic block；436- positive stop end；The inclined-plane 437-； 440- inner headed face detector；500- transfer robot arm；501- fixture hand.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.The present invention being usually described and illustrated herein in the accompanying drawings is implemented The component of example can be arranged and be designed with a variety of different configurations.

Therefore, the detailed description of the embodiment of the present invention provided in the accompanying drawings is not intended to limit below claimed The scope of the present invention, but be merely representative of selected embodiment of the invention.Based on the embodiments of the present invention, this field is common Technical staff's every other embodiment obtained without making creative work belongs to the model that the present invention protects It encloses.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the present invention, it should be noted that if occur term " center ", "upper", "lower", "left", "right", The orientation or positional relationship of the instructions such as "vertical", "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, Either the invention product using when the orientation or positional relationship usually put, be merely for convenience of the description present invention and simplification retouched It states, rather than the device or element of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, Therefore it is not considered as limiting the invention.If only being used in addition, occurring term " first ", " second " etc. in description of the invention It is described in distinguishing, is not understood to indicate or imply relative importance.

If being not offered as requiring component absolute in addition, occurring the terms such as term "horizontal", "vertical" in description of the invention Horizontal or pendency, but can be slightly tilted.If "horizontal" only refers to that its direction is more horizontal with respect to for "vertical", not It is to indicate that the structure is had to fully horizontally, but can be slightly tilted.

In the description of the present invention, it is also necessary to which explanation is unless specifically defined or limited otherwise, if there is term " setting ", " installation ", " connected ", " connection " shall be understood in a broad sense, for example, " connection " may be a fixed connection, being also possible to can Dismantling connection, or be integrally connected；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, can also pass through Intermediary is indirectly connected, and can be the connection inside two elements.For the ordinary skill in the art, can have Body situation understands the concrete meaning of above-mentioned term in the present invention.

Embodiment, referring to figs. 1 to Figure 17.

As shown in Figure 1, the process equipment of aluminum alloy cylinder cover provided in an embodiment of the present invention, including local air cooling equipment, tremble Dropping control device, sawdust device, inner headed face detection device and transfer robot arm 500；Local air cooling equipment shakes off device, sawdust device The transfer of cylinder cap to be processed is realized by transfer robot arm 500 with inner headed face detection device, transfer robot arm 500 includes two phases To the fixture hand 501 of setting, the length extending direction of two fixture hands 501 is mutually perpendicular to；

As shown in Fig. 2, local air cooling equipment includes air pump 300, air hose 301 and cooling device 302；Cooling device 302 wraps Include device noumenon 310 and position-limit mechanism 371；Device noumenon 310 is provided with the air-out chamber 311 of open-top setting, device noumenon The cylinder cap limiting slot 340 that 310 top is provided with above air-out chamber 311 and is connected to air-out chamber 311；Position-limit mechanism 371 Regulating part 380 and supporting element 390 including being set to device noumenon 310, supporting element 390 are horizontally set at air-out chamber 311, adjust Part 380 can driving support member 390 move up and down to adjust between vertical between 340 bottom end of supporting element 390 and cylinder cap limiting slot Away from；

Include process support frame 200, scrape component 210 and the first shaker mechanism as shown in fig. 6, shaking off device；Processing branch Support 200 is provided with the processing frame 201 that can limit cylinder cap and support is set to the support column 202 of processing 201 bottom of frame；It scrapes Component 210 includes being obliquely installed in the mounting plate 211 of the bottom side of processing frame 201, and be clouded in the top of mounting plate 211 and scrape Fall needle 221；The driving end of first shaker mechanism and mounting plate 211 are drivingly connected, and being capable of the shake of about 211 drive installation plate；

As shown in figure 8, sawdust device includes sawdust platform 100, sawdust knife group 110 and adjusting component 120；Sawdust platform 100 are provided with sawdust processing mouth 101 up and down；Sawdust knife group 110 includes being set to the driving machine of 100 top side of sawdust platform Structure 111 and knife group 112, driving mechanism 111 are driven movable cutter set 112 and are moved back and forth along the surface of sawdust platform 100 to realize and move Cutting；Adjust the adjustable plate that component 120 includes the first elevating mechanism 121 and is laterally correspondingly arranged in 101 lower section of sawdust processing mouth 122；The driving end of first elevating mechanism 121 and adjustable plate 122 are drivingly connected, to drive adjustable plate 122 close and far from sawdust Process mouth 101.

In an embodiment of the present embodiment,

As shown in Fig. 2, device noumenon 310 is additionally provided with the wind gathering chamber 320 positioned at 311 lower section of air-out chamber, wind gathering chamber 320 is set It is equipped with air inlet 321, air pump 300 gives 321 air feed of air inlet by air hose 301；The bottom of air-out chamber 311 and wind gathering chamber 320 It is connected between top by multiple densely covered intercommunicating pores 330.

Air pump 300 gives 320 air feed of wind gathering chamber by air hose 301, and the wind that wind gathering chamber 320 is assembled passes through multiple densely covered connections Air-out chamber 311 is respectively enterd, is arranged since intercommunicating pore 330 gathers, the cooling wind in wind gathering chamber 320 can be supplied equably To each corner of air-out chamber 311.

Cylinder cap limiting slot 340 is mainly used for limiting cylinder cap to be cooled, fastens cylinder cap from circumferential direction, the bottom of cylinder cap enters Air-out chamber 311, the cooling wind into air-out chamber 311 cool down the bottom of cylinder cap.Cylinder cap is adjusted by position-limit mechanism 371 The distance of air-out chamber 311 is protruded into bottom, that is, adjusts the specific cooling position of cylinder cap, is targetedly cooled down with having, sufficiently Using the cooling wind in air-out chamber 311, realize effectively cooling.Improve cooling efficiency.To improve the processing efficiency of overall cylinder cover.

Frame 201 is processed for the circumferential direction lock ring cylinder cap from cylinder cap, the bottom of cylinder cap is placed downward, and bottom sand mud mould is logical It crosses and scrapes component 210 and scrape.The sand mud mould for scraping needle 221 and capableing of continuous crushing cylinder base portion moved up and down, until sand mud mould It constantly falls, after falling to mounting plate 211, the mounting plate 211 being obliquely installed can export smashed sand mud mould.

Sawdust platform 100 is for placing cylinder cap to be cut.Sawdust processes mouth 101 for the periphery lock ring cylinder from cylinder cap Lid, the bottom of cylinder cap is fixed upwards.The first elevating mechanism 121 by adjusting component 120, which drives on adjustable plate 122, to be moved down Dynamic, the vertical height of the prominent sawdust platform 100 in bottom to adjust limitation cylinder cap is effective by cylinder cap bottom part to be cut Using sawdust platform 100 limit come.Then it drives movable cutter set 112 using driving mechanism 111 to move back and forth, to realize to cylinder cap The cutting of the redundance of bottom.

Entire cutting process, using limitation of the realization of component 120 to cutting part is adjusted, structure is simple, and cutting is accurate, behaviour Make simple and fast.

In an embodiment of the present embodiment:

As shown in Fig. 2, being vertically provided with wind deflector 350 in air-out chamber 311, air-out chamber 311 is divided into out by wind deflector 350 At least one the open-topped wind guide chamber of air port throughout air-out chamber 311；

The bottom of each wind guide chamber is correspondingly arranged the intercommunicating pore 330 of preset quantity.

The open-top of air-out chamber 311 is arranged, as " top opening of air-out chamber 311 "；The sky that wind deflector 350 is divided into Between top be air outlet, air outlet throughout air-out chamber 311 top opening, i.e., equably by the cooling wind in air-out chamber 311 Export, cooling wind can be exported from the top opening all directions of air-out chamber 311, to realize each side to the bottom of cylinder cap To cooling, further increase cooling efficiency.

The bottom of each wind guide chamber is provided with intercommunicating pore 330, guarantees that the cooling wind in wind gathering chamber 320 also can be by this The intercommunicating pore 330 of even arrangement guarantees that wind guide chamber various pieces air feed is uniform evenly into wind guide chamber.

In an embodiment of the present embodiment: wind deflector 350 is helically to coil the arc being set in air-out chamber 311 Shape plate 351；Wind guide chamber helically coil-shape.It is successively uniformly distributed air outlet outward from the middle part of cylinder cap bottom, is conducive to uniformly It is cooling.

In an embodiment of the present embodiment: as shown in figure 3, wind deflector 350 includes what multiple outer diameters were gradually increased Annular slab 352；The biggish annular slab 352 of outer diameter is arranged in the periphery of the lesser annular slab 352 of outer diameter, two adjacent annulars Annular wind guide chamber is provided between plate 352.Similarly, uniform air feed is realized.

In an embodiment of the present embodiment: as shown in figure 4, wind deflector 350 include it is multiple interval be arranged side by side in Spacing board 353 in air-out chamber 311.Using spacing board 353, can adapt to be evenly supplied in elongated cylinder cap bottom coohng wind.

In an embodiment of the present embodiment:

As shown in Fig. 2, the transverse gage of wind deflector 350 is from one end close to wind gathering chamber 320 to close to cylinder cap limiting slot 340 One end gradually become smaller.The namely air outlet bore of wind guide chamber, top is greater than bottom end, convenient for making cooling wind sufficiently cover cylinder cap Bottom, accelerate cooling efficiency.

In an embodiment of the present embodiment:

As shown in Fig. 2, device noumenon 310 includes cold wind shell 360 and cold wind main body 370；

Cold wind shell 360 is provided with the accommodating chamber 361 that top is connected to bottom end, and cylinder cap limiting slot 340 is located at accommodating chamber 361 top；Air-out chamber 311 and wind gathering chamber 320 are set to cold wind main body 370；Cold wind shell 360 covers at cold wind main body 370 Outside.

For the cylinder cap limiting slot 340 that cold wind shell 360 is arranged for limiting fixed cylinder cap to be cooled, cold wind shell 360 can With replacement, on the one hand, easy access internal part replaces cold wind shell 360 on the other hand, convenient for being suitable for different size Cylinder cap processing.

In an embodiment of the present embodiment:

As shown in figure 5, cold wind shell 360 be provided with can watch window 362 corresponding with air-out chamber 311, watch window 362 are provided with transparent sealing plate.

The case where watch window 362 is arranged, can observe Cooling of Cylinder Head, to make adjustment in time, finds the problem, and guarantees Cooling process is gone on smoothly.

In an embodiment of the present embodiment:

As shown in Fig. 2, regulating part 380 includes at least two screw rods 381, supporting element 390 is supporting network 391, supporting network 391 edge interval is vertically provided at least two adjustable columns 392；

Device noumenon 310 is provided at least two and is spaced apart in the installation passage of 340 periphery of cylinder cap limiting slot, Mei Gean Dress channel vertical rotating, which is provided with a screw rod 381 and slides, is embedded with an adjustable column 392,381 spiral shell of adjustable column 392 and screw rod Line connection.

Using supporting network 391, reticular structure guarantees that cooling wind can pass through supporting network 391 and sufficiently realize to cylinder cap bottom Cooling.Screw rod 381 rotates, and is able to drive adjustable column 392 and moves up and down along installation passage, to realize supporting network 391 and cylinder Spacing between the bottom of lid limiting slot 340 is adjusted, that is, is adjusted the bottom of cylinder cap and protruded into the height of air-out chamber 311.

In an embodiment of the present embodiment:

As shown in fig. 6, shaking off device further includes cleaning assembly 222 and the second shaker mechanism；

Cleaning assembly 222 include be obliquely installed in 211 bottom side of mounting plate cleaning plate 223 and be clouded in and clear up plate 223 The cleaning brush 224 at top；

Mounting plate 211 is provided with avoid holes 220, and cleaning brush 224 passes through avoid holes 220；

The driving end of second shaker mechanism and cleaning plate 223 are drivingly connected, and about 223 plate of cleaning can be driven to shake.

Needle 221 is scraped by after the sand mud mould crushing of cylinder cap bottom, cleaning brush 224 is recycled, the bottom of cylinder cap is remained husky Mud is removed, and so as to next step ground cutting operation, improves processing efficiency.

In an embodiment of the present embodiment:

As shown in fig. 7, scraping 221 array distribution of needle, two adjacent column, which scrape, is provided with avoid holes 220 between needle 221, keeps away It makes 220 length direction of hole corresponding and extends to the other end for scraping needle 221 from one end that a column scrape needle 221；

Cleaning brush 224 is correspondingly arranged with avoid holes 220.

Needle 221 is scraped after the bottom sand mud mould to cylinder cap crushes, mounting plate 211 stops；At this point, the second shake machine Structure drives cleaning brush 224 to pass through avoid holes 220, clears up the residual sand mud of cylinder cap bottom.Avoid holes 220 are set, are used for It realizes the division of labor work for scraping needle 221 and cleaning brush 224, is independent of each other.

In an embodiment of the present embodiment:

As shown in fig. 6, the first shaker mechanism includes the first cam pack 230 for being set to 211 two sides of mounting plate；First is convex Wheel assembly 230 includes the first cam 231, is set to the first input shaft 232 of 231 side of the first cam and is set to the first cam First output shaft 233 of 231 other sides, the first output shaft 233 are connect with the side of mounting plate 211；

Second shaker mechanism includes the second cam pack 240 for being set to cleaning 223 two sides of plate；Second cam pack 240 Including the second cam 241, it is set to the second input shaft 242 of 241 side of the second cam and to be set to the second cam 241 another Second output shaft 243 of side, the second output shaft 243 are connect with the side of cleaning plate 223；

The axial line of the axial line of first input shaft 232 and the second input shaft 242 is located in the two side-by-side plane of position, And it is mutually perpendicular to.

Using the rotation of the first cam 231 and the second cam 241, realizes mounting plate 211 and clear up the shake of plate 223, with The shake for scraping needle 221 for being set to 211 top of mounting plate is driven, and drives the cleaning brush for being set to 223 top of cleaning plate 224 shake.

First input shaft 232 and the second input shaft 242 are vertically arranged, and scrape the horizontal swing direction of needle 221 perpendicular to clear The horizontal swing direction of reason brush 224, improves the cleaning area and cleaning effect of cleaning brush 224.

In an embodiment of the present embodiment:

As shown in fig. 7, the transverse shifting spacing of the first output shaft 233, which is more than or equal to two adjacent column, scrapes needle 221 Between spacing.

During guarantee scrapes 221 transverse shifting of needle, the trace that scrapes of row's hanging fascia needle is continuous straight line, with Sand mud mould can be divided into several parts of disconnection, so as to accelerate the efficiency that desert is shaken off.

In an embodiment of the present embodiment:

As shown in fig. 7, cleaning brush 224 is provided with soft cleaning hair；

The lateral length of cleaning hair is more than or equal to two adjacent column and scrapes the spacing between needle 221.

The cleaning area for making cleaning brush 224 is continuously, to reduce the cleaning blind area that each column scrapes 221 two sides of needle, with abundant The bottom of cylinder cap is covered, realizes the abundant cleaning to the bottom of cylinder cap.

In an embodiment of the present embodiment:

As shown in fig. 7, the bore of processing frame 201 is gradually reduced from top to bottom end.

With Fast Installation cylinder cap to be processed, bore becomes smaller, fixation cylinder cap that can be stronger.

In an embodiment of the present embodiment:

The inner sidewall of processing frame 201 is provided with rubber layer.Reduce friction of the processing frame 201 to cylinder cap periphery wall.

In an embodiment of the present embodiment:

As shown in fig. 7, mounting plate 211 is obliquely installed along the transverse shifting direction of the first output shaft 233；Clear up plate 223 It is obliquely installed along the transverse shifting direction of the second output shaft 243.So that the transverse shifting direction of mounting plate 211 and the first shake The jitter direction of mechanism is the same, clears up the transverse shifting direction of plate 223 as the jitter direction of the second shaker mechanism, to reduce First shaker mechanism fights the active force of 211 gravity of mounting plate in dither process, reduces in the second shaker mechanism dither process The active force of confrontation cleaning 223 gravity of plate, reduces energy consumption.

The process equipment of aluminum alloy cylinder cover is present embodiments provided, the process equipment of aluminum alloy cylinder cover includes shaking off device. Cylinder cap processing whole efficiency can be significantly improved.

In an embodiment of the present embodiment:

As shown in Figure 8 and Figure 9, sawdust device further includes the limit assembly 130 for being set to 100 top of sawdust platform；

Limit assembly 130 includes the second elevating mechanism 131 and the limit plate 132 being horizontally set above sawdust platform 100, The driving end of second elevating mechanism 131 and limit plate 132 are drivingly connected, to drive limit plate 132 close and far from sawdust platform 100, limit space is formed between limit plate 132 and sawdust platform 100.

Adjustable plate 122 is cut from the position of the lower section of cylinder cap limitation cylinder cap, the protrusion sawdust platform 100 of major limitation cylinder cap Part is cut, limit plate 132 is from the position of the top of cylinder cap limitation cylinder cap, primarily to the position of cylinder cap is further fixed, with Just during knife group 112 is cut, cylinder cap is not susceptible to shake, and guarantees the accurate of cutting.

In an embodiment of the present embodiment:

As shown in figure 9, sawdust device further includes the guiding ruler component 140 being oppositely arranged with sawdust knife group 110；

Guiding ruler component 140 includes power mechanism 141 and slides vertically the guiding ruler 142 for being embedded at sawdust platform 100, engine The driving end of structure 141 and guiding ruler 142 are drivingly connected, and guiding ruler 142 can be driven to project upwards sawdust platform 100, and can Driving guiding ruler 142, which moves down, flushes its top with sawdust platform 100.

Knife group 112 drives guiding ruler 142 upward during cutting cylinder cap bottom redundance, through power mechanism 141 It is mobile, the part of the protrusion sawdust platform 100 of cylinder cap is resisted in 112 cut direction of knife group, to avoid in cutting process, cylinder cap And cut portion run-off the straight, influence the effect finally cut.When not needing guiding ruler 142, leaned on using the driving of power mechanism 141 Ruler 142 is moved to be flushed with sawdust platform 100, guarantees normal cutting operation.

In an embodiment of the present embodiment:

As shown in Figure 9 and Figure 10, side of the lateral edge towards limit assembly 130 of guiding ruler 142 perpendicular to sawdust platform 100 Measuring block 143 is embedded with to sliding；

The side towards guiding ruler 142 of limit plate 132 is provided with the mating groove 144 cooperated with measuring block 143, measuring block 143 vertical thickness is equal to the vertical height of mating groove 144.

The vertical height for limiting 100 top of protrusion sawdust platform of cylinder cap by adjusting measuring block 143, recycles limit plate The mating groove 144 of 132 settings cooperates with measuring block 143 is adjusted, to guarantee that it is flat that the part to be cut of cylinder cap is firmly secured to sawdust Platform 100, meanwhile, it can also guarantee the cutting part for accurately controlling cut portion.

In an embodiment of the present embodiment:

As shown in Figure 10, the side towards limit assembly 130 of guiding ruler 142 is provided with along perpendicular to sawdust platform 100 The sliding groove 145 that direction extends, the rotation of sliding groove 145 are provided with adjusting screw rod 146, and one end sliding of measuring block 143 is embedded at It sliding groove 145 and is threadedly coupled with adjusting screw rod 146；

The one end of measuring block 143 being located at outside sliding groove 145 and mating groove 144 cooperate.

Measuring block 143 is merely able to move up and down along sliding groove 145, by rotating adjusting screw rod 146, drives measuring block 143 move up and down along sliding groove 145.

In an embodiment of the present embodiment:

As shown in figure 9, first hydraulic cylinder of first elevating mechanism 121 including being vertically arranged to 122 bottom side of adjustable plate, first The driving end of the hydraulic stem 421 of hydraulic cylinder is connect with the bottom of adjustable plate 122.

The position of plate 122 can be accurately controlled to adjust by first hydraulic cylinder.

In an embodiment of the present embodiment:

As shown in figure 9, second hydraulic cylinder of second elevating mechanism 131 including being vertically arranged to 132 top side of limit plate, second The driving end of the hydraulic stem 421 of hydraulic cylinder is connect with the top of limit plate 132.

The position of limit plate 132 can be accurately controlled by second hydraulic cylinder.

In an embodiment of the present embodiment:

As shown in figure 11, sawdust device further includes discharge component 150；

Discharge component 150 includes the impeller 151 for being inserted into and exiting between knife group 112 and guiding ruler 142.

After the completion of cut portion cutting, using discharge component 150, cut portion is exited into cutting room, it is next to continue The cutting of a cylinder cap bottom.

In an embodiment of the present embodiment:

As shown in figure 11, discharge component 150 further includes the export plate 152 being oppositely arranged with impeller 151；

Export plate 152 is obliquely installed.

Export plate 152 is obliquely installed, and can be reduced cut portion and be exported the frictional force of plate 152, quickly to add cutting Work material is quickly discharged.

In an embodiment of the present embodiment,

As shown in figure 12, inner headed face detection device includes detection scaffold 400, mobile device 410 and inner headed face detector 440；

Detection scaffold 400 is provided with being capable of lock ring cylinder cap periphery and limit through slot 401 up and down；

Mobile device 410 is set to the lower section of limit through slot 401, and mobile device 410 includes the guiding of the open setting in bottom Track 411, the screw rod 412 being rotatably dispose in guide rail 411, sliding be embedded at guide rail 411 and with 412 screw thread of screw rod The moving member 415 of cooperation, be set to 415 bottom of moving member and drive moving member 415 move up and down third elevating mechanism 420, And it is set to the geo-stationary orbit 430 of 420 bottom of third elevating mechanism；

Moving member 415, which is provided with, extends vertically through the elongate slots 416 that the direction of guide rail 411 extends, elongate slots 416 Two sides penetrate through and wear screw rod 412, and the top inner wall of elongate slots 416 is provided with the matching thread cooperated with screw rod 412；Synchronous rail The sliding of road 430 is embedded with synchronization blocks 431；Third elevating mechanism 420 is set to synchronization blocks 431；

Inner headed face detector 440 is set to moving member 415, and inner headed face detector 440 can under the driving of screw rod 412 It is successively corresponding with the inner headed face of cylinder cap setting.

Screw rod 412 rotates, and driving moving member 415 is mobile, while driving the third elevator for being set to geo-stationary orbit 430 Structure 420 is mobile, and screw rod 412 stops operating, and moving member 415 stops movement, and third elevating mechanism 420 also stays at geo-stationary orbit On 430,420 synchronizing moving of moving member 415 and third elevating mechanism, in the present embodiment, driving of the moving member 415 in screw rod 412 Lower drive inner headed face detector 440 is moved to be aligned with the inner headed face of cylinder cap；Third elevating mechanism 420 drives on moving member 415 It rises, cylinder cap inner headed face is detected, detection finishes, and third elevating mechanism 420 drives moving member 415 to decline, and drives inner headed face Detector 440 declines；Screw rod 412 continues to rotate, and drives moving member 415 to be moved to and is aligned with next inner headed face, to be examined It surveys.Top step is repeated, the detection to inner headed face is sequentially completed, it is convenient and efficient.

In an embodiment of the present embodiment:

As shown in figure 12, aluminum alloy cylinder cover inner headed face detection device further includes always shelving；Detect scaffold 400, guided way Road 411 and geo-stationary orbit 430 successively are spaced to be arranged side by side along vertical direction to be shelved in always.Realize the rational deployment of component.

In an embodiment of the present embodiment:

As shown in figure 13, the bore for limiting through slot 401 is gradually reduced from top to bottom end；The inner wall of limit through slot 401 is set It is equipped with flexible glue layer.Bore becomes smaller, and can block cylinder cap；The setting of flexible glue layer can play the work for squeezing limit to the periphery of cylinder cap With.

In an embodiment of the present embodiment:

As shown in Figure 14 and Figure 15, the bottom of moving member 415 is arranged side by side there are two gib block 414；

There are two the guiding elongated slot 413 for being parallel to the setting of 412 extending direction of screw rod, two guiding for the setting of guide rail 411 Elongated slot 413 is located at the two sides of screw rod 412；

Each gib block 414 passes through guiding elongated slot 413 and connect with the driving end of third elevating mechanism 420, and grows with guiding Slot 413 is slidably matched.

Third elevating mechanism 420 drives during moving member 415 moves up and down, the direction that moving member 415 moves up and down by Gib block 414 limits, and gib block 414 is merely able to move along guiding elongated slot 413, can be avoided moving member 415 and climbs away and leads It is glanced off after to track 411, guarantees that inner headed face detector 440 can be accurately aimed at detection inner headed face.

In an embodiment of the present embodiment:

As shown in figure 13, third elevating mechanism 420 includes vertically arranged hydraulic stem 421, the piston rod of hydraulic stem 421 Driving end be horizontally arranged with drive block 422；Two gib blocks 414 are connect with drive block 422.

What hydraulic stem 421 was capable of strict control moving member 415 moves up and down spacing, guarantees the accuracy of detection；Using drive Motion block 422 facilitates the firm and stability that two gib blocks 414 are installed.

In an embodiment of the present embodiment:

As shown in figure 13, third elevating mechanism 420 further includes mounting rack 423；

Mounting rack 423 is disposed with vertical passageway 424 and the installation detent 425 of connection, hydraulic stem in the vertical direction 421 piston rod slides through vertical passageway 424, and the cylinder body of hydraulic stem 421 is embedded at installation detent 425.

The firm installation for guaranteeing hydraulic stem 421, avoids piston rod from glancing off, is further ensured that inner headed face detector 440 It, being capable of accurate contraposition and accurate return in lifting process.

In an embodiment of the present embodiment:

As shown in figure 16, the bottom of synchronization blocks 431 is provided with pulley 433.Reduce third elevating mechanism 420 and synchronous rail The frictional force in road 430 reduces the friction fit between screw rod 412 and moving member 415 to mitigate the driving load of screw rod 412, Have the function that reduce energy consumption.

In an embodiment of the present embodiment:

As shown in figure 16, the bottom of geo-stationary orbit 430 is provided with wheel track 434, and pulley 433 is placed in wheel track 434；Wheel track Road 434 extends along the direction for being parallel to screw rod 412.Guarantee that pulley 433 is moved along wheel track 434, pulley 433 is avoided to occur partially Tiltedly, the motion track for influencing synchronization blocks 431 causes the mobile Caton of third elevating mechanism 420.

In an embodiment of the present embodiment:

As shown in figure 16, the wherein side side wall spacing side by side of geo-stationary orbit 430 is provided with multiple stations, each station pair It should be provided with a telescopic block 435, telescopic block 435 is along the restriction course bearing setting perpendicular to wheel track 434, telescopic block 435 One end it is prominent be located at 434 inside of wheel track and be positive stop end 436, as shown in figure 17, positive stop end 436 towards wheel track 434 The two sides at both ends be respectively arranged with inclined-plane 437, two inclined-planes 437 are crossed to form the tip of positive stop end 436；

The side towards station of synchronization blocks 431 is provided with limit hole 432, and each positive stop end 436 can be caught in limit hole 432。

The positive stop end 436 of telescopic block 435 protrudes into wheel track 434, when synchronization blocks 431 are moved to positive stop end 436 and squeeze oblique Face 437, positive stop end 436 are retracted, and synchronization blocks 431 slip over telescopic end, when limit hole 432 is opposite with positive stop end 436, positive stop end 436 are caught in limit hole 432, at this point, third elevating mechanism 420 stops, inner headed face detector 440 is detected, after detection, Synchronization blocks 431 and third elevating mechanism 420 continue to move to, and telescopic block 435 is retracted again by 432 sidewall extrusion of limit hole, to Synchronization blocks 431 slip over positive stop end 436, and positive stop end 436 is protruded into again in wheel track 434.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of process equipment of aluminum alloy cylinder cover, it is characterised in that:

Including local air cooling equipment, shake off device, sawdust device, inner headed face detection device and transfer robot arm；The local wind Device for cooling, it is described shake off device, the sawdust device and the inner headed face detection device by the transfer robot arm realize to The transfer of cylinder cap is processed, the transfer robot arm includes two fixture hands being oppositely arranged, and the length of two fixture hands is prolonged Direction is stretched to be mutually perpendicular to；

The part air cooling equipment includes air pump, air hose and cooling device；The cooling device includes device noumenon and position restrainer Structure；Described device ontology is provided with the air-out chamber of open-top setting, is provided with described in being located to go out at the top of described device ontology The cylinder cap limiting slot being connected to above wind chamber and with the air-out chamber；The position-limit mechanism includes the tune for being set to described device ontology Section part and supporting element, the supporting element are horizontally set at the air-out chamber, and the regulating part can drive the supporting element or more Movement is to adjust the vertical spacing between the supporting element and cylinder cap limiting slot bottom end；

It is described shake off device include process support frame, scrape component and the first shaker mechanism；The process support erection is equipped with energy The processing frame and support for enough limiting cylinder cap are set to the support column of the processing frame bottom；The component that scrapes includes being obliquely installed Mounting plate in the bottom side of the processing frame, and be clouded in the top of the mounting plate and scrape needle；The first shake machine The driving end of structure and the mounting plate are drivingly connected, and the mounting plate can be driven to shake up and down；

The sawdust device includes sawdust platform, sawdust knife group and adjusting component；The sawdust platform is provided with up and down Sawdust processes mouth；The sawdust knife group includes being set to the driving mechanism and knife group of sawdust platform top side, the driving machine Structure drives the knife group to move back and forth along the surface of the sawdust platform to realize and move cutting；The adjusting component includes the One elevating mechanism and the adjustable plate being laterally correspondingly arranged in below the sawdust processing mouth；The driving end of first elevating mechanism It is drivingly connected with the adjustable plate, to drive the adjustable plate close and process mouth far from the sawdust.

2. the process equipment of aluminum alloy cylinder cover according to claim 1, it is characterised in that:

The inner headed face detection device includes detection scaffold, mobile device and inner headed face detector；

The detection scaffold is provided with being capable of lock ring cylinder cap periphery and limit through slot up and down；

The mobile device is set to the lower section of the limit through slot, and the mobile device includes the guided way of the open setting in bottom Road, the screw rod being rotatably dispose in the guide rail, sliding are embedded at the guide rail and cooperate with the wire rod thread Moving member, be set to the moving member bottom and third elevating mechanism that the driving moving member moves up and down and setting Geo-stationary orbit in third elevating mechanism bottom；

The moving member, which is provided with, extends vertically through the elongate slots that the direction of the guide rail extends, the two sides of the elongate slots The screw rod is penetrated through and wears, the top inner wall of the elongate slots is provided with the matching thread with screw rod cooperation；It is described same Step track sliding is embedded with synchronization blocks；The third elevating mechanism is set to the synchronization blocks；

The inner headed face detector is set to the moving member, and the inner headed face detector can be according under the driving of the screw rod It is secondary corresponding with the inner headed face of cylinder cap setting.

3. the process equipment of aluminum alloy cylinder cover according to claim 1, it is characterised in that:

Described device ontology is additionally provided with the wind gathering chamber below the air-out chamber, and the wind gathering chamber is provided with air inlet, institute Air pump is stated by the air hose to the air inlet air feed；Pass through between the bottom of the air-out chamber and the top of the wind gathering chamber Multiple densely covered intercommunicating pore connections.

4. the process equipment of aluminum alloy cylinder cover according to claim 3, it is characterised in that:

Be vertically provided with wind deflector in the air-out chamber, the wind deflector by the air-out chamber be divided into air outlet throughout it is described go out At least one open-topped wind guide chamber of wind chamber；

The bottom of each wind guide chamber is correspondingly arranged the intercommunicating pore of preset quantity.

5. the process equipment of aluminum alloy cylinder cover according to claim 1, it is characterised in that:

It is described shake off device further include cleaning assembly and the second shaker mechanism；

The cleaning assembly include be obliquely installed in the mounting plate bottom side cleaning plate and be clouded in it is described cleaning plate top Cleaning brush；

The mounting plate is provided with avoid holes, and the cleaning brush passes through the avoid holes；

The driving end of second shaker mechanism and the cleaning plate are drivingly connected, and the cleaning plate can be driven to tremble up and down It is dynamic.

6. the process equipment of aluminum alloy cylinder cover according to claim 5, it is characterised in that:

It is described to scrape needle array distribution, it is scraped described in two adjacent column and is provided with the avoid holes between needle, the avoid holes are long Degree direction is corresponding to extend to the other end for scraping needle from the one end for scraping needle described in a column；

The cleaning brush is correspondingly arranged with the avoid holes.

7. the process equipment of aluminum alloy cylinder cover according to claim 1, it is characterised in that:

The sawdust device further includes the position-limit mechanism being set to above the sawdust platform；

The position-limit mechanism includes the second elevating mechanism and the limit plate that is horizontally set above the sawdust platform, and described second The driving end of elevating mechanism and the limit plate are drivingly connected, to drive the limit plate close and the separate sawdust platform, Limit space is formed between the limit plate and the sawdust platform.

8. the process equipment of aluminum alloy cylinder cover according to claim 1, it is characterised in that:

The sawdust device further includes the guiding ruler component being oppositely arranged with the sawdust knife group；

The guiding ruler component includes power mechanism and slides vertically the guiding ruler for being embedded at the sawdust platform, the power mechanism It drives end and the guiding ruler to be drivingly connected, and the guiding ruler can be driven to project upwards the sawdust platform, and can drive The guiding ruler, which moves down, flushes its top with the sawdust platform.

9. the process equipment of aluminum alloy cylinder cover according to claim 2, it is characterised in that:

The bottom of the moving member is arranged side by side, and there are two gib blocks；

There are two the guiding elongated slot for being parallel to the screw rod extending direction setting, two guiding length for the guide rail setting Slot is located at the two sides of the screw rod；

Each gib block pass through the guiding elongated slot connect with the driving end of the third elevating mechanism, and with the guiding Elongated slot is slidably matched.

10. the process equipment of aluminum alloy cylinder cover according to claim 9, it is characterised in that:

The bore of the limit through slot is gradually reduced from top to bottom end；

The inner wall of the limit through slot is provided with flexible glue layer.