CN207857752U - Mesh basket automatic assembly line - Google Patents

Abstract

The utility model provides a kind of mesh basket automatic assembly line, for mesh sheet to be produced into mesh basket automatically, it includes the automatic charging equipment for detaching multilayer mesh sheet set gradually, punching hydraulic press for cutting off mesh sheet, the separation transfer robot of feeding and sub-material is carried out to the mesh sheet after cut-out, the molding mash welder of spot welding at bending forming and abutment joint is carried out for the mesh sheet after cutting off, transfer manipulator for the mesh basket for transferring spot welding moulding, and the transmission device for mesh basket to be transmitted to subsequent processing.Mesh basket automatic assembly line provided by the utility model realizes the automated production of mesh basket, improves production efficiency, reduces labor intensity.

Description

Mesh basket automatic assembly line

Technical field

The utility model is related to the production equipment of metal net shaped container, more particularly to a kind of mesh basket automatic assembly line.

Background technology

In the production process of metal net shaped material frame such as hoop, mesh sheet is typically processed into mesh basket, first to net Piece is cut according to the moulding of mesh basket, and the mesh sheet after cutting is divided into major ingredient and waste material；Major ingredient and waste material are detached again, it will Major ingredient is sent into molding mash welder and carries out molding welding, and the mesh basket that molding is welded into, which is sent to subsequent processing, carries out other structures Processing.Currently, this series of production process is operated using independent station, and sometimes for manual polishing, labor intensity Greatly, low production efficiency.Therefore, it is urgent to provide it is a kind of improve production efficiency high degree of automation processing mesh sheet at mesh basket oneself Dynamic metaplasia producing line.

Utility model content

The utility model provides a kind of mesh basket automatic assembly line, can realize efficiently production, reduce labor intensity.

The utility model is related to technical solution：

A kind of mesh basket automatic assembly line, for mesh sheet to be produced into mesh basket automatically, it is characterised in that：The mesh basket is given birth to automatically Producing line includes successively：Automatic charging equipment for detaching multilayer mesh sheet, the blanking equipment for cutting off mesh sheet, after cut-out Mesh sheet carry out the separation transmission equipment of feeding and sub-material, carry out bending forming simultaneously point at abutment joint for the mesh sheet after cut off The molding spot-welding equipment of weldering, mesh basket transporting apparatus, and the transmission device equipment for mesh basket to be transmitted to subsequent processing.

Preferably, the automatic charging equipment includes engine base, absorption transfer mechanism, positioning device and feeding mechanical device；

Engine base is staged frame structure, and mesh sheet is stacked on lower cascaded surface, positioning dress is installed on higher cascaded surface It sets；

Absorption transfer mechanism includes that supporting bar, translation truss, lifting gear and adsorbent equipment, supporting bar are located at engine base Side, translation truss is fixed at the top of supporting bar, extends along feed direction, and translates truss and be higher by the higher rank of engine base Tread, lifting gear are connected to translatablely on translation truss and positioned at the top of engine base top surface, and adsorbent equipment is fixed in lifting Bottom of device；

Positioning device is precisely transferred so as to material and is precisely rushed being fed through blanking equipment for being accurately positioned mesh sheet It cuts out；

Feeding mechanical device is set to engine base side, is set for the mesh sheet after being positioned by positioning device to be sent to punching On standby mold.

Preferably, the adsorbent equipment includes absorption ontology, and absorption ontology bottom surface four corners have protruded out the first pillar, four First pillar bottom is equipped with adsorption magnet, the inductor that absorption ontology bottom surface is further fitted with, and absorption ontology bottom surface is also pacified Equipped with material-removing structure, material-removing structure includes de- material baffle and is installed on absorption ontology bottom surface for driving de- material baffle to lift De- material cylinder, the affixed de- material baffle of telescopic rod of de- material cylinder.

Preferably, the positioning device includes X to plate washer, X to actuator, Y-direction plate washer and Y-direction actuator, and X is to plate washer It is mutually perpendicular to Y-direction plate washer, X is oppositely arranged with X to actuator to plate washer, and Y-direction plate washer is oppositely arranged with Y-direction actuator, and X is to drive Moving part and Y-direction actuator are equipped with corresponding telescopic rod, and push jack is installed on telescopic rod.

Preferably, the separation transmission equipment includes the second pedestal, is installed on that the second pedestal side is translatable and liftable The second bascule, and the sub-material adsorbent equipment that is installed on the second bascule and can be translated along the second bascule；Point Expect that adsorbent equipment includes absorption ontology, major ingredient adsorption structure, major ingredient material removing mechanism, waste material adsorbing mechanism and waste material material removing mechanism；

Major ingredient adsorption structure is installed on the position that absorption ontology bottom surface corresponds to major ingredient, for adsorbing major ingredient；

Major ingredient material removing mechanism is installed on the position that absorption ontology bottom surface corresponds to major ingredient, for pushing the major ingredient adsorbed to be detached from In major ingredient adsorption structure；

Waste material adsorbing mechanism is installed on the position that absorption ontology bottom surface corresponds to waste material, for adsorbing waste material；

Waste material material removing mechanism is installed on the position that absorption ontology bottom surface corresponds to waste material, for pushing the waste material adsorbed to be detached from In waste material material removing mechanism.

Preferably, state major ingredient adsorption structure include be resiliently connected to absorption ontology bottom surface several major ingredient adsorption pieces and Several 4th pillars of absorption ontology bottom surface are convexedly stretched in, are arranged with elastic component on the 4th pillar, major ingredient adsorption piece passes through elastic component It is elastically mounted at the bottom end of the 4th pillar.

Preferably, the waste material adsorbing mechanism includes being installed on absorption ontology bottom surface waste material absorption actuator, is installed on useless The universal joint and rotatable position of material absorption actuator lift side it is installed on the waste material adsorption piece of universal joint.

Preferably, the waste material material removing mechanism includes waste material pushing block, waste material pushing block actuator and locating rod, and waste material pushing block drives Moving part is installed on absorption ontology bottom surface, and waste material pushing block is fixed in the lift side of waste material pushing block actuator, and one end of waste material pushing block is opened Equipped with through-hole, universal joint is liftably arranged in through-hole, and locating rod is installed on absorption ontology bottom surface, and lower end, which offers, leads Hole has protruded out guide post on waste material pushing block and has been inserted in guide hole.

Preferably, the mesh basket transporting apparatus includes third pedestal, to be installed on third pedestal side translatable and is lifted Third bascule and horizontally slidable the extraction element for being installed on third bascule, the extraction element include one Ontology is supported, the movable jaw of support ontology both sides is telescopically arranged in, and is installed in support ontology for driving work Dynamic claw realizes the claw actuator of grasping movement, and the side of ontology is supported to be slidably mounted on third bascule, living Dynamic claw is used to capture the top edge of mesh basket both sides bending, and to lift mesh basket, movable jaw is a L-shaped sheet bending knot Structure there are four movable jaw is set, is relatively arranged on the both sides of support ontology two-by-two, can opposite support ontology per a pair of movable jaw Pre-determined distance is opened and is retracted to both sides, to clamp the top edge of mesh basket both sides bending.

The beneficial effects of the utility model：

Compared with prior art, mesh basket automatic assembly line provided by the utility model, passes through the automatic charging set gradually Equipment is punched hydraulic press, detaches transfer robot, is molded mash welder, mesh basket transfer manipulator and transmission device, realizes mesh basket Automated production, improve production efficiency, reduce labor intensity.

Description of the drawings

Fig. 1 is the schematic diagram for the mesh sheet that the utility model mesh basket automatic assembly line uses；

Fig. 2 is decomposition diagram of the mesh sheet that uses of the utility model mesh basket automatic assembly line after cut-out；

Fig. 3 is the structural schematic diagram for the mesh basket that the utility model mesh basket automatic assembly line is produced；

Fig. 4 is the overall structure diagram of the utility model mesh basket automatic assembly line；

Fig. 5 is the three-dimensional structure diagram at the first visual angle of the automatic charging equipment of the utility model mesh basket automatic assembly line；

Fig. 6 is the three-dimensional structure diagram at the second visual angle of the automatic charging equipment of the utility model mesh basket automatic assembly line；

Fig. 7 is the stereochemical structure of the first adsorbent equipment of the automatic charging equipment of the utility model mesh basket automatic assembly line Figure；

Fig. 8 is the stereochemical structure of the second adsorbent equipment of the automatic charging equipment of the utility model mesh basket automatic assembly line Figure；

Fig. 9 is the three-dimensional structure diagram of the separation transfer robot of the utility model mesh basket automatic assembly line；

Figure 10 is the vertical view of the separation transfer robot of the utility model mesh basket automatic assembly line；

Figure 11 is the side view of the separation transfer robot of the utility model mesh basket automatic assembly line；

Figure 12 is the stereogram of the adsorbent equipment of the separation transfer robot of the utility model mesh basket automatic assembly line；

Figure 13 is the enlarged drawing of part A in Figure 12.

Specific implementation mode

With reference to the attached drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out clear Chu is fully described by.It should be appreciated that specific embodiment described herein is only used to explain the utility model, it is not used to Limit scope of protection of the utility model.

It please refers to Fig.1 to Fig.4, the utility model provides a kind of 103 automatic assembly line of mesh basket, for mesh sheet 10 is automatic Be produced into mesh basket 103, the mesh sheet 10 in the present embodiment be can magnetic metal mesh sheet.103 automatic assembly line of mesh basket includes successively： Automatic charging equipment S1 for detaching multilayer mesh sheet 10, the blanking equipment S2 for cutting off mesh sheet 10, to the net after cut-out Piece 10 carries out the separation transmission equipment S3 of feeding and sub-material, is carried out at bending forming and abutment joint for the mesh sheet 10 after cutting off The molding spot-welding equipment S4 of spot welding, mesh basket transporting apparatus S5, and the transmission device for mesh basket 103 to be transmitted to subsequent processing Equipment S6.

The production method of mesh basket 103 is as follows：

The first step：Mesh sheet 10 is sent by automatic charging equipment S1 on the cut-out mold of blanking equipment S2；

Second step：Mesh sheet 10 is cut into respective shapes by blanking equipment S2 by the moulding of mesh basket 103, and mesh sheet 10 is divided into Major ingredient 101 in 10 middle part of mesh sheet and the waste material 102 in 10 surrounding of mesh sheet；

Third walks：The major ingredient 101 of the mesh sheet 10 after cut-out is sent to molding spot-welding equipment by detaching transmission equipment S3 In the molding die of S4, the waste material 102 of mesh sheet 10 is sent to garbage collection area；

4th step：Spot-welding equipment S4 is molded to spot welding at 101 bending forming of major ingredient and abutment joint of mesh sheet 10；

5th step：The mesh basket 103 for being molded spot-welding equipment S4 welding fabrications is transferred to transmission by mesh basket transporting apparatus S5 Equipment S6；

6th step：Mesh basket 103 is transmitted to subsequent processing by transmission device S6.

Fig. 5, Fig. 6 are please referred to, automatic charging equipment S1 includes engine base 1, absorption transfer mechanism 2, positioning device 3 and feeding Mechanical device 4；

Engine base 1 is staged frame structure, and mesh sheet 10 is stacked on lower cascaded surface, positioning is installed on higher cascaded surface One end of device 3,1 relatively low cascaded surface of engine base is feed end, and one end opposite with feed end is discharge end, and feed end stacks mesh sheet 10, discharge end connects blanking equipment S2；

It includes supporting bar 21, translation truss 22, lifting gear 23 and the first adsorbent equipment 24, branch to adsorb transfer mechanism 2 Strut member 21 is located at the side of engine base 1, and translation truss 22 is fixed in 21 top of supporting bar, extends along feed direction, and flat It moves truss 22 and is higher by 1 higher cascaded surface of engine base, lifting gear 23 is connected on translation truss 22 and is located at engine base 1 translatablely The top of top surface is moved to higher cascaded surface so that lifting gear 23 can be moved along parallel truss from lower cascaded surface.The One adsorbent equipment 24 is fixed in 23 bottom of lifting gear, is lifted under the action of lifting gear 23.By mesh sheet 10 from 1 top surface of engine base Low order tread to high cascaded surface when, pass through lifting gear 23 drive the first adsorbent equipment 24 decline pre-determined distance, first absorption Device 24 adsorbs one piece of mesh sheet 10 from stacking mesh sheet 10, then rises pre-determined distance under the effect of lifting gear 23, then lifts Device 23 is translated along translation truss 22, is driven the mesh sheet 10 of the first adsorbent equipment 24 absorption to move at positioning device 3 and is positioned；

Positioning device 3 is for mesh sheet 10 to be accurately positioned, so that material is precisely transferred and is being fed through blanking equipment S2 essences Quasi- punching；

Feeding mechanical device 4 is set to 1 side of engine base, the specially side opposite with absorption transfer mechanism 2, for that will lead to The mesh sheet 10 after positioning device 3 positions is crossed to be sent on the mold of blanking equipment S2.

Automatic charging equipment S1 is transferred to positioning at positioning device 3 by adsorbing 2 automatic absorbing mesh sheet 10 of transfer mechanism Afterwards, then by feeding mechanical device 4 by mesh sheet 10 it is sent on the blanking die of blanking equipment S2, so recycles this and acted Journey can replace quick artificial realization, safety, accurate feeding, significantly reduce labor intensity, improve production efficiency.

Preferably, translation truss 22 includes the truss main body 221 being arranged along direction of feed, and main body extending direction is installed on purlin First horizontal slide rail 222 on frame body 221, the travelling arm 223 being slidably mounted in first horizontal slide rail 222, and It is installed on the travelling arm actuator (not shown) for driving the horizontal sliding of travelling arm 223 in truss main body 221, slidably arm 223 external part installs the lifting gear 23.It is appreciated that cylinder may be selected in travelling arm actuator, is driven and slided by cylinder Swing arm 223 is slided along first horizontal slide rail 222, and travelling arm actuator may be selected motor and belt, belt is coordinated to be set around sliding rail 222 It sets, travelling arm one end is fixed on belt, belt rotation is driven by motor, to drive travelling arm 223 to be moved along sliding rail 222 It is dynamic.

Preferably, lifting gear 23 is lifting driving cylinder, and the lower part for lifting driving cylinder has telescopic rod, telescopic rod and first Adsorbent equipment 24 is affixed.

Preferably, referring to Fig. 7, the first adsorbent equipment 24 includes the first absorption ontology 241, the first 241 bottom of absorption ontology First pillar 240 there are four being protruded out downwards at the adjacent perimeter of face, four 240 bottoms of the first pillar are equipped with the first adsorption magnet 242, the adsorption capacity of the first adsorption magnet 242 is more than the gravity of one piece of mesh sheet 10, and less than the gravity of two pieces of mesh sheet 10, so that First adsorption magnet 242 can only adsorb one piece of mesh sheet 10 every time；The first sense that first 241 bottom surface of absorption ontology is further fitted with Device 243 is answered, to detect stack material thickness and then adjust automatically descending depth, and when mesh sheet 10 is fallen because not inhaling surely Draw again automatically afterwards, the first absorption ontology 241 bottom surface is also equipped with material-removing structure, material-removing structure include de- material baffle 244 with And it is installed on first de- material cylinder 245 of 241 bottom surface of the first absorption ontology for driving de- material baffle 244 to lift, the first de- material The affixed de- material baffle of the telescopic rod of cylinder 245 244.

Preferably, de- material baffle 244 is strip, length and 10 sizableness of mesh sheet of de- material baffle.

Preferably, the first adsorbent equipment 24 further includes the first universal joint 246 and elastic component 247, and the first universal joint 246 can It is installed on to elastic lifting 240 bottom end of the first pillar, the first adsorption magnet 242 is installed on 246 bottom of the first universal joint, elasticity Part 247 is sheathed on the first pillar 240, with 246 phase elastic connection of the first universal joint.

Specifically, due to stacking 10 out-of-flatness due to deformation of mesh sheet, usually the periphery of mesh sheet 10 can upwarp, mesh sheet 10 Form the curved surface that is upturned of central fovea surrounding, by the first universal joint 246 can adjust the adsorption plane of the first adsorption magnet 242 with The curved surface of mesh sheet 10 fits, and to increase absorption contact area, to which enhancing is to the adsorption capacity of mesh sheet 10, prevents mesh sheet 10 from falling It falls.

Preferably, the first adsorbent equipment 24 further includes several second pillars 248 and magnet 249 is reinforced in several absorption, several Second pillar 248 convexedly stretches in 241 bottom surface of the first absorption ontology, and the bottom that magnet 249 is resiliently attached to the second pillar 248 is reinforced in absorption End, absorption reinforcement magnet 249 do not protrude the first adsorption magnet 242 downwards, the absorption table of arc are constituted with the first adsorption magnet 242 Face enhances adsorption capacity in order to adsorb the mesh sheet 10 of out-of-flatness.

Preferably, Fig. 5, Fig. 6 are please referred to, positioning device 3 includes that (figure is not to actuator 32, Y-direction plate washer to plate washer 31, X by X Show) and Y-direction actuator 33, X convexedly stretches in higher cascaded surface on engine base 1 to plate washer 31 and Y-direction plate washer, and X is to plate washer 31 and Y-direction Plate washer is mutually perpendicular to, and X is oppositely arranged to plate washer 31 and X to actuator 32, and Y is oppositely arranged to plate washer and Y-direction actuator 33, X to Actuator 32 and Y-direction actuator 33 are equipped with corresponding telescopic rod, and push jack 34 is installed on telescopic rod.

Specifically, it when mesh sheet 10 is sent to by adsorbing transfer mechanism 2 in localization region, is driven to actuator 32 in X Under, push jack 34 pushes mesh sheet 10 to be moved to X to plate washer 31, and when one end of mesh sheet 10 is held in X to plate washer, X is to actuator 32 Telescopic rod retract；Similarly, Y-direction actuator 33 executes identical action.

Preferably, several balls 35 for being used to support mesh sheet 10 are uniformly provided on engine base 1 on higher cascaded surface, to reduce X pushes the resistance of mesh sheet 10 to actuator 32 and Y-direction actuator 33.

Preferably, referring to Fig. 6, feeding mechanical device 4 includes the first pedestal 41, is installed on the side of the first pedestal 41 The first bascule 42, and the second adsorbent equipment 43 for being installed on the first bascule 42, the first bascule 42 packet The lifting carriage part 421 that liftable is slidably arranged on 41 side wall of the first pedestal is included, is arranged horizontally slidablely and is slided in lifting The second sliding part 422 on moving part 421 and horizontally slidable the second adsorbent equipment being arranged on the second sliding part 422 43, the 43 translatable top to localization region of the second adsorbent equipment.

Preferably, referring to Fig. 8, the second adsorbent equipment 43 includes the second absorption ontology 431, it is equipped with the second absorption ontology 431 bottom surfaces convexedly stretch in the third pillar of 431 bottom surface of the second absorption ontology for the second inductor 432 for whether having suction to be incuded 433, it is resiliently attached to the second adsorption magnet 434 of 433 bottom end of third pillar, is mounted on the de- of the second 431 bottom surface of absorption ontology Expect that structure, material-removing structure include de- material push rod 435 and be used to drive de- material push rod mounted on the second 431 bottom surface of absorption ontology The second de- material cylinder of 435 liftings (figure is not marked).

Specifically, when the second inductor 432 senses the mesh sheet 10 that positioning device 3 has been positioned, the second absorption dress It sets 43 declines and adsorbs mesh sheet 10, then rise pre-determined distance, the second sliding part 422 is moved to the discharge end of engine base 1, while second Adsorbent equipment 43 is moved to the discharge end of engine base 1, and when mesh sheet 10 is moved between the mould up and down of blanking equipment S2, de- material pushes away Bar 435 pushes downwards mesh sheet 10 by the second de- material cylinder, and mesh sheet 10 falls to the corresponding Working position of lower mould, for upper mold Disk is punched downwards.And then the second adsorbent equipment 43 is returned by same paths, repeats identical action process.

Fig. 2 and Fig. 9 is please referred to, separation transmission equipment S3 is set between blanking equipment S2 and molding spot-welding equipment S4, net After piece 10 is cut off on blanking equipment S2, mesh sheet 10 is divided into major ingredient 101 and the waste material 102 positioned at 101 surrounding of major ingredient, need by Waste material is rejected, and major ingredient 101 is sent into the molding die of molding spot-welding equipment S4 and carries out spot welding moulding.

Separation transmission equipment S3 includes the second pedestal 11, is installed on 11 side of the second pedestal and translatable and liftable the Two bascules 12, and the sub-material adsorbent equipment that is installed on the second bascule 12 and can be translated along the second bascule 12 13；

Fig. 9 and Figure 12 is please referred to, sub-material adsorbent equipment 13 includes adsorbing ontology 131, major ingredient adsorption structure 132, major ingredient to take off Expect mechanism 133, waste material adsorbing mechanism 134 and waste material material removing mechanism 135；

Major ingredient adsorption structure 132 is installed on absorption ontology 131 bottom surface and corresponds to the position of major ingredient 101 Adsorb the medium position of 131 bottom surface of ontology), for adsorbing major ingredient 101；

Major ingredient material removing mechanism 133 is installed on the position that 131 bottom surface of absorption ontology corresponds to major ingredient 101, is adsorbed for pushing Major ingredient 101 be detached from major ingredient adsorption structure 132；

Waste material adsorbing mechanism 134 is installed on absorption ontology 131 bottom surface and corresponds to the position of waste material 102 Adsorb the corner location of 131 bottom surface of ontology), for adsorbing waste material 102；

Waste material material removing mechanism 135 is installed on the position that 131 bottom surface of absorption ontology corresponds to waste material 102, is adsorbed for pushing Waste material 102 be detached from waste material material removing mechanism 135.

Second bascule 12 drives sub-material adsorbent equipment 13 to be moved horizontally to right over cut-off mesh sheet 10, and second lives Dynamic truss 12 drives sub-material adsorbent equipment 13 to decline pre-determined distance, and major ingredient adsorption structure 132 adsorbs major ingredient 101, waste material absorption Mechanism 134 adsorbs waste material 102, and the second bascule 12 drives sub-material adsorbent equipment 13 to rise pre-determined distance, and moves horizontally Stop when transferring area to waste material, then waste material 102 is pushed away downwards and fallen off by waste material material removing mechanism 135,12 band of the second bascule Major ingredient 101 is continued to be moved horizontally to right over the molding die of molding spot-welding equipment S4 by dynamic sub-material adsorbent equipment 13, is then led Material material removing mechanism 133, which pushes away downwards major ingredient 101, to be dropped in the molding die of molding spot-welding equipment S4, the second bascule 12 Sub-material adsorbent equipment 13 is driven to repeat above-mentioned action process by original route return.So just realize major ingredient 101 and waste material 102 being automatically separated and transmitting, improves safety and the production efficiency of production, reduces labor intensity.

Preferably, 2, Figure 13 is please referred to Fig.1, major ingredient adsorption structure 132 includes being resiliently connected to 131 bottom of absorption ontology Several major ingredient adsorption pieces 1321 in face and several 4th pillars 1322 for convexedly stretching in 131 bottom surface of absorption ontology, the 4th pillar Elastic component 1323 is arranged on 1322, major ingredient adsorption piece 1321 is elastically mounted at the 4th pillar 1322 by elastic component 1323 Bottom end.

Preferably, 2, Figure 13 is please referred to Fig.1, major ingredient material removing mechanism 133 includes that push-rod frame 1331 and several push-rod frames drive Part 1332, push-rod frame 1331 are liftably mounted on the bottom of absorption ontology 131 by several push-rod frame actuators 1332.It is preferred that Ground, push-rod frame 1331 are the " # " fonts to be linked together by four push rods.

Preferably, 2, Figure 13 is please referred to Fig.1, waste material adsorbing mechanism 134 includes being installed on absorption 131 bottom surface four corners of ontology Waste material adsorb actuator 1341, be installed on the second universal joint 1342 of waste material absorption 1341 lift side of actuator, and can revolve Indexing is installed on the waste material adsorption piece 1343 of the second universal joint 1342 with setting.

Preferably, 1343 select magnet of the major ingredient adsorption piece 1321 in the present embodiment and waste material adsorption piece.

Preferably, push-rod frame actuator 1332, waste material absorption actuator 1341 and waste material pushing block actuator 1352 select gas Cylinder.

Preferably, 2, Figure 13 is please referred to Fig.1, waste material material removing mechanism 135 includes that waste material pushing block 1351 and waste material pushing block drive Part 1352, waste material pushing block actuator 1352 are installed on absorption 131 bottom surface of ontology at waste material absorption actuator 1341, and waste material pushes away Block 1351 is fixed in the lift side of waste material pushing block actuator 1352, and one end of waste material pushing block 1351 offers through-hole 1350, and second Universal joint 1342 is liftably arranged in through-hole 1350.

Preferably, 2, Figure 13 is please referred to Fig.1, waste material material removing mechanism 135 further includes locating rod 1353, and locating rod 1353 is pacified Loaded on 131 bottom surface of absorption ontology, lower end offers guide hole, and having protruded out guide post on waste material pushing block 1351 is inserted in guide hole.It is fixed Position bar 1353 for waste material pushing block 1351 direction position, make its will not beat and interfere with the waste material adsorption piece in through-hole 1350 1343 lifting.

Preferably, Fig. 9, Figure 10 are please referred to, the lower section of sub-material adsorbent equipment 13 is equipped with the ash can 14 for collecting waste material.

Preferably, 2 are please referred to Fig.1,131 bottom surface of absorption ontology is equipped with for the third inductor 132 for whether having material to be incuded.

Preferably, Fig. 9-Figure 11 is please referred to, the second bascule 12 is increased on the basis of the first bascule 42 Adsorbent equipment 13, towards the function of the back-and-forth motion in 14 1 side direction of ash can, is rushed along 12 side of the second bascule to adjust The deviation cut out equipment S2 and be molded between the corresponding molds of spot-welding equipment S4.Second bascule 12 further includes lever arm 123, living One end level of swing arm 123 is slideably positioned on the second bascule 12, and the other end of lever arm 123 is equipped with can be along lever arm 123 adsorbent equipments 13 being moved forward and backward.

Detach the action process of transmission equipment S3：

Fig. 9, Figure 12 are please referred to, the second bascule 12 drives sub-material adsorbent equipment 13 to be moved to the directions blanking equipment S2 level It is dynamic, while sub-material adsorbent equipment 13 also moves horizontally on the second bascule 12, when adsorbent equipment 13 be moved to it is cut-off When 10 top of mesh sheet, adsorbent equipment 13 is moved to the surface of cut-off mesh sheet 10, the second bascule along lever arm 123 12 drive sub-material adsorbent equipment 13 to decline pre-determined distance, and waste material adsorbs actuator 1341 and drives 1343 decline of waste material adsorption piece default Distance, waste material adsorption piece 1343 adsorb and push down waste material 102, and sub-material adsorbent equipment 13 continues to decline so that major ingredient adsorption piece 1321 adsorb major ingredient 101, and then sub-material adsorbent equipment 13 rises, and waste material adsorption piece 1343 still keeps down position so that inhale It is attached live major ingredient be located at the above pre-determined distance of waste material that adsorbs, in order to the separation of major ingredient and waste material, then the second movable purlin Frame 12 drives sub-material adsorbent equipment 13 to rise, then in being molded when the directions spot-welding equipment S4 move to 14 surface of ash can Only, at this point, waste material pushing block actuator 1352 drives waste material pushing block 1351 to push down on waste material 102, waste material 102 is pushed away and is fallen It dropping down onto in ash can 14, the second bascule 12 continues that sub-material adsorbent equipment 13 is driven to translate to the directions molding spot-welding equipment S4, Also respective horizontal moves sub-material adsorbent equipment 13 on the second bascule 12 simultaneously, when be moved to molding spot-welding equipment S4 at Stop movement when pattern tool top, 1332 driving push rod frame 1331 of push-rod frame actuator pushes down on major ingredient 101, by major ingredient 101 It pushes away and falls in the molding die of molding spot-welding equipment S4, be so automatically performed the feeding of major ingredient 101 and waste material 102 and divide Material.

Referring to Fig. 4, mesh basket transporting apparatus S5 includes third pedestal 51, to be installed on 51 side of third pedestal translatable and is risen The third bascule 52 of drop and horizontally slidable the extraction element 53 for being installed on third bascule 52, third activity Truss 52 is identical as the structure and function of the first bascule 42.

Extraction element 53 includes a support ontology 531, is telescopically arranged in the movable jaw of 531 both sides of support ontology 532, and be installed in support ontology 531 for driving movable jaw 532 to realize that the claw actuator of grasping movement (is schemed not Show), the side of support ontology 531 is slidably mounted on third bascule 52, and movable jaw 532 is for capturing mesh basket The top edge of 103 both sides bending, to lift mesh basket 103.Movable jaw 532 is a L-shaped sheet bending structure, activity There are four claw 532 is set, it is relatively arranged on the both sides of support ontology 531 two-by-two, it can opposite support per a pair of movable jaw 532 Ontology 531 opens to both sides and is retracted pre-determined distance, to clamp the top edge of 103 both sides of mesh basket bending.

Mesh basket transporting apparatus S5 drives extraction element 53 to be moved horizontally to molding spot-welding equipment by third bascule 52 103 top of mesh basket of S4, movable jaw 532 are retracted to 103 interior direction of mesh basket, 103 hanging support of mesh basket are lived.Third bascule 52 drive extraction element 53 to rise pre-determined distance, to lift mesh basket 103.Third bascule 52 drives under extraction element 53 Mesh basket 103 be moved horizontally to the surface of transmission device S6, movable jaw 532 opens at this time, and mesh basket 103 falls to transmission and sets On standby S6.

Specifically, automatic charging equipment S1, separation transmission equipment S3 and mesh basket transporting apparatus S5 are equipped with corresponding control System, control system are equipped with pre-set programs to control respective action.

Mesh basket automatic assembly line provided by the utility model passes through the automatic charging equipment S1 set gradually, blanking equipment S2 detaches transmission equipment S3, is molded spot-welding equipment S4, mesh basket transporting apparatus S5 and transmission device S6, realizes the automatic of mesh basket Metaplasia is produced, and is improved production efficiency, is reduced labor intensity.

The above description is only the embodiments of the present invention, and it does not limit the scope of the patent of the present invention, every Using equivalent structure or equivalent flow shift made by the utility model description, it is applied directly or indirectly in other phases The technical field of pass, is equally included in the patent within the scope of the utility model.

Claims (9)

1. a kind of mesh basket automatic assembly line, for mesh sheet (10) to be produced into mesh basket (103) automatically, it is characterised in that：The net Basket automatic assembly line includes successively：Automatic charging equipment (S1) for detaching multilayer mesh sheet (10), for cutting mesh sheet (10) Disconnected blanking equipment (S2) carries out the mesh sheet (10) after cut-out the separation transmission equipment (S3) of feeding and sub-material, for that will cut The molding spot-welding equipment (S4) of spot welding at mesh sheet (10) the progress bending forming and abutment joint having no progeny, mesh basket transporting apparatus (S5), And the transmission device equipment (S6) for mesh basket (103) to be transmitted to subsequent processing.

2. mesh basket automatic assembly line according to claim 1, it is characterised in that：The automatic charging equipment (S1) includes machine Seat (1), absorption transfer mechanism (2), positioning device (3) and feeding mechanical device (4)；

Engine base (1) is staged frame structure, and mesh sheet (10) is stacked on lower cascaded surface, positioning is installed on higher cascaded surface Device (3)；

Absorption transfer mechanism (2) includes supporting bar (21), translates truss (22), lifting gear (23) and adsorbent equipment (24), Supporting bar (21) is located at the side of engine base (1), and translation truss (22) is fixed at the top of supporting bar (21), prolongs along feed direction It stretches, and translates truss (22) and be higher by engine base (1) higher cascaded surface, lifting gear (23) is connected to translation truss translatablely (22) top on and positioned at engine base (1) top surface, adsorbent equipment (24) are fixed in lifting gear (23) bottom；

Positioning device (3) is used to mesh sheet (10) being accurately positioned, so that material is precisely transferred and is being fed through blanking equipment (S2) Precisely punching；

Feeding mechanical device (4) is set to engine base (1) side, is passed for the mesh sheet (10) after being positioned by positioning device (3) It send to the mold of blanking equipment (S2).

3. mesh basket automatic assembly line according to claim 2, it is characterised in that：The adsorbent equipment (24) includes adsorbing this Body (241), absorption ontology (241) bottom surface four corners have protruded out the first pillar (240), and four the first pillar (240) bottoms are all provided with There are adsorption magnet (242), the inductor (243) that absorption ontology (241) bottom surface is further fitted with to adsorb ontology (241) bottom surface It is also equipped with material-removing structure, material-removing structure includes de- material baffle (244) and is installed on absorption ontology (241) bottom surface for driving The de- material cylinder (245) of de- material baffle (244) lifting, the affixed de- material baffle (244) of telescopic rod of de- material cylinder (245).

4. mesh basket automatic assembly line according to claim 2, it is characterised in that：The positioning device (3) includes X to plate washer (31), X is mutually perpendicular to plate washer (31) with Y-direction plate washer to actuator (32), Y-direction plate washer and Y-direction actuator (33), X, and X is to shelves Plate (31) is oppositely arranged with X to actuator (32), and Y-direction plate washer is oppositely arranged with Y-direction actuator (33), and X is to actuator (32) and Y It is equipped with corresponding telescopic rod to actuator (33), push jack (34) is installed on telescopic rod.

5. mesh basket automatic assembly line according to claim 1, it is characterised in that：The separation transmission equipment (S3) includes the Two pedestals (11) are installed on that the second pedestal (11) side is translatable and liftable second bascule (12), and are installed on Second bascule (12) and the sub-material adsorbent equipment (13) that can be translated along the second bascule (12)；Sub-material adsorbent equipment (13) Including absorption ontology (131), major ingredient adsorption structure (132), major ingredient material removing mechanism (133), waste material adsorbing mechanism (134) and waste material Material removing mechanism (135)；

Major ingredient adsorption structure (132) is installed on the position that absorption ontology (131) bottom surface corresponds to major ingredient (101), for adsorbing major ingredient (101)；

Major ingredient material removing mechanism (133) is installed on the position that absorption ontology (131) bottom surface corresponds to major ingredient (101), is inhaled for pushing Attached major ingredient (101) is detached from major ingredient adsorption structure (132)；

Waste material adsorbing mechanism (134) is installed on the position that absorption ontology (131) bottom surface corresponds to waste material (102), for adsorbing waste material (102)；

Waste material material removing mechanism (135) is installed on the position that absorption ontology (131) bottom surface corresponds to waste material (102), is inhaled for pushing Attached waste material (102) is detached from waste material material removing mechanism (135).

6. mesh basket automatic assembly line according to claim 5, it is characterised in that：The major ingredient adsorption structure (132) includes It is resiliently connected to several major ingredient adsorption pieces (1321) of absorption ontology (131) bottom surface and convexedly stretches in absorption ontology (131) bottom Several 4th pillars (1322) in face, elastic component (1323) is arranged on the 4th pillar (1322), and major ingredient adsorption piece (1321) is logical Cross the bottom end that elastic component (1323) is elastically mounted at the 4th pillar (1322).

7. mesh basket automatic assembly line according to claim 5, it is characterised in that：The waste material adsorbing mechanism (134) includes It is installed on absorption ontology (131) bottom surface waste material absorption actuator (1341), is installed on waste material absorption actuator (1341) lift side Universal joint (1342) and rotatable position be installed on the waste material adsorption piece (1343) of universal joint (1342).

8. mesh basket automatic assembly line according to claim 5, it is characterised in that：The waste material material removing mechanism (135) includes Waste material pushing block (1351), waste material pushing block actuator (1352) and locating rod (1353), waste material pushing block actuator (1352) are installed on Ontology (131) bottom surface is adsorbed, waste material pushing block (1351) is fixed in the lift side of waste material pushing block actuator (1352), waste material pushing block (1351) one end offers through-hole (1350), and universal joint (1342) is liftably arranged in through-hole (1350), locating rod (1353) it is installed on absorption ontology (131) bottom surface, lower end offers guide hole, and waste material pushing block has protruded out guide post plant on (1351) In in guide hole.

9. mesh basket automatic assembly line according to claim 1, it is characterised in that：The mesh basket transporting apparatus (S5) includes the Three pedestals (51) are installed on the third bascule (52) that third pedestal (51) side is translatable and lifts, and can be horizontal sliding It is installed on the extraction element (53) of third bascule (52) dynamicly, the extraction element (53) includes a support ontology (531), It is telescopically arranged in the movable jaw (532) of support ontology (531) both sides, and is installed in support ontology (531) and is used for Movable jaw (532) is driven to realize that the claw actuator of grasping movement, the side of support ontology (531) are slidably mounted on the On three bascules (52), movable jaw (532) is used to capture the top edge of mesh basket (103) both sides bending, thus by mesh basket (103) lift, movable jaw (532) is a L-shaped sheet bending structure, opposite two-by-two to set there are four movable jaw (532) is set The both sides of support ontology (531) are placed in, opposite ontology (531) can be supported to open and contract to both sides per a pair of movable jaw (532) Into pre-determined distance, to clamp the top edge of mesh basket (103) both sides bending.