CN208593840U - A kind of magnesium alloy automatic docking device - Google Patents

Abstract

The utility model discloses a kind of magnesium alloy automatic docking devices, belong to automatic stacking technical field, including support frame, conveying line device, propulsive mechanism, shaping line apparatus, pneumatic grasping mechanism, industrial six-joint robot and safety barrier, conveying line device includes gear, chain and conveying limit plate, propulsive mechanism is equipped with propulsion cylinder and promotes wedge block, shaping line apparatus is equipped with shaping cylinder, shaping wedge block and shaping limit plate, pneumatic grasping mechanism includes clamping cylinder, clamping plate, profiling can be changed clamping plate and flange, support frame include pedestal and pallet.For the utility model after magnesium alloy block comes out from automated production casting machine, palletizing apparatus automatically grabs magnesium alloy block and by its neat stacking on pallet, has saved labour and time, has been conducive to raise labour productivity.

Description

A kind of magnesium alloy automatic docking device

Technical field

The utility model relates to a kind of palletizing apparatus, more particularly to a kind of magnesium alloy automatic docking device, belong to automatic Palletizing technology field.

Background technique

With the continuous development of China's economy advancing by leaps and bounds with scientific and technical, so that robot is in stacking, gluing, point The industries such as weldering, arc-welding, spraying, carrying, measurement, which have, to be quite widely applied.

Because of various reasons, the type including packaging, the environment of plant and customer demand etc. become stacking in packaging plant The bone that one piece of difficulty is gnawed, in order to overcome these difficulty, the various aspects of Palletizer all development improve, including from manipulator to Manipulate its software.

The demand of flexibility is constantly increased in the market, this trend has influenced many aspects of packaging, raw The back segment of producing line is no exception, retail customer, especially those influential large supermarkets as Wal-Mart, often Need to customize some random trays, but they have to customize each tray, and the form of tray only has weight once in a while It is multiple, and the efficient production of this kind of random tray is relatively difficult.

Need a kind of magnesium alloy ingot automatic docking device now, in automated production from casting machine come out after, robot Automatically grab raw material ingot and the automatic stacking system by its neat stacking on pallet.

Utility model content

The main purpose of the utility model is to provide for a kind of magnesium alloy automatic docking device, passes through setting and magnesium alloy The match wedge block used and profiling of block can be changed clamping plate, clamps various types of magnesium alloy ingots to adapt to fixture, is arranged simultaneously Conveying line device, propulsive mechanism, shaping line apparatus and pneumatic grasping mechanism are used in conjunction with each other, complete magnesium alloy transmit automatically with And the assembly line movement of crawl, improve stacking efficiency.

The purpose of this utility model can reach by using following technical solution:

A kind of magnesium alloy automatic docking device, including piling up the support frame of magnesium alloy block, transmitting the pipeline of magnesium alloy block Device, the shaping line apparatus that described propulsive mechanism one end is arranged in, is set the propulsive mechanism being connected with the conveying line device tail end The industrial six-joint robot set the pneumatic grasping mechanism above the shaping line apparatus, push the pneumatic grasping mechanism operation And the safety barrier around a whole set of assembly line, the conveying line device include gear, the chain matched with the gear with And the conveying limit plate of described conveying line device one end is set, the propulsive mechanism is equipped with propulsion cylinder and pushes away with described The connected propulsion wedge block of the piston rod of inlet casing, one end of the shaping line apparatus be equipped with shaping cylinder and with the shaping The connected shaping wedge block of the piston rod of cylinder, the other end of the shaping line apparatus is equipped with shaping limit plate, described pneumatically to grab Mechanism is taken to include clamping cylinder, the clamping plate on the piston rod for being fixed on the clamping cylinder, the imitative of the clamping plate side is set The flange that shape can be changed clamping plate and be connected with described industrial six-joint robot one end.

Preferably, support frame as described above includes two pedestals, and the pedestal is equipped with a pallet, piles up magnesium on the pallet Magnesium alloy block on the pallet and the pallet is hauled by alloy block, fork truck together, realizes recycling for pallet.

Preferably, the conveying line device includes carriage, and the upper surface of the carriage is inclined surface, the carriage Higher one end is connected with workshop casting machine, and the magnesium alloy ingot in casting machine is removed from the mold that be transmitted to the carriage higher One end, the fixed conveying limit plate in the lower one end of the carriage.

Preferably, the propulsive mechanism includes the advance frame that the conveying line device tail end is arranged in, the advance frame Height is identical with the height of the propulsive mechanism tail end, and the propulsion cylinder, the propulsion gas are fixed on the propulsive mechanism The piston rod of cylinder is fixed with propulsion wedge block, and the side for promoting wedge block is equipped with the inclined surface being adapted with magnesium alloy block, Magnesium alloy block on the conveying line device tail end is pushed to the shaping line by the propulsion cylinder and the propulsion wedge block On device.

Preferably, the shaping line apparatus is located at the tail end of the conveying line device, and the shaping line apparatus includes shaping Frame, the shaping cylinder for being fixed on described reshaping frame one end and the shaping limit plate for being fixed on the reshaping frame other end, The reshaping frame is equipped with the groove being adapted with the clamping plate, and the shaping wedge block is fixed on the piston of the shaping cylinder On bar, the magnesium alloy block on the shaping line apparatus is pushed to the shaping by the shaping cylinder and the shaping wedge block The side of limit plate.

Preferably, the pneumatic grasping mechanism further includes being fixed on the U-frame of described flange one end and being fixed on the U The fixed plate of shape frame side, the clamping cylinder are fixed in the fixed plate, and the clamping cylinder is located in the U-frame, The clamping cylinder both ends are equipped with piston rod, are respectively and fixedly provided with clamping plate, two clamping plates on the piston rod at the clamping cylinder both ends Side be equipped with guide holder, one end of the guide holder is equipped with guiding axis.

Preferably, the side that the profiling can be changed clamping plate is fixed on the clamping plate, and the profiling can be changed the another of clamping plate The surface of side is the inclined surface equipped with dentate groove, and the inclined surface that the profiling can be changed clamping plate adapts to the magnesium alloy of different model The side of block, the bottom of the clamping plate is equipped with the convex block to infolding, when two pieces of clamping plates clamp magnesium alloy block, institute The lowermost convex block for stating clamping plate can hook magnesium alloy block bottom.

Preferably, the industrial six-joint robot is fixed on one end of the shaping line apparatus, the industrial six axis machine One end of people is connected by the flange with the pneumatic grasping mechanism, and the industry six-joint robot is IRB1400 console mode Industrial robot carries 50KG, and arm opens up 3M, rotates 0 ° -300 ° of angle.

Preferably, the safety barrier is made of the splicing of muti-piece web plate, and the middle part of the web plate is the stainless (steel) wire of hollow out.

The advantageous effects of the utility model:

Magnesium alloy automatic docking device provided by the utility model, by the way that conveying line device, propulsive mechanism, shaping is traditional thread binding Set, pneumatic grasping mechanism and industrial six-joint robot are assembled into coherent automatic production line, save labour and plenty of time, Improve labor efficiency；

Magnesium alloy automatic docking device provided by the utility model, the shaping line apparatus more than conventional stacking make industry six The frequency of axis robot motion reduces simultaneously, also improves stacking efficiency；

Magnesium alloy automatic docking device provided by the utility model, handgrip system uses pneumatic grasping mechanism, pneumatic to grab The profiling of clamping plate and the inclined surface equipped with dentate groove that convex block is provided in mechanism can be changed clamping plate, wedge-shaped profiling clamping plate Change self-view according to the different angle of alloy pig, makes fixture keep agreeing with alloy pig, meet a variety of magnesium alloy ingots The compatibility of model, no replacement is required fixture when casting machine replaces production model reduce cost, also save the time of replacement fixture；

Magnesium alloy automatic docking device provided by the utility model passes through setting conveying line device, propulsive mechanism and shaping The dance roller diatom of the fixed roller line of bilayer of line apparatus composition and pneumatic grasping mechanism and industrial six-joint robot composition, it is real The mixing transport of existing pallet, finished product and unfinished work, and can be with the supreme shots of automatic flow pallet, to realize the circulation of pallet It utilizes；

Magnesium alloy automatic docking device provided by the utility model, the clamping cylinder in pneumatic grasping mechanism provide power, Movement is opened and closed by the mutual cooperation of clamping cylinder and guiding axis, guide holder in clamping plate, in order to clamp magnesium alloy block.

Detailed description of the invention

Fig. 1 is to illustrate according to the overall structure of a preferred embodiment of the magnesium alloy automatic docking device of the utility model Figure；

Fig. 2 is the front view according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model；

Fig. 3 is the side view according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model；

Fig. 4 is the top view according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model；

Fig. 5 is to show according to the structure of the support frame of a preferred embodiment of the magnesium alloy automatic docking device of the utility model It is intended to；

Fig. 6 is to engage according to the gear and chain of a preferred embodiment of the magnesium alloy automatic docking device of the utility model Structural schematic diagram；

Fig. 7 is the structural representation according to the chain of a preferred embodiment of the magnesium alloy automatic docking device of the utility model Figure；

Fig. 8 is propulsion cylinder and the propulsion of the preferred embodiment according to the magnesium alloy automatic docking device of the utility model The structural schematic diagram of wedge block connection；

Fig. 9 is the knot according to the propulsion wedge block of a preferred embodiment of the magnesium alloy automatic docking device of the utility model Structure schematic diagram；

Figure 10 is the knot according to the shaping cylinder of a preferred embodiment of the magnesium alloy automatic docking device of the utility model Structure schematic diagram；

Figure 11 is the shaping wedge block according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model Structural schematic diagram；

Figure 12 is the guide holder and guiding according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model The structural schematic diagram of axis connection；

Figure 13 is the pneumatic grasping mechanism according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model The structural schematic diagram being connect with the rotating arm of industrial six-joint robot；

Figure 14 is the pneumatic grasping mechanism according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model Structural schematic diagram；

Figure 15 is the pneumatic grasping mechanism according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model Front view；

Figure 16 is the pneumatic grasping mechanism according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model Side view；

Figure 17 is the pneumatic grasping mechanism according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model Top view；

Figure 18 is the six axis machine of industry according to a preferred embodiment of the magnesium alloy automatic docking device of the utility model The partial structural diagram of people.

In figure: 1- support frame, 2- conveying line device, 3- propulsive mechanism, 4- shaping line apparatus, the pneumatic grasping mechanism of 5-, 6- Industrial six-joint robot, 7- safety barrier, 11- pedestal, 12- pallet, 21- carriage, 22- track, 23- shaft, 24- gear, 25- chain, 26- conveying limit plate, 31- advance frame, 32- propulsion cylinder, 33- propulsion wedge block, 41- reshaping frame, 42- groove, 43- shaping cylinder, 44- shaping wedge block, 45- shaping limit plate, 51- clamping plate, 52- guide holder, 53- clamping cylinder, 54- method Orchid, 55- profiling can be changed clamping plate, 56- guiding axis, 57- fixed plate, 58-U shape frame, 71- web plate.

Specific embodiment

To make the more clear and clear the technical solution of the utility model of those skilled in the art, below with reference to embodiment and Attached drawing is described in further detail the utility model, and however, the embodiments of the present invention are not limited thereto.

As shown in Fig. 1-Figure 18, magnesium alloy automatic docking device provided in this embodiment, the branch including piling up magnesium alloy block Support 1, the propulsive mechanism 3 being connected with 2 tail end of conveying line device, is arranged in pusher the conveying line device 2 for transmitting magnesium alloy block The shaping line apparatus 4 of 3 one end of structure, pushes pneumatic grasping mechanism 5 to transport at the pneumatic grasping mechanism 5 that 4 top of shaping line apparatus is arranged in Capable industrial six-joint robot 6 and safety barrier 7 around a whole set of assembly line, by by conveying line device, propulsive mechanism, whole Shape line apparatus, pneumatic grasping mechanism and industrial six-joint robot are assembled into coherent automatic production line, save labour and big The time is measured, labor efficiency is improved, passes through the double-deck fixing roller of setting conveying line device, propulsive mechanism and shaping line apparatus composition The dance roller diatom of diatom and pneumatic grasping mechanism and industrial six-joint robot composition, realizes pallet, finished product and unfinished work Mixing transport, and can be with the supreme shots of automatic flow pallet, to realize recycling for pallet.

In the present embodiment, as Figure 1-Figure 5, support frame 1 includes two pedestals 11, and pedestal 11 is equipped with a pallet 12, pallet 12 is placed on the base 11, and magnesium alloy block is piled up on pallet 12, and fork truck is by the magnesium alloy on pallet 12 and pallet 12 Block hauls together, and pallet 12 is equipped with the jack matched with fork truck front end fork, forks pallet convenient for fork truck.

In the present embodiment, as shown in Fig. 1-Fig. 4, Fig. 6 and Fig. 7, conveying line device 2 include gear 24, with 24 phase of gear The chain 25 of cooperation and the conveying limit plate 26 that 2 one end of conveying line device is arranged in, conveying line device 2 include carriage 21, The upper surface of carriage 21 is inclined surface, and the high other end in one end of carriage 21 is low, convenient for the transport of magnesium alloy block, carriage 21 Higher one end is connected with workshop casting machine, and the magnesium alloy ingot in casting machine is removed from the mold that be transmitted to carriage 21 higher One end (in the present embodiment, casting machine mould provides not in the drawings), the fixed conveying limit plate in the lower one end of carriage 21 26, conveying limit plate 26 is also used for a magnesium alloy block and is temporarily fixed at certain point, convenient for turning for stopping magnesium alloy block to fall Fortune.

In the present embodiment, as shown in Fig. 1-Fig. 4, Fig. 8 and Fig. 9, propulsive mechanism 3 be equipped with propulsion cylinder 32 and with push away The connected propulsion wedge block 33 of the piston rod of inlet casing 32, propulsive mechanism 3 include the advance frame that 2 tail end of conveying line device is arranged in 31, the height of advance frame 31 is identical with the height of 3 tail end of propulsive mechanism, and propulsion cylinder 32 is fixed on propulsive mechanism 3, promotes gas The piston rod of cylinder 32, which is fixed with, promotes wedge block 33, and the side of wedge block 33 is promoted to be equipped with the inclination being adapted with magnesium alloy block Face, propulsion cylinder 32 and propulsion wedge block 33 are pushed to the magnesium alloy block on 2 tail end of conveying line device on shaping line apparatus 4.

In the present embodiment, as shown in Fig. 1-Fig. 4, Fig. 8 and Fig. 9, the bottom height and conveying limit of propulsion cylinder 32 The bottom height for the magnesium alloy block that plate 26 is fixed temporarily is kept always, and the center line and conveying limit plate 26 of propulsion cylinder 32 face When fixed magnesium alloy block center line in the same perpendicular, in order to propulsion cylinder 32 push magnesium alloy block when It waits, will not push away partially.

In the present embodiment, as shown in Fig. 1-Fig. 4, Figure 10 and Figure 11, one end of shaping line apparatus 4 is equipped with shaping cylinder 43 And the shaping wedge block 44 being connected with the piston rod of shaping cylinder 43, the other end of shaping line apparatus 4 are equipped with shaping limit plate 45, shaping line apparatus 4 is located at the tail end of conveying line device 2, and shaping line apparatus 4 includes reshaping frame 41, is fixed on reshaping frame 41 1 The shaping cylinder 43 at end and the shaping limit plate 45 for being fixed on 41 other end of reshaping frame, reshaping frame 41 are equipped with and 51 phase of clamping plate The groove 42 of adaptation, for magnesium alloy block when moving on reshaping frame 41, groove is located at the lower section of magnesium alloy block, presss from both sides in clamping plate 51 When taking magnesium alloy block, the least significant end of clamping plate 51 is closed in groove in order to which the nethermost convex block of clamping plate 51 can extend into magnesium The bottom side of gold bullion.

In the present embodiment, as shown in Fig. 1-Fig. 4, Figure 10 and Figure 11, the side of reshaping frame 41 is equipped with a shaping cylinder Pedestal, shaping cylinder 43 are fixed on shaping cylinder pedestal, and shaping wedge block 44 is fixed on the piston rod of shaping cylinder 43, whole Shape cylinder 43 and shaping wedge block 44 are pushed to the magnesium alloy block on shaping line apparatus 4 side of shaping limit plate 45, whole The side of shape wedge block 44 is inclined surface, when shaping wedge block 44 pushes magnesium alloy block, the inclination of shaping wedge block 44 Face and the side of magnesium alloy block are adapted, and are not easy to overthrow during push, be pushed away partially.

In the present embodiment, as shown in Fig. 1-Fig. 4, Figure 12-Figure 17, pneumatic grasping mechanism 5 includes clamping cylinder 53, fixes Clamping plate 51 on the piston rod of clamping cylinder 53, the profiling that 51 side of clamping plate is set can be changed clamping plate 55 and with industrial six axis The connected flange 54 in 6 one end of robot, pneumatic grasping mechanism 5 further include being fixed on the U-frame 58 of 54 one end of flange and fixing Fixed plate 57 in 58 side of U-frame, clamping cylinder 53 are fixed in fixed plate 57, and clamping cylinder 53 is located in U-frame 58, folder It takes 53 both ends of cylinder to be equipped with piston rod, clamping plate 51 is respectively and fixedly provided on the piston rod at 53 both ends of clamping cylinder, two clamping plates 51 Side is equipped with guide holder 52, and one end of guide holder 52 is equipped with guiding axis 56, and the clamping cylinder 53 in pneumatic grasping mechanism provides Power, movement is opened and closed by the mutual cooperation of clamping cylinder and guiding axis 56, guide holder 52 in clamping plate 51, in order to clamp magnesium Alloy block.

In the present embodiment, as shown in Fig. 1-Fig. 4, Figure 12-Figure 17, the side that profiling can be changed clamping plate 55 is fixed on clamping plate 51 On, the surface that profiling can be changed the other side of clamping plate 55 is the inclined surface equipped with dentate groove, and profiling can be changed the inclination of clamping plate 55 Face adapts to the side of the magnesium alloy block of different model, and the bottom of clamping plate 51 is equipped with the convex block to infolding, when two clamping plates 51 press from both sides Firmly when magnesium alloy block, the lowermost convex block of clamping plate 51 can hook magnesium alloy block bottom.

In the present embodiment, as shown in Fig. 1-Fig. 4, Figure 12-Figure 17, handgrip system uses pneumatic grasping mechanism, pneumatically grabs The profiling of the clamping plate for being provided with convex block in mechanism and the inclined surface equipped with dentate groove is taken to can be changed clamping plate, wedge-shaped profiling folder Plate changes self-view according to the different angle of alloy pig, makes fixture keep agreeing with alloy pig, meets a variety of magnesium alloys The compatibility of ingot shape number, no replacement is required fixture when casting machine replaces production model reduce cost, also save the time of replacement fixture

In the present embodiment, as shown in Fig. 1-Fig. 4 and Figure 18, industrial six-joint robot 6 is fixed on the one of shaping line apparatus 4 The one end at end, industrial six-joint robot 6 is connected by flange 54 with pneumatic grasping mechanism 5, and industrial six-joint robot 6 is this technology The prior art in field, the movement in proper order of a small range, industrial six-joint robot are answered in industrialized production extensively With the industrial six-joint robot 6 that the present embodiment is selected is IRB1400 console mode industrial robot, carries 50KG, and arm opens up 3M, rotation 0 ° -300 ° of gyration, according to the weight of the space size at scene and magnesium alloy block, it also can choose the work of other model parameters Industry six-joint robot.

In the present embodiment, as Figure 1-Figure 4, safety barrier 7 is made of the splicing of muti-piece web plate 71, the middle part of web plate 71 For the stainless (steel) wire of hollow out, safety barrier 7 can prevent other staff to be strayed into automatic stacking assembly line, in case machine run injures To personal safety, web plate 71 can be with free splicing, to adapt to different place needs.

In the present embodiment, as shown in Fig. 1-Figure 18, a kind of magnesium alloy automatic stacking method includes the following steps:

Step 1: the side of automatic docking device is equipped with magnesium alloy ingot casting machine and lifting material receiving mechanism, the magnesium in casting machine Alloy block is removed from the mold, go up and down and catch magnesium alloy block on material receiving mechanism (in the present embodiment, magnesium alloy ingot casting machine and Lifting material receiving mechanism does not go out not in the drawings), it is subsequently reduced to 2 top of conveying line device, it is traditional thread binding that magnesium alloy block is delivered to conveying Set 2 one end；

Step 2: conveying line device 2 is equipped with the transmission line that gear 24 and chain 25 form, and magnesium alloy block drops to chain On 25, starter receiver 24, the rotation of gear 24 drives chain 25 to run, and magnesium alloy block runs to conveying line device 2 with chain 25 26 side of conveying limit plate of tail end；

Step 3: the tail end of conveying line device 2 is fixed with propulsive mechanism 3, and propulsive mechanism 3 is equipped with propulsion cylinder 32, promotes In the side of conveying limit plate 26, magnesium alloy block is transmitted to conveying limit plate 26 for the position of one end that the piston rod of mechanism 3 stretches out Side when, the piston rod of propulsive mechanism 3 pushes magnesium alloy block, is pushed away conveying line device 2, it is traditional thread binding to be then pushed to shaping Set 4 one end；

Step 4: the both ends of shaping line apparatus 4 are respectively equipped with shaping cylinder 43 and shaping limit plate 45, and 43, shaping cylinder Magnesium alloy block on shaping line apparatus 4 is pushed to the side of shaping limit plate 45；

Step 5: the tail end of shaping line apparatus 4 is equipped with industrial six-joint robot 6, the rotating arm of industrial six-joint robot 6 End is fixed with pneumatic grasping mechanism 5, after the side of shaping limit plate 45 is accumulated to a certain number of magnesium alloy blocks, industrial six axis Robot 6 drives rotating arm, and pneumatic grasping mechanism 5 is hovered on magnesium alloy block, the clamping gas on pneumatic grasping mechanism 5 is started Cylinder 53 makes the piston rod at 53 both ends of clamping cylinder while stretching out, to make fixed two 51 opposite directions of clamping plate on the piston rod It is flared out, after the distance of two clamping plates 51 reaches preset width, stops clamping cylinder 53；

Step 6: after the side magnesium alloy block of shaping limit plate 45 reaches predetermined number, industrial six-joint robot 6 is by gas Dynamic grasping mechanism 5 sinks down into the top of magnesium alloy block, so that the most lower edge of two clamping plates 51 is lower than the most lower edge of magnesium alloy block, then Be again started up clamping cylinder 53, shrink back piston rod in clamping cylinder 53, at the same drive two clamping plates 51 to contract so as to Magnesium alloy block is clamped, after two clamping plates 51 clamp magnesium alloy block, and the profiling of two 51 insides of clamping plate can be changed clamping plate 55 and magnesium After alloy block is bonded close and firm, stop clamping cylinder 53, then industrial six-joint robot 6 closes pneumatic grasping mechanism 5 and magnesium Gold bullion, which rises, to be come, and the overhead of shaping line apparatus 4 is hovered over；

Step 7: after magnesium alloy block is detached from shaping line apparatus 4 by industrial six-joint robot 6, industrial six-joint robot 6 rotates Magnesium alloy block, is hovered over the overhead of support frame 1 by certain angle, and then land pneumatic grasping mechanism 5 and magnesium alloy, closes magnesium Gold bullion falls in support frame 1, then starts clamping cylinder 53, keeps piston rod protruding, drives clamping plate 51 to move out, makes clamping plate 51 are detached from magnesium alloy block, then stop clamping cylinder 53, and industrial six-joint robot 6 rises pneumatic grasping mechanism 5 to come, rotation one Determine angle, pneumatic grasping mechanism 5 is hovered over to the overhead of 4 tail end of shaping line apparatus.

Step 7: after the magnesium alloy block on support frame 1 reaches predetermined quantity, by fork truck by support frame 1 pallet 12 and Magnesium alloy block is transported together.

In conclusion in the present embodiment, magnesium alloy automatic docking device provided in this embodiment is traditional thread binding by that will convey It sets, propulsive mechanism, shaping line apparatus, pneumatic grasping mechanism and industrial six-joint robot are assembled into coherent automatic production line, section Labour and plenty of time have been saved, labor efficiency is improved, has passed through setting conveying line device, propulsive mechanism and shaping line apparatus group At the fixed roller line of bilayer and pneumatic grasping mechanism and industrial six-joint robot composition dance roller diatom, realize pallet, The transport of the mixing of finished product and unfinished work, and can be with the supreme shots of automatic flow pallet, to realize recycling for pallet.

The above, only the utility model further embodiment, but the protection scope of the utility model is not limited to In this, anyone skilled in the art is according to the present utility model in range disclosed in the utility model Technical solution and its design are subject to equivalent substitution or change, belong to the protection scope of the utility model.

Claims (9)

1. a kind of magnesium alloy automatic docking device, it is characterised in that: including piling up the support frame (1) of magnesium alloy block, transmission magnesium closes The conveying line device (2) of gold bullion, is arranged in the pusher propulsive mechanism (3) being connected with the conveying line device (2) tail end The shaping line apparatus (4) of structure (3) one end, pushes institute at the pneumatic grasping mechanism (5) being arranged above the shaping line apparatus (4) The industrial six-joint robot (6) of pneumatic grasping mechanism (5) operation and the safety barrier (7) around a whole set of assembly line are stated, it is described Conveying line device (2) includes gear (24), the chain (25) matched with the gear (24) and is arranged in the pipeline The conveying limit plate (26) of device (2) one end, the propulsive mechanism (3) be equipped with propulsion cylinder (32) and with the propulsion gas The connected propulsion wedge block (33) of the piston rod of cylinder (32), one end of the shaping line apparatus (4) be equipped with shaping cylinder (43) with And the shaping wedge block (44) being connected with the piston rod of the shaping cylinder (43), the other end of the shaping line apparatus (4) are set Have shaping limit plate (45), the pneumatic grasping mechanism (5) includes clamping cylinder (53), is fixed on the clamping cylinder (53) The profiling of clamping plate (51) on piston rod, setting in the clamping plate (51) side can be changed clamping plate (55) and with industrial six axis The connected flange (54) in robot (6) one end.

2. a kind of magnesium alloy automatic docking device according to claim 1, it is characterised in that: support frame as described above (1) includes Two pedestals (11), the pedestal (11) are equipped with a pallet (12), magnesium alloy block are piled up on the pallet (12), and fork truck will Magnesium alloy block on the pallet (12) and the pallet (12) hauls together.

3. a kind of magnesium alloy automatic docking device according to claim 1, it is characterised in that: the conveying line device (2) Including carriage (21), the upper surface of the carriage (21) is inclined surface, the higher one end of the carriage (21) and workshop Casting machine is connected, and the magnesium alloy ingot in casting machine, which is removed from the mold, is transmitted to the carriage (21) higher one end, described The fixed conveying limit plate (26) in the lower one end of carriage (21).

4. a kind of magnesium alloy automatic docking device according to claim 1, it is characterised in that: propulsive mechanism (3) packet Setting is included in the advance frame (31) of the conveying line device (2) tail end, the height of the advance frame (31) and the propulsive mechanism (3) height of tail end is identical, is fixed with the propulsion cylinder (32) on the propulsive mechanism (3), the propulsion cylinder (32) Piston rod, which is fixed with, promotes wedge block (33), and the side for promoting wedge block (33) is equipped with the inclination being adapted with magnesium alloy block Face, the propulsion cylinder (32) and propulsion wedge block (33) push away the magnesium alloy block on the conveying line device (2) tail end It is sent on the shaping line apparatus (4).

5. a kind of magnesium alloy automatic docking device according to claim 1, it is characterised in that: the shaping line apparatus (4) Tail end positioned at the conveying line device (2), the shaping line apparatus (4) include reshaping frame (41), are fixed on the reshaping frame (41) the shaping cylinder (43) of one end and it is fixed on the shaping limit plate (45) of the reshaping frame (41) other end, it is described Reshaping frame (41) is equipped with the groove (42) being adapted with the clamping plate (51), and the shaping wedge block (44) is fixed on described whole On the piston rod of shape cylinder (43), the shaping cylinder (43) and the shaping wedge block (44) are the shaping line apparatus (4) the magnesium alloy block on is pushed to the side of the shaping limit plate (45).

6. a kind of magnesium alloy automatic docking device according to claim 1, it is characterised in that: the pneumatic grasping mechanism It (5) further include the U-frame (58) for being fixed on the flange (54) one end and the fixed plate for being fixed on the U-frame (58) side (57), the clamping cylinder (53) is fixed on the fixed plate (57), and the clamping cylinder (53) is located at the U-frame (58) Interior, clamping cylinder (53) both ends are equipped with piston rod, are respectively and fixedly provided with folder on the piston rod at clamping cylinder (53) both ends Plate (51), the side of two clamping plates (51) are equipped with guide holder (52), and one end of the guide holder (52) is equipped with guiding axis (56).

7. a kind of magnesium alloy automatic docking device according to claim 1, it is characterised in that: the profiling can be changed clamping plate (55) side is fixed on the clamping plate (51), and the surface that the profiling can be changed the other side of clamping plate (55) is equipped with zigzag The inclined surface of groove, the inclined surface that the profiling can be changed clamping plate (55) adapt to the side of the magnesium alloy block of different model, the folder The bottom of plate (51) is equipped with the convex block to infolding, when two pieces of clamping plates (51) clamp magnesium alloy block, the clamping plate (51) the lowermost convex block can hook magnesium alloy block bottom.

8. a kind of magnesium alloy automatic docking device according to claim 1, it is characterised in that: the industry six-joint robot (6) it is fixed on one end of the shaping line apparatus (4), one end of the industry six-joint robot (6) passes through the flange (54) It is connected with the pneumatic grasping mechanism (5), the industry six-joint robot (6) is IRB1400 console mode industrial robot, carrying 50KG, arm open up 3M, rotate 0 ° -300 ° of angle.

9. a kind of magnesium alloy automatic docking device according to claim 1, it is characterised in that: the safety barrier (7) by Muti-piece web plate (71) splicing composition, the middle part of the web plate (71) are the stainless (steel) wire of hollow out.