CN106345993A - Zinc-alloy-ingot-casting efficient surface-scraping deslagging system - Google Patents

Abstract

The invention relates to a zinc-alloy-ingot-casting efficient surface-scraping deslagging system. The zinc-alloy-ingot-casting efficient surface-scraping deslagging system comprises a machine frame. A conveying device for circularly conveying zinc-alloy-ingot molding molds is arranged on the machine frame, a sliding base is arranged above the input end of the conveying device, a lifting mechanism for driving the sliding base to lift is connected to one end of the sliding base, two clamping blocks capable of oppositely moving in the length direction of the sliding base are arranged at the other end of the sliding base, stretchable surface-scraping plates for scraping material slag on the surface of zinc alloy are arranged at the lower ends of the clamping blocks, and a slag groove capable of transversely shift under the surface-scraping plates is arranged on the sides of the surface-scraping plates. The zinc-alloy-ingot-casting efficient surface-scraping deslagging system is compact in structure and reasonable in design, a just-cast zinc-alloy ingot is automatically deslagged on a circulation production line, the automatic degree is high, the deslagging efficiency is high, and the labor capacity is effectively reduced.

Description

ZINC ALLOY efficient rossing of casting removes slag system

Technical field:

The system the present invention relates to a kind of ZINC ALLOY efficient rossing of casting removes slag.

Background technology:

ZINC ALLOY, as the raw material of all multi-products, is generally produced using cast molding, in kirsite casting liquid injection To after ZINC ALLOY mould, often there are many residues on the top layer of kirsite casting liquid, in order to improve the molding of ZINC ALLOY Effect, needs kirsite casting liquid is carried out except Slag treatment, is to adopt manually at casting scene in the past, will be every by aid In individual mould, the residue on kirsite casting liquid top layer scrapes, and the efficiency that removes slag is low, and manual labor amount is big.

Content of the invention:

It is an object of the invention to provide a kind of ZINC ALLOY is cast, efficient rossing removes slag system, compact conformation, reasonable in design, has Remove slag efficiency beneficial to raising and reduces manual labor amount.

To achieve these goals, the technical solution used in the present invention is: a kind of ZINC ALLOY efficient rossing of casting removes slag System, including frame, described frame is provided with the conveyer device in order to circulation conveying ZINC ALLOY mould, described conveying dress It is provided with slide, one end of described slide is connected with to order about the elevating mechanism of slide lifting, described cunning above the input put The other end of seat is provided with two fixture blocks that can move towards along the length direction of slide, and the lower end of described fixture block is provided with to strike off The scalable fleshing beam of zinc alloy surface material residue, the side of described fleshing beam is provided with and can transversely move to immediately below fleshing beam Material residue groove.

Further, above-mentioned elevating mechanism includes the column positioned at frame side, and the side of described column is fixedly connected with lifting Cylinder, the outfan of described lift cylinder is connected firmly with the end of slide, and described column is provided with leads with the first of the lifting of sharp slide Rail.

Further, above-mentioned column is fixedly connected with along the longitudinally workbench above frame, described workbench connects firmly There is receiving cylinder, the outfan of described receiving cylinder is connected firmly with material residue groove, the top surface of described workbench is provided with sharp material residue groove horizontal stroke The second guide rail to movement.

Further, above-mentioned material residue groove offers near fleshing beam end with the sharp material residue groove v shape that when traversing, fleshing beam passes through Notch, the bottom land of described material residue groove is obliquely installed, and the bottom land lower end of described material residue groove offers slag-drip opening, at described slag-drip opening even It is connected to downward-sloping deslagging guide groove.

Further, above-mentioned slide is provided with the groove extending longitudinally, and is fixedly connected with two side by side and court in described groove First cylinder of rightabout output, the outfan of each described first cylinder is connected firmly with the upper end of adjacent fixture block, described groove Medial wall be provided with the 3rd guide rail along the length direction movement of groove with sharp fixture block.

Further, above-mentioned two fixture blocks all slope inwardly, and the lower end outside of fixture block is fixedly connected with the second cylinder, described second gas The outfan of cylinder is connected firmly with the upper end of fleshing beam, and the bottom of described fixture block is fixedly connected with the stripper being obliquely installed, described stripper Lower end be provided with bending part, the lower edge of described bending part is contacted with the lower edge of fleshing beam.

Further, above-mentioned conveyer device includes the carrier chain of two Synchronous Transmission, and the two ends of described carrier chain are respectively provided with There is sprocket wheel, the center of described sprocket wheel is equipped with sprocket shaft, and the two ends of described sprocket shaft connect firmly in frame by bearing block, wherein One end of one described sprocket shaft is stretched out frame and is fixedly connected with motor.

Further, it is equipped with die supports and mold between the carrier bar above-mentioned two carrier chains being oppositely arranged, described mould props up The two ends of seat are connected firmly with the carrier bar of both sides respectively, and the upper surface of described die supports and mold is disposed with along the direction of transfer of carrier chain Supporting part and articulated section, described articulated section is hinged with mould via bearing pin, the top surface of described supporting part and mould Bottom surface connect with sharp mould holding level, the rear end both sides of described mould are symmetrically arranged with stretch out convex Block.

Further, it is provided with outside the output switching activity end of above-mentioned carrier chain and connect firmly in frame and in order to limit shaping mould The arc-shaped limit plate of tool upset, the radian of described limiting plate is 90 °, and the underface of described limiting plate is provided with sharp mould The discharging collision block clashing into projection phase after upset, the lower end linking of described discharging collision block has the projection gib block of arc shape.

Compared with prior art, the present invention has the effect that present configuration is compact, reasonable in design, in cyclic production Automatically Slag treatment, high degree of automation are carried out to the ZINC ALLOY of firm casting on line, remove slag efficiency high, effectively reduce artificial The amount of labour；Collide with discharging collision block when being overturn with mould using the projection on mould, carry out discharging, structure letter Single, discharging efficiency high.

Brief description:

Fig. 1 is the organigram one of the embodiment of the present invention；

Fig. 2 is the organigram two of the embodiment of the present invention.

In figure:

1- frame；10- carrier chain；11- sprocket wheel；12- limiting plate；13- discharging collision block；14- projection gib block；15- motor；16- Conveyer belt；2- mould；20- die supports and mold；21- supporting part；22- articulated section；23- projection；3- slide；30- groove；31- First cylinder；32- the 3rd guide rail；4- column；40- lift cylinder；41- first guide rail；5- workbench；50- receiving cylinder；51- Second guide rail；6- fixture block；60- second cylinder；7- fleshing beam；8- material residue groove；80-v shape notch；81- deslagging guide groove；9- discharging Plate.

Specific embodiment:

The present invention will be further described in detail with reference to the accompanying drawings and detailed description.

As shown in Figure 1-2, ZINC ALLOY of the present invention efficient rossing of casting removes slag system, including frame 1, in described frame 1 It is provided with the conveyer device in order to circulation conveying ZINC ALLOY mould 2, above the input of described conveyer device, be provided with slide 3, one end of described slide 3 is connected with to order about the elevating mechanism of slide 3 lifting, and the other end of described slide 3 is provided with two The fixture block 6 that can move towards along the length direction of slide 3, the lower end of described fixture block 6 is provided with to strike off ZINC ALLOY casting liquid The scalable fleshing beam 7 of surface material residue, the side of described fleshing beam 7 is provided with the material that can transversely move to immediately below fleshing beam 7 Slag chute 8.

In the present embodiment, described elevating mechanism includes the column 4 positioned at frame 1 side, and the side of described column 4 is fixedly connected with Lift cylinder 40, the outfan of described lift cylinder 40 and the end of slide 3 connect firmly, and described column 4 is provided with 3 liters of sharp slide First guide rail 41 of fall.

In the present embodiment, described column 4 is fixedly connected with along longitudinally located at the workbench 5 of frame 1 top, described workbench 5 On be fixedly connected with receiving cylinder 50, the outfan of described receiving cylinder 50 and material residue groove 8 connect firmly, and the top surface of described workbench 5 is provided with The second guide rail 51 with sharp material residue groove 8 transverse shifting；Carry out splicing using moveable material residue groove 8, and through 7 drives of fleshing beam Material residue lifts, and can be prevented effectively from liquid material residue and drop to workbench in moving process, in frame or other are carried out Go to the surface of the ZINC ALLOY of Slag treatment.

In the present embodiment, described material residue groove 8 near fleshing beam 7 end offer with sharp material residue groove 8 traversing when fleshing beam 7 pass through V shape notch 80, the bottom land of described material residue groove 8 is obliquely installed, and the bottom land lower end of described material residue groove 8 offers slag-drip opening, described It is connected with downward-sloping deslagging guide groove 81 at slag-drip opening；The bottom angled setting of material residue groove 8 and the setting of deslagging guide groove 81 Greatly facilitate the cleaning of material residue in material residue groove, improve cleaning efficiency.

In the present embodiment, described slide 3 is provided with the groove 30 extending longitudinally, and is fixedly connected with two simultaneously in described groove 30 Row and the first cylinder 31 exporting in the opposite direction, the outfan of each described first cylinder 31 is solid with the upper end of adjacent fixture block 6 Connection, the medial wall of described groove 30 is provided with the 3rd guide rail 32 along the length direction movement of groove 30 with sharp fixture block 6.

In the present embodiment, described two fixture blocks 6 all slope inwardly, and the lower end outside of fixture block 6 is fixedly connected with the second cylinder 60, described The outfan of the second cylinder 60 and the upper end of fleshing beam 7 connect firmly, and the bottom of described fixture block 6 is fixedly connected with the stripper 9 being obliquely installed, The lower end of described stripper 9 is provided with bending part, and the lower edge of described bending part is contacted with the lower edge of fleshing beam 7, with Just fleshing beam 7 is when striking off residue and being bounced back, fleshing beam 7 and stripper 9 relative motion, and stripper 9 utilizes the bending part will The material residue on fleshing beam 7 surface is picked and is dropped down onto in material residue groove 8, prevents residue to be retained on fleshing beam 7, and impact rossing next time goes Slag, the effect that removes slag is good.

In the present embodiment, described fixture block 6 is 15 °, so that fleshing beam 7 pours along kirsite with the angle of inclination of stripper 9 Top layer move toward one another to material residue when fitting, struck off of casting liquid can be clamped between two fleshing beams 7 well, it is to avoid material residue is dripped To mould 2, substantially increase the precision that rossing removes slag.

In the present embodiment, the rectangular groove-like of described mould 2, in described mould 2 via horizontally set every Plate is provided with two ZINC ALLOY casting grooves, offers dividing plate when stretching out with sharp fleshing beam 7 and stretch in the middle part of the lower end of described fleshing beam 7 Recess so that the rossing that can complete interior two ZINC ALLOYs of mould 2 during fleshing beam 7 one action removes slag simultaneously, Remove slag efficiency high；Mould 2 may also set up multiple dividing plates, forms multiple ZINC ALLOYs casting grooves, that is, a mould 2 can Produce multiple ZINC ALLOYs simultaneously, and accordingly increase the quantity of recess, the quantity making recess is consistent with the quantity of dividing plate, position Put corresponding so that fleshing beam can carry out rossing to multiple ZINC ALLOYs removes slag simultaneously, high working efficiency.

In the present embodiment, the rectangular groove-like of described material residue groove 8, the bottom land of material residue groove 8 is equipped with Antisticking, prevents material residue It is bonded in the bottom land of material residue groove, increase cleaning difficulty, and then increase manual labor amount.

In the present embodiment, described conveyer device includes the carrier chain 10 of two Synchronous Transmission, the two ends of described carrier chain 10 It is provided with sprocket wheel 11, the center of described sprocket wheel 11 is equipped with sprocket shaft, and the two ends of described sprocket shaft are connected firmly by bearing block In frame 1, one end of one of described sprocket shaft is stretched out frame and is fixedly connected with motor 15.

In the present embodiment, between the carrier bar that described two carrier chains 10 are oppositely arranged, it is equipped with die supports and mold 20, described The two ends of die supports and mold 20 are connected firmly with the carrier bar of both sides respectively, and the upper surface of described die supports and mold 20 is along the sender of carrier chain 10 To being disposed with supporting part 21 and articulated section 22, described articulated section 22 is hinged with mould 2 via bearing pin, described support The top surface in portion 21 is connected with the bottom surface of mould 2 with sharp mould 2 holding level, the rear end both sides of described mould 2 It is symmetrically arranged with the projection 23 stretching out.

In the present embodiment, it is provided with outside the output switching activity end of described carrier chain 10 and connects firmly in frame 1 and in order to limit The arc-shaped limit plate 12 of mould 2 upset, the radian of described limiting plate 12 is 90 °, to avoid mould 2 to overturn； The underface of described limiting plate 12 is provided with the discharging collision block 13 mutually to clash into after the upset of sharp mould 2 with projection 23, utilizes During mould 2 upset, projection 23 and discharging collision block 13 collide and produce vibration, and the ZINC ALLOY in mould 2 produces altogether Shake and come off in mould 2, complete discharging；The lower end linking of described discharging collision block 13 has the projection gib block of arc shape 14, to prevent because upset amplitude is excessive after mould 2 discharging, vibration is produced to carrier chain 10, affect the stationarity of transmission, Projection gib block 14 plays the reversal rate slowing down mould 2 so that mould 2 overturns steadily.

In the present embodiment, the lower section of described discharging collision block 13 is provided with the ZINC ALLOY that accepting shakes in mould falls Conveyer belt 16, the end of described conveyer belt 16 is provided with the belt wheel ordering about rotation by motor, and ZINC ALLOY passes via conveyer belt Deliver to subsequent processing；The setting of projection gib block 14, also can avoid the mould 2 that discharging finishes due to the amplitude mistake of upset Greatly, strike on conveyer belt, the work of impact conveyer belt.

Specific implementation process: kirsite casting liquid is implanted sequentially the mould 2 positioned at carrier chain 10 rear end by (1) Interior, carrier chain 10 drives mould 2 to do annular conveying, when the mould 2 being contained with kirsite casting liquid is delivered to rossing During the underface of plate 7, carrier chain 10 stops operating；(2) then lift cylinder 40 starts and drives slide 3 to move down until unloading Flitch 9 presses close to the end of mould 2, and the second cylinder 60 starts, and orders about fleshing beam 7 and stretches out and extend into kirsite casting liquid Top layer, then the first cylinder 31 start, by fixture block 6 drive two fleshing beam 7 move toward one another until bottom fit, fleshing beam Clamping after during 7 move toward one another striking off the material residue on kirsite casting liquid top layer, lift cylinder 40 starts and drives slide 3 to move upwards Dynamic, two fleshing beam 7 drives the side moving to v shape notch 80 in material residue；Start followed by receiving cylinder 50, promote material residue groove 8 horizontal Move to fleshing beam 7 to go forward side by side through v shape notch 80 inside of pan feeding slag chute 8, the second cylinder 60 starts and retraction fleshing beam 7 upwards, During fleshing beam 7 retraction, the material residue on fleshing beam 7 is picked and is dropped down onto in material residue groove 8 by stripper 9；Complete to unload in fleshing beam 7 After expecting and bouncing back, two the first cylinders 31 start simultaneously and drive fixture block 6 to return back to initial position, and last receiving cylinder 50 starts And driving material residue groove 8 to return back to initial position, the rossing completing ZINC ALLOY in a mould 2 removes slag work；(3) convey Chain 10 works on, and drives next mould 2 to be delivered to the underface of fleshing beam 7, completes rossing and removes slag work, follows according to this Ring；When mould 2 is delivered to the output switching activity end of carrier chain 10, in the presence of arc-shaped limit plate 12, mould 2 with Sprocket wheel does not overturn when rotating, and when mould 2 departs from limiting plate 12, overturns, projection 23 clashes into from top to bottom and unloads Material collision block 13 simultaneously produces vibration, and the ZINC ALLOY in mould 2 produces and resonates and drop on conveyer belt 16, then via transmission Band 16 is delivered to subsequent processing；The mould that discharging finishes transmits rearward, and when being sent to initial position, refills zinc and closes Gold casting liquid transmits forward again, circulates according to this.

The foregoing is only presently preferred embodiments of the present invention, all impartial changes done according to scope of the present invention patent with Modify, all should belong to the covering scope of the present invention.

Claims (9)

1. a kind of ZINC ALLOY cast efficient rossing remove slag system it is characterised in that: include frame, described frame be provided with order to The conveyer device of circulation conveying ZINC ALLOY mould, is provided with slide above the input of described conveyer device, described slide One end be connected with to order about the elevating mechanism of slide lifting, the other end of described slide is provided with two can be along the length of slide The fixture block that direction moves towards, the lower end of described fixture block is provided with to strike off the scalable fleshing beam of zinc alloy surface material residue, institute The side stating fleshing beam is provided with the material residue groove that can transversely move to immediately below fleshing beam.

2. ZINC ALLOY according to claim 1 cast efficient rossing remove slag system it is characterised in that: described elevating mechanism Including the column positioned at frame side, the side of described column is fixedly connected with lift cylinder, the outfan of described lift cylinder and cunning The end of seat connects firmly, and described column is provided with the first guide rail of sharp slide lifting.

3. ZINC ALLOY according to claim 2 cast efficient rossing remove slag system it is characterised in that: solid on described column It is associated with along the longitudinally workbench above frame, described workbench is fixedly connected with receiving cylinder, the output of described receiving cylinder End is connected firmly with material residue groove, and the top surface of described workbench is provided with the second guide rail of sharp material residue groove transverse shifting.

4. ZINC ALLOY according to claim 1 cast efficient rossing remove slag system it is characterised in that: described material residue groove leans on Nearly fleshing beam end offers with the sharp material residue groove v shape notch that when traversing, fleshing beam passes through, and the bottom land of described material residue groove is obliquely installed, The bottom land lower end of described material residue groove offers slag-drip opening, is connected with downward-sloping deslagging guide groove at described slag-drip opening.

5. ZINC ALLOY according to claim 1 cast efficient rossing remove slag system it is characterised in that: set on described slide There is the groove extending longitudinally, in described groove, be fixedly connected with two the first cylinders exporting side by side and in the opposite direction, each institute The outfan stating the first cylinder is connected firmly with the upper end of adjacent fixture block, and the medial wall of described groove is provided with sharp fixture block along groove 3rd guide rail of length direction movement.

6. ZINC ALLOY according to claim 5 cast efficient rossing remove slag system it is characterised in that: described two fixture blocks are equal Slope inwardly, the lower end outside of fixture block is fixedly connected with the second cylinder, and the described outfan of the second cylinder and the upper end of fleshing beam connect firmly, The bottom of described fixture block is fixedly connected with the stripper being obliquely installed, and the lower end of described stripper is provided with bending part, described bending part Lower edge is contacted with the lower edge of fleshing beam.

7. ZINC ALLOY according to claim 1 cast efficient rossing remove slag system it is characterised in that: described conveyer device Including the carrier chain of two Synchronous Transmission, the two ends of described carrier chain are provided with sprocket wheel, and the center of described sprocket wheel is equipped with chain Wheel shaft, the two ends of described sprocket shaft connect firmly in frame by bearing block, and frame is stretched out in one end of one of described sprocket shaft And it is fixedly connected with motor.

8. ZINC ALLOY according to claim 7 cast efficient rossing remove slag system it is characterised in that: described two conveyings Die supports and mold is equipped between the carrier bar being oppositely arranged on chain, the two ends of described die supports and mold are connected firmly with the carrier bar of both sides respectively, The upper surface of described die supports and mold is disposed with supporting part and articulated section along the direction of transfer of carrier chain, described articulated section via Bearing pin is hinged with mould, and the top surface of described supporting part is connected with the bottom surface of mould and keeps water with sharp mould Flat, the rear end both sides of described mould are symmetrically arranged with the projection stretching out.

9. ZINC ALLOY according to claim 8 cast efficient rossing remove slag system it is characterised in that: described carrier chain It is provided with outside output switching activity end and connect firmly in frame and in order to limit the arc-shaped limit plate of mould upset, described limiting plate Radian be 90 °, the underface of described limiting plate is provided with the discharging collision block to clash into after the upset of sharp mould with projection phase, The lower end linking of described discharging collision block has the projection gib block of arc shape.