CN209532037U - Cooling and dedusting combined type calcium carbide turns round casting equipment - Google Patents

Abstract

A kind of cooling and dedusting combined type calcium carbide revolution casting equipment, including molten bath portion, casting portion, driving portion, cooling and dedusting portion, casting portion includes medial cradle, outrigger, inside upper strata guide rail, inside lower floor guide rail, circumference guide rail, and it is located at medial cradle, rotary flip type formation system between outrigger, the rotary flip type formation system includes the sequentially connected several revolution casting equipment molding assemblies of head and the tail, several revolution casting equipment molding assembly head and the tail connections form closed annular pouring channel, the utility model is using rotary casting, this pouring channel occupied area is small, pouring channel length is longer, so that single batch receiving molten metal is more, it is poured ultrahigh in efficiency, and cooling time is longer after casting, cooling velocity is very fast；Uplink section and downlink section connects using flip type, and the freely falling body that overturning while realizes ingot falls, and this mode discharges without shutdown, does not influence normal continuous casting.

Description

Cooling and dedusting combined type calcium carbide turns round casting equipment

Technical field

The utility model relates to casting of metals technical field more particularly to a kind of revolution casting of cooling and dedusting combined type calcium carbide Equipment.

Background technique

In casting of metals equipment, two kinds of casting machines are primarily present, one is the existing linear type casting machines of our company, such as In the patent of Patent No. 201611004743.1, another kind is the disc casting device of 201720666296X.

Although linear type casting machine uses convertible blanking, this is this linear type casting in straight line casting machine Machine, which exists, to be taken up a large area, and inefficiency is poured；And in disk casting device, go out using the mode ejected from bottom to top Material, this discharge method not only needs that ejecting structure is separately provided, moreover, discharging speed is slow.

Summary of the invention

It is necessary to propose a kind of cooling and dedusting combined type calcium carbide revolution casting equipment.

A kind of cooling and dedusting combined type calcium carbide revolution casting equipment, including molten bath portion, casting portion, driving portion, cooling and dedusting Portion, molten bath are the round pond body for accommodating molten metal, open up casting gate on the side wall in molten bath, casting portion include medial cradle, Outrigger, inside upper strata guide rail, inside lower floor guide rail, circumference guide rail and the revolution between medial cradle, outrigger Formula flip type formation system, medial cradle are the circular support for being centered around one week on the outside of the portion of molten bath, and outrigger is in being centered around One week circular support, inside upper strata guide rail, inside lower floor guide rail are set on the lateral wall of medial cradle on the outside of side stand, with Circular guideway is formed, circumference guide rail is set to before the uplink section and downlink section of rotary flip type formation system, in support Row section, the rotary flip type formation system include the sequentially connected several revolution casting equipment molding assemblies of head and the tail, if Dry revolution casting equipment molding assembly head and the tail connection forms closed annular pouring channel, annular pouring channel include uplink section and Downlink section, the bottom of uplink section are set on circumference guide rail, and the inside of uplink section is contacted with inside upper strata guide rail, downlink section it is interior Side is contacted with inside lower floor guide rail, so that uplink section, downlink section do rotary circle around inside upper strata guide rail, inside lower floor guide rail Zhou Yidong, the driving portion include the first driving assembly, the second driving assembly, and the first driving assembly is set to uplink section and downlink One end of section connection, the second driving assembly are set to the other end that uplink section is connected with downlink section, and uplink section and downlink section surround First driving assembly and the overturning of the second driving assembly, the first driving assembly, the second driving assembly be arranged close to, and therebetween between Every blanking interval, being fallen so that the ingot in uplink section downwardly turns over, the cooling and dedusting portion is set to the top of uplink section, Cooling and dedusting portion includes several dust excluding hoods, dust removing tube, several cooling domes, cooling tube, several dust excluding hoods and several cooling dome intervals It is arranged side by side above uplink section, dust removing tube is set to above dust excluding hood, and the top of dust excluding hood is connected to dust removing tube, dust excluding hood Bottom be opening, cooling tube is set to above cooling dome, and the top of cooling tube is connected to cooling dome, and the bottom of cooling dome is Opening, dust removing tube, cooling tube are also connect with external dedusting dynamical system.

For the utility model using rotary casting, rotary formation system is under inside upper strata guide rail, inside Layer guide rail moves in a circle, and this pouring channel occupied area is small, and pouring channel length is longer, so that single batch accommodates molten metal It is more, it is poured ultrahigh in efficiency, and cooling time is longer after casting, cooling velocity is very fast；Uplink section and downlink section are using overturning Type connection, the freely falling body that overturning while realizes ingot fall, and this mode discharges without shutting down, and do not influence normal Continuous casting.

Detailed description of the invention

Fig. 1 is the structural schematic diagram for turning round casting equipment molding assembly 100.

Fig. 2 is the decomposition texture schematic diagram for turning round casting equipment molding assembly 100.

Fig. 3 is the structural schematic diagram of mold 10.

Fig. 4 is the structural schematic diagram of pedestal 20.

Fig. 5 is another angle schematic diagram of pedestal 20.

Fig. 6 is the cross-sectional view for turning round casting equipment molding assembly 100.

Fig. 7 is the another embodiment schematic diagram that wedge shape plug, wedge-shaped angle are expressed in Fig. 6.

Fig. 8 is the structural schematic diagram of several molding assemblies connection.

Fig. 9 is the schematic diagram of another angle of several molding assemblies connection.

Figure 10 is the top view that cooling and dedusting combined type calcium carbide turns round casting equipment.

Figure 11 be Figure 10 in C-C to cross-sectional view.

Figure 12 be Figure 10 in A-A to cross-sectional view.

Figure 13 is the partial schematic diagram in Figure 10 on the right side of B section.

Figure 14 is the schematic diagram that medial cradle 41, outrigger 42 are hidden in Figure 13.

Figure 15 is the partial enlarged view of F in Figure 11.

Figure 16 is the partial enlarged view of D in Figure 12.

Figure 17 is the partial enlarged view of E in Figure 12.

Figure 18 is the schematic diagram of setting outside upper strata guide rail 53, outside lower floor guide rail 54.

Figure 19 is the top view that dust removal unit is arranged in the equipment.

Figure 20 is the cross-sectional view of L1-L1 in Figure 19.

Figure 21 is the cross-sectional view of L2-L2 in Figure 19.

Figure 22 is the cross-sectional view of L3-L3 in Figure 19.

In figure: revolution casting equipment molding assembly 100, accepts bottom 11, wedge shape plug 111, preceding clinch at mold 10 12, rear clinch 13, inside side block in 14, outside side block 15, groove 16, pedestal 20, inside edge 21, wedge-shaped angle 211, Outside edge 22, bottom plate 23,241, second groups, the roller of linkage mechanism 24, first groups roller 242, connection toothholder 243, inside guiding mechanism 25, inside axle bed 251, inside short axle 252, guide wheel 253, chain 254, round pond body 30, casting gate 31, medial cradle 41, outer Side stand 42, inside upper strata guide rail 43, inside lower floor guide rail 44, the first circumference lead the 45, second circumference guide rail 46, blanking interval 47, uplink section 48, downlink section 49, internal trolley group 51, outer roller group 52, outside upper strata guide rail 53, outside lower floor guide rail 54, outside Guiding mechanism 55, the first driving assembly 61, the first driving motor 611, the first speed reducer 612, first drive gear 613, second Driving assembly 62, dust excluding hood 71, square shade 711, cone-shaped hood 712, dust removing tube 72, cooling dome 73, cone-shaped hood 731, cooling tube 74, Necking down pipe 75.

Specific embodiment

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is some embodiments of the utility model, for this For the those of ordinary skill of field, without creative efforts, it can also be obtained according to these attached drawings others Attached drawing.

Referring to Figure 10 to Figure 17, the utility model embodiment provides a kind of revolution casting of cooling and dedusting combined type calcium carbide and sets It is standby, including molten bath portion, casting portion, driving portion, molten bath are the round pond body 30 for accommodating molten metal, are opened up on the side wall in molten bath Casting gate 31, casting portion include that medial cradle 41, outrigger 42, inside upper strata guide rail 43, inside lower floor guide rail 44, circumference are led Rail and the rotary flip type formation system between medial cradle 41, outrigger 42, medial cradle 41 are molten to be centered around One week circular support on the outside of the portion of pond, outrigger 42 is to be centered around the 41 one week circular support in outside of medial cradle, on inside Layer guide rail 43, inside lower floor guide rail 44 are set on the lateral wall of medial cradle 41, to form circular guideway, the setting of circumference guide rail Before the uplink section 48 and downlink section 49 of rotary flip type formation system, to support uplink section 48, the rotary overturning Type formation system includes the sequentially connected several revolution casting equipment molding assemblies 100 of head and the tail, and several revolution casting equipments are used Molding assembly 100 connects form closed annular pouring channel from beginning to end, and annular pouring channel includes uplink section 48 and downlink section 49, on The bottom of row section 48 is set on circumference guide rail, and the inside of uplink section 48 is contacted with inside upper strata guide rail 43, downlink section 49 it is interior Side is contacted with inside lower floor guide rail 44, so that uplink section 48, downlink section 49 surround inside upper strata guide rail 43, inside lower floor guide rail 44 It is mobile to do rotary circumference, the driving portion includes the first driving assembly 61, the second driving assembly 62, and the first driving assembly 61 is set It is placed in one end that uplink section 48 and downlink section 49 connect, the second driving assembly 62 is set to uplink section 48 and downlink section 49 connects The other end, uplink section 48 and downlink section 49 are overturn around the first driving assembly 61 and the second driving assembly 62, the first driving assembly 61, the second driving assembly 62 is arranged close to, and interval blanking interval 47 therebetween, so that the ingot in uplink section 48 is downward Overturning is fallen.

For the utility model using rotary casting, rotary formation system is around inside upper strata guide rail 43, inside Lower floor guide rail 44 moves in a circle, and this pouring channel occupied area is small, and pouring channel length is longer, so that single batch accommodates gold It is more to belong to liquid, is poured ultrahigh in efficiency, and cooling time is longer after casting, cooling velocity is very fast；Uplink section 48 and downlink section 49 It is connected using flip type, the freely falling body that overturning while realizes ingot falls, and this mode discharges without shutting down, not shadow Ring normal continuous casting.

This discharge method is different from mode in the prior art.In existing patent, there are two kinds of casting machines, one is The existing linear type casting machine of our company, such as in the patent of Patent No. 201611004743.1, another kind is The disc casting device of 201720666296X, although linear type casting machine uses convertible blanking, this is cast in straight line In machine, this linear type casting machine, which exists, to be taken up a large area, and is poured inefficiency, and in disk casting device, using by The mode ejected upwards down discharges, and this discharge method not only needs that ejecting structure is separately provided, moreover, discharging speed is slow, this The discharge method of kind overturning free-falling can not be suitable for rotary or disc type casting machine.

Referring to Fig. 1-9, further, the molding assembly of the rotary flip type formation system includes mold 10 and pedestal 20, it is detachably connected between the bottom of mold 10 and the top of pedestal 20, the setting of mold 10 accommodates molten metal for accepting Groove 16, the linkage mechanism 24 connecting with the driving portion is arranged in the bottom of pedestal 20.

Mold 10 and pedestal 20 are flexibly connected, and mold 10 forms ingot, outside is arranged in pedestal 20 for accepting molten metal In driving, with mobile by external drive driven mold 10.It is very tight to the scaling loss of mold 10 since the temperature of molten metal is very high Weight, the service life is very short, using must replace after for several times or scrap, and pedestal 20 be by mold 10 and the transition piece being drivingly connected, with It is detachably connected between mold 10, in this way, pedestal 20 still may be reused in the replacement of 10 scaling loss of mold, is compared to existing There is technology, the materials cost of the molding assembly at least reduces by 1/3；Also, with driving cooperation structure setting on pedestal 20, this Sample also reduces the difficulty of processing and vulnerability level of mold 10.

Further, two ends are arranged in the mold 10, respectively inside end and outside end, the inner end of mold 10 Head is of different size with outside end, so that of different size, the formation trapezoidal mould of class of the inside end of groove 16 and outside end Two ends are arranged in tool 10, the pedestal 20, respectively inside end and outside end, with the inside end with mold 10 and outside The width fits of side head, so that several molding assemblies are formed afterwards side by side to the annular pouring channel for surrounding molten bath portion.

Further, the mold 10 includes accepting bottom 11, preceding clinch 12, rear clinch 13, inside side block side 14, outer Side side block side 15,15 encirclement in 14, outside side block of the undertaking bottom 11, preceding clinch 12, rear clinch 13, inside side block Formed for accepting the groove 16 for accommodating molten metal, the inside side block when 14 width is less than outside side block 15 width, The pedestal 20 includes inside edge 21, outside edge 22 and bottom plate 23, and inside edge 21, outside edge 22 are fixedly installed on bottom Wedge-shaped angle 211 is arranged in the both ends of plate 23 on the inner sidewall of inside edge 21, is arranged on the inner sidewall of edge 22 on the outside perpendicular Straight opening, the wedge shape plug 111 that the inside end setting in the undertaking bottom 11 of mold 10 is adapted to wedge-shaped angle 211, in mould The vertical plug that is adapted to vertical opening of outside end setting of the undertakings bottom 11 of tool 10, also on the outside on 22 side wall of edge, It accepts and through-hole is set on the outside end of bottom 11, for connecting rod insertion, (such as screw rod insertion), by mold 10 and pedestal 20 clampings.

One end between bottom 11 and pedestal 20 is accepted to cooperate in such a way that wedge shape plug 111 is inserted into wedge-shaped angle 211, it is real Existing self-locking self-positioning, the other end is connected using vertical docking with connecting rod, when disassembly, inserts or pull out connecting rod, will be vertical The other end of the mold 10 of docking is extracted vertically in advance, is separated with pedestal 20, then again pulls out mold 10 along oblique upper direction Out, then the disassembly separation of the two is realized；When installation, the wedge shape plug 111 of one end is first inserted into wedge-shaped angle 211, then will In the vertical plug insertion vertical opening of the other end, in insertion connecting rod, locking.In this manner, it is easy for assemble or unload quick, two Person's stable connection.

Wherein, the opening width of the wedge-shaped angle 211 of the inside edge 21 is less than the wedge of the undertaking bottom 11 of mold 10 The thickness of shape plug 111, so that wedge shape plug 111 keeps the state combined closely after being inserted into wedge-shaped 211 inside of angle.

In order to keep accept bottom 11 and pedestal 20 close connection, non-loosening, plug insertion angle after, the head of plug When contacting positioned at the bottom of angle, the oral area of angle is contacted with the outer wall of plug, the two clamping, in this manner, benefit exists In, one, by angle oral area and plug outer wall be in close contact in the way of both lock while, angle oral area is formed in angle Both the closing of chamber avoids molten metal from flowing into inner cavity, is adhered in the slippery inner surface of inner cavity after crystallization, thus influence In conjunction with；Two, after the two combines, after being used for multiple times, there are mutual fretting wears for the two, and after angle oral area is worn, plug continues It is inserted into angle inner cavity, the two continues to be in close contact, in this way, forming what plug continued into using the lesser angle that is open Surplus, to elongate the service life of pedestal 20.

Further, the linkage mechanism 24 includes being arranged on the bottom plate 23 of pedestal 20 to be arranged first group 241, second groups, roller Roller 242, first group of roller, 241, second groups of rollers 242 are connect by connecting toothholder 243 with bottom plate 23, first group of roller 241 and second group Roller 242 is arranged side by side along the length direction of bottom plate 23, and interval is for driving portion between first group of roller 241 and second group of roller 242 Driving gear be caught in first driving spacing, between the first group of roller 241 and second group of roller 242 of two adjacent molding assemblies between Every the second driving spacing that the driving gear for driving portion is caught in, the first driving spacing and the are caught in be passed through by driving gear Two driving spacing, and the motive force for acting on first group of roller 241 or second group of roller 242 drives molding assembly along the first circumference rail Road movement.

Further, first group of roller, 241, second groups of rollers 242 relative to connection toothholder 243 can be rotated so that driving gear with Cooperation is rolled between first group of roller, 241, second groups of rollers 242.

Driving can be substantially reduced and dial the contact friction force between roller by rolling cooperation, reduce the energy consumption of driving motor.

Further, guiding mechanism 25 on the inside of being arranged also on bottom plate 23, inside guiding mechanism 25 is close to the inside of bottom plate 23 End setting, inside guiding mechanism 25 include inside axle bed 251, inside short axle 252, guide wheel 253, inside axle bed 251 and bottom plate 23 are fixedly connected, and open up vertical through hole on inner shafts seat 251, and for the insertion of inside short axle 252, guide wheel 253 is sheathed on inside In short axle 252, bearing is set between guide wheel 253 and inside short axle 252, so that guide wheel 253 is relative to 252 turns of inside short axle Dynamic, the medial end of wheel facing towards the bottom plate 23 of the guide wheel 253 is arranged, with inside upper strata guide rail 43 or inside lower floor guide rail 44 cooperations.

Further, linkage mechanism 24 further includes several pitch chain items 254, the connection of the pedestal 20 of two adjacent molding assemblies A chain 254 is connected between toothholder 243, by the transmission connection of two adjacent molding assemblies, with realize at least two at The movement of type component synchronization.

Further, downlink rolling mechanism also is set in the lower section of the molding assembly of downlink section 49, downlink rolling mechanism includes The internal trolley group 51 being set to inside mold 10 and the outer roller group 52 being set on the outside of mold 10, internal trolley group 51 and outer idler wheel Group 52 includes several rollers, and several rollers are respectively arranged at the inside side block of mold 10 at 14 lower sections and outside side block 15, Cooperated with being rolled with molding assembly.

Further, first driving assembly 61, the second driving assembly 62 have identical structure, the first driving assembly 61 packet The first driving motor 611, the first speed reducer 612, first driving gear 613 are included, the first driving motor 611 passes through the first speed reducer 612 connect with the first driving gear 613, and the width of the teeth of the first driving gear 613 is no more than the first driving spacing The width of width and the second driving spacing, so that the teeth of the first driving gear 613 are caught in the first driving spacing and the second driving Inside spacing, the first driving gear 613 is fixedly installed between medial cradle 41, outrigger 42 by shaft connection mechanism, and First driving gear 613 is set to one end that uplink section 48 and downlink section 49 connect, the second driving electricity of the second driving assembly 62 Machine is fixedly installed between medial cradle 41, outrigger 42 by shaft connection mechanism, and the second driving gear is set to uplink The other end that section 48 and downlink section 49 connect.

When casting, the first driving motor 611, the second driving motor keep equidirectional work.

Referring to Figure 18, the circumference guide rail in the casting portion includes the first circular orbit and the second circular orbit, the second circumference Guide rail 46 and the first circumference guide rail 45 are arranged side by side in the lower section of uplink section 48, with to first group of roller, 241, second groups of rollers 242 into Row support.

Since the weight of molding assembly is all supported by first group of roller, 241, second groups of rollers 242, and led by the first circumference Rail 45 is connect with external rack, since first group of roller, 241, second groups of rollers 242 have certain length, and the first circumference guide rail 45 There are problems that double swerve after support, causes molding assembly unstable, so two circumference guide rails can not only stablize support, And two straight lines determine a plane, so that first group of roller, 241, second groups of planar stable operations of roller 242.

Further, the first circumference guide rail 45 is arranged close to molten bath portion, and the second circumference guide rail 46 is arranged far from molten bath portion, and the The height of the rail level of two circumference guide rails 46 is higher than the height of the rail level of the first circumference guide rail 45.

To form the inclined-plane being slightly slanted downwards to molten bath portion, 241, second groups of rollers 242 of such first group of roller are in the inclination When moving on inclined-plane, the decomposing force for offsetting centrifugal force is formed, the principle of the program and highway corner the inside are inwardly downward The principle being slightly slanted is identical.

Casting portion further includes outside upper strata guide rail 53, outside lower floor guide rail 54, outside upper strata guide rail 53, outside lower floor guide rail 54 are arranged in the inside side walls of outer side stand 42, to form outer circular guide rail, on the inside and inside of the uplink section 48 Layer guide rail 43 contacts, and the inside of downlink section 49 is contacted with inside lower floor guide rail 44, the outside and outside upper layer of the uplink section 48 Guide rail 53 contacts, and the outside of downlink section 49 is contacted with outside lower floor guide rail 54, so that uplink section 48, downlink section 49 are by inside upper layer Rotary circumference movement is made in guide rail 43, inside lower floor guide rail 44, outside upper strata guide rail 53, the limitation of outside lower floor guide rail 54.

Outside upper strata guide rail 53, outside lower floor guide rail 54 can be formed resist molding assembly break away outward because of centrifugal force or The dynamic active force of micro-shifting, this first circumference guide rail 45 different from height, the second circumference guide rail 46 collectively form counteracting centrifugal force Structure.

The guiding mechanism 55 on the outside of setting also on the bottom plate 23 of the pedestal of molding assembly 20, the outside guiding mechanism 55 with Outside upper strata guide rail 53, outside lower floor guide rail 54 contact, with to molding assembly formed limit, the outside guiding mechanism 55 with it is interior Side guiding mechanism 25 has identical structure, and outside guiding mechanism 55 is disposed in proximity to the outside end point of mold 10.

Referring to Figure 19-22, further, the equipment further includes cooling and dedusting portion, and the cooling and dedusting portion is set to uplink The top of section, cooling and dedusting portion includes several dust excluding hoods 71, dust removing tube 72, several cooling domes 73, cooling tube 74, several dust excluding hoods 71 and the interval of several cooling domes 73 be arranged side by side in uplink section above, dust removing tube 72 is set to above dust excluding hood 71, and dust excluding hood 71 top is connected to dust removing tube 72, and the bottom of dust excluding hood 71 is opening, and cooling tube 74 is set to 73 top of cooling dome, and cooling The top of pipe 74 is connected to cooling dome 73, and the bottom of cooling dome 73 is opening, and dust removing tube 72, cooling tube 74 are also dynamic with external dedusting Force system connection.

The dust excluding hood 71, cooling dome 73 are several, and several dust excluding hoods 71 include square shade 711 and cone-shaped hood 712, Square shade 711 is set to above casting gate, and several cooling domes 73 are cone-shaped hood 731, the cone-shaped hood 712 and cooling dome of dust excluding hood 71 73 interval of cone-shaped hood 731 is arranged side by side, and necking down pipe 75 is arranged at the top of each cone-shaped hood 712, the caliber of necking down pipe 75 is small In the caliber of dust removing tube 72, so as to form tiny structure from the negative-pressure ward power that dust removing tube 72 enters cone-shaped hood 712.

Several cone-shaped hoods 712 arranged side by side form multiple pump units, and the negative-pressure ward power in dust removing tube 72 is to each Cone-shaped hood 712 forms individual negative-pressure ward, and if using whole cone-shaped hood 712 circumferentially, due to taper The inner cavity of cover 712 is connection, and space is very big, from the negative pressure pressure of dust removing tube 72 effect and the negative-pressure ward power of cone-shaped hood 712 Power is bigger, is unfavorable for energy conservation.

Dedusting function and refrigerating function are respectively set this programme, are also arranged side by side using interval, so that cooling dome and removing Dust hood is distributed in above uplink section.If one group of pipeline and cover is only arranged, many dust are adhered to inside dust excluding hood and dust removing tube, When being blown out using cooling wind, the dust of adherency can be blown to again above mold.

Module or unit in the utility model embodiment device can be merged according to actual needs, divide and be deleted Subtract.

Above disclosures are merely preferred embodiments of the utility model, the utility model cannot be limited with this certainly Interest field, those skilled in the art can understand all or part of the processes for realizing the above embodiment, and according to this reality The equivalent variations made by novel claim, still falls within the scope of the utility model.

Claims (10)

1. a kind of cooling and dedusting combined type calcium carbide turns round casting equipment, it is characterised in that: including molten bath portion, casting portion, driving portion, Cooling and dedusting portion, molten bath are the round pond body for accommodating molten metal, and casting gate is opened up on the side wall in molten bath, and casting portion includes interior Side stand, outrigger, inside upper strata guide rail, inside lower floor guide rail, circumference guide rail and be located at medial cradle, outrigger it Between rotary flip type formation system, medial cradle is the circular support for being centered around one week on the outside of the portion of molten bath, and outrigger is It is centered around one week on the outside of medial cradle circular support, inside upper strata guide rail, inside lower floor guide rail are set to the outer of medial cradle On side wall, to form circular guideway, circumference guide rail is set to before the uplink section and downlink section of rotary flip type formation system, To support uplink section, the rotary flip type formation system includes the sequentially connected several revolution casting equipment moldings of head and the tail Component, several revolution casting equipment molding assembly head and the tail connections form closed annular pouring channel, and annular pouring channel includes Uplink section and downlink section, the bottom of uplink section are set on circumference guide rail, and the inside of uplink section is contacted with inside upper strata guide rail, under The inside of row section is contacted with inside lower floor guide rail, so that uplink section, downlink section are done around inside upper strata guide rail, inside lower floor guide rail Rotary circumference is mobile, and the driving portion includes the first driving assembly, the second driving assembly, and the first driving assembly is set to uplink One end that section is connected with downlink section, the second driving assembly are set to the other end that uplink section is connected with downlink section, and uplink section is under Row section is overturn around the first driving assembly and the second driving assembly, and the first driving assembly, the second driving assembly are arranged close to, and two It is spaced blanking interval between person, is fallen so that the ingot in uplink section downwardly turns over, the cooling and dedusting portion is set to uplink The top of section, cooling and dedusting portion include several dust excluding hoods, dust removing tube, several cooling domes, cooling tube, if several dust excluding hoods and dry and cold But cover interval is arranged side by side above uplink section, and dust removing tube is set to above dust excluding hood, and the top of dust excluding hood and dust removing tube connect Logical, the bottom of dust excluding hood is opening, and cooling tube is set to above cooling dome, and the top of cooling tube is connected to cooling dome, cooling The bottom of cover is opening, and dust removing tube, cooling tube are also connect with external dedusting dynamical system.

2. cooling and dedusting combined type calcium carbide as described in claim 1 turns round casting equipment, it is characterised in that: described rotary to turn over The molding assembly of transition formation system includes mold and pedestal, is detachably connected between the bottom of mold and the top of pedestal, institute It states mold setting and the linkage mechanism connecting with the driving portion is set for accepting the groove for accommodating molten metal, the bottom of pedestal.

3. cooling and dedusting combined type calcium carbide as claimed in claim 2 turns round casting equipment, it is characterised in that: the mold setting Two ends, respectively inside end and outside end, the inside end of mold and outside end it is of different size so that groove Inside end and outside end it is of different size, form the trapezoidal mold of class, two ends are arranged in the pedestal, respectively inside End and outside end, with the width fits of inside end and outside end with mold so that several molding assemblies side by side after It is formed to the annular pouring channel for surrounding molten bath portion.

4. cooling and dedusting combined type calcium carbide as claimed in claim 3 turns round casting equipment, it is characterised in that: the mold includes Bottom, preceding clinch, rear clinch, inside side block are accepted in, outside side block, the undertakings bottom, overlaps preceding clinch afterwards Portion, inside side block surround to be formed for accepting the groove for accommodating molten metal, the width on inside side block side in, outside side block Less than the width on outside side block side, the pedestal includes inside edge, outside edge and bottom plate, and inside edge, outside edge are solid Surely the both ends of bottom plate are set to, wedge-shaped angle is set on the inner sidewall of inside edge, is arranged on the inner sidewall of edge on the outside Vertical opening, the wedge shape plug that the inside end setting in the undertaking bottom of mold is adapted to wedge-shaped angle, in the undertaking of mold The vertical plug being adapted to vertical opening is arranged in the outside end of bottom, also on the outside on edge side wall, the outside of undertaking bottom Through-hole is set on end, for connecting rod insertion, mold and pedestal are clamped.

5. cooling and dedusting combined type calcium carbide as claimed in claim 4 turns round casting equipment, it is characterised in that: the linkage mechanism First group of roller, second group of roller are set including being arranged on the bottom plate of pedestal, first group of roller, second group of roller pass through connection toothholder and bottom Plate connection, first group of roller and second group of roller are arranged side by side along the length direction of bottom plate, between first group of roller and second group of roller between Every the first driving spacing that the driving gear for driving portion is caught in, the first group of roller and second group of roller of two adjacent molding assemblies Between the second driving spacing for being caught in for the driving gear of driving portion of interval, to be passed through and be caught between the first driving by driving gear Away from the second driving spacing, and the motive force for acting on first group of roller or the second group of roller drives molding assembly along the first circumference rail Road movement.

6. cooling and dedusting combined type calcium carbide as described in claim 1 turns round casting equipment, it is characterised in that: the dust excluding hood, Cooling dome is several, and several dust excluding hoods include square shade and cone-shaped hood, and square shade is set to above casting gate, several coolings Cover is cone-shaped hood, and the cone-shaped hood of dust excluding hood and the cone-shaped hood interval of cooling dome are arranged side by side, are arranged at the top of each cone-shaped hood Necking down pipe, the caliber of necking down pipe is less than the caliber of dust removing tube, so as to be formed from the negative-pressure ward power that dust removing tube enters cone-shaped hood micro- Negative pressure.

7. cooling and dedusting combined type calcium carbide as claimed in claim 2 turns round casting equipment, it is characterised in that: also set on bottom plate Inside guiding mechanism is set, inside guiding mechanism is arranged close to the medial end of bottom plate, and inside guiding mechanism includes inside axle bed, interior Side short axle, guide wheel, inside axle bed are fixedly connected with bottom plate, open up vertical through hole on inner shafts seat, so that inside short axle is inserted into, Guide wheel is sheathed in the short axle of inside, and bearing is arranged between guide wheel and inside short axle, so that guide wheel is rotated relative to inside short axle, The medial end of the wheel of the guide wheel facing towards bottom plate is arranged, to cooperate with inside upper strata guide rail or inside lower floor guide rail.

8. cooling and dedusting combined type calcium carbide as claimed in claim 5 turns round casting equipment, it is characterised in that: linkage mechanism also wraps Several pitch chain items are included, connect a chain between the connection toothholder of the pedestal of two adjacent molding assemblies, by adjacent two The transmission connection of a molding assembly, to realize at least two molding assembly synchronization actions.

9. cooling and dedusting combined type calcium carbide as claimed in claim 5 turns round casting equipment, it is characterised in that: also in downlink section Downlink rolling mechanism is arranged in the lower section of molding assembly, and downlink rolling mechanism includes the internal trolley group and setting for being set to mould inside Outer roller group on the outside of mold, internal trolley group and outer roller group include several rollers, and several rollers are respectively arranged at mold Inside side block in lower section and when the side block of outside, cooperated with being rolled with molding assembly.

10. cooling and dedusting combined type calcium carbide as claimed in claim 5 turns round casting equipment, it is characterised in that: described first drives Dynamic component, the second driving assembly have identical structure, and the first driving assembly includes the first driving motor, the first speed reducer, first Gear is driven, the first driving motor is connect by the first speed reducer with the first driving gear, the width of the teeth of the first driving gear Degree is no more than the width of the first driving spacing and the width of the second driving spacing, so that the teeth of the first driving gear are caught in First driving spacing and second driving spacing inside, first driving gear by shaft connection mechanism be fixedly installed on medial cradle, Between outrigger, and the first driving gear is set to one end that uplink section is connected with downlink section, and the second of the second driving assembly Driving motor is fixedly installed between medial cradle, outrigger by shaft connection mechanism, and the second driving gear is set to The other end that row section is connected with downlink section.