CN204621067U - Ladle tilting facility - Google Patents

Abstract

The utility model provides a kind of ladle tilting facility, for realizing the action of tumbling of ladle, described ladle is tubular and comprises two ladle trunnions of radial symmetric setting, described ladle tilting facility comprises: two dump cradles, respectively detachable with two described ladle trunnions be connected with coordinate clamp described ladle and can with described ladle coaxial rotating, each described dump cradle all has a tie-beam, and described in two, dump cradle is connected by tie-beam; Driving mechanism, is connected to drive dump cradle described in two and ladle coaxial rotating with dump cradle described in one of them; Follower, is connected with dump cradle described in another and rotates with this dump cradle auxiliary and ladle.Ladle tilting facility structure of the present utility model is simple and compact, floor space is little, serviceability is reliable and stable.

Description

Ladle tilting facility

Technical field

The utility model relates to a kind of tipple, particularly a kind of ladle tilting facility.

Background technology

At present, the steelshop of domestic and international metallurgy industry major part steel plant, especially the STEELMAKING PRODUCTION line of continuous casting process needs supporting ladle-pot hot-repair device---ladle tilting facility.At present ladle tilting facility mostly be motor reducer transmission, also have fluid pressure type ladle tilting facility., motor reducer drive mechanism occupied ground area and space are all comparatively large, and in a lot of situation, this kind of device all have impact on the universal of its equipment because being subject to the restriction in technology arrangement space; And existing fluid pressure type ladle tilting facility in the design more have employed oil cylinder and add turntable structure, complex structure, cost is high, limits the universal of this equipment equally.

Utility model content

Problem to be solved in the utility model is, provides the ladle tilting facility that a kind of structure is simple and compact, floor space is little, serviceability is reliable and stable.

In order to solve the problem, the utility model provides a kind of ladle tilting facility, for realizing the action of tumbling of ladle, described ladle is tubular and comprises two ladle trunnions of radial symmetric setting, described ladle tilting facility comprises: two dump cradles, respectively detachable with two described ladle trunnions be connected with coordinate clamp described ladle and can with described ladle coaxial rotating, each described dump cradle all has a tie-beam, and described in two, dump cradle is connected by tie-beam; Driving mechanism, is connected to drive dump cradle described in two and ladle coaxial rotating with dump cradle described in one of them; Follower, is connected with dump cradle described in another and rotates with this dump cradle auxiliary and ladle.

As preferably, also comprise the ladle clamping device be located on each described dump cradle, each described ladle clamping device includes mirror image and arranges for coordinating the first clamping element and the second clamping element that clamp ladle trunnion.

As preferably, described first clamping element comprises the clamping cylinder be located on described dump cradle, the first connecting rod hinged with described clamping cylinder, the second connecting rod hinged with described first connecting rod and the third connecting rod hinged with described second connecting rod, and described first connecting rod and third connecting rod are simultaneously hinged with corresponding described dump cradle to make each connecting rod all can rotate towards the direction near ladle trunnion under described clamping cylinder drives.

As preferably, described dump cradle comprises Part I and Part II, described Part I is vertical on described Part II to make described dump cradle be T font, described first clamping element and the second clamping element are located on described Part II and relative described Part I is symmetrical, and described first connecting rod and third connecting rod are hinged with described Part I respectively.

As preferably, the driving oil cylinder that described driving mechanism comprises drive shaft housing, is located at the driving shaft in described drive shaft housing and drives described driving shaft to rotate, one end of described driving shaft is stretched out described drive shaft housing and is fixedly connected with the Part I of dump cradle described in one of them.

As preferably, described follower comprises driven axle box and is located at the driven shaft in described driven axle box, and one end of described driven shaft is stretched out described driven axle box and is fixedly connected with the Part I of dump cradle described in another.

As preferably, described follower also comprises the tight lock part for locking described ladle position, described tight lock part comprises locking cylinder, lock shaft and for coordinating the locking axis hole of grafting with described lock shaft, described locking cylinder is fixed on described driven axle box by mount pad, described lock shaft is connected with described locking cylinder and can moving axially along described driven shaft under the driving of described locking cylinder, and described locking axis hole is located on the Part I of the dump cradle be connected with described follower.

As preferably, the Part I of described dump cradle offers the reserved opening for being connected with ladle trunnion, described tie-beam is L-type, dump cradle described in two two described in tie-beam one end docking, the other end connects with the Part II of corresponding dump cradle respectively.

As preferably, one end that tie-beam described in two connects is respectively equipped with the first connector and the second connector, described first connector comprises and the first base plate that corresponding described tie-beam connects and relative the first riser be located on described first base plate, and described second connector comprises the second base plate of connecting with corresponding described tie-beam and to be located on described second base plate and second riser that can be plugged in described in two between the first riser.

As preferably, also comprise control cabinet, feed flow electric supply installation, for driving mechanism and follower fuel feeding hydraulic system and be located at for the travel switch controlling its tip-over angle on dump cradle described in two, described travel switch is connected with control cabinet and feed flow electric supply installation simultaneously.

The beneficial effect of ladle tilting facility of the present utility model is, structure is simple and compact, floor space is little, cost is low, it can realize tumbling of ladle by means of only two dump cradles be connected and clamping device, driving mechanism and follower, serviceability is reliable and stable, and easy access is safeguarded.

Accompanying drawing explanation

Fig. 1 is the structural representation (in figure, dotted line represents ladle structure) of ladle tilting facility of the present utility model.

Fig. 2 is the top view of Fig. 1.

Fig. 3 is the side view (illustrate only the part-structure of ladle tilting facility in figure) after ladle tilting facility of the present utility model is combined with ladle.

Fig. 4 is the structural representation after the first dump cradle of ladle tilting facility of the present utility model is connected with the second dump cradle.

Fig. 5 is the side view of Fig. 4.

Fig. 6 is the structural representation of the tight lock part of ladle tilting facility of the present utility model.

Fig. 7 is the structural representation of the ladle clamping device of ladle tilting facility of the present utility model.

Fig. 8 is the structural representation of the feed flow electric supply installation of ladle tilting facility of the present utility model.

Fig. 9 is the sectional view of the first connector of ladle tilting facility of the present utility model.

Figure 10 is the sectional view of the second connector of ladle tilting facility of the present utility model.

Reference numeral:

1-ladle; 2-ladle trunnion; 3-first dump cradle; 4-second dump cradle; 5-reserved opening; 6-first tie-beam; 7-second tie-beam; 8-drive shaft housing; 9-driving shaft; 10-first installing hole; The driven axle box of 11-; 12-driven shaft; 14-locking cylinder; 15-first connecting rod; 16-second connecting rod; 17-third connecting rod; 18-locks axis hole; 19-mount pad; 20-clamping cylinder; 21-clamping device installing hole; 22-feed flow electric supply installation; 23-control cabinet; 25-lock shaft; 26-liquid electricity swivel joint; 27-transfer pipeline; 28-Connection Block; 29-first connector; 30 second connectors; 31-first base plate; 32-first riser; 33-second base plate; 34-second riser; 35-Part I; 36-Part II; 37-drives oil cylinder.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in detail.

As shown in Figure 1-Figure 3, the utility model discloses a kind of ladle tilting facility, and for realizing the action of tumbling of ladle 1, this ladle 1 in tubular, and comprises two ladle trunnions 2 of radial symmetric setting.Ladle tilting facility comprises: two dump cradles, driving mechanism and followers.

Two dump cradles, be respectively the first dump cradle 3 and the second dump cradle 4, in the present embodiment, each dump cradle includes Part I 35 and Part II 36, and Part I 35 is vertical on Part II 36 to make dump cradle entirety in T font.Dump cradle in the present embodiment is Split type structure, also can be steel plate integral solder structure.The free end of the Part I 35 of these two dump cradles all offers the reserved opening 5 (this reserved opening can be U-shaped opening and also can be square aperture) for being connected with ladle trunnion 2, be connected with detachable with two ladle trunnions 2 respectively, clamping ladle 1 can be coordinated and can with ladle 1 coaxial rotating.Wherein, the both sides of Part I 35 can be hollow structure, think that ladle clamping device (hereafter will introduce in detail) reserves installing space.In the present embodiment, first dump cradle 3 has the first tie-beam 6, second dump cradle 4 second tie-beam 7, these two tie-beams are all in L-type, one end of first tie-beam 6 is connected with the Part II 36 of the first dump cradle 3, one end of second tie-beam 7 is connected with the Part II 36 of the second dump cradle 4, the other end of the first tie-beam 6 and the other end docking of the second tie-beam 7, namely, two dump cradles are connected by two tie-beams, and two tie-beams formed after connecting can radially surround half ladle 1 " [" type, specifically can with reference to figure 2.Preferably, as shown in Fig. 4, Fig. 9 and Figure 10, first tie-beam 6 one end is provided with the first connector 29, and it comprises and the first base plate 31 and relative the first riser 32 be located on the first base plate 31 that the first tie-beam 6 connects; Second tie-beam 7 is provided with the second connector 30, and it comprises the second base plate 33 of being connected with the second tie-beam 7 and to be located on the second base plate 33 and second riser 34 that can be plugged between two first risers 32.Namely, the connection of two tie-beams is realized by the grafting of the second riser 34 and two first risers 32, and namely the second riser 34 to stretch between two first risers 32 and fits with two first riser 32 corresponding surfaces, or major part laminating, with transmitting torque that can be stable.Adopt this kind of connected mode to connect two tie-beams and compare two tie-beams that are rigidly connected, significantly reduce the manufacture difficulty of two tie-beams, and the easy to connect of two tie-beams is saved time.

Driving mechanism is connected to drive it to rotate with a wherein dump cradle, driving mechanism in the present embodiment is connected with the first dump cradle 3, certain selection is connected with the second dump cradle 4 also can, because the first dump cradle 3 is connected with the second tie-beam 7 by the first tie-beam 6 with the second dump cradle 4, and ladle 1 is connected with two dump cradles, therefore when the first dump cradle 3 rotates, its by the first tie-beam 6 by transmission of torque to the second tie-beam 7, namely by transmission of torque to the second dump cradle 4, and then drive the second dump cradle 4 and ladle 1 together to rotate (i.e. above-mentioned three's coaxial rotating).

Follower is connected with another dump cradle with this dump cradle auxiliary and the stable rotation of ladle 1.Follower in the present embodiment is connected with the second dump cradle 4, certainly also can be connected with the first dump cradle 3.

In the present embodiment, driving mechanism comprises drive shaft housing 8, be located in drive shaft housing 8 and one end driving shaft 9 of stretching out drive shaft housing 8 and the driving oil cylinder 37 that drives driving shaft 9 to rotate.The effect of this drive shaft housing 8 supports rigid drive shaft 9, because two dump cradles are separate, if do not arrange drive shaft housing 8, so the support fixing point of driving shaft 9 then only has driving oil cylinder 37 1 place, the stable of driving shaft 9 can not be ensured, therefore the present embodiment is provided with drive shaft housing 8 especially, in order to support rigid drive shaft 9.Certainly, if two dump cradles are one overall, namely between two tie-beams for being fixedly connected with time, just drive shaft housing 8 can not be set.Because now driven shaft 12 (hereafter will introduce in detail) and driving shaft 9 can be considered that one is overall, because driven shaft 12 has the support of driven axle box 11 (hereafter will introduce in detail), and driving shaft 9 have drive oil cylinder 37 support, namely an axle axially has two strong points, driving shaft 9 and the stability of driven shaft 12 can be ensured completely, therefore just drive shaft housing 8 can not be set.Further, this driving oil cylinder is preferably rack-and-pinion oscillating oil cylinder, it is located on ground by cylinder pedestal, first dump cradle 3 is provided with the first installing hole 10 for being fixedly connected with driving shaft 9, specifically can be as shown in Figure 5, driving shaft 9 is positioned at one end outside drive shaft housing 8 and the first installing hole 10 grafting, and namely the first dump cradle 3 is by driving shaft 9 and the grafting realization of the first installing hole 10 and the connection of driving shaft 9.

Follower comprises driven axle box 11 and is located at the driven shaft 12 that driven axle box 11 is stretched out in driven axle box 11 and one end, and the driven shaft 12 in the present embodiment is hollow structure, is connected for feed flow electric supply installation 22 (hereafter will introduce in detail).Wherein driven axle box 11 is connected by bearing with between driven shaft 12, and this bearing preferably has the self-aligning roller bearing of automatic centering function.Second dump cradle 4 is provided with the second installing hole be fixedly connected with driven shaft 12, driven shaft 12 is positioned at one end outside driven axle box 11 and the second installing hole grafting, and namely the second dump cradle 4 is by driven shaft 12 and the grafting realization of the second installing hole and the connection of driven shaft 12.(owing to need ensure ladle 1 spin stabilization, driving shaft 9 must be collinear relationship with the axis of driven shaft 12, and with the axis perpendicular of ladle 1)

Further, as shown in figures 1 to 6, in order to ladle 1 can being made when turning to 0 °, 90 ° and 180 ° or other angle, this angle position can being remained on motionless, in the follower of the present embodiment, being also provided with the tight lock part for locking ladle 1 position.This tight lock part comprises locking cylinder 14 (also can be locking cylinder), lock shaft 25 and for coordinating the locking axis hole 18 of grafting with lock shaft 25.Wherein, locking cylinder 14 is fixed on the top (or side) of driven axle box 11 by mount pad 19, with better fixing and locking oil cylinder 14, can provide more stable driving force.Lock shaft 25 be connected with locking cylinder 14 and can under the driving of locking cylinder 14 along driven shaft 12 move axially with near or away from ladle 1, locking axis hole 18 be located on the Part I 35 of the second dump cradle 4.This locking axis hole 18 can be multiple, and multiple locking axis hole 18 carries out circumference with the tie point of driven shaft 12 and the second dump cradle 4 for the center of circle and arranges, and concrete setting position can be determined according to orientation angle needed for ladle 1.When ladle 1 turns to the angle of required location, drive locking cylinder 14, lock shaft 25 is made to move until stretch in corresponding locking axis hole 18 to ladle 1 direction, because lock shaft 25 is parallel relation with driven shaft 12, have spacing again between the two, this makes the torque driving ladle 1 to rotate at this moment significantly improve, and driving shaft 9 can not provide this torque, therefore ladle 1 being just fixed on this angle position and can not being rotated further of Absorbable organic halogens, and then reach the effect of locking ladle 1 position.

Further, as shown in Figure 1 and Figure 7, because ladle 1 volume and weight are all comparatively large, if for ensureing the stability that ladle 1 rotates, then need to ensure that ladle 1 is very firm with the connection of each dump cradle, avoid ladle 1 to depart from each dump cradle when rotated.Therefore, the ladle tilting facility in the present embodiment also comprises two ladle clamping devices be located at respectively on the first dump cradle 3 and the second dump cradle 4.Two ladle clamping devices include mirror image setting for the first clamping element and the second clamping element that clamp ladle trunnion 2.Particularly, each first clamping element and the second clamping element to be located on the Part II 36 of two dump cradles respectively, and the Part I 35 of relative two dump cradles is symmetrical.This first clamping element comprises the clamping cylinder 20 (also can be clamping cylinder) on the Part II 36 being located at the first dump cradle 3 or the second dump cradle 4, the first connecting rod 15 hinged with clamping cylinder 20, the second connecting rod 16 hinged with first connecting rod 15 and hinged and for third connecting rod 17 direct acting with ladle trunnion 2 with second connecting rod 16, on the Part I 35 of two dump cradles, equal correspondence is provided with two stack clamping device installing holes, and all comprise two clamping device installing holes 21 in every stack clamping device installing hole, wherein, to be positioned on same dump cradle and to be the line of two clamping device installing holes 21 of same group and the axes normal of ladle trunnion 2, third connecting rod 17 in two clamping elements and simultaneously corresponding with the position respectively clamping device installing hole 21 of first connecting rod 15 hinged, the turned position of each connecting rod of same clamping element is arranged in restriction, make each connecting rod clamping cylinder 20 driving next rotate near the direction of ladle trunnion 2 in the same way, final guarantee two third connecting rods 17 symmetrically arranged relative to ladle trunnion 2 can apply symmetrical radial load to this ladle trunnion 2, and then firmly clamp ladle trunnion 2.

Conveniently operate ladle tilting facility of the present utility model efficiently, ladle tilting facility of the present utility model also comprise control cabinet 23, feed flow electric supply installation 22, for driving mechanism, follower and ladle clamping device fuel feeding hydraulic system and be located at for controlling the travel switch (not shown) of its tip-over angle on the first dump cradle 3 and the second dump cradle 4, each travel switch is electrically connected with control cabinet 23 and feed flow electric supply installation 22 simultaneously.In the present embodiment, also comprise the travel switch of other function, be specially: be used to indicate in the positioning stroke switch of ladle 1 angle orientation, clamping device the locking travel switch being used to indicate clamping travel switch that whether each connecting rod put in place and the lock shaft 25 being used to indicate tight lock part and locking cylinder 14 position.A series of control element and power switch, emergency stop switch, angle Selection switch (as 180 ° of switches of tumbling), locking cylinder extension and contraction control switch, clamping cylinder extension and contraction control switch and reversal switch of tumbling is comprised in above-mentioned control cabinet 23.Above-mentioned hydraulic system comprises Hydraulic Station and hydraulic valve bank, and Hydraulic Station comprises medium fuel tank and a series of Hydraulic Elements for ensureing hydraulic medium cleannes and temperature.Hydraulic valve bank comprises the hydraulic valve block that hydraulic system normal table is run.Hydraulic system in the present embodiment is connected by pipeline with the locking cylinder 14 in the driving oil cylinder in driving mechanism, the clamping cylinder 20 in ladle clamping device and follower.As shown in Figure 8, feed flow electric supply installation 22 by liquid electricity swivel joint 26, form for the fixer electricity Connection Block 28 of swivel joint 26 and many transfer pipelines, the structure that liquid electricity swivel joint 26 can rotate relatively for Internal and external cycle, transmit to realize liquid electricity simultaneously.The inner ring of this liquid electricity swivel joint 26 is connected with one end that transfer pipeline 27 and driven shaft 12 deviate from ladle 1, and this transfer pipeline 27 is arranged on each dump cradle, and it comprises multiple pipe joint and steel pipe, is connected for each clamping cylinder 20.Liquid electricity swivel joint 26 outer ring is located at outside driven axle box 11 by Connection Block.During work, the outer ring of liquid electricity swivel joint 26 is fixed, and inner ring and driven shaft 12 together rotate.If when above-mentioned locking cylinder 14 and clamping cylinder 20 adopt cylinder respectively, need liquid electricity swivel joint be changed into pneumoelectric swivel joint, and increase the control element of Pneumatic control cabinet, pneumatic operated valve and pneumatic operated valve.Pneumatic source of the gas can adopt compressed air in workshop or other dry inert gas.

The course of work of ladle tilting facility of the present utility model is as follows:

Ladle tilting facility initial state of the present utility model is each dump cradle when being erectility, third connecting rod 17 in ladle clamping device is in open mode, namely the piston rod of clamping cylinder 20 is in retracted mode, make two third connecting rods 17 be in mutually away from state.Ladle 1 is placed on two dump cradles by traveling crane, namely two ladle trunnions 2 drop in the reserved opening 5 of corresponding dump cradle respectively, by the clamping cylinder extension and contraction control switch on control cabinet 23, primer fluid pressing system, hydraulic medium transfers in the clamping cylinder 20 of ladle clamping device by power supply liquid feed device 22, make the piston rod of each clamping cylinder 20 carry out extend action simultaneously, to promote each link rotatable, two corresponding third connecting rods 17 are contacted with ladle trunnion 2 until clamp ladle trunnion 2, now clamp travel switch and send signal, this signal feeds back to control cabinet 23 by feed flow electric supply installation 22, clamping cylinder 20 is indicated to stop action to make control cabinet 23, by 180 ° of switches of tumbling, hydraulic system driven wheel tooth bar oscillating oil cylinder swings, the translate linear motion of oil cylinder is made to be the rotary motion of driving shaft 9, and by driving shaft 9 by transmission of torque to the first dump cradle 3, and then the first dump cradle 3 is rotated around the center line of driving shaft 9 together with ladle 1 and the second dump cradle 4, until when rotating 180 °, 180 ° of switches of tumbling send signal, rotational automatic stopping, now carrying out residue and topples over operation and substantially complete, by reversal switch of tumbling, control cabinet 23 sends signal, the backswing of rack-and-pinion oscillating oil cylinder, and treat that each dump cradle reversely rotates to 90 ° of positions together with ladle 1, reversal switch of tumbling sends signal, stops the rotation, by locking cylinder extension and contraction control switch, control cabinet 23 sends signal to hydraulic system, the piston rod of locking cylinder 14 stretches out, promote lock shaft 25 to move to ladle 1 direction, when lock shaft 25 stretches in the locking axis hole 18 on the second dump cradle 4, locking puts in place, locking travel switch sends signal to control cabinet 23, make control cabinet 23 control locking cylinder 14 and stop action, now each dump cradle rests on 90 ° of stations all safely together with ladle 1, reserves enough time and carries out the operations such as mouth of a river inspection, replacing, repairing cleaning for operator.After operator fulfils assignment, make its piston rod drive lock shaft 25 to retract by locking cylinder extension and contraction control switch, namely lock shaft 25 and the second dump cradle 4 depart from; By invert button of tumbling, control cabinet 23 sends signal to hydraulic system, rack-and-pinion oscillating oil cylinder is rotated to drive driving shaft 9 and each dump cradle to be inverted to 0 ° of position together with ladle 1, namely makes ladle 1 return back to original position, to complete a work period.

Above embodiment is only exemplary embodiment of the present utility model, is not used in restriction the utility model, and protection domain of the present utility model is defined by the claims.Those skilled in the art can in essence of the present utility model and protection domain, and make various amendment or equivalent replacement to the utility model, this amendment or equivalent replacement also should be considered as dropping in protection domain of the present utility model.

Claims (10)

1. a ladle tilting facility, for realizing the action of tumbling of ladle, described ladle is tubular and comprises two ladle trunnions of radial symmetric setting, and it is characterized in that, described ladle tilting facility comprises:

Two dump cradles, respectively detachable with two described ladle trunnions be connected with coordinate clamp described ladle and can with described ladle coaxial rotating, each described dump cradle all has a tie-beam, and described in two, dump cradle is connected by tie-beam;

Driving mechanism, is connected to drive dump cradle described in two and ladle coaxial rotating with dump cradle described in one of them;

Follower, is connected with dump cradle described in another and rotates with this dump cradle auxiliary and ladle.

2. ladle tilting facility according to claim 1, it is characterized in that, also comprise the ladle clamping device be located on each described dump cradle, each described ladle clamping device includes mirror image and arranges for coordinating the first clamping element and the second clamping element that clamp ladle trunnion.

3. ladle tilting facility according to claim 2, it is characterized in that, described first clamping element comprises the clamping cylinder be located on described dump cradle, the first connecting rod hinged with described clamping cylinder, the second connecting rod hinged with described first connecting rod and the third connecting rod hinged with described second connecting rod, and described first connecting rod and third connecting rod are simultaneously hinged with corresponding described dump cradle to make each connecting rod all can rotate towards the direction near ladle trunnion under described clamping cylinder drives.

4. ladle tilting facility according to claim 3, it is characterized in that, described dump cradle comprises Part I and Part II, described Part I is vertical on described Part II to make described dump cradle be T font, described first clamping element and the second clamping element are located on described Part II and relative described Part I is symmetrical, and described first connecting rod and third connecting rod are hinged with described Part I respectively.

5. ladle tilting facility according to claim 4, it is characterized in that, the driving oil cylinder that described driving mechanism comprises drive shaft housing, is located at the driving shaft in described drive shaft housing and drives described driving shaft to rotate, one end of described driving shaft is stretched out described drive shaft housing and is fixedly connected with the Part I of dump cradle described in one of them.

6. ladle tilting facility according to claim 5, it is characterized in that, described follower comprises driven axle box and is located at the driven shaft in described driven axle box, and one end of described driven shaft is stretched out described driven axle box and is fixedly connected with the Part I of dump cradle described in another.

7. ladle tilting facility according to claim 6, it is characterized in that, described follower also comprises the tight lock part for locking described ladle position, described tight lock part comprises locking cylinder, lock shaft and for coordinating the locking axis hole of grafting with described lock shaft, described locking cylinder is fixed on described driven axle box by mount pad, described lock shaft is connected with described locking cylinder and can moving axially along described driven shaft under the driving of described locking cylinder, and described locking axis hole is located on the Part I of the dump cradle be connected with described follower.

8. ladle tilting facility according to claim 4, it is characterized in that, the Part I of described dump cradle offers the reserved opening for being connected with ladle trunnion, described tie-beam is L-type, dump cradle described in two two described in tie-beam one end docking, the other end connects with the Part II of corresponding dump cradle respectively.

9. ladle tilting facility according to claim 8, it is characterized in that, one end that tie-beam described in two connects is respectively equipped with the first connector and the second connector, described first connector comprises and the first base plate that corresponding described tie-beam connects and relative the first riser be located on described first base plate, and described second connector comprises the second base plate of connecting with corresponding described tie-beam and to be located on described second base plate and second riser that can be plugged in described in two between the first riser.

10. ladle tilting facility according to claim 1, it is characterized in that, also comprise control cabinet, feed flow electric supply installation, for driving mechanism and follower fuel feeding hydraulic system and be located at for the travel switch controlling its tip-over angle on dump cradle described in two, described travel switch is connected with control cabinet and feed flow electric supply installation simultaneously.