CN204934594U - A kind of ferrosilicon water hydraulic turns over bag running gate system - Google Patents

Abstract

The utility model discloses a kind of ferrosilicon water hydraulic and turn over bag running gate system, comprise the silicon ladle for splendid attire ferrosilicon water, with the ingot mould for receiving the ferrosilicon water in silicon ladle, also comprise for landing silicon ladle and carry described silicon ladle upset switching mechanism, and be arranged at the ingot mould car group of walking on predetermined rail and along this planned orbit, described ingot mould car group is provided with multiple ingot mould; Described ingot mould car group is according to external control instruction along planned orbit walking, and when this ingot mould car group runs to precalculated position, described switching mechanism receives external command and drives silicon ladle to overturn that ferrosilicon water is injected ingot mould.

Description

A kind of ferrosilicon water hydraulic turns over bag running gate system

Technical field

The utility model relates to a kind of ferrosilicon smelting system, particularly relates to a kind of ferrosilicon water hydraulic and turns over bag running gate system.

Background technology

In the prior art, the cast of ferrosilicon water is achieved in that

First ferrosilicon water is injected silicon ladle, then winch to above ingot mould with driving by the silicon ladle filling ferrosilicon water, afterwards, ferrosilicon water falls under gravity into ingot mould, cooling, shaping.

In said process, can there is splash loss in ferrosilicon water, meanwhile, advance in the air, have great potential safety hazard because ferrosilicon water wraps in when falling into ingot mould.

In addition, after ferrosilicon water injects ingot mould and cools, be with crow bar, ferrosilicon water ingot is levered up and takes out to manually.

Because ferrosilicon water ingot density is high, weight large, gets merely ingot to manually and bring high labour intensity by workman, will production efficiency be affected in the course of time; Meanwhile, get ingot to manually, also very easily security incident occurs, there is many potential safety hazards.

Utility model content

The utility model, for the drawback of prior art, provides a kind of ferrosilicon water hydraulic to turn over bag running gate system.

Ferrosilicon water hydraulic described in the utility model turns over bag running gate system, comprise the silicon ladle for splendid attire ferrosilicon water, with the ingot mould for receiving the ferrosilicon water in silicon ladle, also comprise for landing silicon ladle and carry described silicon ladle upset switching mechanism, and be arranged at the ingot mould car group of walking on predetermined rail and along this planned orbit, described ingot mould car group is provided with multiple ingot mould;

Described ingot mould car group is according to external control instruction along planned orbit walking, and when this ingot mould car group runs to precalculated position, described switching mechanism receives external command and drives silicon ladle to overturn that ferrosilicon water is injected ingot mould.

Ferrosilicon water hydraulic described in the utility model turns in bag running gate system, and described switching mechanism comprises the bag dish for placing silicon ladle, also comprises and is fixedly installed on fixed mount on ground and backform cylinder group;

Wherein, the backform cylinder seat that described backform cylinder group comprises backform jar support and supported by this backform jar support, is provided with telescopic hydraulic mandril in described backform cylinder seat;

The bending dish arm that described bag dish comprises the chassis for placing silicon ladle and upwards extended by described chassis, the end points of described bending dish arm and described fixed mount pivot joint, the middle part of described bending dish arm is provided with the connecting portion with described hydraulic mandril pivot joint;

When described hydraulic mandril stretches out in described backform cylinder seat, bending dish arm described in this hydraulic mandril pushing tow also drives chassis to rotate around the end points of this bending dish arm, so that the ferrosilicon water in described silicon ladle is injected ingot mould;

When described hydraulic mandril bounces back in described backform cylinder seat, this hydraulic mandril drives described bending dish arm and chassis to rotate around the end points of this bending dish arm, to make silicon ladle homing.

Ferrosilicon water hydraulic described in the utility model turns in bag running gate system, and described bending dish arm comprises the oblique support arm that extends obliquely from described chassis and the end flat flat support arm stretched out forward by described oblique support arm;

The end points of described flat support arm and described fixed mount pivot joint;

Described connecting portion is in the intersection of described oblique support arm and described flat support arm.

Ferrosilicon water hydraulic described in the utility model turns in bag running gate system, and described bending dish arm comprises and is divided into described chassis arranged on left and right sides left folding kidney basin arm and right folding kidney basin arm;

Described backform cylinder seat comprises the left backform cylinder seat and right backform cylinder seat that are divided into described backform jar support arranged on left and right sides;

The end of the hydraulic mandril in described left backform cylinder seat and the connecting portion pivot joint of described left folding kidney basin arm, the end of the hydraulic mandril in described right backform cylinder seat and the connecting portion pivot joint of described right folding kidney basin arm.

Ferrosilicon water hydraulic described in the utility model turns in bag running gate system, protrudes out to be provided with to establish for card the bracing frame supporting silicon ladle in the front end on described chassis; The locking bolt portion for locking silicon ladle is provided with in the rear end on described chassis.

Ferrosilicon water hydraulic described in the utility model turns in bag running gate system, and ingot mould car group is made up of multiple ingot mould car;

Described ingot mould car comprises the ingot mould car body walked on planned orbit, described ingot mould car body is drawn by haulage gear and moves ahead or retreat, described ingot mould car body being also provided with the deck for placing ingot mould, protruding out at the sidepiece of described ingot mould car body and being provided with location induction pieces;

Also comprise location sensing cell, described location sensing cell and described haulage gear are electrically connected;

When described location sensing cell senses location induction pieces, described location sensing cell sends control instruction out of service to described haulage gear, and namely described haulage gear stops drawing described ingot mould car body according to this control instruction out of service and move ahead or retreat.

Ferrosilicon water hydraulic described in the utility model turns in bag running gate system, and described location induction pieces is horizontal location bar;

Protrude out at the sidepiece of described ingot mould car body and be provided with two blocks of parallel wing plates, described horizontal location bar runs through described two blocks of wing plates and is fixedly connected with two blocks of wing plates.

Ferrosilicon water hydraulic described in the utility model turns in bag running gate system, and described location sensing cell comprises infrared monitoring probe, for fixing probe fixing support and the control circuit of correspondence of this infrared monitoring probe;

When described location induction pieces moves to infrared monitoring probe top, described control circuit is triggered and sends control instruction out of service to described haulage gear.

Ferrosilicon water hydraulic described in the utility model turns in bag running gate system, and the side of described ingot mould car body is provided with for the articulated section with described ingot mould pivot joint, has backform flip piece in the couple positioned opposite of described articulated section;

Described backform flip piece is by described ingot mould jack-up and rotate around described articulated section, digs to make the ferrosilicon water ingot in described ingot mould and drops out in described ingot mould.

Ferrosilicon water hydraulic described in the utility model turns in bag running gate system, and described backform flip piece comprises the hydraulic pressure backform cylinder be arranged on ground, in described hydraulic pressure backform cylinder, be provided with telescopic hydraulic mandril;

When described hydraulic mandril stretches out in described hydraulic pressure backform cylinder, described in this hydraulic mandril pushing tow, ingot mould rotates around described articulated section, digs to make the ferrosilicon water ingot in described ingot mould and drops out in described ingot mould;

When described hydraulic mandril bounces back in described hydraulic pressure backform cylinder, this hydraulic mandril carries described ingot mould and rotates around described articulated section, replys be seated on described ingot mould car body to make described ingot mould;

Also comprise ECU;

Described ECU comprises remote control end and actuating station, and described actuating station is connected with described hydraulic pressure backform cylinder;

Described actuating station receives the control instruction of described remote control end and the hydraulic mandril controlled in described hydraulic pressure backform cylinder stretches out or bounces back.

Ferrosilicon water hydraulic described in the utility model turns in bag running gate system, and the motion of described hydraulic mandril controls by wireless mode, and therefore, operating personnel may stand in apart from farther home, thus the generation of Accident prevention.Further, this kind of pouring type is that ferrosilicon water is slowly toppled over injection ingot mould, effectively prevents the generation of splash.Further, described ingot mould can overturn when departing from manpower, makes the ferrosilicon water ingot in ingot mould be dug and drop out, greatly reduces the labour intensity of workman, decrease the generation of accident.

Accompanying drawing explanation

Fig. 1 is the structural representation that ferrosilicon water hydraulic described in the utility model turns over the switching mechanism in bag running gate system;

Fig. 2 is another structural representation that ferrosilicon water hydraulic described in the utility model turns over the switching mechanism in bag running gate system;

Fig. 3 is the structural representation that ferrosilicon water hydraulic described in the utility model turns over the ingot mould car in bag running gate system;

Fig. 4 is another structural representation that ferrosilicon water hydraulic described in the utility model turns over the ingot mould car in bag running gate system.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail, can implements according to this with reference to description word to make those skilled in the art.

Ferrosilicon water hydraulic described in the utility model turns over bag running gate system, comprise the silicon ladle 1 for splendid attire ferrosilicon water, with the ingot mould 84 for receiving the ferrosilicon water in silicon ladle 1, also comprise for landing silicon ladle 1 and carry described silicon ladle 1 upset switching mechanism, and be arranged at the ingot mould car group of walking on predetermined rail 81 and along this planned orbit 81, described ingot mould car group is provided with multiple ingot mould 84.Described ingot mould car group is walked along planned orbit 81 according to external control instruction, and when this ingot mould car group runs to precalculated position, described switching mechanism receives external command and drives silicon ladle 1 to overturn that ferrosilicon water is injected ingot mould 84.

Specifically, as shown in Figure 1 and Figure 2, ferrosilicon water hydraulic described in the utility model turns over the switching mechanism in bag running gate system, comprises the bag dish 2 for placing silicon ladle 1, also comprises and is fixedly installed on fixed mount 3 on ground and backform cylinder group 5.Described bag dish 2 is for placing the silicon ladle 1 filling with ferrosilicon water, and this bag dish 2 after the crossing of mineral hot furnace receives ferrosilicon water, then is towed to described switching mechanism place by track.

In the utility model, the backform cylinder seat 51 that described backform cylinder group 5 specifically comprises backform jar support 53 and supported by this backform jar support 53, is provided with telescopic hydraulic mandril 52 in described backform cylinder seat 51.

The bending dish arm 4 that 2, described bag dish comprises the chassis 23 for placing silicon ladle 1 and upwards extended by described chassis 23, end points 41 and the pivot joint of described fixed mount 3 of described bending dish arm 4, the middle part of described bending dish arm 4 is provided with the connecting portion 42 with the pivot joint of described hydraulic mandril 52.

When described hydraulic mandril 52 stretches out in described backform cylinder seat 51, bending dish arm 4 described in this hydraulic mandril 52 pushing tow also drives chassis 23 to rotate around the end points 41 of this bending dish arm 4, to be injected in ingot mould 84 by the ferrosilicon water in described silicon ladle 1.When described hydraulic mandril 52 bounces back in described backform cylinder seat 51, this hydraulic mandril 52 drives described bending dish arm 4 and chassis 23 to rotate around the end points 41 of this bending dish arm 4, to make silicon ladle 1 homing.

The motion of above-mentioned hydraulic mandril 52 controls by wireless mode, and now, operating personnel may stand in apart from farther home, thus the generation of Accident prevention.Further, this kind of pouring type is that ferrosilicon water is injected ingot mould slowly, effectively prevents the generation of splash.

In the utility model, described bending dish arm 4 comprises the oblique support arm 43 that extends obliquely from described chassis 23 and the end flat flat support arm 44 stretched out forward by described oblique support arm 43.Wherein, the end points 41 of described flat support arm 44 and the pivot joint of described fixed mount 3; Described connecting portion 42 is positioned at the intersection of described oblique support arm 43 and described flat support arm 44.As shown in Figure 2, described bending dish arm 4 specifically can comprise and is divided into described chassis 23 arranged on left and right sides left folding kidney basin arm 411 and right folding kidney basin arm 412.Described backform cylinder seat 51 specifically comprises the left backform cylinder seat and right backform cylinder seat (only indicating the left backform cylinder seat being positioned at left side in figure) that are divided into described backform jar support 53 arranged on left and right sides.Wherein, the end of the hydraulic mandril in described left backform cylinder seat and the connecting portion pivot joint of described left folding kidney basin arm 411, the end of the hydraulic mandril in described right backform cylinder seat and the connecting portion pivot joint of described right folding kidney basin arm 412.

Meet accident in order to avoid the silicon ladle 1 be positioned on bag dish 2 and fall, also protruding out in the front end on described chassis 23 to be provided with and establish for card the bracing frame 22 supporting silicon ladle 1; The locking bolt portion 21 for locking silicon ladle 1 is provided with in the rear end on described chassis 23.By former and later two orientation, firm for silicon ladle 1 is fixed on chassis 23.

As shown in Figure 3, ferrosilicon water hydraulic described in the utility model turns in bag running gate system, described ingot mould car group is made up of multiple ingot mould car, described ingot mould car comprises the ingot mould car body 83 walked on planned orbit 81, described ingot mould car body 83 is drawn by haulage gear 82 and moves ahead or retreat, and described ingot mould car body 83 is also provided with the deck 831 for placing ingot mould 84.

When walking on planned orbit 81 in order to ensure ingot mould car group, precalculated position can be stayed in, so that ingot mould thereon 84 can receive the ferrosilicon water that silicon ladle 1 is poured into a mould, in the utility model, also protrude out at the sidepiece of described ingot mould car body 83 and be provided with location induction pieces 832.

In addition, also comprise the location sensing cell 86 with described location induction pieces 832 corresponding matching, described location sensing cell 86 and described haulage gear 82 are electrically connected.When described location sensing cell 86 senses location induction pieces 832, described location sensing cell 86 sends control instruction out of service to described haulage gear 82, and namely described haulage gear 82 stops drawing described ingot mould car body 83 according to this control instruction out of service and move ahead or retreat.In the utility model, described haulage gear 82 can adopt long-range or on-site manual two kinds of modes to control, and when haulage gear 82 receives control instruction out of service, namely can stop drawing described ingot mould car body 83 and moves ahead or retreat; And when it receives long-range or on-the-spot Non-follow control instruction again, namely again draw described ingot mould car body 83 and move ahead or retreat.It should be noted that, because ingot mould car body 83 is among motion, and to locate sensing cell 86 be fixed, therefore, in order to ensure the reliable stop motion of ingot mould car body 83 energy when reaching precalculated position, need location sensing cell 86 to be arranged at this preposition place, so that in this pre-position, the cast of ferrosilicon water can be completed to the ingot mould car body 3 of stop motion.

Specifically, in the utility model, described location induction pieces 832 can be horizontal location bar.Now, protrude out at the sidepiece of described ingot mould car body 83 and be provided with two blocks of parallel wing plates 8331,8332, described horizontal location bar runs through described two blocks of wing plates 8331,8332 and is fixedly connected with two blocks of wing plates 8331,8332.Further, described location sensing cell 86 comprises infrared monitoring probe 861, for fixing this infrared monitoring probe probe fixing support 862 of 861 and the control circuit of correspondence.Described control circuit can be arranged on probe fixing support 862 place, also can be arranged among haulage gear 82, and now, control circuit and infrared monitoring need be popped one's head in 861 is connected by cable 863.When described location induction pieces 832 move to infrared monitoring probe 861 above time, described infrared monitoring probe 861 is because being stopped thus trigger control circuit, and be able to send control instruction out of service to described haulage gear 82, namely described haulage gear 82 stops drawing described ingot mould car body 83 according to this control instruction out of service and moves ahead or retreat.

Described ingot mould car is after reaching precalculated position, and namely described haulage gear 82 can stop traction according to the control instruction of location sensing cell 86, thus makes ingot mould car body 83 complete the cast of ferrosilicon water in this pre-position.After completing the cast of ferrosilicon water, then control ingot mould car body 83 and move ahead, make next ingot mould car body 83 be in precalculated position and again complete the cast of ferrosilicon water, by that analogy, until the whole ingot mould car bodies 83 in ingot mould car group all complete the cast of ferrosilicon water.Move compared to ferrosilicon water contracted affreightment of the prior art and complete the mode of ferrosilicon water cast, ingot mould car group described in the utility model makes ingot mould car body 83 move and silicon ladle geo-stationary, make silicon molten steel pouring course safer, more can reduce the generation of splash accident.

As shown in Figure 4, ferrosilicon water hydraulic described in the utility model turns in bag running gate system, for alleviating labor strength, reduce the harmfulness in production process, also be provided with for the articulated section 941 with the pivot joint of described ingot mould 84 in the side of described ingot mould car body 83, have backform flip piece 95 in the couple positioned opposite of described articulated section 941.Described backform flip piece 95 is by described ingot mould 84 jack-up and rotate around described articulated section 941, digs to make the ferrosilicon water ingot in described ingot mould 84 and drops out in described ingot mould 84.By means of the active force of backform flip piece 95, described ingot mould 84 is able to overturn when departing from manpower, makes the ferrosilicon water ingot in ingot mould 84 be dug and drop out, greatly reduces the labour intensity of workman, decrease the generation of accident.

Specifically, described backform flip piece 95 specifically comprises the hydraulic pressure backform cylinder 951 be arranged on ground 91, in described hydraulic pressure backform cylinder 951, be provided with telescopic hydraulic mandril 952.When described hydraulic mandril 952 stretches out in described hydraulic pressure backform cylinder 951, described in this hydraulic mandril 952 pushing tow, ingot mould 84 rotates around described articulated section 941, digs to make the ferrosilicon water ingot in described ingot mould 84 and drops out in described ingot mould 84; And when described hydraulic mandril 952 bounces back in described hydraulic pressure backform cylinder 951, this hydraulic mandril 952 carries described ingot mould 84 around described articulated section 941 and rotates, reply to make described ingot mould 84 and be seated on described ingot mould car body 83.It should be noted that, described ingot mould 84 is around the rotation (no matter dig or fall after rise) of described articulated section 941, and it is all complete under the effect of hydraulic mandril 952, and that is, hydraulic mandril 952 contacts with described ingot mould 84 all the time.In actual applications, the middle part of the opposite side of described articulated section 941 can be provided with jack-up pole 942, the end of described hydraulic mandril 952 is provided with U-shaped bayonet socket (not shown); Jack-up pole 942 is stated in described U-shaped bayonet socket clamping residence, thus makes hydraulic mandril 952 be unlikely to depart from jack-up pole 942, to guarantee that ingot mould 84 can by firm jack-up or release.

In the utility model, stretch out in hydraulic mandril 952 self-hydraulic backform cylinder 951 or bounce back, can realize especially by ECU.Namely the utility model also comprises ECU; Described ECU can comprise remote control end and actuating station, and described actuating station is connected with described hydraulic pressure backform cylinder 951; Described actuating station receives the control instruction of described remote control end and the hydraulic mandril 952 controlled in described hydraulic pressure backform cylinder 951 stretches out or bounces back.

Although embodiment of the present utility model is open as above, but it is not restricted to listed in description and embodiment utilization, it can be applied to various applicable field of the present utility model completely, for those skilled in the art, can easily realize other amendment, therefore do not deviating under the universal that claim and equivalency range limit, the utility model is not limited to specific details and illustrates here and the legend described.

Claims (10)

1. a ferrosilicon water hydraulic turns over bag running gate system, comprise the silicon ladle for splendid attire ferrosilicon water, with the ingot mould for receiving the ferrosilicon water in silicon ladle, it is characterized in that, also comprise for landing silicon ladle and carry described silicon ladle upset switching mechanism, and be arranged at the ingot mould car group of walking on predetermined rail and along this planned orbit, described ingot mould car group is provided with multiple ingot mould;

Described ingot mould car group is according to external control instruction along planned orbit walking, and when this ingot mould car group runs to precalculated position, described switching mechanism receives external command and drives silicon ladle to overturn that ferrosilicon water is injected ingot mould.

2. ferrosilicon water hydraulic as claimed in claim 1 turns over bag running gate system, and it is characterized in that, described switching mechanism comprises the bag dish for placing silicon ladle, also comprises and is fixedly installed on fixed mount on ground and backform cylinder group;

Wherein, the backform cylinder seat that described backform cylinder group comprises backform jar support and supported by this backform jar support, is provided with telescopic hydraulic mandril in described backform cylinder seat;

The bending dish arm that described bag dish comprises the chassis for placing silicon ladle and upwards extended by described chassis, the end points of described bending dish arm and described fixed mount pivot joint, the middle part of described bending dish arm is provided with the connecting portion with described hydraulic mandril pivot joint;

When described hydraulic mandril stretches out in described backform cylinder seat, bending dish arm described in this hydraulic mandril pushing tow also drives chassis to rotate around the end points of this bending dish arm, so that the ferrosilicon water in described silicon ladle is injected ingot mould;

When described hydraulic mandril bounces back in described backform cylinder seat, this hydraulic mandril drives described bending dish arm and chassis to rotate around the end points of this bending dish arm, to make silicon ladle homing.

3. ferrosilicon water hydraulic as claimed in claim 2 turns over bag running gate system, it is characterized in that, described bending dish arm comprises the oblique support arm that extends obliquely from described chassis and the end flat flat support arm stretched out forward by described oblique support arm;

The end points of described flat support arm and described fixed mount pivot joint;

Described connecting portion is in the intersection of described oblique support arm and described flat support arm.

4. ferrosilicon water hydraulic as claimed in claim 3 turns over bag running gate system, it is characterized in that, described bending dish arm comprises and is divided into described chassis arranged on left and right sides left folding kidney basin arm and right folding kidney basin arm;

Described backform cylinder seat comprises the left backform cylinder seat and right backform cylinder seat that are divided into described backform jar support arranged on left and right sides;

The end of the hydraulic mandril in described left backform cylinder seat and the connecting portion pivot joint of described left folding kidney basin arm, the end of the hydraulic mandril in described right backform cylinder seat and the connecting portion pivot joint of described right folding kidney basin arm.

5. ferrosilicon water hydraulic as claimed in claim 4 turns over bag running gate system, it is characterized in that, protrudes out to be provided with to establish for card the bracing frame supporting silicon ladle in the front end on described chassis; The locking bolt portion for locking silicon ladle is provided with in the rear end on described chassis.

6. ferrosilicon water hydraulic as claimed in claim 1 turns over bag running gate system, and it is characterized in that, ingot mould car group is made up of multiple ingot mould car;

Described ingot mould car comprises the ingot mould car body walked on planned orbit, described ingot mould car body is drawn by haulage gear and moves ahead or retreat, described ingot mould car body being also provided with the deck for placing ingot mould, protruding out at the sidepiece of described ingot mould car body and being provided with location induction pieces;

Also comprise location sensing cell, described location sensing cell and described haulage gear are electrically connected;

When described location sensing cell senses location induction pieces, described location sensing cell sends control instruction out of service to described haulage gear, and namely described haulage gear stops drawing described ingot mould car body according to this control instruction out of service and move ahead or retreat.

7. ferrosilicon water hydraulic as claimed in claim 6 turns over bag running gate system, and it is characterized in that, described location induction pieces is horizontal location bar;

Protrude out at the sidepiece of described ingot mould car body and be provided with two blocks of parallel wing plates, described horizontal location bar runs through described two blocks of wing plates and is fixedly connected with two blocks of wing plates.

8. ferrosilicon water hydraulic as claimed in claim 7 turns over bag running gate system, it is characterized in that, described location sensing cell comprises infrared monitoring probe, control circuit for the probe fixing support and correspondence of fixing this infrared monitoring probe;

When described location induction pieces moves to infrared monitoring probe top, described control circuit is triggered and sends control instruction out of service to described haulage gear.

9. ferrosilicon water hydraulic as claimed in claim 6 turns over bag running gate system, and it is characterized in that, the side of described ingot mould car body is provided with for the articulated section with described ingot mould pivot joint, has backform flip piece in the couple positioned opposite of described articulated section;

Described backform flip piece is by described ingot mould jack-up and rotate around described articulated section, digs to make the ferrosilicon water ingot in described ingot mould and drops out in described ingot mould.

10. ferrosilicon water hydraulic as claimed in claim 9 turns over bag running gate system, and it is characterized in that, described backform flip piece comprises the hydraulic pressure backform cylinder be arranged on ground, in described hydraulic pressure backform cylinder, be provided with telescopic hydraulic mandril;

When described hydraulic mandril stretches out in described hydraulic pressure backform cylinder, described in this hydraulic mandril pushing tow, ingot mould rotates around described articulated section, digs to make the ferrosilicon water ingot in described ingot mould and drops out in described ingot mould;

When described hydraulic mandril bounces back in described hydraulic pressure backform cylinder, this hydraulic mandril carries described ingot mould and rotates around described articulated section, replys be seated on described ingot mould car body to make described ingot mould;

Also comprise ECU;

Described ECU comprises remote control end and actuating station, and described actuating station is connected with described hydraulic pressure backform cylinder;

Described actuating station receives the control instruction of described remote control end and the hydraulic mandril controlled in described hydraulic pressure backform cylinder stretches out or bounces back.