CN105112680A - Continuous fluxing charging system with measuring and weighing functions for metal smelting - Google Patents

Abstract

The invention discloses a continuous fluxing charging system with measuring and weighting functions for metal smelting. The continuous fluxing charging system comprises vibration conveying mechanisms and a crawler-type conveying mechanism. The vibration conveying mechanisms are arranged in two sets and the two sets of the vibration conveying mechanisms are arranged side by side. The crawler-type conveying mechanism is arranged in one set and arranged between the rear portions of the two sets of the vibration conveying mechanisms. A measuring and weighting mechanism is arranged at the input end of the crawler-type conveying mechanism. The measuring and weighting mechanism comprises supports. Four sets of movable measuring trolleys capable of being spliced into a whole are arranged on the supports. According to the continuous fluxing charging system with the measuring and weighting functions for metal smelting, scrap metal can be measured and weighed in the charging process, so that the quantity of smelting is controllable; the potential safety hazard is reduced; the smelting efficiency is improved. In addition, two production conveying lines are arranged; when refractory materials of one of the production conveying lines need to be replaced, the other production conveying line can be adopted so that the smelting machining can be conducted, so that the production working is continued without being influenced and the production efficiency is improved.

Description

There is the Metal smelting charging system of fluxing continuously of computation weigh function

Technical field

The present invention relates to a kind of metallurgical feeding equipment, especially there is the Metal smelting charging system of fluxing continuously of computation weigh function.

Background technology

Melting metallic substance and other subsidiary material is dropped into process furnace to dissolve and modified, there is certain physics, chemical transformation, the pyrometallurgical processes of output crude metal or metal enrichment thing and slag in furnace charge material in high temperature (1300 ~ 1600K) stove.

Smelting furnace is as the important component part in melting operation, need when melting constantly in smelting furnace, to add metallic substance, because the temperature of melting is too high, the refractory materials of smelting furnace is generally 4 ~ 5 days work-ing life, and just needing after 4 ~ 5 days dismantles again to fill out establishes, but again fills out the refractory masses established and still need certain air-dry shaping period, therefore, when changing refractory materials, melting work has to stop, and causes smelting efficiency low, cannot meet Production requirement.

Simultaneously, because furnace capacity is limited, reinforced amount is limited, and the feeding quantity at present when feeding in raw material to smelting furnace is uncertain, usually controls according to workman's experience, smelting furnace molten steel face is often caused to fluctuate up and down instability, if feeding quantity is crossed, I haven't seen you for ages causes melting electric consumption to raise, and smelting efficiency is low, and feeding quantity too much can make smelting furnace liquid level is lifted, cause iron and steel stock to consume to increase, and easily bring out security incident.

Summary of the invention

The object of the invention is, for above-mentioned the deficiencies in the prior art, a kind of Metal smelting charging system of fluxing continuously with computation weigh function is provided, this charging system can carry out computation weigh to scrap metal when reinforced, thus make melting amount controlled, reduce potential safety hazard, improve smelting efficiency, and there are two and produce transfer limes, when wherein a production transfer limes need change refractory materials, another can be adopted to produce transfer limes and to carry out melting processing, thus not affect proceeding of production work, improve production efficiency.

The technical scheme that the Metal smelting that the present invention has computation weigh function adopts by charging system of fluxing continuously is as follows:

The present invention has the Metal smelting charging system of fluxing continuously of computation weigh function, involving vibrations transfer mechanism and Caterpillar conveyer structure, the quantity of described vibration conveying mechanism is two groups, two groups of vibration conveying mechanisms are set up in parallel, the quantity of Caterpillar conveyer structure is one group, described Caterpillar conveyer structure is arranged in the middle of the rear portion of two groups of vibration conveying mechanisms, the input terminus of Caterpillar conveyer structure is provided with computation weigh mechanism, described computation weigh mechanism comprises support, and support is provided with the Mobile measurement trolley that four groups of capable assemblings are integrated; Described support comprises left side brackets and right side support, left side brackets and right side support are separately positioned on left side and the right side of Caterpillar conveyer structure, left side brackets and right side support are respectively arranged with two groups of Mobile measurement trolleys be arranged side by side, and the two groups of Mobile measurement trolleys be positioned in left side brackets are oppositely arranged with the Mobile measurement trolley be positioned on the support of right side and relatively can slide split; Described Mobile measurement trolley of often organizing includes trilateral hopper, weighting platform, LOAD CELLS, roller, electric liquid driving mechanism and horizontal slide rail, weighting platform is arranged on trilateral hopper bottom, the quantity at least two of LOAD CELLS is arranged on weighting platform upper surface, roller is arranged on weighting platform lower surface, electricity liquid driving mechanism is arranged on roller rear portion, roller is stuck on horizontal slide rail and also can transversely moves by slide rail, and horizontal slide rail is arranged on support.

As preferred version of the present invention, the quantity of described LOAD CELLS is four, and four LOAD CELLS are distributed on four edges of weighting platform upper surface; The lower front of trilateral hopper is provided with stripper.

As preferred version of the present invention, described Caterpillar conveyer structure comprises rotary support, track type delivery section and platform bracing frame, rotary support is arranged on track type delivery section lower rear, track type delivery section can be that axle center rotates with rotary support, and platform frame is arranged on the lower front of track type delivery section.

As preferred version of the present invention, described rotary support comprises base frame, pillar stiffener and rotary bracket, and rotary bracket is movably arranged on pillar stiffener top, and base frame is fixedly installed on pillar stiffener bottom.

As preferred version of the present invention, described track type delivery section comprises preheated tank, conveying belt, first conveyor belt support, second conveyor belt support, 3rd conveyor belt support, head deflector roll, afterbody deflector roll, motor, fuel burner nozzle, support bar, roller and Vaporizing cooling pipe, first conveyor belt support, second conveyor belt support and the 3rd conveyor belt support are all supported on rotary bracket, rotary bracket supports with plane rotation and is connected, support bar is fixedly installed the lower front of rotary bracket, roller is arranged on support bar lower end, intermediate frequency furnace platform is provided with the cambered way for roller movement, first conveyor belt support is higher than the 3rd conveyor belt support, be connected by the second conveyor belt support between first conveyor belt support and the 3rd conveyor belt support, head deflector roll are arranged on the output terminal of the first conveyor belt support, afterbody deflector roll are arranged on the input terminus of the 3rd conveyor belt support, the output terminal of motor is connected with head deflector roll, conveying belt to be wrapped on head deflector roll and afterbody deflector roll and to be positioned at the first conveyor belt support, outside second conveyor belt support and the 3rd conveyor belt support, fuel burner nozzle is arranged on preheated tank top, Vaporizing cooling pipe is arranged on preheated tank bottom, the position being positioned at the 3rd conveyor belt support at preheated tank is provided with delivery port.

As preferred version of the present invention, described vibration conveying mechanism of often organizing includes anchor, vibrating transportation portion and mobile petticoat pipe portion, vibrating transportation portion is arranged on anchor top, the input terminus in vibrating transportation portion is positioned at the below of track type delivery section output terminal, and mobile petticoat pipe portion is arranged on the front end in vibrating transportation portion.

As preferred version of the present invention, described vibrating transportation portion comprises base plate, suspension bracket, conveyer trough, sealing cover, eccentric rod gear, first driving mechanism and cooling system, eccentric rod gear is arranged on the input terminus of conveyer trough, conveyer trough is arranged on base plate by suspension bracket, cooling system is arranged on conveyer trough, sealing cover is located at conveyer trough top, sealing cover is provided with feed opening, movable pulley is arranged with at base plate, anchor is provided with slideway, movable pulley is entrapped in slideway, first driving mechanism is connected with movable pulley, first driving mechanism can drive movable pulley to move backward relative to anchor.

As preferred version of the present invention, described mobile petticoat pipe portion comprises high temperature petticoat pipe, movable stand and the second driving mechanism, base plate is provided with chute, movable stand rear end is arranged in chute, high temperature petticoat pipe is arranged on movable stand front end and is positioned at conveyer trough front portion, and the second driving mechanism can drive movable stand to move backward relative to base plate with the high temperature petticoat pipe being positioned at movable stand front end.

As preferred version of the present invention, the angle between described second conveyor belt support and platform frame is 20 degree.

The Metal smelting that the present invention has computation weigh function by the advantage of charging system of fluxing continuously is, this charging system can carry out computation weigh to scrap metal when reinforced, thus make melting amount controlled, reduce potential safety hazard, improve smelting efficiency, and there are two production transfer limess, when wherein a production transfer limes need change refractory materials, another can be adopted to produce transfer limes and to carry out melting processing, thus not affect proceeding of production work, improve production efficiency.

Accompanying drawing explanation

Fig. 1 is the front view of Metal smelting by charging system of fluxing continuously that the present invention has computation weigh function.

Fig. 2 is the right view of Metal smelting by charging system of fluxing continuously that the present invention has computation weigh function.

Fig. 3 is the Metal smelting charging system computation weigh mechanism front view of fluxing continuously that the present invention has computation weigh function.

Fig. 4 is vibration conveying mechanism and the Caterpillar conveyer structure front view that the present invention has the Metal smelting charging system computation weigh mechanism of fluxing continuously of computation weigh function.

Fig. 5 is vibration conveying mechanism and the Caterpillar conveyer structure vertical view that the present invention has the Metal smelting charging system computation weigh mechanism of fluxing continuously of computation weigh function.

Embodiment

As shown in drawings, the present invention has the Metal smelting charging system of fluxing continuously of computation weigh function, involving vibrations transfer mechanism and Caterpillar conveyer structure, the quantity of described vibration conveying mechanism is two groups, two groups of vibration conveying mechanisms are set up in parallel, the quantity of Caterpillar conveyer structure is one group, and described Caterpillar conveyer structure is arranged in the middle of the rear portion of two groups of vibration conveying mechanisms.

Melting material is transported on vibration conveying mechanism by Caterpillar conveyer structure, then is transported to by vibration conveying mechanism the smelting furnace being positioned at vibration conveying mechanism front and carries out melting operation.By two groups of vibration conveying mechanisms are set up in parallel, Caterpillar conveyer structure is arranged on the structure formation in the middle of the rear portion of two groups of vibration conveying mechanisms, two groups of shaker conveyers are configured to two groups of stations, Caterpillar conveyer structure has the function rotating and regulate, just one group of complete production transfer limes is formed when Caterpillar conveyer structure rotates and snaps on wherein one group of vibration conveying mechanism, when the smelting furnace being positioned at this production line front portion needs to change refractory materials, again Caterpillar conveyer structure is rotated and snap on another group vibration conveying mechanism, form second group of complete production transfer limes to proceed to carry operation, thus namely do not affect proceeding of melting work, the sufficient refractory materials of time to smelting furnace is had again to change.

The input terminus of Caterpillar conveyer structure is provided with computation weigh mechanism, computation weigh mechanism regulates with the rotation of Caterpillar conveyer structure can synchronous shift, not affect after rotating adjustment and to carry out computation weigh charging, computation weigh mechanism can will fall in Caterpillar conveyer structure again after scrap metal material metage, be transported in vibration conveying mechanism through Caterpillar conveyer structure again, be transported to finally by vibration conveying mechanism the smelting furnace being positioned at vibration conveying mechanism front portion and carry out melting.

Described computation weigh mechanism comprises support, and support is provided with the Mobile measurement trolley that four groups of capable assemblings are integrated; Described support comprises left side brackets 32 and right side support 33, left side brackets 32 and right side support 33 are separately positioned on left side and the right side of Caterpillar conveyer structure, left side brackets 32 and right side support 33 are respectively arranged with two groups of Mobile measurement trolleys be arranged side by side, and the two groups of Mobile measurement trolleys be positioned in left side brackets 32 are oppositely arranged with the Mobile measurement trolley be positioned on the support 33 of right side and relatively can slide split.By Mobile measurement trolley is provided with two groups, and be separately positioned on the structure formation of the left and right sides of Caterpillar conveyer structure, when measuring, two groups of Mobile measurement trolleys slide from two side direction relative inner of Caterpillar conveyer structure, a large weighing hopper is pieced together above middle part that Caterpillar conveyer structure is conveyed into until move to, scrap metal material falls in weighing hopper and carries out computation weigh, after weighing, Mobile measurement trolley is drawn back and is got back to original station, material starts to drop in Caterpillar conveyer structure, conveying feed is carried out from Caterpillar conveyer structure toward vibration conveying mechanism.

Described Mobile measurement trolley of often organizing includes trilateral hopper 34, weighting platform 35, LOAD CELLS 36, roller 37, electric liquid driving mechanism 38 and horizontal slide rail 39, weighting platform 35 is arranged on trilateral hopper 34 bottom, the quantity at least two of LOAD CELLS 36 is arranged on weighting platform 35 upper surface, roller 37 is arranged on weighting platform 35 lower surface, electricity liquid driving mechanism 38 is arranged on roller 37 rear portion, roller 37 is stuck on horizontal slide rail 39 and also can transversely moves by slide rail, and horizontal slide rail 39 is arranged on support.The quantity of described LOAD CELLS 36 is four, and four LOAD CELLS are distributed on four edges of weighting platform 35 upper surface; The lower front of trilateral hopper 34 is provided with stripper 40.

Stripper 40 can assist scrap metal material to fall, and forms sealing by bottom four trilateral hoppers 34, prevents at metering hourglass material.The control of the powered liquid driving mechanism 8 of roller 37 can transversely sliding before and after slide rail 39, during metering, electricity liquid driving mechanism 38 stretches out control roller 37 and moves forward, after four groups of Mobile measurement trolleys jointly move to relative inner and piece together a large weighing hopper, electricity liquid driving mechanism 38 stops, four groups of Mobile measurement trolley location, then scrap metal material falls in the weighing hopper that formed by 34 splits of four trilateral hoppers, and weighed by the weighting platform 35 being positioned at trilateral hopper 34 bottom, the metering of weight is carried out by the LOAD CELLS 36 on weighting platform 35, after having measured, electricity liquid driving mechanism 38 starts retraction, control roller 37 and move return backward, scrap metal material falls, complete the computation weigh process of a unit.

Caterpillar conveyer structure comprises rotary support, track type delivery section and platform bracing frame 1, rotary support is arranged on track type delivery section lower rear, track type delivery section can be that axle center rotates with rotary support, and platform frame 1 is arranged on the lower front of track type delivery section.The rear portion of rotary support to track type delivery section supports, track type delivery section is that axle center rotates and snaps on vibration conveying mechanism to rotate with rotary support, platform frame 1 is for supporting the front portion of track type delivery section, prevent the overweight situation causing tilting of track type delivery section from occurring, ensure that the conveying stability of track type delivery section.

Rotary support comprises base frame 2, pillar stiffener 3 and rotary bracket 4, and rotary bracket 4 is movably arranged on pillar stiffener 3 top, and base frame 2 is fixedly installed on pillar stiffener 3 bottom.Base frame 2 arranges on the ground, and base frame 2 can increase the stability of pillar stiffener 3, and rotary bracket 4 can rotate relative to pillar stiffener 2, and rotary bracket 4 while in rotary moving, can drive the track type delivery section synchronous rotary being positioned at rotary bracket top to move.

Track type delivery section comprises preheated tank 5, conveying belt 6, first conveyor belt support 7, second conveyor belt support 8, 3rd conveyor belt support 9, head deflector roll 10, afterbody deflector roll 11, motor 12, fuel burner nozzle 13, support bar 14, roller 15 and Vaporizing cooling pipe 16, first conveyor belt support 7, second conveyor belt support 8 and the 3rd conveyor belt support 9 are all supported on rotary bracket 4, rotary bracket 4 supports with plane rotation and is connected, support bar 14 is fixedly installed on the lower front of rotary bracket 4, roller 15 is arranged on support bar 14 lower end, intermediate frequency furnace platform is provided with the cambered way for roller movement, first conveyor belt support 7 is higher than the 3rd conveyor belt support 9, be connected by the second conveyor belt support 8 between first conveyor belt support 7 and the 3rd conveyor belt support 9, angle between described second conveyor belt support 8 and platform frame 1 is 20 degree.Head deflector roll 10 are arranged on the output terminal of the first conveyor belt support 7, afterbody deflector roll 11 are arranged on the input terminus of the 3rd conveyor belt support 9, the output terminal of motor 12 is connected with head deflector roll 10, conveying belt 6 to be wrapped on head deflector roll 10 and afterbody deflector roll 11 and to be positioned at outside the first conveyor belt support 7, second conveyor belt support 8 and the 3rd conveyor belt support 9, fuel burner nozzle 13 is arranged on preheated tank 5 top, Vaporizing cooling pipe 16 is arranged on preheated tank 5 bottom, and the position being positioned at the 3rd conveyor belt support at preheated tank 5 is provided with delivery port 17.

Melting material drops into the conveying belt 6 in preheated tank from the delivery port 17 of preheated tank rear upper, be fed forward by conveying belt 6 pairs of melting materials.Due in the past in reinforced process the position of transfer mechanism too high, cause reinforced difficulty, therefore track type delivery section is set to height faulting of slab ends form by the present invention, and melting material is transported to a high position again from low-level feeding, conveniently can feed in raw material like this, ensure that carrying out smoothly of reinforced work.Adjust to the right place when track type delivery section rotates, when its output terminal snaps into the input terminus top of vibration conveying mechanism, motor 12 starts, head deflector roll 10 are driven to rotate, head deflector roll 10 drive the conveying belt 6 be wrapped on head deflector roll to rotate in the process of rotating, conveying belt 6 drives the afterbody deflector roll 11 be wound around with conveying belt 6 the other end to rotate, thus the melting material fallen into by the delivery port from preheated tank 5 is fed forward.By being provided with fuel burner nozzle 13 on preheated tank 5 top, can preheat the melting material in preheated tank 5, the smelting time of melting material in smelting furnace is shortened, and melting electric consumption reduces, and has saved electric energy, has improve smelting efficiency.By arranging Vaporizing cooling pipe 16 in preheated tank 5 bottom; Vaporizing cooling pipe 16 is connected with water source; when current enter in preheated tank 5 from Vaporizing cooling pipe 16; be subject to the temperatures involved in preheated tank 5; form water vapor; can lower the temperature to preheated tank 5 inside, play the provide protection preventing preheated tank high temperature deformation, the situation preventing track type delivery section from shortening work-ing life in high temperature environments occurs.

The water side of Vaporizing cooling pipe 16 is provided with atomizer.By arranging atomizer in the water side of Vaporizing cooling pipe, impel component cooling water to form water smoke, thus accelerate the generation of water vapor, under the prerequisite ensureing charge preheating case Vaporizing cooling effect, make use of the combustion heat energy of burner to greatest extent, improve energy conservation and consumption reduction effects.

Described vibration conveying mechanism of often organizing includes anchor 18, vibrating transportation portion and mobile petticoat pipe portion, vibrating transportation portion is arranged on anchor 18 top, the input terminus in vibrating transportation portion is positioned at the below of track type delivery section output terminal, and mobile petticoat pipe portion is arranged on the front end in vibrating transportation portion.Anchor 18 plays the support fixed action to vibrating transportation portion, the melting material come from the transmission of track type delivery section continues conveying by vibrating transportation portion, finally be transported to the smelting furnace being positioned at front portion, vibrating transportation portion and carry out melting, mobile petticoat pipe portion can collect the high temperature gas flow that smelting furnace produces, and import in vibration conveying mechanism, to carry out secondary preheating to the melting material being positioned at vibration conveying mechanism, the cycling and reutilization of high temperature gas flow potential, further shorten the smelting time of material, improve smelting efficiency.

Vibrating transportation portion comprises base plate 20, suspension bracket 21, conveyer trough 22, sealing cover 23, eccentric rod gear 24, first driving mechanism and cooling system 25, eccentric rod gear 24 is arranged on the input terminus of conveyer trough 22, conveyer trough 22 arranges on the base plate 20 by suspension bracket, cooling system 25 is arranged on conveyer trough 22, sealing cover 23 is located at conveyer trough 22 top, sealing cover 23 is provided with feed opening 26, movable pulley 27 is arranged with at base plate 20, anchor 18 is provided with slideway, movable pulley is entrapped in slideway, first driving mechanism is connected with movable pulley 27, first driving mechanism can drive movable pulley 27 and base plate 20 to move backward relative to anchor 18.Vibrating transportation kinetic energy is there is in eccentric rod gear 24 when action, and pass to the conveyer trough 22 be fixedly connected with eccentric rod gear, melting material drops in conveyer trough 22 from the conveying belt 6 of track type delivery section, continue to be fed forward by the thrust vibrating kinetic energy, sealing cover 23 1 aspect can prevent the generation of airborne dust in course of conveying, optimize Working environment, the heat losses imported from mobile petticoat pipe portion can also be prevented on the other hand, improve Heat-collecting effect.Because smelting furnace carries out turndown tapping in the space that melted rear needs are certain, for the turndown not affecting smelting furnace leaves space for tumbling, therefore vibrating transportation portion is set to packaged type, when reinforced, drive base plate 20 to move forward by the first driving mechanism, the output terminal of the conveyer trough 22 be positioned on base plate 20 is made to be positioned at directly over smelting furnace, so that reinforced, when needing turndown to tap after smelting furnace is melted, first driving mechanism drives the movable pulley 27 be positioned at below base plate to move backward, thus drive base plate and the conveyer trough 22 be positioned on base plate synchronously to move backward, so that the turndown for smelting furnace provides enough spaces.By arranging cooling system 25 on conveyer trough, cooling system 25 can carry out cooling protection to conveyer trough 22, prevents conveyer trough 22 to be in hot environment for a long time and produces distortion, shorten work-ing life.

Described mobile petticoat pipe portion comprises high temperature petticoat pipe 28, movable stand 29 and the second driving mechanism 30, be provided with chute on the base plate 20, movable stand 29 rear end is arranged in chute, second driving mechanism 30 is connected with movable stand 29 rear end, high temperature petticoat pipe 28 is arranged on movable stand front end and is positioned at conveyer trough 22 front portion, and the second driving mechanism 30 can drive movable stand to move backward relative to base plate 20 with the high temperature petticoat pipe 28 being positioned at movable stand front end.For the turndown further for smelting furnace provides enough reserving spaces, therefore mobile petticoat pipe portion is set to telescopic moving formula, drive movable stand to move forward and backward relative to conveyer trough 22 by the second driving mechanism, thus drive high temperature petticoat pipe 28 synchronizing moving being positioned at movable stand front portion, adjust.

Described platform frame 1 is connected with anchor 18 integral type.By platform frame and anchor being set to the structure formation that integral type is connected, the stability of support can be improved further.

Below by reference to the accompanying drawings the preferred embodiment of the present invention is elaborated, but the present invention is not limited to above-mentioned embodiment, in the ken that art technician possesses, various change can also be made under the prerequisite not departing from present inventive concept.

Claims (9)

1. one kind has the Metal smelting charging system of fluxing continuously of computation weigh function, it is characterized in that: involving vibrations transfer mechanism and Caterpillar conveyer structure, the quantity of described vibration conveying mechanism is two groups, two groups of vibration conveying mechanisms are set up in parallel, the quantity of Caterpillar conveyer structure is one group, described Caterpillar conveyer structure is arranged in the middle of the rear portion of two groups of vibration conveying mechanisms, the input terminus of Caterpillar conveyer structure is provided with computation weigh mechanism, described computation weigh mechanism comprises support, support is provided with the Mobile measurement trolley that four groups of capable assemblings are integrated, described support comprises left side brackets (32) and right side support (33), left side brackets (32) and right side support (33) are separately positioned on left side and the right side of Caterpillar conveyer structure, left side brackets (32) and right side support (33) are respectively arranged with two groups of Mobile measurement trolleys be arranged side by side, and the two groups of Mobile measurement trolleys be positioned in left side brackets (32) are oppositely arranged with the Mobile measurement trolley be positioned on right side support (33) and relatively can slide split, described Mobile measurement trolley of often organizing includes trilateral hopper (34), weighting platform (35), LOAD CELLS (36), roller (37), electricity liquid driving mechanism (38) and horizontal slide rail (39), weighting platform (35) is arranged on trilateral hopper (34) bottom, the quantity at least two of LOAD CELLS (36) is arranged on weighting platform (35) upper surface, roller (37) is arranged on weighting platform (35) lower surface, electricity liquid driving mechanism (38) is arranged on roller (37) rear portion, roller (37) is stuck in horizontal slide rail (39) and above also can transversely moves by slide rail, horizontal slide rail (39) is arranged on support.

2. the Metal smelting charging system of fluxing continuously with computation weigh function according to claim 1, it is characterized in that: the quantity of described LOAD CELLS (36) is four, four LOAD CELLS are distributed on four edges of weighting platform (35) upper surface; The lower front of trilateral hopper (34) is provided with stripper (40).

3. the Metal smelting charging system of fluxing continuously with computation weigh function according to claim 1, it is characterized in that: described Caterpillar conveyer structure comprises rotary support, track type delivery section and platform bracing frame (1), rotary support is arranged on track type delivery section lower rear, track type delivery section can be that axle center rotates with rotary support, and platform frame (1) is arranged on the lower front of track type delivery section.

4. the Metal smelting charging system of fluxing continuously with computation weigh function according to claim 3, it is characterized in that: described rotary support comprises base frame (2), pillar stiffener (3) and rotary bracket (4), rotary bracket (4) is movably arranged on pillar stiffener (3) top, and base frame (2) is fixedly installed on pillar stiffener (3) bottom.

5. the Metal smelting charging system of fluxing continuously with computation weigh function according to claim 3, it is characterized in that: described track type delivery section comprises charge preheating case (5), conveying belt (6), first conveyor belt support (7), second conveyor belt support (8), 3rd conveyor belt support (9), head deflector roll (10), afterbody deflector roll (11), motor (12), fuel burner nozzle (13), support bar (14), roller (15) and Vaporizing cooling pipe (16), first conveyor belt support (7), second conveyor belt support (8) and the 3rd conveyor belt support (9) are all supported on rotary bracket (4), rotary bracket (4) supports with plane rotation and is connected, support bar (14) is fixedly installed on the lower front of rotary bracket (4), roller (15) is arranged on support bar (14) lower end, intermediate frequency furnace platform is provided with the cambered way for roller movement, first conveyor belt support (7) is higher than the 3rd conveyor belt support (9), be connected by the second conveyor belt support (8) between first conveyor belt support (7) and the 3rd conveyor belt support (9), head deflector roll (10) are arranged on the output terminal of the first conveyor belt support (7), afterbody deflector roll (11) are arranged on the input terminus of the 3rd conveyor belt support (9), the output terminal of motor (12) is connected with head deflector roll (10), conveying belt (6) is wrapped in head deflector roll (10) and afterbody deflector roll (11) are gone up and are positioned at the first conveyor belt support (7), second conveyor belt support (8) and the 3rd conveyor belt support (9) outside, fuel burner nozzle (13) is arranged on preheated tank (5) top, Vaporizing cooling pipe (16) is arranged on preheated tank (5) bottom, the position being positioned at the 3rd conveyor belt support at conveying box (5) is provided with delivery port (17).

6. the Metal smelting charging system of fluxing continuously with computation weigh function according to claim 1, it is characterized in that: described vibration conveying mechanism of often organizing includes anchor (18), vibrating transportation portion and mobile petticoat pipe portion, vibrating transportation portion is arranged on anchor (18) top, the input terminus in vibrating transportation portion is positioned at the below of track type delivery section output terminal, and mobile petticoat pipe portion is arranged on the front end in vibrating transportation portion.

7. the Metal smelting charging system of fluxing continuously with computation weigh function according to claim 6, it is characterized in that: described vibrating transportation portion comprises base plate (20), suspension bracket (21), conveyer trough (22), sealing cover (23), eccentric rod gear (24), first driving mechanism and cooling system (25), eccentric rod gear (24) is arranged on the input terminus of conveyer trough (22), conveyer trough (22) is arranged on base plate (20) by suspension bracket (21), cooling system (25) is arranged on conveyer trough (22), sealing cover (23) is located at conveyer trough (22) top, sealing cover (23) is provided with feed opening (26), movable pulley (27) is arranged with at base plate (20), anchor (18) is provided with slideway, movable pulley is entrapped in slideway, first driving mechanism is connected with movable pulley (27), first driving mechanism can drive movable pulley (27) to move backward relative to anchor (18).

8. the Metal smelting charging system of fluxing continuously with computation weigh function according to claim 6, it is characterized in that: described mobile petticoat pipe portion comprises high temperature petticoat pipe (28), movable stand (29) and the second driving mechanism (30), base plate (20) is provided with chute, movable stand (29) rear end is arranged in chute, second driving mechanism is connected with movable stand (29) rear end, high temperature petticoat pipe (28) is arranged on movable stand (29) front end and is positioned at conveyer trough (22) front portion, the high temperature petticoat pipe (28) that second driving mechanism can drive movable stand (29) and be positioned at movable stand front end moves backward relative to base plate (20).

9. the Metal smelting charging system of fluxing continuously with computation weigh function according to claim 5, is characterized in that: the angle between described second conveyor belt support (8) and platform frame (1) is 20 degree.