CN112570700A - Metal dropping liquid receiving and slag scraping device and method - Google Patents

Abstract

The invention relates to the technical field of ingot production equipment, in particular to a metal dropping liquid receiving and slag scraping device and a method. The metal dropping liquid receiving and slag scraping device comprises a pouring mechanism and a receiving processing mechanism, wherein the pouring mechanism comprises a pouring spoon and a support, the middle section of the pouring spoon is rotatably connected with the support, so that the pouring spoon can swing, one end of the pouring spoon extends into a melting furnace, and the other end of the pouring spoon is provided with a pouring hole; the material receiving treatment mechanism comprises a material receiving plate, a transverse scraper and a longitudinal scraper, the material receiving plate is arranged on one side of the conveying line close to the pouring mechanism and below one end of the pouring spoon provided with a pouring hole, the transverse scraper and the longitudinal scraper are movably arranged on the material receiving plate, and the transverse scraper pushes the solid metal on the material receiving plate to the rear side for gathering; the longitudinal flights push the accumulated solid metal into empty molds on the conveyor line to be cast. The automatic metal liquid cleaning device is compact in structure and reasonable in design, and can automatically clean metal liquid dropping during pouring and liberate labor force.

Description

Metal dropping liquid receiving and slag scraping device and method

Technical Field

The invention relates to the technical field of ingot production equipment, in particular to a metal dropping liquid receiving and slag scraping device and a method.

Background

At present, after the electrolytic metal sheet is melted, molten metal needs to be fed into an ingot casting mold from a hearth to be cast into ingots. At present the mode of generally adopting mainly has the metal liquid from flowing and pouring spoon ladles out the metal liquid dual mode, and the metal liquid utilizes the gravity of metal liquid itself to flow into the ingot mould through the chute of installing in the oven and accomplishes the casting in the metal liquid flows out, and the pouring spoon device is through motor drive crank link mechanism, ladles out the ingot mould with the metal liquid ration through the pouring spoon and accomplishes the casting. The pouring spoon carries out luffing motion because crank link mechanism drives, and when the pouring spoon upwards swings, the metal liquid of pouring spoon can drip to transport chain or mould edge, causes the pollution to transport chain and mould, and is so for a long time, causes the harm to transport chain and causes piling up of mould edge metal slag, and the metal slag of the adhesion of getting rid of the mould edge needs the manual work to shovel off, wastes time and energy, and workman intensity of labour is big.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide a metal dropping liquid receiving and slag scraping device and a method for automatically cleaning dropping metal liquid during pouring, liberating labor force and recycling the dropping metal liquid.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a metal dropping liquid receiving and slag scraping device is arranged between a smelting furnace and a conveying line, a plurality of molds which are sequentially arranged are arranged on the conveying line, the conveying line drives the molds to convey forwards, the metal dropping liquid receiving and slag scraping device comprises a pouring mechanism and a material receiving processing mechanism, the pouring mechanism comprises a pouring spoon and a support, the middle section position of the pouring spoon is rotatably connected with the support, the pouring spoon can swing, one end of the pouring spoon extends into the smelting furnace, the other end of the pouring spoon is provided with a pouring hole, and the pouring spoon scoops out metal liquid in the smelting furnace through swinging and flows out of the pouring hole into the molds; the material receiving processing mechanism comprises a material receiving plate, a transverse scraping plate and a longitudinal scraping plate, the material receiving plate is arranged on one side, close to the pouring mechanism, of the conveying line and is positioned below one end, provided with a pouring hole, of the pouring spoon, the material receiving plate is used for receiving excess metal liquid dripped from the pouring hole when one end of the pouring spoon is tilted, the metal liquid is solidified into solid metal on the material receiving plate, the transverse scraping plate and the longitudinal scraping plate are movably arranged on the material receiving plate, and the transverse scraping plate scrapes the material in the running direction of the conveying line in a reversible mode and pushes the solid metal on the material receiving plate to the rear side to be gathered; the longitudinal scrapers can scrape materials towards the conveying line, and push the gathered solid metal into an empty mold to be poured on the conveying line.

Furthermore, the material receiving plate is positioned above the conveying line, the conveying line conveys the die through the material receiving plate, one end of the material receiving plate facing the conveying line direction extends to be overlapped with the edge of the die close to the smelting furnace, and the solid metal can be pushed into the die from the material receiving plate.

Furthermore, the transverse scraper plate is arranged on the front side of the material receiving plate, the positioning plate which is parallel to the transverse scraper plate is arranged on the rear side of the material receiving plate, a first driving mechanism is arranged on one side, close to the smelting furnace, of the material receiving plate, the first driving mechanism is connected with the transverse scraper plate, the first driving mechanism drives the transverse scraper plate to move towards the positioning plate to scrape the materials, and the solid metal on the material receiving plate is scraped and pushed to be gathered on the front side of the positioning plate.

Furthermore, the first driving mechanism comprises a slide rail, a slide block and a cylinder, the slide block is slidably arranged on the slide rail, a connecting piece is arranged between the slide block and the transverse scraping plate, the cylinder is connected with the slide block, the cylinder drives the slide block to move on the slide rail, and then the connecting piece drives the transverse scraping plate to reciprocate between the front side of the material receiving plate and the positioning plate.

Furthermore, the connecting piece comprises a supporting plate, a transition plate and a mounting plate, the supporting plate is arranged on the sliding block, the supporting plate is positioned on one side of the material receiving plate close to the smelting furnace, the transition plate and the supporting plate are vertically arranged, the transition plate extends towards the direction of the material receiving plate and is positioned above the material receiving plate, the mounting plate is arranged on one side of the transition plate, and the transverse scraper is detachably mounted on the mounting plate.

Further, the locating plate sets up with connecing the flitch perpendicularly, and the locating plate rear side is equipped with second actuating mechanism, is equipped with the connecting rod on the second actuating mechanism, the connecting rod is located the locating plate top, and extends to the locating plate front side and be connected with vertical scraper blade, vertical scraper blade sets up in the connecting rod below, and vertical scraper blade bottom surface is pasted with connecing the flitch and is leaned on the setting, and vertical scraper blade one side is pasted with the locating plate and is leaned on the setting, second actuating mechanism passes through the vertical scraper blade of connecting rod drive and follows the motion of locating plate length direction to scrape the solid-state metal of pushing away.

Furthermore, the bottom surface of the transverse scraper is attached to the material receiving plate, a cutting edge is arranged at the bottom of the transverse scraper and is positioned on the rear side of the transverse scraper, and the cutting edge is inclined downwards towards the direction of the rear side of the material receiving plate.

A molten metal pouring method comprises the following steps:

firstly, a pouring spoon swings to scoop out molten metal in a melting furnace and flow out of a pouring hole into a mold; after the pouring is finished, the pouring spoon swings, so that one end, provided with a pouring hole, of the pouring spoon is tilted upwards, the pouring hole moves to the position above the material receiving plate along with the swinging of the pouring spoon, redundant molten metal in the pouring spoon drips onto the material receiving plate through the pouring hole, and the molten metal is solidified into solid metal on the material receiving plate;

scraping materials by a transverse scraper against the running direction of the conveying line, and pushing the solid metal scrapers on the material receiving plate to the rear side of the material receiving plate for gathering; scraping materials towards the direction of the conveying line by a longitudinal scraper, and pushing the solid metal gathered at the rear side of the material receiving plate into an empty mold to be cast on the conveying line;

and step three, conveying the empty mold in the step two to a position corresponding to the pouring spoon by a conveying line, scooping out the molten metal in the melting furnace by swinging the pouring spoon, enabling the molten metal to flow out of the mold from the pouring hole, and melting the solid metal in the mold in the molten metal which is just poured to obtain the solid metal for recycling.

As can be seen from the above description of the present invention, compared with the prior art, the beneficial effects of the present invention are:

firstly, a material receiving plate is arranged between a conveying line and a pouring spoon, so that metal liquid drops on the material receiving plate, and the metal liquid is prevented from dropping to a conveying chain or the edge of a mold, so that the conveying chain is prevented from being damaged, and metal slag at the edge of the mold is prevented from being accumulated;

secondly, a transverse scraper and a vertical scraper are arranged on the material receiving plate, so that the dropping molten metal can be automatically cleaned, and the labor force is liberated; scraping the solid metal dripped and solidified on the material receiving plate into a mold, so that the solid metal is molten in the molten metal which is just poured, and the molten metal is recycled;

thirdly, the device is compact in structure and reasonable in design according to actual overall layout.

Drawings

Fig. 1 is a schematic view of the overall structure of the metal dropping liquid receiving and slag scraping device of the invention.

Fig. 2 is a schematic top plan view of the metal dropping liquid receiving and slag scraping device of the invention.

Fig. 3 is a first visual schematic diagram of the receiving processing mechanism of the invention.

Fig. 4 is a second visual schematic diagram of the receiving processing mechanism of the invention.

Fig. 5 is a schematic view of the working state of the metal dropping liquid receiving and slag scraping device.

In the figure: 1. the casting machine comprises a smelting furnace, 11 furnace openings, 2 conveying lines, 3 molds, 4 casting mechanisms, 41 casting spoons, 411 casting holes, 42 supports, 5 material receiving processing mechanisms, 51 material receiving plates, 52 transverse scraping plates, 521 cutting edges, 53 longitudinal scraping plates, 54 positioning plates, 55 first driving mechanisms, 551 sliding rails, 552 sliding blocks, 553 air cylinders, 56 connecting pieces, 561 supporting plates, 562 transition plates, 563 mounting plates, 57 second driving mechanisms and 571 connecting rods.

Detailed Description

The invention is further described below by means of specific embodiments.

Referring to fig. 1 to 5, the metal dropping liquid receiving and slag scraping device provided by the invention is arranged between a smelting furnace 1 and a conveying line 2, and comprises a mold 3, a pouring mechanism 4 and a receiving processing mechanism 5.

The conveying line 2 is provided with a plurality of dies 3 which are arranged in sequence, and the conveying line 2 drives the dies 3 to convey forwards; the pouring mechanism 4 comprises a pouring spoon 41 and a support 42, the middle section of the pouring spoon 41 is rotatably connected with the support 42, so that the pouring spoon 41 can swing, one end of the pouring spoon 41 extends into the melting furnace 1, the other end of the pouring spoon is provided with a pouring hole 411, and the pouring spoon 41 scoops out the molten metal in the melting furnace 1 through swinging and flows out of the pouring hole 411 into the mold 3.

The material receiving processing mechanism 5 comprises a material receiving plate 51, a transverse scraping plate 52 and a longitudinal scraping plate 53, the material receiving plate 51 is arranged on one side of the conveying line 2 close to the pouring mechanism 4 and is positioned below one end, provided with a pouring hole 411, of the pouring spoon 41, the material receiving plate 51 is used for receiving redundant molten metal dripped from the pouring hole 411 when one end of the pouring spoon 41 is tilted, the molten metal is solidified into solid metal on the material receiving plate 51, the transverse scraping plate 52 and the longitudinal scraping plate 53 are movably arranged on the material receiving plate 51, the bottom surface of the transverse scraping plate 52 is attached to the material receiving plate 51, a cutting edge 521 is arranged at the bottom of the transverse scraping plate 52, the cutting edge 521 is positioned on the rear side of the transverse scraping plate 52, and the cutting edge 521 is; the transverse scraper 52 can scrape materials in the running direction of the reversible conveying line 2 and push the solid metal on the material receiving plate 51 to the rear side of the material receiving plate 51 for gathering; the longitudinal scrapers 53 scrape the material towards the conveyor line 2 and push the accumulated solid metal into the empty mould 3 to be cast on the conveyor line 2.

The material receiving plate 51 is positioned above the conveying line 2, the mold 3 is conveyed by the conveying line 2 to pass through the material receiving plate 51, one end of the material receiving plate 51 in the direction of the conveying line 2 extends to be overlapped with the edge of the mold 3 close to the smelting furnace 1, so that the solid metal can be pushed into the mold 3 from the material receiving plate 51; the transverse scraper 52 is arranged at the front side of the material receiving plate 51, the positioning plate 54 arranged in parallel with the transverse scraper 52 is arranged at the rear side of the material receiving plate 51, the first driving mechanism 55 is arranged at one side of the material receiving plate 51 close to the smelting furnace 1, the first driving mechanism 55 is connected with the transverse scraper 52, the first driving mechanism 55 drives the transverse scraper 52 to move towards the positioning plate 54 for scraping and gathering the solid metal on the material receiving plate 51 at the front side of the positioning plate 54; the first driving mechanism 55 comprises a slide rail 551, a slide block 552 and an air cylinder 553, the slide block 552 is slidably disposed on the slide rail 551, a connecting member 56 is disposed between the slide block 552 and the transverse scraping plate 52, the air cylinder 553 is connected with the slide block 552, the air cylinder 553 drives the slide block 552 to move on the slide rail 551, and then the transverse scraping plate 52 is driven by the connecting member 56 to reciprocate between the front side of the receiving plate 51 and the positioning plate 54; the connecting piece 56 comprises a supporting plate 561, a transition plate 562 and a mounting plate 563, the supporting plate 561 is arranged on the sliding block 552, the supporting plate 561 is positioned on one side of the receiving plate 51 close to the direction of the smelting furnace 1, the transition plate 562 is perpendicular to the supporting plate 561, the transition plate 562 extends towards the receiving plate 51 and is positioned above the receiving plate 51, the mounting plate 563 is arranged on one side of the transition plate 562, and the transverse scraper 52 is detachably mounted on the mounting plate 563; the positioning plate 54 is arranged perpendicular to the material receiving plate 51, the rear side of the positioning plate 54 is provided with a second driving mechanism 57, the second driving mechanism 57 is provided with a connecting rod 571, the connecting rod 571 is positioned above the positioning plate 54 and extends to the front side of the positioning plate 54 to be connected with the longitudinal scraper 53, the longitudinal scraper 53 is arranged below the connecting rod 571, the bottom surface of the longitudinal scraper 53 is attached to the material receiving plate 51, one side of the longitudinal scraper 53 is attached to the positioning plate 54, and the second driving mechanism 57 drives the longitudinal scraper 53 to move along the length direction of the positioning plate 54 through the connecting rod 571 so as to scrape and push the solid metal gathered at the front side of the positioning.

According to the actual overall layout, the structure among the smelting furnace 1, the pouring mechanism 4, the material receiving processing device 5 and the conveying line 2 is compact, the design is reasonable, and the automation of pouring molten metal is realized; because this kind of pouring mechanism 4 realizes the pouring through the swing, when pouring spoon 41 swings, the one end that pouring spoon 41 was equipped with pouring hole 411 perks up, the metal liquid of pouring spoon 41 can drip to conveying chain or mould 3 edge through pouring hole 411, cause the pollution to conveying chain and mould 3, long-term so, cause the harm to conveying chain and cause piling up of mould 3 edge metal liquid, it accepts the metal liquid that drips to connect material processing apparatus 5, and will drip the solid metal that solidifies on connecing flitch 51 and scrape down to mould 3 in, make solid metal melt in the metal liquid of just pouring, obtain recycling.

The working principle of the metal dropping liquid receiving and slag scraping device is as follows:

step one, the pouring spoon 41 swings to scoop out the molten metal in the smelting furnace 1 and flow out of the pouring hole 411 into the mold 3; after pouring is finished, the pouring spoon 41 swings, so that one end, provided with the pouring hole 411, of the pouring spoon 41 tilts upwards, the pouring hole 411 moves to the position above the material receiving plate 51 along with the swinging of the pouring spoon 41, redundant molten metal in the pouring spoon 41 drips onto the material receiving plate 51 through the pouring hole 411, and the molten metal is solidified into solid metal on the material receiving plate 51;

secondly, the first driving mechanism 55 drives the transverse scraping plate 52 to scrape materials towards the positioning plate 54, so as to scrape and gather the solid metal on the material receiving plate 51 at the front side of the positioning plate 54, and the first driving mechanism 55 drives the transverse scraping plate 52 to return to the original position; the second driving mechanism 57 drives the longitudinal scraping plate 53 to scrape materials towards the conveying line 2, and the solid metal gathered at the front side of the positioning plate 54 is pushed into an empty mold 3 to be cast on the conveying line 2;

and step three, the conveying line 2 conveys the empty mold 3 in the step two to a position corresponding to the pouring spoon 41, the pouring spoon 41 swings to scoop out the molten metal in the smelting furnace 1 and flow out of the pouring hole 411 into the mold 3, and the solid metal in the mold 3 is melted in the molten metal which is just poured, so that the solid metal is recycled.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (8)

1. The utility model provides a metal dropping liquid connects material to scrape sediment device locates between smelting pot and the transfer chain, is equipped with a plurality of moulds that arrange the setting in proper order on the transfer chain, and the transfer chain drives the mould and carries its characterized in that forward: the casting mechanism comprises a casting spoon and a support, the middle section of the casting spoon is rotatably connected with the support, so that the casting spoon can swing, one end of the casting spoon extends into the melting furnace, the other end of the casting spoon is provided with a casting hole, and the casting spoon scoops out molten metal in the melting furnace through swinging and flows out of the casting hole into the mold; the material receiving processing mechanism comprises a material receiving plate, a transverse scraping plate and a longitudinal scraping plate, the material receiving plate is arranged on one side, close to the pouring mechanism, of the conveying line and is positioned below one end, provided with a pouring hole, of the pouring spoon, the material receiving plate is used for receiving excess metal liquid dripped from the pouring hole when one end of the pouring spoon is tilted, the metal liquid is solidified into solid metal on the material receiving plate, the transverse scraping plate and the longitudinal scraping plate are movably arranged on the material receiving plate, and the transverse scraping plate scrapes the material in the running direction of the conveying line in a reversible mode and pushes the solid metal on the material receiving plate to the rear side to be gathered; the longitudinal scrapers can scrape materials towards the conveying line, and push the gathered solid metal into an empty mold to be poured on the conveying line.

2. The metal dropping liquid receiving and slag scraping device according to claim 1, characterized in that: the material receiving plate is positioned above the conveying line, the conveying line conveys the die through the material receiving plate, one end of the material receiving plate, facing the direction of the conveying line, extends to be overlapped with the edge, close to the smelting furnace, of the die, and therefore solid metal can be pushed into the die from the material receiving plate.

3. The metal dropping liquid receiving and slag scraping device according to claim 1, characterized in that: the horizontal scraper blade sets up and connects flitch front side, connects the flitch rear side to be equipped with the locating plate with horizontal scraper blade parallel arrangement, connect flitch one side near the smelting pot to be equipped with first actuating mechanism, first actuating mechanism is connected with horizontal scraper blade, and material is scraped to the horizontal scraper blade of first actuating mechanism drive can move towards the locating plate direction, scrapes the solid-state metal on connecing the flitch and pushes away the gathering in the locating plate front side.

4. The metal dropping liquid receiving and slag scraping device according to claim 3, characterized in that: the first driving mechanism comprises a sliding rail, a sliding block and an air cylinder, the sliding block is arranged on the sliding rail in a sliding mode, a connecting piece is arranged between the sliding block and the transverse scraping plate, the air cylinder is connected with the sliding block, the air cylinder drives the sliding block to move on the sliding rail, and then the transverse scraping plate is driven to reciprocate between the front side of the material receiving plate and the positioning plate through the connecting piece.

5. The metal dropping liquid receiving and slag scraping device according to claim 4, characterized in that: the connecting piece comprises a supporting plate, a transition plate and a mounting plate, the supporting plate is arranged on the sliding block, the supporting plate is positioned on one side of the material receiving plate close to the smelting furnace, the transition plate is perpendicular to the supporting plate, the transition plate extends towards the direction of the material receiving plate and is positioned above the material receiving plate, the mounting plate is arranged on one side of the transition plate, and the transverse scraper is detachably mounted on the mounting plate.

6. The metal dropping liquid receiving and slag scraping device according to claim 3, characterized in that: the locating plate sets up with connecing the flitch perpendicularly, and the locating plate rear side is equipped with second actuating mechanism, is equipped with the connecting rod on the second actuating mechanism, the connecting rod is located the locating plate top, and extends to the locating plate front side and be connected with vertical scraper blade, vertical scraper blade sets up in the connecting rod below, and vertical scraper blade bottom surface pastes with connecing the flitch and leans on the setting, and vertical scraper blade one side is leaned on the setting with the locating plate, second actuating mechanism passes through the motion of connecting rod drive vertical scraper blade along locating plate length direction to scrape the solid-state metal of pushing away the gathering in the locating plate front.

7. The metal dropping liquid receiving and slag scraping device according to claim 1, characterized in that: the bottom surface of the transverse scraper is attached to the material receiving plate, a cutting edge is arranged at the bottom of the transverse scraper and is positioned on the rear side of the transverse scraper, and the cutting edge is downwards inclined towards the direction of the rear side of the material receiving plate.

8. A metal dropping liquid receiving and slag scraping method is characterized in that: the method comprises the following steps:

firstly, a pouring spoon swings to scoop out molten metal in a melting furnace and flow out of a pouring hole into a mold; after the pouring is finished, the pouring spoon swings, so that one end, provided with a pouring hole, of the pouring spoon is tilted upwards, the pouring hole moves to the position above the material receiving plate along with the swinging of the pouring spoon, redundant molten metal in the pouring spoon drips onto the material receiving plate through the pouring hole, and the molten metal is solidified into solid metal on the material receiving plate;

scraping materials by a transverse scraper against the running direction of the conveying line, and pushing the solid metal scrapers on the material receiving plate to the rear side of the material receiving plate for gathering; scraping materials towards the direction of the conveying line by a longitudinal scraper, and pushing the solid metal gathered at the rear side of the material receiving plate into an empty mold to be cast on the conveying line;

and step three, conveying the empty mold in the step two to a position corresponding to the pouring spoon by a conveying line, scooping out the molten metal in the melting furnace by swinging the pouring spoon, enabling the molten metal to flow out of the mold from the pouring hole, and melting the solid metal in the mold in the molten metal which is just poured to obtain the solid metal for recycling.

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