CN116020657A

CN116020657A - Broken production system of steel scrap

Info

Publication number: CN116020657A
Application number: CN202310322805.7A
Authority: CN
Inventors: 袁拥军; 袁文通; 王杰; 袁振东; 袁帅东
Original assignee: Handan Hongyuan Renewable Resources Recycling Co ltd
Current assignee: Handan Hongyuan Renewable Resources Recycling Co ltd
Priority date: 2023-03-30
Filing date: 2023-03-30
Publication date: 2023-04-28
Anticipated expiration: 2043-03-30
Also published as: CN116020657B

Abstract

The invention relates to a scrap steel crushing production system which comprises a crusher and a screening device, wherein the screening device comprises a conveyor belt which is obliquely arranged at the left side, the right side and the high side, the conveyor belt is arranged on two rollers, an electromagnet is arranged between the two rollers, a feeding plate is horizontally arranged at the lower part of the right side of the conveyor belt, a vibration exciter I is arranged on the feeding plate, a blanking plate is horizontally arranged at the upper part of the right side of the conveyor belt, a vibration exciter II is arranged on the blanking plate, and the left end of the feeding plate and the left end of the blanking plate are both positioned between the upper end and the lower end of the electromagnet. The broken production system of steel scrap cooperatees with electro-magnet, loading board and flitch through the conveyer belt that the slope set up, has realized the autosegregation of steel scrap and non-magnetic material, structural design is ingenious.

Description

Broken production system of steel scrap

Technical Field

The invention relates to a scrap steel crushing production system, and particularly belongs to the technical field of scrap steel processing.

Background

Scrap steel refers to steel scraps which are not products in the production process of steel plants, steel materials in equipment and components scrapped after use, called scrap steel which comprises steel, called scrap iron which comprises pig iron, and collectively called scrap steel; therefore, the waste steel can be reused after being recycled, and resources are saved. After the recovery of the scrap steel, the scrap steel is required to be crushed, and a large amount of nonmagnetic materials (sponge, sound absorbing cotton, internal decorative strips and the like) are contained in the crushed scrap steel, so that the situation of carrying the nonmagnetic materials easily occurs through a magnetic separator. The common clients solve the problem by blowing with fans and increasing the magnetic separation times, but this easily causes a large amount of dust to be generated in the purification process, resulting in deterioration of the working environment. Aiming at the problems, the invention provides a scrap steel crushing production system which is ingenious in structural design, high in scrap steel screening purity, environment-friendly in production process and high in production efficiency.

Disclosure of Invention

The invention aims to solve the technical problem of providing a scrap steel crushing production system which is ingenious in structural design, high in scrap steel screening purity, environment-friendly in production process and high in production efficiency.

In order to solve the problems, the invention adopts the following technical scheme:

the utility model provides a broken production system of steel scrap, its includes breaker and sieving mechanism, the sieving mechanism includes the conveyer belt that low right side high slope set up in a left side, the conveyer belt sets up on two rollers, is provided with the electro-magnet between two rollers, conveyer belt right side lower part level is provided with the flitch, be provided with vibration exciter one on the flitch, conveyer belt right side upper portion level is provided with the flitch down, be provided with vibration exciter two on the flitch down, the flitch left end and the flitch left end all are located between the upper and lower ends of electro-magnet.

As one implementation mode of the invention, a baffle plate with adjustable height is arranged above the feeding plate along the front-back direction, and a sensor is arranged at the upper part of the baffle plate and used for monitoring the height of materials on the feeding plate at the right side of the baffle plate.

The invention further comprises a impurity removing device, wherein the impurity removing device comprises a first filter plate connected with the right end of the blanking plate and a second filter plate connected with the right end of the first filter plate, a ventilation chamber is arranged above the first filter plate, a plurality of fire-spraying heads are fixedly arranged below the ventilation chamber, and the ventilation chamber is connected with an air source through a pipeline; a water passing chamber is arranged above the second filter plate, a plurality of spray heads are fixedly arranged below the water passing chamber, and the water passing chamber is connected with a water source through a pipeline; the lower parts of the first filter plate and the second filter plate are respectively connected with the second collection box and the third collection box through flexible connecting belts; and heat preservation shells are buckled above the first filter plate and the second filter plate.

As one implementation mode of the invention, the right end of the second filter plate is connected with the third filter plate, and the lower part of the third filter plate is connected with the drying box through a flexible connecting belt; the shell of heat preservation shell is hollow shell, forms the ventilation chamber, the ventilation chamber left end is provided with the air-supply line, the ventilation chamber right-hand member pass through the connecting pipe with stoving bottom of the case portion links to each other.

As one embodiment of the invention, the water passing chamber is connected with a heat exchange tube arranged at the upper part in the heat preservation shell, and the heat exchange tube is made of metal.

As one implementation mode of the invention, the left end of the feeding plate is provided with a bent plate bent downwards, and a first collecting box is arranged below the left end of the feeding plate.

As an implementation mode of the invention, the left end of the blanking plate is vertically provided with an edge.

As an implementation mode of the invention, the collecting box II is provided with an opening at the top, a material guide bottom plate is arranged in the collecting box II, the middle of the material guide bottom plate is low, the two ends of the material guide bottom plate are high, the height of the material guide bottom plate is lower than that of the collecting box II, the material guide bottom plate and the inner walls at the two sides of the collecting box II are fixedly connected together to form a material collecting cavity, and a material discharging cavity is formed between the material guide bottom plate and the two ends of the collecting box II; the guide bottom plate upper surface is provided with the scraper blade, collection box two both sides inner wall be provided with guide bottom plate length trend looks adaptation's guide way, the scraper blade both ends be provided with the deflector that the guide way corresponds, the deflector left and right sides both ends pass through the stay cord with locate the motor at collection box two both ends links to each other.

As one implementation mode of the invention, the upper part of one end of the collecting box is provided with a liquid adding pipe, the inner end of the liquid adding pipe is positioned above the collecting cavity, and the middle part of the side wall of the other end of the collecting box is provided with a liquid discharging pipe communicated with the collecting cavity.

As an implementation mode of the invention, a baffle plate is vertically and fixedly arranged below two ends of the material guide bottom plate, the baffle plate is fixedly connected with the bottom of the collecting box II and the inner walls of the two sides, and the bottoms of the side walls of the two ends of the collecting box II are provided with material outlets.

The beneficial effects of adopting above-mentioned technical scheme to produce lie in:

according to the scrap steel crushing production system provided by the invention, the conveying belt which is obliquely arranged is matched with the electromagnet, the feeding plate and the discharging plate, so that the automatic separation of scrap steel and nonmagnetic materials is realized, and the structural design is ingenious. Be provided with height-adjustable baffle on the loading board, the steel scrap after smashing follows the baffle below passes, can carry out the current limiting to the steel scrap on the loading board, makes steel scrap tiling carry to the loading board left end on the loading board, and the steel scrap is adsorbed on the conveyer belt under the electro-magnet magnetism effect, along with the conveyer belt upwards conveys, and non-magnetic material follows the loading board left end falls into in the collecting box one, through setting up the baffle, can make steel scrap and non-magnetic material separation more thoroughly, avoids carrying non-magnetic material in the steel scrap. The blanking plate, the first filter plate, the second filter plate and the third filter plate are rigidly connected into a whole, materials are conveyed from left to right under the action of the second vibration exciter, the fire-spraying head is arranged in the conveying process, the nonmagnetic materials adhered to the scrap steel can be melted at high temperature and then fall into the second collecting box, the scrap steel is washed through the spray head, the scrap steel is dried through the drying box, impurities on the scrap steel are thoroughly cleaned, the purity of the screened scrap steel is greatly improved, the environment-friendly dust-free production in the whole production process is realized, and the whole production process is fully automatic, so that the production efficiency is high.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is an enlarged schematic view of a portion of fig. 1 at a.

Fig. 3 is a right-side view of the structure of fig. 2.

Fig. 4 is a schematic structural view of a second collecting box in the present invention.

FIG. 5 is a schematic view of another angle structure of a second collecting tank in the present invention.

Fig. 6 is an enlarged partial schematic view at B in fig. 5.

Wherein: 1 roller, 101 rotating shaft, 2 conveyor belt, 3 baffle plates, 4 electromagnets, 5 feeding plate, 6 bending plate, 7 vibration exciter, 8 collecting box, 9 conveying device, 10 baffle plate, 11 connecting plate, 12 lifting cylinder, 13 cylinder rod, 14 sensor, 15 blanking plate, 16 edge, 17 vibration exciter, 18 filter plate, 19 collecting box two, 20 filter plate two, 21 collecting box three, 22 filter plate three, 23 drying box, 24 connecting belt, 25 insulating shell, 2501 ventilation cavity, 26 ventilation chamber, 27 fire-spraying head, 28 heat exchange tube, 29 ventilation chamber, 30 spray head, 31 water pump, 32 air inlet pipe, 33 connecting pipe, 34 conveying device two, 35 collecting box five, 36 guide bottom plate, 37 discharge cavity, 38 guide groove, 39 scraper plate, 40 guide plate, 41 pull rope, 42 motor, 43 liquid adding pipe, 44 liquid discharging pipe, 45 discharge port, 46 baffle plate, 47 aggregate cavity.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be clearly and completely described in connection with the following specific embodiments.

The scrap steel crushing production system shown in fig. 1 comprises a crusher and a screening device, wherein after the crusher crushes scrap steel, the screening device screens the crushed scrap steel, the screening device comprises a conveyor belt 2 which is obliquely arranged at the left low side and the right high side, the conveyor belt 2 is arranged on two rollers 1, a rotating shaft 101 is fixedly arranged in the middle of each roller 1, one rotating shaft 101 is connected with a speed reducing motor, and two ends of the other rotating shaft 101 are arranged on a rack through bearings; an electromagnet 4 is arranged between the two rollers 1, a feeding plate 5 is horizontally arranged at the lower part of the right side of the conveyor belt 2, a vibration exciter I7 is arranged on the feeding plate 5, a discharging plate 15 is horizontally arranged at the upper part of the right side of the conveyor belt 2, a vibration exciter II 17 is arranged on the discharging plate 15, and the left end of the feeding plate 5 and the left end of the discharging plate 15 are both positioned between the upper end and the lower end of the electromagnet 4. The first vibration exciter 7 and the feeding plate 5 form a first horizontal vibration conveyor, the waste steel is conveyed from right to left, the second vibration exciter 17 and the blanking plate 15 form a second horizontal vibration conveyor, and the waste steel is conveyed from left to right. According to the scrap steel crushing production system provided by the invention, the conveyor belt 2 is matched with the electromagnet 4, the feeding plate 5 and the blanking plate 15, when scrap steel is conveyed to the left end of the feeding plate 5, the scrap steel is adsorbed onto the conveyor belt 2, and when the scrap steel is operated above the blanking plate 15, the adsorption effect of the electromagnet 4 is weakened and then falls on the blanking plate 15, and non-magnetic materials directly fall into the first collecting box 8 from the left end of the blanking plate 15, so that the automatic separation of the scrap steel and the non-magnetic materials is realized, and the structural design is ingenious.

In this embodiment, as shown in fig. 1 to 3, a baffle 10 with adjustable height is disposed above the feeding plate 5 along the front-rear direction, and a sensor 14 is disposed on the upper portion of the baffle 10 to monitor the height of the material on the feeding plate 5 on the right side of the baffle 10. Be provided with height-adjustable baffle 10 on the loading board 5, the scrap steel after smashing is followed baffle 10 below passes, can carry out the restriction of flow to the scrap steel on the loading board 5, makes the scrap steel tiling carry to the loading board 5 left end on the loading board 5, and the scrap steel is adsorbed on conveyer belt 2 under electro-magnet 4 magnetism effect, along with conveyer belt 2 upwards conveys, non-magnetic material follows loading board 5 left end falls into in the collecting box one 8, through setting up baffle 10, can make the scrap steel and non-magnetic material separation more thoroughly, avoids carrying non-magnetic material in the scrap steel. The height of the baffle 10 is adjustable, and the height of the baffle 10 is reasonably adjusted according to the size of the crushed waste steel, so that the waste steel passing through the lower part of the baffle 10 is tiled on the feeding plate 5. The sensor 14 is horizontally arranged on the upper portion of the baffle 10, the sensor 14 is horizontally embedded in the feeding plate 5, the sensor 14 is used for detecting the height of the steel scraps piled up on the feeding plate 5 on the right side of the baffle 10, and when the piled height of the steel scraps on the feeding plate 5 can be detected by the sensor 14, the conveying device 9 pauses to convey the steel scraps onto the feeding plate 5, so that the steel scraps on the feeding plate 5 are prevented from being piled up too much. The sensor 14 is a laser sensor or a photoelectric sensor.

As shown in fig. 1, the screening device further includes a impurity removing device, the impurity removing device includes a first filter plate 18 connected to the right end of the blanking plate 15, and a second filter plate 20 connected to the right end of the first filter plate 18, a ventilation chamber 26 is disposed above the first filter plate 18, a plurality of fire nozzles 27 are fixedly disposed below the ventilation chamber 26, and the ventilation chamber 26 is connected with a combustible gas source through a pipeline; a water passing chamber 29 is arranged above the second filter plate 20, a plurality of spray heads 30 are fixedly arranged below the water passing chamber 29, and the water passing chamber 29 is connected with a water source through a pipeline; the lower parts of the first filter plate 18 and the second filter plate 20 are respectively connected with the second collecting box 19 and the third collecting box 21 through flexible connecting belts 24; a heat preservation shell 25 is buckled above the first filter plate 18 and the second filter plate 20. The blanking plate 15, the first filter plate 18, the second filter plate 20 and the third filter plate 22 are rigidly connected into a whole, materials are conveyed from left to right under the action of the second vibration exciter 17, the non-magnetic materials adhered to the waste steel can be melted at high temperature in the conveying process by arranging the flame spraying heads 27, then fall into the second collecting box 19, the waste steel is washed by the spray heads 30, the waste steel is dried by the drying box 23, impurities on the waste steel are thoroughly cleaned, the purity of the screened waste steel is greatly improved, the whole production process is environment-friendly and dust-free, the whole production process is fully automatic, and the production efficiency is high.

As a further optimization, the water passing chamber 29 is connected with a heat exchange tube 28 arranged at the upper part in the heat preservation shell 25, the heat exchange tube 28 is arranged in the heat preservation shell 25 in a disc mode, the water inlet end penetrates out of the heat preservation shell 25, and the heat exchange tube 28 is made of metal. By arranging the heat exchange tubes 28, the temperature of the sprayed steel scraps is higher, the steel scraps are cleaned more cleanly, and the temperature of the sprayed steel scraps is reduced less, so that the gas drying in the next step is facilitated.

As further optimization, the right end of the second filter plate 20 is connected with a third filter plate 22, and the lower part of the third filter plate 22 is connected with a drying box 23 through a flexible connecting belt 24; the shell of the heat preservation shell 25 is a hollow shell, a ventilation cavity 2501 is formed, an air inlet pipe 32 is arranged at the left end of the ventilation cavity 2501, the right end of the ventilation cavity 2501 is connected with the bottom of the drying box 23 through a connecting pipe 33, and an exhaust fan is arranged on the connecting pipe 33. By providing the ventilation chamber 2501, the air introduced into the air inlet pipe 32 is heated in the ventilation chamber 2501, so that the utilization of heat energy is realized as much as possible, no additional heating equipment is needed, and the energy consumption is reduced. In addition, by providing the flexible connecting band 24, the first filter plate 18, the second filter plate 20 and the third filter plate 22 can be prevented from transmitting vibration to the second collecting tank 19, the third collecting tank 21 and the drying tank 23.

As further optimization, the left end of the feeding plate 5 is provided with a bent plate 6 bent downwards, and a first collecting box 8 is arranged below the left end of the feeding plate 5. Through setting up bent plate 6 can make the steel scrap be close gradually conveyer belt 2, in the steel scrap falls into collecting box one 8 again after bent plate 6, prolonged the steel scrap and be close to conveyer belt 2's time, when the steel scrap was not adsorbed on the conveyer belt 2 surface when just being close to conveyer belt 2, can continuously take place the adsorption in when passing through bent plate 6, improved the rate of recovery of steel scrap.

Edges 16 are vertically arranged at the left end and the two sides of the blanking plate 15, so that scrap steel is prevented from vibrating down from the blanking plate 15. In addition, edges 16 are also provided on both sides of the loading plate 5.

The first conveying device 9 and the second conveying device 34 are both conveying belts. As a further optimization, a plurality of baffle plates 3 are uniformly arranged on the surface of the conveyor belt 2 along the conveying direction, the length directions of the baffle plates 3 are mutually parallel to the axis of the roller 1, and by arranging the baffle plates 3, the scrap steel can be conveyed from bottom to top along with the conveyor belt 2 under the action of the baffle plates 3 after being adsorbed on the conveyor belt 2.

As shown in fig. 4-6, as a further optimization, the top of the second collecting box 19 is opened, a material guiding bottom plate 36 is arranged in the second collecting box, the middle of the material guiding bottom plate 36 is low, the two ends of the material guiding bottom plate are high, the height of the material guiding bottom plate 36 is lower than that of the second collecting box 19, the material guiding bottom plate 36 and the inner walls of the two sides of the second collecting box 19 are fixedly connected together to form an aggregate cavity 47, water is contained in the aggregate cavity 47, and a material discharging cavity 37 is formed between the material guiding bottom plate 36 and the two ends of the second collecting box 19; the upper surface of the guide bottom plate 36 is provided with a scraper 39 along the width direction, the scraper 30 is always vertical to the upper surface of the guide bottom plate 36, the inner walls of the two sides of the second collecting box 19 are provided with guide grooves 38 which are matched with the length trend of the guide bottom plate 36, the two ends of the scraper 39 are provided with rectangular guide plates 40 corresponding to the guide grooves 38, the left end and the right end of each guide plate 40 are connected with motors 42 arranged at the two ends of the second collecting box 19 through pull ropes 41, the motors 42 are speed reducing motors, the output shafts of the motors 42 are provided with winding wheels corresponding to the pull ropes 41, and the motors 42 at the two ends of the second collecting box 19 synchronously take up and pay off wires respectively, so that the scraper 30 reciprocates along the track of the guide grooves 38, and non-magnetic materials sinking into the guide bottom plate 36 are scraped into the discharge cavity 37 from the two ends of the guide bottom plate 36. The length of the guiding groove 38 is reasonably set, so that when the scraping plate 39 moves to the two ends of the guiding groove 38, the bottom of the scraping plate 39 is not lower than the two ends of the guiding bottom plate 36. The length of the guide plate 40 and the bending radian of the guide groove 38 are reasonably set, so that the guide plate 40 can smoothly and reciprocally slide in the guide groove 38.

The upper portion of one end of the second collecting box 19 is provided with a liquid adding pipe 43, the inner end of the liquid adding pipe 43 is located above the collecting cavity 47, namely, water is added into the collecting cavity 47 through the liquid adding pipe 43, the middle portion of the side wall of the other end of the second collecting box 19 is provided with a liquid discharging pipe 44 communicated with the collecting cavity 47, and the collecting cavity 47 is in water circulation with an external cooling pond through the liquid adding pipe 43 and the liquid discharging pipe 44. The temperature of the non-magnetic material after high temperature melting is high, so that the flowing water introduced into the aggregate cavity 47 is cooled and solidified, and the non-magnetic material after solidification can sink into the water or float on the water surface, so that the liquid discharge pipe 44 is arranged in the middle of the second collecting box 19, and a filter screen is arranged at the inner end of the liquid discharge pipe 44 to prevent the non-magnetic material from being blocked. In addition, since the water is added to one end of the collecting chamber 47 and one end is drained, the non-magnetic material floating on the water surface is flushed to one end of the collecting chamber 47 where the drain pipe 44 is disposed, and when the scraper 30 moves to one end of the collecting chamber 47 where the drain pipe 44 is disposed, the floating non-magnetic material is scraped into the discharging chamber 37 together.

As a further optimization, a partition plate 46 is vertically and fixedly arranged below two ends of the material guiding bottom plate 36, the partition plate 46 is fixedly connected with the bottom of the second collecting box 19 and the inner walls at two sides, and a material outlet 45 is formed in the bottom of the side wall at two ends of the second collecting box 19. By arranging the partition plate 46, the discharging cavity 37 forms a square cavity, so that materials can be conveniently discharged from the discharging hole 45. In addition, an inclined plate with the outer end propped against the discharge opening 45 and the inner end propped against the partition plate 46 can be arranged at the bottom of the discharge cavity 37, so that materials can be conveniently guided out of the discharge opening 45 directly.

Although the invention has been described in detail with reference to the foregoing embodiments, those skilled in the art may modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some technical features thereof; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. Broken production system of steel scrap, its characterized in that: the screening device comprises a crusher and a screening device, wherein the screening device comprises a conveyor belt which is arranged in a left-low right-high inclined manner, the conveyor belt is arranged on two rollers, an electromagnet is arranged between the two rollers, a feeding plate is horizontally arranged at the lower part of the right side of the conveyor belt, a vibration exciter I is arranged on the feeding plate, a blanking plate is horizontally arranged at the upper part of the right side of the conveyor belt, a vibration exciter II is arranged on the blanking plate, and the left end of the feeding plate and the left end of the blanking plate are both positioned between the upper end and the lower end of the electromagnet.

2. A scrap steel crushing production system in accordance with claim 1, wherein: the upper part of the feeding plate is provided with a baffle plate with adjustable height along the front-back direction, and the upper part of the baffle plate is provided with a sensor for monitoring the height of the material on the feeding plate on the right side of the baffle plate.

3. A scrap steel crushing production system according to claim 1 or 2, characterized in that: the device comprises a first filter plate connected with the right end of the blanking plate and a second filter plate connected with the right end of the first filter plate, a ventilation chamber is arranged above the first filter plate, a plurality of flame-spraying heads are fixedly arranged below the ventilation chamber, and the ventilation chamber is connected with an air source through a pipeline; a water passing chamber is arranged above the second filter plate, a plurality of spray heads are fixedly arranged below the water passing chamber, and the water passing chamber is connected with a water source through a pipeline; the lower parts of the first filter plate and the second filter plate are respectively connected with the second collection box and the third collection box through flexible connecting belts; and heat preservation shells are buckled above the first filter plate and the second filter plate.

4. A scrap steel crushing production system in accordance with claim 3, wherein: the right end of the second filter plate is connected with a third filter plate, and the lower part of the third filter plate is connected with a drying box through a flexible connecting belt; the shell of heat preservation shell is hollow shell, forms the ventilation chamber, the ventilation chamber left end is provided with the air-supply line, the ventilation chamber right-hand member pass through the connecting pipe with stoving bottom of the case portion links to each other.

5. The scrap steel crushing production system of claim 4, wherein: the water passing chamber is connected with a heat exchange tube arranged at the upper part in the heat preservation shell, and the heat exchange tube is made of metal.

6. The scrap steel crushing production system of claim 5, wherein: the left end of the feeding plate is provided with a bent plate bent downwards, and a first collecting box is arranged below the left end of the feeding plate.

7. The scrap steel crushing production system of claim 6, wherein: the left end of the blanking plate is vertically provided with an edge.

8. A scrap steel crushing production system in accordance with claim 3, wherein: the collecting box II is provided with an opening at the top, a material guide bottom plate is arranged in the collecting box II, the middle of the material guide bottom plate is low, the two ends of the material guide bottom plate are high, the height of the material guide bottom plate is lower than that of the collecting box II, the material guide bottom plate and the inner walls of the two sides of the collecting box II are fixedly connected together to form a material collecting cavity, and a material discharging cavity is formed between the material guide bottom plate and the two ends of the collecting box II; the guide bottom plate upper surface is provided with the scraper blade, collection box two both sides inner wall be provided with guide bottom plate length trend looks adaptation's guide way, the scraper blade both ends be provided with the deflector that the guide way corresponds, the deflector left and right sides both ends pass through the stay cord with locate the motor at collection box two both ends links to each other.

9. The scrap steel crushing production system of claim 8, wherein: the collecting box is characterized in that a liquid adding pipe is arranged on the upper portion of one end of the collecting box II, the inner end of the liquid adding pipe is located above the collecting cavity, and a liquid discharging pipe communicated with the collecting cavity is arranged in the middle of the side wall of the other end of the collecting box II.

10. A scrap steel crushing production system in accordance with claim 9, wherein: the baffle has vertically set firmly to guide bottom plate both ends below, the baffle links firmly together with collection box two bottoms and both sides inner wall, the lateral wall bottom at collection box two both ends is provided with the bin outlet.