CN214916882U - After-use ramming material processing system - Google Patents

Abstract

The utility model is suitable for an industrial production line technical field provides a material processing system smashes with back, include: a storage bin; a feeding device; a crushing device; a material lifting device; a vibrating screen device; the first belt conveying device is used for returning part of materials to the crushing device for secondary crushing treatment; carry out crushing treatment in carrying breaker through feeder with the material in the feed bin, the material after with crushing treatment passes through material hoisting device and promotes the shale shaker device top, and pour the material into and carry out vibration treatment on the shale shaker device, first belt conveyor is arranged in returning partial material to carrying out crushing treatment once more in the breaker, carry out hierarchical recovery through a plurality of recovery units with the material after the vibration treatment, thereby make the recovery efficiency of material good, high in production efficiency, it is convenient to retrieve, and the security is high, and application scope is wide.

Description

After-use ramming material processing system

Technical Field

The utility model belongs to the technical field of the industrial production line, especially, relate to a material processing system is beaten to back.

Background

In recent years, with the development of the alloy steel industry, the demand of alloy steel smelting for refractory materials is increased year by year, which not only drives the demand and progress of refractory materials, but also generates a great amount of waste refractory materials. Most of the waste refractory materials are buried, so that a large amount of land is occupied, the ecological environment is polluted, and the waste of resources is great. The existing stainless steel and special steel smelting electric furnace provides a production company for environment-friendly reinforced furnace lining materials, not only pays attention to the popularization and application of new products in the process of market development, but also investigates the current situation of the used furnace lining materials. A large amount of waste furnace linings are traditionally produced and used as garbage for burying treatment; however, the fact that most of the waste furnace linings treated as garbage are new materials which are not corroded and damaged actually is found that the waste furnace linings treated as garbage not only pollute the environment and occupy the land, but also waste refractory materials, and are low in production efficiency and poor in material guiding effect.

SUMMERY OF THE UTILITY MODEL

The utility model provides a use back ramming material processing system aims at solving the problem that current production efficiency is low, the guide effect is poor, the wasting of resources.

The utility model discloses a realize like this, a with back ramming material processing system, include:

the storage bin is used for placing materials;

the feeding device is arranged below one side of the stock bin and is used for conveying the materials in the stock bin to the next station;

the crushing device is arranged at the tail end of the feeding device and is used for crushing the materials conveyed by the feeding device;

the material lifting device is arranged at the tail end of the crushing device and used for lifting the crushed material to the next station;

the vibrating screen device is arranged below one side of the material lifting device and is used for carrying out vibrating screening treatment on the crushed material;

the recovery devices are arranged at the tail ends of the vibrating screen devices and are used for grading and recovering the crushed materials;

and a first belt conveying device is further arranged between the crushing device and the vibrating screen device and used for returning part of materials to the crushing device for secondary crushing treatment.

Still further, the vibrating screen apparatus includes: the material lifting device comprises a first vibrating screen and a second vibrating screen, wherein the first vibrating screen is arranged on one side of the material lifting device, the second vibrating screen is arranged below the tail end of the first vibrating screen, one end of a first belt conveying device is arranged below the tail end of the first vibrating screen, and the other end of the first belt conveying device is arranged on the crushing device.

Still further, the plurality of recovery devices comprises: the first recovery device is arranged below the tail end of the first vibrating screen, and the second recovery device, the third recovery device, the fourth recovery device and the fifth recovery device are arranged below the tail end of the second vibrating screen.

Furthermore, the feeding device is a vibrating feeder, one end of the vibrating feeder is arranged on the stock bin, and the other end of the vibrating feeder is arranged on the crushing device.

Still further, the crushing apparatus comprises: first breaker, second breaker and setting are in first breaker with second belt conveyor between the second breaker, first breaker sets up on feeder's the end, the one end setting of second breaker is in on second belt conveyor's the end, the other end setting of second breaker is in on one side of material hoisting device.

Still further, the device comprises a permanent magnet roller, wherein the permanent magnet roller is arranged at the tail end of the second belt conveying device.

Furthermore, the dust-proof device further comprises a first dust-proof hopper and a second dust-proof hopper, wherein the first dust-proof hopper is arranged below the first crushing device, and the second dust-proof hopper is arranged below the second crushing device.

Still further, the first crushing device is a jaw crusher.

Still further, the second crushing device is a counterattack crusher.

Furthermore, the material lifting device is a bucket elevator.

Compared with the prior art, the utility model discloses the beneficial effect who reaches: carry out crushing treatment in carrying breaker through feeder with the material in the feed bin, promote the material after crushing treatment to shale shaker device top through material hoisting device to pour the material into and carry out vibration treatment on the shale shaker device, wherein, breaker with still be equipped with first belt conveyor between the shale shaker device, first belt conveyor is used for returning partial material back carry out crushing treatment once more in the breaker, carry out hierarchical recovery through a plurality of recovery units with the material after the vibration treatment, thereby make the recovery efficiency of material good, production efficiency is high, retrieves conveniently, and the security is high, and accommodation is wide.

Drawings

FIG. 1 is a front view of a post-consumer ramming mass processing system provided by the present invention;

fig. 2 is a top view of a post-consumer ramming mass treatment system provided by the present invention.

In the figure, 1, a storage bin, 2, a feeding device, 3, a crushing device, 31, a first crushing device, 32, a second crushing device, 4, a material lifting device, 5, a vibrating screen device, 51, a first vibrating screen, 52, a second vibrating screen, 6, a first belt conveying device, 7, a second belt conveying device, 8, a plurality of recovery devices, 81, a first recovery device, 82, a second recovery device, 83, a third recovery device, 84, a fourth recovery device, 85, a fifth recovery device, 9, a first support, 10, a second support, 11, a first dust-proof hopper, 12, a second dust-proof hopper, 13, a permanent magnet roller, 14 and a blanking chute.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The embodiment of the utility model provides a carry out crushing treatment in carrying breaker through the material of feeder in with the feed bin, promote shale shaker device top through material hoisting device with material (material) after the crushing treatment to pour the material into and carry out vibration treatment on the shale shaker device, wherein, breaker with still be equipped with first belt conveyor between the shale shaker device, first belt conveyor is used for returning partial material to carry out crushing treatment once more in the breaker, carry out the hierarchical recovery through a plurality of recovery units with the material after the vibration treatment, thereby make the recovery efficiency of material good, production efficiency is high, and it is convenient to retrieve, and the security is high, and accommodation is wide.

Example one

The utility model provides a use back ramming material processing system, as shown in fig. 1-2, include: the storage bin 1 is used for placing materials; the feeding device 2 is arranged below one side of the stock bin 1, and is used for conveying the materials in the stock bin 1 to the next station; the crushing device 3 is arranged at the tail end of the feeding device 2 and is used for crushing the material conveyed by the feeding device 2; the material lifting device 4 is arranged at the tail end of the crushing device 3 and used for lifting the crushed material to the next station; the vibrating screen device 5 is arranged below one side of the material lifting device 4 and is used for carrying out vibrating screening treatment on the crushed material; the recovery devices 8 are arranged at the tail end of the vibrating screen device 5, and are used for grading and recovering the crushed materials, and the recovery devices 8 are arranged at the tail end of the vibrating screen device 5; a first belt conveying device 6 is further arranged between the crushing device 3 and the vibrating screen device 5, and the first belt conveying device 6 is used for returning part of the materials to the crushing device 3 for crushing again.

Specifically, carry out crushing treatment in carrying breaker 3 through feeder 2 with the material in the feed bin 1, promote the material after crushing treatment to 5 tops of shale shaker device through material hoisting device to pour the material into and carry out vibration treatment on the shale shaker device 5, wherein, breaker 3 with still be equipped with first belt conveyor 6 between the shale shaker device 5, first belt conveyor 6 is used for returning partial material to carry out crushing treatment once more in breaker 3, carry out hierarchical recovery through a plurality of recovery unit 8 with the material after the vibration treatment, thereby make the recovery efficiency of material good, production efficiency is high, and it is convenient to retrieve, and the security is high, and accommodation is wide.

In the present embodiment, as shown in fig. 1-2, the vibrating screen device 5 includes: the material lifting device comprises a first vibrating screen 51 arranged on one side of the material lifting device 4 and a second vibrating screen 52 arranged below the tail end of the first vibrating screen 51, one end of a first belt conveying device 6 is arranged below the tail end of the first vibrating screen 51, and the other end of the first belt conveying device 6 is arranged on the crushing device 3.

Specifically, the first vibrating screen 51 is used for screening the crushed materials on the material lifting device 4 for the first time, collecting the crushed materials after screening, and returning the crushed materials to the crushing device 3 through the first belt conveying device 6 for crushing again. The second vibrating screen 52 is used for classifying and screening the materials processed by the first vibrating screen 51 to a plurality of recovery devices 8 for collection, and the first vibrating screen 51 and the second vibrating screen 52 have good vibrating screening effect and convenient use.

Furthermore, the model of the first vibrating screen 51 is a 2HCZ1020 vibrating screen, the model of the second vibrating screen 52 is a 3HCZ1030 vibrating screen, and the first vibrating screen 51 and the second vibrating screen 52 are linear vibrating screens, so that the screening efficiency is high.

Further, as shown in fig. 1, a first support 9 is disposed below the first vibrating screen 51, a second support 10 is disposed below the second vibrating screen 52, the first support 9 is used for supporting and fixing the first vibrating screen 51, and the second support 10 is used for supporting and fixing the second vibrating screen 52. Wherein, the height of the first bracket 9 is larger than that of the second bracket 10, so that the first vibrating screen 51 can enter the second vibrating screen 52 after being vibrated and screened.

Further, as shown in fig. 2, a feeding chute 14 is provided between the first belt conveyor 6 and the crushing device 3, so that the oversize material on the first vibrating screen 51 can be conveniently returned to the crushing device 3.

In the present embodiment, as shown in fig. 2, the plurality of recovery devices 8 includes: a first recovery device 81, a second recovery device 82, a third recovery device 83, a fourth recovery device 84, and a fifth recovery device 85, wherein the first recovery device 81 is disposed under a distal end of the first vibrating screen 51, and the second recovery device 82, the third recovery device 83, the fourth recovery device 84, and the fifth recovery device 85 are disposed under a distal end of the second vibrating screen 52.

Specifically, the first recycling device 81 is used for recycling the first recycled material on the first vibrating screen 51, and the second recycling device 82, the third recycling device 83, the fourth recycling device 84 and the fifth recycling device 85 are respectively used for recycling the second recycled material, the third recycled material, the fourth recycled material and the fifth recycled material on the second vibrating screen 52.

Wherein the range of the first reclaimed material is 3-5mm, the range of the second reclaimed material is 1-3mm, the range of the third reclaimed material is 0.5-1mm, the range of the fourth reclaimed material is 0.2-0.5mm, and the range of the fifth reclaimed material is 0-0.2 mm. The reclaimed materials are convenient to grade, the collection effect is good, and the application is wide.

In the present embodiment, as shown in fig. 1-2, the feeding device 2 is a vibrating feeder, one end of the vibrating feeder is disposed on the bin 1, and the other end of the vibrating feeder is disposed on the crushing device 3.

Specifically, the one end through the vibrating feeder feeds the material in the feed bin 1 to the breaker 3 and carries out crushing treatment, and the vibrating feeder feeding is effectual.

Furthermore, the model of the vibrating feeder is GZG40-4, so that the feeding effect is better.

In the present embodiment, as shown in fig. 1-2, the crushing apparatus 3 includes: a first crushing device 31, a second crushing device 32, and a second belt conveyor 7 disposed between the first crushing device 31 and the second crushing device 32, the first crushing device 31 being disposed on a distal end of the feeding device 2, one end of the second crushing device 32 being disposed on a distal end of the second belt conveyor 7, the other end of the second crushing device 32 being disposed on a side of the material lifting device 4.

Specifically, on carrying the material to first breaker 31 through feeder 2, carry out primary crushing processing back through first breaker 31, carry the material to carry out crushing processing on second breaker 32 through second belt conveyors 7 for the material crushing effect is better. The second belt conveying device 7 has a good material conveying effect and is widely used. Meanwhile, the material crushed by the second crushing device 32 is lifted by the lower end of the material lifting device 4 to be conveyed to the upper end thereof, and discharged to the first vibrating screen 51 through the upper end of the material lifting device 4 to be subjected to vibratory screening. Particle materials after fine crushing treatment is carried out through the first crushing device 31 and the second crushing device 32, a part of 'false particles' exist, the 'false particles' generally exist in a mode of fine powder agglomeration or fine powder wrapping fine particle materials, the inclined mixing roll is used for scattering the 'false particles' in the project, the effect of particle shaping is achieved, the efficiency of particle shaping is higher than that of an edge runner mill commonly used in the industry, and the particles are smaller after being crushed.

Further, since the first crushing device 31 and the second crushing device 32 have strong vibration, loud noise, etc. when they are operated, they are generally installed underground, thereby effectively reducing noise.

In this embodiment, as shown in fig. 1-2, a permanent magnet roller 13 is further included, and the permanent magnet roller 13 is disposed at the end of the second belt conveyor 7. The iron-containing substances of the granular materials on the second belt conveyor 7, a large part of which are steel scraps and iron oxide dust for alloy steel smelting, can be removed by the permanent magnet roller 13 to remove most of ferromagnetic impurities.

Furthermore, the model of the permanent magnet roller 13 is GTZ-32/40 permanent magnet roller 13, so that the iron removal effect is good and the use is convenient.

In this embodiment, as shown in fig. 1-2, a first dust-proof hopper and a second dust-proof hopper 12 are further included, the first dust-proof hopper 11 is disposed below the first crushing device 31, and the second dust-proof hopper 12 is disposed below the second crushing device 32. Raise dust hopper 11 and second through first prevent raise dust hopper 12 can be collected first breaker 31, the raise dust that second breaker 32 produced at the during operation respectively, and the security is high, pollutes for a short time.

In the present embodiment, as shown in fig. 1-2, the first crushing device 31 is a jaw crusher. Jaw crusher, commonly called jaw crusher, also named as tiger's mouth. The crusher is a crusher which is provided with a crushing cavity consisting of two jaw plates of a movable jaw and a static jaw and simulates the movement of two jaws of an animal to finish the crushing operation of materials. Simple structure, easy manufacture and reliable work.

Furthermore, the jaw crusher is PEX-250 x 400 jaw crusher, so that the material crushing effect is good, and the use is convenient.

In this embodiment, as shown in fig. 1-2, the second crushing device 32 is a counterattack crusher. The impact crusher has the advantages of simple structure, large crushing ratio, low energy consumption, high yield, cubic material after crushing, etc.

Furthermore, the model of the impact crusher is PE0607 impact crusher, which is convenient for performing impact fine crushing treatment on the crushed materials to meet fine crushing requirements of different materials.

In the present embodiment, as shown in fig. 1-2, the material lifting device 4 is a bucket elevator. The bucket elevator is a continuous conveying machine for vertically lifting materials by utilizing a series of hoppers uniformly and fixedly connected to an endless traction member, and the bucket elevator is used for conveying bulk materials upwards in the vertical direction or a direction close to the vertical direction by utilizing a series of hoppers fixedly connected to a traction chain or an adhesive tape.

Furthermore, the type of the bucket elevator is TD160 or TD200 bucket elevator, the material lifting and conveying effect is good, the bearing capacity is strong, and the adaptability is wide.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A post-consumer ramming mass processing system, comprising:

the storage bin is used for placing materials;

the feeding device is arranged below one side of the stock bin and is used for conveying the materials in the stock bin to the next station;

the crushing device is arranged at the tail end of the feeding device and is used for crushing the materials conveyed by the feeding device;

the material lifting device is arranged at the tail end of the crushing device and used for lifting the crushed material to the next station;

the vibrating screen device is arranged below one side of the material lifting device and is used for carrying out vibrating screening treatment on the crushed material;

the recovery devices are arranged at the tail ends of the vibrating screen devices and are used for grading and recovering the crushed materials;

and a first belt conveying device is further arranged between the crushing device and the vibrating screen device and used for returning part of materials to the crushing device for secondary crushing treatment.

2. The post-consumer ramming mass processing system of claim 1, wherein the vibratory screen apparatus comprises: the material lifting device comprises a first vibrating screen and a second vibrating screen, wherein the first vibrating screen is arranged on one side of the material lifting device, the second vibrating screen is arranged below the tail end of the first vibrating screen, one end of a first belt conveying device is arranged below the tail end of the first vibrating screen, and the other end of the first belt conveying device is arranged on the crushing device.

3. The post-consumer ramming mass processing system of claim 2, wherein the plurality of reclamation devices comprises: the first recovery device is arranged below the tail end of the first vibrating screen, and the second recovery device, the third recovery device, the fourth recovery device and the fifth recovery device are arranged below the tail end of the second vibrating screen.

4. The post-consumer rammed mass processing system of claim 1, wherein the feeding device is a vibratory feeder, one end of the vibratory feeder being disposed on the silo and the other end of the vibratory feeder being disposed on the crushing device.

5. The post-consumer ramming mass processing system of claim 4, wherein the breaking device comprises: first breaker, second breaker and setting are in first breaker with second belt conveyor between the second breaker, first breaker sets up on feeder's the end, the one end setting of second breaker is in on second belt conveyor's the end, the other end setting of second breaker is in on one side of material hoisting device.

6. The post-consumer ramming mass processing system of claim 5, further comprising a permanent magnet drum disposed on the end of the second belt conveyor.

7. The post-consumer rammed mass processing system of claim 5, further comprising a first dust hopper disposed below the first crushing device and a second dust hopper disposed below the second crushing device.

8. The post-consumer ramming mass processing system of claim 5, wherein the first crushing device is a jaw crusher.

9. The post-consumer ramming mass processing system of claim 5, wherein the second crushing device is an impact crusher.

10. The post-consumer ramming mass processing system of claim 1, wherein the material lifting device is a bucket elevator.

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