CN213377142U

CN213377142U - Construction waste mud stone separation crushing screening grading production system

Info

Publication number: CN213377142U
Application number: CN202022131554.9U
Authority: CN
Inventors: 周瑞锋; 杨进志
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-25
Filing date: 2020-09-25
Publication date: 2021-06-08
Anticipated expiration: 2030-09-25

Abstract

The utility model discloses a construction waste mud stone separation crushing screening grading production system, including receiving the feed bin, the dust remover, the roller bearing sieve, once the counterattack formula breaker, secondary counterattack formula breaker, the hopper under the sieve, the owner transports the belt feeder, the light thing separating centrifuge, the iron thing separating centrifuge, the separating centrifuge reprints the belt feeder, light material storehouse, iron material storehouse and 0 ~ 70mm bucket elevator, the shale shaker, 0 ~ 5mm belt feeder, 5 ~ 50mm belt feeder, the material returning belt feeder, 0 ~ 5mm bucket elevator, 5 ~ 50mm bucket elevator, the loading batcher, 0 ~ 5mm feed bin, the reprinting batcher, the batcher, brickmaking machine production system and mechanism sand production system. The utility model discloses the process route is short, can adapt to factory building formula construction production requirement, and the modularized design is convenient to link up with other production systems, adopts the two-stage impact crusher breakage, can effectively get rid of the iron thing that is mingled with in the concrete piece, reduces artifical intensity of labour and improves production efficiency.

Description

Construction waste mud stone separation crushing screening grading production system

The technical field is as follows:

the utility model relates to a construction waste mud stone separation crushing screening grading production system belongs to construction waste's processing and recycles technical field.

Background art:

the construction waste refers to waste generated in the process of building construction, maintenance and demolition by construction, construction units or individuals, and mainly comprises solid waste, such as waste concrete blocks, asphalt concrete blocks, mortar and concrete scattered in the construction process, broken brick slag, metal, bamboo and wood materials, waste generated in decoration and finishing, various packaging materials, other waste and the like. With the acceleration of urban construction pace, the engineering construction increases, and the production of construction waste also increases at a high speed. Relevant statistics show that the quantity of the construction waste in China accounts for 30% -40% of the total quantity of the urban waste; in the construction process of every ten thousand square meters of buildings, 500-600 tons of construction wastes are generated only. With the acceleration of urban construction progress, construction waste is increased continuously, construction waste harm is more and more obvious, and the time is up to the time when the construction waste must be thoroughly treated.

The existing construction waste treatment system mainly adopts manual sorting or wet flotation separation for separating light materials, so that the production efficiency is low, and secondary pollution is easily caused.

The utility model has the following contents:

the utility model discloses the technical problem that will solve is: the utility model provides a building rubbish mud stone separation crushing screening grading production system, through adopting the crushing of two-stage counterattack formula breaker, can effectively get rid of the iron matter that is mingled with in the concrete piece, through adopting light thing separating centrifuge and iron thing separating centrifuge, can autosegregation go out light thing and iron thing, reduce artifical intensity of labour, improve production efficiency.

The utility model discloses a technical scheme who solves technical problem and take is:

a building rubbish mud stone separation crushing screening grading production system comprises a separation crushing system and a screening grading system, wherein the separation crushing system comprises a receiving bin, a dust remover, a roller screen, a primary impact crusher, a secondary impact crusher, a screen hopper, a main conveying belt conveyor, a light material separator, an iron material separator, a separator transfer belt conveyor, a light material bin, an iron material bin and a 0-70 mm bucket elevator; the screening and grading system comprises a vibrating screen, a 0-5 mm belt conveyor, a 5-50 mm belt conveyor, a material returning belt conveyor, a 0-5 mm bucket elevator, a 5-50 mm bin, a loading feeder, a 0-5 mm bin, a transferring feeder, a machine-made brick production system and a machine-made sand production system; the outlet of the 0-70 mm bucket elevator corresponds to the inlet of the vibrating screen, and the outlet of the material returning belt conveyor corresponds to the inlet of the secondary impact crusher.

The outlet of the receiving bin corresponds to the inlet of the roller screen, the outlet of the roller screen corresponds to the inlet of the undersize funnel and the inlet of the primary impact crusher respectively, the outlets of the undersize funnel and the primary impact crusher correspond to the inlet of the main conveyor belt respectively, and the outlets of the dust remover and the secondary impact crusher also correspond to the inlet of the main conveyor belt respectively; the outlet of the main belt conveyor corresponds to the inlet of the light material separator, the outlet of the light material separator corresponds to the inlets of the iron material separator and the light material bin, the outlet of the iron material separator corresponds to the inlets of the separator transshipment belt conveyor and the iron material bin, the outlet of the separator transshipment belt conveyor corresponds to the inlet of the 0-70 mm bucket elevator, the outlet of the 0-70 mm bucket elevator corresponds to the inlet of the vibrating screen, the outlet of the vibrating screen corresponds to the inlets of the 0-5 mm belt conveyor, the 5-50 mm belt conveyor and the material returning belt conveyor, the outlet of the 0-5 mm belt conveyor corresponds to the inlet of the 0-5 mm bucket elevator, the outlet of the 0-5 mm bucket elevator corresponds to the inlet of the 0-5 bin, and the outlet of the 0-5 bin corresponds to the inlet of the feeder, the outlet of the feeding machine corresponds to the inlet of the machine-made brick production system, the outlet of the 5-50 mm belt conveyor corresponds to the inlet of the 5-50 mm bucket elevator, the outlet of the 5-50 mm bucket elevator corresponds to the inlet of the 5-50 mm bin, the outlets of the 5-50 mm bin correspond to the inlets of the loading feeding machine and the transferring feeding machine respectively, and the outlet of the transferring feeding machine corresponds to the inlet of the machine-made sand production system.

Unloading the transported construction waste with the particle size of 0-400 mm into a receiving bin by a mine car, classifying the materials into the materials with the particle size of 0-50 mm and the materials with the particle size of more than 50mm by a roller screen arranged below the receiving bin, crushing the materials with the particle size of more than 50mm to the materials with the particle size of 0-70 mm by a one-time impact crusher, materials with the particle size of 0-70 mm which are classified by the roller screen and materials with the particle size of 0-50 mm which are crushed by the primary impact crusher are conveyed into the light material separator by the main belt conveyor, after the light materials are separated by a light material separator, the light materials enter a light material bin, the materials with the particle size of 0-70 mm enter an iron material separator, after the iron material is separated by an iron material separator, the iron material enters an iron material bin, conveying the materials with the particle size of 0-70 mm to a vibrating screen for classification through a transfer belt conveyor of a separator and a bucket elevator with the particle size of 0-70 mm;

screening and grading by using a vibrating screen, conveying materials with the particle size of 0-5 mm to a 0-5 mm bin by using a 0-5 mm belt conveyor and a 0-5 mm bucket elevator, arranging a feeder below the 0-5 mm bin, and conveying the materials with the particle size of 0-5 mm to a machine-made brick production system by using the feeder; screening and grading by using a vibrating screen, conveying materials with the particle size of 5-50 mm into a 5-50 mm bin by using a 5-50 mm belt conveyor and a 5-50 mm bucket elevator, carrying out loading and outward transportation on the materials with the particle size of 5-50 mm by using a loading feeder arranged below the 5-50 mm bin, or conveying the materials with the particle size of 5-50 mm into a machine-made sand production system by using a transshipment feeder; screening and grading by a vibrating screen, and conveying the materials with the particle size of more than 50mm to a secondary impact crusher by a material returning belt conveyor;

crushing the materials with the particle size of more than 50mm into the materials with the particle size of 0-50 mm by a secondary impact crusher, conveying the materials with the particle size of 0-50 mm to a light material separator by a main conveying belt conveyor, then conveying the materials to an iron material separator, conveying the materials to a vibrating screen by a separating machine transfer belt conveyor and a 0-70 mm bucket elevator, and screening and grading again.

The utility model discloses an actively beneficial effect as follows:

1. the utility model discloses the process route is short, can adapt to factory building formula construction production requirement, and modular design conveniently links up with other production systems. Adopt the roller screen that has feeding and hierarchical function under the material receiving storehouse, compare with traditional batcher material loading mode and sieve effectual and area is little in advance.

2. The utility model discloses a building rubbish mud stone separation crushing screening grading production system through adopting the two-stage reaction formula breaker breakage, can effectively get rid of the iron matter that is mingled with in the concrete piece, through adopting light thing separating centrifuge and iron thing separating centrifuge, can autosegregation go out light matter and iron thing, reduces artifical intensity of labour, improves production efficiency, arranges light matter and iron material storehouse simultaneously, makes things convenient for the reprocessing of subsequent light matter and iron thing to handle.

3. The processed materials with the particle sizes of 0-5 mm can be conveniently conveyed to a machine-made brick system through a feeding machine below a bin with the particle sizes of 0-5 mm, the materials with the particle sizes of 5-50 mm can be loaded through a loading feeding machine arranged below the bin with the particle sizes of 5-50 mm, or conveyed to a machine-made sand production system through a transshipment feeding machine, and the wastes are recycled to effectively treat the waste garbage of the building.

Description of the drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the separation and crushing system of FIG. 1;

fig. 3 is a schematic structural view of the sieving and classifying system in fig. 1.

The specific implementation mode is as follows:

the invention will be further explained and explained with reference to the drawings and the embodiments:

referring to fig. 1, 2 and 3, the building garbage mud-stone separating, crushing, screening and grading production system comprises a separating and crushing system and a screening and grading system, wherein the separating and crushing system comprises a receiving bin 1, a dust remover 2, a roller screen 3, a primary impact crusher 4, a secondary impact crusher 5, a screen hopper 6, a main conveying belt conveyor 7, a light material separator 8, an iron material separator 9, a separator transfer belt conveyor 10, a light material bin 11, an iron material bin 12 and a 0-70 mm bucket elevator 13; the screening and grading system comprises a vibrating screen 14, a 0-5 mm belt conveyor 15, a 5-50 mm belt conveyor 16, a material returning belt conveyor 17, a 0-5 mm bucket elevator 18, a 5-50 mm bucket elevator 19, a 5-50 mm bin 20, a loading feeder 21, a 0-5 mm bin 22, a transferring feeder 23, a feeder 24, a machine-made brick production system 25 and a machine-made sand production system 26; wherein, the outlet of the bucket elevator 13 with the diameter of 0-70 mm corresponds to the inlet of the vibrating screen 14, and the outlet of the material returning belt conveyor 17 corresponds to the inlet of the secondary impact crusher 5.

The outlet of the receiving bin 1 corresponds to the inlet of the roller screen 3, the outlets of the roller screen 3 correspond to the inlets of the undersize funnel 6 and the primary impact crusher 4 respectively, the outlets of the undersize funnel 6 and the primary impact crusher 4 correspond to the inlet of the main conveyor belt 7 respectively, and the outlets of the dust collector 2 and the secondary impact crusher 5 also correspond to the inlet of the main conveyor belt 7 respectively; the outlet of the main conveyor belt 7 corresponds to the inlet of a light material separator 8, the outlet of the light material separator 8 corresponds to the inlets of an iron material separator 9 and a light material bin 11, the outlet of the iron material separator 9 corresponds to the inlets of a separator transfer belt 10 and an iron material bin 12, the outlet of the separator transfer belt 10 corresponds to the inlet of a 0-70 mm bucket elevator 13, the outlet of the 0-70 mm bucket elevator 13 corresponds to the inlet of a vibrating screen 14, the outlet of the vibrating screen 14 corresponds to the inlets of a 0-5 mm belt conveyor 15, a 5-50 mm belt conveyor 16 and a material return belt conveyor 17, the outlet of the 0-5 mm belt conveyor 15 corresponds to the inlet of a 0-5 mm bucket elevator 18, the outlet of the 0-5 mm bucket elevator 18 corresponds to the inlet of a 0-5 mm bin 22, the outlet of the 0-5 bin 22 corresponds to the inlet of a feeder 24, and the outlet of the feeder 24 corresponds to the inlet of a brick-making feeder, the outlet of the 5-50 mm belt conveyor 16 corresponds to the inlet of the 5-50 mm bucket elevator 19, the outlet of the 5-50 mm bucket elevator 19 corresponds to the inlet of the 5-50 mm bin 20, the outlets of the 5-50 mm bin 20 correspond to the inlets of the loading feeder 21 and the transferring feeder 23 respectively, and the outlet of the transferring feeder 23 corresponds to the inlet of the machine-made sand production system 26.

The utility model discloses the process route is short, can adapt to factory building formula construction production requirement, and modular design conveniently links up with other production systems. Adopt the roller screen that has feeding and hierarchical function under the material receiving storehouse, compare with traditional batcher material loading mode and sieve effectual and area is little in advance. The two-stage impact crusher is adopted for crushing, so that iron objects mixed in the concrete blocks can be effectively removed. The light material separator and the iron material separator are adopted to automatically separate light materials and iron materials, the labor intensity of workers is reduced, the production efficiency is improved, and meanwhile, the light materials and the iron material bins are arranged, so that the subsequent reprocessing of the light materials and the iron materials is facilitated. The processed materials with the particle sizes of 0-5 mm can be conveniently conveyed to a machine-made brick system through a feeding machine below a bin with the particle sizes of 0-5 mm, the materials with the particle sizes of 5-50 mm can be loaded through a loading feeding machine arranged below the bin with the particle sizes of 5-50 mm, or conveyed to a machine-made sand production system through a transshipment feeding machine, and the wastes are recycled to effectively treat the waste garbage of the building.

Claims

1. The utility model provides a hierarchical production system of broken screening of building rubbish mud stone separation which characterized in that: the building garbage mud-stone separating, crushing, screening and grading production system comprises a separating and crushing system and a screening and grading system, wherein the separating and crushing system comprises a receiving bin (1), a dust remover (2), a roller screen (3), a primary impact crusher (4), a secondary impact crusher (5), an undersize funnel (6), a main conveying belt conveyor (7), a light material separator (8), an iron material separator (9), a separator transfer belt conveyor (10), a light material bin (11), an iron material bin (12) and a 0-70 mm bucket elevator (13); the screening and grading system comprises a vibrating screen (14), a 0-5 mm belt conveyor (15), a 5-50 mm belt conveyor (16), a material returning belt conveyor (17), a 0-5 mm bucket elevator (18), a 5-50 mm bucket elevator (19), a 5-50 mm bin (20), a loading feeder (21), a 0-5 mm bin (22), a transferring feeder (23), a feeder (24), a machine-made brick production system (25) and a machine-made sand production system (26); an outlet of the 0-70 mm bucket elevator (13) corresponds to an inlet of the vibrating screen (14), and an outlet of the material returning belt conveyor (17) corresponds to an inlet of the secondary impact crusher (5);

the outlet of the receiving bin (1) corresponds to the inlet of the roller screen (3), the outlet of the roller screen (3) corresponds to the inlet of the undersize funnel (6) and the inlet of the primary impact crusher (4) respectively, the outlets of the undersize funnel (6) and the primary impact crusher (4) correspond to the inlet of the main conveying belt conveyor (7) respectively, and the outlets of the dust remover (2) and the secondary impact crusher (5) also correspond to the inlet of the main conveying belt conveyor (7) respectively; the outlet of the main belt conveyor (7) corresponds to the inlet of the light material separator (8), the outlet of the light material separator (8) corresponds to the inlets of the iron material separator (9) and the light material bin (11), the outlet of the iron material separator (9) corresponds to the inlets of the separator transshipment belt conveyor (10) and the iron material bin (12), the outlet of the separator transshipment belt conveyor (10) corresponds to the inlet of the 0-70 mm bucket elevator (13), the outlet of the 0-70 mm bucket elevator (13) corresponds to the inlet of the vibrating screen (14), the outlet of the vibrating screen (14) corresponds to the inlets of the 0-5 mm belt conveyor (15), the 5-50 mm belt conveyor (16) and the return material (17), the outlet of the 0-5 mm belt conveyor (15) corresponds to the inlet of the 0-5 mm bucket elevator (18), the export of 0 ~ 5mm bucket elevator (18) corresponds the import of 0 ~ 5 feed bin (22), the export of 0 ~ 5 feed bin (22) corresponds batcher (24) import, the export of batcher (24) corresponds the import of machine brick production system (25), the export of 5 ~ 50mm belt feeder (16) corresponds the import of 5 ~ 50mm bucket elevator (19), the export of 5 ~ 50mm bucket elevator (19) corresponds the import of 5 ~ 50mm feed bin (20), the export of 5 ~ 50mm feed bin (20) corresponds respectively the import of loading batcher (21) and elevating conveyor (23), the export of elevating conveyor (23) corresponds the import of machine brick sand production system (26).