CN210815623U - Processing system suitable for build sediment waste material - Google Patents

Abstract

The utility model relates to a build sediment processing technology field, a processing system suitable for build sediment wastes material is disclosed, including the breaker system, the export of breaker system has the import of one-level rubbing crusher through first band conveyer intercommunication, the export of one-level rubbing crusher has the import of syllogic roll screen through second band conveyer intercommunication, the syllogic roll screen is including thin material export, medium material export, thick material export, the thin material export of syllogic roll screen is equipped with the third band conveyer that can transport the material, the medium material export of syllogic roll screen has the import of second grade rubbing crusher through fourth band conveyer intercommunication, second grade rubbing crusher's export is equipped with the fifth band conveyer that can transport the material, thick material export is through the import intercommunication of sixth band conveyer and one-level rubbing crusher. The utility model discloses a design has solved the material that current sediment processing system of building obtained inhomogeneous, the lower problem of material finished product quality.

Description

Processing system suitable for build sediment waste material

Technical Field

The utility model relates to a build sediment processing technology field, in particular to processing system suitable for build sediment wastes material.

Background

The construction slag refers to waste soil, waste materials and other wastes generated in the process of building, rebuilding, expanding and dismantling various buildings, structures and the like by construction units and house decoration and fitment by residents.

At present, in the rapid development of cities and towns, a large amount of construction slag is generated during the renovation and the demolition of buildings, the construction slag is recycled and then used as raw materials for buildings or production raw materials for bricks, the existing construction slag treatment system mainly comprises a crusher, a primary crusher, a rolling screen and a secondary crusher connected with a discharge port of the rolling screen, the construction slag is put into the crusher, after the construction slag is treated by the primary crusher and the rolling screen, fine materials (with the particle size of less than 0.3mm) are conveyed to a No. 1 finished product warehouse through a conveying device to be used as raw materials for buildings, coarse materials (with the particle size of more than 0.3mm) are conveyed into the secondary crusher to be treated again, and the materials (with the particle size of 0.34mm-0.78mm) are conveyed into a No. two finished product warehouse to be used as the production raw materials for.

In the building treatment system, coarse materials (mainly comprising materials with the particle sizes of 0.34-0.78 mm and more than 0.78mm) screened by the rolling screen have larger particle size difference distribution and are directly sent into the secondary crusher for treatment, so that the materials obtained by the secondary crusher are not uniform, and the quality of finished products (raw materials for producing bricks) of the materials is reduced.

In view of the above, it is desirable to design a treatment system suitable for the slag waste to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Based on above problem, the utility model provides a processing system suitable for build sediment wastes material has solved the material that current sediment processing system of building obtained inhomogeneous, the lower problem of material finished product quality.

For solving the above technical problem, the utility model discloses a technical scheme as follows:

the utility model provides a processing system suitable for build sediment waste material, including the breaker system, the export of breaker system has the import of one-level rubbing crusher through first band conveyer intercommunication, the export of one-level rubbing crusher has the import of syllogic roll screen through second band conveyer intercommunication, the syllogic roll screen includes the export of fine material, medium material export, thick material export, the fine material export of syllogic roll screen is equipped with the third band conveyer that can transport the material, the medium material export of syllogic roll screen has the import of second grade rubbing crusher through fourth band conveyer intercommunication, second grade rubbing crusher's export is equipped with the fifth band conveyer that can transport the material, thick material export communicates through the import of sixth band conveyer with one-level rubbing crusher.

The utility model discloses a principle and effect: the end of a third belt conveyor, which is far away from the three-section type rolling screen, is communicated with a first finished product warehouse, the end of a fifth belt conveyor, which is far away from the three-section type rolling screen, is communicated with a second finished product warehouse, the power supply of the device is switched on for operation, the building slag is put in through an inlet of the crusher, the building slag is conveyed into a first-stage crusher through a first belt conveyor after primary crushing of a crusher system, the building slag is conveyed into the three-section type rolling screen through a second belt conveyor after being processed by the first-stage crusher, powder discharged from a fine material outlet is conveyed into the first finished product warehouse through the third belt conveyor after being screened by the three-section type rolling screen, the material discharged from a middle material outlet is conveyed into a second-stage crusher through a fourth belt conveyor, the material crushed by the second-stage crusher is conveyed into the second finished product warehouse through the fifth belt conveyor, the material discharged from a coarse material outlet is conveyed into the first-stage crusher through a sixth belt conveyor, and (3) carrying out secondary processing, wherein in the slag building treatment process, the coarse material is conveyed into the primary crusher through the sixth belt conveyor for retreatment processing, so that the problem that the production raw material of the obtained brick is not uniform due to a large load of the secondary crusher when the coarse material and the medium material are directly conveyed into the secondary crusher for crushing after being mixed is avoided. The utility model discloses a design has solved the material that current sediment processing system of building obtained inhomogeneous, the lower problem of material finished product quality.

As a preferred mode, the crusher system comprises a first-stage crusher, the outlet of the first-stage crusher is communicated with the inlet of a second-stage crusher through a seventh belt conveyor, the outlet of the second-stage crusher is communicated with the inlet of the first-stage crusher through a first belt conveyor, and the crushing uniformity of the second-stage crusher is greater than the crushing uniformity of the first-stage crusher.

As a preferred mode, cone material cylinders are arranged at the inlets of the primary crusher, the secondary crusher, the primary crusher, the three-section type rolling screen and the secondary crusher.

Preferably, the inclination angles of the first belt conveyor, the second belt conveyor, the third belt conveyor, the fourth belt conveyor, the fifth belt conveyor, the sixth belt conveyor and the seventh belt conveyor are all less than 30 degrees.

As a preferred mode, the primary crusher, the secondary crusher and the three-section type rolling screen are all connected with independent electric control systems.

As a preferred mode, the three-section type rolling screen comprises a frame, wherein a first bearing seat and a second bearing seat are arranged at one end of the frame, a rotating shaft is obliquely arranged between the first bearing seat and the second bearing seat and is connected with a driving device, a screen cylinder is fixedly sleeved on the rotating shaft, a feeding hole is formed in the upper end of the screen cylinder, the screen cylinder comprises a first screen section, a second screen section and a third screen section which are sequentially arranged from top to bottom, and discharge hoppers are respectively arranged at the lower ends of the first screen section, the second screen section and the third screen section.

Preferably, the angle of inclination of the rotating shaft is 25 °.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses a design has solved the material that current sediment processing system of building obtained inhomogeneous, the lower problem of material finished product quality.

(2) The utility model discloses a breaker system includes the one-level breaker, and the export of one-level breaker has the import of second grade breaker through seventh band conveyer intercommunication, and the export of second grade breaker is through first band conveyer and one-level grinder import intercommunication, and the broken degree of consistency of second grade breaker is greater than the broken degree of consistency of one-level breaker. Build the quantity of sediment more relatively, the texture is harder, through the setting of one-level breaker and second grade breaker, makes to build the sediment and carry out multistage breakage, increases and builds the broken degree of consistency of sediment, has also reduced the load of single breaker.

(3) The utility model discloses an import of one-level breaker, secondary crusher, one-level rubbing crusher, syllogic roll screen, secondary crusher all is equipped with the toper thing feed cylinder. The design of the conical material barrel is convenient for receiving materials between different levels (a belt conveyor and each device).

(4) The utility model discloses a first band conveyer, second band conveyer, third band conveyer, fourth band conveyer, fifth band conveyer, sixth band conveyer, seventh band conveyer's inclination all is less than 30 degrees. The relative inclination angles of the first belt conveyor, the second belt conveyor, the third belt conveyor, the fourth belt conveyor, the fifth belt conveyor, the sixth belt conveyor and the seventh belt conveyor are smaller, and the problem that materials fall back when being conveyed among the belt conveyors is solved.

(5) The utility model discloses a one-level breaker, second grade breaker, one-level rubbing crusher, second grade rubbing crusher, syllogic roll screen all are connected with independent electric control system. The primary crusher, the secondary crusher, the primary crusher, the secondary crusher and the three-section type rolling sieve can be independently controlled, and debugging work of each device is facilitated.

(6) The utility model discloses a syllogic roll screen, including the frame, frame one end is provided with primary shaft bearing and secondary shaft bearing, and the slope is provided with the pivot between primary shaft bearing and the secondary shaft bearing, and the pivot is connected and is had drive arrangement, and fixed cover is equipped with a screen cloth section of thick bamboo in the pivot, and screen cloth section of thick bamboo upper end is provided with the feed inlet, and a screen cloth section of thick bamboo includes by last first screen cloth section, second screen cloth section and the third screen cloth section of thick bamboo of having set gradually under to, and first screen cloth section, second screen cloth section and third screen cloth section lower extreme are equallyd divide and are do not be. The motor drive reduction gear, the reduction gear drives shaft coupling and pivot and rotates, the pivot drives a screen cloth section of thick bamboo roll, send into the screen cloth section of thick bamboo on by the feed inlet with the material, the material loops through first screen cloth section under the effect of gravity, second screen cloth section and third screen cloth section, filter the different grade particle diameters, the continuous roll decline of material in a screen cloth section of thick bamboo, make the material screening more abundant, the ejection of compact is rapider, the material after multistage screening falls into on a plurality of different band conveyer through a plurality of ejection of compact, enter into next process.

(7) The utility model discloses a slope contained angle of pivot is 25.

Drawings

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

FIG. 2 is a schematic structural view of the three-section type rolling screen of FIG. 1;

FIG. 3 is a schematic view of the crusher of FIG. 1;

FIG. 4 is a schematic view of the configuration of the primary crusher of FIG. 1;

the labels in the figure are: 1-a first-stage crusher, 2-a conical material barrel, 3-a seventh belt conveyor, 4-a second-stage crusher, 5-a first belt conveyor, 6-a first-stage crusher, 7-a sixth belt conveyor, 8-a second belt conveyor, 9-a three-section rolling screen, 10-a fourth belt conveyor, 11-a third belt conveyor, 12-a second-stage crusher, 13-a fifth belt conveyor, 14-a frame, 15-a first bearing seat, 16-a third bearing seat, 17-a second screen section, 18-a first screen section, 19-a rotating shaft, 20-a screen barrel and 21-a second bearing seat.

Detailed Description

The present invention will be further described with reference to the accompanying drawings. Embodiments of the present invention include, but are not limited to, the following examples.

Example 1:

referring to fig. 1-4, a processing system suitable for build sediment waste material, including the breaker system, the export of breaker system has the import of one-level rubbing crusher 6 through first band conveyer 5 intercommunication, the export of one-level rubbing crusher 6 has the import of three-section type roll screen 9 through 8 intercommunications of second band conveyer, three-section type roll screen 9 includes the export of fine material, medium material export, thick material export, the fine material export of three-section type roll screen 9 is equipped with the third band conveyer 11 that can transport the material, the medium material export of three-section type roll screen 9 has the import of second grade rubbing crusher 12 through fourth band conveyer 10 intercommunication, the export of second grade rubbing crusher 12 is equipped with the fifth band conveyer 13 that can transport the material, thick material export is through the import intercommunication of sixth band conveyer 7 with one-level rubbing crusher 6.

The utility model discloses a principle and effect: one end of a third belt conveyor 11, which is far away from a three-section type rolling screen 9, is communicated with a first finished product warehouse, one end of a fifth belt conveyor 13, which is far away from the three-section type rolling screen 9, is communicated with a second finished product warehouse, the power supply of the device is switched on for operation, building slag is put in through an inlet of the crusher, the building slag is conveyed into a first-stage crusher 6 through a first belt conveyor 5 after primary crushing of a crusher system, is conveyed into the three-section type rolling screen 9 through a second belt conveyor 8 after being processed by the first-stage crusher 6, is sieved by the three-section type rolling screen 9, powder discharged from a fine material outlet is conveyed into the first finished product warehouse through a third belt conveyor 11, material discharged from a middle material outlet is conveyed into a second-stage crusher 12 through a fourth belt conveyor 10, material crushed by the second-stage crusher 12 is conveyed into the second finished product warehouse through the fifth belt conveyor 13, and material discharged from a coarse material outlet is conveyed into the first-stage crusher 6 through a sixth belt conveyor 7, carry out secondary operation, in the sediment processing procedure is built to the aforesaid, the processing is reprocessed in coarse fodder carries to one-level rubbing crusher 6 through sixth band conveyer 7, when having avoided directly sending into secondary crusher 12 after mixing coarse fodder and medium material and smashing, secondary crusher 12 load is great for the inhomogeneous problem of production raw materials of brick. The utility model discloses a design has solved the material that current sediment processing system of building obtained inhomogeneous, the lower problem of material finished product quality.

Example 2:

the embodiment is further optimized on the basis of the embodiment 1, and specifically comprises the following steps:

the breaker system includes one-level breaker 1, and the export of one-level breaker 1 has the import of second grade breaker 4 through 3 intercommunications of seventh band conveyer, and the export of second grade breaker 4 is through first band conveyer 5 and 6 import intercommunications of one-level rubbing crusher, and the broken degree of consistency of second grade breaker 4 is greater than the degree of consistency of one-level breaker 1. Build the quantity of sediment more relatively, the texture is harder, through the setting of one-level breaker 1 and second grade breaker 4, makes to build the sediment and carry out multistage breakage, increases and builds the broken degree of consistency of sediment, has also reduced the load of single breaker.

Preferably, the inlets of the primary crusher 1, the secondary crusher 4, the primary crusher 6, the three-section type rolling screen 9 and the secondary crusher 4 are all provided with cone material cylinders 2. The cone material barrel 2 is designed to facilitate material receiving between different levels (belt conveyor and equipment).

In a preferred embodiment, the inclination angles of the first belt conveyor 5, the second belt conveyor 8, the third belt conveyor 11, the fourth belt conveyor 10, the fifth belt conveyor 13, the sixth belt conveyor 7, and the seventh belt conveyor 3 are all smaller than 30 degrees. The relative inclination angles of the first belt conveyor 5, the second belt conveyor 8, the third belt conveyor 11, the fourth belt conveyor 10, the fifth belt conveyor 13, the sixth belt conveyor 7 and the seventh belt conveyor 3 are small, and the problem that materials fall back when being conveyed among the belt conveyors is solved.

As a preferable mode, the primary crusher 1, the secondary crusher 4, the primary crusher 6, the secondary crusher 12, and the three-stage rolling screen 9 are all connected with an independent electric control system. The primary crusher 1, the secondary crusher 4, the primary crusher 6, the secondary crusher 12 and the three-section type rolling screen 9 can be independently controlled, and debugging work of each device is facilitated.

As a preferred mode, the three-section type rolling screen 9 includes a frame 14, one end of the frame 14 is provided with a first bearing seat 15 and a second bearing seat 21, a rotating shaft 19 is obliquely arranged between the first bearing seat 15 and the second bearing seat 21, the rotating shaft 19 is connected to a driving device, a screen cylinder 20 is fixedly sleeved on the rotating shaft 19, a feed inlet is arranged at the upper end of the screen cylinder 20, the screen cylinder 20 includes a first screen section 18, a second screen section 17 and a third screen section which are sequentially arranged from top to bottom, and the lower ends of the first screen section 18, the second screen section 17 and the third screen section are respectively provided with a discharge hopper. Motor drive reduction gear, the reduction gear drives shaft coupling and pivot 19 and rotates, pivot 19 drives a screen cloth section of thick bamboo 20 and rolls, on sending into screen cloth section of thick bamboo 20 with the material by the feed inlet, the material loops through first screen cloth section 18 under the effect of gravity, second screen cloth section 17 and third screen cloth section, filter the different grade particle sizes, the continuous roll decline of material in screen cloth section of thick bamboo 20, make the material screening more abundant, the ejection of compact is rapider, the material after multistage screening falls into on a plurality of different band conveyer through a plurality of ejection of compact, enter into next process.

The utility model discloses a pivot 19's slope contained angle is 25.

The other parts of this embodiment are the same as embodiment 1, and are not described herein again.

The embodiment of the present invention is the above. The specific parameters in the above embodiments and examples are only for the purpose of clearly showing the verification process of the present invention, and are not used to limit the patent protection scope of the present invention, which is still subject to the claims, and all the equivalent structural changes made by using the contents of the specification and the drawings of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A treatment system suitable for building slag waste comprises a crusher system, wherein an outlet of the crusher system is communicated with an inlet of a primary crusher (6) through a first belt conveyor (5), the outlet of the primary crusher (6) is communicated with the inlet of a three-section type rolling screen (9) through a second belt conveyor (8), the three-section type rolling sieve (9) comprises a fine material outlet, a medium material outlet and a coarse material outlet, it is characterized in that a fine material outlet of the three-section type rolling screen (9) is provided with a third belt conveyor (11) capable of conveying materials, the medium material outlet of the three-section type rolling screen (9) is communicated with the inlet of a secondary crusher (12) through a fourth belt conveyor (10), the outlet of the secondary crusher (12) is provided with a fifth belt conveyor (13) capable of conveying materials, and the coarse material outlet is communicated with an inlet of the primary crusher (6) through a sixth belt conveyor (7).

2. The system for processing wastes generated during the construction of slag as claimed in claim 1, wherein said crusher system comprises a primary crusher (1), the outlet of said primary crusher (1) is connected to the inlet of a secondary crusher (4) through a seventh belt conveyor (3), the outlet of said secondary crusher (4) is connected to the inlet of said primary crusher (6) through a first belt conveyor (5), and the crushing uniformity of said secondary crusher (4) is greater than the crushing uniformity of said primary crusher (1).

3. The system for processing the building slag waste according to claim 2, wherein the inlets of the primary crusher (1), the secondary crusher (4), the primary crusher (6), the three-section type rolling screen (9) and the secondary crusher (4) are provided with cone material barrels (2).

4. The system for treating the building slag waste according to claim 2, wherein the inclination angles of the first belt conveyor (5), the second belt conveyor (8), the third belt conveyor (11), the fourth belt conveyor (10), the fifth belt conveyor (13), the sixth belt conveyor (7) and the seventh belt conveyor (3) are all less than 30 degrees.

5. The system for treating building slag waste according to claim 2, wherein the primary crusher (1), the secondary crusher (4), the primary crusher (6), the secondary crusher (12) and the three-section type rolling screen (9) are connected with independent electric control systems.

6. The system for treating building slag waste according to claim 1, wherein the three-section type rolling screen (9) comprises a frame (14), one end of the frame (14) is provided with a first bearing seat (15) and a second bearing seat (21), a rotating shaft (19) is obliquely arranged between the first bearing seat (15) and the second bearing seat (21), the rotating shaft (19) is connected with a driving device, a screen cylinder (20) is fixedly sleeved on the rotating shaft (19), a feeding hole is arranged at the upper end of the screen cylinder (20), the screen cylinder (20) comprises a first screen section (18), a second screen section (17) and a third screen section which are sequentially arranged from top to bottom, and the lower ends of the first screen section (18), the second screen section (17) and the third screen section are respectively provided with a discharge hopper.

7. A treatment system for slag waste according to claim 6, characterized in that the included angle of inclination of the rotating shaft (19) is 25 °.

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