CN213886456U - Ball-milling crushing apparatus for comprehensive recovery of construction waste - Google Patents

Abstract

The utility model discloses a building rubbish is synthesized and is retrieved ball-milling crushing apparatus for, including the frame, set up charge-in system and the discharge system in the frame, wherein, charge-in system receives the grit disintegrating slag that mixes water, and charge-in system includes guide runner, commentaries on classics material chamber. The material guide flow passage is arranged at the top of the frame, and the upper opening part of the material guide flow passage is fixedly connected with a material guide hopper; the material transferring cavity is communicated with a discharge hole of the material guiding flow passage, and a ball grinding cavity communicated with the material transferring cavity is arranged at one side of the material transferring cavity and below the material guiding flow passage; the discharging system comprises a ball milling device and a lifting device, the ball milling device is arranged in a ball milling cavity and grinds crushed water-mixed sandstone into powder slag, and the powder slag and water are mixed to form a mixed aqueous solution; the lifting device is arranged on the frame and is connected to the rear area of the ball grinding cavity through a pipeline with a pump, and the lifting device receives the mixed aqueous solution conveyed by the pump and directly lifts and discharges the mixed aqueous solution. The utility model discloses ball-milling crushing apparatus can be to grit disintegrating slag reuse.

Description

Ball-milling crushing apparatus for comprehensive recovery of construction waste

Technical Field

The utility model relates to a construction waste treatment technique, specific saying so relates to a ball-milling crushing apparatus for construction waste comprehensive recovery.

Background

The rapid development of production improves the living standard of residents, the commodity consumption is rapidly increased, the discharge amount of garbage is increased, and if the garbage is freely discharged, managed and treated, the garbage can cause public hazard, destroy the ecological environment and endanger the health of people.

Municipal waste is a mixture of solid waste in cities, including industrial waste, construction waste and household waste.

The urban domestic garbage treatment modes widely adopted at home and abroad mainly comprise sanitary landfill, high-temperature composting, incineration and the like, and the proportion of the three main garbage treatment modes is different according to different factors such as geographical environment, garbage components, economic development level and the like. Because the urban garbage has complex components and is influenced by factors such as economic development level, structural capacity, natural conditions, traditional habits and the like, the treatment of the urban garbage abroad is generally different according to the national conditions, different treatment modes are adopted in all regions in one country, and a uniform mode is difficult to exist.

Wherein, the sanitary landfill wastes a large amount of sand resources and is easy to cause pollution to underground water sources and the like; the volume of the garbage can be reduced by 50-95% by burning for power generation, but the investment is large, the cost is high, harmful substances such as dioxin, mercury and the like can be released, the residual slag and dust are toxic and harmful, and a large amount of recyclable resources are burned.

Therefore, after the construction waste is recycled, the crushed sandstone can be recycled to the brick firing system, and a device for treating the crushed sandstone needs to be developed to solve the technical problem.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the to-be-solved technical problem of the utility model lies in providing a ball-milling crushing apparatus is used in building rubbish comprehensive recovery, and the purpose of designing this ball-milling crushing apparatus is in order to improve the utilization ratio of grit disintegrating slag.

In order to solve the technical problem, the utility model discloses a following scheme realizes: the utility model discloses a building rubbish is synthesized and is retrieved ball-milling crushing apparatus for, including the frame, set up in charge-in system and discharge system in the frame, wherein, charge-in system receives the grit disintegrating slag that mixes water, charge-in system includes:

the material guide flow passage is arranged at the top of the frame, and a material guide hopper is fixedly connected with an upper opening part of the material guide flow passage;

the material transferring cavity is communicated with a discharge hole of the material guiding flow passage, and a ball milling cavity communicated with the material transferring cavity is arranged at one side of the material transferring cavity and below the material guiding flow passage;

the discharge system comprises:

the ball milling device is arranged in the ball milling cavity and is used for grinding the crushed water-mixed sandstone into powder slag, and the powder slag and water are mixed to form a mixed aqueous solution;

and the lifting device is arranged on the rack and is connected to the rear area of the ball grinding cavity through a pipeline with a pump, and the lifting device receives the mixed aqueous solution conveyed by the pump and directly lifts and discharges the mixed aqueous solution.

Furthermore, the material guiding flow channel is a flow channel with an inclined structure.

Furthermore, the bottom of the material transferring cavity is provided with an inclined surface so as to guide the mixed sandstone slag into the ball grinding cavity.

Further, the ball milling device comprises:

the first power source is a first servo motor;

the rotary drum is driven by the first servo motor to rotate, faces an opening in one side of the material transferring cavity, is provided with a ball milling head array in the rotary drum cavity, is provided with a separation cavity which is annularly arranged far away from the opening end, is provided with meshes between the separation cavity and the rotary drum cavity, and is located in a discharge port which is arranged on a rotation path of the separation cavity and is connected to the lifting device through a pipeline with a pump.

Furthermore, the opening part of the roller is also provided with a plurality of cutter heads pointing to the center of the opening in a surrounding manner.

Further, the lifting device includes:

the vertical shell is internally provided with a vertical cavity, the upper part of one side of the vertical shell is provided with a discharge pipe communicated with the vertical cavity, and the lower part of the vertical cavity is provided with a feed interface connected with the discharge end of the pipeline with the pump;

the spiral impeller is rotatably arranged in the vertical cavity;

and the second power source is a second servo motor, is arranged on the frame, and has a driving end connected with the spiral impeller and drives the spiral impeller to rotate.

Furthermore, a spraying pipeline is arranged at the corner of the vertical cavity of the vertical shell, and spraying heads are distributed on the spraying pipeline at equal intervals.

Furthermore, a cleaning pipeline is further installed on the frame, an electromagnetic valve is arranged on the cleaning pipeline, and one end of the cleaning pipeline is connected to the lifting device.

Furthermore, a sewage pipeline is further installed on the machine frame, and one end of the sewage pipeline is connected to the rear area of the ball grinding cavity.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a ball-milling crushing apparatus is smashed into likepowder through ball-milling once more with the grit disintegrating slag, and likepowder grit mixes with water and forms mixed aqueous solution, discharges to the sedimentation tank through pump, hoisting device again, and the sedimentation tank is with the grit granule sediment back, and the log raft on upper strata is discharged, and the grit after the sediment is very good brickmaking raw materials.

Drawings

Fig. 1 is a schematic structural diagram of the ball milling and pulverizing equipment of the present invention.

Fig. 2 is a schematic structural diagram of the ball milling device of the present invention.

Fig. 3 is a schematic structural diagram of the lifting device of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby making more clear and definite definitions of the protection scope of the present invention. It is obvious that the described embodiments of the invention are only some of the embodiments of the invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, or may be communicated with each other inside the two elements, or may be wirelessly connected or wired connected. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Example 1: the utility model discloses a concrete structure as follows:

referring to the attached drawings 1-3, the utility model discloses a ball-milling crushing apparatus for comprehensive recovery of construction waste, including the frame, set up in charge-in system and discharge system in the frame, wherein, charge-in system receives the grit disintegrating slag that mixes the water, and the grit disintegrating slag is the construction waste after the letter sorting through 2 times broken formation 20-50 mesh crushed aggregates, add water simultaneously when sending into the crushed aggregates.

The feed system comprises:

the material guide runner 1 is arranged at the top of the frame, and a material guide hopper is fixedly connected with an upper opening part of the material guide runner;

the material transferring cavity 8 is communicated with a discharge hole of the material guiding runner 1, and a ball grinding cavity communicated with the material transferring cavity 8 is arranged at one side of the material transferring cavity and below the material guiding runner 1;

the discharge system comprises:

the ball milling device 4 is arranged in the ball milling cavity and is used for grinding the crushed water-mixed sandstone into powder slag, and the powder slag and water are mixed to form a mixed aqueous solution;

and the lifting device 3 is arranged on the frame and is connected to the rear area of the ball grinding cavity through a pipeline 14 with a pump, and the lifting device 3 receives the mixed aqueous solution conveyed by the pump and lifts and discharges the mixed aqueous solution in a straight direction.

A preferred technical solution of this embodiment: the material guide flow passage 1 is a flow passage with an inclined structure.

A preferred technical solution of this embodiment: the bottom of the material transferring cavity 8 is provided with an inclined surface so as to guide the sand and gravel slag mixed with water into the ball grinding cavity.

A preferred technical solution of this embodiment: the ball milling device 4 includes:

a first power source 46, which is a first servo motor;

the roller 44 is driven by the first servo motor to rotate, an opening is formed in one side, facing the material transferring cavity 8, of the roller, a ball grinding head array 41 is installed in the roller cavity, a separation cavity 42 which is annularly arranged is formed in the position, away from the opening end, of the roller, meshes are formed between the separation cavity and the roller cavity, a discharging port 45 is formed in a rotating path of the ball grinding cavity, located in the separation cavity 42, of the ball grinding cavity, and the discharging port 45 is connected to the lifting device 3 through a pipeline 14 with a pump.

A preferred technical solution of this embodiment: the mouth of the roller 44 is further provided with a plurality of cutter heads 43 pointing to the center of the opening.

A preferred technical solution of this embodiment: the lifting device 3 comprises:

the vertical shell 31 is internally provided with a vertical cavity, the upper part of one side of the vertical shell is provided with a discharge pipe 32 communicated with the vertical cavity, and the lower part of the vertical cavity is provided with a feed interface connected with the discharge end of the pump pipeline 14;

the spiral impeller 35 is rotatably arranged in the vertical cavity;

the second power source 34 is a second servo motor, and is mounted on the frame, and a driving end of the second power source is connected to the helical impeller 35 and drives the helical impeller 35 to rotate.

A preferred technical solution of this embodiment: and a spraying pipeline is arranged at the corner of the vertical cavity of the vertical shell 31, and the spraying heads 33 are distributed on the spraying pipeline at equal intervals.

A preferred technical solution of this embodiment: a cleaning pipeline 9 is further mounted on the frame, an electromagnetic valve is arranged on the cleaning pipeline 9, and one end of the cleaning pipeline is connected to the lifting device 3.

A preferred technical solution of this embodiment: and a sewage discharge pipeline 5 is further arranged on the rack, and one end of the sewage discharge pipeline 5 is connected to the rear area of the ball grinding cavity.

Example 2:

the following is that the utility model discloses ball-milling crushing apparatus's for building rubbish comprehensive recovery theory of operation:

the gravel crushed slag with the mesh number of 20-50 is poured into the material guide hopper, the material guide hopper enters the ball milling cavity through the material guide runner 1 and the material transferring cavity 8, the ball milling device 4 is started, the first servo motor drives the roller to rotate at a high speed, the ball milling head in the material guide hopper crushes the gravel crushed slag, crushed particles enter the separation cavity 42 through meshes, the separation cavity 42 is provided with a plurality of rings which are distributed at the rear part of the roller in an array manner, and the separation cavity 42 has the function of preventing the particles from precipitating.

The pulverized sand and water form a mixed aqueous solution which enters the pumped line 14, and the mixed aqueous solution is sent to the lifting device 3 by the pump on the pumped line 14.

The second servo motor on hoisting device 3 starts, and second servo motor drives spiral impeller 35 rotatory, and spiral impeller 35 promotes the mixed aqueous solution after rotatory and discharges from discharging pipe 32, falls into the sedimentation tank at last.

The mixed aqueous solution is stood in a sedimentation tank, the sand and stone particles are precipitated, the water on the upper layer forms clear liquid and then flows out from a water guide port on one side of the sedimentation tank, the remaining sand and stone particles form sludge, and finally the sludge is taken out to a brick firing system.

Example 3:

the cutter head 43 at the mouth of the roller 44 has a stirring function to prevent the accumulation of gravel and crushed slag, and the cutter head 43 also has a certain crushing function.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (9)

1. The utility model provides a building rubbish is synthesized and is retrieved with ball-milling crushing apparatus, includes the frame, set up in charge-in system and discharge system in the frame, wherein, charge-in system receives the grit disintegrating slag of muddy water, its characterized in that, charge-in system includes:

the material guide runner (1) is arranged at the top of the frame, and a material guide hopper is fixedly connected with an upper opening part of the material guide runner;

the material transferring cavity (8) is communicated with a discharge hole of the material guiding flow passage (1), and a ball grinding cavity communicated with the material transferring cavity (8) is arranged at one side of the material transferring cavity and below the material guiding flow passage (1);

the discharge system comprises:

the ball milling device (4) is arranged in the ball milling cavity and is used for grinding the crushed water-mixed sandstone into powder slag, and the powder slag and water are mixed to form a mixed aqueous solution;

and the lifting device (3) is arranged on the rack and is connected to the rear area of the ball grinding cavity through a pipeline (14) with a pump, and the lifting device (3) receives the mixed aqueous solution conveyed by the pump and lifts and discharges the mixed aqueous solution in the straight direction.

2. The ball-milling crushing device for comprehensive recycling of construction waste as claimed in claim 1, wherein the material guiding flow passage (1) is a flow passage with an inclined structure.

3. The ball-milling crushing device for comprehensive recycling of construction wastes as claimed in claim 1, wherein the bottom of the material transferring cavity (8) is provided with an inclined surface for guiding the mixed sand and gravel residues into the ball-milling cavity.

4. The ball milling and crushing equipment for the comprehensive recycling of construction wastes as claimed in claim 1, wherein the ball milling device (4) comprises:

a first power source (46) being a first servo motor;

the rotary drum (44) is driven by the first servo motor to rotate, an opening is formed in one side, facing the material transferring cavity (8), of the rotary drum, a ball milling head array (41) is installed in the rotary drum cavity, a separation cavity (42) which is annularly distributed is formed in the position, far away from the opening end, of the rotary drum cavity, meshes are arranged between the separation cavity and the rotary drum cavity, a discharging interface (45) is arranged on a rotating path of the ball milling cavity, located in the separation cavity (42), and the discharging interface (45) is connected to the lifting device (3) through a pipeline (14) with a pump.

5. The ball milling and crushing equipment for comprehensively recycling construction wastes as claimed in claim 4, wherein the opening part of the roller (44) is further annularly provided with a plurality of cutter heads (43) pointing to the center of the opening.

6. The ball-milling crushing device for the comprehensive recycling of construction wastes as claimed in claim 1, wherein the lifting device (3) comprises:

the vertical type shell (31) is internally provided with a vertical cavity, the upper part of one side of the vertical type shell is provided with a discharge pipe (32) communicated with the vertical cavity, and the lower part of the vertical cavity is provided with a feed interface connected with the discharge end of the pipeline (14) with the pump;

a helical impeller (35) rotatably mounted in the vertical cavity;

and the second power source (34) is a second servo motor, is arranged on the frame, and has a driving end connected with the spiral impeller (35) and drives the spiral impeller (35) to rotate.

7. The ball milling and crushing equipment for comprehensively recycling the construction wastes as claimed in claim 6, wherein the corner of the vertical cavity of the vertical shell (31) is provided with a spraying pipeline, and spraying heads (33) are distributed on the spraying pipeline at equal intervals.

8. The ball milling and crushing equipment for comprehensively recycling construction wastes according to claim 1, wherein a cleaning pipeline (9) is further installed on the frame, an electromagnetic valve is arranged on the cleaning pipeline (9), and one end of the cleaning pipeline is connected to the lifting device (3).

9. The ball-milling crushing device for the comprehensive recycling of construction wastes as claimed in claim 1, wherein a sewage conduit (5) is further installed on the frame, and one end of the sewage conduit (5) is connected to the rear area of the ball-milling chamber.

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