CN114225806B - Ecological protection's inorganic waste material purifying treatment equipment - Google Patents

Abstract

The invention discloses ecological protection inorganic waste purifying treatment equipment, which comprises a construction waste treatment device, wherein a stirrer is arranged in the construction waste treatment device, a water storage column is fixedly connected to the inner wall of the stirrer, a flexible membrane is arranged on the outer wall of the water storage column, a water cavity and a gravity wheel are arranged below the stirrer, a pipeline is arranged below the stirrer, a rubber wheel is arranged on the outer side of the gravity wheel, the gravity wheel is positioned in the lower pipeline of the stirrer, an air bag I is arranged in the water cavity, one end of the air bag I is fixedly connected with a telescopic column, the gravity wheel is in rolling connection with the air bag I, the telescopic column is in movable contact with the water cavity, a water injection ball is connected to one side pipeline of the water cavity, and a hydraulic ball is arranged on one side of the water injection ball.

Description

Ecological protection's inorganic waste material purifying treatment equipment

Technical Field

The invention relates to the technical field of inorganic waste material purification treatment, in particular to ecological protection inorganic waste material purification treatment equipment.

Background

Inorganic waste generally refers to metal, glass, plastic and other recyclable resources, the real estate industry is an economic support in China, a large amount of construction waste is generated each year when houses are built or removed, stones and steel bars are used for a large number, reinforced concrete mixtures are used on construction sites, the steel bars and the concrete are required to be separated, the steel bars are fused for secondary remodeling and utilization, no equipment is available for workers, the construction waste can be discarded by the workers, the environment is destroyed and the resources are wasted, and therefore, the design of the ecological protection inorganic waste purification treatment equipment which has strong practicability and automatically prepares the discarded construction waste into the steel bars is necessary.

Disclosure of Invention

The present invention aims to provide an ecological-protection inorganic waste material purifying treatment device, which solves the problems in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an ecological protection's inorganic waste material purification treatment equipment, includes building rubbish processing apparatus, its characterized in that: the inside of building rubbish processing apparatus is provided with the mixer, fixedly connected with holds the water column on the inner wall of mixer, be provided with the flexible membrane on the outer wall of water column.

According to the technical scheme, the lower part of the stirrer is provided with the water cavity and the gravity wheel, the lower part of the stirrer is provided with the pipeline, the outer side of the gravity wheel is provided with the rubber wheel, and the gravity wheel is positioned in the pipeline below the stirrer.

According to the technical scheme, the first airbag is arranged in the water cavity, one end of the first airbag is fixedly connected with the telescopic column, the gravity wheel is in rolling connection with the first airbag, and the telescopic column is in movable contact with the water cavity.

According to the technical scheme, one side pipeline of the water cavity is connected with the water injection ball, one side of the water injection ball is provided with the hydraulic ball, and one side of the hydraulic ball is provided with the central wheel.

According to the technical scheme, the air bag II is fixedly connected to the outer wall of the central wheel, the groove wheel is arranged on the outer side of the central wheel, the air bag II and the groove wheel are of a matched structure, the central wheel is connected with the stirring machine through a pipeline, and one side of the central wheel is fixedly connected with the auxiliary wheel.

According to the technical scheme, one side of mixer is provided with the reinforcing bar apotheca, the inside of reinforcing bar apotheca is provided with the pulper, the below of pulper is provided with the heating furnace, one side of heating furnace is provided with the air-blower, air-blower and gravity wheel are cooperation structure.

According to the technical scheme, one side of the steel bar storage chamber is provided with the molten iron cavity, the inside of the molten iron cavity is provided with the molten iron discharge port, and one end of the molten iron discharge port is provided with the shaping chamber.

According to the technical scheme, one end of the central wheel is provided with the carbon chamber, the carbon chamber is internally provided with the carbon discharging port, and the carbon discharging port is connected with the shaping chamber through a pipeline.

According to the technical scheme, the shaping chamber is internally provided with the cursory, and two sides of the cursory are provided with limiting blocks.

According to the technical scheme, the shifting rod is arranged between the carbon discharging port and the iron discharging port, one end of the shifting rod is provided with the shaft ball, the shifting rod is movably connected with the carbon discharging port, and the shifting rod is movably connected with the iron discharging port.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the water storage column is arranged, as the stone and the steel bar are all hard objects, the stirring machine can generate impact vibration, when the stirring machine is used for stirring the mixture of the stone and the steel bar, the mixture of the stone and the steel bar can be pushed to impact the elastic water storage column on the inner wall of the stirring machine, the water storage column is connected with a water source and can continuously supply water, the water in the water storage column can be extruded out each time the mixture of the stone and the steel bar impacts the water storage column, the higher the impact frequency of the mixture of the stone and the steel bar is, the more water is released by the water storage column, so that the mixture surface of the stone and the steel bar is ensured to have enough water coverage, the waste of water is avoided, the water extruded out of the water storage column can wash the dust and other impurities on the mixture surface of the stone and the steel bar once, the quality of a formed product is higher, the mixture of the stone and the steel bar can be stirred in water more smoothly, the impact degree of the mixture of the stone and the steel bar on the stirring machine is reduced, and the working life of the stirring machine is effectively protected.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 2 is a schematic diagram of a system of the present invention;

FIG. 3 is an enlarged schematic view of A of the present invention;

in the figure: 1. a construction waste treatment device; 2. a stirrer; 3. a water storage column; 4. a flexible membrane; 5. a water chamber; 6. a gravity wheel; 7. a rubber wheel; 8. an air bag I; 9. a telescopic column; 10. a water injection ball; 11. a hydraulic ball; 12. a hub; 13. an air bag II; 14. a groove wheel; 15. a power-assisted wheel; 16. a reinforcing steel bar storage chamber; 17. a crutcher; 18. a blower; 19. a shaping chamber; 20. a float; 21. a limiting block; 22. a shaft ball; 23. a deflector rod; 24. a carbon chamber; 25. a molten iron cavity; 26. a carbon discharge port; 27. and a molten iron discharge port.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-3, the present invention provides the following technical solutions: an ecological protection's inorganic waste material purification treatment equipment, includes building rubbish processing apparatus 1, its characterized in that: the inside of the construction waste treatment device 1 is provided with a stirrer 2, the inner wall of the stirrer 2 is fixedly connected with a water storage column 3, the outer wall of the water storage column 3 is provided with a flexible membrane 4, redundant building materials are placed in the construction waste treatment device 1, redundant inorganic waste materials in a construction site are mostly stones and reinforcing steel bars, when the stones and the reinforcing steel bars enter the stirrer 2 for stirring, as the stones and the reinforcing steel bars are all objects which are relatively hard, the stirrer 2 can generate impact vibration, when the stirrer 2 is used for stirring the mixture of the stones and the reinforcing steel bars, the mixture of the stones and the reinforcing steel bars is pushed to impact the elastic water storage column 3 on the inner wall of the stirrer 2, the water storage column 3 is connected with a water source to continuously supply water, each time the mixture of the stones and the reinforcing steel bars impacts the water storage column 3 to squeeze out part of the water in the water storage column 3, the frequency of the mixture of the stones and the reinforcing steel bars is higher, the water quantity released by the water storage column 3 is more, the mixture surface of the stones and the reinforcing steel bars is guaranteed to be covered with enough water, the mixture of the stones and the reinforcing steel bars is not to be wasted, the mixture of the stones and the reinforcing steel bars is more smoothly extruded on the surface of the water storage column 3, the mixture is more stable, the mixture of the stones and the reinforcing steel bars is more smooth and the surface of the reinforcing steel bars is more well mixed, and the product is more mixed and the dust is more mixed, the dust is more the product is more mixed and more is more well mixed and has longer service life is more well washed;

a water cavity 5 and a gravity wheel 6 are arranged below the stirrer 2, a pipeline is arranged below the stirrer 2, a rubber wheel 7 is arranged on the outer side of the gravity wheel 6, the gravity wheel 6 is positioned in the pipeline below the stirrer 2, a mixture of stones and reinforcing steel bars is stirred in the stirrer 2 to pulverize substances with lower hardness such as the stones, the pulverized stones fall into the pipeline of the gravity wheel 6 after being filtered, stone ash in the stirrer 2 enters the water cavity 5 along with water, the rest hard reinforcing steel bars enter a melting chamber to be melted for subsequent shaping, the gravity wheel 6 is hit by the broken stones falling above the pipeline, the broken stone falls to drive the gravity wheel 6 to rotate, the gravity wheel 6 rotates to drive a blower to cut off water flow in the water cavity 5, water in the lower half of the water cavity is precipitated for extracting lime, and lime is dried to be used as an auxiliary material for making the reinforcing steel bars, meanwhile, water on the upper layer is extruded into a water storage column 3 to continue to supply the stirrer 2, so that water can be recycled;

an air bag I8 is arranged in the water cavity 5, one end of the air bag I8 is fixedly connected with a telescopic column 9, the gravity wheel 6 is in rolling connection with the air bag I8, the telescopic column 9 is in movable contact with the water cavity 5, the crushed stone falls into a gravity wheel pipeline, the gravity wheel continuously rotates, the gravity wheel 6 can drive the rubber wheel 7 to rotate in the rotating process, the rubber wheel 7 continuously impacts the outer wall of the air bag I8 in the rotating process, the rubber wheel 7 is in high-frequency contact with the outer wall of the air bag I8 so as to generate friction heat, the air bag I8 senses heat to expand, when the air bag I8 expands, the air bag I8 continuously performs air blowing to apply pressure to the telescopic column 9, the telescopic column 9 extends outwards until the air bag I contacts the inner wall of the water cavity 5, the water cavity 5 is divided into an upper cavity and a lower cavity, water in the upper cavity gradually overflows into the water, the water in the lower cavity is not interfered by the upper water flow, the water slag is gradually separated, the rubber wheel 7 is pushed by the upper crushed stone to rotate, the rubber wheel 7 rotates for a long time, the rubber wheel 7 is enabled to generate heat by the pipe wall to be in contact with the high-frequency, and the heat energy is generated after the air bag I is used for a part of the air bag I, the air bag is damaged, the heat energy is prolonged, and the service life of the air bag is prolonged, and the air bag is prolonged;

one side pipeline of the water cavity 5 is connected with a water injection ball 10, one side of the water injection ball 10 is provided with a hydraulic ball 11, one side of the hydraulic ball 11 is provided with a central wheel 12, water in an upper cavity in the water cavity 5 gradually overflows into the water injection ball 10, water in the water injection ball 10 can be collected, when the water quantity reaches a certain degree, the water can apply pressure to the hydraulic ball 11, gas in the hydraulic ball 11 can be discharged into the central wheel 12, an air bag in the central wheel 12 can expand, when the air bag expands, a gear on the outer side of the central wheel 12 can be driven to expand and extend outwards, a circle of protective sleeve is arranged on the outer side of the gear, the central wheel 12 and the gravity wheel 6 are in the same pipeline, in order to prevent the gravity wheel 6 from flying out of a crushed stone block in the rotating process and then smashing the central wheel 12 to damage the central wheel 12, the outer protective sleeve can protect the central wheel 12, and meanwhile prevent the crushed stone block from crossing the central wheel 12 to enter the other side pipeline, so that the crushed stone can be more effectively concentrated for recycling;

an air bag II 13 is fixedly connected to the outer wall of the central wheel 12, a groove wheel 14 is arranged on the outer side of the central wheel 12, the air bag II 13 and the groove wheel 14 are of a matched structure, the central wheel 12 is connected with the stirring machine 2 through a pipeline, one side of the central wheel 12 is fixedly connected with a booster wheel 15, a gear on the outer side of the central wheel 12 gradually fits with a groove on the inner wall of the protective sleeve along with the movement of the air bag II 13, at the moment, the contact area between the gear of the central wheel 12 and the groove wheel 14 is increased, the friction is increased, the rotation speed of the central wheel 12 is reduced, the central wheel 12 and the gravity wheel 6 are of a linkage rotation structure, the rotation of the central wheel 12 is reduced, the rotation speed of the gravity wheel 6 is blocked, the water quantity in the water injection ball 10 tends to be full at the moment, the water content in the water storage column 3 is too low, the speed of the gravity wheel 6 is reduced, and the heat energy generated by high-frequency rotation of the air bag I8 is reduced, the telescopic column 9 is reset, water precipitated in the lower cavity is supplied to the water storage column 3 in the resetting process, stones and reinforcing steel bars are continuously supplied to stir, until the telescopic column 9 is successfully reset, water in the upper cavity can continuously flow down into the lower cavity to precipitate, lime mud precipitated in the lower cavity is extruded and discharged to be subjected to secondary grinding, the secondary grinding process mainly provides power through the auxiliary wheel 15, the power source of the auxiliary wheel 15 is the central wheel 12, the central wheel 12 can drive the auxiliary wheel 15 to rotate fast, the central wheel 12 can drive the auxiliary wheel 15 to rotate slowly, when the auxiliary wheel 15 rotates slowly, the lime mud is still in precipitation, at the moment, the auxiliary wheel 15 rotates slowly to effectively reduce the loss of auxiliary wheel parts and save the kinetic energy of the central wheel, when the lime mud is extruded, the auxiliary wheel 15 rotates fast to carry out secondary grinding and polishing, to obtain lime powder with higher quality, and to match with the reinforcing steel bar solution to perform secondary remodeling of the reinforcing steel bar;

the stirrer 2 is characterized in that a reinforcing steel bar storage chamber 16 is arranged on one side of the stirrer 2, a stirrer 17 is arranged in the reinforcing steel bar storage chamber 16, a heating furnace is arranged below the stirrer 17, a blower 18 is arranged on one side of the heating furnace, the blower 18 and a gravity wheel 6 are of a matched structure, reinforcing steel bars cannot be processed in the stirrer 2, after being cleaned, enter the stirrer 17 for mincing and dissolving, the heating furnace is arranged below the stirrer 17, the combustion intensity of the furnace can be controlled by controlling the air inflow through the blower 18, when a large number of crushed stones fall to push the gravity wheel 6, the condition that inorganic waste in the stirrer 2 is more at the moment, the reinforcing steel bars existing in the stirrer 17 are more, the gravity wheel 6 frequently bumps the blower 18, external oxygen is continuously transmitted into the heating furnace, the combustion degree of the heating furnace is increased, the process of reinforcing steel bar fusing is accelerated, when the gravity wheel 6 rotates slowly, the inorganic waste in the stirrer 2 is less, the running frequency of the blower 18 is lower, the heating furnace normally burns, the effect of automatically controlling the temperature of the heating furnace is achieved, the state of the blower 18 can be effectively protected, the condition that the furnace 18 can not be caused, the heating furnace 18 can be operated for a long time, the service life of the blower 18 is prolonged, and the service life of the blower 18 is prolonged;

a molten iron cavity 25 is formed in one side of the steel bar storage chamber 16, a molten iron discharging port 27 is formed in the molten iron cavity 25, a shaping chamber 19 is formed at one end of the molten iron discharging port 27, a steel bar solution in the steel bar storage chamber 16 gradually enters the molten iron cavity 25, the molten iron cavity 25 is assembled, a plurality of molten iron discharging ports 27 are formed in the outer side of the molten iron cavity 25, the plurality of molten iron discharging ports 27 are fixed in the molten iron cavity 25 to form a round wheel, molten iron enters the shaping chamber 19 through the molten iron discharging ports 27, shaping is performed in the shaping chamber 19, the positions of the molten iron cavity 25 and a carbon chamber 24 are separated by a certain distance, a certain damage is caused to peripheral parts due to the fact that the temperature of the molten iron cavity 25 is high for a long time, the plurality of molten iron discharging ports 27 comprise a main caliber and a plurality of auxiliary calibers, the main caliber can be used for controlling the flow rate of the steel bar solution, and the auxiliary calibers can share the pressure of the main caliber when the main caliber is blocked, so that the quality of the steel bar is controlled, and the solution is prevented from overflowing in the whole flow process, and personnel damage is caused;

the carbon chamber 24 is arranged at one end of the central wheel 12, the carbon outlet 26 is arranged in the carbon chamber 24, the carbon outlet 26 is connected with the shaping chamber 19 through a pipeline, lime mud ground by the auxiliary wheel 15 enters the carbon chamber 24 and is waiting to enter the shaping chamber 19 to be processed together with the reinforcing steel bar solution, the adding proportion of the carbon powder determines the strength of the reinforcing steel bar formed for the second time, the toughness of the reinforcing steel bar is insufficient due to less adding of the carbon powder, the hardness of the reinforcing steel bar is insufficient due to more adding of the carbon powder, the arrangement of the carbon outlet 26 is the same as the arrangement of the molten iron outlet 27, the carbon powder is dried by the residual temperature of the shaping chamber 19 and then discharged after being ground by the auxiliary wheel 15 in the carbon chamber 24, and the carbon powder is ensured to enter the shaping chamber 19 in a drier state, so that defects such as gaps are avoided when the reinforcing steel bar is produced;

the inside of the shaping chamber 19 is provided with the floats 20, the two sides of the floats 20 are provided with the limiting blocks 21, the feeding speed of carbon powder is basically consistent with the flow speed of the reinforcing steel bar solution in the initial stage, the inside of the shaping chamber 19 is gradually fused, when the reinforcing steel bar solution reaches a certain amount, the floats 20 are contacted with the floats 20 in the shaping chamber 19, the floats 20 can be lifted up and down as hard matters, when the carbon powder content in the reinforcing steel bar solution is insufficient, the viscosity of the reinforcing steel bar solution is lower, the reinforcing steel bar solution at the moment contacts with the floats 20, the floats 20 can be slowly wrapped, the floats 20 can be pulled downwards in the rolled reinforcing steel bar solution, the pressure is applied to the carbon chamber 24, the quantity of the carbon discharge ports 26 is increased, so that the feeding speed of the carbon powder is increased, the viscosity of the reinforcing steel bar solution is increased, when the viscosity of the reinforcing steel bar solution is increased, the reinforcing steel bar solution can push the floats 20 to apply the pressure to the molten iron cavity 25, the quantity of the molten iron discharge ports 27 is increased, and the speed of the molten iron enters the shaping chamber 19 is increased, and then the viscosity of the steel solution is reduced until the viscosity of the steel solution is moderate, and the produced in the shaping chamber 19 is high in quality, and safe to use;

the middle of the carbon discharging port 26 and the molten iron discharging port 27 is provided with the deflector rod 23, one end of the deflector rod 23 is provided with the shaft ball 22, the deflector rod 23 is movably connected with the carbon discharging port 26, when the steel bar solution in the molten iron discharging port 19 is detected to be thinner by the float 20, the deflector rod 23 is pulled by the float 20, the deflector rod 23 can rotate to the molten iron discharging port 27 through the shaft ball 22, at the moment, a part of molten iron in the molten iron discharging port 27 can be blocked by the deflector rod 23, the discharge of molten iron in the molten iron cavity 25 can be reduced, the deflector rod 23 can be continuously used for making the deflector rod 23 in the discharge process, the deflector rod 23 can be stacked in the molten iron cavity 25 when a small amount of liquid iron is discharged, the deflector rod 23 can be pushed down by the deflector rod 23, the flow rate before recovery can be sprung up, and circulated, so that the steel bar solution in the molten iron cavity 25 can be released can be ensured, the overload of the molten iron cavity 25 and the overflow of the solution can not cause parts of a burning machine, when the float detects the molten iron cavity 19, the carbon powder in the molten iron cavity 23 can be blocked by the carbon powder cavity 23, the carbon collecting port can be prevented from being polluted by the carbon, the carbon can be prevented from being stacked in the carbon discharging port 23, the carbon can be prevented from being polluted by the carbon collecting port, and the carbon can be prevented from being stacked in the carbon discharging port 23, and the carbon can be prevented from being used by a normal, and the carbon can reach the side of a normal position.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (1)

1. An ecological protection's inorganic waste material purification treatment equipment, includes building rubbish processing apparatus (1), its characterized in that: the inside of the construction waste treatment device (1) is provided with a stirrer (2), the inner wall of the stirrer (2) is fixedly connected with a water storage column (3), the outer wall of the water storage column (3) is provided with a flexible membrane (4), the lower part of the stirrer (2) is provided with a water cavity (5) and a gravity wheel (6), the lower part of the stirrer (2) is provided with a pipeline, the outer side of the gravity wheel (6) is provided with a rubber wheel (7), and the gravity wheel (6) is positioned in the pipeline below the stirrer (2); the novel water pump is characterized in that an air bag I (8) is arranged in the water cavity (5), one end of the air bag I (8) is fixedly connected with a telescopic column (9), the gravity wheel (6) is in rolling connection with the air bag I (8), the telescopic column (9) is in movable contact with the water cavity (5), a water injection ball (10) is connected to one side pipeline of the water cavity (5), a hydraulic ball (11) is arranged on one side of the water injection ball (10), a central wheel (12) is arranged on one side of the hydraulic ball (11), an air bag II (13) is fixedly connected to the outer wall of the central wheel (12), a concave groove wheel (14) is arranged on the outer side of the central wheel (12), the air bag II (13) and the concave groove wheel (14) are in a matched structure, the central wheel (12) is in pipeline connection with the stirring machine (2), and a auxiliary wheel (15) is fixedly connected to one side of the central wheel (12). One side of the stirrer (2) is provided with a steel bar storage chamber (16), the inside of the steel bar storage chamber (16) is provided with a stirrer (17), the lower part of the stirrer (17) is provided with a heating furnace, one side of the heating furnace is provided with a blower (18), the blower (18) and a gravity wheel (6) are of a matched structure, one side of the steel bar storage chamber (16) is provided with a molten iron cavity (25), the inside of the molten iron cavity (25) is provided with a molten iron discharge port (27), one end of the molten iron discharge port (27) is provided with a shaping chamber (19), one end of the central wheel (12) is provided with a carbon chamber (24), the inside of the carbon chamber (24) is provided with a carbon discharge port (26), and the carbon discharge port (26) is in pipeline connection with the shaping chamber (19).

A float (20) is arranged in the shaping chamber (19), and limiting blocks (21) are arranged on two sides of the float (20);

a deflector rod (23) is arranged between the carbon discharge port (26) and the molten iron discharge port (27), one end of the deflector rod (23) is provided with a shaft ball (22), the deflector rod (23) is movably connected with the carbon discharge port (26), and the deflector rod (23) is movably connected with the molten iron discharge port (27);

the outer side of the iron water cavity (25) is provided with a plurality of iron discharge ports (27) which comprise an iron discharge port (27) with a main caliber and a plurality of iron discharge ports (27) with a sub caliber, the iron discharge ports (27) are fixed in the iron water cavity (25) to form a round wheel, the iron discharge ports (27) with the main caliber are used for controlling the flow rate of the steel bar solution, and the iron discharge ports (27) with the sub caliber share the pressure of the main caliber when the main caliber is blocked.