CN211726487U

CN211726487U - Building rubbish separator

Info

Publication number: CN211726487U
Application number: CN201922067465.XU
Authority: CN
Inventors: 杨婷婷; 梁勇; 马刚平; 刘慧慧; 柳静; 池帅; 王福晋; 赵磊; 檀胜应
Original assignee: Shougang Environmental Industry Co ltd
Current assignee: Shougang Environmental Industry Co ltd
Priority date: 2019-11-26
Filing date: 2019-11-26
Publication date: 2020-10-23
Anticipated expiration: 2029-11-26

Abstract

The utility model discloses a building rubbish separator belongs to resource environment technical field. The construction waste separating device comprises: the screening mechanism is arranged in the box body, the screening mechanism is arranged below the receiving port, a first discharging end of the screening mechanism is arranged above the first collecting tank, a second discharging end of the screening mechanism is arranged above the second collecting tank, and the height of the first discharging end of the screening mechanism is smaller than that of the second discharging end of the screening mechanism; the first end of a plurality of sieve sets up on the axle that turns round of first bent axle all rotatably, and the second end of a plurality of sieve sets up on the axle that turns round of second bent axle all rotatably. The utility model discloses building rubbish separator can realize that building rubbish selects separately in the light debris organic combustible substance and the effective separation of inorganic aerated block, reduces the further resourceful processing cost of light debris.

Description

Building rubbish separator

Technical Field

The utility model relates to a resource environment technical field, in particular to building rubbish separator.

Background

With the acceleration of the urbanization process, the yield of the construction waste is increased year by year, and particularly, the problems caused by the construction waste are more prominent due to the promotion of the work of breaking aside, reforming old cities and the like in recent years. The building garbage produced in the old city reconstruction process contains a large amount of light combustible materials such as plastics and wood and a light wall material aerated block for heat preservation and heat insulation.

At present, in the construction waste treatment industry, impurities such as plastics, wood, aerated blocks and the like in the construction waste are mainly removed in a hydraulic flotation mode because the density of the impurities is smaller than that of concrete and tiles. However, the problem that inorganic aerated blocks are mixed with organic light combustible materials exists, the light combustible materials are generally sent to a waste incineration power plant for incineration treatment, the treatment load of the power plant is increased due to the inorganic aerated blocks, the yield of waste incineration power generation byproduct slag and fly ash is increased, and the power generation cost is increased; in addition, the inorganic aerated block can be recycled as a building material, and the current mixed mode causes resource waste.

SUMMERY OF THE UTILITY MODEL

The utility model provides a building rubbish separator has solved or partly has solved and has got rid of building rubbish light impurity through the mode of water conservancy flotation among the prior art, has inorganic aerated block and the mixed technical problem of organic light combustible substance.

In order to solve the technical problem, the utility model provides a construction waste separator includes: a box body and a screening mechanism; the box body is provided with a receiving port, a first collecting tank and a second collecting tank; the screening mechanism is arranged in the box body, the screening mechanism is arranged below the receiving port, a first discharging end of the screening mechanism is arranged above the first collecting tank, a second discharging end of the screening mechanism is arranged above the second collecting tank, and the height of the first discharging end of the screening mechanism is smaller than that of the second discharging end of the screening mechanism; the screening mechanism includes: the device comprises a driving motor, a first crankshaft, a second crankshaft and a plurality of sieve plates; the fixed end of the driving motor is fixedly arranged in the box body, and the action end of the driving motor is fixedly connected with the first crankshaft; the second crankshaft is rotatably connected with the box body; the first ends of the sieve plates can be rotatably arranged on the bent shafts of the first crankshafts, and the second ends of the sieve plates can be rotatably arranged on the bent shafts of the second crankshafts.

Further, the included angle between the sieve plate and the horizontal plane is 15-20 degrees.

Furthermore, a plurality of conical tooth claws are fixedly arranged on the guard plates on two sides of the sieve plate.

Furthermore, a plurality of through holes are formed in the sieve plate.

Further, the construction waste separation device further comprises: a collection mechanism; the collecting mechanism is arranged in the box body and is arranged below the through holes.

Further, the collection mechanism includes: a collecting cylinder, a screw conveyor and a sedimentation tank; the collecting cylinder is arranged in the box body and is arranged below the through holes; the collecting end of the spiral conveyor is communicated with the bottom of the collecting cylinder, and the discharging end of the spiral conveyor is communicated with the sedimentation tank.

Further, the construction waste separation device further comprises: a ventilation fan; the fixed end of the ventilation fan is fixedly arranged in the box body, and the action end of the ventilation fan faces the sieve plate.

Further, the construction waste separation device further comprises: a conveying mechanism; the discharge end of the conveying mechanism is arranged above the receiving port.

Further, the height of the feeding end of the conveying mechanism is smaller than that of the discharging end of the conveying mechanism.

Further, the conveying mechanism includes: the device comprises a rack, a conveying motor, a belt, a head pulley, a tail pulley, a receiving groove, a first carrier roller and a plurality of second carrier rollers; the receiving groove is fixedly arranged on the rack; the fixed end of the conveying motor is fixedly arranged on the rack, the action end of the conveying motor is fixedly connected with the head wheel, and the tail wheel is rotatably arranged on the rack; the belt is sleeved on the head wheel and the tail wheel; the fixed end of the first carrier roller is fixedly arranged on the rack, and the action end of the first carrier roller supports the belt; the fixed ends of the second carrier rollers are fixedly arranged on the end face, deviating from the first carrier roller, of the rack, and the action ends of the second carrier rollers support the belt.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

because the box body is provided with the receiving port, the first collecting tank and the second collecting tank, the screening mechanism is arranged in the box body, the screening mechanism is arranged below the receiving port, the first discharge end of the screening mechanism is arranged above the first collecting tank, the second discharge end of the screening mechanism is arranged above the second collecting tank, the height of the first discharge end of the screening mechanism is less than that of the second discharge end of the screening mechanism, the fixed end of the driving motor is fixedly arranged in the box body, and the action end of the driving motor is fixedly connected with the first crankshaft, therefore, the driving motor can drive the first crankshaft to rotate, because the second crankshaft can be rotatably connected with the box body, the first ends of a plurality of screening plates can be rotatably arranged on the turning shaft of the first crankshaft, and the second ends of a plurality of screening plates can be rotatably arranged on the turning shaft of the second crankshaft, when light sundries in the construction waste fall on the screening plates, the first crankshaft rotates to drive the first end of the sieve plate and the sieve plate to generate variable motion in a certain height direction, the driving motor, the first crankshaft, the sieve plate and the second crankshaft form a crank rocker mechanism on an upper plane and a lower plane, light impurities of the sieve plate generate plane motion on the upper plane and the lower plane when the sieve plate moves, materials on the sieve plate simultaneously generate up-and-down motion when the first crankshaft rotates, the sieve plate generates variable motion in the vertical direction and the horizontal direction when the driving motor operates, the sieve plate generates reciprocating circular motion similar to bounce, inorganic air-entraining blocks in the light impurities are heavy, 3D material inorganic air-entraining blocks easy to roll are easy to roll to the lower first end of the sieve plate due to large particle size and good bounce effect, and then fall into the first collecting tank from the first discharge end of the screening mechanism, and light materials such as films, paper, paperboards and the like, The flat 2D material is then that the particle diameter is big, the bounce-back effect is poor, generally can jump to the higher second end of sieve, then falls into the second collecting vat by the second discharge end of screening mechanism, can realize that organic combustible substance effectively separates with inorganic aerated block among the building rubbish selected separately light debris, reduces the further resourceful treatment cost of light debris.

Drawings

Fig. 1 is a schematic structural view of a construction waste separation device provided in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a screening mechanism of the construction waste separating device in FIG. 1;

fig. 3 is a schematic structural diagram of a conveying mechanism of the construction waste separating device in fig. 1.

Detailed Description

Referring to fig. 1, the embodiment of the utility model provides a construction waste separator includes: a box body 1 and a screening mechanism 2.

The box body 1 is provided with a receiving port 1-1, a first collecting tank 1-2 and a second collecting tank 1-3.

The screening mechanism 2 is arranged in the box body 1, the screening mechanism 2 is arranged below the material receiving port 1-1, a first discharging end of the screening mechanism 2 is arranged above the first collecting tank 1-2, a second discharging end of the screening mechanism 2 is arranged above the second collecting tank 1-3, and the height of the first discharging end of the screening mechanism 2 is smaller than that of the second discharging end of the screening mechanism 2.

The screening mechanism 2 includes: a driving motor 2-1, a first crankshaft 2-2, a second crankshaft 2-3 and a plurality of sieve plates 2-4.

The fixed end of the driving motor 2-1 is fixedly arranged in the box body 1, and the action end of the driving motor 2-1 is fixedly connected with the first crankshaft 2-2.

The second crankshaft 2-3 is rotatably connected to the housing 1.

The first ends of the sieve plates 2-4 can be rotatably arranged on the bent shafts of the first crankshafts 2-2, and the second ends of the sieve plates 2-4 can be rotatably arranged on the bent shafts of the second crankshafts 2-3.

In the embodiment of the application, as the receiving port 1-1, the first collecting tank 1-2 and the second collecting tank 1-3 are arranged on the box body 1, the screening mechanism 2 is arranged in the box body 1, the screening mechanism 2 is arranged below the receiving port 1-1, the first discharging end of the screening mechanism 2 is arranged above the first collecting tank 1-2, the second discharging end of the screening mechanism 2 is arranged above the second collecting tank 1-3, the height of the first discharging end of the screening mechanism 2 is smaller than that of the second discharging end of the screening mechanism 2, the fixed end of the driving motor 2-1 is fixedly arranged in the box body 1, the action end of the driving motor 2-1 is fixedly connected with the first crankshaft 2-2, therefore, the driving motor 2-1 can drive the first crankshaft 2-2 to rotate, and the second crankshaft 2-3 can be rotatably connected with the box body 1, the first ends of the sieve plates 2-4 can be rotatably arranged on the turning shafts of the first crank shafts 2-2, and the second ends of the sieve plates 2-4 can be rotatably arranged on the turning shafts of the second crank shafts 2-3, so that when light impurities in the construction waste fall on the sieve plates 2-4, the first crank shafts 2-2 rotate to drive the first ends of the sieve plates 2-4 and the sieve plates 2-4 to generate variable motion in a certain height direction, the driving motor 2-1, the first crank shafts 2-2, the sieve plates 2-4 and the second crank shafts 2-3 form a crank rocker mechanism on an upper plane and a lower plane, when the sieve plates 2-4 move, the light impurities of the sieve plates 2-4 generate plane motion on the upper plane and the lower plane, and when the first crank shafts 2-2 rotate, materials on the sieve plates 2-4 generate upward motion, Downward movement, when the driving motor 2-1 is operated, the sieve plate 2-4 generates variable movement in both vertical and horizontal directions, so that the sieve plate 2-4 generates reciprocating circular movement similar to bounce, and 3D material inorganic air-entraining blocks which are heavy and easy to roll in the light sundries are easy to roll to the lower first end of the sieve plate 2-4 due to large particle size and good bounce-back effect, and then fall into the first collecting tank 1-2 from the first discharging end of the screening mechanism 2, while lighter and flat 2D materials such as films, papers and paperboards are large in particle size and poor in bounce-back effect, generally jump to the higher second end of the sieve plate 2-4, and then fall into the second collecting tank 1-3 from the second discharging end of the screening mechanism 2, so that organic combustible materials and the inorganic air-entraining blocks in the light sundries sorted by the construction wastes can be effectively separated, the treatment cost of further recycling the light impurities is reduced.

Referring to fig. 2, particularly, the included angle between the sieve plate 2-4 and the horizontal plane is 15-20 degrees, which is convenient for separating organic combustible materials from inorganic aerated blocks in the light impurities separated from the construction wastes.

The guard plates on the two sides of the sieve plate 2-4 are fixedly provided with a plurality of conical teeth 2-41, so that light organic impurities can be effectively prevented from rolling down along with the inorganic air-entraining blocks.

The sieve plate 2-4 is provided with a plurality of through holes 2-42. Because the light impurities separated from the construction waste are mixed with water and fine particles, the light impurities can be discharged through the plurality of through holes 2-42.

Building rubbish separator still includes: and collecting mechanisms 2-5.

The collecting mechanism 2-5 is arranged in the box body 1, and the collecting mechanism 2-5 is arranged below the through holes 2-42.

The collecting mechanism 2-5 includes: a collecting cylinder 2-51, a screw conveyer 2-52 and a sedimentation tank.

The collecting cylinder 2-51 is arranged in the box body 1, and the collecting cylinder 2-51 is arranged below the through holes 2-42.

The collecting end of the screw conveyer 2-52 is communicated with the bottom of the collecting cylinder 2-51, and the discharging end of the screw conveyer 2-52 is communicated with the sedimentation tank.

When light impurities in construction waste sorting fall on the sieve plate 2-4, water and fine particles fall into the collecting cylinder 2-51 through the through holes 2-42, then fall into the collecting end of the screw conveyor 2-52 from the bottom of the collecting cylinder 2-51, the screw conveyor 2-52 is started, and the water and the fine particles are conveyed to the sedimentation tank through the discharging end of the screw conveyor 2-52 to be collected.

The collecting barrels 2-51 are in a circular truncated cone shape, and the diameters of the end parts, close to the sieve plates 2-4, of the collecting barrels 2-51 are larger than the diameters of the end parts, close to the spiral conveyors 2-52, of the collecting barrels 2-51, so that water and fine particles can be received and conveyed conveniently.

Specifically, construction waste separator still includes: a ventilation fan 3.

The fixed end of the ventilation fan 3 is fixedly arranged in the box body 1. In this embodiment, the fixed end of the ventilation fan 3 can be fixed in the box body 1 through a bolt, so that the ventilation fan is convenient to disassemble and assemble. The action end of the ventilation fan 3 faces the screen decks 2-4.

When light impurities in the construction waste sorting fall on the sieve plate 2-4, the ventilation fan 3 is started, and the ventilation fan 3 blows air to the sieve plate 2-4, so that the separation of the light organic impurities and the inorganic aerated blocks is accelerated and promoted.

Referring to fig. 3, the construction waste separating apparatus further includes: a conveying mechanism 4.

The discharge end of the conveying mechanism 4 is arranged above the receiving port 1-1.

The height of the feeding end of the conveying mechanism 4 is smaller than that of the discharging end of the conveying mechanism 4. When the light sundries for garbage sorting fall onto the conveying mechanism 4, the conveying mechanism 4 acts, part of the air-entraining blocks realize the primary separation with the light organic sundries due to the rolling action of the air-entraining blocks and the conveying mechanism 4, and the conveying mechanism 4 conveys the light sundries and the other part of the inorganic air-entraining blocks to the box body 1.

Wherein, the position of the conveying mechanism 4 farthest from the box body 1 is provided with an inorganic aerated block collecting box, which is convenient for collecting the inorganic aerated block.

The conveying mechanism 4 includes: 4-1 of a frame, 4-2 of a conveying motor, 4-3 of a belt, 4-4 of a head wheel, 4-5 of a tail wheel, 4-6 of a receiving groove, 4-7 of a first carrier roller and 4-8 of a plurality of second carrier rollers.

The receiving trough 4-6 is fixedly arranged on the frame 4-1. In the embodiment, the receiving trough 4-6 can be fixed and arranged on the frame 4-1 through a bracket, so that the installation is convenient.

The fixed end of the conveying motor 4-2 is fixedly arranged on the frame 4-1. In the embodiment, the fixed end of the conveying motor 4-2 can be fixedly arranged on the frame 4-1 through a bolt, so that the disassembly and the assembly are convenient. The action end of the conveying motor 4-2 is fixedly connected with the head wheel 4-4. In the embodiment, the action end of the conveying motor 4-2 can be fixedly connected with the head wheel 4-4 through a coupling. The tail wheel 4-5 is rotatably arranged on the frame 4-1.

The belt 4-3 is sleeved on the head pulley 4-4 and the tail pulley 4-5.

The fixed end of the first carrier roller 4-7 is fixedly arranged on the frame 4-1. In the embodiment, the fixed end of the first supporting roller 4-7 can be fixedly arranged on the frame 4-1 through a bolt, so that the first supporting roller is convenient to disassemble and assemble. The action end of the first carrier roller 4-7 supports the belt 4-3, and smooth action of the belt 4-3 is guaranteed.

The fixed ends of the second carrier rollers 4-8 are fixedly arranged on the end face, deviating from the first carrier roller 4-7, of the frame 4-1. In the embodiment, the fixed ends of the second support rollers 4-8 can be fixedly arranged on the end face, deviating from the first support roller 4-7, of the frame 4-1 through bolts, so that the disassembly and the assembly are convenient. The action ends of the second support rollers 4-8 support the belts 4-3, so that smooth action of the belts 4-3 is ensured.

When the light sundries separated from the construction wastes fall into the receiving groove 4-6, the light sundries separated from the construction wastes are prevented from falling off from the belt 4-3 through the receiving groove 4-6, the conveying motor 4-2 is started, the conveying motor 4-2 drives the head pulley 4-4 to rotate, the belt 4-3 rotates on the head pulley 4-4 and the tail pulley 4-5, the first supporting roller 4-7 and the plurality of second supporting rollers 4-8 support the belt 4-3, and smooth operation of the belt 4-3 is guaranteed. Because the height of the head wheel 4-4 is less than that of the tail wheel 4-5, when the belt 4-3 is used for conveying construction wastes to separate light impurities, the initial separation of the light organic impurities and the light organic impurities is realized due to the rolling action of part of air-entraining blocks and the belt 4-3, and the belt 4-3 conveys the light impurities and the other part of inorganic air-entraining blocks to the box body 1.

In order to more clearly describe the embodiment of the present invention, the following description is provided on the using method of the embodiment of the present invention.

When the light impurities separated from the construction wastes fall into the receiving groove 4-6, the light impurities separated from the construction wastes are prevented from falling off from the belt 4-3 through the receiving groove 4-6. The conveying motor 4-2 is started, the conveying motor 4-2 drives the head pulley 4-4 to rotate, the belt 4-3 rotates on the head pulley 4-4 and the tail pulley 4-5, and the first carrier roller 4-7 and the second carrier rollers 4-8 support the belt 4-3, so that smooth running of the belt 4-3 is guaranteed. Because the height of the head wheel 4-4 is less than that of the tail wheel 4-5, when the belt 4-3 transports construction waste to sort light sundries, part of the air-entraining blocks realize preliminary separation with the light organic sundries due to the rolling action of the air-entraining blocks and the belt 4-3, and fall into the inorganic air-entraining block collecting box, so that the inorganic air-entraining blocks are convenient to collect. The belt 4-3 conveys the light impurities and the other part of the inorganic aerated block to the box body 1.

When the light impurities and the other part of the inorganic aerated block fall on the sieve plate 2-4 from the receiving port 1-1, the first crank shaft 2-2 rotates to drive the first end of the sieve plate 2-4 and the sieve plate 2-4 to generate variable motion in a certain height direction, the driving motor 2-1, the first crank shaft 2-2, the sieve plate 2-4 and the second crank shaft 2-3 form a crank rocker mechanism on an upper plane and a lower plane, when the sieve plate 2-4 moves, the light impurities of the sieve plate 2-4 generate plane motion on the upper plane and the lower plane, when the first crankshaft 2-2 rotates, meanwhile, the materials on the sieve plate 2-4 move up and down, when the driving motor 2-1 is in operation, the sieve plates 2-4 generate variable motion in both vertical and horizontal directions, so that the sieve plates 2-4 generate reciprocating circular motion similar to bouncing.

The 3D materials which are heavy in inorganic aerated blocks in the light sundries and easy to roll are easy to roll to the lower first end of the sieve plate 2-4 due to large particle size and good rebound effect, then fall into the first collecting tank 1-2 from the first discharge end of the screening mechanism 2, and the lighter and flat 2D materials such as films, paper, paperboards and the like are large in particle size and poor in rebound effect, generally jump to the higher second end of the sieve plate 2-4, and then fall into the second collecting tank 1-3 from the second discharge end of the screening mechanism 2, so that the organic combustible materials in the building garbage sorting light sundries can be effectively separated from the inorganic aerated blocks, and the cost for further recycling the light sundries is reduced.

Meanwhile, the ventilation fan 3 is started, and the ventilation fan 3 blows air to the sieve plates 2-4, so that the separation of the light organic impurities and the inorganic aerated blocks is accelerated and promoted.

Water and fine particles in the light impurities in the construction waste sorting process flow into the collecting barrel 2-51 through the through holes 2-42, then fall into the collecting end of the spiral conveyor 2-52 from the bottom of the collecting barrel 2-51, the spiral conveyor 2-52 is started, and the water and the fine particles are conveyed to the sedimentation tank through the discharge end of the spiral conveyor 2-52 to be collected.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the examples, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims

1. A construction waste separation device, comprising: a box body and a screening mechanism;

the box body is provided with a receiving port, a first collecting tank and a second collecting tank;

the screening mechanism is arranged in the box body, the screening mechanism is arranged below the receiving port, a first discharging end of the screening mechanism is arranged above the first collecting tank, a second discharging end of the screening mechanism is arranged above the second collecting tank, and the height of the first discharging end of the screening mechanism is smaller than that of the second discharging end of the screening mechanism;

the screening mechanism includes: the device comprises a driving motor, a first crankshaft, a second crankshaft and a plurality of sieve plates;

the fixed end of the driving motor is fixedly arranged in the box body, and the action end of the driving motor is fixedly connected with the first crankshaft;

the second crankshaft is rotatably connected with the box body;

the first ends of the sieve plates can be rotatably arranged on the bent shafts of the first crankshafts, and the second ends of the sieve plates can be rotatably arranged on the bent shafts of the second crankshafts.

2. The construction waste separation device of claim 1, wherein:

the included angle between the sieve plate and the horizontal plane is 15-20 degrees.

3. The construction waste separation device of claim 1, wherein:

and a plurality of conical tooth claws are fixedly arranged on the guard plates on the two sides of the sieve plate.

4. The construction waste separation device of claim 1, wherein:

the sieve plate is provided with a plurality of through holes.

5. The construction waste separation device of claim 4, further comprising: a collection mechanism;

the collecting mechanism is arranged in the box body and is arranged below the through holes.

6. The construction waste separation device of claim 5, wherein the collection mechanism comprises: a collecting cylinder, a screw conveyor and a sedimentation tank;

the collecting cylinder is arranged in the box body and is arranged below the through holes;

the collecting end of the spiral conveyor is communicated with the bottom of the collecting cylinder, and the discharging end of the spiral conveyor is communicated with the sedimentation tank.

7. The construction waste separation device of claim 1, further comprising: a ventilation fan;

the fixed end of the ventilation fan is fixedly arranged in the box body, and the action end of the ventilation fan faces the sieve plate.

8. The construction waste separation device of claim 1, further comprising: a conveying mechanism;

the discharge end of the conveying mechanism is arranged above the receiving port.

9. The construction waste separation device of claim 8, wherein:

the height of the feeding end of the conveying mechanism is smaller than that of the discharging end of the conveying mechanism.

10. The construction waste separation device of claim 8, wherein the conveying mechanism comprises: the device comprises a rack, a conveying motor, a belt, a head pulley, a tail pulley, a receiving groove, a first carrier roller and a plurality of second carrier rollers;

the receiving groove is fixedly arranged on the rack;

the fixed end of the conveying motor is fixedly arranged on the rack, the action end of the conveying motor is fixedly connected with the head wheel, and the tail wheel is rotatably arranged on the rack;

the belt is sleeved on the head wheel and the tail wheel;

the fixed end of the first carrier roller is fixedly arranged on the rack, and the action end of the first carrier roller supports the belt;

the fixed ends of the second carrier rollers are fixedly arranged on the end face, deviating from the first carrier roller, of the rack, and the action ends of the second carrier rollers support the belt.