CN110404669A - A kind of building waste category filter device - Google Patents

Abstract

A kind of building waste category filter device disclosed by the invention, utility box, vibration cavity is equipped in the utility box, the vibration device for vibrosieve dregs is equipped in the vibration cavity, the screening plant being located on the right side of the vibration cavity is equipped in the utility box, the steel chamber for being located at and communicating on the downside of the screening plant and with the screening plant is equipped in the utility box, the steel are intracavitary to be equipped with crushing device, the concentration equipment being located on the downside of the crushing device is equipped in the utility box, the concentration equipment is for sieving building stones and steel, the present invention can sieve the dregs in building waste by vibration screening mechanism, buoyancy screening mechanism can screen out wood materials from building waste, crushing device carries out broken refinement to building waste later, and by concentration equipment in building waste steel and barren rock material sieve, cause This present invention can carry out classification screening to four constituents main in building waste.

Description

A kind of building waste category filter device

Technical field

The present invention relates to building waste sorting technique field, specially a kind of building waste category filter device.

Background technique

Building waste refers to the slag that people generate in the production activity for being engaged in the construction industries such as removal, construction, finishing, repairerment The general designation of soil, waste and old concrete, waste and old masonry and other wastes is classified by constituent, can be divided into building waste dregs, Concrete block, crushed stone, brick and tile fragment, old metal, waste wood plate etc., building waste are usually the mode for directlying adopt backfill, and Current building waste sorting device, can only sieve metal and nonmetallic substance, and category filter function is more single, make It is low to obtain recovery utilization rate, results in waste of resources, a kind of equipment that can solve the above problem that the present invention illustrates.

Summary of the invention

Technical problem: current building waste sorting device can only sieve metal and nonmetallic substance, classifying screen It selects function more single, so that recovery utilization rate is low, results in waste of resources.

To solve the above problems, this example devises a kind of building waste category filter device, a kind of building waste of this example Category filter device, including utility box, the utility box is interior to be equipped with vibration cavity, is equipped in the vibration cavity and is used for vibrosieve slag The vibration device of soil, the utility box is interior to be equipped with the screening plant being located on the right side of the vibration cavity, and the screening plant can pass through Be set in the utility box and be located at storage chamber and the storage chamber on the right side of the vibration cavity communicated with the vibration cavity, It is set in the utility box and is located at timber chamber and the timber chamber on the right side of the storage chamber and communicated with the storage chamber, And the timber in building waste is sieved using the water stored in the storage chamber, while being conveyed timber by water flow Is stored to the timber is intracavitary, be equipped in the utility box be located on the downside of the screening plant and with the screening plant phase Logical steel chamber, the steel are intracavitary to be equipped with crushing device, after the crushing device can be by being rotationally connected with the steel chamber The mandrel that extends on the inner wall of side and forward, the bull stick being fixedly connected on the mandrel are set in the bull stick and front and back is passed through Logical sliding slot is slidably connected to rack gear on rear side of the steel chamber on inner wall, the gear that engagement is connected on the rack gear, fixation Be connected in the gear front end face and be slidably connected with the sliding slot sliding pin, be rotationally connected on rear side of the steel chamber in The shaft that extends on wall and forward, is slidably connected in the pressing plate right end face pressing plate being fixedly connected in the shaft And the hinged sliding shoe with the rack gear, and swung using the bull stick, the pressing plate can be driven to swing, to realize broken Movement, the utility box is interior to be equipped with the concentration equipment being located on the downside of the crushing device, and the concentration equipment is for sieving building stones And steel.

It may be preferred that the vibration cavity upper inside walls are equipped with the feed inlet communicated with outside, the steel chamber is for storing up Steel are deposited, the vibration cavity is higher than described for storing dregs, the wall face height that the outlet pipe communicates place with the storage chamber Timber chamber communicates the wall face height at place with the storage chamber, so that water energy extra in the storage chamber spills into the timber chamber It is interior.

Wherein, the vibration device includes the hydraulic turbine being fixedly connected on rear side of the vibration cavity on inner wall, the water wheels It is rotatably connected to the camshaft extended forwardly into the vibration cavity in machine, is fixedly connected with bias on the camshaft It takes turns, the filter plate for sieving dregs is slidably connected on the vibration cavity front inner wall, the filter plate is located at the bias Abutted on the upside of wheel shaft and in the eccentric wheel, be fixedly connected on end face on the downside of the filter plate there are two bilateral symmetry and with it is described The limited block that eccentric wheel abuts, and the eccentric wheel is located between two limited blocks, in the vibration cavity left and right side A sliding block, and two sliding block bilateral symmetries are slidably connected on wall respectively, the sliding block is close to one side of symmetrical centre It is fixedly connected with slide cartridge of the opening towards symmetrical centre side on face, secondary sliding block is slidably connected in the slide cartridge, it is described secondary sliding Block and the slide cartridge are far from compression press spring is connected between the inner wall of symmetrical centre side, the pair sliding block is close to symmetrical centre side L shape bar is fixedly connected on end face, the L shape bar other end is fixedly connected with end face on the downside of the filter plate, the hydraulic turbine Interlink the outlet pipe for being connected to and extending in the storage chamber on the end face of upside.

It may be preferred that filter plate upside face has constant slope, and left side is higher than right side, so that the filter plate When vibrosieve, building waste is gradually moved to right, and is finally transported in the storage chamber.

Wherein, the screening plant include be set in the utility box and be located at the storage chamber and the steel chamber it Between water storage cavity, the water storage cavity communicates respectively with the storage chamber and the timber chamber, and the water storage cavity and the steel Chamber communicates, and the storage chamber is rotatably connected to baffle with the water storage cavity place of communicating, and the flapper junction is equipped with torsion Spring, the timber chamber are equipped with water filter plate with the water storage cavity place of communicating, are fixedly connected with water in the water storage cavity inner left wall Pump is rotatably connected to the pulley shaft extended forward in the water pump, is fixedly connected with belt wheel on the pulley shaft, under the water pump Side end face is connected the suction hose extended downwardly, interlinks between the water pump and the hydraulic turbine and is connected to water pipe, described The conveying axis for being rotatably connected to two bilateral symmetries on inner wall on rear side of water storage cavity and extending forward, and the conveying axis is positioned at described On the right side of pulley shaft, it is fixedly connected with delivery wheel on the conveying axis, is connected with conveyer belt between two delivery wheels, left side The V belt wheel being fixedly connected on front side of the delivery wheel on the conveying axis is connected between the V belt wheel and the belt wheel V band.

It may be preferred that the transmission ratio between the belt wheel and the V belt wheel is one to one.

Wherein, the crushing device includes being fixedly connected on rear side of the steel chamber on inner wall and being located on the downside of the rack gear Secondary rack gear, and the secondary rack gear engage connection with the gear, and the shaft is positioned at the mandrel left side, the steel chamber right side Air storing cavity, the gas being fixedly connected on the downside of the air storing cavity on the inner wall of the steel chamber right side are fixedly connected on the inner wall of side Pump, interlinks between the air pump and the air storing cavity and is connected to appendix, is fixedly connected with position on inner wall on rear side of the steel chamber Pressurized cylinder on the left of the air pump, the pressurized cylinder is interior to be equipped with air cavity, is equipped in the pressurized cylinder and is located at the air cavity right side Hydraulic cavities, interlink between the hydraulic cavities and the air cavity and be connected to slide opening, be fixedly connected on inner wall on rear side of the steel chamber There are two three-way magnetic valves symmetrical above and below, and the pressurized cylinder is located between two three-way magnetic valves, and each described three Interlink between three-way electromagnetic valve and the pressurized cylinder and be connected to two symmetrical connecting legs, the three-way magnetic valve of upside with It interlinks between the air storing cavity and is connected to gas circuit pipe, interlink and be connected between the three-way magnetic valve of downside and the steel chamber Gas outlet slidably connects sliding plug in the air cavity, is fixedly connected in the sliding plug left end face and slide opening sliding connects The booster rod connect slidably connects piston in the hydraulic cavities, is fixedly connected in the piston left end face and extends to the left The steel intracavitary push rod is connected with reset spring, inner wall on rear side of the steel chamber between the piston and the hydraulic cavities On be rotatably connected to and extend forward and the idler shaft between the push rod and the mandrel, be fixedly connected on the idler shaft There is the idle pulley for engaging connection with the push rod, be fixedly connected on the mandrel on rear side of the bull stick and nibbled with the idle pulley Close the pinion of connection.

It may be preferred that end face is equipped with the safety valve for pressure release on the upside of the air storing cavity.

Wherein, the concentration equipment includes the building stones chamber for being set in the utility box and being located on the left of the steel chamber, And the building stones chamber is communicated with the steel chamber, is fixedly connected on inner wall positioned at the building stones chamber and institute on rear side of the steel chamber The gas-turbine that steel chamber communicates place is stated, and the gas-turbine is located on the downside of the shaft, between the gas-turbine and the air pump It interlinks and is connected to tracheae, interlink between the steel chamber on end face on the downside of the gas-turbine and be connected to gas vent, the turbine It is rotatably connected to the magnetic separation axis extended forward in machine, the magnetic separation outside the gas-turbine is fixedly connected on the magnetic separation axis Cylinder, it is intracavitary that the magnetic separation barrel part is located at the steel, and it is intracavitary that another part is located at the building stones, and magnetic separation barrel opening court Before, the magnet in the magnetic separation barrel is fixedly connected on the steel chamber front inner wall.

The beneficial effects of the present invention are: the present invention can be screened out the dregs in building waste simultaneously by vibration screening mechanism It is stored at corresponding storage, while wood materials can be screened out from building waste and are stored in corresponding by buoyancy screening mechanism Storage at, the building waste after sieving twice is carried out broken refinement by crushing device later, thus will part and coagulation The building stones such as soil block combine steel separate, later by concentration equipment in building waste steel and barren rock material sieve Point, to improve building waste screening precision, therefore the present invention can classify to four constituents main in building waste Screening, category filter function is stronger, can improve the recovery utilization rate of building waste, reduces the waste of resource.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is a kind of overall structure diagram of building waste category filter device of the invention；

Fig. 2 is the structural schematic diagram in direction " A-A " of Fig. 1；

Fig. 3 is the structural schematic diagram in direction " B-B " of Fig. 1；

Fig. 4 is the structure enlargement diagram at " C " of Fig. 1；

Fig. 5 is the structure enlargement diagram at " D " of Fig. 1.

Specific embodiment

Below with reference to Fig. 1 to Fig. 5, the present invention is described in detail, for sake of convenience, now advises to hereafter described orientation Fixed as follows: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

The present invention relates to a kind of building waste category filter devices, are mainly used in building waste classification, below in conjunction with The present invention will be further described for attached drawing of the present invention:

A kind of building waste category filter device of the present invention, including utility box 11, the utility box 11 is interior to be equipped with vibration Chamber 12, the interior vibration device 101 being equipped with for vibrosieve dregs of the vibration cavity 12, the utility box 11 is interior to be equipped with positioned at institute The screening plant 102 on 12 right side of vibration cavity is stated, the screening plant 102 in the utility box 11 and can be located at institute by being set to The storage chamber 26 and the storage chamber 26 for stating 12 right side of vibration cavity communicate with the vibration cavity 12, are set to the utility box 11 Timber chamber 28 that is interior and being located at 26 right side of the storage chamber and timber chamber 28 is communicated with the storage chamber 26, and utilize The water stored in the storage chamber 26 sieves the timber in building waste, while described in by water flow being delivered to timber Stored in timber chamber 28, be equipped in the utility box 11 be located at 102 downside of screening plant and with the screening plant The 102 steel chambers 35 communicated, the steel chamber 35 is interior to be equipped with crushing device 103, and the crushing device 103 can pass through rotation connection In the mandrel 75 extended on the 35 rear side inner wall of steel chamber and forward, the bull stick 56 being fixedly connected on the mandrel 75, set The sliding slot 55 for being placed in the perforation of in the bull stick 56 and front and back, the rack gear 53 being slidably connected on the 35 rear side inner wall of steel chamber, The gear 54 being connected on the rack gear 53 is engaged, is fixedly connected in 54 front end face of gear and is sliding with the sliding slot 55 The sliding pin 57 of dynamic connection is rotationally connected with the shaft 77 extended on the 35 rear side inner wall of steel chamber and forward, is fixedly connected on Pressing plate 51 in the shaft 77 is slidably connected in 51 right end face of pressing plate and the sliding shoe hinged with the rack gear 53 52, and swung using the bull stick 56, the pressing plate 51 can be driven to swing, thus realize crushing motion, the utility box 11 Interior to be equipped with the concentration equipment 104 for being located at 103 downside of crushing device, the concentration equipment 104 is for sieving building stones and steel.

Valuably, 12 upper inside walls of vibration cavity are equipped with the feed inlet 19 communicated with outside, and the steel chamber 35 is used In storage steel, for the vibration cavity 12 for storing dregs, the wall surface that the outlet pipe 24 communicates place with the storage chamber 26 is high Degree is higher than the wall face height that the timber chamber 28 communicates place with the storage chamber 26, so that water energy extra in the storage chamber 26 It spills into the timber chamber 28.

According to embodiment, vibration device 101 is described in detail below, the vibration device 101 includes being fixedly connected The hydraulic turbine 40 on the 12 rear side inner wall of vibration cavity is rotatably connected in the hydraulic turbine 40 and extends forwardly into the vibration Camshaft 23 in chamber 12, is fixedly connected with eccentric wheel 22 on the camshaft 23, on 12 front inner wall of vibration cavity The filter plate 20 for sieving dregs is slidably connected, the filter plate 20 is located at 23 upside of camshaft and in described inclined Heart wheel 22 abuts, and is fixedly connected on the 20 downside end face of filter plate there are two bilateral symmetry and abuts with the eccentric wheel 22 Limited block 21, and the eccentric wheel 22 is located between two limited blocks 21, on the 12 left and right side inner wall of vibration cavity A sliding block 15, and two 15 bilateral symmetries of sliding block are slidably connected respectively, and the sliding block 15 is close to symmetrical centre side It is fixedly connected with slide cartridge 14 of the opening towards symmetrical centre side on end face, slidably connects secondary sliding block 17 in the slide cartridge 14, The pair sliding block 17 and the slide cartridge 14 are far from being connected with compression press spring 16 between the inner wall of symmetrical centre side, the pair sliding block 17 L shape bar 18,18 other end of L shape bar and 20 lower side of filter plate are fixedly connected on one side end face of symmetrical centre Face is fixedly connected, and interlink the outlet pipe 24 for being connected to and extending in the storage chamber 26 on the 40 upside end face of the hydraulic turbine, is led to Crossing the hydraulic turbine 40 drives the camshaft 23 and the eccentric wheel 22 to rotate, to drive about 20 filter plate left Right vibration, to realize vibrosieve.

Valuably, the 20 upside face of filter plate has constant slope, and left side is higher than right side, so that the filter plate When 20 vibrosieve, building waste is gradually moved to right, and is finally transported in the storage chamber 26.

According to embodiment, screening plant 102 is described in detail below, the screening plant 102 includes being set to institute State in utility box 11 and the water storage cavity 44 between the storage chamber 26 and the steel chamber 35, the water storage cavity 44 with it is described Storage chamber 26 and the timber chamber 28 communicate respectively, and the water storage cavity 44 is communicated with the steel chamber 35, the storage chamber 26 It is rotatably connected to baffle 27 with 44 place of communicating of water storage cavity, torsionspring 50 is equipped at 27 rotation connection of baffle, it is described Timber chamber 28 is equipped with water filter plate 29 with 44 place of communicating of water storage cavity, is fixedly connected with water pump in 44 inner left wall of water storage cavity 13, the pulley shaft 48 extended forward is rotatably connected in the water pump 13, and belt wheel 47, institute are fixedly connected on the pulley shaft 48 It states 13 downside end face of water pump and is connected the suction hose 46 extended downwardly, communicated between the water pump 13 and the hydraulic turbine 40 It is connected with water pipe 25, the conveying axis for being rotatably connected to two bilateral symmetries on the 44 rear side inner wall of water storage cavity and extending forward 32, and the conveying axis 32 is located at 48 right side of pulley shaft, is fixedly connected with delivery wheel 31, two institutes on the conveying axis 32 It states and is connected with conveyer belt 30 between delivery wheel 31, be fixedly connected on the conveying axis 32 in left side before the delivery wheel 31 The V belt wheel 49 of side is connected with V band 45 between the V belt wheel 49 and the belt wheel 47, is rotated by the water pump 13 by the storage Water in water cavity 44 is transported in the storage chamber 26 by the water pipe 25, the hydraulic turbine 40 and the outlet pipe 24, institute It states the water overflowed in storage chamber 26 timber is transported in timber chamber 28, remaining building waste is transported to by the baffle 27 On the conveyer belt 30.

Valuably, the transmission ratio between the belt wheel 47 and the V belt wheel 49 is one to one.

According to embodiment, crushing device 103 is described in detail below, the crushing device 103 includes being fixedly connected In on the 35 rear side inner wall of steel chamber and being located at the secondary rack gear 58 of 53 downside of the rack gear, and the secondary rack gear 58 and the tooth 54 engagement connection of wheel, the shaft 77 are located at 75 left side of mandrel, are fixedly connected with storage on the 35 right side inner wall of steel chamber Air cavity 33 is fixedly connected with the air pump 34 positioned at 33 downside of air storing cavity, the air pump on the 35 right side inner wall of steel chamber It interlinks between 34 and the air storing cavity 33 and is connected to appendix 65, be fixedly connected on the 35 rear side inner wall of steel chamber positioned at institute The pressurized cylinder 59 in 34 left side of air pump is stated, air cavity 66 is equipped in the pressurized cylinder 59, is equipped in the pressurized cylinder 59 and is located at the gas The hydraulic cavities 60 on 66 right side of chamber, interlink between the hydraulic cavities 60 and the air cavity 66 and are connected to slide opening 70, the steel chamber 35 Three-way magnetic valve 62 symmetrical above and below there are two being fixedly connected on rear side inner wall, and the pressurized cylinder 59 is located at two threeways Between solenoid valve 62, interlink between each three-way magnetic valve 62 and the pressurized cylinder 59 be connected to two it is symmetrical Connecting leg 61 interlinks between the three-way magnetic valve 62 and the air storing cavity 33 of upside and is connected to gas circuit pipe 63, downside it is described It interlinks between three-way magnetic valve 62 and the steel chamber 35 and is connected to gas outlet 68, slidably connect sliding plug in the air cavity 66 67, the booster rod 69 being slidably connected with the slide opening 70, the hydraulic cavities 60 are fixedly connected in 67 left end face of sliding plug Piston 71 is inside slidably connected, is fixedly connected in 71 left end face of piston and extends to pushing away in the steel chamber 35 to the left Bar 72 is connected with reset spring 78, rotates on the 35 rear side inner wall of steel chamber between the piston 71 and the hydraulic cavities 60 It is connected with extension and the idler shaft 74 between the push rod 72 and the mandrel 75 forward, fixed company on the idler shaft 74 Be connected to the idle pulley 73 that connection is engaged with the push rod 72, be fixedly connected on the mandrel 75 positioned at 56 rear side of bull stick and with The pinion 76 of the engagement of idle pulley 73 connection, generates compressed air by the air pump 34 and is transported in the air cavity 66, It pushes the sliding plug 67 and the booster rod 69 to move to left, so that the booster rod 69 is moved to left to the hydraulic cavities 60, makes described Hydraulic oil in hydraulic cavities 60 pressurizes and the piston 71 is pushed to move to left, while nibbling by the push rod 72 and the idle pulley 73 Connection is closed, the bull stick 56 can be driven to rotate, is displaced to amplify the push rod 72, and the pressing plate 51 is driven to rotate, thus Realize crushing motion.

Valuably, the 33 upside end face of air storing cavity is equipped with the safety valve 64 for pressure release.

According to embodiment, concentration equipment 104 is described in detail below, the concentration equipment 104 includes being set to institute State in utility box 11 and be located at the building stones chamber 39 in 35 left side of steel chamber, and the building stones chamber 39 and 35 phase of steel chamber It is logical, the turbine for communicating place with the steel chamber 35 positioned at the building stones chamber 39 is fixedly connected on the 35 rear side inner wall of steel chamber Machine 41, and the gas-turbine 41 is located at 77 downside of shaft, interlinks and is connected between the gas-turbine 41 and the air pump 34 Tracheae 42 interlinks on the 41 downside end face of gas-turbine between the steel chamber 35 and is connected to gas vent 43, the gas-turbine It is rotatably connected to the magnetic separation axis 37 extended forward in 41, is fixedly connected on the magnetic separation axis 37 outside the gas-turbine 41 Magnetic separation barrel 36,36 part of magnetic separation barrel are located in the steel chamber 35, and another part is located in the building stones chamber 39, and described Magnetic separation barrel 36 is open forward, and the magnet 38 in the magnetic separation barrel 36 is fixedly connected on 35 front inner wall of steel chamber, It drives the magnetic separation barrel 36 to rotate counterclockwise by the gas-turbine 41 rotation, and steel is adsorbed by institute by the magnet 38 It states on magnetic separation barrel 36, to realize the function of screening steel and building stones.

It is carried out below in conjunction with use step of the Fig. 1 to Fig. 5 to one of this paper building waste category filter device detailed Illustrate:

When beginning, under the action of 50 spring force of torsionspring, baffle 27 is in closed state, so that storage chamber 26 and water storage cavity 44 are not communicated with, and sliding plug 67, piston 71 and rack gear 53 are located at right limit, and bull stick 56 and pressing plate 51 are located at maximum right pivot angle, storage Water is stored in water cavity 44 and storage chamber 26, building waste is launched in vibration cavity 12 by feed inlet 19 and falls on filter plate On 20, the three-way magnetic valve 62 of upside is not communicated with the connecting leg 61 of upside with gas circuit pipe 63, under the three-way magnetic valve 62 of downside makes The connecting leg 61 of side is not communicated with gas outlet 68.

When work, starting meeting water pump 13 and air pump 34, water pump 13 drives pulley shaft 48 to rotate, while water pump 13 passes through water suction Water in water storage cavity 44 is transported in the hydraulic turbine 40 by pipe 46 and water pipe 25, so that the hydraulic turbine 40 is driven partially by camshaft 23 Heart wheel 22 rotate, eccentric wheel 22 by is abutted with filter plate 20 drive filter plate 20 move up and down, while eccentric wheel 22 by with Limited block 21, which abuts, drives filter plate 20 by L shape bar 18, so that secondary sliding block 17 is moved left and right along slide cartridge 14, and slide cartridge 14 is logical Sliding block 15 is crossed to move up and down along 12 left or right side inner wall of vibration cavity, thus realize that filter plate 20 vibrates up and down, so that Dregs in building waste is dropped on 12 downside inner wall of vibration cavity by filter plate 20, realizes the sieve to dregs in building waste Point, while 20 side-to-side vibrations of filter plate moves to right the building waste for filtering out dregs to drop into storage chamber 26, in the hydraulic turbine 40 Water be transported in storage chamber 26 by outlet pipe 24, due to the effect of 26 internal buoyancy of storage chamber, make the timber in building waste On bubbling through the water column, and as water flow is flowed into timber chamber 28, the water flow in timber chamber 28 flows back into water storage by water filter plate 29 In chamber 44, while the objects such as concrete block and scrap steel sink and push baffle 27 open, drop on conveyer belt 30, while pulley shaft 48 drive V belt wheel 49 and the delivery wheel 31 in left side to rotate by belt wheel 47 and V band 45,31 driving conveying belt 30 of delivery wheel in left side It is rotated with the delivery wheel 31 on right side, so that building waste thereon is transported in steel chamber 35 by conveyer belt 30, air pump 34 is generated Compressed air be transported in air storing cavity 33 by appendix 65, the three-way magnetic valve 62 of upside first make the connecting leg 61 of upper right side with Gas circuit pipe 63 communicates, and the three-way magnetic valve 62 of downside communicates the connecting leg 61 of lower left side with gas outlet 68, so that in air storing cavity 33 Compressed air be transported in air cavity 66 and sliding plug 67 and booster rod 69 pushed to move to left, booster rod 69 is moved to left to hydraulic cavities 60, And pressurize to the hydraulic oil in hydraulic cavities 60, hydraulic oil pushes piston 71 and push rod 72 to move to left and generate biggish thrust, push rod 72 drive idle pulley 73 to rotate by engagement connection, and idle pulley 73 drives pinion 76 and mandrel 75 to rotate by engagement connection, mandrel 75 drive bull sticks 56 turn left, and bull stick 56 is by the band moving gear 54 that is slidably connected of sliding slot 55 and sliding pin 57 along secondary rack gear 58 It is moved to the left, while gear 54 is moved to the left by engaging connecting band carry-over bar 53, rack gear 53 is by sliding shoe 52 with dynamic pressure plate 51 are moved to the left, and crush the building stones in building waste, and the three-way magnetic valve 62 of upside makes the connecting leg 61 and gas circuit pipe of upside later 63 are not communicated with, and the three-way magnetic valve 62 of downside communicates the connecting leg 61 of downside with gas outlet 68, so that the compression in air cavity 66 Air discharge moves right in 78 elastic force of reset spring effect lower piston 71, and booster rod 69 and sliding plug 67 is pushed to reset, simultaneously So that pressing plate 51 and bull stick 56 is turned right reset, to realize crushing movement, repeats above-mentioned crushing motion continuation to building waste It is crushed, the building stones in building waste is made to be broken for fritter, while separate the steel in concrete block, it is broken It is fallen under building waste on magnetic separation barrel 36, while air pump 34 will be partially compressed in air delivery to gas-turbine 41 by tracheae 42, Gas-turbine 41 drives magnetic separation barrel 36 to rotate counterclockwise by magnetic separation axis 37, suction quilt of the steel in building waste due to magnet 38 It is adsorbed on magnetic separation barrel 36 and is transported on 35 downside inner wall of steel chamber, the building stones in building waste are then directly slipped to building stones In chamber 39, work to realize the category filter of building waste.

The beneficial effects of the present invention are: the present invention can be screened out the dregs in building waste simultaneously by vibration screening mechanism It is stored at corresponding storage, while wood materials can be screened out from building waste and are stored in corresponding by buoyancy screening mechanism Storage at, the building waste after sieving twice is carried out broken refinement by crushing device later, thus will part and coagulation The building stones such as soil block combine steel separate, later by concentration equipment in building waste steel and barren rock material sieve Point, to improve building waste screening precision, therefore the present invention can classify to four constituents main in building waste Screening, category filter function is stronger, can improve the recovery utilization rate of building waste, reduces the waste of resource.

In the above manner, those skilled in the art can be made within the scope of the invention according to operating mode it is various Change.

Claims (9)

1. a kind of building waste category filter device, including utility box；

It is equipped with vibration cavity in the utility box, is equipped with the vibration device for vibrosieve dregs in the vibration cavity, described point Be equipped with the screening plant being located on the right side of the vibration cavity in class case, the screening plant can by being set in the utility box and Storage chamber and the storage chamber on the right side of the vibration cavity communicate, be set in the utility box with the vibration cavity and Timber chamber and the timber chamber on the right side of the storage chamber are communicated with the storage chamber, and using in the storage chamber The water of storage sieves the timber in building waste, while timber being delivered to by water flow the timber is intracavitary to be stored up It deposits, the steel chamber for being located at and communicating on the downside of the screening plant and with the screening plant is equipped in the utility box；

The steel are intracavitary to be equipped with crushing device, and the crushing device can be by being rotationally connected on rear side of the steel chamber on inner wall And extend forward mandrel, be fixedly connected on the mandrel bull stick, be set in the bull stick and the sliding slot of front and back perforation, It is slidably connected to the rack gear on rear side of the steel chamber on inner wall, the gear that engagement is connected on the rack gear, is fixedly connected on institute State in gear front end face and be slidably connected with the sliding slot sliding pin, be rotationally connected on rear side of the steel chamber on inner wall and to The shaft of preceding extension, the pressing plate being fixedly connected in the shaft, be slidably connected in the pressing plate right end face and with it is described The hinged sliding shoe of rack gear, and swung using the bull stick, the pressing plate can be driven to swing, thus realize crushing motion, institute The concentration equipment for being equipped with and being located on the downside of the crushing device in utility box is stated, the concentration equipment is for sieving building stones and steel.

2. a kind of building waste category filter device as described in claim 1, it is characterised in that: the vibration cavity upper inside walls Be equipped with the feed inlet that communicates of outside, the steel chamber for storing steel, the vibration cavity for storing dregs, it is described go out Water pipe communicates the wall face height at place with the wall face height at the storage chamber place of communicating higher than the timber chamber with the storage chamber, makes Water energy extra in the storage chamber to spill into the timber intracavitary.

3. a kind of building waste category filter device as claimed in claim 2, it is characterised in that: the vibration device includes solid Surely it is connected to the hydraulic turbine on rear side of the vibration cavity on inner wall, is rotatably connected in the hydraulic turbine and extends forwardly into the vibration Intracavitary camshaft is fixedly connected with eccentric wheel on the camshaft, slidably connects on the vibration cavity front inner wall For sieving the filter plate of dregs, the filter plate is located on the upside of the camshaft and abuts in the eccentric wheel, the mistake Bilateral symmetry and the limited block abutted with the eccentric wheel there are two being fixedly connected on end face on the downside of filter plate, and the eccentric wheel position Between two limited blocks, a sliding block, and two are slidably connected on the vibration cavity left and right side inner wall respectively The sliding block bilateral symmetry, the sliding block are fixedly connected with opening towards symmetrical centre side on one side end face of symmetrical centre Slide cartridge, slidably connect in the slide cartridge secondary sliding block, the pair sliding block and the slide cartridge far from symmetrical centre side inner wall it Between be connected with compression press spring, the pair sliding block is fixedly connected with L shape bar on one side end face of symmetrical centre, and the L shape bar is another One end is fixedly connected with end face on the downside of the filter plate, and interlinking to be connected on end face on the upside of the hydraulic turbine extends to the water storage Intracavitary outlet pipe.

4. a kind of building waste category filter device as claimed in claim 3, it is characterised in that: end face on the upside of the filter plate With constant slope, and left side is higher than right side, so that building waste gradually moves to right when the filter plate vibrosieve, it is last defeated It is sent in the storage chamber.

5. a kind of building waste category filter device as claimed in claim 3, it is characterised in that: the screening plant includes setting It is placed in the utility box and the water storage cavity positioned at the storage chamber and the steel chamber between, the water storage cavity and the water storage Chamber and the timber chamber communicate respectively, and the water storage cavity is communicated with the steel chamber, the storage chamber and the water storage cavity phase Logical place is rotatably connected to baffle, and the flapper junction is equipped with torsionspring, and the timber chamber is communicated with the water storage cavity Place is equipped with water filter plate, is fixedly connected with water pump in the water storage cavity inner left wall, is rotatably connected in the water pump and extends forward Pulley shaft, belt wheel is fixedly connected on the pulley shaft, end face is connected the water suction extended downwardly on the downside of the water pump Pipe, interlinks between the water pump and the hydraulic turbine and is connected to water pipe, is rotatably connected to two on inner wall on rear side of the water storage cavity Bilateral symmetry and the conveying axis extended forward, and the conveying axis is located on the right side of the pulley shaft, it is fixed on the conveying axis to connect It is connected to delivery wheel, conveyer belt is connected between two delivery wheels, is fixedly connected on the conveying axis in left side positioned at institute The V belt wheel on front side of delivery wheel is stated, is connected with V band between the V belt wheel and the belt wheel.

6. a kind of building waste category filter device as claimed in claim 5, it is characterised in that: the belt wheel and the V band Transmission ratio between wheel is one to one.

7. a kind of building waste category filter device as described in claim 1, it is characterised in that: the crushing device includes solid Surely the secondary rack gear on inner wall and being located on the downside of the rack gear, and the secondary rack gear and the gear are connected on rear side of the steel chamber Engagement connection, the shaft are located on the left of the mandrel, are fixedly connected with air storing cavity, the steel on inner wall on the right side of the steel chamber The air pump being fixedly connected on inner wall on the downside of the air storing cavity on the right side of material chamber, communicates between the air pump and the air storing cavity It is connected with appendix, the pressurized cylinder being fixedly connected on the left of the air pump on the steel chamber rear side inner wall, the pressurization Be equipped with air cavity in cylinder, be equipped with the hydraulic cavities being located on the right side of the air cavity in the pressurized cylinder, the hydraulic cavities and the air cavity it Between interlink and be connected to slide opening, be fixedly connected with that there are two three-way magnetic valves symmetrical above and below, and institute on rear side of the steel chamber on inner wall Pressurized cylinder is stated between two three-way magnetic valves, is interlinked between each three-way magnetic valve and the pressurized cylinder Symmetrical connecting leg there are two connecing, interlinks between the three-way magnetic valve and the air storing cavity of upside and is connected to gas circuit pipe, It interlinks between the three-way magnetic valve of downside and the steel chamber and is connected to gas outlet, slidably connect cunning in the air cavity It fills in, the booster rod being slidably connected with the slide opening is fixedly connected in the sliding plug left end face, sliding connects in the hydraulic cavities Be connected to piston, be fixedly connected in the piston left end face and extend to the intracavitary push rod of the steel to the left, the piston with It is connected with reset spring between the hydraulic cavities, is rotatably connected to and extends forward and positioned at described on inner wall on rear side of the steel chamber Idler shaft between push rod and the mandrel is fixedly connected with the idle pulley that connection is engaged with the push rod, institute on the idler shaft State the pinion for being fixedly connected on rear side of the bull stick on mandrel and engaging connection with the idle pulley.

8. a kind of building waste category filter device as claimed in claim 7, it is characterised in that: end face on the upside of the air storing cavity It is equipped with the safety valve for pressure release.

9. a kind of building waste category filter device as claimed in claim 7, it is characterised in that: the concentration equipment includes setting It is placed in the building stones chamber in the utility box and being located on the left of the steel chamber, and the building stones chamber is communicated with the steel chamber, institute It states and is fixedly connected with the gas-turbine for communicating place with the steel chamber positioned at the building stones chamber, and the gas on inner wall on rear side of steel chamber Turbine is located on the downside of the shaft, interlinks between the gas-turbine and the air pump and is connected to tracheae, the gas-turbine lower side It interlinks between the steel chamber on face and is connected to gas vent, the magnetic separation axis extended forward is rotatably connected in the gas-turbine, The magnetic separation barrel outside the gas-turbine is fixedly connected on the magnetic separation axis, the magnetic separation barrel part is located at the steel chamber Interior, it is intracavitary that another part is located at the building stones, and magnetic separation barrel opening is forward, is fixedly connected on the steel chamber front inner wall There is the magnet being located in the magnetic separation barrel.