CN107971129A

CN107971129A - Building waste processing system

Info

Publication number: CN107971129A
Application number: CN201711218504.0A
Authority: CN
Inventors: 江晓丹; 林秋平
Original assignee: Shenzhen City Jiasheng Environmental Protection Industry Co Ltd
Current assignee: Shenzhen Jiangshi Enze Industrial Co ltd
Priority date: 2017-11-28
Filing date: 2017-11-28
Publication date: 2018-05-01
Anticipated expiration: 2037-11-28
Also published as: CN107971129B

Abstract

The present invention provides a kind of building waste processing system, including rough sand system, fine sand system, mud system and water circulation system, the rough sand system is connected with the fine sand system, the fine sand system is connected with the mud system, the water circulation system is respectively to the rough sand system, the fine sand system and the mud system water supply, the rough sand system feeding, the mud produced during rough sand is made enters the fine sand system, the mud that the fine sand system produces during fine sand is made enters the mud treatment system, the mud treatment system is made the water produced during mud cake and enters the water circulation system.Organically combined by setting rough sand system, fine sand system, mud system and water circulation system, and to each system, energy isolated rough sand, fine sand and mud, and it can realize recycling for water, effectively building waste is recycled, and water resource, energy conservation and environmental protection can be saved.

Description

Building waste processing system

Technical field

The invention belongs to technical field of waste treatment, more particularly to a kind of building waste processing system.

Background technology

Building waste refers to that construction, unit in charge of construction or individual build all kinds of buildings, structures, pipe network etc., spread If or remove, caused dregs, spoir, rejected material, mud and other discarded objects in reparative processes.With industrialization, urbanization The acceleration of process, construction industry is also fast-developing at the same time, and the building waste produced together is increasing, the number of Chinese architecture rubbish Amount has accounted for more than the 1/3 of municipal refuse total amount.Calculate that, to the year two thousand twenty, China is also with 500-600 tons/ten thousand square metres of standard By about 30,000,000,000 square metres of newly-increased construction area, newly generated building waste will be a shocking numeral.It is however, big absolutely Part building waste just transports countryside or rural area, air storage or landfill to by unit in charge of construction, consumes substantial amounts of without any processing The pork barrels such as land acquisition expense, refuse collection expense, meanwhile, clear and flown upward with dropping in stacking process with dust, sand-lime Problem causes serious environmental pollution again.

The processing mode of building waste is presently mainly to carry out limited recycling using the technology such as sorting, broken, and Complicated component is included in the building waste of recycling, it is impossible to which the major ingredient as new construction, can only be used as auxiliary material to utilize, to building rubbish The digestion amount of rubbish is small, and water waste is serious in processing procedure, seriously polluted, the not energy conservation and environmental protection of generation.

Therefore, there is an urgent need to a kind of building waste processing system can solve above-mentioned technical problem.

The content of the invention

The object of the present invention is to provide a kind of building waste processing system, can effectively recycle building waste, and will can build Rough sand, fine sand and mud in building refuse are separated, and save water resource, energy conservation and environmental protection.

To achieve the object of the present invention, the present invention provides following technical solution：

The present invention provides a kind of building waste processing system, including rough sand system, fine sand system, mud system and water circulation System, the rough sand system are connected with the fine sand system, and the fine sand system is connected with the mud system, the water cyclic system System is respectively to the rough sand system, the fine sand system and the mud system water supply, the rough sand system feeding, in obtained rough sand During the mud that produces enter the fine sand system, the mud that the fine sand system produces during fine sand is made enters institute Mud treatment system is stated, the mud treatment system is made the water produced during mud cake and enters the water circulation system.

Wherein, the rough sand system includes being sequentially arranged charger, waste material seperator, first drag for husky machine, crusher, the Two drag for husky machine, sand sieving machine, sand washer and rough sand dewaterer, wherein, the waste material seperator outlet is equipped with the first pond, described broken Broken machine outlet is equipped with the second pond, and described first drags for husky machine from first pond by the separated sandstone of the scrap separator Drag for and send to the crusher, described second, which drags for husky machine, drags for the sandstone of the crusher in crushing into described from second pond Sand sieving machine, the rough sand dewaterer are connected with first conveyer belt, and the first conveyer belt is arranged on stent, and described first defeated Band is sent to be movably arranged on the stent.

Wherein, described first drag for husky machine one end and be arranged in first pond, described first drags for opposite another of husky machine Setting is raised at end, and makes described first to drag for husky machine from the scrap separator to the crusher direction in the knot gradually risen Structure, described second, which drags for husky machine one end, is arranged in second pond, and described second, which drags for the opposite other end of husky machine, raises setting, And described second is set to drag for husky machine from the crusher to the sand sieving machine direction in the structure gradually risen, the sand sieving machine and institute State and the second conveyer belt be also associated between crusher, second conveyer belt convey the sand sieving machine sieve it is husky after the bulky grain that produces Sandstone to the crusher carry out second-time breakage.

Wherein, the waste material seperator is connected with the 3rd conveyer belt, the waste material that the waste material seperator separation sandstone produce Transported by the 3rd conveyer belt.

Wherein, the fine sand system include the 3rd pond, the 4th pond, the 5th pond, the 6th pond, the 4th conveyer belt, Fine sand dewaterer, the 5th conveyer belt, the first cyclone separator and the second cyclone separator, the 3rd pond and first water The first water channel is connected between pond, the second water channel, the 5th water are connected between the 4th pond and second pond The 3rd water channel is connected between pond and the sand washer, the 3rd pond is equipped with the first slush pump, and first slush pump will Slurry transportation in 3rd pond is to first cyclone separator, the fine sand warp that first cyclone separator is isolated 4th conveyer belt is delivered to the 6th pond, and the 6th pond is equipped with the second slush pump, and second slush pump will Slurry transportation in 6th pond is to second cyclone separator, the fine sand warp that second cyclone separator is isolated Transported after the fine sand dewaterer dehydration by the 5th conveyer belt for connecting the fine sand dewaterer.

Wherein, the fine sand system further includes the 3rd cyclone separator and the 4th cyclone separator, and the 4th pond is set There is the 3rd slush pump, the 3rd slush pump is by the slurry transportation in the 4th pond to the 3rd cyclone separator, institute State the 5th pond and be equipped with the 4th slush pump, the 4th slush pump revolves the slurry transportation in the 5th pond to the described 4th Stream separator, the fine sand that the 3rd cyclone separator and the 4th cyclone separator are isolated are defeated through the 4th conveyer belt Send to the 6th pond.

Wherein, first water channel is equipped with sizing equipment, for picking up the debris in first water channel.

Wherein, the mud system includes the first refuse receptacle, the first Pulp pump and Duo Tai filter presses, first cyclonic separation The first dredging tube is connected between device and first refuse receptacle, the mud that first cyclone separator is isolated is through described One dredging tube is delivered to first refuse receptacle and is precipitated, and the mud of the first refuse receptacle bottom precipitation is through first slag Stock pump is delivered to the filter press, and the filter press obtains mud cake after extruding mud, and the moisture in mud is separated out Come.

Wherein, the mud system further includes the second refuse receptacle, the 3rd refuse receptacle, the second Pulp pump, the 3rd Pulp pump, described The second dredging tube is connected between 3rd cyclone separator and second refuse receptacle, what the 3rd cyclone separator was isolated Mud is delivered to second refuse receptacle through second dredging tube and is precipitated, the mud of the second refuse receptacle bottom precipitation The filter press is delivered to through second Pulp pump, is connected between the 4th cyclone separator and the 3rd refuse receptacle 3rd dredging tube, the mud that the 4th cyclone separator is isolated are delivered to the 3rd refuse receptacle through the 3rd dredging tube Precipitated, the 4th dredging tube, second eddy flow are connected between second cyclone separator and the 3rd refuse receptacle The mud that separator is isolated is delivered to the 3rd refuse receptacle through the 4th dredging tube and is precipitated, the 3rd refuse receptacle The mud of bottom precipitation is delivered to the filter press through the 3rd Pulp pump, and the filter press obtains after extruding mud Mud cake, and the water in mud is separated.

Wherein, the water circulation system includes clear water reserviors, and the clear water reserviors are respectively connected to first water equipped with pipeline Pond, second pond, the 3rd pond, the 4th pond, the 5th pond, the 6th pond, described first Refuse receptacle, second refuse receptacle, the 3rd refuse receptacle and the multiple filter press, the multiple separated water warp of filter press The pipeline is flowed into the clear water reserviors, and the clear water reserviors are respectively to first pond, second pond, the 3rd water Pond, the 4th pond, the 5th pond, the 6th pond, first refuse receptacle, second refuse receptacle and described 3rd refuse receptacle supplies water.

Beneficial effects of the present invention：

Building waste processing system provided by the invention is by setting rough sand system, fine sand system, mud system and water to circulate System, and each system is organically combined, energy isolated rough sand, fine sand and mud, and can realize recycling for water, have Imitate and recycled building waste, and water resource, energy conservation and environmental protection can be saved.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of embodiment of the present invention or technical solution of the prior art Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the present invention, for those of ordinary skill in the art, without creative efforts, Other attached drawings can also be obtained according to these attached drawings.

Fig. 1 is the structure diagram of the building waste processing system of one embodiment of the present invention；

Fig. 2 is the water circulation system structure diagram in Fig. 1；

Fig. 3 is the structure diagram of the first cyclone separator in Fig. 1；

Fig. 4 a are a kind of structure diagrams of the charger in embodiment；

Fig. 4 b are the left view structural representations of the charger in Fig. 4 a；

Fig. 5 a are the structure diagram of waste material seperator provided in an embodiment of the present invention；

Fig. 5 b are the structure diagram at another visual angle of waste material seperator provided in an embodiment of the present invention；

Fig. 5 c are the structure diagram of the first cylinder of waste material seperator provided in an embodiment of the present invention；

Fig. 5 d are the structure diagram of the sieve part of waste material seperator provided in an embodiment of the present invention；

Fig. 6 a are the structure diagram provided in an embodiment of the present invention for dragging for husky machine；

Fig. 6 b are the structure diagram of the tipping bucket provided in an embodiment of the present invention for dragging for husky machine；

Fig. 7 a are the structure diagram of sand sieving machine provided in an embodiment of the present invention；

Fig. 7 b are the structure diagram of the first cylinder of sand sieving machine provided in an embodiment of the present invention；

Fig. 7 c are the structure diagram of the second cylinder of sand sieving machine provided in an embodiment of the present invention；

Fig. 8 a are the dimensional structure diagrams of the sand washer of one embodiment of the present invention；

Fig. 8 b are the runner cross-sectional structure schematic diagrames of the sand washer in Fig. 8 a；

Fig. 8 c are the sieve-plate structure schematic diagrames of the sand washer in Fig. 8 a；

Fig. 8 d are the slab construction schematic diagrames of the sand washer in Fig. 8 a；

Fig. 8 e are the use state diagrams of the sand washer of Fig. 8 a；

Fig. 9 a are the dimensional structure diagrams of the vibrating-dewatering screen of one embodiment of the present invention；

Fig. 9 b are the right side structural representations of the vibrating-dewatering screen in Fig. 9 a；

Fig. 9 c are the partial enlargement structural representations of the compass screen surface of the vibrating-dewatering screen in Fig. 9 a；

Figure 10 a are the structure diagram of mud separator provided in an embodiment of the present invention；

Figure 10 b are the schematic cross-section of mud separator provided in an embodiment of the present invention；

Figure 10 c are the top view of mud separator provided in an embodiment of the present invention.

Embodiment

Below in conjunction with the attached drawing in embodiment of the present invention, the technical solution in embodiment of the present invention is carried out clear Chu, be fully described by, it is clear that described embodiment only a part of embodiment of the present invention, rather than whole realities Apply mode.Based on the embodiment in the present invention, those of ordinary skill in the art institute without making creative work The every other embodiment obtained, belongs to the scope of protection of the invention.

Please refer to Fig.1 and Fig. 2, a kind of better embodiment of the present invention provide a kind of building waste processing system, including Rough sand system 100, fine sand system 200, mud system 300 and water circulation system 400, the rough sand system 100 and the fine sand system The connection of system 200, the fine sand system 200 are connected with the mud system 300, and the water circulation system 40 is respectively to the rough sand system System 100, the fine sand system 200 and the mud system 300 supply water, and the rough sand system 100 is fed, during rough sand is made The mud of generation enters the fine sand system 200, and the mud that the fine sand system 200 produces during fine sand is made enters institute Mud treatment system 300 is stated, the mud treatment system 300 is made the water produced during mud cake and enters the water circulation system 400.

In present embodiment, by setting rough sand system 100, fine sand system 200, mud system 300 and water circulation system 400, and each system is organically combined, energy isolated rough sand, fine sand and mud, and can realize recycling for water, have Imitate and recycled building waste, and water resource, energy conservation and environmental protection can be saved.

In present embodiment, the size range of rough sand and fine sand can be adjusted by the market demand, it is however generally that, it is obtained The size range of rough sand be 0.5mm~8mm, the size range of fine sand is 0.075mm~0.5mm.Rough sand can be used for making mixed Solidifying soil, fine sand can be used for plastering and jointing, mud to can be used for brickmaking.

Further, the rough sand system 100 includes being sequentially arranged charger 101, waste material seperator 102, first drag for Husky machine 106, crusher 107, second drag for husky machine 109, sand sieving machine 110, sand washer 112 and rough sand dewaterer 113, wherein, it is described The outlet of waste material seperator 101 is equipped with the first pond 105, and the outlet of crusher 107 is equipped with the second pond 108, and described first drags for The 102 separated sandstone of scrap separator are dragged for and sent to the crusher 107, institute by husky machine 106 from first pond 105 State second drag for husky machine 109 from second pond 108 by the crusher 107 crush sandstone drag for into the sand sieving machine 110, The rough sand dewaterer 113 is connected with first conveyer belt (not shown), and the first conveyer belt is arranged on stent 115, And the first conveyer belt is movably arranged on the stent 115.

Wherein, the 6th conveyer belt 114 can also be set between stent 115 and rough sand dewaterer 113, pass through the 6th conveyer belt 114 are delivered to 113 dewatered rough sand of rough sand dewaterer in the first conveyer belt on stent 115, defeated for adjustment first The setting position of band is sent, is more convenient for that equipment is installed according to geographical terrain.Be additionally provided with stent 115 can opposite brackets 115 slide set The secondary support 116 put, first conveyer belt are also partly arranged on secondary support 116, change rough sand by the slip of secondary support 116 Discharge position so that rough sand can carry out discharging in rough sand discharge zone 117.Stent 115 can be supported on by pillar 118 apart from ground compared with High position, so rough sand discharge zone 117 can directly with truck below stent 116 then rough sand, can save will be thick Sand refills the step being downloaded on truck, improves efficiency.

Further, described first drag for husky 106 one end of machine and be arranged in first pond 105, described first drags for husky machine The 106 opposite other ends raise setting, and make described first to drag for husky machine 106 from the scrap separator 102 to the crusher 107 directions are in the structure gradually risen, and described second, which drags for husky 109 one end of machine, is arranged in second pond 108, and described second Drag for the opposite other end of husky machine 109 and raise setting, and make described second to drag for husky machine 109 from the crusher 107 to the sieve sand 110 direction of machine is in the structure gradually risen, and the second conveyer belt is also associated between the sand sieving machine 110 and the crusher 203 111, second conveyer belt 111 conveys the sand sieving machine 110 and sieves the sandstone of the bulky grain produced after sand to the crusher 107 Carry out second-time breakage.

Sand is dragged for by setting first to drag for husky machine 106 from the first pond 105, with to being separated in scrap separator 102 Sandstone carry out preliminary washing, part mud and fine sand can be washed out, the sandstone pulled out are broken through crusher 107, large-sized sand Stone is crushed into the sandstone of small size, by the screening of the sieve in crusher 107, obtains size and is less than 107 sieve of crusher Sandstone of size, and be sent into the second pond 108 and washed, further wash out part mud and fine sand, second drag for husky machine 109 from The sandstone pulled out in second pond 108 are screened through sand sieving machine 110, obtain the sandstone that size is less than 110 screen mesh size of sand sieving machine, its Middle size is delivered to crusher 107 by the second conveyer belt 111 more than the sandstone of 110 screen mesh size of sand sieving machine and is broken again It is broken, untill size is less than 110 screen mesh size of sand sieving machine.Sand sieving machine 110 conveys sandstone and enters sand washer 112, sand washer 112 Inside be connected with water, by runner rotation drive sand washer 112 in sandstone be sufficiently mixed with water, and by sandstone itself and with The friction of sand washer 112 so that mud and fine sand suspend in water, and rough sand then takes rough sand dewaterer 113 to by runner, wash sand Machine 112 can include multiple and be used in series, to accelerate to wash husky efficiency.

Further, the waste material seperator 102 is connected with the 3rd conveyer belt 103, and the waste material seperator 102 separates sand The waste material that stone produces is transported by the 3rd conveyer belt 103.In general, waste material cannot including the big reinforcing bar of size, plank etc. Pass through the building waste of the sieve in waste material seperator 102.The waste material of 3rd conveyer belt 103 conveying deposits in waste material storage area 104, these waste materials can be recycled with other modes certainly, to make full use of resource.

Further, the 3rd pond 203, the 4th pond are included please also refer to Fig. 1 and Fig. 3, the fine sand system 200 207th, the 5th pond 210, the 6th pond 212, the 4th conveyer belt 205, fine sand dewaterer 214, the rotation of the 5th conveyer belt 215, first 204 and second cyclone separator 213 of stream separator, first is connected between the 3rd pond 203 and first pond 105 Water channel 201, is connected with the second water channel 206, the 5th pond 210 between the 4th pond 207 and second pond 108 It is connected with the 3rd water channel 209 between the sand washer 112, the 3rd pond 203 is equipped with the first slush pump 2041, and described One slush pump 2041 is by the slurry transportation in the 3rd pond 203 to first cyclone separator 204, first eddy flow The fine sand that separator 204 is isolated is delivered to the 6th pond 212, the 6th pond 212 through the 4th conveyer belt 205 Equipped with the second slush pump (non-label in figure), second slush pump is by the slurry transportation in the 6th pond 212 to described Second cyclone separator 213, the fine sand that second cyclone separator 213 is isolated is after the fine sand dewaterer 214 dehydration Transported by the 5th conveyer belt 215 for connecting the fine sand dewaterer 214.

Wherein, the first water channel 201, the second water channel 206 and the 3rd water channel 209 can also use the form of pipeline, the first pond 105 upper sides open up opening (not shown) and are connected with the first water channel 201 so that the mud in the first pond 105 suspends Thing flows into the first water channel 201 by the opening, and 108 upper side of the second pond opens up opening (not shown) and the second water channel 206 connections so that the mud suspended matter in the second pond 108 flows into the second water channel 206 by the opening, and sand washer 112 is washed Sand basin upper portion side wall offers opening (not shown) and is connected with the 3rd water channel 209 so that the mud in sand washer 112 suspends Thing flows into the 3rd water channel 209 by the opening.By the first water channel 201,206 upper side of the second water channel open up opening and In the form washed sand basin upper portion side wall and open up opening of sand washer 112, avoid sinking to the sandstone outflow of bottom of pond, ensure that rough sand and Fine sand is individually separated.

Wherein, sand washer 112 can be set multiple, and multiple sand washers 112 are sequentially connected, and multiple sand washers 112 wash sand Between outlet on pond sink or pipeline can be set to communicate with one another, and opening and the 3rd water channel are opened up on sink or water pipe 209 connection, the 3rd water channel 209 could be provided as it is multiple, with accelerate conveying mud speed.

Please refer to Fig.3, be a kind of structure diagram of preferred embodiment of the first cyclone separator 204, it is possible to understand that , the structure of other cyclone separators in the system can also refer to the first cyclone separator.Cyclone separator is also known as waterpower rotation Device is flowed, is the equipment that solid particle is separated from suspended matter using centrifugal sedimentation principle.Equipment body is by cylinder and circular cone two Part is formed, and circular cone is than cylinder closer in the following, cylindrical portions are shorter and cylindrical portions side wall has suspended matter import, cylindrical portion Point top has liquid outlet, and separated liquid portion comes out from the liquid outlet of barrel top, and tapered segment is longer and from circle Cylinder comes out to the gradual necking of conical outlet portion, separated solid particle from the opening at necking.Cyclonic separation in the system Device is arranged side by side for 2, and top 2047 and 2048 is by 2049 unicom of pipeline, defeated equipped with opening and first on pipeline 2049 Mud pipe 301 connects.The mud suspension that first slush pump 2041 is extracted from the 3rd pond 203 divides for the first via through entering pipe 2042 2043 and second tunnel 2044 tangentially respectively enter 2 cylinders, mud suspension makees downwards spiral shape fortune in cyclone separator Dynamic, solid particle is thrown toward wall by centrifugal inertial force effect, and the outlet 2045 and 2046 at cone bottom is down to lower eddy flow.Clear liquid or Liquid containing subparticle then becomes the internal layer eddy flow risen, is discharged from the pipeline of top center, is known as overflow.Cyclonic separation In device, the quick athletic meeting of solid particle along wall causes the serious abrasion of separator, is expanded service life, using wear-resisting material Material manufacture makees liner using wear-resistant material.

Wherein, separated fine sand enters fine sand dewaterer 214 in the second cyclone separator 213, de- through washing husky dewaterer 214 Fine sand after water is delivered to fine sand storage area 216 by the 5th conveyer belt 215, and fine sand storage area 216 is set away from rough sand storage area 117 Put, rough sand and fine sand is stored respectively.

Further, the fine sand system 200 further includes the 3rd cyclone separator 208 and the 4th cyclone separator 211, institute State the 4th pond 207 and be equipped with the 3rd slush pump (non-label in figure), the 3rd slush pump is by the mud in the 4th pond 207 Slurry is delivered to the 3rd cyclone separator 208, and the 5th pond 210 is equipped with the 4th slush pump (non-label in figure), described 4th slush pump divides the slurry transportation in the 5th pond 210 to the 4th cyclone separator 211, the 3rd eddy flow The fine sand isolated from device 208 and the 4th cyclone separator 211 is delivered to the 6th water through the 4th conveyer belt 205 Pond 212.

Wherein, the first cyclone separator 204, the 3rd cyclone separator 208 and the 4th cyclone separator 211 be in the present system Arrangement is in a straight line, and the 4th conveyer belt 205 is arranged in the first cyclone separator 204, the 3rd cyclone separator 208 and the 4th eddy flow The outlet port of separator 211, the 4th conveyer belt 205 assume that on stent.

Further, first water channel 201 is equipped with sizing equipment 202, for picking up in first water channel 201 Debris.Wherein, debris mainly includes plastics, plant stem-leaf etc., and the processing of other modes is carried out after the recycling of these debris, to avoid Pollute environment.Sizing equipment 202 includes grid, and further, grid can be end to end loop configuration, and be arranged at On stent, hook projection is also also provided with grid, sets driving device to be connected with grid on stent, makes grid And hook projection does looped motions up and down on the first water channel 201, and the debris in the first water channel 201 is triggered by hook projection. Grid has gap to allow size less than the water and mud in the gap by so as to complete the separation of debris.

Further, the mud system 300 includes the first refuse receptacle 302, the first Pulp pump 304 and Duo Tai filter presses 309, The first dredging tube 301, first eddy flow are connected between first cyclone separator 204 and first refuse receptacle 302 The mud that separator 204 is isolated is delivered to first refuse receptacle 302 through first dredging tube 301 and is precipitated, described The mud of first refuse receptacle, 302 bottom precipitation is delivered to the filter press 309, the filter press through first Pulp pump 304 309 pairs of mud obtain mud cake after extruding, and the water in mud is separated.

Wherein, the first Pulp pump 304 is connected by pipeline 303 with the first refuse receptacle 302, and pipeline 303 is arranged at the first ring The inside that 302 lateral wall bottom parallel connection of bucket passes to the first refuse receptacle 302 is protected, outlet and the pipeline 305 of the first Pulp pump 304 connect Connect, pipeline 305 is connected to filter press 309.Wherein, for the operating mode of reasonable control system, the output of the first Pulp pump 304 is set Flow can adjust, and adjustment mode can use the motor (figure that PLC controller and Frequency Converter Control are connected with the first Pulp pump 304 Not shown in) power so that wheel speed inside the first Pulp pump 304 changes so that the quantitative change of the mud of impeller propelled Change and realize.

Further, the mud system 300 further includes the second refuse receptacle 307, the 3rd refuse receptacle 312, the second Pulp pump 309th, the 3rd Pulp pump 314, the second defeated mud is connected between the 3rd cyclone separator 208 and second refuse receptacle 307 Pipe 306, the mud that the 3rd cyclone separator 208 is isolated are delivered to second environmental protection through second dredging tube 306 Bucket 307 is precipitated, and the mud of 307 bottom precipitation of the second refuse receptacle is delivered to the pressure through second Pulp pump 309 Filter 319, the 3rd dredging tube 311 is connected between the 4th cyclone separator 211 and the 3rd refuse receptacle 312, described The mud that 4th cyclone separator 211 is isolated is delivered to the 3rd refuse receptacle 312 through the 3rd dredging tube 311 and is sunk Form sediment, the 4th dredging tube 316, second rotation are connected between second cyclone separator 213 and the 3rd refuse receptacle 312 The mud that stream separator 213 is isolated is delivered to the 3rd refuse receptacle 312 through the 4th dredging tube 316 and is precipitated, institute The mud for stating 312 bottom precipitation of the 3rd refuse receptacle is delivered to the filter press 319, the press filtration through the 3rd Pulp pump 314 Machine 319 obtains mud cake after extruding mud, and the water in mud is separated.

Wherein, the second Pulp pump 309 is connected by pipeline 308 with the second refuse receptacle 307, and pipeline 308 is arranged at the second ring The inside that 307 lateral wall bottom parallel connection of bucket passes to the second refuse receptacle 307 is protected, outlet and the pipeline 310 of the second Pulp pump 309 connect Connect, pipeline 310 is connected to filter press 309.Wherein, for the operating mode of reasonable control system, the output of the second Pulp pump 309 is set Flow can adjust, and adjustment mode can use the motor (figure that PLC controller and Frequency Converter Control are connected with the second Pulp pump 309 Not shown in) power so that wheel speed inside the second Pulp pump 309 changes so that the quantitative change of the mud of impeller propelled Change and realize.3rd Pulp pump 314 is connected by pipeline 313 with the 3rd refuse receptacle 312, and pipeline 313 is arranged at the 3rd refuse receptacle 312 lateral wall bottom parallel connections pass to the inside of the 3rd refuse receptacle 312, and the outlet of the 3rd Pulp pump 314 is connected with pipeline 315, pipe Road 315 is connected to filter press 309.Wherein, for the operating mode of reasonable control system, the output flow of the first Pulp pump 302 of setting Adjustable, adjustment mode can be using the motor that PLC controller and Frequency Converter Control are connected with the 3rd Pulp pump 314 (in figure not Show) power so that wheel speed inside the 3rd Pulp pump 314 changes so that the amount change of the mud of impeller propelled and Realize.

Wherein, filter press 319 may be disposed in workshop 318, and workshop is double-layer structure, and filter press 319 is arranged at the second layer, First layer sets mud cake storage area 320, and in 319 course of work of filter press, the mud cake pressed drops to mud cake from filter press 319 Storage area 320, the water being extruded then separately set pipeline to clear water reserviors 401.Workshop is additionally provided with the necessary auxiliary such as stair 317 and sets Standby or device.

Further, please refer to Fig.1 and Fig. 2, the water circulation system 400 include clear water reserviors 401, the clear water reserviors 401 First pond 105, second pond 108, the 3rd pond 203, the 4th water are respectively connected to equipped with pipeline Pond 207, the 5th pond 210, the 6th pond 212, first refuse receptacle 302, second refuse receptacle 307, institute The 3rd refuse receptacle 312 and the multiple filter press 319 are stated, the multiple 319 separated water of filter press flows into institute through the pipeline State in clear water reserviors 401, the clear water reserviors 401 are respectively to first pond 105, second pond 108, the 3rd pond 203rd, the 4th pond 207, the 5th pond 210, the 6th pond 212, first refuse receptacle 302 and described Two refuse receptacles 307 supply water.

Wherein, clear water reserviors 401 could be provided as multiple, can also communicate with one another between multiple clear water reserviors 401.

Wherein, the flow direction of water is, clear water reserviors 401 draw first, second, and third 3 water routes, and the first water route is from clear water reserviors After 401 draw, the first pond 105, the second pond 108 and sand washer 112 are respectively delivered to；Draw from clear water reserviors 401 in the second water route After going out, the 3rd pond 203, the 4th pond 207, the 5th pond 210 and the 6th pond 212 are respectively delivered to；3rd water route is from clear After pond is drawn, the first refuse receptacle 302, the second refuse receptacle 307 and the 3rd refuse receptacle 312 are respectively delivered to；In first pond 105 The mud for washing the partially aqueous after sand flows into the 3rd pond 203 through the first water channel 201, also has partially aqueous in the first pond 105 Sandstone enter the second pond 108；The partially aqueous mud after sand is washed in second pond 108 and enters the 4th water through the second water channel 206 Pond 207, also has partially aqueous sandstone to enter sand washer 112 in the second pond 108；The mud warp washed after sand in sand washer 112 3rd water channel 209 enters the 5th pond 210, also has partially aqueous sandstone to enter rough sand dewaterer 112 in sand washer 112；Rough sand Dewaterer 112 is additionally provided with pipeline and dewatered water is delivered to the 5th pond 210；Mud in 3rd pond 203 is through the first rotation Stream separator 204 is separated into is delivered to the aqueous fine sand in the 6th pond 212 and through the first dredging tube 301 through the 4th conveyer belt 205 It is delivered to the mud of the first refuse receptacle 302；The mud in the 4th pond 207 is separated into defeated through the 4th through the 3rd cyclone separator 208 Send aqueous fine sand that band 205 is delivered to the 6th pond 212 and the mud that the second refuse receptacle 307 is delivered to through the second dredging tube 306； Mud in 5th pond 210 is separated into through the 4th cyclone separator 211 is delivered to the 6th pond 212 through the 4th conveyer belt 205 Aqueous fine sand and the mud of the 3rd refuse receptacle 312 is delivered to through the 3rd dredging tube 311；Mud in 6th pond 203 is through Two cyclone separators 213 are separated into the aqueous fine sand of fine sand dewaterer 214 and are delivered to tricyclic through the 4th dredging tube 316 Protect the mud of bucket 312；Fine sand dewaterer 214 is additionally provided with pipeline and dewatered water is delivered to the 6th pond 212；First refuse receptacle The aqueous slurry precipitated in 302 is delivered to filter press 319 through the first Pulp pump 304；The cement precipitated in second refuse receptacle 307 Slurry is delivered to filter press 319 through the second Pulp pump 309；The aqueous slurry precipitated in 3rd refuse receptacle 313 is through the 3rd Pulp pump 314 It is delivered to filter press 319；More filter presses 319 extrude the water separated after mud and flow into clear water reserviors 401 through pipeline, since then, Recycling for water is completed, the waste of water resource can be reduced.

In the following, provide the preferred embodiment of capital equipment in the system.

1st, charger 101

A to Fig. 4 b is please referred to Fig.4, charger 101 includes the container 1011 that steel plate is enclosed, wherein, the container 1011 Top and bottom opening, which is connected with a conveyer belt 1012, also, the development length of the conveyer belt 1012 More than the length of the container 1011, and stretch out the 1011 length direction a distance of container, the extension width of the conveyer belt 1012 More than the width of the container 1011, and stretch out the 1011 width a distance of container.1011 bottom surface of container and conveyer belt 1012 are in close contact, and one is opened up on one end side plate of the length direction of 1011 bottom of container near conveyer belt 1012 Seam 1013.

Specifically, the container 1011 is more than bottom opening for open top, it is in inverted trapezoidal on the cross section of length direction, Certainly, can also be in inverted trapezoidal on the cross section of width so that in the container 1011 into material gravity can be relied on to converge Gather bottom open area, top big opening also allows for feeding, and the seam 1013 which opens up may be sized to Adjustable, to adapt to various sizes of fuel requirements.

Its workflow is：The opening at building waste from the top of container 1011 is put into the container using the machinery such as forklift In 1011, start conveyer belt 1012, building waste takes the appearance out of at the seam 1013 that the container 1011 opens up by conveyer belt 1012 Device 1011, and enter next equipment.

The charger 101 is applicable to the building wastes such as stone, sand, soil, also may include with reinforcing bar, plastic garbage Deng, charging stabilization, good reliability.

2nd, waste material seperator 102

Also referring to Fig. 5 a to Fig. 5 d, the embodiment of the present invention provides a kind of waste material seperator 102, for building collection Building residue needs to carry out primary dcreening operation, and the reinforcing bar built in residue, the isometric larger impurity of bulk sandstone are separated with sandstone, The operations such as the sandstone filtered out could be crushed, postsearch screening.In the present embodiment, waste material seperator includes pedestal 1021 and rotation Turn part 1022.Specifically, pedestal 1021 is fixed on ground 10.In the present embodiment, pedestal 1021 is main for waste material seperator Supporting structure, the stability of pedestal 1021 determine the overall structure stability of waste material seperator., can be with a kind of embodiment Drive piles on ground 10, the fixation that pedestal 1021 is stablized.Further, pedestal 1021 is hollow stent, stablizes and fixes While waste material seperator 102, own wt and material cost are reduced.In a kind of embodiment, pedestal 1021 is metal branch Frame, and paint or electroplating film layer are scribbled on the surface of pedestal 1021, to avoid the corruption to pedestal 1021 such as rainwater, sunlight Erosion, improves the service life of pedestal 1021 and waste material seperator.

In the present embodiment, revolving part 1022 includes the first cylinder 22 and sieve part 24, and sieve part 24 is fixed on first In cylinder 22.Specific to Fig. 5 c, the first cylinder 22 surrounds one week structure formed for side wall around the central shaft of the first cylinder 22, and And first the both ends of cylinder 22 be open.First cylinder 22 is made as cylindrical shape in favor of the rolling of itself.In the present embodiment, the The side wall of one cylinder 22 is made of metal material, to provide enough intensity, situations such as avoiding deforming in rolling process.Into One step, the surface of side wall scribbles paint or electroplating film layer, to avoid the corrosion to the first cylinder 22 such as rainwater, sunlight, Improve the service life of the first cylinder 22 and waste material seperator.In the present embodiment, the first cylinder 22 include the outside wall surface that is oppositely arranged with Internal face, outside wall surface is exposed to the external world, and internal face is to the inside of the first cylinder 22, in a kind of embodiment, outside wall surface and inner wall Face scribbles paint or electroplating film layer.Refering to Fig. 5 a and Fig. 5 b, the outside wall surface of the first cylinder 22 is slided with pedestal 1021 to be connected Connect, pedestal 1021 drives revolving part 1022 around central shaft rotation.Specifically, outside wall surface is contacted with pedestal 1021, pedestal 1021 according to The first cylinder of power drive 22 provided by driving motor rotates.

Specific to Fig. 5 d, sieve part 24 is formed for multiple reinforcement weldings, specifically, sieve part 24 is arranged by different directions Reinforcing bar be intertwined to form sieve, the volume size for the sandstone that the screen mesh size of sieve part 24 needs to screen according to screening is set Meter, can be by the intransitable effect of impurity to reach sandstone.In the present embodiment, sieve part 24 is consolidated by modes such as welding It is scheduled in the first cylinder 22, specifically, sieve part 24 is fixed on the internal face of the first cylinder 22.Further, sieve part 24 Gap is equipped between the internal face of the first cylinder 22, in other words, between the side wall of 24 and first cylinder 22 of sieve part is formed and received Hold space, which is used to accommodate the sandstone for having passed through sieve part 24.Specifically, waste material enters rotation from one end of revolving part 1022 Turn in part 1022, sandstone are through entering the gap 24 and first cylinder 22 of sieve part after sieve part 24, and from revolving part 1022 other end discharge.

Waste material enters revolving part 1022 from one end of revolving part 1022, specifically, waste material enters in sieve part 24, revolving part During 1022 is rotating, waste material rolls in revolving part 1022, and the sandstone of small volume enter sieve part through sieve part 24 24 and first cylinder 22 internal face between gap, and finally the other end from the first cylinder 22 is discharged and collected, reinforcing bar, big The impurity such as volume sandstone can not pass through sieve part 24, then discharge and collect from one end of sieve part 24, so as to fulfill sandstone with it is miscellaneous The separation of matter, revolving part 1022, which rolls, makes waste material be come into full contact with sieve part 24, and avoiding being piled up in the sandstone on impurity can not wear Sieving netware 24 and be wasted, sandstone screening effect is good, and screen efficiency it is higher.

Refering to Fig. 5 a, in the present embodiment, revolving part 1022 is placed with inclined in ground 10.Specifically, the first circle Cylinder 22 and sieve part 24 favour ground 10, and waste material enters revolving part 1022 from higher-height one end of revolving part 1022, give up Material is separated into after impurity and sandstone and discharges revolving part 1022 from a lower height of one end of revolving part 1022.Waste material enters from one end And while rolling in revolving part 1022, waste material is moved by the gravity of itself to the other end, it is to be understood that waste material exists Actually it is also the process of a rolling during being moved to the other end, so that waste material contact with sieve part 24 is uniform, Can also have an opportunity through sieve part 24 even if the sandstone being stacked on impurity.The mode for discharging impurity relies on the weight of impurity itself Power, it is simple in structure, easy to implement without increasing extra driving device.In a kind of embodiment, the central shaft of the first cylinder 22 Angle with ground 10 is 3 °~5 °, while meeting the requirement that waste material moves from one end to the other side, is also unlikely to the gradient too Cause the translational speed of waste material too big greatly, and full screening can not be carried out.

Refering to Fig. 5 d, in the present embodiment, sieve part 24 is cylindrical shape, and the central shaft of 24 and first cylinder 22 of sieve part Overlap.Specifically, sieve part 24 can be the cylindrical shape of both ends open, it can be understood as sieve part 24 is wall around center One week cylindrical structure formed of axis, and sieve is the hole set on wall, and hole connects the Intranet of sieve part 24, multiple Kong Jun It is even to be arranged on wall, so that wall is into sieve.Cylindric sieve part 24 is identical with the shape of the first cylinder 22, and sieve The center overlapping of axles of 24 and first cylinder 22 of part, so that the distance between side wall of 24 and first cylinder 22 of sieve part is uniformly permanent It is fixed, improve screening effect.

Refering to Fig. 5 a, in the present embodiment, revolving part 1022 includes the feed end 11 being oppositely arranged and discharge end 12, feed end 11 are more than discharge end 12 and the distance on ground 10 with the distance on ground 10, and in discharge end 12, sieve part 24 is equipped with and protrudes from first The nose section 13 of cylinder 22, the impurity in waste material are discharged from the port of nose section 13.Specifically, the axial length ruler of sieve part 24 More than the length dimension of the first cylinder 22, in feed end 11, the first cylinder 22 flushes degree with sieve part 24, facilitates waste material to enter sieve In netware 24, in discharge end 12, sieve part 24 protrudes from the first cylinder 22, i.e. nose section 13 is protruded from outside the first cylinder 22, is worn The sandstone for netware 24 of sieving are discharged from the first cylinder 22 positioned at the port of discharge end 12, and it is miscellaneous not pass through the reinforcing bar of sieve part 24 etc. Matter is discharged from the port of nose section 13, and sandstone and impurity are separately discharged, and can be with separate collection, so that sandstone and impurity point From.

In a kind of embodiment, waste material seperator further includes barrier sheet 1023, and barrier sheet 1023 is arranged at discharge end 12, dashes forward Go out section 13 to be contained between a pair of of barrier sheet 1023, barrier sheet 1023 is used to prevent the impurity of the discharge of discharge end 12 or sandstone from splashing Penetrate.Specifically, barrier sheet 1023 can be the metallic plate being welded on pedestal 1021, a pair of of barrier sheet 1023 is set in funnel-form In discharge end 12, since revolving part 1022 remains rotation status, the sandstone and impurity discharged from discharge end 12 keep certain Rotating speed and outwards sputter, barrier sheet 1023 stops the impurity and sandstone outwards sputtered, makes impurity and sandstone can Into in the container of collection or enter in the equipment of the next step, improve the utilization rate of sandstone, reduce and waste.

Fig. 5 a and Fig. 5 b are referred to, pedestal 1021 is equipped with drive gear 42, and drive gear 42 is connected to driving motor, the The outside wall surface of one cylinder 22 is equipped with rack 44, and rack 44 is surrounded in the outside wall surface of the first cylinder 22, drive gear 42 and rack 44 coordinate to drive the first cylinder 22 to rotate.Specifically, driving motor is fixed on pedestal 1021, driving motor driving sliding tooth Wheel 42 rotates, so as to drive 1022 integral-rotation of the first cylinder 22 and revolving part.In a kind of embodiment, the number of drive gear 42 Amount at least two, drive gear 42 is symmetrically disposed on the opposite both sides of the radial direction of the first cylinder 22.Specifically, work as sliding tooth When the quantity of wheel 42 is two, two drive gears 42 coordinate with a rack 44 jointly, so that two drive gears 42 are common Revolving part 1022 is driven to rotate by a rack 44.Further, drive gear 42 is symmetrically disposed on the footpath of the first cylinder 22 To opposite both sides, from monosymmetric support revolving part 1022, to make the installation of revolving part 1022 firm.

In the present embodiment, driven wheel 52 is additionally provided with pedestal 1021, driven wheel 52 is contacted with the outside wall surface of the first cylinder 22, Driven wheel 52 is used to reduce the frictional force between 1021 and first cylinder 22 of pedestal.Specifically, driven wheel 52 does not drive itself Power, driven wheel 52 are contacted with the outside wall surface of the first cylinder 22, and the first cylinder 22 and revolving part 1022 are supported in base by driven wheel 52 On seat 1021, revolving part 1022 is during rotating, the frictional force drives driven wheel between the first cylinder 22 and driven wheel 52 52 rotate, and in other words, the frictional force between the first cylinder 22 and pedestal 1021 is changed into force of rolling friction by driven wheel 52, reduce Energy loss, driving revolving part 1022 are rotating more efficient.In a kind of embodiment, the quantity of driven wheel 52 is at least two A, driven wheel 52 is symmetrically disposed on the opposite both sides of the radial direction of the first cylinder 22, and driven wheel 52 is from revolving part supported on both sides 1022, make the installation of revolving part 1022 firm.In a kind of embodiment, a circle guide rail is also surrounded with the outside wall surface of the first cylinder 22 54, the guide rail 54 coordinates with driven wheel 52, to fix movement locus of the driven wheel 52 on the first cylinder 22, so as to keep One cylinder 22 and revolving part 1022 are around center axis rotation.

3rd, husky machine (refer to first and drag for husky machine 106, second, which drags for husky machine 109, refers to) is dragged for

Fig. 6 a are referred to, it is provided in an embodiment of the present invention to drag for husky machine 106 for cleaning construction waste residue by crushing, stirring The less sandstone of particle formed after process such as mix, screen, the fine impurities in sandstone are separated from sandstone, it is clean to obtain Sandstone.Specifically, dragging for husky machine 106 includes first support 1061, driving wheel 1062, driven wheel 1063, chain ring 1065 and tipping bucket 1068.First support 1061 is to drag for the main support of husky machine 106, and first support 1061 is fixed on ground 10, first support 1061 For main supporting structure, therefore it is made using the larger material of metal equal strength.Driving is additionally provided with first support 1061 The devices such as motor, gear set.In a kind of embodiment, the bottom of first support 1061 is fixed on ground 10 by screw etc., So that the stabilization of first support 1061 is fixed on ground 10.In the present embodiment, sink into ground 10 in sedimentation basin 105, first Frame 1061 is fixed on 105 side of sedimentation basin, and sedimentation basin 105 is also filled in sedimentation basin 105 and continued to place the receiving pond of sandstone raw material Flowing water, and sandstone are soaked in water.

It should be appreciated that the sedimentation basin 105 in the present embodiment corresponds to first in building waste processing system in the present invention Pond 105, certainly, sedimentation basin 105 can also be the second pond 108.

In the present embodiment, driving wheel 1062 is rotationally connected with the top of first support 1061, and driven wheel 1063 is positioned at precipitation In pond 105, and it is rotatablely connected to the bottom of pond 1051 of sedimentation basin 105, chain ring 1065 and is sheathed on driving wheel 1062 and driven wheel 1063 On, chain ring 1065 is stretched between driving wheel 1062 and driven wheel 1063.Specifically, the rotation axis of driving wheel 1062 passes through gear Group rotation connection to driving motor, driving motor driving driving wheel 1062 rotates, and in a kind of embodiment, driving wheel 1062 is circle The scroll wheel of cylindricality, to increase the contact area of chain ring 1065 and driving wheel 1062, is conducive to improve the drive chain of driving wheel 1062 Enclose 1065 rotating energy transfer efficiencies.Driven wheel 1063 is located at the bottom of pond 1051 of sedimentation basin 105, driven wheel 1063 and driving wheel 1062 stretch chain ring 1065, so as to drive chain ring 1065 to move by the cooperation of driving wheel 1062 and driven wheel 1063.It is a kind of In embodiment, driven wheel 1063 is the scroll wheel of cylinder, to increase the contact area of chain ring 1065 and driven wheel 1063, is had Support effect beneficial to raising driven wheel 1063 to chain ring 1065.As shown in Figure 6 a, driving wheel 1062 drives 1065 inverse time of chain ring Pin direction rotates.In a kind of embodiment, it is subject to 1065 gravity of chain ring and driving wheel 1062 and the stretching masterpiece of driven wheel 1063 With 1065 part of chain ring is straightened.In a kind of embodiment, chain ring 1065 includes multiple chain links, and each chain link joins end to end shape Into the chain ring 1065 of closing, specifically, being connected in articulated manner between each chain link, so that having one between each chain link Fixed scope of activities.

In the present embodiment, tipping bucket 1068 is fixed on the outside of chain ring 1065, for stirring and scooping up the sand in sedimentation basin 105 Stone.Specifically, tipping bucket 1068 is fixed on the outside of chain ring 1065 by modes such as welding.It is worth noting that, chain ring 1065 Outside contacts master away from the side of driving wheel 1062 and driven wheel 1063, the inner side of chain ring 1065 for chain ring 1065 for chain ring 1065 The side of driving wheel 1062 and driven wheel 1063.In a kind of embodiment, each tipping bucket 1068 is welded on a chain link, tipping bucket 1068 is synchronous with the motion state connected.In the present embodiment, tipping bucket 1068 under the driving of chain ring 1065 enter sedimentation basin 105 or Leave sedimentation basin 105, when tipping bucket 1068 enters sedimentation basin 105, stir water and sandstone in sedimentation basin 105, between sandstone mutually Grinding, the impurity for making to be covered in sandstone surface are separated with sandstone, and destroy the steam layer being coated on the grains of sand, are conducive to follow-up Dehydration.During tipping bucket 1068 is by 105 bottommost of sedimentation basin and the upward drift surface motions, tipping bucket 1068 scoops up Sandstone, in fact, tipping bucket 1068 has also scooped up separated with sandstone impurity and water.Tipping bucket 1068 is driven to rise simultaneously in chain ring 1065 After removing the water surface, the impurity of water and small volume is leaked out from 1068 bottom of tipping bucket, so as to obtain clean sandstone.The cleaning of sandstone Process is simple, and cleaning performance is good, and cleaning process is continuously uninterrupted, and cleaning efficiency is high.

In the present embodiment, driving wheel 1062 and the line of driven wheel 1063 favour ground 10.Specifically, driving wheel 1062 It it is 45 ° to 60 ° with the line of driven wheel 1063 and the angle on ground 10, so that tipping bucket 1068 is along favouring 1045 ° of ground extremely 60 ° of direction movement.Make tipping bucket 1068 during rising compared to perpendicular to the rising of the direction on ground 10, oblique rising Increase is formed, is used to make water and impurity leak out from tipping bucket 1068 so as to provide more times.

Refer to Fig. 6 b, in the present embodiment, tipping bucket 1068 includes receiving portion 16 and protuberance 15, and protuberance 15 is convexly equipped in appearance Receive the edge in portion 16, for scooping up the sandstone in sedimentation basin 105, receiving portion 16 is equipped with filter hole 17, for leaking out in sandstone Water and impurity.Specifically, filter hole 17 is arranged at the bottom of receiving portion 16, in order to which water and impurity leak out.A kind of embodiment In, the granular size design for the impurity that the size of filter hole 17 leaks out as needed.

In the present embodiment, the top of first support 1061 is additionally provided with discharging guide groove 14, and discharging guide groove 14 favours ground 10, Discharging guide groove 14 is used to transport tipping bucket 1068 to the sandstone export at the top of first support 1061.Specifically, discharging guide groove 14 Favour ground 10, sandstone risen into eminence when tipping bucket 1068 transports sandstone, discharging guide groove 14 by sandstone from high to lower Transport, so as to be transported to next treatment process, transport sandstone using the self gravitation of sandstone, the conevying efficiency of sandstone is high, nothing Power set need to be additionally provided.

Driving wheel 1062 drives chain ring 1065 to drive tipping bucket 1068 to move, and tipping bucket 1068 stirs the sandstone in sedimentation basin 105, So that sandstone are mutually ground, the impurity for making to be covered in sandstone surface is separated with sandstone, and tipping bucket 1068 is by the sand in sedimentation basin 105 The mixture of stone, partial impurities and water scoops up, and tipping bucket 1068 is from sedimentation basin 105 to the moving process at the top of first support 1061 In, the filter hole 17 of impurity and water from 1068 bottom of tipping bucket leaks out, so that the sandstone of cleaning are obtained, the cleaning process letter of sandstone Single, cleaning performance is good, and cleaning process is continuously uninterrupted, and cleaning efficiency is high.

In the present embodiment, drag for husky machine 106 and further include second support 1066, second support 1066 includes first be oppositely arranged End 1064 and second end 1067, first end 1064 are fixed on the top of first support 1061, and driving wheel 1062 is rotationally connected with the One end 1064, second end 1067 are fixed on the bottom of pond 1051 of sedimentation basin 105, and driven wheel 1063 is rotationally connected with second end 1067. Specifically, second support 1066, first support 1061 and ground 10 form triangle, so as to be conducive to the stabilization of structure.Into one Step, supporting structure of the second support 1066 as carrying driving wheel 1062 and driven wheel 1063, the rotation axis of driving wheel 1062 First end 1064 is fixed on, the rotation axis of driven wheel 1063 is fixed on second end 1067, and second support 1066 maintains driving wheel The distance between 1062 and driven wheel 1063, so that it is determined that the height that tipping bucket 1068 rises.In a kind of embodiment, second The bottom of pond 1051 of 1067 contacting sedimentation tank 105 of second end of frame 1066, and bottom of pond 1051 is fixed on by modes such as screws.This reality Apply in example, second support 1066 can be that two symmetrical rod-shaped scaffolds are arranged in parallel to be formed, and simplify the knot of second support 1066 Structure, which advantageously reduces, drags for the overall weight of husky machine 106, and saves cost.

Refer to Fig. 6 a, in the present embodiment, second support 1066 is equipped with auxiliary wheel 1069, and auxiliary wheel 1069 is held in chain The inner side of circle 1065, is used to support chain ring 1065.Specifically, auxiliary wheel 1069 is non-active rotating roller, auxiliary wheel 1069 Surface contact chain ring 1065 inner side, chain ring 1065 rotation drive auxiliary wheel 1069 rotation, in other words, auxiliary wheel 1069 To make be rolling friction between chain ring 1065 and second support 1066, and auxiliary wheel 1069 plays support chain ring 1065 and tipping bucket 1068 While effect, frictional resistance when chain ring 1065 rotates is reduced.

In a kind of embodiment, auxiliary wheel 1069 is arranged between driving wheel 1062 and driven wheel 1063, auxiliary wheel 1069 Quantity to be multiple, and the spacing between auxiliary wheel 1069 is identical.Specifically, multiple auxiliary wheels 1069 support chain ring jointly 1065, the longer chain ring 1065 of length is overally supported, the spacing between multiple auxiliary wheels 1069 is identical, so that chain ring 1065 is each Partial stress is identical, and chain ring 1065 is overall to be flattened, and be conducive to the rotation of chain ring 1065 and the rising of tipping bucket 1068.

The embodiment of the present invention also provides a kind of sandstone cleaning method, which is dragged for using provided in an embodiment of the present invention Husky machine 106 and sedimentation basin 105, specifically, dragging for husky machine 106 includes first support 1061, driving wheel 1062, driven wheel 1063, chain Circle 1065 and tipping bucket 1068, first support 1061 are fixed on ground 10, and driving wheel 1062 is rotationally connected with first support 1061 Top, driven wheel 1063 is located in sedimentation basin 105, and is rotatablely connected to the bottom of pond 1051 of sedimentation basin 105, chain ring 1065 and is arranged In on driving wheel 1062 and driven wheel 1063, chain ring 1065 is stretched between driving wheel 1062 and driven wheel 1063, tipping bucket 1068 The outside of chain ring 1065 is fixed on, driving wheel 1062 drives chain ring 1065 to drive tipping bucket 1068 to move, the agitation precipitation of tipping bucket 1068 Sandstone in pond 105, so that sandstone are mutually ground.

In a kind of embodiment, when cleaning sandstone, water is persistently added into sedimentation basin 105, sedimentation basin 105 is equipped with overfall, The partial impurities that grinding sandstone decomposite are floated on the water surface, and are discharged with water from overfall.In the present embodiment, to sedimentation basin In 105 plus after water, current play certain stirring action in sedimentation basin 105, and at the same time, tipping bucket 1068 stirs the sand in water Stone, the impurity on sandstone surface are separated with sandstone, and the less impurity of partial density is floated on the water surface, the water in sedimentation basin 105 When face highly reaches the position of overfall, impurity is together discharged with dampening from overfall, so as to eliminate partial impurities.

In a kind of embodiment, driving wheel 1062 and the line of driven wheel 1063 favour ground 10, and tipping bucket 1068 is equipped with Filter hole 17, tipping bucket 1068 pass through 17 fugitive water of filter hole and impurity during rising.

4th, sand sieving machine 110

Also referring to Fig. 7 a, Fig. 7 b and Fig. 7 c, the embodiment of the present invention provides a kind of sand sieving machine 110, for being mixed from sandstone The impurity such as the grains of sand and stone are separated in compound, the pure grains of sand filtered out are collected and are used to reuse, and by stone etc. Impurity is discharged and collected.Sand sieving machine 110 provided in an embodiment of the present invention includes the first motor 1101, the first cylinder 1102 and second Cylinder 1103.Specifically, the first motor 1101 is arranged on ground 10, certainly, the first motor 1101 can be directly fixed on ground On face 10, it can also be fixed on by being fixed on the upper stent on ground 10 on ground 10.In a kind of embodiment, the first motor 1101 can be stepper motor, to provide driving force.

With reference to Fig. 7 b, the first cylinder 1102 is arranged on ground 10, specifically, the first cylinder 1102 is set up in by stent On ground 10, in a kind of embodiment, sand sieving machine 110 further includes first rotating shaft 1104, and the first cylinder 1102 is sheathed on first turn On axis 1104, and the first cylinder 1102 is fixedly connected with first rotating shaft 1104, can utilize stent rotatable connection first rotating shaft 1104 both ends, so that the first cylinder 1102 is set up on ground 10.In the present embodiment, the first cylinder 1102 is included outside first Wall 21, it is to be understood that the first cylinder 1102 is that the first outer wall 21 was formed around the central shaft of the first cylinder 1102 around one week Structure, and the both ends of the first cylinder 1102 are open.In a kind of embodiment, the first outer wall 21 is equipped with through hole 600, through hole 600 the first cylinder of connection, 1102 inside is with extraneous, specifically, the quantity of through hole 600 is multiple, the size of through hole 600 is identical, and And uniformly spread all over the first outer wall 21.Further, the size of through hole 600 is according to the size designs of the grains of sand, specifically, through hole 600 size can be by the short grained grains of sand by that but volume can not be made to be more than the impurity such as stone of the grains of sand by according to sandstone The species of mixture and the size of the target grains of sand, can design various sizes of through hole 600.In the present embodiment, the first motor 1101 are connected to the first cylinder 1102, and for driving the first cylinder 1102 around central shaft rotation, specifically, the first motor 1101 First rotating shaft 1104 is connected, the first motor 1101 is by driving the rotation of first rotating shaft 1104 to drive the first cylinder 1102 to revolve Turn.In a kind of embodiment, the center overlapping of axles of 1104 and first cylinder 1102 of first rotating shaft, the rotation of first rotating shaft 1104 can To drive the first cylinder 1102 around center axis rotation.In the present embodiment, also set between the first motor 1101 and first rotating shaft 1104 There is gear reducer, the moment of torsion that the first motor 1101 exports is transferred to first rotating shaft 1104, obtains first rotating shaft 1104 by gear reducer Suitable rotating speed.In the present embodiment, sandstone mixture enters the first cylinder 1102 from one end of the first cylinder 1102, specifically, First cylinder 1102 includes the charging port 1106 that is oppositely arranged and discharging port 1105, and sandstone mixture is from charging port 1106 Into in the first cylinder 1102, so that the rolling in the first cylinder 1102.In the present embodiment, sandstone mixture is in the first cylinder In 1102 during rolling, the through hole 600 of the grains of sand from the first outer wall 21 leaks out, can since the first cylinder 1102 persistently rolls To avoid the sandstone mixture entered in the first cylinder 1102 is stacked and cause to be stacked in the grains of sand on impurity can not be into Enter the through hole 600 of the first outer wall 21, sandstone mixture comes into full contact with the first outer wall 21, improves the effect of screening, avoid wave Take.

With reference to Fig. 7 c, the second cylinder 1103 is sheathed on outside the first cylinder 1102, in the present embodiment, the second cylinder 1103 and One cylinder 1102 can be with relative motion, and in a kind of embodiment, the second cylinder 1103 is fixed relative to ground 10, and One cylinder 1102 then can be with central shaft rotation.Second cylinder 1103 includes the second outer wall 31, it is to be understood that the second cylinder 1103 be that the second outer wall 31 surrounds one week structure formed, and the two of the second cylinder 1103 around the central shaft of the second cylinder 1103 End is open.In a kind of embodiment, the second outer wall 31 is equipped with through hole 600, and through hole 600 connects the inside of the second cylinder 1103 with outside Boundary, specifically, the quantity of through hole 600 is multiple, the size of through hole 600 is identical, and uniformly spreads all over the second outer wall 31.Into one Step, the size of through hole 600 is according to the size designs of the grains of sand, specifically, the size of through hole 600 can lead to the short grained grains of sand Cross, but can not make volume be more than the impurity such as stone of the grains of sand by, according to the species of sandstone mixture and the size of the target grains of sand, Various sizes of through hole 600 can be designed.The grains of sand leaked out from the through hole 600 of the first outer wall 21 enter the second cylinder 1103 In, specifically, the grains of sand enter between the first outer wall 21 and the second outer wall 31, so as to be carried out by the through hole 600 on the second outer wall 31 Screening.The grains of sand, can be outside second successively by the first outer wall 21 with being leaked out after the screening of the second outer wall 31 from the second outer wall 31 The pure grains of sand of container collection are placed outside wall 31, and impurity is then discharged from one end of the first cylinder 1102 or the second cylinder 1103. Specifically, impurity can be discharged by two paths, not by the impurity of the through hole 600 of the first outer wall 21 from the first cylinder 1102 One end discharge, that is, discharge port 1105, the through hole of the second outer wall 31 is not passed through by the through hole 600 of the first outer wall 21 600 impurity is discharged from one end of the second cylinder 1103, i.e. the second cylinder 1103 is opened with discharging 1105 corresponding one end of port Mouthful.

During first cylinder 1102 rolls, the first outer wall 21 carries out first time screening, the i.e. grains of sand to sandstone mixture Through hole 600 through the first outer wall 21 leaks out, and the impurity such as larger sandstone of particle is discharged from one end of the first cylinder 1102, enters Sandstone between first cylinder 1102 and the second cylinder 1103 carry out programmed screening, i.e. the grains of sand pass through the through hole of the second outer wall 31 600 leak out, and the impurity such as larger sandstone of particle is discharged from one end of the second cylinder 1103, and the process screened twice effectively improves The purity of the grains of sand, screening effect is good, and the efficiency screened is higher.

In the present embodiment, the first cylinder 1102 is placed with inclined in ground 10.Specifically, first rotating shaft 1104 with The center overlapping of axles of first cylinder 1102, first rotating shaft 1104 favour ground 10 and place.In a kind of embodiment, the first cylinder 1102 1106 one end of charging port is more than discharging 1105 one end of port with the distance on ground 10, is entered by charging port 1106 The sandstone mixture of first cylinder 1102 with the rolling of the first cylinder 1102 during rolling, by the gravity of itself Rolled to discharging port 1105, the through hole 600 of the grains of sand from the first outer wall 21 leaks out, and the impurity such as stone then rolls on the first outer wall 21 It is dynamic, and roll to discharging port 1105, so as to be placed on the container collection of discharging port 1105.The mode of discharge impurity relies on The gravity of impurity itself, it is simple in structure, easy to implement without increasing extra driving device.In a kind of embodiment, first The central shaft of body 1102 and the angle on ground 10 are 3 °~5 °.

In the present embodiment, the central axis of the central shaft of the first cylinder 1102 and the second cylinder 1103, specifically, first Outer wall 21 and the distance of the second outer wall 31 remain unchanged, so as to be conducive to uniformly screen sandstone mixture.It is a kind of real Apply in mode, the aperture of the through hole 600 of the first outer wall 21 is more than the aperture of the through hole 600 of the second outer wall 31.First outer wall 21 Through hole 600 is used to screen the first time of sandstone mixture, and the through hole 600 of the second outer wall 31 is used for the second of sandstone mixture Secondary screening, for the first time screening can carry out initial screening, the larger impurity of particle in sandstone mixture be screened out, in the obtained grains of sand Still partial impurities are mixed with, programmed screening can carry out fine screen choosing, and the less impurity of particle in sandstone mixture is screened out, is obtained To the pure grains of sand.Sizing screening can obtain more preferable screening effect twice, if specifically, only carrying out primary screening, through hole The 600 oversized grains of sand purity that screening can be caused to obtain are not high, and through hole 600 is undersized to cause bulky grain in screening process Impurity blocks through hole 600, and the part grains of sand can not pass through through hole 600, and screening efficiency is low, wastes raw material.Screen out for the first time Large granular impurity, programmed screening screen out little particle impurity, and screening efficiency is high, and screening effect is good.

In a kind of embodiment, sand sieving machine further includes the second motor, and the second motor is connected to the second cylinder 1103, the second electricity Machine is used to drive the second cylinder 1103 around central shaft rotation.Second cylinder 1103 is with central shaft rotation, and sandstone mixture is second In cylinder 1103 during rolling, the through hole 600 of the grains of sand from the second outer wall 31 leaks out, since the second cylinder 1103 persistently turns over Rolling, the sandstone mixture that can be avoided enter into the second cylinder 1103 be stacked and cause to be stacked in the grains of sand on impurity without Method enters the through hole 600 of the second outer wall 31, and sandstone mixture comes into full contact with the second outer wall 31, improves the effect of screening, keep away Exempt to waste.

In a kind of embodiment, the direction of rotation of the first cylinder 1102 and the second cylinder 1103 is on the contrary, the mistake screened twice Journey is on the contrary, the effect of screening can be improved.In a kind of embodiment, housing is additionally provided with outside the second cylinder 1103, housing is used to protect The second cylinder 1103 is protected, and not easily collecting after preventing the second cylinder 1103 grains of sand being thrown out of in rotary course.

In the present embodiment, the first cylinder 1102 includes multiple first auxiliary cylinder bodies, and the first auxiliary cylinder body, which joins end to end, to be spliced to form First cylinder 1102.The length of first auxiliary cylinder body is shorter, and multiple first auxiliary cylinder body splicings can form large-sized first cylinder 1102, connecting method is simply easily realized, is conducive to the assembling and transport of sand sieving machine.

In the present embodiment, the second cylinder 1103 includes multiple second auxiliary cylinder bodies, and the second auxiliary cylinder body, which joins end to end, to be spliced to form Second cylinder 1103.The length of second auxiliary cylinder body is shorter, and multiple second auxiliary cylinder body splicings can form large-sized second cylinder 1103, connecting method is simply easily realized, is conducive to the assembling and transport of sand sieving machine.

In sand sieving machine provided in an embodiment of the present invention, the first outer wall 21 and the second outer wall 31 are latticed metal wire knitted Formed.Specifically, metalloid gauze, metal wire knitted can be readily attained the through hole 600 of the size of needs, and through hole 600 density is big.Compared to punching on the outer wall, the first outer wall 21 or the matter of the second outer wall 31 that metal wire knitted can be formed Measure small, be easy to assembled, and motor needs the driving force that provides smaller, the energy that sand sieving machine consumes during sieve is husky is smaller.

5th, sand washer 112

Fig. 8 a to Fig. 8 e are referred to, a kind of better embodiment of the present invention provides a kind of sand washer 112, including washes sand basin 01st, the supporting rack 02 washed in sand basin 01, the runner 10-1 being rotatably connected on support frame as described above 02 and driving are fixed in The motor 03 that the runner 10-1 is rotated, shaft 04 that the runner 10-1 includes being erected on support frame as described above 02, pass through branch The circular screen mesh 06 that strut 05 is connected in the shaft 04 be fixed in 06 outer surface of sieve and circumferentially parallel set The multiple partition plates 011 put, multiple sieve plates 012,012 one end of sieve plate connection are fixed between the two neighboring partition plate 011 To the sieve 06, the opposite other end sets away from the sieve 06 and is tilted towards the runner 10-1 directions of motion, with The tangent line of the sieve plate 012 and 06 tie point of sieve and the angle a of the sieve plate 012 is set to be acute angle, multiple sieve plates 012 arranges along 04 center array of shaft, and first through hole (non-label in figure), the sieve plate are offered on the sieve 06 The second through hole 0121 is offered on 012.

In present embodiment, by setting multiple partition plates 011 and sieve plate 012, and first through hole is opened up on sieve 06, The second through hole 0121 is opened up on sieve plate 012, making runner 10-1, sieve 06 and sieve plate 012 can make the mud in sand when rotating By washing sand thoroughly, improving and wash husky efficiency, it is not necessary to do over again.

Specifically, the first through hole can be different from the structure of second through hole 0121, for example, first through hole is circle Shape, the second through hole 0121 are elongate holes, it is preferred that first through hole is identical with the structure of the second through hole 0121, such as both For through hole or all it is elongate holes, the size of the first through hole is 1~10mm, wherein, when first through hole is round hole, this Size refers to diameter of a circle, and when first through hole is elongate holes, this size is the ruler for the maximum object that finger-hole can pass through It is very little.It is further preferred that the size of the first through hole is 3~7mm, it is further preferred that the size of the first through hole is 4 ~6mm.

Washed specifically, supporting rack 02 is arranged on the opposite two sides in sand basin 01 so that runner 10-1 is connected to institute When stating on supporting rack 02, the part of runner 10-1 is washed in sand basin 01 positioned at washing in sand basin 01 and accommodates silt mixture, wash sand basin 01, which is passed through a part of mud after water in silt mixture, incorporates in water and forms muddy water, due to husky not soluble in water and general particle diameter compared with Greatly, it is impossible to by first through hole and the second through hole 0121, and mud structural instability, in runner 10-1 rotation processes, part grain The larger mud in footpath is decomposed into the mud of small particle with the friction with husky and runner 10-1, from first through hole and the second through hole 0121 In leak down to enter to wash in sand basin 01 and contact with water and soluble in water, complete to wash sand.

Set and open up the second through hole 0121 on sieve plate 012, compared to the scheme that sieve plate 012 does not open up hole, since particle diameter is larger Mud can be leaked down by first through hole, can also be drained to by the second through hole 0121 on sieve 06, then leaked by first through hole Mixed to washing in sand basin 01 with water, make mud decomposition rate faster, made the particle diameter smaller for entering the mud washed in sand basin 01, be more soluble in Water, makes to wash husky speed faster.

In present embodiment, the mud for being dissolved in water is located at the upper strata for the muddy water washed in sand basin 01, by the way that the muddy water on upper strata is taken out Walk, that is, realize the separation of the mud in sand, can subsequently be separated mud using sedimentation process, obtain the higher mud of purity.

In order to which the muddy water washed in sand basin 01 is taken away, water outlet 33, the water outlet 33 can be set on sand basin 01 is washed Washed described in being arranged in sand basin 01 near, the muddy water washed herein in sand basin 01 diffuses out, can be by setting pipeline or water channel to connect The water outlet 33 is connect, muddy water is transported.It should be understood that in order to accelerate speed, can be set on sand basin 01 is washed it is multiple go out The mouth of a river 33.

In present embodiment, described wash in sand basin 01 is also associated with support platform 07, and the motor 03 is arranged on the support On platform 07.The support platform 07 includes a support inclined plate 08, and support platform 07 is set on sand basin 01 is washed to set motor 03, Look for space that motor 03 is set again from without ground on the scene, be conducive to optimize equipment occupation space, make production line more compact.

In present embodiment, feed end 1121, the feed end are being equipped with 04 axially direction of shaft 1121 are obliquely installed so that silt enter under gravity described in wash sand basin 01.

Specifically, feed end 1121 can be a side for washing sand basin 01, can also individually be set again on sand basin 01 is washed One inclined platy structure.

Further, discharge end 1122, discharge end can be equipped with by washing the opposite side in sand basin 01 with respect to feed end 1121 1122 can also be obliquely installed so that it is ship shape to wash sand basin 01.

In a kind of embodiment, with reference to figure 1 and Fig. 2, multiple tablets 013 are fixed between the two neighboring partition plate 011, The tablet 013 is arranged between the two neighboring sieve plate 012, and described 013 one end of tablet is connected to the sieve 06, opposite The other end is set away from the sieve 06, and towards the runner 10-1 directions of motion tilt so that the tablet 013 with it is described The angle b of the tangent line of 06 tie point of sieve and the tablet 013 is acute angle, and multiple tablets 013 are along 04 center of shaft Array arrangement.

Specifically, sieve plate 012 and tablet 013 are staggered between two neighboring partition plate 011, in a kind of preferable implementation In mode, angle of inclination of the sieve plate 012 with tablet 013 on sieve 06 is identical.In further preferred embodiment, sieve plate 012 is equal with the distance between two adjacent tablets 013, the distance between tablet 013 and two adjacent sieve plates 012 phase Deng.

Due to also including the less sand of particle diameter in silt mixture, the less sand of particle diameter can also pass through 012 He of sieve plate Sieve 06 leaks down, and promotes husky less, therefore setting tablet 013 when rotating runner 10-1 forward, does not open up hole on tablet 013, The less sand of particle diameter is received after sieve plate 012 leaks down by tablet 013, then is promoted forward with the rotation of runner 10-1, improves husky Discharging speed.

Further, the partition plate includes first partition 011, second partition 021, the 3rd partition plate 031, the 4th partition plate 041 With the 5th partition plate 051, the first adjacent sieve plate 012 and first is equipped between the first partition 011 and the second partition 021 Adjacent the second sieve plate 022 and the second tablet are equipped between tablet 013, the second partition 021 and the 3rd partition plate 031 023rd, the 3rd adjacent sieve plate 032 and the 3rd tablet 033, institute are equipped between the 3rd partition plate 031 and the 4th partition plate 041 State and adjacent the 4th sieve plate 042 and fourth panel 043 are equipped between the 4th partition plate 041 and the 5th partition plate 051, described first Sieve plate 012 and the 3rd tablet 033 are concordant coplanar, and first tablet 013 flushes coplanar with the 3rd sieve plate 032.

By above-mentioned setting, partition plate increases, and increases effective usable floor area of runner 10-1, and by setting described first Sieve plate 012 and the 3rd tablet 033 are concordant coplanar, and first tablet 013 flushes coplanar with the 3rd sieve plate 032, makes The speed of promotion sand between each partition plate is different, and discharge end 1122 can obtain and continuously go out husky speed relatively, be conducive to The layout of subsequent technique.

Further, second sieve plate 022 and the fourth panel 043 are concordant coplanar, second tablet 023 and institute State the 4th sieve plate 042 flush it is coplanar.The speed for further using sand keeps continuous.

Further, second sieve plate 022 is arranged between first sieve plate 012 and first tablet 013 Medium position, during second tablet 023 is arranged between first tablet 013 and first sieve plate 012 at interval Portion position.So set, the advantage of multiple partition plates is maximumlly make use of, compared to a partition plate or multiple partition plates but sieve therein The scheme that plate is all concordantly set, discharge continuous-stable, and in addition driving force required on runner 10-1 is relatively stable all the time, also saves The power consumption of power saving machine 03.

Wherein, the first partition 011 and the 5th partition plate 051 are located at the outermost of the runner 10-1, and described the One partition plate 011 is equipped with circumferentially distributed sawtooth 052 with 051 outer of the 5th partition plate.The purpose for setting sawtooth 052 is to loosen Positioned at the silt mixture on keeping to the side is washed in sand basin 01, avoid blocking runner 10-1.

Fig. 8 e are refer to, is the schematic diagram in actual use of the sand washer 112 of present embodiment, is arranged in series 4 sand washers, wherein, feed end 1121 enters silt mixture 01, forms muddy water after being passed through water, runner 10-1 turns clockwise It is dynamic, rotated the mud in silt mixture 01 and husky fully agitation and by driving, mud is decomposed with husky and runner 10-1 frictions, from Leak down in sieve and sieve plate in runner 10-1 to washing in sand basin, and be dissolved in water, eliminate to take away in figure and wash sand basin at the middle and upper levels The structure of muddy water, the sand after washing unload after discharge end 1122, complete to wash the process of sand.

Due to the requirement of modern production line wash husky efficiency will height, while go out that husky amount is big, and therefore, in actual production, separate unit is washed Husky machine washes husky effect well although can reach, it is after washing husky in clay content can accomplish very low, but separate unit sand washer goes out Sand amount is few, and uses the form of more sand washer series connection, wherein the technical requirements of each sand washer are than using separate unit sand washer In the case of it is slightly lower, to achieve the purpose that to measure sand greatly, by taking 4 sand washers of connecting as an example：The discharge end 1122 of first sand washer with The feed end 1123 of second sand washer is snug against, the feed end 1125 of 1124 and the 3rd sand washer of discharge end of the second sand washer It is snug against, the discharge end 1126 and the feed end 4011127 of the 4th sand washer of the 3rd sand washer are snug against, the 4th sand washer Discharge end 1128 be connected with discharging structure 1129, such as can be conveyer belt etc., the first runner 10-1, the second runner 10-2, 3rd runner 10-3 and the 4th runner 10-4 are rotated clockwise, to be stirred respectively to the silt mixture each washed in sand basin And promote sand forward, and mud flows away from each washing in the muddy water in sand basin, washes sand by 4 sand washers, makes finally unloading The husky purity obtained at material mechanism 1129 is high, and clay content is low.

6th, rough sand dewaterer 113 (fine sand dewaterer 214 refers to)

Fig. 9 a to Fig. 9 b are referred to, a kind of better embodiment of the present invention provides a kind of vibrating-dewatering screen, including screen box 610 and supporting item 640, the screen box 610 supported by the supporting item 640, the supporting item 640 has shock-absorbing function, described Screen box 610 includes compass screen surface 611, the first side frame 612 and the second side frame 613, first side frame 612 and second side frame 613 It is opposite to be arranged on 611 both sides of compass screen surface, first crossbeam 621 is equipped between first side frame 612 and second side frame 613, Affixed first motor, 631 and second motor 632, first motor 631 and second motor on the first crossbeam 621 632 output shaft is connected to eccentric block (not shown), and first motor 631 and 632 opposite direction of the second motor Synchronous rotary, the eccentric block form two vibrators, component of the centrifugal force that described two vibrators produce along direction of vibration Superposition, reverse centrifugal force are offset, so that the screen box 610 linearly does periodic reverse motion, the compass screen surface 611 opens up Sieve aperture 601, the size of the sieve aperture 601 are less than the size of material.

In present embodiment, by setting the first motor 631 and the second motor 632, and make the first motor 631 and the second electricity 632 opposite direction synchronous rotary of machine, makes screen box 610 linearly do periodic reverse motion, and the size for opening up sieve aperture 601 is small In the size of material so that the less material of size will not leak down from sieve aperture 601 so that solve vibration dehydration efficiency it is low and and The problem of fine sand material loss is serious.

In present embodiment, the operation principle for vibrating dehydration is to use double-motor self-synchronous technology, by setting eccentric block Two vibrators are formed, set two vibrators being arranged side by side to make synchronous backward operating, two groups of eccentric mass on screen box 610 The centrifugal force of generation is superimposed along the component of direction of vibration, and reversely centrifugation is offset, so as to form the single exciting for not having direction of vibration It is dynamic, screen box 610 is done reciprocating linear motion.Wherein, it is additionally provided with first crossbeam 621 and is used to support the first motor 631 and The platform 623 of two motors 632, platform 623 can be parallel with compass screen surface 611, it is possible to have inclined angle.

In present embodiment, the first motor 631 and the second motor 632 have further included shell, output shaft and and output shaft The eccentric block of connection is coated by shell, the first motor 631 and the second motor 632 is formed entirety.First motor 631 and The setting direction of two motors 632 is along the direction of compass screen surface 611, i.e. the plane extension side with the first side frame 612 and the second side frame 613 To the first motor 631 and the second motor 632 can be arranged in parallel.It should be noted that the first motor 631 and the second motor 632 Direction refer to the extending direction of output shaft.

In present embodiment, screen box 610 includes feed end and discharge end, and the first motor 631 and the second motor 632 are along charging Hold the direction to discharge end, i.e. the shaft of the first motor 631 and the second motor 632 is parallel with the direction of feed end to discharge end, The centrifugal force for the eccentric block that first motor 631 is connected with the shaft of the second motor 632 is cancelled out each other, and is only had along feed end to going out Expect the excited vibration in the direction at end, make the vibration of screen box 610 there is rule so that material is dehydrated in screen box 610 and is more uniformly distributed, and carries High dehydration efficiency.

In present embodiment, 601 array of the sieve aperture arrangement on compass screen surface 611, the generally rectangular cross-section array of mode of arrangement, certainly It can also be circular array.601 generally circular in cross section through hole of sieve aperture, at this time the size of sieve aperture 601 refer to the diameter of round sieve, sieve Hole 601 can certainly be rectangular through-hole, and the size of sieve aperture 601 refers to the distance between opposite both sides of rectangle sieve aperture at this time.

The size range of several preferable sieve apertures 601 is given below, meets that the size of sieve aperture 601 is less than the size of material, So that the less material of size will not leak down from sieve aperture 601, solve the problems, such as that fine sand material loss is serious.

Further, the size of the sieve aperture 601 is 0.005~0.035mm.

Further, the size of the sieve aperture 601 is 0.010~0.030mm.

Further, the size of the sieve aperture 601 is 0.010mm.

Further, the size of the sieve aperture 601 is 0.030mm.

In a kind of embodiment, Fig. 9 b are refer to, further include base 642, the compass screen surface 611 favours the base 642 Set, and the angle e that the plane of reference of the compass screen surface 611 and the base 642 is formed is 0~20 °.

In present embodiment, compass screen surface 611, which feeds one end, has the height of higher than discharging one end, i.e. compass screen surface 611 is from charging One end is tilted down to discharging one end, and movement of the material on compass screen surface 611 faster, can accelerate dehydration efficiency, certainly, compass screen surface 611 The angle e formed with the plane of reference of the base 642 should not be too large, prevent material residence time on compass screen surface 611 too short and Have little time to be dehydrated.

Wherein, base 642 can be truss structure, and base 642 also has another base 641 being oppositely arranged, another bottom Seat 641 is generally an integral structure with base 642.The plane of reference of base 642 can be horizontal plane.

In another embodiment, compass screen surface 611 discharge one end than charging one end have higher height, i.e., compass screen surface 611 from Discharging one end is tilted down to charging one end, material is had the sufficiently long residence time on compass screen surface 611, with suitable for aqueous Measure excessive material, such as mud etc..

Further, the compass screen surface 611 feeds one end and is also connected with the first tablet 619,619 opposite sides of the first tablet The 3rd side plate 614 and the 4th side plate 615 are also associated with, the 3rd side plate 13 is connected with first side plate 612, and the described 4th Side plate 615 is connected with second side plate 613, and first tablet 619 is obliquely installed, and first tablet 619 with it is described The angle f that the plane of reference of base 642 is formed is 20 °~45 °.

In present embodiment, by setting the angle of the first tablet 619, there is the first tablet 619 steeper than compass screen surface 611 Inclined ramp so that the first tablet 619 be used for feed, translational speed of the material from the first tablet 619 to compass screen surface can be accelerated.

Further, the described discharging of compass screen surface 611 one end is also associated with the second tablet 618 for discharging, and described second is flat Plate 618 is obliquely installed, and 618 opposite sides of the second tablet also sets the 5th side plate 616 and the 6th side plate 617 respectively, described 5th side plate 616 is connected with first side plate 612, and the 6th side plate 617 is connected with second side plate 613.

Wherein, the first side plate 612, the second side plate 613, the 3rd side plate 614, the 4th side plate 615, the 5th side plate 616 and Six side plates 617 are used to prevent material from sliding from side, and vibrating-dewatering screen is had more preferable stability.

Further, second cross beam 622 is also associated between first side plate 612 and second side plate 613, be used for Strengthen the stability of screen box 610.

Wherein, second cross beam 622 can have identical structure with first crossbeam 621, and second cross beam 622 can also be with One crossbeam, 621 structure is different, but second cross beam 622 should be arranged in parallel with first crossbeam 621, make the first side plate 612 of screen box 610 Stable structure is formed between second compass screen surface 611 connected between side plate 613, first crossbeam 621, second cross beam 622, is strengthened The stabilization of screen box 610.

Further, the supporting item 640 is arranged on the base 642, and the supporting item 640 is rubber spring.

Wherein, supporting item 640 has shock-absorbing function, and the damping effect of rubber spring is outstanding, and stable structure, uses the longevity Life length.

7th, the first refuse receptacle 302 (the second refuse receptacle 307 and the 3rd refuse receptacle 312 refer to)

Also referring to Figure 10 a, Figure 10 b and Figure 10 c, refuse receptacle 302 provided in an embodiment of the present invention is used to mix in muddy water Mud is separated from water in compound, and wherein mud is used to fire brick, and water, which is used to be again introduced into, to be recycled in the circulatory system, so that will Mud mixture is realized and reused, and plays the effect of environmental protection.In the present embodiment, refuse receptacle 302 includes the first staving 710, the Two stavings 720 and sleeve 730.

Specifically, the first staving 710, including the first perisporium 712 and bottom wall 714, the first perisporium 712 are fixedly connected on first 712 one end of perisporium, the first staving 710 have the barrel-like structure of opening for one end.In a kind of embodiment, the first staving 710 is Barrel shape, in other words, the first perisporium 712 rotate to form cylinder around center line, and bottom wall 714 is connected to one end of cylinder so as to shape There is the drum of opening into one end.In other embodiment, the first staving 710 can also be the staving of other shapes, such as long Cube etc..In the present embodiment, in order to improve the work efficiency of refuse receptacle 302, the amount of separated mud mixture at the same time, ring are improved The volume of guarantor's bucket 302 is larger, and the first staving 710 is placed directly on ground, specifically, bottom wall 714 is positioned on ground.It is a kind of In embodiment, internal face and outside wall surface, the internal face of bottom wall 714 and outside wall surface of the first perisporium 712 scribble paint, to prevent Only the mud mixture in the first staving 710 and external environment (such as rainwater, sunlight) are to the first perisporium 712 and bottom wall 714 Corrosion, improves the service life of the first staving 710.

In the present embodiment, the second perisporium 722 is additionally provided with the first staving 710, one end of the second perisporium 722 is fixedly attached to Bottom wall 714, the second perisporium 722 is connected with bottom wall 714 forms the second staving 720, and the second staving 720 is located in the first staving 710. In the present embodiment, it can be understood as the inner space of the first staving 710 is divided into two independent parts by the second perisporium 722, The space between 722 to the first perisporium 712 of space and the second perisporium wherein inside the second perisporium 722 by the second perisporium 722 every Open, it is understood that be that one end that bottom wall 714 is covered on the second perisporium 722 forms the second staving 720, and the second staving 720 is located at The inside of first staving 710.In a kind of embodiment, the second staving 720 is barrel shape, and in other words, the second perisporium 722 is in Heart line rotates to form cylinder, and one end that bottom wall 714 is connected to cylinder has the drum of opening so as to form one end.Other embodiment party In formula, the second staving 720 can also be for the staving of other shapes, such as cuboid etc..

In the present embodiment, sleeve 730 is additionally provided with the first staving 710, is sheathed on outside the second staving 720, sleeve 730 and Receiving space 740 is formed between one perisporium 712, the first gap 750 is formed between 730 and second perisporium 722 of sleeve.One kind is implemented In mode, sleeve 730 is the cylinder identical with the first perisporium 712 and 722 shape of the second perisporium, and sleeve 730 is sheathed on second week On wall 722, sleeve 730 can be fixedly connected by stent with the second perisporium 722, and sleeve 730 can also pass through stent and first Perisporium 712 is fixedly connected.In the present embodiment, the first gap 750 is formed between 730 and second perisporium 722 of sleeve, when the second staving After 720 fill with mud mixture, mud mixture is overflowed from the second staving 720, and receiving space is flowed into behind the first gap 750 740, and the precipitation separation in receiving space 740.

Arrow shown in Figure 10 b is the flow direction of mud mixture.The mud mixture being delivered in the second staving 720 is first The first precipitation in the second staving 720, completes the separation of preliminary mud and water, mud mixture is after the second staving 720 spilling Receiving space 740 is flowed into by the first gap 750, mud is further precipitated and is separated from water in receiving space 740, between first Gap 750 makes mud mixture enter receiving space 740 from the bottom close to receiving space 740, further increases mud and water Separating effect, the good separating effect of mud and water, is conducive to reusing for mud and water.

Tiltedly material is equipped with the present embodiment, in receiving space 740 and is intubated layer 760, tiltedly material intubation layer 760 is used for receiving space 740 are separated into clear water zone 742 and mud area 744.In a kind of embodiment, tiltedly material intubation layer 760 is placed horizontally at receiving space Position among 740, is separated into clear water zone 742 and mud area 744, wherein mud area 744 is close to bottom wall by receiving space 740 714, opening of the clear water zone 742 close to the first staving 710.Specifically, tiltedly material intubation layer 760 includes multiple skies being mutually connected as a single entity Heart pipe, hollow pipe favour bottom wall 714 and place.In a kind of embodiment, the angle of hollow pipe and horizontal plane is 45 °~60 °, tiltedly Material intubation layer 760 plays the role of filtering, and the water in mud mixture enters clear water zone 742 after tiltedly material intubation layer 760, And mud sediment is to mud area 744.

In the present embodiment, bottom wall 714 is equipped with first discharge port 772, first discharge port 772 connect receiving space 740 with it is outer Boundary, for the mud in mud area 744 to be discharged.Specifically, first discharge port 772 connects efferent duct, by suction pump by mud Extracted out from first discharge port 772, and mud is sent into next process.

In the present embodiment, the junction of the first perisporium 712 and bottom wall 714 is equipped with first slope 782, the second perisporium 722 Outside wall surface and the junction of bottom wall 714 are equipped with the second slope 784, and first discharge port 772 is located at 782 and second slope of first slope 784 between the upright projection of bottom wall 714, and 782 and second slope 784 of first slope is used to guide in the mud in mud area 744 To first discharge port 772.Specifically, first slope 782 makes the bottom of receiving space 740 form similar leakage with the second slope 784 The shape of bucket, first discharge port 772 are located at the most osculum position of funnel, and the mud that mud area 744 is precipitated downwards is directed to One outlet 772, improves the efficiency of mud discharge.

In the present embodiment, bottom wall 714 is additionally provided with the second outlet 774, and the second outlet 774 connects the second staving 720 It is internal and extraneous, for the mud in the second staving 720 to be discharged.Specifically, the second outlet 774 connects efferent duct, pass through Suction pump extracts mud from the second outlet 774 out, and mud is sent into next process.In the present embodiment, refuse receptacle 302 into The separation of mud twice and water is gone, wherein the mud mixture natural sedimentation inside the second staving 720, mud is from the second discharge Mouth 774 is discharged.Do not separated further in receiving space 740 by separation mud mixture in the second staving 720.

In the present embodiment, the internal face of the second perisporium 722 is equipped with the 3rd slope 786, second row with the junction of bottom wall 714 Positioned at the 3rd slope 786 between the upright projection of bottom wall 714, the 3rd slope 786 is used in the second staving 720 for outlet 774 Mud guide to the second outlet 774.Specifically, the 3rd slope 786 makes the bottom inside the second staving 720 form similar leakage The shape of bucket, the second outlet 774 are located at the most osculum position of funnel, and the mud precipitated downwards is directed to the second outlet 774, improve the efficiency of mud discharge.

In the present embodiment, the first perisporium 712 is equipped with the 3rd outlet 76, the position correspondence clear water zone of the 3rd outlet 76 742, the 3rd outlet 76 is used for the water for discharging clear water zone 742.Specifically, the 3rd outlet 76 is close to the top of the first perisporium 712 End, the water in clear water zone 742 is discharged.

In the present embodiment, sleeve 730 includes the first end face 3022 away from bottom wall 714, and the second staving 720 includes deviating from bottom The second end face 3021 of wall 714, the mud mixture in the second staving 720 flow into the after being overflowed from the opening of second end face 3021 One gap 750, the distance between first end face 3022 and bottom wall 714 not less than between second end face 3021 and bottom wall 714 away from From so that the mud mixture overflowed from the opening of second end face 3021 all flows into the first gap 750.Specifically, first end The horizontal level in face 3022 is higher than the horizontal level of second end face 3021, avoids mud mixture from the opening of second end face 3021 Receiving space 740 is sputtered onto beyond the first gap 750 during spilling, so that the muddy water that will be overflowed from the opening of second end face 3021 Mixture all enters receiving space 740 by the first gap 750 from the bottom of receiving space 740.

In the present embodiment, refuse receptacle 302 further includes input pipe 790, and input pipe 790 is inserted in the second staving 720.Specifically , input pipe 790 is at least partially inserted into the second staving 720, with prevent mud mixture input the second staving 720 in when due to Flow is larger and sputters.

The precipitation first in the second staving 720 of the mud mixture in the second staving 720 is delivered to, completes preliminary mud With the separation of water, mud mixture flows into receiving space 740 after the second staving 720 spilling by the first gap 750, and mud exists Further precipitate and be separated from water in receiving space 740, the first gap 750 makes mud mixture from close to receiving space 740 Bottom enters receiving space 740, is conducive to mud and precipitates downwards, further increases the separating effect of mud and water, mud with The good separating effect of water, is conducive to reusing for mud and water.

Above disclosed be only a kind of better embodiment of the present invention, cannot limit the present invention's with this certainly Interest field, one of ordinary skill in the art will appreciate that realize all or part of flow of the above embodiment, and Yi Benfa The equivalent variations that bright claim is made, still fall within and invent covered scope.

Claims

1. a kind of building waste processing system, it is characterised in that including rough sand system, fine sand system, mud system and water cyclic system System, the rough sand system are connected with the fine sand system, and the fine sand system is connected with the mud system, the water circulation system Respectively to the rough sand system, the fine sand system and the mud system water supply, the rough sand system feeding, in obtained rough sand mistake The mud produced in journey enters the fine sand system, described in the mud entrance that the fine sand system produces during fine sand is made Mud treatment system, the mud treatment system are made the water produced during mud cake and enter the water circulation system.

2. building waste processing system as claimed in claim 1, it is characterised in that the rough sand system includes what is be sequentially arranged Charger, waste material seperator, first drag for husky machine, crusher, second drag for husky machine, sand sieving machine, sand washer and rough sand dewaterer, its In, the waste material seperator outlet is equipped with the first pond, and the crusher outlet is equipped with the second pond, and described first drags for Sha Jicong The separated sandstone of the scrap separator are dragged in first pond and are sent to the crusher, described second drags for husky machine from described The sandstone of the crusher in crushing are dragged in second pond and are connected with the first conveying into the sand sieving machine, the rough sand dewaterer Band, the first conveyer belt are arranged on stent, and the first conveyer belt is movably arranged on the stent.

3. building waste processing system as claimed in claim 2, it is characterised in that described first, which drags for husky machine one end, is arranged at institute State in the first pond, described first, which drags for the opposite other end of husky machine, raises setting, and makes described first to drag for husky machine from the waste material For separator to the crusher direction in the structure gradually risen, described second, which drags for husky machine one end, is arranged at second pond In, described second, which drags for the opposite other end of husky machine, raises setting, and makes described second to drag for husky machine from the crusher to the sieve Husky machine direction is in the structure that gradually rises, is also associated with the second conveyer belt between the sand sieving machine and the crusher, and described the Sandstone to the crusher that two conveyer belts convey the bulky grain produced after the sand sieving machine sieve sand carries out second-time breakage.

4. building waste processing system as claimed in claim 2, it is characterised in that it is defeated that the waste material seperator is connected with the 3rd Band is sent, the waste material that the waste material seperator separation sandstone produce is transported by the 3rd conveyer belt.

5. building waste processing system as claimed in claim 2, it is characterised in that the fine sand system include the 3rd pond, 4th pond, the 5th pond, the 6th pond, the 4th conveyer belt, fine sand dewaterer, the 5th conveyer belt, the first cyclone separator and Second cyclone separator, is connected with the first water channel, the 4th pond and institute between the 3rd pond and first pond State and be connected with the second water channel between the second pond, the 3rd water channel is connected between the 5th pond and the sand washer, it is described 3rd pond is equipped with the first slush pump, and first slush pump is by the slurry transportation in the 3rd pond to first eddy flow Separator, the fine sand that first cyclone separator is isolated is delivered to the 6th pond through the 4th conveyer belt, described 6th pond is equipped with the second slush pump, and second slush pump is by the slurry transportation in the 6th pond to second eddy flow Separator, the fine sand that second cyclone separator is isolated are dehydrated after fine sand dewaterer dehydration by connecting the fine sand 5th conveyer belt of machine is transported.

6. building waste processing system as claimed in claim 5, it is characterised in that the fine sand system further includes the 3rd eddy flow Separator and the 4th cyclone separator, the 4th pond are equipped with the 3rd slush pump, and the 3rd slush pump is by the 4th water For slurry transportation in pond to the 3rd cyclone separator, the 5th pond is equipped with the 4th slush pump, the 4th slush pump By the slurry transportation in the 5th pond to the 4th cyclone separator, the 3rd cyclone separator and the 4th rotation The fine sand that stream separator is isolated is delivered to the 6th pond through the 4th conveyer belt.

7. building waste processing system as claimed in claim 5, it is characterised in that first water channel is equipped with sizing equipment, For picking up the debris in first water channel.

8. building waste processing system as claimed in claim 6, it is characterised in that the mud system include the first refuse receptacle, First Pulp pump and Duo Tai filter presses, are connected with the first defeated mud between first cyclone separator and first refuse receptacle Pipe, the mud that first cyclone separator is isolated are delivered to first refuse receptacle through first dredging tube and are sunk Form sediment, the mud of the first refuse receptacle bottom precipitation is delivered to the filter press, the filter press pair through first Pulp pump Mud obtains mud cake after being extruded, and the water in mud is separated.

9. building waste processing system as claimed in claim 8, it is characterised in that the mud system further includes the second environmental protection Bucket, the 3rd refuse receptacle, the second Pulp pump, the 3rd Pulp pump, connect between the 3rd cyclone separator and second refuse receptacle The second dredging tube is connected to, the mud that the 3rd cyclone separator is isolated is delivered to second ring through second dredging tube Protect bucket to be precipitated, the mud of the second refuse receptacle bottom precipitation is delivered to the filter press, institute through second Pulp pump State and the 3rd dredging tube is connected between the 4th cyclone separator and the 3rd refuse receptacle, the 4th cyclone separator is isolated Mud be delivered to the 3rd refuse receptacle through the 3rd dredging tube and precipitated, second cyclone separator and described the The 4th dredging tube is connected between three refuse receptacles, the mud that second cyclone separator is isolated is defeated through the 4th dredging tube Send to the 3rd refuse receptacle and precipitated, the mud of the described 3rd environmentally friendly bottom of the barrel precipitation is delivered to through the 3rd Pulp pump The filter press, the filter press obtains mud cake after extruding mud, and the water in mud is separated.

10. building waste processing system as claimed in claim 9, it is characterised in that the water circulation system includes clear water reserviors, The clear water reserviors are respectively connected to first pond, second pond, the 3rd pond, the 4th water equipped with pipeline Pond, the 5th pond, the 6th pond, first refuse receptacle, second refuse receptacle, the 3rd refuse receptacle and institute Multiple filter presses are stated, the multiple separated water of filter press is flowed into the clear water reserviors through the pipeline, the clear water reserviors difference To first pond, second pond, the 3rd pond, the 4th pond, the 5th pond, the 6th water Pond, first refuse receptacle, second refuse receptacle and the 3rd refuse receptacle supply water.