CN209303422U - A kind of sorting mechanism of building waste processing - Google Patents

Abstract

A kind of sorting mechanism of building waste processing, it includes mechanism body and Screen assemblies, mechanism body includes the first main body and the first vibrating screen for being installed on the first main body, Screen assemblies include the first Centrifugal rolling, first rotating shaft, first connecting shaft, second Centrifugal rolling, second shaft and the second connecting shaft, the both ends of first connecting shaft are separately connected the edge of the first Centrifugal rolling and one end of the first vibrating screen, the both ends of second connecting shaft are separately connected the edge of the second Centrifugal rolling and the other end of the first vibrating screen, first rotating shaft bias is connected to the first Centrifugal rolling, second shaft bias is connected to the second Centrifugal rolling, first rotating shaft and the second shaft are located at the two sides up and down of the first vibrating screen；The mechanism can carry out high efficiency screening and regrading to building stones, increase building stones and screen out the validity of reclaimed sand and comprehensive, improve the grain sorting degree of reclaimed sand screening, the reclaimed sand particle evenness sub-elected is preferable, and the granular size for regenerating stone is more uniform.

Description

A kind of sorting mechanism of building waste processing

Technical field

The utility model relates to building waste technical fields, in particular relate to a kind of screening machine of building waste processing Structure.

Background technique

Building waste is in the solid waste for implementing to generate in newly-built, renovating and enlarging or demolishing process to building Object.According to the difference of the generating source of building waste, construction building rubbish and demolition building waste can be divided into.Construction building rubbish As the term suggests being exactly the solid waste generated in newly-built, reconstruction or extention project, and demolishes building waste and be exactly The building waste generated when building is removed and removed.

With the quickening of urbanization process, urban construction, reconstruction of the old city town produce a large amount of building waste, building waste Quantity has accounted for 1/3 of municipal refuse total amount or more, wherein most building wastes are unprocessed, just transported by unit in charge of construction Toward countryside or rural area, air storage or landfill consume a large amount of land acquisition expense, refuse collection expense etc., occupy a large amount of soils, shape The phenomenon that enclosing village, besieged city at rubbish seriously affects town and country image, then causes huge environmental problem, economic problems even society It can problem.Building waste circular regeneration is worked and is combined with the production of economic materials for wall, is produced and is built with building waste With sand, the building waste that can not largely handle not only had been dissolved, but also has solved the problems, such as resource rational utilization, resource can be effectively improved Utilization efficiency, protecting ecology and promotes economic development.

The building waste sorting mechanism of the prior art, or artificial screening building stones are used, or screen using common vibrating screen, it is general It when logical vibrating screen screening, regenerates and is mixed with reclaimed sand in the particle of stone, grain sorting is not very uniformly that grain graininess changes greatly.

Utility model content

The purpose of this utility model is to provide a kind of sorting mechanisms of building waste processing, can carry out to building stones high Effect screening and regrading increase building stones and screen out the validity of reclaimed sand and comprehensive, improve of reclaimed sand screening Grain degree of sorting, the reclaimed sand particle evenness sub-elected is preferable, and the granular size for regenerating stone is more uniform.

The embodiments of the present invention are achieved in that

A kind of sorting mechanism of building waste processing comprising mechanism body and Screen assemblies, mechanism body include the first main body With the first vibrating screen for being installed on the first main body, Screen assemblies include the first Centrifugal rolling, first rotating shaft, the first connecting shaft, second Centrifugal rolling, the second shaft and the second connecting shaft, the both ends of the first connecting shaft are separately connected the edge and the first vibration of the first Centrifugal rolling One end of dynamic sieve, the both ends of the second connecting shaft are separately connected the edge of the second Centrifugal rolling and the other end of the first vibrating screen, and first Shaft bias is connected to the first Centrifugal rolling, and the second shaft bias is connected to the second Centrifugal rolling, first rotating shaft and the second shaft difference Positioned at the two sides up and down of the first vibrating screen.

In the utility model preferred embodiment, above-mentioned first Centrifugal rolling is rotated centered on first rotating shaft, second from Heart roller is rotated centered on the second shaft.

In the utility model preferred embodiment, above-mentioned first vibrating screen is obliquely installed, the first connection axis connection first The top end of vibrating screen, the bottom end of second connection the first vibrating screen of axis connection.

In the utility model preferred embodiment, the distance of above-mentioned first connecting shaft to first rotating shaft is less than the second connection Axis to the second shaft distance.

In the utility model preferred embodiment, above-mentioned Screen assemblies further include the branch of belt, motor and fixed motor Fagging, belt include 2, and 1 root skin band is separately connected motor and first rotating shaft, and another 1 root skin band is separately connected motor and second turn Axis.

In the utility model preferred embodiment, the sorting mechanism of above-mentioned building waste processing further includes dampening assembly, Dampening assembly includes damper and supporter, and supporter is connected to ground, the top and bottom ends of damper be separately connected support plate and Supporter.

In the utility model preferred embodiment, said mechanism body further includes the second main body and the second vibrating screen, and second Vibrating screen is set in the second main body, and the second vibrating screen is obliquely installed, and the height of the second vibrating screen is lower than the first vibrating screen, and second Extend the second main body in one end of vibrating screen.

In the utility model preferred embodiment, above-mentioned first main body connects the second main body, one end of the first vibrating screen Towards the top of the second vibrating screen.

In the utility model preferred embodiment, said mechanism body further includes discharging band and conveying end, the setting of conveying end Top in the first main body and one end positioned at the first vibrating screen, discharging band are set to the first main body and the second body interior, out Material strip extends the second main body, and discharging band is obliquely installed.

In the utility model preferred embodiment, said mechanism body further includes locking member and bolt, the first main body and The exterior bottom of two main bodys is connected separately with multiple locking members, and the first main body and the second main body are fixed on by locking member by bolt Ground.

The beneficial effects of the utility model are:

The utility model drives the first Centrifugal rolling and the rotation of the second Centrifugal rolling by motor-driven belt, passes through first The centrifugation of Centrifugal rolling and the second Centrifugal rolling rotates, so that the first vibrating screen is made to shake vibration to and fro, on the first vibrating screen Building stones efficiently sieved, then by the second vibrating screen carry out regrading, more fully screen out reclaimed sand, can High efficiency screening and regrading are carried out to building stones, building stones is increased and screens out the validity of reclaimed sand and comprehensive, improve again The grain sorting degree of greensand screening, the reclaimed sand particle evenness sub-elected is preferable, and the granular size for regenerating stone is more uniform.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is the section schematic elevation view of the sorting mechanism of the utility model building waste processing；

Fig. 2 is the section side schematic view of the sorting mechanism of the utility model building waste processing；

Icon: the sorting mechanism of 100- building waste processing；The first main body of 111-；The second main body of 112-；113- first shakes Dynamic sieve；The second vibrating screen of 114-；115- discharging band；116- locking member；117- bolt；118- conveying end；The first Centrifugal rolling of 121-； 122- first rotating shaft；The first connecting shaft of 123-；The second Centrifugal rolling of 124-；The second shaft of 125-；The second connecting shaft of 126-；127- skin Band；128- motor；129- support plate；131- damper；132- supporter.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the range of the utility model protection.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the present invention, it should be noted that the orientation of the instructions such as term " on ", "inner", "outside", "bottom" Or positional relationship be based on the orientation or positional relationship shown in the drawings or the utility model product using when usually put Orientation or positional relationship is merely for convenience of describing the present invention and simplifying the description, rather than the dress of indication or suggestion meaning It sets or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to the utility model Limitation.In addition, term " first ", " second ", " third " etc. are only used for distinguishing description, it is not understood to indicate or imply phase To importance.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set Set ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

First embodiment

Fig. 1 is please referred to, the present embodiment provides a kind of sorting mechanisms 100 of building waste processing comprising mechanism body, screening Component and dampening assembly, mechanism body include the first main body 111, the second main body 112, the first vibrating screen 113, the second vibrating screen 114, Discharge band 115, locking member 116, bolt 117 and conveying end 118, Screen assemblies include the first Centrifugal rolling 121, first rotating shaft 122, First connecting shaft 123, the second Centrifugal rolling 124, the second shaft 125, the second connecting shaft 126, belt 127, motor 128 and support plate 129, dampening assembly includes damper 131 and supporter 132；Screen assemblies and dampening assembly are connected to mechanism body, Screen assemblies Positioned at the inside of mechanism body, dampening assembly is located at the outside of mechanism body, and Screen assemblies are by way of centrifugation vibration to mechanism body Internal building stones carry out vibration sorting, screen out building stones particle and reclaimed sand, and the vibration of Screen assemblies is reduced by dampening assembly, Effectively mechanism body is buffered, plays noise reduction and stable effect；Conveying end 118 is set to the one of 111 top of the first main body Building stones are conveyed into 111 top of the first main body by side, and building stones are fallen into from conveying end 118 to the first vibrating screen 113, locking member 116 It is fixedly attached to the bottom of the first main body 111 and the second main body 112, which is provided with multiple locking members 116, locking member 116 are connected to the first main body 111 and the second main body 112, and the bottom end of locking member 116 is connected to ground, is provided with for fixed Locking member 116 is fixed on ground by connecting hole by connecting hole, bolt 117, bolt 117 be provided with it is multiple, wherein three bolts 117 is fixed by a locking member 116.

Referring to figure 2., mechanism body includes the first main body 111, the second main body 112, the first vibrating screen 113, the second vibrating screen 114, band 115, locking member 116, bolt 117 and conveying end 118, the first main body 111 of discharging are connect with the second main body 112, and first Main body 111 is the device of a sifting vibrating, and the second main body 112 is the device of regrading vibration, the inside of the first main body 111 It is hollow, the reclaimed sand sieved through the first vibrating screen 113 is collected in discharging band 115, the inner hollow of the second main body 112, The reclaimed sand sieved through the second vibrating screen 114 is collected in discharging band 115, the top of the first vibrating screen 113 is close to the first main body 111 one end, the bottom end of the first vibrating screen 113 are located at the other end of the first main body 111, close to one end of the second main body 112, First vibrating screen 113 is oblique, is lower than its other end close to one end of the second main body 112, and building stones are from the first vibrating screen 113 One end fall into wherein and sieved, finally fallen into the second main body 112 from the bottom end of the first vibrating screen 113, fall into second The building stones of main body 112 fall into the second vibrating screen 114 and carry out regrading, and the second vibrating screen 114 is set as skewed, and building stones exist After falling into the second vibrating screen 114, the second main body 112, the second vibrating screen 114 are skidded off along the second vibrating screen 114 under the effect of gravity One end be connected in the second main body 112, the other end extends the second main body 112, and discharging band 115 is set to the first main body 111 and second in main body 112, and the lower section of the first vibrating screen 113 in the first main body 111 is hollow, is located at the second main body 112 The lower section of the second interior vibrating screen 114 is hollow, and one end of discharging band 115 is connected to the inner wall side of the first main body 111, and discharge band 115 other end is obliquely installed and extends to the second main body 112, and the second main body 112 is extended in one end of discharging band 115, from the The reclaimed sand that one vibrating screen 113 is fallen is collected at discharging band 115, and the reclaimed sand fallen from the second vibrating screen 114 is going out It is collected at material strip 115, reclaimed sand, with inside the second main body 112, finally sends out the second main body by 111 inside of the first main body 112。

Screen assemblies include the first Centrifugal rolling 121, first rotating shaft 122, the first connecting shaft 123, the second Centrifugal rolling 124, the Two shafts 125, the second connecting shaft 126, belt 127, motor 128 and support plate 129, first rotating shaft 122 and the first connecting shaft 123 It is respectively connected to the first Centrifugal rolling 121, the second shaft 125 and the second connecting shaft 126 are connected to the second Centrifugal rolling 124, and first turn Axis 122 is fixedly attached to the first main body 111, and the second shaft 125 is fixedly attached to the second main body 112, and the first Centrifugal rolling 121 is with It is rotated centered on one shaft 122, the second Centrifugal rolling 124 is rotated centered on the second shaft 125, and first rotating shaft 122 is connected to The position of one Centrifugal rolling 121 is eccentric connection, and the position that the second shaft 125 is connected to the second Centrifugal rolling 124 is eccentric connection, the The distance between 121 center of one shaft 122 and the first Centrifugal rolling is less than between 124 center of the second shaft 125 and the second Centrifugal rolling Distance, first rotating shaft 122 is connected to the edge of the first Centrifugal rolling 121, and the second shaft 125 is connected to the second Centrifugal rolling 124 Edge, the first connecting shaft 123 are connected to the top of the first vibrating screen 113, and the second connecting shaft 126 is connected to the first vibrating screen 113 Bottom end, wherein the position of first rotating shaft 122 is located at the lower section of the first vibrating screen 113, and the position of the second shaft 125 is located at first The top of vibrating screen 113, the setting of the first Centrifugal rolling 121 and the second Centrifugal rolling 124 so that, the first Centrifugal rolling 121 and second from Heart roller 124 is located at the two sides of the first vibrating screen 113.

Support plate 129 is connected to the outside of the first main body 111, and the two sides of the first main body 111 are connected separately with a support Plate 129, motor 128 are fixed on the top of support plate 129, the shaft of motor 128 by belt 127 respectively with first rotating shaft 122 With the second shaft 125 connect, share 2 root skin bands 127, wherein a root skin band 127 be separately connected motor 128 shaft and first turn Axis 122, another root skin band 127 are separately connected the shaft and the second shaft 125 of motor 128, and motor 128 passes through drive belt 127 Rotation respectively drives first rotating shaft 122 and the rotation of the second shaft 125, and motor 128 drives the rotation of first rotating shaft 122 and the simultaneously The rotation of two shafts 125, the first vibrating screen 113 is under the drive of the first Centrifugal rolling 121 and the second Centrifugal rolling 124, in the first main body Make shake screening up and down and back and forth in 111, building stones are efficiently sieved.

Dampening assembly includes damper 131 and supporter 132, and the bottom end of supporter 132 is connected to ground, supporter 132 Top and support plate 129 bottom between there is interval, damper 131 is set to the interval, and supporter 132 is provided with more altogether It is a, there is spacing distance, the top of damper 131 is connected to the bottom of support plate 129, damper between adjacent supports body 132 131 bottom end is connected to the top of supporter 132, and when motor 128 works, multiple dampers 131 play the vibration of motor 128 The effect of buffering, so that motor 128 is more steady when working.

The working principle of the example of the utility model are as follows:

Building stones first enter the first vibrating screen 113 positioned at the first main body 111 from the exit at conveying end 118, start motor 128, motor 128 drives belt 127 to rotate, and belt 127 drives the first Centrifugal rolling by first rotating shaft 122 and the second shaft 125 121 and second Centrifugal rolling 124 rotate, the first Centrifugal rolling 121 and the second Centrifugal rolling 124 are made circumference in perpendicular respectively and are turned Dynamic, the first Centrifugal rolling 121 and the second Centrifugal rolling 124 make eccentric rotary respectively, at this point, the first vibrating screen 113 is in the first Centrifugal rolling 121 and second Centrifugal rolling 124 drive under shake Centrifugal vibration, Centrifugal vibration of the building stones in the first vibrating screen 113 to and fro Under, effectively building stones are sieved, reclaimed sand enters discharging band 115 from the bottom of the first vibrating screen 113, and reclaimed sand is in discharging band It being collected at 115, building stones fall into the second vibrating screen 114 positioned at the second main body 112 after the first vibrating screen 113, and second Building stones are carried out regrading by vibrating screen 114, and building stones transmit out the second main body along the second vibrating screen 114 under gravity 112, reclaimed sand is fallen into discharging band 115 by the second vibrating screen 114 and is collected, by the first vibrating screen 113 and the second vibration The building stones of dynamic sieve 114 screen out reclaimed sand, and reclaimed sand transmits out mechanism body by the band 115 that discharges, effectively by the regeneration in building stones Sand sieve separates, and the reclaimed sand particle evenness sub-elected is preferable, and the granular size for regenerating stone is more uniform, and damper 131 passes through company Support plate 129 and supporter 132 are connect, the vibration generated when working motor 128 buffers, and plays the work for slowing down vibration With.

The example of the utility model is by 128 drive belt 127 of motor to drive the first Centrifugal rolling 121 and the second Centrifugal rolling 124 rotations are rotated by the centrifugation of the first Centrifugal rolling 121 and the second Centrifugal rolling 124, so that the first vibrating screen 113 is made to and fro Shake vibration, the building stones on the first vibrating screen 113 are efficiently sieved, then pass through the second vibrating screen 114 carry out it is secondary Screening, more fully screens out reclaimed sand, can carry out high efficiency screening and regrading to building stones, increase building stones and screen out The validity of reclaimed sand and comprehensive, improves the grain sorting degree of reclaimed sand screening, the reclaimed sand particle evenness sub-elected compared with Good, the granular size for regenerating stone is more uniform.

In conclusion the utility model can carry out high efficiency screening and regrading to building stones, increases building stones and screen out The validity of reclaimed sand and comprehensive, improves the grain sorting degree of reclaimed sand screening, the reclaimed sand particle evenness sub-elected compared with Good, the granular size for regenerating stone is more uniform.

Present specification describes the example of the embodiments of the present invention, it is not meant to that these embodiments illustrate and describe All possible forms of the utility model.It should be understood that the embodiment in specification can be implemented with a variety of alternative forms.Attached drawing without It needs drawn to scale；Some features can be zoomed in or out to show the details of particular elements.Disclosed specific structure and function are thin Section is not taken by way of limitation explanation, and those skilled in the art is only instructed to implement the representative base of the utility model in a variety of forms Plinth.It will be understood to one skilled in the art that can be with one or more with reference to multiple features that either figure illustrates and describes The feature combination illustrated in other attached drawings is to form the embodiment for not yet explicitly illustrating or describing.The assemblage characteristic offer of explanation is used for The representative embodiment of typical case.However, can root with the multiple combinations of the consistent feature of introduction of the utility model and modification According to needing for specific application or implementation.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of sorting mechanism of building waste processing, which is characterized in that it includes mechanism body and Screen assemblies, the mechanism body Including the first main body and the first vibrating screen for being installed on the first main body, the Screen assemblies include the first Centrifugal rolling, first rotating shaft, First connecting shaft, the second Centrifugal rolling, the second shaft and the second connecting shaft, the both ends of first connecting shaft are separately connected described One end of the edge of one Centrifugal rolling and first vibrating screen, the both ends of second connecting shaft are separately connected second centrifugation The other end of the edge of roller and first vibrating screen, the first rotating shaft bias are connected to first Centrifugal rolling, and described Two shaft bias are connected to second Centrifugal rolling, and the first rotating shaft and second shaft are located at first vibration The two sides up and down of sieve.

2. the sorting mechanism of building waste processing according to claim 1, which is characterized in that first Centrifugal rolling is with institute It states and rotates centered on first rotating shaft, second Centrifugal rolling is rotated centered on second shaft.

3. the sorting mechanism of building waste processing according to claim 1, which is characterized in that the first vibrating screen inclination Setting, described first connects the top end of the first vibrating screen described in axis connection, the first vibration described in the second connection axis connection The bottom end of sieve.

4. the sorting mechanism of building waste processing according to claim 3, which is characterized in that first connecting shaft to institute The distance for stating first rotating shaft is less than the distance of second connecting shaft to second shaft.

5. the sorting mechanism of building waste according to claim 1 processing, which is characterized in that the Screen assemblies further include The support plate of belt, motor and fixed motor, the belt include 2, and 1 belt is separately connected the motor and described First rotating shaft, another 1 belt are separately connected the motor and second shaft.

6. the sorting mechanism of building waste processing according to claim 5, which is characterized in that the building waste processing Sorting mechanism further includes dampening assembly, and the dampening assembly includes damper and supporter, and the supporter is connected to ground, institute The top and bottom ends for stating damper are separately connected the support plate and the supporter.

7. the sorting mechanism of building waste according to claim 1 processing, which is characterized in that the mechanism body further includes the Two main bodys and the second vibrating screen, second vibrating screen are set in second main body, and second vibrating screen is obliquely installed, The height of second vibrating screen is lower than first vibrating screen, and it is main that one end of second vibrating screen extends described second Body.

8. the sorting mechanism of building waste processing according to claim 7, which is characterized in that first main body connects institute State the second main body, one end of first vibrating screen is towards the top of second vibrating screen.

9. the sorting mechanism of building waste processing according to claim 8, which is characterized in that the mechanism body further includes Material strip and conveying end, the conveying end are set to the top of first main body and are located at one end of first vibrating screen, institute It states discharging band and is set to first main body and second body interior, the discharging band extends second main body, institute Discharging band is stated to be obliquely installed.

10. the sorting mechanism of building waste according to claim 8 processing, which is characterized in that the mechanism body further includes The exterior bottom of locking member and bolt, first main body and second main body is connected separately with multiple locking members, the lock First main body and second main body are fixed on ground by bolt by tight part.