CN114505332A

CN114505332A - Building waste classification equipment and classification method thereof

Info

Publication number: CN114505332A
Application number: CN202210140493.3A
Authority: CN
Inventors: 唐建明
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-02-16
Filing date: 2022-02-16
Publication date: 2022-05-17

Abstract

The invention belongs to the technical field of building garbage classification, and particularly relates to a building garbage classification device and a classification method thereof. The invention can crush the construction waste, screen out the wood waste for recycling and storing, and then classify the metal and the glass by magnetism.

Description

Building waste classification equipment and classification method thereof

Technical Field

The invention belongs to the technical field of building waste classification, and particularly relates to building waste classification equipment and a classification method thereof.

Background

The construction waste refers to construction waste generated by human or natural reasons in engineering, and comprises waste residue soil, waste soil, silt, waste materials and the like. Along with the acceleration of industrialization and urbanization processes, the construction industry is rapidly developed, the quantity of Chinese construction waste is more than 1/3 of the total quantity of urban waste along with the increase of the quantity of the generated construction waste, and if the construction waste is not processed and utilized in time, adverse effects are certainly brought to the society, the environment and resources. Glass, wood and metal in the construction waste are difficult to classify. The current construction waste classification equipment has the problem of classifying and recycling glass, wood and metal.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a construction waste classification device and a classification method thereof, which can crush construction waste and screen out wood waste for recycling and storing.

The purpose of the invention can be realized by the following technical scheme: the building garbage classification equipment comprises a recovery box, wherein a crushing and screening component is arranged at the upper end inside the recovery box, a feeding hopper is fixedly arranged at the upper end of the recovery box, two feeding rotating plates are rotatably arranged on two sides of the upper end of the feeding hopper, a first linkage column is rotatably arranged below the feeding hopper on one side inside the recovery box, a first gear is fixedly arranged at one end, penetrating through the recovery box, of the first linkage column, a motor is fixedly arranged at one end, far away from the first linkage column, of the first gear, a second linkage column is rotatably arranged on one side, far away from the first linkage column, below the feeding hopper, in the recovery box, a second gear is fixedly arranged at one end, penetrating through the recovery box, of the second linkage column, the first gear is meshed with the second gear, and two crushing blocks are fixedly arranged on the outer circumferential surfaces of the first linkage column and the second linkage column.

Preferably, be equipped with two screening groups on first linkage post and the outer peripheral facial features of second linkage post, the screening group contains and is equipped with a plurality of screening lugs, a plurality of screening lugs slide on first linkage post and second linkage post, be equipped with two pressure chambeies in first linkage post and the second linkage post, a plurality of screening lugs slide to pressing the chamber direction and are equipped with a plurality of sponge boards, a plurality of sponge boards are kept away from screening lug one end and are set firmly a plurality of clamp plates, a plurality of clamp plates and first linkage post, second linkage post sliding connection are equipped with a plurality of screens piece.

Preferably, a plurality of lugs are arranged in the plurality of crushing blocks in a sliding manner, a plurality of piston cavities are arranged in the plurality of crushing blocks, a plurality of piston plates are arranged in the plurality of piston cavities in a sealing and sliding manner, and a plurality of connecting channels are arranged between the plurality of piston cavities and the pressure cavity in a connecting manner.

Preferably, clamping and separating components are arranged below two sides of the crushing and screening component; the clamping and separating component comprises a first rotating column, the first rotating column is located below the first linkage column in the direction away from the second linkage column, a first linkage belt is arranged between the first rotating column and the first linkage column in a linkage connection mode, a second rotating column is arranged below the second linkage column in the rotation mode away from the first linkage column in the recovery box in the rotation mode, a second linkage belt is arranged between the second rotating column and the second linkage column in a linkage connection mode, two storage boxes are fixedly arranged on two sides of the recovery box, and two separating groups are arranged on the outer circumferential surfaces of the first rotating column and the second rotating column.

Preferably, the separation group includes and is equipped with the sleeve, and the sleeve is kept away from first rotation post direction and is slided and set firmly a plurality of T shape and collude the piece, and T shape colludes piece both sides and slided on the sleeve and is equipped with two T shape grip blocks, and two T shape grip blocks are connected between and are equipped with the hydraulic pressure chamber with T shape collude the piece.

Preferably, a conveying and screening part is arranged below the clamping and separating part; the conveying and screening part comprises a magnetic conveying mechanism, the magnetic conveying mechanism is located below the first linkage column, the magnetic conveying mechanism is connected in the recycling box in a rotating mode, the magnetic conveying mechanism is fixedly provided with a scraping block in the recycling box towards one side of the first rotation column, and a magnetic metal storage cavity is arranged in the recycling box below the scraping block.

Preferably, a grinding and classifying component is arranged below the conveying and screening component; the grinding classification component comprises a filtering and conveying mechanism, the filtering and conveying mechanism is located below the magnetic conveying mechanism, the filtering and conveying mechanism is connected in the recycling box in a rotating mode, four grinding groups are arranged inside and above the filtering and conveying mechanism in the recycling box in a rotating mode, the grinding groups comprise grinding rotating shafts, grinding sleeves are sleeved on the outer circumferential surfaces of the grinding rotating shafts, four telescopic blocks are arranged in the grinding sleeves in a sliding mode in the circumferential direction, the telescopic blocks correspond to filtering holes in the filtering and conveying mechanism to achieve anti-blocking effect, the filtering and conveying mechanism is far away from the direction of a magnetic metal storage cavity, a metal storage cavity is arranged in the recycling box, and a glass storage cavity is arranged below the filtering and conveying mechanism.

Has the advantages that:

1. through broken screening part setting, carry out breakage and select wood rubbish to building rubbish and retrieve the storage, carry out the rapid processing when blocking, be favorable to preventing that equipment from blocking the inconvenient and effectual wood rubbish of selecting of clearance.

2. Through centre gripping separation parts setting, take out wood rubbish from broken screening part safely and save, be favorable to preventing equipment card owner.

3. Through the arrangement of the conveying screening part and the grinding classification part, the metal garbage and the glass garbage are classified, stored and treated.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a flow chart of the method of the present invention.

Fig. 2 is a schematic isometric view of the present invention.

Fig. 3 is a schematic top view of the present invention.

Fig. 4 is a schematic sectional view at a-a in fig. 3.

Fig. 5 is a schematic view of a portion D in fig. 4.

Fig. 6 is a schematic structural view in front view of the present invention.

Fig. 7 is a schematic cross-sectional view at B-B in fig. 6.

Fig. 8 is a schematic sectional view at C-C in fig. 6.

Fig. 9 is a schematic view of a portion at E in fig. 7.

Fig. 10 is a schematic view of a portion at F in fig. 7.

In the figure, a recovery box 10, a crushing and screening part 11, a clamping and separating part 12, a conveying and screening part 13, a grinding and sorting part 14, a feeding hopper 15, a feeding rotating plate 16, a motor 17, a first gear 18, a second gear 19, a first linkage column 20, a second linkage column 21, a first linkage belt 22, a first rotating column 23, a second linkage belt 24, a second rotating column 25, a screening group 26, a screening lug 27, a sponge plate 28, a pressure plate 29, a clamping block 30 and a pressure cavity 31, broken fragments 32, a bump 33, a piston cavity 34, a piston plate 35, a connecting channel 36, a separation group 37, a storage box 38, a sleeve 39, a T-shaped hook block 40, a T-shaped clamping plate 41, a hydraulic cavity 42, a magnetic conveying mechanism 43, a scraping block 44, a magnetic metal storage cavity 45, a grinding group 46, a grinding rotating shaft 47, a grinding sleeve 48, a telescopic block 49, a filtering conveying mechanism 50, a metal storage cavity 51 and a glass storage cavity 52.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1-10, a construction waste classification device and a classification method thereof include a recycling bin 10, a crushing and screening component 11 is arranged at the upper end inside the recycling bin 10, a feeding hopper 15 is fixedly arranged at the upper end of the recycling bin 10, two feeding rotating plates 16 are rotatably arranged at two sides of the upper end of the feeding hopper 15, a first linkage column 20 is rotatably arranged at one side inside the recycling bin 10 below the feeding hopper 15, a first gear 18 is fixedly arranged at one end of the first linkage column 20 penetrating through the recycling bin 10, a motor 17 is fixedly arranged at one end of the first gear 18 far away from the first linkage column 20, a second linkage column 21 is rotatably arranged at one side of the lower end of the feeding hopper 15 far away from the first linkage column 20 in the recycling bin 10, a second gear 19 is fixedly arranged at one end of the second linkage column 21 penetrating through the recycling bin 10, the first gear 18 is in meshed connection with the second gear 19, and two crushing pieces 32 are arranged on the outer circumferential surfaces of the first linkage column 20 and the second linkage column 21 for crushing.

Further, with reference to fig. 1-10, two screening groups 26 are disposed on the outer circumferential surfaces of the first linkage column 20 and the second linkage column 21, each screening group 26 includes a plurality of screening protrusions 27, the screening protrusions 27 slide on the first linkage column 20 and the second linkage column 21, two pressure chambers 31 are disposed in the first linkage column 20 and the second linkage column 21, the screening protrusions 27 are provided with a plurality of sponge plates 28 in a sliding manner toward the pressure chambers 31, one ends of the sponge plates 28 far away from the screening protrusions 27 are fixedly provided with a plurality of pressing plates 29, and the pressing plates 29 are slidably connected with the first linkage column 20 and the second linkage column 21 and are provided with a plurality of clamping blocks 30.

Further, referring to fig. 1-10, a plurality of protrusions 33 are slidably disposed in the plurality of broken pieces 32, a plurality of piston cavities 34 are disposed in the plurality of broken pieces 32, a plurality of piston plates 35 are slidably disposed in the plurality of piston cavities 34 in a sealing manner, and a plurality of connecting channels 36 are disposed between the plurality of piston cavities 34 and the pressure cavity 31.

Further, with reference to fig. 1-10, a clamping and separating member 12 is provided below both sides of the crushing and screening member 11; the clamping and separating component 12 comprises a first rotating column 23, the first rotating column 23 is located below the first linkage column 20 far away from the second linkage column 21, a first linkage belt 22 is arranged between the first rotating column 23 and the first linkage column 20 in a linkage connection mode, a second rotating column 25 is arranged in the recovery box 10 in a rotation mode below the second linkage column 21 far away from the first linkage column 20, a second linkage belt 24 is arranged between the second rotating column 25 and the second linkage column 21 in a linkage connection mode, two storage boxes 38 are fixedly arranged on two sides 1 of the recovery box 10, and two separating groups 37 are arranged on the outer circumferential surfaces of the first rotating column 23 and the second rotating column 25.

Further, referring to fig. 1-10, the separation group 37 includes a sleeve 39, the sleeve 39 is slidably fixed with a plurality of T-shaped hooks 40 away from the first rotation column 23, two T-shaped clamping plates 41 are slidably arranged on the sleeve 39 at two sides of the T-shaped hooks 40, and a hydraulic chamber 42 is connected between the two T-shaped clamping plates 41 and the T-shaped hooks 40.

Further, with reference to fig. 1 to 10, a conveying and screening member 13 is provided below the holding and separating member 12; the conveying and screening part 13 comprises a magnetic conveying mechanism 43, the magnetic conveying mechanism 43 is positioned below the first linkage column 20, the magnetic conveying mechanism 43 is rotatably connected in the recycling box 10, a scraping block 44 is fixedly arranged in the recycling box 10 on one side, facing the first rotation column 23, of the magnetic conveying mechanism 43, and a magnetic metal storage cavity 45 is arranged in the recycling box 10 below the scraping block 44.

Further, with reference to fig. 1 to 10, a grinding and sorting unit 14 is provided below the conveying and screening unit 13; the grinding classification component 14 comprises a filtering and conveying mechanism 50, the filtering and conveying mechanism 50 is located below the magnetic conveying mechanism 43, the filtering and conveying mechanism 50 is rotatably connected in the recovery box 10, four grinding groups 46 are rotatably arranged inside and above the filtering and conveying mechanism 50 in the recovery box 10, each grinding group 46 comprises a grinding rotating shaft 47, a grinding sleeve 48 is sleeved on the outer circumferential surface of each grinding rotating shaft 47, four telescopic blocks 49 are slidably arranged in the circumferential direction of each grinding sleeve 48, the telescopic blocks 49 correspond to filtering holes in the filtering and conveying mechanism 50 to perform an anti-blocking function, a metal storage cavity 51 is arranged in the recovery box 10 in the direction away from the magnetic metal storage cavity 45 of the filtering and conveying mechanism 50, and a glass storage cavity 52 is arranged below the filtering and conveying mechanism 50.

Principle of operation

S1, feeding, wherein the two feeding rotating plates 16 rotate and open on the feeding hopper 15, and construction waste such as metal, glass, wood and the like is put into the recycling bin 10 through the feeding hopper 15.

S2, crushing and screening, wherein a motor 17 is started to drive a first gear 18 to rotate anticlockwise, the first gear 18 is meshed to drive a second gear 19 to rotate clockwise, the first gear 18 rotates anticlockwise to drive a first linkage column 20 to rotate in a way of being matched with the second gear 19 to rotate clockwise to drive a second linkage column 21 to rotate, the construction waste is firstly crushed through a plurality of crushed pieces 32, then the wood waste is inserted to two sides to rotate and be transmitted through the rotation of a plurality of screening lugs 27, and the screening lugs 27 are buffered through a sponge plate 28 to reduce the damage to the screening lugs 27; when a card owner is positioned between the first linkage column 20 and the second linkage column 21, the screening lug 27 pushes the sponge plate 28 and the pressing plate 29 to enter the pressing cavity 31 for extrusion, liquid in the pressing cavity 31 enters the piston cavity 34 through the connecting channel 36 to push the piston plate 35 to drive the lug 33 to slide out for crushing clamped garbage, and the clamping blocks 30 on the two sides of the pressing plate 29 perform clamping resetting function.

S3: the centre gripping is saved, first linkage post 20 anticlockwise rotates and drives first rotation post 23 rotation through first linkage area 22 rotation, second linkage post 21 clockwise rotates and drives second rotation post 25 rotation through second linkage area 24, first rotation post 23, second rotate the post 25 and rotate and drive a plurality of T shape collude piece 40 roll-off and slip back and catch on two T shape grip blocks 41 of wood rubbish cooperation and extrude wood to the centre, rotate the conveying and enter into two storage bins 38 to wood rubbish and store.

S4: magnetic screening, building rubbish falls to the upper end of the magnetic conveying mechanism 43, the magnetic conveying mechanism 43 shakes and conveys the building rubbish evenly and then discharges, magnetic metal is attracted by the magnetic conveying mechanism 43 and conveyed above the magnetic metal storage cavity 45, and the magnetic metal is fixedly scraped through the scraping block 44 and falls into the magnetic metal storage cavity 45 to be stored.

S5: grinding and filtering, building rubbish falls down and grinds between four grinding group 46, four grinding rotation shafts 47 drive four grinding sleeves 48 in the rotation of collection box 10 and cooperate the rotation to grind the powder to glass rubbish, filter through filtering transport mechanism 50 and fall down to glass storage chamber 52 and store, grinding sleeve 48 rotates and drives flexible piece 49 and rotate and slide and shake to scatter building rubbish and dredge and filter the filtration pore on transport mechanism 50 and prevent stifled.

S6: and (4) classified storage, wherein the construction waste is ground by the four grinding groups 46 to classify the metal waste and the glass waste, the glass waste is ground into powder and falls into the glass storage cavity 52 for storage, and the metal waste is conveyed to the metal storage cavity 51 for storage by the filtering and conveying mechanism 50.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The building waste classification equipment and the classification method thereof comprise a recycling bin (10), and are characterized in that a crushing and screening part (11) is arranged at the upper end inside the recycling bin (10), a feeding funnel (15) is fixedly arranged at the upper end of the recycling bin (10), two feeding rotating plates (16) are rotatably arranged on two sides of the upper end of the feeding funnel (15), a first linkage column (20) is rotatably arranged on one side inside the recycling bin (10) below the feeding funnel (15), a first gear (18) is fixedly arranged at one end, penetrating through the recycling bin (10), of the first linkage column (20), a motor (17) is fixedly arranged at one end, far away from the first linkage column (20), of the first gear (18), a second linkage column (21) is rotatably arranged in the recycling bin (10) at one side, far away from the first linkage column (20), of the lower portion of the feeding funnel (15), and a second gear (19) is fixedly arranged at one end, penetrating through the recycling bin (10), of the second linkage column (21), the first gear (18) is meshed with the second gear (19), and two broken pieces (32) are fixedly arranged on the outer circumferential surfaces of the first linkage column (20) and the second linkage column (21).

2. The construction waste classification device and the classification method thereof according to claim 1, characterized in that: be equipped with two screening groups (26) on first linkage post (20) and second linkage post (21) outer circumferential surface, screening group (26) contain and are equipped with a plurality of screening lugs (27), a plurality of screening lugs (27) slide on first linkage post (20) and second linkage post (21), be equipped with two pressure chamber (31) in first linkage post (20) and second linkage post (21), a plurality of screening lugs (27) are equipped with a plurality of sponge boards (28) to pressing chamber (31) direction slip, a plurality of sponge boards (28) are kept away from screening lug (27) one end and are set firmly a plurality of clamp plates (29), a plurality of clamp plates (29) are equipped with a plurality of screens piece (30) with first linkage post (20), second linkage post (21) sliding connection.

3. The construction waste classification device and the classification method thereof according to claim 2, characterized in that: a plurality of lugs (33) are arranged in the plurality of broken fragments (32) in a sliding mode, a plurality of piston cavities (34) are arranged in the plurality of broken fragments (32), a plurality of piston plates (35) are arranged in the plurality of piston cavities (34) in a sealing and sliding mode, and a plurality of connecting channels (36) are arranged between the plurality of piston cavities (34) and the pressure cavity (31) in a connecting mode.

4. The construction waste classification device and the classification method thereof according to claim 3, characterized in that: clamping and separating components (12) are arranged below two sides of the crushing and screening component (11); centre gripping separation part (12) include first rotation post (23), first rotation post (23) are located first linkage post (20) and keep away from second linkage post (21) side below, linkage connection is equipped with first linkage area (22) between first rotation post (23) and first linkage post (20), first linkage post (20) side below is kept away from in second linkage post (21) is equipped with second rotation post (25) in collection box (10) internal rotation, linkage connection is equipped with second linkage area (24) between second rotation post (25) and second linkage post (21), collection box (10) both sides 1 has set firmly two storage tanks (38), first rotation post (23) and second are rotated the outer periphery of post (25) and are equipped with two separation group (37).

5. The construction waste classification device and the classification method thereof according to claim 4, wherein: the separation group (37) contains and is equipped with sleeve (39), sleeve (39) are kept away from first rotation post (23) direction and are slided and have set firmly a plurality of T shape and collude piece (40), T shape colludes piece (40) both sides and is slided on sleeve (39) and is equipped with two T shape grip blocks (41), it is equipped with hydraulic pressure chamber (42) to connect between two T shape grip blocks (41) and T shape collude piece (40).

6. The construction waste classification device and the classification method thereof according to claim 5, wherein: a conveying and screening part (13) is arranged below the clamping and separating part (12); conveying screening part (13) are including taking magnetism transport mechanism (43), take magnetism transport mechanism (43) to be located first linkage post (20) below, take magnetism transport mechanism (43) at collection box (10) internal rotation connection, take magnetism transport mechanism (43) to first rotation post (23) one side to have set firmly in collection box (10) and scrape piece (44), it is equipped with magnetic metal storage chamber (45) in collection box (10) to scrape piece (44) below.

7. The construction waste classification device and the classification method thereof according to claim 6, wherein: a grinding and classifying component (14) is arranged below the conveying and screening component (13); grinding classification component (14) is including filtering transport mechanism (50), it is located takes magnetism transport mechanism (43) below to filter transport mechanism (50), it connects to filter transport mechanism (50) at collection box (10) internal rotation, it is equipped with four grinding group (46) to filter transport mechanism (50) inside and top at collection box (10) internal rotation, grinding group (46) contain and are equipped with grinding axis of rotation (47), the cover is equipped with grinding sleeve (48) on grinding axis of rotation (47) outer periphery, grinding sleeve (48) circumferencial direction slides and is equipped with four telescopic block (49), telescopic block (49) and the filtration pore correspondence on filtering transport mechanism (50) are prevented stifled effect, filtering transport mechanism (50) keep away from magnetism metal storage chamber (45) direction and be equipped with metal storage chamber (51) in collection box (10), a glass storage cavity (52) is arranged below the filtering and conveying mechanism (50).