CN211160166U - Incineration slag treatment integrated equipment - Google Patents

Abstract

The utility model belongs to an incineration residue treatment integrated device; the device comprises a truss chassis, wherein a feeding area, a processing and crushing area, a central control area, a sorting area, a grading area, a finished product area and a conveying area are sequentially arranged at the upper part of the truss chassis from left to right, a walking area is arranged at the bottom of the truss chassis, a feeder is arranged in the feeding area, an oversize outlet of the feeder is connected with a feed inlet of a counterattack crusher arranged in the processing and crushing area, a undersize outlet of the feeder is connected with a first belt conveyor in the conveying area, a discharge outlet of the first belt conveyor is connected with an ash and soil recovery pond, a discharge outlet of the counterattack crusher is connected with a second belt conveyor in the conveying area, a magnetic separator is arranged right above the second belt conveyor, and the magnetic separator is arranged in the sorting area through a rack; the integrated feeding, crushing, sorting, grading control and walking machine has the advantages of reasonable structural design, small occupied area, no field installation and capability of meeting the use function.

Description

Incineration slag treatment integrated equipment

Technical Field

The utility model belongs to an incineration residue treatment integrated equipment.

Background

The process of the incineration slag treatment is a fixed production line process which is commonly adopted at present and comprises feeding equipment, crushing equipment, sorting equipment, grading equipment, conveying equipment, central control and the like, wherein the production line has the advantages of large floor area, more equipment, long installation period and high cost, and the floor area of the equipment is the square meter with the length and the width =90.6m, 47.3m and 4285 m.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide an incineration residue treatment integrated equipment which integrates feeding, crushing, sorting, grading control and walking, has reasonable structural design and small occupied area, avoids field installation and can meet the use function.

The purpose of the utility model is realized like this: comprises a truss chassis, a feeding area, a processing and crushing area, a central control area, a sorting area, a grading area, a finished product area and a conveying area are sequentially arranged at the upper part of the truss chassis from left to right, a walking area is arranged at the bottom of the truss chassis, a feeder is arranged in the feeding area, an oversize outlet of the feeder is connected with a feed inlet of a counterattack crusher arranged in the processing and crushing area, a screen underflow outlet of the feeder is connected with a first belt conveyor in the conveying area, a discharge outlet of the first belt conveyor is connected with an ash and soil recovery pool, a discharge outlet of the counterattack crusher is connected with a second belt conveyor in the conveying area, a magnetic separator is arranged right above the second belt conveyor, the magnetic separator is arranged in the sorting area through a frame, a discharge outlet of the second belt conveyor is connected with a double-layer frequency sieve arranged in the grading area, a first screen underflow outlet of the double-layer frequency sieve is sequentially connected with a fifth belt conveyor and a first finished product material recovery pool in the finished product area, the second undersize material outlet of the double-layer complex frequency sieve is sequentially connected with the sixth belt conveyor and a second finished product material recovery tank in the finished product area, the oversize material outlet of the double-layer complex frequency sieve is respectively connected with the feed inlet of the impact crusher through the third belt conveyor and the fourth belt conveyor, the central control area is installed on the truss chassis, and the engine set is installed on the truss chassis.

Preferably, the feeder in the feeding area is externally wrapped with a rear bin plate and a side bin plate.

Preferably, the double-layer complex frequency screen in the grading area is connected with the truss chassis through a base, and the base is provided with a tension device.

Preferably, the tensioning device comprises a tensioning support, one end of the tensioning support is connected and fixed with the truss chassis, the other end of the tensioning support is hinged with one end of the pull rod through a first pin shaft, and the other end of the pull rod is hinged and fixed with the base through a second pin shaft.

Preferably, the pull rod is vertically connected with the tensioning support.

Preferably, the electric control module in the central control area is respectively connected with the feeding machine, the impact crusher, the magnetic separator, the double-layer complex frequency sieve, the engine unit, the first belt conveyor, the second belt conveyor, the third belt conveyor, the fourth belt conveyor, the fifth belt conveyor and the sixth belt conveyor through cables.

Preferably, a crawler chassis is arranged in the walking area and is driven by an engine unit.

Preferably, the discharge port of the magnetic separator is connected with a metal recovery tank.

The utility model discloses integrated to an equipment to the treatment facility in the fixed production line technology, very big reduction the quantity of equipment, length and central control area cable laying's length, area has been reduced, investment cost has been saved, the installation is exempted from in the scene, can come into use at any time, can transport at any time, convenient and fast, installation cost has been reduced, very big improvement burn the whole profitability of sediment, structural design is reasonable, area is little, exempt from the on-the-spot installation and can satisfy one kind of service function and collect the feed, smash, select separately, hierarchical control and walking advantage as an organic whole.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the conveying area of the present invention.

Fig. 3 is a schematic structural diagram of the feeding area of the present invention.

Fig. 4 is a schematic structural view of the crushing area of the present invention.

Fig. 5 is a schematic structural diagram of the sorting area of the present invention.

Fig. 6 is a schematic structural view of the tensioning device of the present invention.

Fig. 7 is a schematic structural diagram of the classification region of the present invention.

Fig. 8 is a schematic structural view of the walking area of the present invention.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described with reference to the accompanying drawings, in which like reference numerals refer to like parts in the drawings. For the sake of simplicity, only the parts related to the utility model are schematically shown in the drawings, and they do not represent the actual structure as a product.

As shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8, the utility model relates to an integrated incineration residue treatment device, which comprises a truss chassis 1, wherein the upper part of the truss chassis 1 is sequentially provided with a feeding area 2, a treatment crushing area 3, a central control area 4, a separation area 5, a classification area 6, a finished product area 7, a conveying area 8 and a walking area 9 at the bottom of the truss chassis 1 from left to right, a feeding machine 10 is arranged in the feeding area 1, an oversize outlet of the feeding machine 10 is connected with a feeding port 12 of a counterattack type crusher 11 arranged in the treatment crushing area 3, an undersize outlet of the feeding machine 10 is connected with a first belt conveyor 13 in the conveying area 8, a discharging port of the first belt conveyor 13 is connected with an ash and soil recycling tank 14, a discharging port 15 of the counterattack type crusher 11 is connected with a second belt conveyor 16 in the conveying area 8, a magnetic separator 17 is arranged right above the second belt conveyor 16, the magnetic separator 17 is installed in the separation area 5 through a rack 18, a discharge hole of the second belt conveyor 16 is connected with a double-layer complex frequency screen 19 arranged in the classification area 6, a first undersize outlet of the double-layer complex frequency screen 19 is sequentially connected with a fifth belt conveyor 20 and a first finished product recovery tank 21 in the finished product area 7, a second undersize outlet of the double-layer complex frequency screen 19 is sequentially connected with a sixth belt conveyor 22 and a second finished product recovery tank 23 in the finished product area 7, an oversize outlet of the double-layer complex frequency screen 19 is respectively connected with a feed inlet 12 of the impact crusher 11 through a third belt conveyor 24 and a fourth belt conveyor 25, the central control area 4 is installed on the truss chassis 1, and an engine unit 26 is installed on the truss chassis 1. The outer part of the feeder 10 in the feeding area 1 is wrapped with a rear bin plate 27 and a side bin plate 28. The double-layer complex frequency screen 19 in the grading area 6 is connected with the truss chassis 1 through a base 29, and a tension device 36 is arranged on the base 29. The tensioning device 36 comprises a tensioning support 30, one end of the tensioning support 30 is fixedly connected with the truss chassis 1, the other end of the tensioning support 30 is hinged with one end of a pull rod 34 through a first pin shaft 31, and the other end of the pull rod 34 is hinged and fixed with the base 29 through a second pin shaft 35. The pull rod 34 is vertically connected with the tensioning support 30. And an electric control module in the central control area 4 is respectively connected with the feeder 10, the impact crusher 11, the magnetic separator 17, the double-layer complex frequency screen 19, the engine unit 26, the first belt conveyor 13, the second belt conveyor 16, the third belt conveyor 24, the fourth belt conveyor 25, the fifth belt conveyor 20 and the sixth belt conveyor 22 through cables. A crawler chassis 32 is arranged in the walking area 9, and the crawler chassis 32 is driven by the engine unit 26. And a discharge hole of the magnetic separator 17 is connected with a metal recovery tank 33.

The utility model discloses a material loading district 2, handle and smash district 3, central control district 4, sorting district 5, classification district 6, finished product district 7 and delivery area 8 are installed on truss chassis 1 through integrated design, guarantee truss chassis 1 atress stable through the atress analysis, truss chassis 1's lower part and walking district 9 welded fastening, send command signal through central control district 4 of installing on truss chassis 1 frame, control the integrated equipment walking, stop, start, action such as shutdown, guarantee that whole incineration slag course accomplishes all processes in this integrated equipment, the ash and soil of clearing away, select separately and retrieve the metal, go out finished product material in grades.

The working principle of the utility model is as follows: opening a starting button of a central control area 4, starting the whole equipment, enabling the equipment to be in a working state, discharging materials from a loader to a feeding area 2, uniformly distributing the materials through a feeding machine 10 in the feeding area 2, screening the ash soil, conveying the ash soil into an ash soil recovery pool 14 through a first belt conveyor 13, distributing the materials on the screen of the feeding machine 10 to a counterattack type crusher 11 in a processing and crushing area 3 for crushing, conveying the crushed materials to the lower side of a magnetic separator 17 through a second belt conveyor 16 forwards to remove metals such as scrap iron and then conveying the materials to a double-layer counterattack type frequency sieve 19 for grading, and grading the materials into finished products, conveying first undersize materials of the double-layer counterattack type frequency sieve 19 into a first finished product recovery pool 21 through a fifth belt conveyor 20, conveying second undersize materials of the double-layer counterattack type sieve 19 into a second finished product recovery pool 23 through a sixth belt conveyor 22, and respectively conveying oversize material outlets of the double-layer counterattack type crusher 11 and a third belt conveyor 24 and a fourth belt conveyor 25 12 are connected and fed back into the impact crusher 11 to be crushed again to form a crushing and screening closed circulation system until finished materials are produced. After production is finished, a shutdown button is started to shut down the equipment, and then a walking button is started to control the crawler of the whole machine walking area 9 to walk.

The utility model discloses material loading district 2 comprises back bulkhead 27 and the welding of side bulkhead 28 feed bin, and the feed bin is installed and is constituteed the material loading district in the top of batcher 10.

The treatment and crushing area 3 of the utility model is composed of a feed inlet 12, a back-beating type crusher 11 and a discharge outlet 15,

the material in the feeding area 2 is uniformly distributed to a pre-screening section at the rear end of the feeder 10 through the feeder 10, is screened to remove small pieces of muck, and is conveyed to a muck recovery pool 14 through a first belt conveyor 13 in the conveying area 8; the pre-screened material is distributed to a reaction crusher 11 for crushing, and the crushed material falls onto a second belt conveyor 16 in the conveying area 8 through a discharge port 15.

The utility model discloses a sorting district 5 comprises magnet separator 17 and frame 18, magnet separator 17 hoist and mount the top of the second belt feeder 16 in conveying district 8, smash the district 3 crushing backs through material loading district 2 and processing when the material, the material is by the bold breakage to the fritter, under second belt feeder 16 in conveying district 8 carries magnet separator 17, the scrap iron that is mingled with in the bold material separates out, fall into metal recovery pond 33 in, all the other materials continue the screening in getting into double-deck multiple frequency sieve 19.

The utility model discloses a central control district 4 is a set of electric appliance cabinet, comprises the electrical control module of all equipment, is connected to every equipment through the cable to through opening and shutting down of control button control whole equipment.

The utility model discloses a classification district comprises classification district 6 by double-deck complex frequency sieve 19, base 29 and straining device 30. The double-layer frequency doubling screen 19 is installed on the base 29, the base 29 is fixed by the tensioning device 30, after sorting, materials are conveyed to the double-layer frequency doubling screen 19 through the second belt conveyor 16 in the conveying area 8 to be graded, the double-layer frequency doubling screen 19 is graded into 3 materials, first undersize materials of the double-layer frequency doubling screen 19 are conveyed into the first finished product material recovery tank 21 through the fifth belt conveyor 20, second undersize materials of the double-layer frequency doubling screen 19 are conveyed into the second finished product material recovery tank 23 through the sixth belt conveyor 22, and oversize materials, namely return materials, of the double-layer frequency doubling screen 19 are conveyed into the impact crusher 11 through the third belt conveyor 24 and the fourth belt conveyor 25 to be crushed again.

The utility model discloses a finished product district 7 comprises first finished product material recycle bin 21 and second finished product material recycle bin 23, is used for retrieving finished product material.

The utility model discloses a walking district 9 comprises truss chassis 1, engine unit 26 and track chassis 32, and 1 welding of truss chassis is on track chassis 32, and engine unit 26 is installed on truss chassis 1, and the button control track through on the central control district 4 walks forward, backward and turn.

The utility model discloses a conveying area 8 comprises 6 conveyer belts altogether by first belt feeder 13, second belt feeder 16, third belt feeder 24, fourth belt feeder 25, fifth belt feeder 20 and sixth belt feeder 22, and 6 conveyer belts are controlled it by the button on central control district 4 and are opened and close. The first belt conveyor 13 is a belt for conveying ash and residue soil, the second belt conveyor 16 is a belt for discharging of the impact crusher 11, the third belt conveyor 24 and the fourth belt conveyor 25 are two material returning belts and are responsible for continuously crushing and screening crushed and classified large materials which do not conform to the size to form a crushing and screening closed circulation system, the fifth belt conveyor 20 is a belt for conveying first undersize of the double-layer multi-frequency screen 19 to the first finished product material recovery tank 21, and the sixth belt conveyor 22 is a belt for conveying second undersize of the double-layer multi-frequency screen 19 to the second finished product material recovery tank 23.

The utility model discloses an area is only for length wide =19.8m 9.4m =186 square meter, has saved area greatly.

The above examples are only specific illustrations of feasible embodiments of the present invention, and they are not intended to limit the scope of the present invention, and all equivalent embodiments, modifications and alterations without departing from the technical spirit of the present invention are intended to be included in the scope of the present invention.

Claims (8)

1. The utility model provides an integrated equipment is handled to incineration residue, includes truss chassis (1), the upper portion of truss chassis (1) from left to right is equipped with material loading district (2), processing crushing district (3), central control district (4), sorting district (5), classification district (6), finished product district (7) and conveying area (8), the bottom of truss chassis (1) is equipped with walking district (9), its characterized in that in proper order: a feeding machine (10) is arranged in the feeding area (2), an oversize outlet of the feeding machine (10) is connected with a feeding hole (12) of an impact crusher (11) arranged in the processing and crushing area (3), a undersize outlet of the feeding machine (10) is connected with a first belt conveyor (13) in the conveying area (8), a discharging hole of the first belt conveyor (13) is connected with an ash and soil recycling pool (14), a discharging hole (15) of the impact crusher (11) is connected with a second belt conveyor (16) in the conveying area (8), a magnetic separator (17) is arranged right above the second belt conveyor (16), the magnetic separator (17) is arranged in the sorting area (5) through a rack (18), a discharging hole of the second belt conveyor (16) is connected with a double-layer multifrequency sieve (19) arranged in the sorting area (6), a first undersize outlet of the double-layer multifrequency sieve (19) is sequentially connected with a fifth belt conveyor (20) and a first finished product recycling pool (21) in the finished product area (7), the second undersize material outlet of the double-layer complex frequency sieve (19) is sequentially connected with a sixth belt conveyor (22) and a second finished product material recovery tank (23) in the finished product area (7), the oversize material outlet of the double-layer complex frequency sieve (19) is respectively connected with a feed inlet (12) of an impact crusher (11) through a third belt conveyor (24) and a fourth belt conveyor (25), a central control area (4) is installed on a truss chassis (1), and an engine unit (26) is installed on the truss chassis (1).

2. The integrated incineration slag treatment equipment according to claim 1, wherein: the outer part of the feeder (10) in the feeding area (2) is wrapped with a rear bin plate (27) and a side bin plate (28).

3. The integrated incineration slag treatment equipment according to claim 1, wherein: the double-layer complex frequency screen (19) in the grading area (6) is connected with the truss chassis (1) through a base (29), and a tension device (36) is arranged on the base (29).

4. The integrated incineration slag treatment equipment according to claim 3, wherein: the tensioning device (36) comprises a tensioning support (30), one end of the tensioning support (30) is fixedly connected with the truss chassis (1), the other end of the tensioning support (30) is hinged to one end of a pull rod (34) through a first pin shaft (31), and the other end of the pull rod (34) is hinged and fixed to the base (29) through a second pin shaft (35).

5. The integrated incineration slag treatment equipment according to claim 4, wherein: the pull rod (34) is vertically connected with the tensioning support (30).

6. The integrated incineration slag treatment equipment according to claim 1, wherein: and an electric control module in the central control area (4) is respectively connected with the feeder (10), the impact crusher (11), the magnetic separator (17), the double-layer complex frequency screen (19), the engine unit (26), the first belt conveyor (13), the second belt conveyor (16), the third belt conveyor (24), the fourth belt conveyor (25), the fifth belt conveyor (20) and the sixth belt conveyor (22) through cables.

7. The integrated incineration slag treatment equipment according to claim 1, wherein: a crawler chassis (32) is arranged in the walking area (9), and the crawler chassis (32) is driven by an engine unit (26).

8. The integrated incineration slag treatment equipment according to claim 1, wherein: and a discharge hole of the magnetic separator (17) is connected with a metal recovery pool (33).

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