CN211679274U

CN211679274U - High-efficient generalized type rubbish recycle system

Info

Publication number: CN211679274U
Application number: CN202020211894.XU
Authority: CN
Inventors: 孙毅
Original assignee: Lishui Wangneng Environmental Protection Energy Co ltd
Current assignee: Lishui Wangneng Environmental Protection Energy Co ltd
Priority date: 2020-02-26
Filing date: 2020-02-26
Publication date: 2020-10-16
Anticipated expiration: 2030-02-26

Abstract

The utility model discloses a high-efficient generalized type rubbish recycle system, including dividing the workbin, the top of dividing the workbin is equipped with the rubbish feeder hopper, the inside of dividing the workbin is equipped with the pivot of connecting through the rotating electrical machines, be equipped with a plurality of electric magnetic stripe of cutting apart the workbin along the circumferencial direction in the pivot, the bottom of dividing the workbin is equipped with first blanking mouth, the below of first blanking mouth is equipped with the collection box, one side of dividing the workbin is equipped with the second blanking mouth, the second blanking mouth is connected with the screening case through the guide cylinder, be equipped with the screening board in the screening case, the below of screening board is equipped with the conveyer that the slope set up, the parcel has the magnetism cover in the pivot of conveyer lower extreme, the below that is located the conveyer in the screening case still is equipped with the guide plate of slope, the upper end of guide plate. The utility model has the characteristics of better ground classification separation metallics improves rubbish recycle ratio.

Description

High-efficient generalized type rubbish recycle system

Technical Field

The utility model relates to a rubbish recovery system, especially a high-efficient generalized type rubbish recycle system.

Background

The construction waste refers to the general term of dregs, waste concrete, waste bricks and stones and other wastes generated in the production activities of the construction industry such as demolition, construction, decoration and repair, and is classified according to the production source, the construction waste can be divided into engineering dregs, decoration waste, demolition waste, engineering slurry and the like, and the construction waste can be divided into dregs, concrete blocks, broken blocks of bricks and tiles, waste mortar, slurry, asphalt blocks, waste plastics, waste metals, waste bamboo and woods and the like according to the composition classification. The general treatment of the construction waste in the prior art is only to crush and screen the construction waste and then bury the construction waste, but the construction waste contains a lot of usable waste steel bars, waste iron wires, waste screws and other metal waste, and the waste metal materials in the construction waste are not well separated and recycled, so that a large amount of metal waste and heavy metal pollution are caused. Therefore, the existing garbage, particularly the construction garbage, has the problems of not better recycling the metal substances in the construction garbage and low recycling rate of the construction garbage,

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient generalized type rubbish recycle system. The utility model has the characteristics of better ground classification separation metallics improves rubbish recycle ratio.

The technical scheme of the utility model: the utility model provides a high-efficient generalized type rubbish recycle system, including dividing the workbin, the top of dividing the workbin is equipped with the rubbish feeder hopper, the inside of dividing the workbin is equipped with the pivot of connecting through the rotating electrical machines, be equipped with a plurality of electric magnetic stripe of dividing the workbin of cutting apart along the circumferencial direction in the pivot, the bottom of dividing the workbin is equipped with first blanking mouth, the below of first blanking mouth is equipped with the collection box, the one side of dividing the workbin is equipped with the second blanking mouth, the second blanking mouth is connected with the screening case through the guide cylinder, be equipped with the screening board in the screening case, the below of screening board is equipped with the conveyer that the slope set up, the parcel has the magnetism cover in the pivot of conveyer lower extreme, the below that is located the conveyer in the screening case still is equipped with the guide plate of.

In the high-efficient generalized type rubbish recycle system, the guide cylinder stretches into the screening case and passes through the screening plate, and through buffer spring swing joint, be equipped with vibrating motor on the screening plate between screening plate and the guide cylinder, be equipped with the screening net that corresponds with the guide cylinder on the screening plate.

In the efficient comprehensive garbage recycling system, the two side surfaces of the electric magnetic strip are respectively provided with the plurality of electromagnetic branches.

In the aforesaid high-efficient generalized type rubbish recycle system, the lateral part of branch workbin is equipped with first micro-gap switch and second micro-gap switch, and first micro-gap switch is located the left side of second blanking mouth, and second micro-gap switch is located the left side of rubbish feeder hopper, and first micro-gap switch and second micro-gap switch all are connected with the electromagnetism strip electricity, are used for controlling the break-make electricity condition of electric magnetic stripe.

In the high-efficient generalized type rubbish recycle system of the aforesaid, the inside of collection box is equipped with a pair of broken tooth and a plurality of crushing tooth, and two broken teeth are corresponding with the second blanking mouth, smash the tooth and lie in between the lateral wall of broken tooth and collection box, and the size of broken tooth is greater than the size of smashing the tooth.

In the efficient comprehensive garbage recycling system, the conveyer belt of the conveyer is provided with a plurality of partition plates.

Compared with the prior art, the utility model has the advantages that the construction waste is subjected to metal separation for many times, the separation effect is good, the non-magnetic waste is classified, different products obtained by separation can be recycled in the later period, the non-magnetic construction waste and large-volume magnetic metal substances in the construction waste are separated through the electric magnetic strip rotating in the material separating box, the large-volume magnetic metal substances enter the recycling box to be crushed and collected, the non-magnetic construction waste is screened at the vibrating screening plate through the guide cylinder, the magnetic construction waste with different volumes is separated through the screening plate, the construction waste with larger volume is left at the guide cylinder and can be used as building aggregate, the construction waste with smaller volume falls onto the conveyor, the metal separation is further carried out through the conveyor, the separated small-volume non-magnetic substances can be used as auxiliary materials of cement mortar or mortar, the separated magnetic metal substances with small volume enter a recovery box, so that the subsequent treatment and utilization are facilitated. Therefore, the utility model has the characteristics of better ground classification separation metallics improves rubbish recycle ratio.

Drawings

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

The labels in the figures are: 1. a material distributing box; 11. a garbage feed hopper; 2. a rotating shaft; 21. an electric magnetic strip; 22. an electromagnetic branch; 23. a first blanking port; 24. a second blanking port; 25. a first microswitch; 26. a second microswitch; 3. a recycling bin; 31. crushing teeth; 32. crushing teeth; 4. a material guide cylinder; 41. a screening box; 42. screening the plate; 421. a buffer spring; 422. a vibration motor; 423. screening a net; 43. a conveyor; 44. a magnetic sleeve; 45. a baffle; 46. a partition plate.

Detailed Description

The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.

Examples are given.

As shown in figure 1, a high-efficiency comprehensive garbage recycling system comprises a material distribution box 1, a garbage feeding hopper 11 is arranged at the top of the material distribution box 1, a rotating shaft 2 connected through a rotating motor is arranged inside the material distribution box 1, a plurality of electric magnetic strips 21 for dividing the material distribution box 1 are arranged on the rotating shaft 2 along the circumferential direction, the outer edges of the electric magnetic strips 21 are contacted with the inner wall of the material distribution box 1, a first blanking port 23 is arranged at the bottom of the material distribution box 1, a recycling box 3 is arranged below the first blanking port 23, a second blanking port 24 is arranged at one side of the material distribution box 1, the second blanking port 24 is connected with a screening box 41 through a material guide cylinder 4, a screening plate 42 is arranged in the screening box 41, a conveyer 43 which is obliquely arranged is arranged below the screening plate 42, a magnetic sleeve 44 is wrapped on the rotating shaft 2 at the lower end of the conveyer 43, an oblique guide plate 45 is also arranged below the conveyer 43 in the screening box 41, the upper end, the lower end of the deflector 45 extends into the recovery tank 3.

The conveyor 43 is prior art and therefore its construction and operation are not described in detail herein.

The material guide cylinder 4 extends into the screening box 41 and penetrates through the screening plate 42, the screening plate 42 is movably connected with the material guide cylinder 4 through a buffer spring 421, a vibration motor 422 is arranged on the screening plate 42, and a screening net 423 corresponding to the material guide cylinder 4 is arranged on the screening plate 42. The screening plate 42 is driven by the vibration motor 422,

and a plurality of electromagnetic supporting strips 22 are arranged on both side surfaces of the electric magnetic strip 21. The electromagnetic branch 22 can go deep into the garbage to adsorb more metal substances.

Divide the lateral part of workbin 1 to be equipped with first micro-gap switch 25 and second micro-gap switch 26, first micro-gap switch 25 is located the left side of second blanking mouth 24, and second micro-gap switch 26 is located the left side of rubbish feeder hopper 11, and first micro-gap switch 25 and second micro-gap switch 26 all are connected with electromagnetism strip 21 electricity for the on-off condition of control electricity magnetism strip 21. The microswitch is of the prior art and therefore the working principle and the structure are not explained in detail here.

The inside of collection box 3 is equipped with a pair of broken tooth 31 and a plurality of crushing tooth 32, and two broken teeth 31 are corresponding with second blanking mouth 24, smash tooth 32 and lie in between the lateral wall of broken tooth 31 and collection box 3, and the size of broken tooth 31 is greater than the size of smashing tooth 32. The structure of the crushing teeth 31 and the crushing teeth 32 are conventional and driven by conventional technical means, and thus will not be described in detail.

The conveyer belt of the conveyer 43 is provided with a plurality of partition plates 46. The garbage is separated and treated by the arranged separation plate, the amount of the garbage subjected to adsorption treatment at each time is small, and the effect of adsorbing and separating magnetic metal substances is improved.

The working process is as follows: the construction waste enters the material distribution box 1 from the waste feed hopper 11, the rotating motor drives the rotating shaft 2 and the electric magnetic strip 21 to rotate, the construction waste moves towards the second blanking port 24 along with the rotation of the electric magnetic strip 21, the electric magnetic strip 21 adsorbs magnetic metal substances in the construction waste while rotating, when the electric magnetic stripe 21 rotates to the second blanking port 24, the non-magnetic construction waste falls onto the screening plate 42 along the guide cylinder 4, the rest of the magnetic metal substance is attracted by the electromagnetic strip 21 and moves to the first blanking port 23, when the electromagnetic strip 21 rotates to contact with the first microswitch 25, the electromagnetic strip 21 is powered off and loses magnetism, the adsorbed magnetic metal substance enters the recycling bin 3 through the first blanking port 23, when the electromagnetic strip 21 rotates to be in contact with the second microswitch 26, the electromagnetic strip 21 is electrified to generate magnetism, and continues to be in contact with the garbage to adsorb magnetic metal substances in the garbage;

the non-magnetic construction waste entering the screening plate 42 from the material guide cylinder 4 is subjected to vibration screening of the screening plate 42, the construction waste with smaller particles falls onto the conveyor 43, and when the construction waste is conveyed to the magnetic sleeve 44 along with the conveying of the conveyor 43, fine metal substances which are not screened fall onto the guide plate 45 along with the rotation of the magnetic sleeve 44 and enter the recycling bin 3 along with the guide plate 45, and the rest non-magnetic construction waste with smaller particles falls into the screening bin 41;

enter into the magnetic metal material in the collection box 3 from first blanking mouth 23, wherein bulky material is broken through broken tooth 31, and small volume's material is broken through smashing tooth 32, and the less magnetic metal material of volume is collected to final collection box 3, and occupation space is little, the recycle in the later stage of being convenient for.

Claims

1. The utility model provides a high-efficient generalized type rubbish recycle system which characterized in that: comprises a material distribution box (1), a garbage feed hopper (11) is arranged at the top of the material distribution box (1), a rotating shaft (2) connected through a rotating motor is arranged inside the material distribution box (1), a plurality of electromagnetic strips (21) for dividing the material distribution box (1) are arranged on the rotating shaft (2) along the circumferential direction, a first blanking port (23) is arranged at the bottom of the material distribution box (1), a recovery box (3) is arranged below the first blanking port (23), a second blanking port (24) is arranged at one side of the material distribution box (1), the second blanking port (24) is connected with a screening box (41) through a material guide cylinder (4), a screening plate (42) is arranged in the screening box (41), a conveyer (43) which is obliquely arranged is arranged below the screening plate (42), a magnetic sleeve (44) is wrapped on the rotating shaft (2) at the lower end of the conveyer (43), and an oblique guide plate (45) is also arranged below the conveyer (43) in the screening box (, the upper end of the guide plate (45) is positioned below the magnetic sleeve (44), and the lower end of the guide plate (45) extends into the recovery box (3).

2. The efficient and comprehensive waste recycling system according to claim 1, wherein: the material guide cylinder (4) extends into the screening box (41) and penetrates through the screening plate (42), the screening plate (42) is movably connected with the material guide cylinder (4) through a buffer spring (421), a vibration motor (422) is arranged on the screening plate (42), and a screening net (423) corresponding to the material guide cylinder (4) is arranged on the screening plate (42).

3. The efficient and comprehensive waste recycling system according to claim 1, wherein: and a plurality of electromagnetic branch bars (22) are arranged on the two side surfaces of the electric magnetic strip (21).

4. The efficient and comprehensive waste recycling system according to claim 1, wherein: divide the lateral part of workbin (1) to be equipped with first micro-gap switch (25) and second micro-gap switch (26), first micro-gap switch (25) are located the left side of second blanking mouth (24), and second micro-gap switch (26) are located the left side of rubbish feeder hopper (11), and first micro-gap switch (25) and second micro-gap switch (26) all are connected with electric magnetic stripe (21) electricity for the break-make electricity condition of control electric magnetic stripe (21).

5. The efficient and comprehensive waste recycling system according to claim 1, wherein: the inside of collection box (3) is equipped with a pair of broken tooth (31) and a plurality of crushing tooth (32), and two broken tooth (31) are corresponding with second blanking mouth (24), smash tooth (32) and are located between the lateral wall of broken tooth (31) and collection box (3), and the size of broken tooth (31) is greater than the size of smashing tooth (32).

6. The efficient and comprehensive waste recycling system according to claim 1, wherein: and a plurality of partition plates (46) are arranged on the conveying belt of the conveyor (43).