CN113600590A - Industrial solid waste pretreatment system - Google Patents

Abstract

The invention relates to the field of garbage treatment, in particular to an industrial solid waste pretreatment system. The invention is realized by the following technical scheme: an industrial solid waste pretreatment system comprises a solid waste cutting device, a conveying device and a metal removing device. The solid waste cutting device comprises a cutter for cutting waste materials; the conveying device comprises a first conveying belt, a bulk material part and a second conveying belt; the metal removing device comprises a non-magnetic metal detector, a magnetic absorption part, a diameter changing part and the like. The fodder chopper is used for chopping strip waste into single waste single bags, the bulk cargo device is used for scattering the waste single bags, the nonmetal detector and the diameter-changing part are used in combination for sorting nonmagnetic metal, and the magnetic part is used for sorting magnetic metal. The object of the invention is to remove metal entangled in solid waste and to prevent the problem of long scrap clogging the equipment.

Description

Industrial solid waste pretreatment system

Technical Field

The invention relates to the field of garbage treatment, in particular to an industrial solid waste pretreatment system.

Background

Industrial waste refers to waste discharged during the production process of machinery, light industry and other industries. The combustible waste mainly comprises textile cloth, leather, sponge and the like, is complex in shape and different in length, the length of the long waste after being wound can reach hundreds of meters, and the long waste is entrained with metal sundries which need to be sorted and recycled for secondary utilization.

In the prior art, when the solid waste of the garbage is treated, the metal in the solid waste is usually sorted by using the modes of magnetic separation, large-scale manual sorting and the like, and the remaining solid waste is subjected to crushing treatment. For example, chinese patent publication No. CN112076860A discloses a waste disposal device capable of recycling metals, which includes a box, a crushing box, and a magnetic adsorption roller. The garbage is poured into the box body, metal in the garbage is adsorbed by the magnetic adsorption roller in the falling process, the rest garbage enters the stirring box, a plurality of rotatable stirring cutters are arranged in the stirring box, gaps exist among the cutters, and the cutters drive the garbage to rotate and stir. However, the system has the following defects in use: contain the rectangular wastes material of winding in the rubbish, including the metal winding, the metal suction including the unable parcel of magnetic adsorption roller leads to the metal to leak to choose, and the metal that leaks to choose gets into to stir garrulous case and when stirring garrulous operation together, can destroy and stir garrulous blade, and replacement cost is big after the blade damage, the cycle length will bring huge loss. In addition, there is the clearance between the stirring up stage property, has the dead angle when rotating the stirring up rubbish, can't be with some rectangular rubbish complete breakage, and the follow-up winding of rectangular rubbish is useless with other solid easily and blocks up equipment, causes the shutdown problem.

Disclosure of Invention

The invention aims to provide an industrial solid waste pretreatment system, which solves the problems of effectively removing metal wound in solid waste and preventing long-strip waste from blocking equipment.

The technical purpose of the invention is realized by the following technical scheme:

the utility model provides an industry is useless pretreatment systems admittedly, contains useless hand hay cutter absolutely admittedly, useless hand hay cutter absolutely admittedly contains the hand hay cutter that is used for cutting rectangular waste material into single package of waste material, and this kind of industry is useless pretreatment systems admittedly still contains the conveyer that is used for conveying the single package of waste material and is used for getting rid of metal material's among the single package of waste material metal device that gets rid of, get rid of metal device and contain to install conveyer is used for adsorbing magnetic attraction part of magnetic metal, is used for surveying the non-magnetic metal detection instrument of non-magnetic metal and when the non-magnetic metal detection instrument detects when having non-magnetic metal in the single package of waste material, changes the position that drops of waste material single package from non-magnetic debris conveyer belt to the part that changes the footpath of metal debris conveyer belt.

Therefore, in the technical scheme, the solid waste cutting device limits the fodder chopper as a cutting tool, and the fodder chopper can be a hydraulic fodder chopper, a pneumatic fodder chopper and the like. This is because the guillotine, unlike the ordinary rotary cutter, is a heavy cutter in industrial applications, without the presence of gaps between small blades, making the cutting of long scraps more sufficient. Under the action of the solid waste cutting device, the strip waste is cut into single waste bags meeting the requirements. The individual scrap pieces are then transported by a conveyor to a de-metallizing device.

In the metal removing apparatus, a design for double removing processing of a magnetic metal and a non-magnetic metal is adopted. Specifically, the individual waste material single packages are conveyed by the conveying device. A magnetic part, such as a magnetic roller, is arranged at the end of the first conveying device, namely the discharge end. When the waste material list package conveys here, other waste materials drop naturally, fall into nonmetal debris conveyer belt, and magnetic metal wherein receives magnetic attraction influence, does not drop, continues to carry along with conveyer gyration is carried, carries the region of keeping away from magnetism and inhale the part, and self gravity is greater than magnetic attraction, falls naturally, falls into metal debris conveyer belt.

Further, in the present case, there is also a treatment for the non-magnetic metal. The non-magnetic metal detector is arranged in the scheme, a single waste bag conveyed on the conveying device is detected, and if non-magnetic metal exists in the single waste bag, the single waste bag can be detected by the non-magnetic metal detector. The detector is a mature product which is commercially available and can be directly selected by a person skilled in the art, such as a Weintai MD-300 non-magnetic metal detector. At this time, if a waste sheet contains a non-magnetic metal, the waste sheet is detected, and the non-magnetic metal detector sends out a signal. The tail end of the conveying device is provided with a diameter changing part, namely, the traveling path of the waste single bag is changed. In the present case, a discharge flap can be used. When non-magnetic metal is detected, the discharging turning plate is turned over, and the falling path of the single waste bag is changed from falling to the non-metal sundry conveying belt to falling to the metal sundry conveying belt.

Preferably, the diameter-changing member includes a flap and a rotating shaft, and the flap rotates around the rotating shaft.

Therefore, when the turning plate in the diameter changing component does not deflect, the non-metal sundry conveying belt is arranged below the turning plate, and the waste materials fall to the non-metal sundry conveying belt after leaving from the discharge end of the second conveying belt; the non-magnetic metal detector sends out a signal after detecting the non-magnetic metal, the turning plate immediately deflects a certain position towards the discharge end of the second conveying belt and then is fixed, and after deflection, the metal sundries conveying belt is arranged below the bottommost end of the turning plate, so that waste materials with the non-magnetic metal fall to the turning plate after falling from the discharge end of the second conveying belt, and then fall to the metal sundries conveying belt below along the turning plate.

Preferably, the conveying device comprises a first conveying belt and a second conveying belt forward in the conveying direction, and the conveying speed of the second conveying belt is faster than that of the first conveying belt.

Therefore, the single waste bag cut by the guillotine falls into the first conveying belt and then is conveyed to the second conveying belt. The second conveyer belt speed is very fast for the single package of waste material can not appear a plurality of single packages of waste material and overlap the condition after the first conveyer belt that drops to very fast second conveyer belt from slow, and in addition, the single package of waste material is under the drive of very fast second conveyer belt, and inner structure becomes loose, does benefit to metal waste and nonmetal waste separation.

Preferably, the magnetic suction component is a magnetic suction cylinder and is arranged at the discharge end of the second conveying belt.

From this, magnetism is inhaled the part setting and is carried between the plane about the second conveyer belt discharge end, by the conveyer belt parcel in inside, make near second conveyer belt discharge end have a magnetic field, when magnetic metal removed the discharge end, receive the magnetic attraction who is greater than self gravity, can adsorb on near the conveyer belt of discharge end, do not drop, carry along with the conveyer belt gyration, magnetic metal is transported to discharge end below and carries the plane, keep away from the discharge end gradually and inhale the part promptly, the magnetic attraction that receives is less than self gravity, just drop to the metal debris conveyer belt of below. The magnetic suction component is arranged on the upper conveying plane and the lower conveying plane of the discharge end of the second conveying belt, so that the space occupied by the system is saved.

Preferably, the conveyor includes a bulk material member disposed between the first conveyor belt and the second conveyor belt.

From this, set up the bulk cargo part that is used for breaking up single package of waste material between first conveyer belt and second conveyer belt for single package of waste material falls to the bulk cargo part when dropping from first conveyer belt discharge end, and the operation is broken up to single package of waste material to the bulk cargo part, and the waste material after breaking up directly falls into the second conveyer belt. The waste material separation of the waste material list package inside of handling is broken up to the bulk cargo part, and the interval increases, in follow-up metal device of getting rid of, the magnetic metal in the waste material of breaking up is inhaled the part absorption by magnetism more easily, increases metal sorting rate.

Preferably, the bulk material member includes a central shaft and a kickoff blade fixed to the central shaft.

From this for the single package of waste material falls back on the bulk cargo part, dials the material blade and inserts the single package of waste material, and the cylinder is rotatory simultaneously, drags the single package of waste material to scatter, increases the waste material interval. In the present case, bulk cargo part position is adjustable, and the distance that moves in the horizontal direction after falling from first conveyer belt is different according to the variety of waste material, characteristic and bed of material thickness difference, therefore bulk cargo part's position needs adjust according to actual demand. The central shaft of the bulk material component can be fixed on the fixed bearing seats at different positions so as to achieve the function of adjusting the position of the bulk material component.

Preferably, the first conveyor belt and the second conveyor belt are both inclined, and the inclination directions are both gradually increased in height forward in the conveying direction.

From this, first conveyer belt feed end is the bottom, receives the single package of waste material that the hand hay cutter was cut off, and first conveyer belt top is the discharge end, falls to the bulk cargo device after dropping the single package of waste material from the discharge end, and the waste material after the bulk cargo device is broken up falls to second conveyer belt transport plane. The mode that the conveyer belt set up towards the direction of transfer slope makes system space utilization more reasonable, saves space.

Preferably, the solid waste cutting device comprises a material pushing part for pushing the waste material to the guillotine and a feeding conveyer belt for conveying the waste material to the material pushing part.

Therefore, the material pushing component is used for pushing the waste materials to the position of the guillotine, and the feeding conveying belt is used for conveying the waste materials to the material pushing component. In the present case, it can be hydraulic pusher to push away the material part, pushes away material part, hand hay cutter and pay-off conveyer belt and all is connected with control system, and this control system can adopt current mature technique: a PLC control cabinet or an electric interlocking cabinet, in particular to a Siemens S7-200PLC control box which is available on the market. In the solid waste cutting device, packed untreated solid waste is placed on a feeding conveying belt at fixed intervals, a material pushing component sends a signal instruction of material shortage, and the feeding conveying belt acts once after receiving a signal to send a package to the material pushing component; the material pushing component pushes materials in the direction of the guillotine, one pack of materials is divided into a plurality of times to be pushed into the guillotine, and the action of cutting up and down is completed once the guillotine is pushed once, so that automatic material supplementing, material pushing and material chopping are realized.

Preferably, the solid waste cutting device comprises a sliding chamber, an opening at one end of the sliding chamber is communicated with the material pushing component, an opening at the other end of the sliding chamber is communicated with the guillotine, and the sliding chamber is communicated with the feeding conveyer belt.

Therefore, if a common conveying plane is communicated with the pushing component, the guillotine and the feeding conveying belt, the waste materials can fall off the conveying plane in the moving process of the open conveying plane because the shape of the waste materials is not fixed. Therefore, the sliding chamber with the openings at two ends and one side surface and the airtight rest surfaces is adopted, so that the waste is prevented from falling in the conveying process of the solid waste cutting device, and the production efficiency is improved.

In conclusion, the invention has the following beneficial effects:

1. the chopping knife is arranged, the strip solid waste can be chopped into a plurality of discontinuous waste single packages, and the problem of production stop caused by equipment blockage due to incomplete chopping of strip waste is prevented.

2. The non-magnetic metal detector is used for detecting non-magnetic metal, and the diameter changing component is used for changing a falling path of the non-magnetic metal.

3. Be provided with magnetism and inhale the part, directly adsorb the magnetic metal on the second conveyer belt, make it drop to the metal debris conveyer belt, prevent that follow-up metal from leaking to choose to destroy the equipment of smashing, promote the metal rate of recovery.

4. Be provided with bulk cargo part, the waste material that will be cut off is further broken up, increases the interval between the waste material, the follow-up letter sorting metal of being convenient for.

5. The first conveying belt and the second conveying belt are arranged, the conveying speed of the second conveying belt is higher than that of the first conveying belt, the distance between the waste materials is increased by utilizing the speed difference of the conveying belts, the metal sorting rate is improved, and the metal waste materials are prevented from damaging follow-up equipment.

Description of the drawings:

FIG. 1 is a schematic diagram of example 1;

FIG. 2 is a schematic view of a solid waste chopping device;

FIG. 3 is a schematic view of a conveyor;

FIG. 4 is a schematic view of a metal removal device.

In the figure:

1. the device comprises a solid waste cutting device 11, a material pushing component 12, a guillotine 13, a feeding conveyer belt 14, a sliding chamber 2, a conveying device 21, a first conveyer belt 22, a bulk material component 23, a second conveyer belt 3, a metal removing device 31, a non-magnetic metal detector 32, a magnetic suction component 33, a diameter changing component 34, a metal impurity conveyer belt 35 and a non-metal impurity conveyer belt.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Embodiment 1, as shown in fig. 1, an industrial solid waste pretreatment system comprises a solid waste cutting device 1, a conveying device 2 and a metal removing device 3;

the solid waste cutting device 1 shown in fig. 2 comprises a material pushing component 11, a guillotine 12, a feeding conveyer belt 13 and a sliding chamber 14; the pushing component 11 is communicated with an opening at one end of the sliding chamber 14, the guillotine 12 is communicated with an opening at the other end of the sliding chamber 14, and the feeding conveyer belt 13 is communicated with an opening at one side of the sliding chamber 14; the feeding conveyer belt 13 conveys the waste to the pushing component 11, and the pushing component 11 pushes the waste to the guillotine 12 along the cavity of the sliding chamber 14; the guillotine 12 chops the waste into individual waste sheets.

The transfer device 2 shown in fig. 3 comprises a first conveyor belt 21, a bulk material member 22 and a second conveyor belt 23 in this order forward in the conveying direction. The first conveying belt 21 and the second conveying belt 23 are both obliquely arranged, the oblique directions are forward heights gradually increased according to the conveying direction, and the transmission speed of the second conveying belt 23 is higher than that of the first conveying belt 21. The bulk material unit 22 includes a central shaft 221 and a material-pulling blade 222 fixed to the central shaft 221, and is disposed between the first conveyor belt 21 and the second conveyor belt 23, specifically, near the discharging end of the first conveyor belt 21. First conveyer belt 21 bottom and hand hay cutter 12 intercommunication receive behind the hand hay cutter 12 hand hay cutter's the disconnected waste material list package and carry the waste material list package forward to bulk cargo part 22, and bulk cargo part 22 breaks up the waste material list package, increases the interval of waste material, and the waste material after breaking up drops to the transport plane of bulk cargo part 22 below second conveyer belt 23, is carried to remove metal device 3 by second conveyer belt 23.

The metal removing device 3 shown in fig. 4 includes a non-magnetic metal detector 31 disposed on the second conveyor belt 23, a magnetic attraction component 32 disposed at the discharge end of the second conveyor belt 23 and wrapped by the upper and lower conveyor belts at the discharge end, a diameter-changing component 33 disposed at the right side of the second conveyor belt 23 and close to the discharge end of the second conveyor belt 23, a metal impurity conveyor belt 34 disposed below the second conveyor belt 23 and having the discharge end of the second conveyor belt 23 at the upper right side thereof, and a non-metal impurity conveyor belt 35 disposed below the diameter-changing component 33, wherein the non-metal impurity conveyor belt 35 is disposed at the right side of the metal impurity conveyor belt 34 in the figure.

The diameter-changing member 33 includes a flap 331 and a rotation shaft 332. When the diameter-changing part 33 does not receive the signal of the non-magnetic metal detector 31, the turning plate 331 does not rotate, vertically faces downwards, and the non-metal sundry conveying belt 35 is arranged below the turning plate; when receiving the signal of the non-magnetic metal detector 31, the turning plate 331 is fixed after deflecting a certain angle towards the discharge end of the second conveyor belt 23, and at this time, the metal impurity conveyor belt 34 is arranged below the bottommost end of the turning plate 331.

When the waste materials are transported to the position of the non-magnetic metal detector 31 on the second conveyor belt 23, if the waste materials contain the non-magnetic metal waste materials, the non-magnetic metal detector 31 sends a signal to the diameter-changing part 33, the diameter-changing part 33 immediately deflects the turning plate 331 to the discharge end of the second conveyor belt 23 by a certain angle, the metal sundry conveyor belt 34 is arranged below the bottommost end of the deflected turning plate 331, and the waste materials fall to the turning plate 331 after falling from the discharge end of the second conveyor belt 23 and fall to the metal sundry conveyor belt 34 below along the turning plate 331;

if the waste materials contain magnetic metal waste materials, the magnetic absorption part 32 is arranged between the upper conveying plane and the lower conveying plane of the discharge end of the second conveying belt 23 and is wrapped inside the conveying belt, so that a magnetic field is formed near the discharge end of the second conveying belt 23, when the magnetic metal moves to the discharge end, the magnetic metal is absorbed on the conveying belt near the discharge end and does not fall off, the magnetic metal is conveyed to the conveying plane below the second conveying belt 23 along with the rotary conveying of the conveying belt, the magnetic metal gradually keeps away from the discharge end, namely the magnetic absorption part 32 is kept away from, and the magnetic absorption force is smaller than the self gravity, so that the magnetic metal waste materials fall off to the metal sundries conveying belt 34 below;

the non-metal scrap on the second conveyor belt 23 falls to the farther non-metal sundries conveyor belt 35 at the discharge end of the second conveyor belt 23 due to inertia.

Claims (9)

1. An industrial solid waste pretreatment system is characterized by comprising a solid waste cutting device (1), the solid waste cutting device (1) comprises a cutter (12) for cutting strip waste into single waste bags, the industrial solid waste pretreatment system also comprises a conveying device (2) used for conveying the waste single bag and a metal removing device (3) used for removing the metal materials in the waste single bag, the metal removing device (3) comprises a magnetic attraction component (32) which is arranged on the conveying device (2) and is used for attracting magnetic metal, a non-magnetic metal detector (31) used for detecting non-magnetic metal, and when the non-magnetic metal detector (31) detects that the non-magnetic metal exists in the waste single bag, the falling position of the single scrap pack is changed from the non-metal sundries conveying belt (35) to a diameter-changing part (33) of the metal sundries conveying belt (34).

2. The industrial solid waste pretreatment system of claim 1, wherein the diameter-changing member (33) comprises a flap (331) and a rotation shaft (332), the flap (331) rotates around the rotation shaft (332).

3. The industrial solid waste pretreatment system of claim 1, wherein the conveyor (2) comprises a first conveyor belt (21) and a second conveyor belt (23) in sequence in a forward direction of transport, the second conveyor belt (23) having a faster transport speed than the first conveyor belt (21).

4. The system of claim 3, wherein the magnetic attraction member (32) is a magnetic attraction cylinder disposed at the discharge end of the second conveyor belt (23).

5. An industrial solid waste pretreatment system as set forth in claim 3, characterized in that said conveyor (2) comprises bulk material members (22) disposed between said first conveyor belt (21) and said second conveyor belt (23).

6. The system of claim 5, wherein the bulk material component (22) comprises a central shaft (221) and a material-shifting blade (222) fixed to the central shaft (221).

7. The industrial solid waste pretreatment system of claim 3, wherein the first conveyor belt (21) and the second conveyor belt (23) are inclined in such a manner that the inclination direction is gradually increased toward the front in the conveying direction.

8. The industrial solid waste pretreatment system of claim 1, wherein the solid waste cutting device (1) comprises a material pushing component (11) for pushing waste material to the guillotine (12) and a feeding conveyor belt (13) for conveying the waste material to the material pushing component.

9. The industrial solid waste pretreatment system of claim 8, wherein the solid waste cutting device (1) comprises a sliding chamber (14), one end of the sliding chamber (14) is open and communicated with the pushing component (11), the other end of the sliding chamber (14) is open and communicated with the guillotine (12), and the sliding chamber (14) is communicated with the feeding conveyer belt (13).

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