CN114633508A - Waste recovery system - Google Patents

Abstract

The invention relates to the technical field of automobile manufacturing, and particularly provides a waste recovery system. In order to solve the problem that stamping waste materials need to be frequently transported in the existing automobile production, the waste material recovery system comprises a waste material conveyor, a packing machine, a block conveyor, a guide chute and a guide platform, wherein the discharge end of the waste material conveyor is close to the feeding opening of the guide chute, the guide chute is arranged to be capable of being turned left and right, the discharge opening of the guide chute is close to the feeding end of the packing machine when the guide chute is turned to one side, the discharge opening of the guide chute is close to a parking space of a transport vehicle when the guide chute is turned to the other side, the discharge end of the packing machine is close to the feeding end of the block conveyor, and the block conveyor conveys the packed waste blocks to the guide platform. Through set up the baling press in waste recovery system, directly pack into the package piece with the waste material, carry to the automatic vanning of guide platform through a package piece conveyer, reducible manual intervention and transportation number of times to keep the function of direct loading, promote the recovery benefit.

Description

Waste recovery system

Technical Field

The invention relates to the technical field of automobile manufacturing, and particularly provides a waste recovery system.

Background

In the automobile manufacturing process, the part shaping of white automobile body is accomplished by the punching press mostly, the part is when punching press production, the sheet material blanking can produce a large amount of leftover bits, traditional processing mode is that the waste material transmits to the waste material room through the waste material line in the pit, shipment by the commodity circulation vehicle in the waste material room, reach storage warehouse and pack in transporting to the baling press by the manual work, the commodity circulation that needs frequent commodity circulation to transport and manual intervention in this operational mode, and the waste material of various materials mixes together easily, influence waste recycling's benefit, it is more expensive if introduce new equipment and optimize the cost.

Accordingly, there is a need in the art for a new scrap recycle to address the problem of the need for frequent diversion of stamping scrap in existing automotive production.

Disclosure of Invention

The invention aims to solve the technical problem that the stamping waste needs to be frequently transported in the existing automobile production.

In a first aspect, the invention provides a waste recovery system, which comprises a waste conveyor, a packing machine, a block conveyor, a guide chute and a guide table, wherein the discharge end of the waste conveyor is close to the feed inlet of the guide chute, the guide chute is arranged to be capable of being turned left and right, the discharge outlet of the guide chute is close to the feed end of the packing machine when the guide chute is turned to one side, the discharge outlet of the guide chute is close to a parking space of a transport vehicle when the guide chute is turned to the other side, the discharge end of the packing machine is close to the feed end of the block conveyor, and the block conveyor conveys packed waste blocks to the guide table.

In a preferred technical solution of the above waste recycling system, the waste recycling system further includes a buffer hopper disposed between the discharge port of the guide chute and the parking space of the transport vehicle.

In a preferred technical solution of the above waste recycling system, the waste recycling system further includes an off-line conveyor disposed between the discharge port of the material guide chute and the buffer hopper.

In the preferable technical scheme of the waste recovery system, the material guiding table comprises a support, and a first motor, a transverse material guiding roller, a second motor, a longitudinal conveying chain and a lifting mechanism which are arranged on the support, wherein the first motor is in transmission connection with the transverse material guiding roller, the lifting mechanism is arranged below the transverse material guiding roller, so that the transverse guide roller can be lifted up and down, the second motor is in transmission connection with the longitudinal conveying chain through a chain wheel, the chain wheel is rotatably arranged on the bracket, the transverse material guide rollers are arranged in parallel, the longitudinal conveying chain is positioned in gaps among the transverse guide rollers, one end of the longitudinal conveying chain is close to the discharge end of the block wrapping conveyor, so that the height of the transverse guide roller is lower than that of the longitudinal conveying chain when the longitudinal conveying chain conveys the waste package blocks; when the transverse guide roller stacks the waste package blocks towards two sides, the height of the transverse guide roller is higher than that of the longitudinal conveying chain.

In a preferred technical scheme of the waste recovery system, a fixing baffle is arranged at one end of the support, which is far away from the block packing conveyor.

In the preferable technical scheme of the waste recovery system, material racks are further arranged on the two transverse sides of the material guide table.

In the preferable technical scheme of the waste recovery system, the waste recovery system further comprises a waste room, the waste conveyor, the packing machine, the guide chute, the buffer hopper and the off-line conveyor are arranged in the waste room, the guide platform is arranged outside the waste room, and the package block conveyor is arranged between the packing machine and the guide platform.

In the preferable technical scheme of the waste recovery system, an intermediate layer is arranged between the top layer of the waste room and the ground, the waste conveyor is fixed on the top layer, the guide chute and the buffer hopper are fixed between the top layer and the intermediate layer, the off-line conveyor is fixed on the intermediate layer, and the block conveyor and the packing machine are fixed on the ground.

In a preferred technical solution of the above waste recycling system, a capacity sensor is provided in the buffer hopper.

In the preferable technical scheme of the waste recovery system, the waste recovery system further comprises an auxiliary waste conveyor, the auxiliary waste conveyor and the waste conveyor are arranged side by side, and the discharge end of the auxiliary waste conveyor is close to the feeding port of the guide chute.

As can be appreciated by those skilled in the art, the waste recycling system of the present invention includes a waste conveyor, a baling press, a bale conveyor, a material guide chute and a material guide table, wherein a discharge end of the waste conveyor is close to a material inlet of the material guide chute, the material guide chute is configured to be capable of left-right turning, a discharge port of the material guide chute is close to a material inlet of the baling press when the material guide chute is turned to one side, a discharge port of the material guide chute is close to a parking space of a transportation vehicle when the material guide chute is turned to the other side, a discharge end of the baling press is close to a material inlet of the bale conveyor, and the bale conveyor conveys baled waste bales to the material guide table.

Under the condition of adopting the technical scheme, the waste recovery system conveys the stamping waste in the automobile manufacturing process into the guide chute through the waste conveyor, when the packing machine normally operates, the guide chute is turned to one side close to the packing machine so as to pour the waste into the packing machine for packing, and when the packing machine is damaged and needs maintenance, the guide chute is turned to one side close to the parking space of the transport vehicle so as to pour the waste into the transport vehicle, so that the waste recovery line can maintain the packing machine under the condition of normal operation. Furthermore, the baling press extrudees the waste material into waste material package piece, and on the waste material package piece was sent into a packet piece conveyer by the discharge end of baling press, packet piece conveyer carried waste material package piece to the guide platform, and the guide platform is with waste material package piece guide to the both sides of guide platform to pack or pile up. The waste recycling line integrally arranges and optimizes the existing waste recycling line, waste is directly packaged into the package blocks with higher density and regular shape by arranging the online automatic packaging machine in the waste recycling system on the basis of not dismantling the original waste conveyor, the waste package blocks are conveyed to the material guide platform by the package block conveyor for automatic boxing, each waste package block can automatically generate an information label according to production information to ensure that the materials of various package blocks are classified clearly, and the waste materials with different materials are prevented from being mixed together. Reducible manual intervention in waste material transmission packing process, the package piece transportation can increase substantially the bicycle load capacity than bulk cargo transportation, reduces the commodity circulation and transports the number of times, simultaneously, carries out the off-line transformation on former platform, remains the function of direct loading, and the operation mode is more nimble, and the cost also has the reduction in whole newly-designed scheme relatively to realize the online packing of waste material, categorised recovery's purpose, and then promote waste recycling's benefit. Meanwhile, the invention also considers that when the packaging machine is stopped, the guide chute is set to be reversible so as not to influence the waste recovery work, and the waste is poured into different positions by overturning the guide chute in different directions, thereby reducing the influence of the stop of the packaging machine or the block conveyor on the whole waste recovery system.

Drawings

Preferred embodiments of the present invention are described below with reference to the accompanying drawings, in which:

FIG. 1 is a schematic illustration of a waste recovery line in the prior art;

FIG. 2 is a schematic front view of the waste recovery system of the present invention;

FIG. 3 is a schematic top view of the waste recovery system of the present invention;

FIG. 4 is a front view of a material guide table of the scrap recycling system of the present invention;

FIG. 5 is a schematic top view of a material guide table of the scrap recycling system of the present invention;

FIG. 6 is a schematic view of the conveying state of the longitudinal conveying chain of the material guide table of the present invention;

fig. 7 is a schematic view showing a conveying state of the lateral guide rollers of the guide table of the present invention.

List of reference numerals:

1. a waste conveyor; 2. a waste house; 3. a material guide chute; 4. a baling machine; 5. an off-line conveyor; 6. a buffer hopper; 7. a transport vehicle; 8. a bale conveyor; 9. a material guiding platform; 91. a support; 92. a transverse guide roller; 93. a longitudinal conveyor chain; 94. a lifting mechanism; 95. a first motor; 96. a second motor; 97. fixing a baffle plate; 10. and a material rest.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention. And can be adjusted as needed by those skilled in the art to suit particular applications. For example, although the present application is described in connection with an automotive scrap recycling line, this is not intended to be limiting and the scrap recycling system of the present invention may be applied to other lines requiring scrap recycling.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be a mechanical connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1, in the prior art, the waste materials generated by stamping in the automobile production are conveyed to a transport vehicle 7 through a waste material conveyor 1, and then are frequently transported by the transport vehicle 7 and packed in different places, so that the labor cost and the transport cost are both greatly increased, and the waste material treatment speed is slow due to the fact that the frequent transportation consumes long time, and the waste materials are often jammed at a discharge port and cannot be treated in time.

As shown in fig. 2, in order to solve the problem that the stamping waste in the existing automobile production needs to be frequently transferred, the waste recycling system of the invention comprises a waste conveyor 1, a packing machine 4, a block conveyor 8, a material guide chute 3 and a material guide table 9, wherein the discharge end of the waste conveyor 1 is close to the material inlet of the material guide chute 3, the material guide chute 3 is arranged to be capable of being turned left and right, the discharge port of the material guide chute 3 is close to the material inlet of the packing machine 4 when the material guide chute 3 is turned to one side, the discharge port of the material guide chute 3 is close to the parking space of a transport vehicle when the material guide chute 3 is turned to the other side, the discharge end of the packing machine 4 is close to the material inlet of the block conveyor 8, and the block conveyor 8 conveys the packed waste blocks to the material guide table 9.

The setting mode has the advantages that: the waste recovery system of the invention conveys the stamping waste in the automobile manufacturing process to the guide chute 3 through the waste conveyor 1, when the packing machine 4 normally operates, the guide chute 3 is turned to one side close to the packing machine 4 to pour the waste into the packing machine 4 for packing, and when the packing machine 4 is damaged and needs maintenance, the guide chute 3 is turned to one side close to the parking space of the transport vehicle to pour the waste into the transport vehicle 7, and then the waste is pulled away by the transport vehicle 7 for treatment, so that the waste recovery system can maintain the packing machine 4 under the condition of normal operation. Further, baling press 4 extrudees the waste material into waste material package piece, on the waste material package piece was sent into package piece conveyer 8 by baling press 4's discharge end, package piece conveyer 8 carried waste material package piece to guide platform 9, and guide platform 9 is boxed or is put things in good order the both sides of waste material package piece guide platform 9. The invention optimizes the overall layout of the existing waste treatment line, directly packs the waste into the packet blocks with higher density and regular shape by arranging the online automatic packing machine 4 in the waste recovery system on the basis of not dismantling the original waste conveying line, conveys the packet blocks of the waste to the material guide table 9 for automatic boxing by the packet block conveyor 8, and automatically generates information labels according to production information for each packet block of the waste to ensure that the materials of various packet blocks are classified clearly and prevent the waste materials of different materials from being mixed together. Reducible manual intervention in waste material transmission packing process, the package piece transportation can increase substantially the bicycle load capacity than bulk cargo transportation, reduces the commodity circulation and transports the number of times, simultaneously, carries out the off-line transformation on former platform, remains the function of direct loading, and the operation mode is more nimble to realize the online packing of waste material, the purpose of categorised recovery, and then promote waste recycling's benefit. Meanwhile, the invention also considers that when the packing machine 4 stops, the guide chute 3 is set to be reversible so as not to influence the waste recovery work, and the waste is poured into different positions by overturning the guide chute 3 in different directions, thereby reducing the influence of the stopping of the packing machine 4 or the block conveyor 8 on the whole waste recovery system.

With continued reference to fig. 2, in one possible embodiment, the scrap recycling system further includes a buffer hopper 6 and an off-line conveyor 5 disposed between the discharge opening of the guide chute 3 and the parking space of the transport vehicle, the off-line conveyor 5 being disposed between the discharge opening of the guide chute 3 and the buffer hopper 6. Further, the waste recovery system further comprises a waste room 2, a waste conveyor 1, a packing machine 4, a guide chute 3, a buffer hopper 6 and an off-line conveyor 5 are arranged in the waste room 2, a guide platform 9 is arranged outside the waste room 2, and a block conveyor 8 is arranged between the packing machine 4 and the guide platform 9. Furthermore, an intermediate layer is arranged between the top layer of the waste material room 2 and the ground, the waste material conveyor 1 is fixed on the top layer, the guide chute 3 and the buffer hopper 6 are fixed between the top layer and the intermediate layer, the off-line conveyor 5 is fixed on the intermediate layer, the block packing conveyor 8 and the packing machine 4 are fixed on the ground, and the guide platform 9 is arranged on the ground outside the waste material room 2.

Referring next to fig. 4 to 7, the guide table 9 includes a support 91, and a first motor 95, a transverse guide roller 92, a second motor 96, a longitudinal conveying chain 93 and a lifting mechanism 94 which are arranged on the support 91, wherein the longitudinal conveying chain 93 is the same as the conveying direction of the bale conveyor 8 in fig. 3, the conveying direction of the transverse guide roller 92 is perpendicular to the conveying direction of the longitudinal conveying chain 93, and the lifting mechanism 94 is driven by the motor. Specifically, a first motor 95 is in transmission connection with the transverse material guiding rollers 92, a lifting mechanism 94 is arranged below the transverse material guiding rollers 92 so as to enable the transverse material guiding rollers 92 to ascend and descend vertically, a second motor 96 is in transmission connection with a longitudinal conveying chain 93 through a chain wheel, the chain wheel is rotatably arranged on the support 91, the transverse material guiding rollers 92 are arranged side by side, the longitudinal conveying chain 93 is positioned in a gap between the transverse material guiding rollers 92, one end of the longitudinal conveying chain 93 is close to the discharging end of the block packing conveyor 8, so that when the longitudinal conveying chain 93 conveys the waste block packing, referring to fig. 6, the height of the transverse material guiding rollers 92 is lower than that of the longitudinal conveying chain 93; when the transverse guide roller 92 deposits the bale of waste to both sides, referring to fig. 7, the transverse guide roller 92 is higher than the longitudinal conveying chain 93. Preferably, the bracket 91 is provided with a fixed baffle 97 at one end far away from the block conveyor 8, and the material guiding table 9 is further provided with material racks 10 at two lateral sides.

The setting mode has the advantages that: thereby can practice thrift area through the equipment setting of straggling in the guide material room in with the waste material system, the reducible installation cost of each equipment of fixed in original waste material room, the waste material falls guide chute 3 and baling press 4 in proper order from waste material conveyer 1 on 2 top layers in waste material rooms, makes the conveying speed of waste material faster, prevents that the waste material from blockking up the discharge gate. Further, the waste materials are packed by the packing machine 4 and then conveyed to the material guide table 9, and the material guide table 9 is arranged outside the waste material room 2, so that the waste material blocks are automatically conveyed outside the waste material room 2 without manual intervention, and are automatically stacked on the material guide table 9 to the material rack 10. Further, a buffer hopper 6 is arranged between the discharge hole of the guide chute 3 and the parking space of the transport vehicle, the off-line conveyor 5 is arranged between the discharge hole of the guide chute 3 and the buffer hopper 6, the off-line conveyor 5 conveys the waste materials into the buffer hopper 6, and the buffer hopper 6 can be used for temporarily storing the waste materials, particularly when the packing machine 4 is damaged and the transport vehicle 7 is not in the parking space of the transport vehicle, the buffer hopper 6 can temporarily store the waste materials without stopping the waste material conveyor 1, so that the normal operation of the production line is ensured.

Specifically, referring to fig. 3, when the bale of waste material is conveyed to the guide table 9 by the bale conveyor 8, referring to fig. 6, the height of the transverse guide roller 92 is lower than that of the longitudinal conveying chain 93, the bale of waste material is positioned on the longitudinal conveying chain 93, the longitudinal conveying chain 93 continues to be conveyed forward, when the waste material package blocks abut against the fixed baffle 97 and stop moving forward, at this time, referring to fig. 7, the lifting mechanism 94 lifts the transverse guide roller 92, the height of the transverse guide roller 92 is higher than that of the longitudinal conveying chain 93, the transverse guide roller 92 supports the waste material package blocks and leaves the longitudinal conveying chain 93, the first motor 95 drives the transverse guide roller 92 to rotate transversely, so that the waste material package blocks are conveyed to the material racks 10 at the two transverse sides of the guide table 9 to be stacked, the lifting mechanism 94 then again lowers the height of the transverse feed roller 92 below the longitudinal conveyor chain 93 to reciprocate. Can enough vertically carry the waste material package piece through guide table 9 and can also transversely carry the waste material package piece for the conveying capacity of waste material package piece is stronger, more can adapt to different goods shelves positions.

Referring to fig. 2, in a possible embodiment, the waste recycling system further includes an auxiliary waste conveyor (not shown) disposed side by side with the waste conveyor 1, a discharge end of the auxiliary waste conveyor is close to a feed inlet of the material guide chute 3, and an openable cover and a volume sensor are disposed in the buffer hopper 6.

The setting mode has the advantages that: supplementary waste material conveyer can be when car punching production line increase output supplementary waste material conveyer carry the waste material to baling press 4 together and pack, then carry again and pack or put things in good order to guide platform 9 to improve waste material throughput greatly, prevent that waste material conveyer 1 from blockking up because of the waste material is too much when production line increase output, close supplementary waste material conveyer can when the production line reduces output. The cover body which can be opened and closed is arranged in the buffer hopper 6, when the capacity sensor detects that the waste material in the buffer hopper 6 is full, the cover body of the buffer hopper 6 is opened, the waste material in the buffer hopper 6 falls into the transport vehicle 7, and therefore the situation that the feed inlet of the buffer hopper 6 is blocked due to untimely processing when the buffer hopper 6 is full is prevented.

In conclusion, the invention is improved and optimized on the basis of the original automobile stamping waste recovery line, the whole structure is more suitable for the existing stamping production line, compared with the existing waste recovery line, the manual intervention and frequent logistics transportation are reduced, the waste generated by stamping can be packed and recovered in real time, the waste made of various materials is not easy to mix together, the transportation after the waste is packed is more space-saving and time-saving, thereby realizing the lean waste recovery process, and the invention considers that the buffer hopper 6 is added in the waste recovery system without influencing the progress of waste recovery when the packing machine 4 needs to be maintained, thereby maintaining the equipment under the condition that the production line does not shut down. Furthermore, the auxiliary waste conveyor is additionally arranged, and the effect of conveying the waste can be jointly completed by matching with the waste conveyor 1 when the yield of the production line is increased, so that the overall recovery efficiency and stability of the waste recovery system are improved.

As mentioned in the first paragraph of this section, the above embodiments are only used for illustrating the principle of the present invention, and are not intended to limit the protection scope of the present invention, and those skilled in the art can make modifications to the above structures so that the present invention can be applied to more specific application scenarios without departing from the principle of the present invention.

For example, in an alternative embodiment, the bracket 91 may be provided without the fixed stop 97 at the end away from the bale conveyor 8, and after the longitudinal conveyor chain 93 conveys the bale to the proper position on the guide table 9, the second motor 96 may be stopped, the longitudinal conveyor chain 93 may stop conveying the bale forward, and then the lifting mechanism 94 may lift the transverse guide roller 92 upward, and the bale drops onto the transverse guide roller 92, without departing from the principles of the present invention, and thus falling within the scope of the present invention.

For example, in an alternative embodiment, the material guiding table 9 may be provided with only the transverse material guiding roller 92, the bale conveyor 8 directly feeds the bale of waste material onto the transverse material guiding roller 92, and the transverse material guiding roller 92 rotates to be directly conveyed onto the material racks 10 on two sides of the material guiding table 9; or the cross guide roller 92 may be replaced by a conveyor belt, without departing from the principles of the present invention and thus falling within the scope of the present invention.

For example, in an alternative embodiment, the stacks 10 may be arranged in multiple tiers, with the transverse feed rollers 92 being raised by the lifting mechanism 94 so that they may be stopped at any position to deliver a slug to each tier of the stack 10, without departing from the principles of the present invention and thus falling within the scope of the present invention.

For example, in an alternative embodiment, the buffer hopper 6 may also be arranged to be reversible, such that when the transport vehicle 7 arrives, the buffer hopper 6 is turned over to orient the inlet towards the transport vehicle 7, without departing from the principles of the present invention and therefore falling within the scope of the present invention.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (10)

1. The utility model provides a waste recycling system, its characterized in that includes waste conveyor, baling press, packet piece conveyer, baffle box and guide platform, waste conveyor's discharge end is close to the pan feeding mouth of baffle box, the baffle box sets up to control the upset, works as when the baffle box overturns to one side the discharge gate of baffle box is close to the pan feeding end of baling press, works as when the baffle box overturns to the opposite side the discharge gate of baffle box is close to the haulage vehicle parking stall, the discharge end of baling press is close to the pan feeding end of packet piece conveyer, the packet piece conveyer carries the waste packet piece after the packing the guide platform.

2. The scrap recycling system in accordance with claim 1 further including a buffer hopper disposed between the discharge of the chute and the transport vehicle parking space.

3. The scrap recycling system in accordance with claim 2 further including an off-line conveyor disposed between the discharge of the gathering chute and the buffer bin.

4. The scrap recovery system in accordance with claim 1 wherein the scrap staging system includes a carriage, and a first motor, a transverse material guiding roller, a second motor, a longitudinal conveying chain and a lifting mechanism which are arranged on the bracket, wherein the first motor is connected with the transverse material guiding roller in a transmission way, the lifting mechanism is arranged below the transverse material guiding roller, so that the transverse guide roller can be lifted up and down, the second motor is in transmission connection with the longitudinal conveying chain through a chain wheel, the chain wheel is rotatably arranged on the bracket, the transverse material guide rollers are arranged in parallel, the longitudinal conveying chain is positioned in gaps among the transverse material guiding rollers, one end of the longitudinal conveying chain is close to the discharge end of the bale conveyor, so that the height of the transverse guide roller is lower than that of the longitudinal conveying chain when the longitudinal conveying chain conveys the waste package blocks; when the transverse guide roller stacks the waste package blocks towards two sides, the height of the transverse guide roller is higher than that of the longitudinal conveying chain.

5. A scrap recycling system in accordance with claim 4 wherein the carrier is provided with a fixed stop at the end remote from the bale conveyor.

6. The scrap recycling system in accordance with claim 4 wherein the scrap table is further provided with stacks on both lateral sides of the scrap table.

7. The scrap recycling system in accordance with claim 3 further including a scrap bin, the scrap conveyor, the baler, the chute, the buffer bin and the off-line conveyor being disposed within the scrap bin, the guide table being disposed outside the scrap bin, the bale conveyor being disposed between the baler and the guide table.

8. The scrap recycling system in accordance with claim 7 wherein an intermediate level is provided between the top level of the scrap box and the floor, the scrap conveyor is secured to the top level, the chute and the buffer bin are secured between the top level and the intermediate level, the off-line conveyor is secured to the intermediate level, and the bale conveyor and the baler are secured to the floor.

9. The scrap recycling system in accordance with claim 3 wherein a capacity sensor is provided in the buffer bin.

10. The scrap recycling system in accordance with claim 1 further including an auxiliary scrap conveyor positioned alongside the scrap conveyor, the discharge end of the auxiliary scrap conveyor being adjacent the feed opening of the chute.

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