CN111599540A

CN111599540A - Recovery processing device for waste electric wires and cables

Info

Publication number: CN111599540A
Application number: CN202010495870.6A
Authority: CN
Inventors: 李佳
Original assignee: Wuyi Hange Electronic Co ltd
Current assignee: Shandong Changyou Electric Power Engineering Co ltd
Priority date: 2020-06-03
Filing date: 2020-06-03
Publication date: 2020-08-28
Anticipated expiration: 2040-06-03
Also published as: CN111599540B; GB202014627D0

Abstract

The invention discloses a recovery processing device of waste electric wires and cables, which comprises a processing box, wherein a funnel for adding electric cables is arranged in the upper surface of the processing box, the lower side of the funnel is communicated with a shearing cavity, a left shearing knife and a right shearing knife which are symmetrical in left and right positions are slidably connected in the left and right walls of the shearing cavity, a power mechanism for providing power for the shearing knife is arranged at the rear side of the shearing knife, left and right openings of the shearing cavity are communicated with a left and right symmetrical channel which is positioned at the lower side of the shearing cavity, a water supply mechanism for supplying water to cool is arranged at the rear side of the lower end of the channel, the waste electric wires can be directly crushed, processed and separated into copper and rubber sheaths, a multi-strand wire and a single strand wire can be suitable for use, the whole flow has no pause, the copper and the rubber sheaths can be produced only by throwing the waste electric wires, the operation is, has no pollution to the environment basically and is worth popularizing.

Description

Recovery processing device for waste electric wires and cables

Technical Field

The invention relates to the technical field of electric conduction, in particular to a recovery processing device for waste electric wires and cables.

Background

The waste electric wire and cable refers to the discarded electric wire and cable which can not be utilized, burned and damaged by flowing of high current and voltage or can not be used due to mistake in production and processing; the electric conductors in the electric wires and cables are basically pure copper, and the price of the pure copper is not low at present, so that the waste electric wires and cables are recovered, the waste electric wires and cables still have good income, the resources are recycled, the existing electric wires and cables have more copper recovery methods, the labor intensity of manual recovery is high, and the efficiency is low; the combustion method recovery can oxidize copper, thereby reducing economic benefit; chemical methods have certain influence on the environment; there are also some possibilities for applying only single strands, for which no operation is possible.

Disclosure of Invention

The invention aims to provide a recovery processing device for waste electric wires and cables, which is used for overcoming the defects in the prior art.

The recovery processing device for the waste electric wires and cables comprises a processing box, wherein a funnel for adding electric cables is arranged in the upper surface of the processing box, the lower side of the funnel is communicated with a shearing cavity, a shearing cutter with symmetrical left and right positions is connected in the left and right walls of the shearing cavity in a sliding manner, a power mechanism for providing power for the shearing cutter is arranged at the rear side of the shearing cutter, passages with symmetrical left and right positions and positioned at the lower side of the shearing cavity are communicated with openings at the left and right sides of the shearing cavity, a water supply mechanism for supplying water to cool is arranged at the rear side of the lower end of the passage, pipelines with symmetrical left and right positions are communicated with the lower side of the passage, grinding blocks with symmetrical left and right positions are rotatably connected to the pipelines, grinding cavities with symmetrical left and right positions and communicated with the pipelines are arranged in the inner side surface opposite to the grinding blocks, and the grinding blocks and the pipelines are positioned in the, the grinding cavity and the grinding cavity are in clearance, one side, opposite to each other, of the grinding block is fixedly provided with annular inclined teeth, the lower side of each annular inclined tooth is meshed with a first bevel gear, the left side of the annular inclined teeth is fixedly connected with a first rotating shaft which is rotatably connected to the left wall of the grinding cavity, the right side of the annular inclined teeth is fixedly connected with a second rotating shaft which is rotatably connected to the right wall of the grinding cavity, the lower side of the first bevel gear is meshed with a second bevel gear, the lower side of the second bevel gear is fixedly connected with a third rotating shaft, the lower end of the third rotating shaft is fixedly connected with a bearing, the left side of the bearing is fixedly connected with a fixed rod which is fixedly arranged on the left wall of the grinding cavity, the lower side of the grinding cavity is communicated with a separation cavity, a separation mechanism for separating copper and rubber skins is arranged in the separation cavity, the right side of the grinding cavity is provided with a connecting mechanism, And the switch mechanism is used for controlling the power mechanism to start and supply water to the water supply mechanism.

On the basis of the technical scheme, the power mechanism comprises cutting knife cavities which are positioned at the left side and the right side of the shearing cavity and are symmetrical with each other, the rear side of each cutting knife cavity is communicated with a power cavity, the right side of each power cavity is communicated with a connecting cavity, a first motor is fixedly connected in the right wall of the connecting cavity, the left end of the first motor is in power connection with a motor shaft which is rotatably connected to the left wall of the power cavity, a rotating column which is symmetrical with the left side and the right side is fixedly connected to the motor shaft, a track which is symmetrical with the left side and the right side is arranged on the rotating column, and a supporting rod which is fixedly arranged on the shearing knife is abutted to the.

On the basis of the technical scheme, the water supply mechanism comprises a first water pipe which is positioned in one side wall of the pipeline back to back and is symmetrical in left and right shape, and the rear side of the first water pipe is communicated with a second water pipe.

On the basis of the technical scheme, the sorting mechanism comprises a collecting box which is positioned in the sorting cavity and used for collecting the rubber skins, the collecting box is internally provided with a collecting cavity, the inner wall of the collecting cavity is fixedly provided with a supporting rod, the supporting rod is fixedly connected with a second motor, the second motor is in power connection with a fourth rotating shaft, and the fourth rotating shaft is fixedly connected with a centrifugal force platform for rotary classification; the lower side of the collecting box is fixedly connected with a fixed pipe which is fixedly arranged on the bottom wall of the sorting cavity and is communicated with the collecting cavity, a first outlet pipe is arranged on the lower side of the fixed pipe, a first permeable membrane for draining water is arranged in the lower wall of the first outlet pipe, and a first water channel is arranged on the lower side of the first permeable membrane; a second outlet pipe for discharging copper is arranged on the lower left side of the separation cavity, a second permeable membrane for discharging water is fixedly arranged in the lower wall of the second outlet pipe, and a second water channel is arranged on the lower side of the second permeable membrane.

On the basis of the technical scheme, the connecting mechanism comprises a belt wheel fixedly arranged on the motor shaft and positioned on the upper side of the connecting cavity, a belt is connected to the belt wheel, and the lower side of the belt is connected with the belt wheel fixedly arranged on the second rotating shaft and positioned on the lower side of the connecting cavity.

On the basis of the technical scheme, the switch mechanism comprises a switch cavity positioned in the upper surface of the processing box, a press rod is connected in the switch cavity in a sliding manner, a first spring is fixedly connected between the press rod and the bottom wall of the switch cavity, a through hole for connecting the second water pipe is arranged on the lower side of the press rod, a conductive sheet is fixedly arranged in the rear wall of the switch cavity, a circuit is connected between the conductive sheet and the first motor, an iron block which is fixedly arranged in the rear wall of the press rod and can be contacted with the conductive sheet and connect the circuit of the electric wire is arranged on the upper side of the through hole, a notch positioned on the upper side of the iron block is arranged in the rear wall of the press rod, a clamping rod cavity is arranged in the rear wall of the switch cavity, a clamping rod capable of being clamped into the notch is connected in the clamping rod cavity in a sliding manner, and a second spring is fixedly connected between the clamping rod and the rear wall, and a through cavity communicated with the outer side of the processing box penetrates through the upper wall of the clamping rod cavity, and the lower end of the through cavity is fixedly connected with a push rod of the clamping rod in a sliding manner.

The invention has the beneficial effects that: can be with the direct broken processing of wire scrap and select separately into copper and rubber crust, strand wire and single strand all are applicable, and whole flow does not have the pause simultaneously, as long as drop into the wire scrap and can produce copper and rubber crust, and the operation is very simple, and low in labor strength can not cause the destruction in the composition to the copper wire, does not basically have the pollution to the environment, is worth promoting.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view showing the overall construction of a waste electric wire and cable recycling apparatus according to the present invention;

FIG. 2 is a schematic view of the present invention taken along the line A-A of FIG. 1;

FIG. 3 is a schematic view of the present invention taken along the line B-B of FIG. 1;

FIG. 4 is a schematic view of the present invention taken along the line C-C of FIG. 1;

FIG. 5 is a schematic view of the structure of FIG. 4 taken in the direction D-D;

fig. 6 is an enlarged view of the invention at E in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 6, the recycling and processing device for waste electric wires and cables according to the embodiment of the present invention includes a processing box 10, a funnel 11 for adding electric cables is disposed in an upper surface of the processing box 10, a shearing cavity 12 is communicated with a lower side of the funnel 11, a shearing knife 41 with symmetrical left and right positions is slidably connected to a left and right wall of the shearing cavity 12, a power mechanism 801 for providing power to the shearing knife 41 is disposed at a rear side of the shearing knife 41, a channel 13 with symmetrical left and right positions is communicated with left and right openings of the shearing cavity 12, a water supply mechanism 802 for providing water to cool is disposed at a rear side of a lower end of the channel 13, a pipeline 17 with symmetrical left and right positions is communicated with a lower side of the channel 13, a grinding block 16 with symmetrical left and right positions is rotatably connected to the pipeline 17, a grinding cavity 15 with symmetrical left and right positions and communicated with the pipeline 17 is disposed inside a side surface opposite to the grinding block 16, the grinding block 16 and the pipeline 17 are located in the grinding chamber 20 at the lower side of the channel 13, a gap exists between the grinding chamber 15 and the grinding chamber 20, an annular helical tooth 66 is fixedly arranged at the opposite side of the grinding block 16, a first bevel gear 65 is meshed at the lower side of the annular helical tooth 66, a first rotating shaft 18 rotatably connected to the left wall of the grinding chamber 20 is fixedly connected to the left side of the first bevel gear 65 at the left side, a second rotating shaft 19 rotatably connected to the right wall of the grinding chamber 20 is fixedly connected to the right side of the first bevel gear 65 at the right side, a second bevel gear 61 is meshed at the lower side of the first bevel gear 65, a third rotating shaft 63 is fixedly connected to the lower side of the second bevel gear 61, a bearing 62 is fixedly connected to the lower end of the third rotating shaft 63, and a fixing rod 64 fixedly connected to the left wall of the grinding chamber 20 is fixedly connected to the, the lower side of the grinding cavity 20 is communicated with a sorting cavity 24, a sorting mechanism 803 for sorting out copper and rubber skins is arranged in the sorting cavity 24, a connecting mechanism 804 for connecting the second rotating shaft 19 with the power mechanism 801 and a switch mechanism 805 for controlling the power mechanism 801 to start to supply water to the water supply mechanism 802 are arranged on the right side of the grinding cavity 20.

In addition, in one embodiment, the power mechanism 801 includes left and right symmetrical cutter cavities 40 located on the left and right sides of the shearing cavity 12, a power cavity 42 is communicated with the rear side of the cutter cavity 40, a connecting cavity 43 is communicated with the right side of the power cavity 42, a first motor 44 is fixedly connected in the right wall of the connecting cavity 43, a motor shaft 38 rotatably connected to the left wall of the power cavity 42 is dynamically connected to the left end of the first motor 44, a left and right symmetrical rotary column 36 is fixedly connected to the motor shaft 38, a left and right symmetrical track 37 is arranged on the rotary column 36, and a support rod 39 fixedly arranged on the shearing cutter 41 is abutted to the track 37.

In addition, in one embodiment, the water supply mechanism 802 includes a first water pipe 14 located in a side wall of the duct 13 opposite to the side wall and having a symmetrical left-right shape, and a second water pipe 60 is communicated with a rear side of the first water pipe 14.

In addition, in one embodiment, the sorting mechanism 803 includes a collecting box 27 located in the sorting chamber 24 for collecting the rubber skin, a collecting chamber 28 is provided inside the collecting box 27, a supporting rod 26 is fixedly arranged on the inner wall of the collecting chamber 28, a second motor 25 is fixedly connected to the supporting rod 26, a fourth rotating shaft 23 is dynamically connected to the second motor 25, and a centrifugal force platform 22 for rotary classification is fixedly connected to the fourth rotating shaft 23; a fixed pipe 29 fixedly arranged on the bottom wall of the sorting cavity 24 and communicated with the collecting cavity 28 is fixedly connected to the lower side of the collecting box 27, a first outlet pipe 30 is arranged on the lower side of the fixed pipe 29, a first permeable membrane 31 for draining water is arranged in the lower wall of the first outlet pipe 30, and a first water channel 32 is arranged on the lower side of the first permeable membrane 31; a second outlet pipe 35 for discharging copper is arranged on the left lower side of the sorting cavity 24, a second permeable membrane 34 for discharging water is fixedly arranged in the lower wall of the second outlet pipe 35, and a second water channel 33 is arranged on the lower side of the second permeable membrane 34.

In addition, in one embodiment, the connection mechanism 804 includes a pulley 46 fixed on the motor shaft 38 and located on the upper side of the connection cavity 43, a belt 45 is connected to the pulley 46, and a lower belt of the belt 45 is connected to the pulley 46 fixed on the second rotating shaft 19 and located on the lower side of the connection cavity 43.

In addition, in one embodiment, the switch mechanism 805 includes a switch cavity 58 located in the upper surface of the processing box 10, a pressing rod 47 is slidably connected in the switch cavity 58, a first spring 59 is fixedly connected between the pressing rod 47 and the bottom wall of the switch cavity 58, a through opening 57 for connecting the second water pipe 60 is provided at the lower side of the pressing rod 47, a conductive sheet 55 is fixedly provided in the rear wall of the switch cavity 58, an electric wire 54 is electrically connected between the conductive sheet 55 and the first motor 44, an iron block 56 which is fixedly provided in the rear wall of the pressing rod 47 and can contact the conductive sheet 55 and connect the electric circuit of the electric wire 54 is provided at the upper side of the through opening 57, a notch 48 located at the upper side of the iron block 56 is provided in the rear wall of the pressing rod 47, a clamping rod cavity 52 is provided in the rear wall of the switch cavity 58, a clamping rod 53 which can be clamped in the notch 48 is slidably connected in the clamping rod cavity 52, a second spring 51 is fixedly connected between the clamping rod 53 and the rear wall of the clamping rod cavity 52, a through cavity 49 communicated with the outer side of the processing box 10 penetrates through the upper wall of the clamping rod cavity 52, and a push rod 50 with the lower end fixedly arranged on the clamping rod 53 is slidably connected in the through cavity 49.

In the initial state, the pressing lever 47 is positioned at the uppermost side by the elastic force of the first spring 59, the second water pipe 60 is blocked by the pressing lever 47, the iron block 56 is not in contact with all of the two conductive sheets 55, the first motor 44 is not started, and the locking lever 53 and the push rod 50 are positioned at the rearmost side.

When the recovery processing work is needed, waste cable wires are added into the hopper 11, and then the pressing rod 47 is pressed downwards until the clamping rod 53 moves forwards under the elastic force of the second spring 51 and is clamped into the notch 48, namely the pressing rod 47 is clamped; the iron block 56 moves downwards and contacts with the two conducting strips 55, and the circuit of the electric wire 54 is connected, and the first motor 44 is started, and meanwhile, the through hole 57 moves downwards and is connected with the second water pipe 60, and water flows into the channel 13 in the first water pipe 14; when the first motor 44 is started, the motor shaft 38 rotates, the rotating column 36 rotates, the abutting rod 39 can only move left and right under the limitation of the rail 37, the shearing knife 41 synchronously moves oppositely and cuts off the waste electric wire, the cut waste electric wire passes through the channel 13, the pipeline 17 flows into the grinding cavity 15, water in the first water pipe 14 also flows into the grinding cavity 15 through the pipeline 17, and the water is ground by adding water to reduce the temperature during grinding so as to prevent the waste electric wire sheath from melting due to higher heat dissipation during grinding and lower melting point of the waste electric wire sheath; meanwhile, the motor shaft 38 drives the second rotating shaft 19 to rotate through the belt 45 and the belt pulley 46, then the first bevel gear 65 on the right side rotates, then the annular oblique tooth 66 on the right side rotates, then the grinding block 16 on the right side rotates, meanwhile, the first bevel gear 65 on the right side drives the second bevel gear 61 to rotate, then the first bevel gear 65 on the left side rotates, then the annular oblique tooth 66 on the left side rotates, then the grinding block 16 on the left side and the grinding block 16 on the right side synchronously and reversely rotate, and the copper and the waste wire sheaths after grinding fall into the grinding cavity 20 through the gap between the grinding blocks 16 and finally fall to the centrifugal force platform 22; the second motor 25 is started, the fourth rotating shaft 23 rotates, the centrifugal force platform 22 rotates and throws out the copper and the outer skin on the upper side, the outer skin is thrown farther relative to the outer skin due to the high density of the copper, the outer skin falls into the collecting cavity 28, the copper falls into the sorting cavity 24, the outer skin is discharged through the fixing pipe 29 and the first outlet pipe 30, the redundant water is discharged through the first permeable membrane 31 and the first water channel 32, the copper is discharged through the second outlet pipe 35, and the redundant water is discharged through the second permeable membrane 34 and the second water channel 33; after the processing is finished, the second motor 25 is turned off, then the push rod 50 is pushed backwards until the clamping rod 53 is separated from the contact with the notch 48, at this time, the pressing rod 47 moves upwards under the elastic force of the first spring 59, the through hole 57 moves upwards, the second water pipe 60 is closed, the iron block 56 moves upwards, and the first motor 44 is turned off.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a waste wire and cable's recovery processingequipment, includes the processing case, its characterized in that: the processing box is characterized in that a funnel for adding cables is arranged in the upper surface of the processing box, a shearing cavity is communicated with the lower side of the funnel, a shearing knife with symmetrical left and right positions is slidably connected to the left and right walls of the shearing cavity, a power mechanism for providing power for the shearing knife is arranged at the rear side of the shearing knife, the left and right openings of the shearing cavity are communicated with a passage with symmetrical left and right positions and positioned on the lower side of the shearing cavity, a water supply mechanism for supplying water to cool is arranged at the rear side of the lower end of the passage, a pipeline with symmetrical left and right positions is communicated with the lower side of the passage, grinding blocks with symmetrical left and right positions are rotatably connected to the pipeline, grinding cavities with symmetrical left and right positions and communicated with the pipeline are arranged in the inner side of a side surface opposite to the grinding blocks, the grinding blocks and the pipeline are positioned in the grinding cavity on the lower, the grinding block is characterized in that one side of the grinding block, which is opposite to the other side, is fixedly provided with annular skewed teeth, the lower side of the annular skewed teeth is meshed with a first bevel gear, the left side of the annular skewed teeth is fixedly connected with a first rotating shaft which is rotatably connected to the left wall of the grinding cavity, the right side of the annular skewed teeth is fixedly connected with a second rotating shaft which is rotatably connected to the right wall of the grinding cavity, the lower side of the first bevel gear is meshed with a second bevel gear, the lower side of the second bevel gear is fixedly connected with a third rotating shaft, the lower end of the third rotating shaft is fixedly connected with a bearing, the left side of the bearing is fixedly connected with a fixed rod which is fixedly arranged on the left wall of the grinding cavity, the lower side of the grinding cavity is communicated with a separation cavity, a separation mechanism for separating copper and rubber skins is arranged in the separation cavity, the right side, And the switch mechanism is used for controlling the power mechanism to start and supply water to the water supply mechanism.

2. The recycling apparatus for waste electric wire and cable as claimed in claim 1, wherein: the power mechanism comprises cutter cavities which are positioned on the left side and the right side of the shearing cavity and are symmetrical in left and right positions, the rear side of each cutter cavity is communicated with a power cavity, the right side of each power cavity is communicated with a connecting cavity, a first motor is fixedly connected in the right wall of the connecting cavity, the left end of the first motor is in power connection with a motor shaft which is rotatably connected to the left wall of the power cavity, a rotary column which is symmetrically in left and right positions is fixedly connected to the motor shaft, a track which is symmetrically in left and right positions is arranged on the rotary column, and a supporting rod which is fixedly arranged on the shearing cutter is abutted to the track.

3. The recycling apparatus for waste electric wire and cable as claimed in claim 1, wherein: the water supply mechanism comprises a first water pipe which is positioned in one side wall of the pipeline opposite to each other and is symmetrical in left and right shape, and the rear side of the first water pipe is communicated with a second water pipe.

4. The recycling apparatus for waste electric wire and cable as claimed in claim 1, wherein: the sorting mechanism comprises a collecting box which is positioned in the sorting cavity and used for collecting rubber skins, a collecting cavity is arranged in the collecting box, a supporting rod is fixedly arranged on the inner wall of the collecting cavity, a second motor is fixedly connected onto the supporting rod, a fourth rotating shaft is connected onto the second motor in a power mode, and a centrifugal force platform for rotary sorting is fixedly connected onto the fourth rotating shaft; the lower side of the collecting box is fixedly connected with a fixed pipe which is fixedly arranged on the bottom wall of the sorting cavity and is communicated with the collecting cavity, a first outlet pipe is arranged on the lower side of the fixed pipe, a first permeable membrane for draining water is arranged in the lower wall of the first outlet pipe, and a first water channel is arranged on the lower side of the first permeable membrane; a second outlet pipe for discharging copper is arranged on the lower left side of the separation cavity, a second permeable membrane for discharging water is fixedly arranged in the lower wall of the second outlet pipe, and a second water channel is arranged on the lower side of the second permeable membrane.

5. The recycling apparatus for waste electric wire and cable as claimed in claim 1, wherein: the connecting mechanism comprises a belt wheel fixedly arranged on the motor shaft and positioned on the upper side of the connecting cavity, a belt is connected to the upper belt of the belt wheel, and the lower belt of the belt is fixedly arranged on the second rotating shaft and positioned on the lower side of the connecting cavity.

6. The recycling apparatus for waste electric wire and cable as claimed in claim 1, wherein: the switch mechanism comprises a switch cavity positioned in the upper surface of the processing box, a press rod is connected in the switch cavity in a sliding manner, a first spring is fixedly connected between the press rod and the bottom wall of the switch cavity, a through hole for connecting the second water pipe is formed in the lower side of the press rod, a conducting strip is fixedly arranged in the rear wall of the switch cavity, a circuit is connected between the conducting strip and the first motor, an electric wire is arranged on the upper side of the through hole, an iron block which is fixedly arranged in the rear wall of the press rod and can be contacted with the conducting strip and connect the circuit of the electric wire, a notch positioned on the upper side of the iron block is arranged in the rear wall of the press rod, a clamping rod cavity is arranged in the rear wall of the switch cavity, a clamping rod capable of being clamped into the notch is connected in the clamping rod cavity in a sliding manner, and a second spring is fixedly connected between the clamping rod and, and a through cavity communicated with the outer side of the processing box penetrates through the upper wall of the clamping rod cavity, and the lower end of the through cavity is fixedly connected with a push rod of the clamping rod in a sliding manner.