CN203803625U - Automatic deironing device with high dispersibility for scrap copper cuttings - Google Patents

Abstract

The utility model discloses an automatic deironing device with high dispersibility for scrap copper cuttings. The device comprises a support, wherein a hopper is fixed above the support; a vibrating screen is arranged below a hopper outlet; a magnetic roller is arranged below a discharging hole of the vibrating screen and in transmission connection with a belt wheel fixed on the support by virtue of a belt; a rotating shaft of the belt wheel is connected with the vibrating screen by virtue of a connecting rod; an arc magnet is fixed inside the magnetic roller; the belt wheel is in transmission connection with an output shaft of an electromotor by virtue of the belt; a scrap iron collection hopper is arranged at the lower left part of the magnetic roller; a copper cuttings collection hopper is arranged at the lower right part of the magnetic roller; a copper cuttings conveyer belt is arranged at the lower part of the copper cuttings collection hopper. The device has the advantages of low labor intensity and high efficiency, and aggregation, balling and pollution in the process are avoided.

Description

The copper scrap bits automated iron pick-out mechanism of good dispersion

Technical field

The utility model relates to copper scrap bits purifier technical field, is specifically related to a kind of copper scrap bits automated iron pick-out mechanism of good dispersion.

Background technology

Various copper and copper alloy material are in the machining process such as downstream client's turning, boring, the copper foam producing often contains the ferrous contaminants such as drill bit, cutter head and packing iron wire, copper foam after recovery is again must carrying out deironing before founding, otherwise iron tramp can have a strong impact on product quality.Traditional method for removing iron is: copper foam is transported on smooth, shares and come, then go deep into going back to inhale in copper foam with the suction ironworker tool that magnet is equipped with in one end.Adopt deironing in this way, have following drawback: copper foam transports inconvenience, and floor space is large, artificial demand is many, and labour intensity is high, and production efficiency is low, and poor working environment and de-ferrous effect are poor etc.

Utility model content

The utility model, for the above-mentioned deficiency of prior art, provides a kind of copper foam to transport conveniently, and labour intensity is low, efficiency is high, process is pollution-free, the copper scrap of good dispersion bits automated iron pick-out mechanism.

In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of copper scrap bits automated iron pick-out mechanism of good dispersion, comprise support, support top is fixed with hopper, hopper outlet below is provided with vibratory sieve, and the discharging opening below of vibratory sieve is provided with magnetic roller, and magnetic roller is in transmission connection by belt and the belt pulley being fixed on support, the rotating shaft of belt pulley is connected with vibratory sieve by connecting rod, and magnetic roller inside is fixed with arc-shaped magnet; Described belt pulley is in transmission connection by the output shaft of belt and motor; Described magnetic roller lower left is provided with iron filings bunker for collecting, and magnetic roller lower right is provided with copper scale bunker for collecting; Described copper scale bunker for collecting bottom is provided with copper scale conveyer belt.

Adopt said structure, copper scrap is considered to be worth doing in feedstock delivery material bin, then fall vibratory sieve from the outlet blanking of hopper, vibratory sieve promotes vibrations by the connecting rod on it that do not stop to rotarily drive of the rotating shaft of belt pulley, copper scrap bits on constantly falling are shaken, broken up, and the copper scrap of then breaing up is considered to be worth doing on rotating magnetic roller; The magnetic of magnetic roller is by iron adsorption left magnetic roller, and then not adsorbable copper scale is betransported and taken away by conveyer belt along with the rotation of magnetic roller drops in copper scale bunker for collecting; Iron filings on absorption left magnetic roller are along with the rotation of magnetic roller, when rotating to a side that does not have a side of arc-shaped magnet to be provided with iron filings bunker for collecting owing to not having magnetic absorption to drop at iron filings bunker for collecting, thereby said structure has been realized the separation of iron filings in copper scale, this structure can fully be broken up the copper scrap bits of reunion, balling-up, increase the contact area with magnetic roller, make the iron filings in copper scale more easily directly contact, increase absorption affinity with magnetic roller, separating effect is better; Meanwhile, the arranging of vibratory sieve can make the copper scrap bits that enter from hopper can directed blanking, can not disperse everywhere, cause between raw material and separating material, separate insufficient; In addition this structure will be without sharing copper scale, and floor space is little, and copper scale is easy to transport, and labour intensity is low, and production efficiency is high; And be physical separation, iron filings can reclaim direct recycling, can not cause environmental pollution yet, efficiency is high, and labour intensity is low.

As preferably, described magnetic roller lateral surface is provided with baffle plate, adopts this structure, has increased the time of contact of copper scrap bits with magnetic roller, can make iron filings wherein by absorption fully, separate, enhance productivity and separating effect.

As further preferred, described baffle plate is sideboard, adopt this structure, in the time assembling between copper scrap bits left magnetic roller and baffle plate, can not cause feed blocking, reunion, can ensure again time of contact certain between material and magnetic roller, can further make iron filings wherein be adsorbed fully, separate, enhance productivity and separating effect simultaneously.

As preferably, described magnetic roller outer peripheral face is provided with extend vertically some radially raised lines, adopts this structure, has increased the contact area of copper scrap bits with magnetic roller, can adsorb more iron filings, to enhance productivity and separating effect.

As preferably, described described hopper top is provided with feeding storehouse, Si Ge angle, the bottom place of described feed bin be respectively provided with one can feed bin lifting oil cylinder.Adopt said structure, when needs when filling with substance, the piston rod that starts oil cylinder shrinks in oil cylinder, feed bin is reduced, workman's charging, after feed bin is filled, the piston rod of oil cylinder stretches out feed bin jack-up, when reaching behind hopper top, while needing charging, two by four oil cylinders near hopper quit work, and continue to stretch out away from the piston rod of two oil cylinders of hopper, feed bin is tilted, copper scrap bits wherein can put under in hopper and carry out charging, and therefore, charging is convenient, easy operating, packs copper scrap bits in hopper charging without workman's method.Above-mentioned oil cylinder bottom can be connected with support to realize to be fixed, and the piston rod end on top is connected with feed bin, and feed bin is realized to descending operation.

Brief description of the drawings

Fig. 1 the utility model copper scrap bits automated iron pick-out mechanism structural representation.

Magnetic roller cutaway view structural representation in Fig. 2 the utility model copper scrap bits automated iron pick-out mechanism.

The rotating shaft of Fig. 3 the utility model belt pulley and connecting rod and vibratory sieve connected structure schematic diagram.

Detailed description of the invention

Enter below in conjunction with accompanying drawing by embodiment and describe the utility model in detail, but the utility model is not only confined to following examples.

As shown in Figure 1-2: the technical solution adopted in the utility model is: the copper scrap bits automated iron pick-out mechanism of good dispersion, comprise support 1, support 1 top is fixed with hopper 2, the outlet below of hopper 2 is provided with vibratory sieve 2.1, the discharging opening below of vibratory sieve 2.1 is provided with magnetic roller 3, magnetic roller 3 is in transmission connection by belt 6 and the belt pulley 8 being fixed on support 1, and the rotating shaft 8.1 of belt pulley 8 is connected with vibratory sieve by connecting rod 8.2, and magnetic roller 3 inside are fixed with arc-shaped magnet 3.1; Described belt pulley 8 is in transmission connection by belt 6 and the output shaft of motor 5; Described magnetic roller 3 lower lefts are provided with iron filings bunker for collecting 7, and the lower right of magnetic roller 3 is provided with copper scale bunker for collecting 4.1; Described copper scale bunker for collecting 4.1 bottoms are provided with copper scale conveyer belt 4.

Adopt said structure, copper scrap is considered to be worth doing in feedstock delivery material bin, then fall vibratory sieve from the outlet blanking of hopper, vibratory sieve promotes vibrations by the connecting rod on it that do not stop to rotarily drive of the rotating shaft of belt pulley, copper scrap bits on constantly falling are shaken, broken up, and the copper scrap of then breaing up is considered to be worth doing on rotating magnetic roller; The magnetic of magnetic roller is by iron adsorption left magnetic roller, and then not adsorbable copper scale is betransported and taken away by conveyer belt along with the rotation of magnetic roller drops in copper scale bunker for collecting; Iron filings on absorption left magnetic roller are along with the rotation of magnetic roller, when rotating to a side that does not have a side of arc-shaped magnet to be provided with iron filings bunker for collecting owing to not having magnetic absorption to drop at iron filings bunker for collecting, thereby said structure has been realized the separation of iron filings in copper scale, this structure can fully be broken up the copper scrap bits of reunion, balling-up, increase the contact area with magnetic roller, make the iron filings in copper scale more easily directly contact, increase absorption affinity with magnetic roller, separating effect is better; Meanwhile, the arranging of vibratory sieve can make the copper scrap bits that enter from hopper can directed blanking, can not disperse everywhere, cause between raw material and separating material, separate insufficient; In addition this structure will be without sharing copper scale, and floor space is little, and copper scale is easy to transport, and labour intensity is low, and production efficiency is high; And be physical separation, iron filings can reclaim direct recycling, can not cause environmental pollution yet, efficiency is high, and labour intensity is low.

The lateral surface of magnetic roller 3 described in the utility model is provided with baffle plate 9, adopts this structure, has increased the time of contact of copper scrap bits and magnetic roller, can make iron filings wherein be adsorbed fully, separate, and enhances productivity and separating effect.As further preferred, described baffle plate 9 is sideboard, adopts this structure, in the time assembling between copper scrap bits left magnetic roller and baffle plate, can not cause feed blocking, reunion; Can ensure again time of contact certain between material and magnetic roller, can further make iron filings wherein be adsorbed fully, separate, enhance productivity and separating effect simultaneously.

The outer peripheral face of magnetic roller 3 described in the utility model is provided with vertically extend some radially raised lines 3.2, adopts this structure, has increased the contact area of copper scrap bits with magnetic roller, can adsorb more iron filings, to enhance productivity and separating effect.

Described described hopper top described in the utility model is provided with feeding storehouse 10, Si Ge angle, the bottom place of described feed bin 10 be respectively provided with one can feed bin lifting oil cylinder 10.1.Adopt said structure, when needs when filling with substance, the piston rod that starts oil cylinder shrinks in oil cylinder, feed bin is reduced, workman's charging, after feed bin is filled, the piston rod of oil cylinder stretches out feed bin jack-up, when reaching behind hopper top, while needing charging, two by four oil cylinders near hopper quit work, and continue to stretch out away from the piston rod of two oil cylinders of hopper, feed bin is tilted, copper scrap bits wherein can put under in hopper and carry out charging, and therefore, charging is convenient, easy operating, packs copper scrap bits in hopper charging without workman's method.Above-mentioned oil cylinder bottom can be connected with support to realize to be fixed, and the piston rod end on top is connected with feed bin, and feed bin is realized to descending operation.

The transmission power of conveyer belt 4 of the present utility model can adopt the drives such as motor, belt and chain, for industry routine techniques (conveyer of conveyer belt described in 201220265666.6) or commercially available conveyor product do not repeat them here.

After the utility model motor energising work, drive above-mentioned magnetic roller to clockwise rotate, phenomenon is provided with a sideway swivel of copper scale bunker for collecting; The above-mentioned upper and lower, left and right of this practicality all limit with direction shown in accompanying drawing 1.

The rotating shaft 8.1 of the utility model belt pulley 8 is connected with vibratory sieve 2.1 by connecting rod 8.2, concrete structure as shown in Figure 3, the connecting rod 8.2 that rotarily drives by rotating shaft 8.1 promotes slide block and does rectilinear motion, thereby slide block is connected the motion of drive vibratory sieve with vibratory sieve, be exactly specifically to adopt slider-crank mechanism, realized the motion of vibratory sieve.

Claims (5)

1. the copper scrap of good dispersion bits automated iron pick-out mechanism, it is characterized in that: comprise support (1), support (1) top is fixed with hopper (2), hopper (2) outlet below is provided with vibratory sieve (2.1), the discharging opening below of vibratory sieve (2.1) is provided with magnetic roller (3), magnetic roller (3) is in transmission connection by belt and the belt pulley (8) being fixed on support (1), the rotating shaft (8.1) of belt pulley (8) is connected with vibratory sieve (2.1) by connecting rod (8.2), magnetic roller (3) inside is fixed with arc-shaped magnet (3.1), described belt pulley (8) is in transmission connection by the output shaft of belt and motor (5), described magnetic roller (3) lower left is provided with iron filings bunker for collecting (7), and the lower right of magnetic roller (3) is provided with copper scale bunker for collecting (4.1), described copper scale bunker for collecting (4.1) bottom is provided with copper scale conveyer belt (4).

2. the copper scrap of good dispersion according to claim 1 bits automated iron pick-out mechanism, is characterized in that: the lateral surface of described magnetic roller (3) is provided with baffle plate (9).

3. the copper scrap of good dispersion according to claim 2 bits automated iron pick-out mechanism, is characterized in that: described baffle plate (9) is sideboard.

4. the copper scrap of good dispersion according to claim 1 bits automated iron pick-out mechanism, is characterized in that: described magnetic roller (3) outer peripheral face is provided with extend vertically some radially raised lines (3.2).

5. copper scrap bits automated iron pick-out mechanism according to claim 1, it is characterized in that: described hopper (2) top is provided with feeding storehouse (10), Si Ge angle, the bottom place of described feed bin be respectively provided with one can feed bin lifting oil cylinder (10.1).