CN210058605U - Iron removing machine - Google Patents

Abstract

The utility model provides a deironing machine, including the conveyer belt support with set up the conveyer belt that carries on the bottle above that, the inboard attachement of conveying of conveyer belt has rather than synchronous transmission's magnetism adsorption equipment, and the bottom of conveyer belt is provided with the deironing district, and the iron plate of scraping that iron impurity struck off is gone up to the conveyer belt to the bottom of conveyer belt support. When the conveyer belt passes to the deironing district, strikes off by scraping iron plate iron impurity on the conveyer belt, and the iron impurity on conveyer belt surface breaks away from, through setting up magnetism adsorption equipment and conveyer belt cooperation, passes through the conveyer belt in conveying district and deironing district, realizes the automation of iron impurity and gets rid of, gets rid of the degree of difficulty and reduces, has guaranteed the deironing ability of deironing machine.

Description

Iron removing machine

Technical Field

The utility model relates to an environmental protection equipment technical field, more specifically say, relate to a magnetic separator de-ironing.

Background

In the field of environmental protection, PET (Polyethylene terephthalate) bottles are prepared into bottle sheet structures through recycling, so that the PET bottles are recycled.

When the PET bottle has whole bottle state cutting to bottle piece state, the bottle structure is transported by the bottle package state of compression, when getting into the cutting production line, the bottle package is decompressed through the bale splitter, and the bottle package is cut the separation into broken bottle state by the compression state, sends into subsequent label, the broken process of taking off through the magnetic separator, and the hawser of this in-process binding bottle package and the metallic impurity of sneaking into in the bottle package need be got rid of through the magnetic separator.

When removing metal impurities in bottle packages in the prior art, a magnet is attached to the back of a conveyor belt of the iron remover, and after the iron impurities are adsorbed by the surface of the conveyor belt, PET bottles after iron removal are sent to a subsequent process. Because the surface of the conveyor belt has magnetism, the bottom of the conveyor belt is provided with a scraper blade which is matched with the surface of the conveyor belt in a scraping way, and iron impurities adsorbed by the conveyor belt are removed. However, the process of scraping iron impurities by using the scraper has the defects that iron impurities are not completely removed, so that the iron impurities contained in the continuously fed PET bottle are not completely removed in the conveying process of the conveying belt, and the preparation quality of subsequent bottle pieces is influenced. And the scraper is matched with the conveyor belt, so that the surface of the conveyor belt is easily scratched, and the service life of the conveyor belt is influenced.

Therefore, how to ensure the iron removing capability of the iron remover is a problem to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a magnetic separator de-ironing to guarantee magnetic separator de-ironing's magnetic separator de-ironing ability.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a deironing machine, includes the conveyer belt support and sets up the conveyer belt that carries on the bottle above that, the conveying inboard of conveyer belt is provided with rather than synchronous transmission's magnetism adsorption equipment, the bottom of conveyer belt is provided with the deironing district of collecting absorbent iron impurity, the bottom of conveyer belt support is provided with right the iron plate of scraping that absorbent iron impurity strikes off on the conveyer belt.

Preferably, in the iron removing machine, the magnetic attraction device is an electromagnetic attraction device attached to the conveying inner side of the conveyor belt, and an electromagnetic controller for controlling power on and power off of the electromagnetic attraction device is arranged at the bottom of the conveyor belt bracket.

Preferably, in the iron removing machine, the electromagnetic attraction device is an annular electromagnetic attraction plate which is laid on the inner side of the conveyor belt and is arranged along the conveying path of the conveyor belt, and the inner side of the conveyor belt is in sliding fit with the surface of the annular electromagnetic attraction plate

Preferably, in the iron removing machine, the electromagnetic attraction device is a strip-shaped electromagnetic attraction plate attached to the conveying inner side of the conveyor belt and arranged along the width direction of the conveyor belt, and the electromagnetic attraction plate is continuously arranged along the conveying direction of the conveyor belt.

Preferably, in the above-described iron removing machine, a conveying back side of the conveyor belt is provided with a first conveying buffer connected to a conveying end thereof, and a second conveying buffer connected to a conveying start end of the conveyor belt, and the iron removing section is located between the first conveying buffer and the second conveying buffer.

Preferably, in the iron removing machine, the electromagnetic adsorption plate is integrally prepared on the conveying inner side of the conveyor belt.

Preferably, in the iron removing machine, the conveying back side of the conveyor belt is further provided with an aggregate guide plate extending from the first conveying buffer area to the second conveying buffer area for collecting the falling iron impurities.

The utility model provides a deironing machine, including the conveyer belt support with set up the conveyer belt that carries on the bottle above that, the conveying inboard of conveyer belt sets up the magnetism adsorption equipment, the bottom of conveyer belt is provided with the deironing district that corresponds with magnetism adsorption equipment deironing position, the bottom of conveyer belt support is provided with the iron plate of scraping that strikes off the conveyer belt on absorbent iron impurity. Conveyer belt support props the conveyer belt to subsequence discharging equipment by preorder feeding equipment frame, the conveying inboard of conveyer belt sets up electromagnetic adsorption device, bottle package after unpacking is delivered to the conveyer belt on the back, electromagnetic adsorption device gets electric and makes the iron impurity that carries in the conveyer belt surface adsorption bottle package, the conveyer belt continues the conveying with the bottle output, iron impurity continues to carry the bottom to the conveyer belt along with the conveyer belt, when the conveyer belt passes to the deironing zone, break away from the iron impurity on conveyer belt surface by iron plate, through setting up magnetic adsorption device and conveyer belt cooperation, adsorb iron impurity and get rid of in the deironing zone in the conveying zone through the conveyer belt, reduce the degree of difficulty of getting rid of iron impurity, the deironing ability of deironing machine has been guaranteed.

Drawings

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

Fig. 1 is a schematic structural diagram of the iron removing machine provided by the present invention.

Detailed Description

The utility model discloses a deironing machine has guaranteed the deironing ability of deironing machine.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, fig. 1 is a schematic structural diagram of the iron removing machine provided by the present invention.

The utility model provides a deironing machine, including conveyer belt support 1 with set up in its conveyer belt 2 that carries on the bottle, conveyer belt 2's the inboard attached rather than synchronous transmission's electromagnetic adsorption device 3 that has, conveyer belt 2's bottom is provided with the deironing district 4 that corresponds with electromagnetic adsorption device power-off position, and conveyer belt support 1's bottom is provided with the electromagnetic controller that control electromagnetic adsorption device gained electricity and lost electricity. Conveyer belt support 1 props conveyer belt 2 to sequent discharging equipment by preorder feeding equipment frame, the conveying inboard of conveyer belt 2 sets up electromagnetic adsorption device, bottle package after the bale breaking off is delivered to on conveyer belt 2 after, electromagnetic adsorption device 3 gets electric and makes 2 surface adsorption bottle package of conveyer belt surface adsorb the iron impurity that carries, conveyer belt 2 continues the conveying and exports the bottle, iron impurity continues to carry to the bottom of conveyer belt along with conveyer belt 2, when conveyer belt 2 reaches deironing district 4, electromagnetic adsorption device 3 that is controlled this position by the electromagnetic controller loses the electricity, the iron impurity on 2 surface of conveyer belt breaks away from automatically, through setting up electromagnetic adsorption device and the cooperation of conveyer belt 2, through conveyer belt 2 getting electric and losing the electricity in conveying district and deironing district 4, realize the automatic getting rid of iron impurity, get rid of the degree of difficulty and reduce, the deironing ability of deironi.

Still set up on the conveyer belt support 1 of magnetic separator de-ironing and scrape iron plate 5, its setting position corresponds the deironing district, adsorbs in 2 data send processes of conveyer belt sneaking into iron impurity in the whole bottle, conveys to deironing district after, clears away conveyer belt surface iron impurity by scraping iron plate 5, avoids adsorbing iron impurity continuous conveying on the conveyer belt 2. The iron scraping plate 5 can be made of metal or hard plastic, so that the iron impurity scraping effect is guaranteed.

In an embodiment of the present disclosure, the electromagnetic adsorption device 3 is a strip-shaped electromagnetic adsorption plate attached to the conveying inner side of the conveyor belt 2 and arranged along the width direction of the conveyor belt, and the electromagnetic adsorption plate is continuously arranged along the conveying direction of the conveyor belt.

Electromagnetic adsorption device 3 is for laying in the inboard of conveyer belt 2 to the cyclic annular electromagnetic adsorption board that the transfer path of following conveyer belt 2 arranged, the inboard of conveyer belt 2 and the cooperation of sliding on cyclic annular electromagnetic adsorption board's surface, electromagnetic adsorption device 3 sets up in the conveying of conveyer belt 2 is inboard, its circular telegram makes 2 surfaces of conveyer belt have magnetic adsorption power, because conveyer belt 2 in transportation process, need carry the bottle in succession, consequently need electromagnetic adsorption device 3's magnetic force continuously to be acted on 2 surfaces of conveyer belt. The electromagnetic adsorption device 3 can be fixedly arranged on the inner ring of the conveyor belt 2, and is in an annular electromagnetic supporting structure abutted against the inner side of the conveyor belt 2, an electromagnetic supporting plate of an arc structure is arranged at the turning position of the conveyor belt 2, and the inner side of the electromagnetic adsorption device is in sliding fit with the surface of the annular electromagnetic adsorption plate supporting structure in the conveying process of the conveyor belt 2, so that the electromagnetic adsorption plate is easily controlled to be switched on and off. The annular structure is formed by laying the electromagnetic adsorption plate along the conveying direction of the conveying belt, and observing from one side of the conveying belt in the width direction, wherein the electromagnetic adsorption plate is in an annular structure.

The annular electromagnetic adsorption plate can be set to be a closed structure, and can also be set to be an open structure at the conveying starting end of the conveying belt, so that the conveying belt is only used for conveying bottles to a turning position, and the surface of the conveying belt has continuous magnetic attraction.

Certainly, the electromagnetic adsorption plate can also be a strip-shaped electromagnetic adsorption plate which is fixedly arranged on the inner side of the transmission belt and can be synchronously transmitted along with the transmission belt, the length direction of the strip-shaped electromagnetic adsorption plate is arranged along the width direction of the transmission belt, and the stability of the electromagnetic adsorption plate along with the transmission structure of the transmission belt is ensured by controlling the width of the electromagnetic adsorption plate.

In one embodiment of the present invention, the conveying back side of the conveyor belt 2 is provided with a first conveying buffer 41 connected to the conveying end thereof, and a second conveying buffer 42 connected to the conveying start end of the conveyor belt, and the deironing section 4 is located between the first conveying buffer 41 and the second conveying buffer 42. In the conveying process of the conveying belt 2, the bottles are conveyed to subsequent equipment from the tail end of the conveying belt 2, and it is ensured that only the bottles are conveyed out, and the iron impurities are still adsorbed on the surface of the conveying belt. A first conveying buffer area 41 is arranged between the conveying tail end of the conveying belt 2 and the back side of the conveying belt, and the position is guaranteed to have continuous electromagnetic suction, so that ferrous impurities are effectively prevented from being subjected to subsequent processing equipment. Similarly, the bottle body fed in the preamble is received at the beginning of the conveying belt 2, and it should be ensured that the iron impurities on the surface of the conveying belt from the back side to the beginning of the conveying belt 2 are removed as much as possible, thereby avoiding the influence on the continuous feeding of the bottle body. The deironing zone 4 is located between the first conveying buffer zone 41 and the second conveying buffer zone 42, and an electromagnetic adsorption plate of the deironing zone 4 is in a power-off state, so that the magnetic force on the surface of the conveying belt is released, and the iron impurities are completely removed.

In an embodiment of the present disclosure, the electromagnetic absorption plate is integrally prepared at the transmission inner side of the transmission belt. The electromagnetic adsorption plate can be set to be an independent lath-shaped structure, and can also be directly prepared on the inner side of the conveying belt, so that the stability of the conveying belt in the conveying process is ensured.

In one embodiment of the present invention, the conveying back side of the conveyor belt 2 is further provided with an aggregate guide plate extending from the first conveying buffer 41 to the second conveying buffer 42 for collecting the falling iron impurities. In the continuous work of magnetic separator de-ironing, what iron impurity lasted drops in the bottom of magnetic separator de-ironing, through setting up the deflector that gathers materials, concentrates the collection to the iron impurity that drops on the conveyer belt, is convenient for to the regular clearance of magnetic separator de-ironing. Because the first transmission buffer area of conveyer belt has electromagnetic attraction continuously, can arrange the deflector that gathers materials from the end of first transmission buffer area, improve the convenience of iron class impurity collection.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. The utility model provides a deironing machine, its characterized in that includes the conveyer belt support and sets up the conveyer belt that carries on the bottle above that, the conveying inboard of conveyer belt is provided with rather than synchronous transmission's magnetism adsorption equipment, the bottom of conveyer belt is provided with the deironing district to absorbent iron impurity collection, the bottom of conveyer belt support is provided with right absorbent iron impurity scrapes iron plate on the conveyer belt.

2. The iron removing machine as claimed in claim 1, wherein the magnetic attraction device is an electromagnetic attraction device attached to the conveying inner side of the conveyor belt, and an electromagnetic controller for controlling the power on and power off of the electromagnetic attraction device is arranged at the bottom of the conveyor belt bracket.

3. The iron remover as claimed in claim 2, wherein the electromagnetic attraction device is an annular electromagnetic attraction plate laid on an inner side of the conveyor belt and arranged along a conveying path of the conveyor belt, and the inner side of the conveyor belt is in sliding fit with a surface of the annular electromagnetic attraction plate.

4. The iron removing machine as claimed in claim 2, wherein the electromagnetic attraction device is a strip-shaped electromagnetic attraction plate attached to the conveying inner side of the conveyor belt and arranged along the width direction of the conveyor belt, and the electromagnetic attraction plate is continuously arranged along the conveying direction of the conveyor belt.

5. The iron removal machine of claim 4, wherein the conveying back side of the conveyor belt is provided with a first conveying buffer connected to a conveying end thereof, and a second conveying buffer connected to a conveying start end of the conveyor belt, the iron removal zone being located between the first conveying buffer and the second conveying buffer.

6. The iron remover as claimed in claim 4, wherein the electromagnetic absorption plate is integrally prepared on a conveying inner side of the conveyor belt.

7. The iron removal machine of claim 5, wherein the transport back side of said conveyor belt is further framed with an aggregate guide plate extending from said first transport buffer to said second transport buffer for collecting the falling iron impurities.

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