KR20170108396A - Washing-drying device for recycled material used in film-glass separating plant for recycling wasted glass - Google Patents

Abstract

The present invention relates to a washing-drying device for recovery materials for recovering fine recycling materials by removing and drying foreign substances in a wasted glass recycling plant for separating glass and a film from film-adhesive glass such as wasted glass of a vehicle and recycling the glass and the film, by using a water jet, and in the washing-drying device for recovery materials for washing and drying the film recovery materials of the film-glass recovery plant for wasted glass recycling, the present invention provides the washing-drying device for recovery materials of a film-glass recovery plant for wasted glass recycling, which comprises: an inlet inputting the film recovery materials; a washer spraying the water jet to separate the foreign substances from the surface of particles of the film recovery materials; a washing tank forming a predetermined water level in the washer; and a dryer drying the particles of the recovery materials which have passed through the washer.

Description

WASHING-DRYING DEVICE FOR RECYCLED MATERIAL USED IN FILM-GLASS SEPARATING PLANT FOR RECYCLING WASTED GLASS BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a film-

The present invention relates to a recovered water washing and drying machine used in a waste glass recycling plant for separating and recycling a glass and a film from a film laminated glass such as an automobile waste glass and more particularly to a recovered water washing and drying machine using a water jet And then drying and recovering high-purity recycled raw material.

The film laminated glass refers to a special glass in which a specific resin or film is coated or laminated between glass layers. Usually, automobile glass is one of the film laminated glasses which are bonded using a film using a resin to protect an occupant in an accident. These resins form a film between the glasses to increase the strength of the glass and lower the embrittlement so that the glass fragments are not scattered. In addition to automobile glass, glass used for high-rise buildings may cause a serious accident if scattered even if cracks occur. Therefore, a film laminated glass in which a resin layer is formed between a plurality of glass layers to reduce brittleness is used. In particular, in recent years, glass has been used as a bonding material for various properties of materials, in order to increase the polarizing ability and the infrared absorbing power depending on the application as well as the physical properties related to the strength of the glass.

In particular, automobiles are consumables that must be discarded at a certain lifetime, necessitating the recycling of automobile waste glass. A resin film such as polyvinyl butyrate (PVB) is used for an automobile glass. Hereinafter, the prior art and the present invention will be described focusing on a general automobile glass having a PVB film and a tanning film.

At the junkyard, first, the automobile is separated from glass and other scrap materials, and then PVB and glass are separated. It is difficult to recycle the recycled film, so it is separated and recovered. The separated waste glass can be recycled as a raw material for other glass products. In the case of PVB, the recovered PVB flakes can be reused as they are, or they can be used as a dispersion liquid to be used for bonding glass to an automobile. PVB flakes can be synthesized with zeolite, Or may be recycled to make PVB moldings from pallets.

However, as shown in FIG. 1, glass can be recovered only as a result of crushing / crushing the glass and separating it into wave glass and fine powder using density or specific gravity difference. It is difficult to separate a specific film separately there was.

However, crushing alone can not completely separate the glass (PVB), the tacking film, and the glass to be bonded. Therefore, even if it is separated into wave glass and fine powder using the specific gravity difference, there is a relatively small amount of completely separable for recyclability.

Therefore, there is a need for a process and a plant that can effectively separate film materials such as PVB as well as glass.

In order to solve the problems of the prior art, the present invention provides an apparatus for wetly washing and drying a recovered material in order to remove foreign matters from the recovered film materials by crushing the waste glass to form a high-purity recycled material, There is a purpose.

In order to accomplish the above object, the present invention provides a recovered water washer-dryer for cleaning and recovering film recovered from a film-glass recovery plant for waste glass recycling, comprising: an inlet for inputting a film recovered; And a drying unit for drying the recovered water particles passed through the washing machine, wherein the film-forming unit comprises a film-forming apparatus for recycling the waste glass, The recovered water wash-dryer of the glass recovery plant is provided.

The washing machine preferably includes a cylindrical housing, a feed screw rotating inside the housing, a feed motor for rotating the feed screw, and a sprayer formed on the inner circumferential surface of the housing for spraying the water jet toward the feed screw Do. At this time, it is preferable that at least a part of the housing has a mesh structure composed of perforations smaller than the diameter of the film-recovered water particles. Accordingly, at least a part of the washing machine can be immersed in water by the water impregnated in the washing tub.

The washing tank is preferably connected to a water purifier so that the water containing the foreign matter passing through the washing water is purified and reused.

The dryer may include a conveyor belt for conveying the wet film recovered particles through the washer, and a drying oven disposed on the conveyor belt for drying the film recovered particles.

On the other hand, the recovered film may be a PVB film.

As described above, according to the present invention, a water jet is sprayed on the recovered water of the individual film material separated from the waste glass, and then the foreign material is removed and dried, thereby recovering highly pure recycled material.

Particularly, according to the present invention, it is possible to remove fine glass, dust, and tacking film particles from PVB particles having a high recycling rate among waste glass, thereby remarkably improving the quality of recovered PVB.

1 is a block diagram illustrating a waste glass recycling process according to the related art.
2 is a schematic diagram schematically showing each process and equipment of the film-glass recovery plant according to the present invention.
FIG. 3 is a photograph showing the states of the materials injected into and discharged from the respective stages of the film-glass recovery plant according to the present invention.
FIG. 4 is a schematic view showing the configuration of an embodiment of the recovered water washing-drying machine of the film-glass recovery plant according to the present invention.
FIG. 5 is a cross-sectional view of the cylindrical washer of the recovered water washer-dryer of FIG. 10; FIG.
FIG. 6 is a schematic diagram showing the cleaning process of the cylindrical washer in the recovered water washer-dryer of FIG. 10; FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

And throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "electrically connected" with another part in between. Also, when a component is referred to as " comprising "or" comprising ", it does not exclude other components unless specifically stated to the contrary .

The film laminated glass means a glass including a laminated film such as a polyvinyl butyral film (hereinafter referred to as a PVB film) between two sheets of glass plate. In the case of waste glass for automobile, a siding film is also included, The film laminated glass to be treated in the present invention also includes a glass having a coating film (a switching film) such as an ultraviolet shielding film adhered to a surface thereof. In the present invention, the recovered material is defined as a first material and a second material having a higher density than the first material, and is a film material. The waste glass described in this embodiment is automotive waste glass, the first material is a tating film and the second material is a PVB film.

Fig. 2 schematically shows a film-glass separation process and a plant according to the present invention. As shown in FIG. 2, the plant according to the present invention comprises a first step (S100) of crushing / crushing waste glass using a shredder apparatus and a hammer mill apparatus, A second step (S200) of screening and recovering the glass, separating the first material, the second material and the glass-bonded particles into a glass of the first material, the second material and the fine powder by applying a shear force to the bonded particles after the glass is recovered (S300), and a fourth step (S400) in which the recovered first substance or the second substance is washed by applying a water jet to enhance the purity, and then drying and recovering.

Accordingly, the plant includes a crusher 100 for the first process (S100), a glass separator 200 for the second process (S200), a film separator 300 for the third process (S300), and a fourth process (S400 Dryer 400 for recovering the second material (for example, the second material) separated in the film separator 300 in a high purity manner. The recovering material washer- .

As shown in Fig. 3, the glass firstly crushed in the crusher 100 is made of a second material film having a diameter of 5 mm or more or its laminate B1, a first material having a diameter of 5 mm or more or its laminate C1, Of the fine glass (D1). The fine glass (D1) may comprise fine glass having a diameter of less than 1 mm. Since the first material and the second material made of resin are low in embrittlement, they are in a state of forming particles significantly larger than glass. In the primary wave glass (D2) glass in which the glass is recovered in the glass separator 200, the glass and the first and second materials are bonded. In the film separator 300, the first material, the second material, and the glass are separated from each other and recovered.

On the surface of the first material or the second material particles recovered through the film separator 300, a foreign substance having a small particle diameter such as fine glass, dust or the like may be present. Therefore, in order to recover film particles of high purity, it is necessary to remove the foreign substances.

As shown in FIG. 4, in this embodiment, the recovered material recovery material washer-dryer 400 has a structure in which the particles B2 of the recovered film material (first material or second material, hereinafter referred to as "recovered material" A cleaning tank 420 for cleaning the collected recovered material particles and a cleaning unit 420 for cleaning the recovered material particles by spraying a water jet inside the cleaning tank 420 to remove foreign matter A cylindrical washer 430 for washing the washed recovered material particles, and a drier 450 for drying the washed recovered material particles.

The cylindrical washer 430 is disposed on the cleaning tank, and has a recovery material conveyance screw 437 therein. The rotary shaft 434 of the recovered material conveyance screw 437 is rotated by the conveyance motor 432 and is conveyed to the conveyor 437 through a conveying screw 437 Lt; / RTI >

As shown in FIG. 5, a plurality of injectors 438 are disposed on the inner circumferential surface of the cylindrical washing machine 430, and water jets are injected to the impeller conveyed by the conveying screws 437.

The cylindrical housing 436 of the cylindrical washer 430 is formed with a mesh structure having a diameter of 50 mu m or less in diameter for discharging water at least partially, so that water and foreign matter can be discharged. The size of such perforations is illustrative and should be designed to be smaller than the size of the particles of the recovered material B2 formed in the pre-processing.

The water level of the inside of the cylindrical washing machine 430 can be adjusted by the level of the washing bath 420. The water level of the inside of the cylindrical washing machine 430 can be adjusted by the water level of the washing bath 420. [

6, the plurality of injectors 438 inject water jets j1 and j2 in the washing tub, and the water jets j1 injected into the water-immersed region W according to the level of the washing tub The vibration is applied to the recovering material (the first material, the PVB film in this embodiment) moving along the conveying screw 437, thereby reducing and separating the adhesion of the foreign substance attached to the surface of the recovered material. Water jets (j2) in the empty space region (E), and light foreign substances composed of separated fine particles are washed out so as not to proceed through the transfer screw. In addition, the outlet side of the cylindrical washing machine 430 is located higher than the inlet side, and the foreign matter is firstly separated by the water jet j1 of the W region in the course of the natural transfer, and then the foreign matter is washed away by the water jet j2 Lt; / RTI >

The recovered material particles, which have passed through the cylindrical washing machine 432 and have been cleaned with water, are introduced into the conveyor belt 454 of the dryer through the dryer inlet 452. A drying oven 458 is provided on the conveying belt 454 and the recovered material washed by the water jet is conveyed and dried on the conveying belt 454 driven by the driving motor 456. Through the drying process, the impurities of the impellers are prevented and the purity is increased, resulting in a high-purity final recycle recovered product (B3).

In this embodiment, the recovered material is PVB particles, but the bonding film is not limited to PVB particles, and the bonding film may be made of other materials. However, since the incidence of waste glass in automobiles is the highest, And the PVB is recovered.

The water in the washing tub 420 may be circulated to the purifier 440 to filter the foreign substances and then be reused.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be clear to those who have.

400: recovery material cleaning-dryer 410: inlet
420: washing tub 430: cylindrical washing machine
432: Feed motor 434:
436: Housing 437: Feed screw
450: dryer 452: dryer inlet
454: conveying belt 456: driving motor
458: Dry heat, j1, j2: Water jet

Claims (7)

A recoverable material washer-dryer for cleaning and drying film recoveries of a film-glass recovery plant for waste glass recycling,
An inlet for introducing the recovered film,
A washer for spraying a water jet to separate foreign matter from the expression of the film recovered water particles,
A washing tank for forming a predetermined level in the washing machine,
A dryer for drying the recovered water particles passed through the washing machine
For the recycling of waste glass comprising a film-glass recovery plant.
The method according to claim 1,
In the washing machine,
A cylindrical housing,
A conveying screw rotating inside the housing,
A feed motor for rotating the feed screw,
A water jet sprayer for spraying the water jet toward the transfer screw,
The recovered water of the film-glass recovery plant for the recycling of waste glass.
The method of claim 2,
Wherein at least a portion of the housing has a mesh structure of perforations smaller than the diameter of the film recovered particles
Films for recycling waste glass - Reclaimed water wash - dryers for glass recovery plants.
The method of claim 3,
A recovered water washer-dryer of a film-glass recovery plant for recycling waste glass in which at least a portion of the washer is immersed in water by water impregnated in the wash tank.
The method according to claim 1,
Wherein the cleaning tank is connected to a purifier to purify the water containing the foreign matter passing through the cleaner and then reuse the recovered water of the film-glass recovery plant.
The method according to claim 1,
The dryer
A conveyance belt for conveying the wet film recovery particles through the washer,
A drying belt disposed on the conveyance belt for drying the film recovered particles passing through the conveyance belt,
The recovered water of the film-glass recovery plant for the recycling of waste glass.
7. The method according to any one of claims 1 to 6,
The recovered film is a PVB film that is reclaimed from the film-glass recovery plant for waste glass recycling.

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