CN218637923U - Glass cullet washs sieving mechanism - Google Patents

Abstract

The utility model provides a glass cullet washs sieving mechanism, includes feed system, cleaning system, conveyer belt and screening system, and the screening system includes feeder hopper, cylinder, motor, goes out hopper and waste material fill, and the feed system includes feeding hopper, vibrations groove and reciprocating sieve, and the motor is connected with the axis of cylinder, and cleaning system includes inlet tube, water distributor and shower nozzle. The roller is obliquely arranged, a plurality of leakage holes are formed in the side wall of the roller, and the waste hopper is positioned below the roller. The vibrating groove and the vibrating screen are positioned below the feeding hopper, and the vibrating screen is provided with screen holes. The utility model provides a glass disintegrating slag washs sieving mechanism can carry out the secondary screening to the glass disintegrating slag, washs through the screening and can further reject foreign matter and impurity wherein, clears up effectually, can promote useless glass's recycle ratio, reduces environmental pollution.

Description

Glass cullet washs sieving mechanism

Technical Field

The utility model belongs to garrulous glass recovery unit, concretely relates to washing sieving mechanism of glass disintegrating slag.

Background

In the process of glass production and processing, the recycled broken glass can be added as a part of the glass raw material, so that the production cost can be reduced, defective glass can be recycled, and extra burden on garbage treatment can be avoided. When retrieving broken glass, need screen cullet, reject the foreign matter of the inside, just can be used for retrieving the cullet and rebuild, and above step generally is the glass piece of selecting comparatively large piece, still can contain a lot of glass disintegrating slag in small, broken bits in small, if handle like this, can waste very big partly resource, if can further screen the foreign matter of selecting, can further reduction in production cost, improve cullet's recycle ratio. And the screening process of the broken glass dregs clearance in the foreign matter differs to some extent with before, and firstly the foreign matter in the broken glass dregs is more difficult to be selected because the broken glass dregs are small, and together with the better mixture of foreign matter, secondly if carry out the broken glass screening under open air environment, can sneak into other foreign matters such as earth, dust in the broken glass dregs, above reason all can promote the screening degree of difficulty of broken glass dregs.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a glass disintegrating slag washs sieving mechanism sets up the reciprocating sieve and carries out the first screening, gets rid of the big appearance foreign matter, washs the screening with the cylinder, gets rid of the earth in the glass disintegrating slag. Dust, etc., and finally obtaining the glass cullet which can be recycled.

In order to realize the effect, the following technical scheme is adopted:

the utility model provides a glass disintegrating slag washs sieving mechanism, including the feed system, a cleaning system, conveyer belt and screening system, the feed system export is located conveyer belt one end top, the conveyer belt other end is located screening system feed inlet top, the conveyer belt is arranged in conveying the glass disintegrating slag in the feed system to the screening system and filters, wherein, the screening system includes the feeder hopper, the cylinder, including a motor, an end cap, a controller, and a cover plate, go out hopper and waste material fill, the motor is connected with the axis of cylinder, a power for providing cylinder pivoted, the feeder hopper is located the below of conveyer belt one end, its export stretches into in the cylinder, send into the glass disintegrating slag that the conveyer belt carried in the cylinder through the feeder hopper. In order to screen the broken glass slag, open on the lateral wall of cylinder has a plurality of small openings, and the size of small opening will satisfy and can let the tiny foreign matter in the broken glass slag fall out to guarantee that the broken glass slag can not pass through the small opening, so the small opening needs set up according to the broken degree of broken glass slag. Go out the hopper and be located the cylinder oral area, the waste material fill is located the cylinder and opens the below that has the small opening part, goes out hopper and waste material fill respectively with the broken glass sediment that filters with select the foreign matter and guide out sieving mechanism, and usable hopper car or case are put and are collected in the exit that goes out hopper and waste material fill. Wherein, go out hopper and feeder hopper and establish respectively at the both ends of cylinder to make the glass disintegrating slag can obtain fully rotating in the cylinder. The during operation, the glass disintegrating slag falls into the feeder hopper from the conveyer belt in, send into in rotatory cylinder, the rotation of cylinder drives the glass disintegrating slag and constantly rolls in inside, and the tiny foreign matter that exists inside just falls out from the small opening, and the foreign matter that falls out is collected by the waste material fill, and accomplishes the clearance glass disintegrating slag to the foreign matter after rolling many times and collect by going out the hopper, collects the transportation to foreign matter and glass sediment through different equipment.

Furthermore, the feeding system comprises a feeding hopper, a vibration groove and a vibration sieve, wherein the vibration groove is positioned below the feeding hopper, one side of the vibration groove is provided with a first vibrator, and the other side of the vibration groove is obliquely arranged downwards. The reciprocating sieve is located the vibrations groove below, and one side is equipped with the second electromagnetic shaker, and the opposite side sets up downwards to one side, and it has the sieve mesh to open on the reciprocating sieve, and the sieve mesh is arranged in rejecting the great foreign matter in the broken glass piece, and its size will guarantee that the broken glass piece can pass through, and the foreign matter can't pass through, sets up according to actual conditions, and the sieve mesh part is located the conveyer belt top, makes the broken glass piece can directly fall to the conveyer belt from the sieve mesh on. The first vibrator and the second vibrator are capable of generating vibration, for example, an eccentric weight block or a rotating shaft is arranged on a motor and is connected with a vibrating screen or a vibrating groove through an eccentric wheel, and common vibration generating equipment in the prior art is adopted. The vibrations groove is located the export below of feeding funnel, can disperse under vibrations when the glass disintegrating slag in the feeding funnel falls into the vibrations inslot and spread out, then fall into the reciprocating sieve again in, firstly avoid the glass disintegrating slag directly to fall into the reciprocating sieve in influence the screening effect, secondly avoid the feeding funnel export to pile up because of the glass disintegrating slag and block up. After the glass disintegrating slag falls into the reciprocating sieve, constantly tremble and remove to the incline direction under the effect of the vibrations effect, at this in-process, the great foreign matter in the glass disintegrating slag is left over on the reciprocating sieve, and the glass disintegrating slag falls on the conveyer belt through the sieve mesh, then collects the foreign matter of selecting in the lower below of reciprocating sieve.

Furthermore, the cleaning system comprises a water inlet pipe, a water distribution pipe and a spray head, the spray head is arranged on the water distribution pipe, the water distribution pipe is connected with the water inlet pipe, the water inlet pipe is connected with an external water supply pipeline and used for supplying water to the cleaning system, and the water distribution pipe is positioned above the conveyor belt and used for cleaning the broken glass slag in the conveying process of the broken glass slag.

Furthermore, with above-mentioned scheme difference lie in, cleaning system's water-distribution pipe stretches into in the cylinder, lets the glass disintegrating slag wash in the cylinder, through rolling the washing and promote the cleaning performance.

Further, the cylinder slope sets up, and the horizontal position that is close to out hopper one end is less than the other end, lets the glass disintegrating slag can remove to a hopper one end automatically at the in-process that rolls, and the inclination of cylinder is difficult too big, as long as can let the glass disintegrating slag remove in inside, avoid causing the glass disintegrating slag to remove too fast because of the angle is too big, screening, cleaning process short cause the problem of screening unclean.

Further, the sieving mechanism still is equipped with the collecting frame, and the discharge gate that goes out the hopper stretches into in the collecting frame, and the broken glass sediment that the screening was accomplished can be piled up in the collecting frame, then transports with other equipment, carries out recycle.

The utility model provides a screening device is washd to glass disintegrating slag can carry out the secondary screening to the glass disintegrating slag, further rejects foreign matter wherein, and the clearance is effectual, can promote useless glass's recycle and rate, reduces environmental pollution.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings.

FIG. 1 is a schematic structural diagram of a first embodiment of a screening apparatus;

FIG. 2 is a schematic structural diagram of a second embodiment of a screening apparatus;

FIG. 3 is a schematic view of the inner structure of the drum;

FIG. 4 is a schematic view of a shaker;

FIG. 5 is a schematic diagram of a screening system position relationship;

shown in the figure: 1-conveying belt, 2-feeding hopper, 3-roller, 4-motor, 5-discharging hopper, 6-waste hopper, 7-perforated hole, 8-feeding hopper, 9-vibration groove, 10-vibration sieve, 11-first vibrator, 12-second vibrator, 13-sieve hole, 14-water inlet pipe, 15-water distribution pipe, 16-spray head and 17-material collecting frame.

Detailed Description

To further illustrate the concept of the present invention, the following embodiments of the present invention will be further described with reference to the accompanying drawings:

example one

As shown in figure 1, the broken glass slag cleaning and screening device comprises a feeding system, a cleaning system, a conveyor belt 1 and a screening system, wherein the screening system comprises a feeding hopper 2, a roller 3, a motor 4, a discharging hopper 5 and a waste hopper 6, the motor 4 is connected with a middle shaft of the roller 3, the feeding system comprises a feeding hopper 8, a vibration groove 9 and a vibration screen 10, and the cleaning system comprises a water inlet pipe 14, a water distribution pipe 15 and a spray head 16. The feed hopper 2 is positioned below one end of the conveying belt 1, an outlet of the feed hopper 2 extends into the roller 3, the roller 3 is obliquely arranged, a plurality of leaking holes 7 are formed in the side wall of the roller, the discharge hopper 5 is positioned at the opening part of the roller 3, and the waste hopper 6 is positioned below the part, provided with the leaking holes 7, of the roller 3. The vibration groove 9 is positioned below the feeding hopper 8, one side of the vibration groove is provided with a first vibrator 11, and the other side of the vibration groove is obliquely arranged downwards; the vibrating screen 10 is arranged below the vibrating groove 9, a second vibrator 12 is arranged on one side, the other side is arranged obliquely downwards, and a screen hole 13 is formed in the vibrating screen 10, and as shown in fig. 4, the screen hole 13 is partially arranged above the conveyor belt 1. The spray head 16 is arranged on a water distribution pipe 15, the water distribution pipe 15 is connected with a water inlet pipe 14, and the water distribution pipe 15 is positioned above the conveyor belt 1.

Example two

As shown in figure 2, a screening device is washd to broken glass dregs, including feed system, cleaning system, conveyer belt 1 and screening system, the screening system includes feeder hopper 2, cylinder 3, motor 4, play hopper 5 and waste material fill 6, and motor 4 is connected with the axis of cylinder 3, and feed system includes feeding hopper 8, vibrations groove 9 and reciprocating sieve 10, and cleaning system includes inlet tube 14, water distributor 15 and shower nozzle 16. Feed hopper 2 is located the below of 1 one end of conveyer belt, and 2 exports of feed hopper stretch into cylinder 3 in, and it has a plurality of small openings 7 to open on 3 slopes settings of cylinder and the lateral wall, goes out hopper 5 and is located 3 oral area of cylinder, and waste hopper 6 is located cylinder 3 and opens the below that has small opening 7 parts. The vibration groove 9 is positioned below the feeding hopper 8, one side of the vibration groove is provided with a first vibrator 11, and the other side of the vibration groove is obliquely arranged downwards; the vibrating screen 10 is positioned below the vibrating groove 9, one side of the vibrating screen is provided with a second vibrator 12, the other side of the vibrating screen is obliquely arranged downwards, a screen hole 13 is formed in the vibrating screen 10, and the part of the screen hole 13 is positioned above the conveyor belt 1. The spray head 16 is arranged on the water distribution pipe 15, the water distribution pipe 15 is connected with the water inlet pipe 14, and the water distribution pipe 15 extends into the drum 3, as shown in fig. 3. The side surface of the screening device is provided with a collecting frame 17, a discharge port of the discharge hopper 5 extends into the collecting frame 17, as shown in fig. 5, the collecting frame 17 consists of a rectangular bottom plate and three side panels, and one side without the side panels faces outwards.

The working process of the second embodiment is explained below, the device is started, the broken glass residues are poured into the feeding hopper 8 by other equipment, the broken glass residues are scattered through the vibrating groove 9 and fall on the vibrating screen 10, the vibrating screen 10 screens out larger foreign matters, and a cart is placed below the foreign matter outlet of the vibrating screen 10 for collecting and transporting the foreign matters. Glass disintegrating slag falls into on conveyer belt 1 after preliminary screening and sends into in the cylinder 3, constantly rolls in cylinder 3 and spray with shower nozzle 16, and tiny foreign matter and earth dust and washing water in the glass disintegrating slag fall into in the waste material fill 6 from small opening 7, and waste material fill 6 that need not collect above with piles up in one side, and the later stage shifts the processing. The broken glass sediment washs the screening back through cylinder 3, falls into out hopper 5 from the 3 exports of cylinder in, goes out hopper 5 with the leading-in collection material frame 17 of broken glass sediment, the broken glass sediment obtains the separation in the frame 17 that gathers materials and piles up, can directly transport the recovery by transportation equipment such as fork-lift truck.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and those skilled in the art can make various modifications and changes, and any modifications, equivalent replacements, improvements, etc. made by using the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a sieving mechanism is washd to broken glass sediment, includes feeding system, cleaning system, conveyer belt (1) and screening system, and the feeding system export is located conveyer belt (1) one end top, and conveyer belt (1) other end is located screening system feed inlet top, its characterized in that: the screening system includes feeder hopper (2), cylinder (3), motor (4), go out hopper (5) and waste material fill (6), motor (4) are connected with the axis of cylinder (3), feeder hopper (2) are located the below of conveyer belt (1) one end, feeder hopper (2) export stretches into in cylinder (3), it has a plurality of small openings (7) to open on cylinder (3) lateral wall, it is located cylinder (3) oral area to go out hopper (5), waste material fill (6) are located cylinder (3) and open the below that has small opening (7) part.

2. The glass cullet cleaning and screening device of claim 1, characterized in that: the feeding system comprises a feeding hopper (8), a vibration groove (9) and a vibration sieve (10), wherein the vibration groove (9) is positioned below the feeding hopper (8), one side of the vibration groove is provided with a first vibrator (11), and the other side of the vibration groove is obliquely arranged downwards; the vibrating screen (10) is located below the vibrating groove (9), a second vibrator (12) is arranged on one side, the other side is obliquely arranged downwards, a screen hole (13) is formed in the vibrating screen (10), and the screen hole (13) is partially located above the conveyor belt (1).

3. The apparatus for cleaning and screening glass cullet as defined in claim 2, wherein: the cleaning system comprises a water inlet pipe (14), a water distribution pipe (15) and a spray head (16), wherein the spray head (16) is arranged on the water distribution pipe (15), the water distribution pipe (15) is connected with the water inlet pipe (14), and the water distribution pipe (15) is positioned above the conveyor belt (1).

4. The glass cullet cleaning and screening device of claim 2, characterized in that: the cleaning system comprises a water inlet pipe (14), a water distribution pipe (15) and a spray head (16), wherein the spray head (16) is arranged on the water distribution pipe (15), the water distribution pipe (15) is connected with the water inlet pipe (14), and the water distribution pipe (15) extends into the roller (3).

5. The glass cullet cleaning and screening device of claim 3 or 4, characterized in that: the roller (3) is obliquely arranged, and the horizontal position close to one end of the discharge hopper (5) is lower than the other end.

6. The apparatus for cleaning and screening glass cullet as defined in claim 5, wherein: the material collecting device also comprises a material collecting frame (17), and a discharge hole of the discharge hopper (5) extends into the material collecting frame (17).

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