CN215783953U - Glass crushing treatment system - Google Patents

Abstract

The utility model discloses a glass crushing treatment system, which comprises a crushing structure and a cleaning structure which are arranged according to a treatment process, wherein the cleaning structure comprises a support, a dry cleaning box body arranged on the support and a medicament cleaning assembly arranged at the rear end of the dry cleaning box body, two sides of the dry cleaning box body are arranged on a bearing on the support through smooth rotating rings, a power gear ring is arranged in the middle of the dry cleaning box body and is meshed with a motor arranged on the support, two sides of the dry cleaning box body are provided with openings, the inner section of the dry cleaning box body is an inclined plane structure inclined from an inlet end to an outlet end, a friction blocking column inclined towards the inlet end is arranged on the inclined plane structure, a magnet is embedded on the friction blocking column, and a winnowing structure is further arranged at the outlet end. The utility model has simple structure, safety and reliability, and after the waste glass is crushed for the second time, the waste glass is pretreated by the dry cleaning box and then enters the cleaning component for medicament treatment, thereby reducing the medicament treatment dosage, greatly reducing the production cost and realizing better treatment effect.

Description

Glass crushing treatment system

Technical Field

The utility model relates to the field of glass recovery, in particular to a glass crushing treatment system.

Background

The recovery and utilization of cullet are always the common auxiliary methods for manufacturing glass, because the addition of a certain amount of cullet in the batch materials during glass production can reduce the consumption of powder and promote melting, and can effectively improve the glass production efficiency.

The glass container produced by the recycled glass has the same wall transparency and container strength as the glass container produced by the new raw material, and the glass product manufactured by the recycled secondary material compared with the raw material can save 38% of energy, reduce 50% of air pollution, reduce 20% of water pollution and reduce 90% of waste.

However, a certain amount of impurities are carried in the glass cullet when the cullet is added, so that the produced glass is easy to crack in a cooling process, and therefore, the cullet needs to be subjected to impurity removal treatment when the cullet is added. The film coating layer of the glass is taken as the most difficult impurity to remove, and is generally removed by adopting liquid medicine at present, so that the dosage of the liquid medicine is large, the cost is high, and the environmental protection property is poor.

And generally contains some other impurities such as iron chips in addition to the coating layer.

Therefore, a crushing treatment structure with low cost and good treatment effect is needed, and the reliability of recycling the waste glass is ensured.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provides a glass crushing treatment system which is simple in structure, safe and reliable, and after waste glass is crushed for the second time, the waste glass is pretreated through a dry cleaning box and then enters a cleaning assembly for medicament treatment, so that the medicament treatment dosage is reduced, the production cost is greatly reduced, and a better treatment effect is realized.

And, this structure can also be handled the iron fillings in the cullet, and the impurity treatment of integrated form further gets rid of impurity.

At the crushing end, the crushing effect is reliable and stable with time and labor saving.

In order to achieve the purpose, the utility model adopts the technical scheme that: the utility model provides a glass broken handling system, include broken structure and clearance structure according to the processing progress setting, the clearance structure includes the support and sets up the dry cleaning box body on the support, still including setting up the medicament washing subassembly in dry cleaning box body rear end, dry cleaning box body both sides are passed through glossy rotating ring and are set up on the bearing on the support, dry cleaning box body middle part is equipped with power ring gear and sets up the motor meshing on the support, the two side opening of dry cleaning box body, the internal cross-section is the inclined plane structure by entrance point to the exit end slope, the structural friction bumping post that is equipped with the slope to the entrance point of inclined plane, it is equipped with magnet to inlay on the friction bumping post, the exit end still is equipped with selection by winnowing structure.

And crushing structure includes the broken subassembly of first broken subassembly and the broken subassembly of second that sets up from top to bottom at broken box, and the bottom side is inclined plane receipts material end, and the broken discharge gate of slope is leading-in to the entrance point.

Specifically, first broken subassembly includes the slope tool bit and the sloping platform of mutually supporting, is crushing district between the two, and slope tool bit rear end is through first cylinder drive.

Wherein, broken district upside is broken feed inlet, and the downside is the shrouding of being connected with the second cylinder.

Further, the lower side of the sealing plate is provided with a second crushing assembly which comprises a hob driven by a crushing motor.

Further, the inlet end is arranged at the central position, and the outlet end has the same section with the dry cleaning box body.

Furthermore, a blanking inclined plane extending out of the support is arranged on the lower side of the outlet end of the support.

Furthermore, the friction bumping post is big end down structure, including the spherical enlarged end of upside and the stand that the downside inclines.

Furthermore, the medicament cleaning assembly comprises a gantry support, a medicament cleaning pool and a flushing pool which are arranged from top to bottom, a grabbing motor is arranged on the gantry support through an electric sliding part, and the grabbing motor is connected with the cleaning net rack through a traction rope.

Further, the air separation structure comprises a bell mouth, an axial flow fan and a dissolving tank which are arranged in sequence.

In summary, the utility model has the following advantages:

the utility model has simple structure, safety and reliability, and after the waste glass is crushed for the second time, the waste glass is pretreated by the dry cleaning box and then enters the cleaning component for medicament treatment, thereby reducing the medicament treatment dosage, greatly reducing the production cost and realizing better treatment effect.

And, this structure can also be handled the iron fillings in the cullet, and the impurity treatment of integrated form further gets rid of impurity.

At the crushing end, the crushing effect is reliable and stable with time and labor saving.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of an inner structure of the dry cleaning cabinet;

fig. 3 is a schematic view of a crushing structure.

Detailed Description

The utility model is further described with reference to the following figures and examples:

example 1:

a glass breaking treatment system, as shown in fig. 1-3, includes a breaking structure 100 and a cleaning structure arranged in accordance with a treatment schedule.

On the setting of broken structure, including the broken subassembly of first broken subassembly and the broken subassembly of second of setting from top to bottom in broken box, the bottom side is inclined plane receipts material end 101, and the inclined plane setting of receipts material end is conveniently gathered materials.

The lower side of the material receiving end is communicated with an inclined crushing discharge port 102, so that the material is guided into the inlet end 23 of the cleaning structure and enters the next process.

In a particular crushing assembly arrangement, the first crushing assembly comprises a cooperating inclined cutting head 103 and a ramp 104 between which is a crushing zone 105, the rear end of the inclined cutting head 103 being driven by a first cylinder 106.

Wherein, the upper side of the crushing area 105 is a crushing feed inlet 107, and the lower side is a closing plate 109 connected with a second cylinder 108.

And the lower side of the closure plate 109 is the second breaker assembly.

On the action mechanism of the first crushing assembly, a crushing feed inlet 107 feeds materials, the waste glass processed at the front end enters a crushing structure, and at the moment, a sealing plate 109 seals the whole crushing area to receive the waste glass.

The first cylinder acts, and the inclined cutter head 103 extrudes the glass to realize the breaking of the glass.

After the crushing is finished, the second cylinder acts, and the sealing plate is opened.

The cullet enters the second crushing subassembly, and referring to fig. 3, the second crushing subassembly includes hobbing cutter 111 of broken motor 110 driven, and the cullet that falls through the crushing district carries out the secondary crushing on the hobbing cutter, guarantees crushing effect.

And the crushed glass enters a cleaning structure.

In the setting of the cleaning structure, first, at the preprocessing end, the cleaning structure includes a bracket 1 and a dry cleaning box body 2 provided on the bracket 1.

In the connection setting, the two sides of the dry cleaning box body 2 are arranged on the bearing 11 on the bracket 1 through the smooth rotating ring 21 and are used for rotating the dry cleaning box body, the middle part of the dry cleaning box body 2 is provided with a power gear ring 22 which is meshed with the motor 3 arranged on the bracket 1, and the motor 3 drives the dry cleaning box body to rotate.

In the cleaning mechanism, the dry cleaning box body 2 is provided with openings at two sides, the inner section of the cleaning box body is an inclined plane structure 25 which is inclined from the inlet end 23 to the outlet end 24, and the inclined plane structure is convenient for the blanking of broken glass materials.

And, the inlet end 23 is arranged at the central position, and the outlet end 24 has the same section with the dry cleaning box body 2, thereby facilitating the blanking.

In addition, in order to facilitate the guiding out of the broken glass, the lower side of the outlet end 24 of the bracket 1 is provided with a blanking inclined plane 5 extending out of the bracket 1, and the broken glass can enter the next cleaning process through the blanking inclined plane.

The inclined plane structure 25 is provided with a friction blocking column 4 inclined to the inlet end 23, and a magnet is embedded on the friction blocking column 4.

The magnet is arranged to remove iron filings in broken glass products.

With continued reference to fig. 2, the friction bumping post 4 is a structure with a large top and a small bottom, and comprises a spherical enlarged end 41 on the upper side and a column 42 inclined on the lower side, wherein the enlarged end 41 can perform the functions of friction and glass breaking, and a film coating layer on the broken glass can be removed primarily under the friction effect.

The broken glass directly enters the medicament cleaning assembly after passing through the blanking inclined plane.

Specifically, the medicament cleaning assembly 6 comprises a gantry support 61, a medicament cleaning pool 62 and a washing pool 63 which are arranged up and down, a grabbing motor 65 is arranged on the gantry support 61 through an electric sliding part 64, and the grabbing motor 65 is connected with a cleaning net rack 67 through a traction rope 66.

The cleaning rack 67 first receives the material in the chemical cleaning tank 62.

The gantry support 61 is a moving support of the medicament cleaning assembly, and the electric sliding piece 64 drives the cleaning net frame to move transversely between the medicament cleaning pool 62 and the washing pool 63.

The grabbing motor controls the cleaning net rack 67 to move up and down, so that the broken glass is moved.

With continued reference to fig. 1, an air separation structure is connected to the outlet end for collecting the stripped coating layer and simultaneously air separating the light impurities from the parts.

Specifically, the air separation structure 7 includes a bell mouth 71, an axial flow fan 72 and a dissolving tank 73 which are sequentially arranged.

The coating layer and the light impurities enter the dissolving tank through the bell mouth and are collected and treated, the internal treatment of air separation is realized by the design of the structure, the leakage is avoided, and the environment-friendly performance is excellent.

The use mechanism is combined to further explain, the cullet crushed by the crushing structure enters the dry cleaning box body through the feeding end, can collide and crush again under the action of the friction blocking column, and simultaneously, part of the coating film layer is removed by friction, and meanwhile, the iron filings impurities can be removed by the magnet in an adsorption manner.

And the crushed glass cullet is discharged at the outlet end and enters the next working procedure through the inclined plane.

In the cleaning assembly, broken glass firstly enters a medicament cleaning tank through a blanking inclined plane and is borne by a cleaning net rack 67, and after reaction, the grabbing motor 65 is lifted and then transferred to a washing tank for washing.

After the washing is finished, the materials are grabbed and discharged to enter the next drying procedure.

The wash rack 67 then returns to the bottom of the chemical wash tank.

The outlet end carries out the air separation screening of the impurity of the coating layer or other light impurities through the arranged axial flow fan structure.

To sum up, this scheme simple structure, safe and reliable, useless glass secondary crushing back, through dry cleaning box preliminary treatment, get into afterwards and wash the subassembly medicament and handle, reduced the quantity that the medicament was handled, greatly reduced manufacturing cost, realize better treatment.

And, this structure can also be handled the iron fillings in the cullet, and the impurity treatment of integrated form further gets rid of impurity.

At the crushing end, the crushing effect is reliable and stable with time and labor saving.

The above embodiments are merely illustrative of the technical concepts and features of the present invention, and the purpose of the embodiments is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It will be understood that the embodiments described above are illustrative only and not restrictive, and that various obvious and equivalent modifications and substitutions for details described herein may be made by those skilled in the art without departing from the basic principles of the utility model.

Claims (9)

1. A glass breaking treatment system is characterized in that: the cleaning device comprises a crushing structure (100) and a cleaning structure which are arranged according to a treatment process, wherein the cleaning structure comprises a support (1), a dry washing box body (2) arranged on the support (1), and a medicament cleaning assembly (6) arranged at the rear end of the dry washing box body (2), two sides of the dry washing box body (2) are arranged on a bearing (11) on the support (1) through smooth rotating rings (21), a power gear ring (22) is arranged in the middle of the dry washing box body (2) and is meshed with a motor (3) arranged on the support (1), openings are formed in two sides of the dry washing box body (2), the inner cross section of the dry washing box body is an inclined plane structure (25) inclined from an inlet end (23) to an outlet end (24), a friction blocking column (4) inclined towards the inlet end (23) is arranged on the inclined plane structure (25), and a magnet is embedded on the friction blocking column (4), the outlet end (24) is also provided with a winnowing structure (7);

the crushing structure (100) comprises a first crushing assembly and a second crushing assembly which are arranged in the crushing box body from top to bottom, the bottom side of the crushing box body is provided with an inclined plane material receiving end (101), and an inclined crushing material outlet (102) is led into the inlet end (23).

2. The glass breaking system of claim 1, wherein: the inlet end (23) is arranged at the center, and the section of the outlet end (24) is the same as that of the dry washing box body (2).

3. The glass breaking system of claim 2, wherein: the lower side of the outlet end (24) of the support (1) is provided with a blanking inclined plane (5) extending out of the support (1).

4. The glass breaking system of claim 1, wherein: the friction catch column (4) is of a structure with a large upper part and a small lower part and comprises a spherical enlarged end (41) at the upper side and an upright column (42) inclined at the lower side.

5. The glass breaking system of claim 1, wherein: the reagent cleaning assembly (6) comprises a gantry support (61), a reagent cleaning pool (62) and a washing pool (63) which are arranged from top to bottom, a grabbing motor (65) is arranged on the gantry support (61) through an electric sliding part (64), and the grabbing motor (65) is connected with a cleaning net rack (67) through a traction rope (66).

6. The glass breaking system of claim 1, wherein: the winnowing structure (7) comprises a bell mouth (71), an axial flow fan (72) and a dissolving tank (73) which are arranged in sequence.

7. The glass breaking system of claim 1, wherein: the first crushing assembly comprises an inclined cutter head (103) and an inclined platform (104) which are matched with each other, a crushing area (105) is arranged between the inclined cutter head and the inclined platform, and the rear end of the inclined cutter head (103) is driven by a first air cylinder (106).

8. The glass breaking system of claim 7, wherein: the upper side of the crushing area (105) is provided with a crushing feeding hole (107), and the lower side of the crushing area is provided with a sealing plate (109) connected with a second cylinder (108).

9. The glass breaking system of claim 8, wherein: the second crushing assembly is arranged on the lower side of the sealing plate (109) and comprises a hob (111) driven by a crushing motor (110).

Images