CN114558644A - OLED carrier plate glass pre-crushing system - Google Patents

Abstract

The invention provides an OLED carrier plate glass pre-crushing system which comprises a collecting device, a pre-crushing device and a feeding device. Wherein, the swinging device in the collecting device drives the glass crushing box to rotate, lift and vibrate, so that the crushed materials are automatically conveyed to the pre-crushing device; the pre-crushing grid in the pre-crushing device is obliquely arranged along the feeding direction and divides the pre-crushing bin into a treatment bin and a first feeding bin along the vertical direction, the bottom of the first feeding bin is downward inclined along the feeding direction, the crushing mechanism is provided with at least one crushing column, the crushing mechanism is arranged above the pre-crushing grid and is driven to reciprocate between a first position and a second position, and the crushing column extrudes crushed materials to ensure that the crushed materials are uniform in size through the pre-crushing bin grid; a feed device receives the crushed material conveyed through the first outlet and assists in screening the crushed material to a crusher. The pre-crushing system provided by the invention realizes the effects of uniform particle size and uniform blanking of the cullet and effectively improves the working efficiency of cullet recovery.

Description

OLED carrier plate glass pre-crushing system

Technical Field

The invention relates to the technical field of OLED glass production and manufacturing, in particular to an OLED carrier plate glass pre-crushing system.

Background

The OLED glass carrier plate is an important raw material used in the manufacturing process of OLED panels and LTPS panels, and because the performance requirement of the OLED glass carrier plate is far higher than that of a common glass substrate, the manufacturing process difficulty is far higher than that of the common glass substrate, the problems that defective glass or glass which is not cut well and carrier plate ear materials generated after cutting need to be crushed and recycled in the production process are avoided. However, in the recycling process, most of the OLED carrier plate glass is sheet-shaped, and the sizes of the cullet pieces are different, so that the processing efficiency of the glass is low and the particle size of the cullet is not uniform due to non-uniform blanking of the sheet-shaped cullet. In practical situations, a factory generally pushes, flattens and smashes recovered OLED carrier plate glass manually, and the process is not only high in labor intensity and serious in dust pollution, but also easy to cause safety accidents of personnel and equipment.

Disclosure of Invention

In view of this, an embodiment of the present invention provides an OLED carrier glass pre-crushing system, including:

a collecting device that collects and transports the crushed material;

a pre-crushing device having a first inlet and a first outlet, the first inlet being configured to receive the crushed material conveyed by the collecting device;

the pre-crushing device also comprises a crushing mechanism, a pre-crushing grid and a pre-crushing bin, wherein the pre-crushing grid is obliquely arranged along the feeding direction and divides the pre-crushing bin into a treatment bin and a first feeding bin along the vertical direction, the bottom of the first feeding bin is obliquely inclined along the feeding direction, and a first outlet is arranged at the end part of the first feeding bin;

the crushing mechanism is provided with at least one crushing column, the crushing mechanism is arranged above the pre-crushing grid and driven to reciprocate between a first position and a second position, and when the crushing mechanism is at the second position, the at least one crushing column is abutted to the pre-crushing grid; and

and the feeding device receives the crushed aggregates conveyed by the first outlet, assists the sieve to pull the crushed aggregates and sends the crushed aggregates to a crusher.

In some embodiments, the collection device comprises a cullet box and a rocking mechanism, the rocking mechanism comprising a base, a rotating portion, a vibrating portion, and a lifting portion, a connecting rod of the lifting portion having a first end and a second end, the first end being a ball embedded within a hemispherical groove in a bottom of the base, the second end being driven by an actuator to reciprocate in a vertical direction.

In some embodiments, the rotating portion has a rotating shaft disposed at an end portion of the base, the base rotates around the rotating shaft, and the lifting portion is configured to rotate and drive the base to reciprocate in a vertical direction to lift and lower when the base rotates around the rotating shaft.

In some embodiments, the glass cullet box and the base are detachably connected, a first stop strip is arranged at the bottom of the glass cullet box, a second stop strip is arranged at the top of the base, the width of the first stop strip is the same as that of the second stop strip, and when the glass cullet box is placed above the base, the first stop strip and the second stop strip are staggered and clamp the glass cullet box on the base.

In some embodiments, the cullet box has an open top and side walls provided with lockable box doors that snap and secure through rails when the swing mechanism rotates, lifts, and vibrates, and cullet material within the cullet box is transported through the box doors to a pre-cullet device.

In some embodiments, the crushing mechanism of the pre-crushing device further has a power section and a working disc, the at least one crushing column is connected to the working disc, the crushing mechanism is driven by the power section to reciprocate between the first position and the second position, and the crushing mechanism is fully retracted when the crushing mechanism is in the first position.

In some embodiments, the axis of the at least one crushing column coincides with the axis of the through hole of the pre-crushing grid, the diameter of the at least one crushing column is smaller than the diameter of the through hole of the pre-crushing grid, when the crushing mechanism moves from the first position to the second position, the crushing column applies force to the crushed aggregates in the pre-crushing device and presses the crushed aggregates to fall into the first feeding bin through the pre-crushing grid, and the crushed aggregates uniformly fall into the first feeding bin.

In some embodiments, the feeding device comprises a feeding bin gate horizontally arranged in the feeding device along the feeding direction and dividing the feeding device into a feeding bin and a second feeding bin along the vertical direction.

In some embodiments, the feeding bin receives crushed aggregates conveyed through the first outlet, the crushed aggregates uniformly drop into the second feeding bin through the feeding bin gate, the diameter of the through hole of the feeding bin gate is larger than or equal to that of the through hole of the pre-crushing gate, and the second feeding bin is provided with a material shifting mechanism which assists in conveying the crushed aggregates.

In some embodiments, the feeding device further comprises an observation window and a dust removal pipe, one end of the dust removal pipe is communicated with the feeding bin and is arranged in the top area of the feeding bin, the observation window is arranged on the side wall of the feeding bin, and the observation window is arranged to be an openable observation window.

By adopting the technical scheme, the invention at least has the following beneficial effects:

the invention provides an OLED carrier plate glass pre-crushing system which comprises a collecting device, a pre-crushing device and a feeding device, wherein a swinging device is arranged in the collecting device, and a crushed glass box can be driven to lift, rotate and vibrate through the swinging device, so that crushed materials placed in the crushed glass box are automatically conveyed into the pre-crushing device, and the problem that the glass needs to be manually pushed, flattened and crushed in the past is solved; the pre-crushing device is provided with a crushing mechanism and a pre-crushing grid, the crushing mechanism is provided with at least one crushing column, the pre-crushing grid is obliquely arranged along the feeding direction, the crushed materials are prevented from being accumulated above the pre-crushing grid, the crushed materials are automatically flattened under the action of gravity, the crushing column applies force to the crushed glass and extrudes the crushed glass to pass through the pre-crushing grid, so that the pre-crushing of the crushed glass is completed, the diameter of the pre-crushed glass is consistent, and the pre-crushed glass uniformly falls into a first feeding bin and then enters the feeding device; in order to further ensure that the crushed aggregates after the pre-crushing are fed uniformly, a feeding bin grid is arranged in the feeding device, in order to ensure that no other impurities exist in the crushed aggregates, the feeding device is provided with an observation window which can be opened and closed, so that the impurities can be conveniently and timely removed, and a dust removal pipe is also arranged at the top of the feeding device to guide smoke dust generated in the crushing process; the pre-crushing system provided by the invention realizes the effects of uniform particle size and uniform blanking of the cullet and effectively improves the working efficiency of cullet recovery.

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 the drawings without creative efforts.

FIG. 1 is a schematic view of an OLED carrier glass pre-shattering system according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of an OLED carrier glass pre-shattering system according to an embodiment of the present invention;

FIG. 3 is a schematic view of a partially enlarged OLED carrier glass pre-shattering system according to an embodiment of the present invention;

fig. 4 is a partially enlarged schematic view of an OLED carrier glass pre-shattering system according to an embodiment of the present invention.

In the figure: 1. the device comprises a glass cullet box, 2 a box door, 3 a box door rotating part, 4 a box door pin groove, 5 a cullet box pin groove, 6 a base, 7 a first blocking strip, 8 a second blocking strip, 9 a base rotating part, 10 a lifting part, 11 a vibrating part, 12 a lifting part supporting table, 13 a pre-crushing bin, 14 a pre-crushing grid, 15 a pre-crushing power part, 16 a pre-crushing working disc, 17 a pre-crushing column, 18 a first feeding bin, 19 a feeding bin, 20 a feeding bin grid, 21 a feeding bin dust removal pipe, 22 a feeding bin observation window, 23 a feeding bin observation window baffle, 24 a bin observation window baffle sliding groove, 25 a second feeding bin, 26 a material stirring mechanism and 27 a second feeding bin.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following embodiments of the present invention are described in further detail with reference to the accompanying drawings.

It should be noted that all expressions using "first" and "second" in the embodiments of the present invention are used for distinguishing two entities with the same name but different names or different parameters, and it should be noted that "first" and "second" are merely for convenience of description and should not be construed as limitations of the embodiments of the present invention, and the descriptions of the following embodiments are omitted.

In the following description, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the invention.

The OLED carrier plate glass pre-crushing system according to the embodiment of the present invention shown in fig. 1 to 4, wherein the OLED carrier plate glass pre-crushing system comprises: broken glass box 1, box door 2, box door rotating part 3, box door pin slot 4, broken glass box pin slot 5, base 6, first blend stop 7, second blend stop 8, base rotating part 9, base lift portion 10, base vibration portion 11, lift portion supporting bench 12, pre-crushing storehouse 13, pre-crushing bars 14, pre-crushing power portion 15, pre-crushing working disc 16, pre-crushing post 17, first feeding storehouse 18, feeding storehouse 19, feeding storehouse bars 20, feeding storehouse dust removal pipe 21, feeding storehouse observation window 22, feeding storehouse observation window baffle 23, feeding storehouse observation window baffle spout 24, second feeding storehouse 25, material shifting mechanism 26, second feeding storehouse 27.

In one embodiment of the invention, the system comprises a collecting device, a pre-crushing device and a feeding device.

In one embodiment of the present invention, a collecting device for collecting crushed aggregates and conveying the crushed aggregates comprises a crushed glass box 1 and a swing device comprising a base 6, a rotating portion 9, an elevating portion 10, a vibrating portion 11, an elevating portion supporting table 12.

The broken glass box 1 and the base 6 are detachably connected, a first blocking strip 7 is arranged at the bottom of the broken glass box 1, a second blocking strip 8 is arranged at the top of the base 6, the width of the first blocking strip 7 is the same as that of the second blocking strip 8, and when the broken glass box 1 is placed above the base 6, the first blocking strip 7 and the second blocking strip 8 are arranged in a staggered mode, and the broken glass box 1 is clamped on the base 6.

As shown in fig. 3, which is a partially enlarged schematic view of an embodiment of the present invention and is combined with fig. 1, an opening is disposed at the top of a cullet box 1, a lockable box door 2 is disposed on a side wall, a box door rotating portion 3 is disposed at a joint of the box door 2 and the cullet box 1, the box door 2 can be freely opened and closed by the rotating portion 3, and when the box door 2 is opened outward, an included angle between the box door 2 and the side wall of the cullet box connected with the box door is greater than or equal to 60 °. The two sides of the box door are provided with box door pin grooves 4, when the box door 2 is closed, the box door 2 is in contact with the cullet box 1, the cullet box pin grooves 5 opposite to the box door pin grooves 4 are arranged on the contact position of the cullet box, and pins penetrate through the box door pin grooves 4 and the cullet box pin grooves 5 during the separation of the cullet box 1 from the base 6, for example, during the collection and transportation of cullet outside a pre-crushing system, so that the aim of locking the box door is fulfilled.

As shown in fig. 4, which is a partially enlarged schematic view of an embodiment of the present invention, the link of the lifting portion 10 has a first end and a second end, the first end is a ball embedded in a hemispherical groove at the bottom of the base 6, the second end is connected to the lifting portion supporting platform 12, and the lifting portion 10 is driven by the actuator to reciprocate in the vertical direction.

Preferably, the lift support table 12 is connected to the side of the pre-crushing device.

Referring to fig. 1, the rotating portion 9 has a rotating shaft, the rotating shaft is disposed at an end of the base 6, the base 6 rotates around the rotating shaft, the lifting portion 10 rotates in a matching manner and drives the base 6 to lift when the base 6 rotates around the rotating shaft, the rotation and lifting of the base 6 drive the glass cullet box 1 to rotate and lift, and different angles are adjusted to enable crushed materials in the glass cullet box 1 to slide down into the pre-crushing device through the box door 2.

Preferably, the base 6 is further provided with a vibrating portion 11 at the bottom thereof, and the vibrating portion 11 intermittently operates to assist in transporting the crushed materials during the operation of the rotating portion 9 and the lifting portion 10 of the swing device.

The collecting device provided by the embodiment of the invention can automatically convey the crushed aggregates into the pre-crushing system without manual pushing, flattening and crushing, so that the labor is saved, and the safety of the operation process and the purity of the crushed aggregates are ensured by an automatic flow.

In one embodiment of the invention, the pre-crushing device comprises a crushing mechanism, a pre-crushing grate 14 and a pre-crushing bin 13.

The pre-crushing device is provided with a first inlet and a first outlet, the first inlet is used for receiving crushed aggregates conveyed by the collecting device, and the first outlet is used for conveying the crushed aggregates after the pre-crushing.

As shown in fig. 2, the pre-crushing grid 14 is obliquely arranged in the pre-crushing bin 13 along the feeding direction, the pre-crushing grid 14 is of an array through hole structure, the pre-crushing bin 13 is divided into a treatment bin and a first feeding bin 18 along the vertical direction by the pre-crushing grid 14, the bottom of the first feeding bin 18 is obliquely inclined downwards along the feeding direction, and a first outlet is arranged at the end of the first feeding bin.

The crushing mechanism specifically comprises a power part 15, a working disc 16 and at least one crushing column 17, wherein the axis of the crushing column 17 coincides with the axis of a through hole of the pre-crushing grid 14, the diameter of the crushing column 17 is smaller than that of the through hole of the pre-crushing grid 14 so that the crushing column 17 can penetrate through the through hole of the pre-crushing grid 14, one end of the crushing column 17 is connected to the working disc 16, the crushing mechanism is driven by the power part 15 to reciprocate between a first position and a second position, when the crushing mechanism is located at the first position, the crushing mechanism is completely retracted, when the crushing mechanism is located at the second position, the crushing column 17 applies force to crushed aggregates and extrudes the crushed aggregates to pass through the pre-crushing grid 14, the diameters of the crushed aggregates passing through the pre-crushing grid 14 are consistent, blanking is uniform, and the crushed aggregates fall into the first feeding bin 18 under the action of gravity and slide into the feeding device along the inclined plane of the first feeding bin 18.

The pre-crushing device provided by the embodiment of the invention is provided with the crushing mechanism and the pre-crushing grid 14, the crushing mechanism is provided with at least one crushing column 17, the pre-crushing grid 14 is obliquely arranged along the feeding direction, the crushed glass materials are prevented from being accumulated above the pre-crushing grid 14, the crushed glass materials are automatically flattened under the action of gravity, the force is applied to the crushed glass through the crushing column 17, the crushed glass is extruded to pass through the pre-crushing grid 14, the pre-crushing of the crushed glass is finished, the diameters of the pre-crushed glass are consistent, and the uniformity of subsequent blanking is ensured.

In one embodiment of the present invention, the feeding device comprises a feeding bin 19, a feeding bin grid 20, a dust removing pipe 21, an observation window 22, a feeding port 25 and a material stirring mechanism 26.

The feed bin gate 20 is arranged horizontally in the feeding device in the feeding direction and divides the feeding device in the vertical direction into a feed bin 19 and a second feed bin 27.

Feed bin 19 accepts the crushed aggregates of transporting via the first export in first pay-off storehouse, and feed bin bars 20 is array mesh structure, and the through-hole diameter of feeding bin bars 20 is more than or equal to the through-hole diameter of broken bars 14 in advance, and the crushed aggregates sieves the material through feeding bin bars 20, and the crushed aggregates after the sieve material evenly falls into second pay-off storehouse 27, through dialling the auxiliary transportation crushed aggregates of material mechanism 26 and guaranteeing that the crushed aggregates evenly gets into follow-up crushing process.

Preferably, the feeding bin 19 is provided with a cullet dust removal pipe 21 in the top area, one end of the dust removal pipe 21 is connected with the feeding bin, and the other end is connected with a dust removal system, so that dust generated in the production process is collected and prevented from being polluted.

Preferably, the side of the hopper 19 is provided with a cullet hopper viewing window 22 which is openable and closable, for example, the viewing window 22 is of a sliding type and is provided with a baffle 23 and a baffle chute 24.

Preferably, the observation window 22 can be made of transparent glass (such as inorganic glass, organic glass, etc.) to facilitate the observation of particles, and the baffle 23 of the observation window 22 can slide along the baffle sliding groove 24. In the normal production process, the observation window 22 is sealed by the baffle 23, and when the feeding bin gate 19 has broken glass foreign matters, an operator can open the observation window baffle 23 to clean.

The feeding device provided by the embodiment of the invention is provided with the feeding bin grid, the crushed aggregates after pre-crushing are further uniformly fed to the subsequent process through the feeding bin grid, in order to ensure that no other impurities exist in the crushed aggregates, the feeding device is provided with the openable observation window, so that the impurities can be conveniently and timely removed, and in addition, the top of the feeding device is also provided with the dust removal pipe for guiding the smoke dust generated in the crushing process.

In conclusion, the pre-crushing system disclosed by the invention realizes the effects of uniform blanking and uniform granularity of the cullet and effectively improves the working efficiency of cullet recovery.

It should be particularly noted that the various components or steps in the above embodiments can be mutually intersected, replaced, added or deleted, and therefore, the combination formed by the reasonable permutation and combination conversion shall also belong to the protection scope of the present invention, and the protection scope of the present invention shall not be limited to the embodiments.

The above is an exemplary embodiment of the present disclosure, and the order of disclosure of the above embodiment of the present disclosure is only for description and does not represent the merits of the embodiment. It should be noted that the discussion of any embodiment above is exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, of embodiments of the invention is limited to those examples, and that various changes and modifications may be made without departing from the scope, as defined in the claims. The functions, steps and/or actions of the method claims in accordance with the disclosed embodiments described herein need not be performed in any particular order. Furthermore, although elements of the embodiments of the invention may be described or claimed in the singular, the plural is contemplated unless limitation to the singular is explicitly stated.

Those skilled in the art will understand that: the above discussion of any embodiment is merely exemplary in nature and is not intended to intimate that the scope of the disclosure, including the claims, of embodiments of the invention is limited to those examples; features from the above embodiments or from different embodiments can also be combined with each other under the general idea of the invention and produce many other variations of the different aspects of the embodiments of the invention as described above, which are not provided in the detailed description for the sake of brevity. Therefore, any omissions, modifications, equivalents, improvements, and the like that may be made without departing from the spirit or scope of the embodiments of the present invention are intended to be included within the scope of the claims.

Claims (10)

1. An OLED carrier plate glass pre-crushing system is characterized by comprising:

a collecting device that collects and transports the crushed material;

a pre-crushing device having a first inlet and a first outlet, the first inlet being configured to receive the crushed material conveyed by the collecting device;

the pre-crushing device also comprises a crushing mechanism, a pre-crushing grid and a pre-crushing bin, wherein the pre-crushing grid is obliquely arranged along the feeding direction and divides the pre-crushing bin into a treatment bin and a first feeding bin along the vertical direction, the bottom of the first feeding bin is obliquely inclined along the feeding direction, and a first outlet is arranged at the end part of the first feeding bin;

the crushing mechanism is provided with at least one crushing column, the crushing mechanism is arranged above the pre-crushing grid and driven to reciprocate between a first position and a second position, and when the crushing mechanism is at the second position, the at least one crushing column is abutted against the pre-crushing grid; and

and the feeding device receives the crushed aggregates conveyed through the first outlet, screens and dials the crushed aggregates and sends the crushed aggregates to a crusher.

2. The OLED carrier plate glass pre-crushing system of claim 1, wherein the collecting device comprises a crushed glass box and a swing mechanism, the swing mechanism comprises a base, a rotating part, a vibrating part and a lifting part, a connecting rod of the lifting part has a first end and a second end, the first end is a sphere, the sphere is embedded in a hemispherical groove at the bottom of the base, and the second end is driven by an actuator to reciprocate along a vertical direction.

3. The OLED carrier plate glass pre-crushing system of claim 2, wherein the rotating part is provided with a rotating shaft, the rotating shaft is arranged at the end part of the base, the base rotates around the rotating shaft, and when the base rotates around the rotating shaft, the lifting part is matched to rotate and drives the base to reciprocate in the vertical direction.

4. The OLED carrier plate glass pre-crushing system of claim 2, wherein the crushed glass box is detachably connected to the base, a first stop strip is arranged at the bottom of the crushed glass box, a second stop strip is arranged at the top of the base, the first stop strip and the second stop strip are the same in width, and when the crushed glass box is placed above the base, the first stop strip and the second stop strip are staggered and clamp the crushed glass box on the base.

5. The OLED carrier glass pre-crushing system of claim 2, wherein the glass crushing bin has an open top and the side walls are provided with lockable bin doors, the glass crushing bin is clamped and fixed by the stop bars when the swing mechanism rotates, ascends and descends and vibrates, and crushed materials in the glass crushing bin are transported to the pre-crushing device through the bin doors.

6. The OLED carrier glass pre-crushing system of claim 1, wherein the crushing mechanism of the pre-crushing device further comprises a power part and a working disc, the at least one crushing column is connected to the working disc, the crushing mechanism is driven by the power part to reciprocate between the first position and the second position, and the crushing mechanism is fully retracted when the crushing mechanism is in the first position.

7. The OLED carrier glass pre-crushing system of claim 1, wherein the axis of the at least one crushing column coincides with the axis of the through hole of the pre-crushing grid, the diameter of the at least one crushing column is smaller than the diameter of the through hole of the pre-crushing grid, and when the crushing mechanism moves from the first position to the second position, the crushing column applies force to the crushed material in the pre-crushing device and presses the crushed material to fall into the first feeding bin through the pre-crushing grid.

8. The OLED carrier plate glass pre-crushing system of claim 1, wherein the feeding device comprises a feeding bin grid which is horizontally arranged in the feeding device along a feeding direction and divides the feeding device into a feeding bin and a second feeding bin along a vertical direction.

9. The OLED carrier plate glass pre-crushing system of claim 8, wherein the feeding bin receives crushed materials conveyed through the first outlet, the crushed materials uniformly fall into the second feeding bin through the feeding bin grid, the diameter of a through hole of the feeding bin grid is larger than or equal to that of the pre-crushing grid, and the second feeding bin is provided with a material stirring mechanism which assists in conveying the crushed materials.

10. The OLED carrier plate glass pre-crushing system of claim 8, wherein the feeding device further comprises an observation window and a dust removal pipe, one end of the dust removal pipe is communicated with the feeding bin and is arranged at the top of the feeding bin, the observation window is arranged on the side wall of the feeding bin, and the observation window is arranged as an openable observation window.

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