CN114083702A - Production device for large-size quartz glass plate - Google Patents

Abstract

The invention provides a production device of a large-size quartz glass plate, which comprises: the dust collection assembly, adjacent branch such as four side inner wall upper end positions of workstation are listed as and are encircleed fixed mounting and have the dust collection assembly that a plurality of can collect the dust, and the dust collection assembly is including: the dust collecting device comprises a dust collecting shell, a dust control assembly capable of controlling dust to enter and exit and a material control assembly capable of controlling dust-absorbing materials to enter and exit; a plurality of dust collecting shells are fixedly arranged at the upper ends of the inner walls of the four sides of the workbench in an equal-adjacent row surrounding manner; a dust control assembly is movably arranged between the top end and the bottom end in the dust collecting shell; the position between the middle part of the inner top to the right end of the dust collecting shell is movably provided with a material control component. This kind of apparatus for producing of big specification quartz glass board can play and make the workstation possess the collection dirt function, when cutting big specification quartz glass board, can in time collect the processing to produced dust, has avoided the dust to fly upward and has influenced the operation environment, has guaranteed the effect of the normal cutting production of glass board.

Description

Production device for large-size quartz glass plate

Technical Field

The invention relates to the technical field of glass processing production equipment, in particular to a production device for a large-size quartz glass plate.

Background

Cutting device is used in current quartz glass board production is various, but these cutting device mostly all have the problem of being not convenient for to use, can't adjust the angle of cutting according to the cutting demand, can only accomplish the cutting of fixed angle, and the practicality is lower.

Aiming at the problems, the technical problems that the existing cutting device for producing the quartz glass plate is inconvenient to use and the like are solved, a cutting device for producing the quartz glass plate with the patent number of CN202021841688.3 is inquired through a large number of searches, the cutting device comprises a workbench, supporting rods are fixedly arranged on the left side and the right side of the top of the workbench, fixed blocks are fixedly arranged on the opposite sides of the supporting rods, threaded rods with two ends penetrating through and extending to the outside of the fixed blocks are connected to the inner parts of the two fixed blocks through threads, and movable suckers are fixedly arranged at the bottoms of the two threaded rods; this patent is through being provided with fixed suction cup, when using, arranges four fixed suction cup's top respectively in four angles of quartz glass board, and four commentaries on classics pieces of twising respectively are until four movable suction cups and quartz glass board laminating to the fastening, can accomplish the fixed of quartz glass board, through being provided with annular movable groove, loose axle and loose wheel for the rotation of loose disk is level and smooth more and stable, can not take place the skew, has strengthened the accuracy of cutting.

However, the technical scheme provided by the patent does not have a dust collecting function for the workbench, and when the large-size quartz glass plate is cut, if the generated dust cannot be collected and processed in time, the dust flies to influence the operation environment, and the technical problem that the glass plate is normally cut and produced due to accumulation is also generated.

Disclosure of Invention

The present invention is directed to solve the above problems of the prior art, and provides a device for producing a large-sized quartz glass plate.

In order to achieve the purpose, the invention provides the following technical scheme: a large-size quartz glass plate production apparatus comprising:

the cutting device comprises a supporting table, wherein the appearance of the supporting table is in a hollow inverted 'n' -shaped groove shape on a longitudinal section, a movable groove is slidably mounted at the inner position of the supporting table, a workbench is fixedly mounted at the top end position of the supporting table, the appearance of the workbench is in a 'return' shape on a cross section, transparent glass is fixedly mounted at the top end opening position of the workbench, slide rails are embedded at the upper positions of the left end and the right end of the inner part of the workbench, a top plate is slidably mounted between the left slide rail and the right slide rail, and a cutting device body is fixedly mounted at the bottom end position of the top plate;

the dust collection assembly, the equal adjacent components such as four side inner wall upper end positions of workstation are listed as and are encircleed fixed mounting and have a plurality of can collect the collection dirt subassembly of dust, the dust collection subassembly including: the dust collecting device comprises a dust collecting shell, a dust control assembly capable of controlling dust to enter and exit and a material control assembly capable of controlling dust-absorbing materials to enter and exit;

a plurality of dust collecting shells are fixedly arranged at the upper ends of the inner walls of the four sides of the workbench in an equal-adjacent and surrounding way;

a dust control assembly is movably arranged between the top end and the bottom end of the interior of the dust collecting shell;

the position movable mounting has accuse material subassembly between the inside top of collection dirt shell to the right-hand member middle part.

Further preferred embodiments: the appearance of collection dirt shell is inside cavity, the letter "K" shape that runs through at top and bottom on a longitudinal section, the top of collection dirt shell is seted up the entry and the export that run through from top to bottom both ends respectively, four sides all around of collection dirt shell are totally closed form, the left inner wall middle-end position of collection dirt shell keeps the interval apart from its right-hand member middle part position before, the oblique upper end position slant of collection dirt shell's right-hand member has seted up the opening that runs through from top to bottom.

Further preferred embodiments: accuse dirt subassembly includes:

the dust collecting device comprises a dust collecting groove, a dust collecting shell and a dust collecting cover, wherein the dust collecting groove is arranged at the lower end of the outer surface of the dust collecting shell in a surrounding and sliding mode, the appearance of the dust collecting groove is in a U-shaped groove shape with a hollow inner part, a vertical left end, a convex right end and an open top end on one longitudinal section, the dust collecting groove is made of plastic, the bottom end of the dust collecting groove is flush with the opening at the bottom end of the dust collecting shell under a normal condition, and the inner wall surface of the dust collecting groove is tightly attached to the outer surface of the lower end of the dust collecting shell under the normal condition;

and the handle is fixedly arranged at the center of the outer surface of the bottom side of the dust collection groove.

Further preferred embodiments: the accuse dirt subassembly still includes:

the right position of the top end inside the dust collection shell is provided with a rotating shaft in a front-back horizontal direction in a rotating manner, and the front end and the back end of the rotating shaft are rotatably arranged at the right position of the top end of the front inner wall and the back inner wall of the dust collection shell;

the utility model discloses a dust collecting device, including collection dirt shell, fixed mounting is around the left side surface of pivot, and the left side surface of pivot encircles fixed mounting has the flat board, the flat board is in the static balanced state of level under normal conditions, the left side surface of flat board with the static laminating of left inner wall top surface of collection dirt shell under normal conditions.

Further preferred embodiments: the accuse dirt subassembly still includes:

the air bag is fixedly arranged between the outer surface of the right end of the bottom side of the flat plate and the top surface of the right inner wall of the dust collection shell, and the appearance of the air bag is in a fan shape with a hollow inner part on a longitudinal section.

Further preferred embodiments: the accuse material subassembly including:

the fixed plate, the right side lower extreme fixed surface of collection dirt shell installs the fixed plate, the outward appearance of fixed plate is the concave right convex arc strip shape in a left side on a longitudinal section, the bottom fixed mounting of fixed plate in the right side lower extreme position of collection dirt shell, the top fixed mounting of fixed plate in the right side upper end of collection dirt shell is close to the opening upper right end prelude position of collection dirt shell, the through-hole that runs through about the upper end position slant of fixed plate is seted up.

Further preferred embodiments: the accuse material subassembly is still including:

the storage trough is arranged between the outer surface of the left side of the fixing plate and the outer surface of the middle upper part and the middle lower part of the right end of the dust collecting shell, the storage trough is hollow inside, open at the top end and convex in the right side in a right triangular shape on a longitudinal section, the open at the top end of the storage trough is the opening of the dust collecting shell, clear water is pre-installed in the storage trough, and the pre-installed highest water level line of the clear water is lower than the horizontal plane of the middle end of the storage trough.

Further preferred embodiments: the accuse material subassembly is still including:

the dust collection device comprises a dust collection shell, a suction trough and a baffle plate, wherein the suction trough is fixedly installed at the middle end of the outer surface of the bottom side of the flat plate, the appearance of the suction trough is in an arc strip shape with a hollow interior and a left concave and a right convex on one longitudinal section, and an inlet at the tail end of the bottom end of the suction trough is normally located above the surface of the inner wall of the middle upper part of the right end of the dust collection shell.

Further preferred embodiments: the accuse material subassembly is still including:

the baffle box, it has the baffle box to inhale the left end middle part position of silo to run through fixed mounting, the baffle box with the combination outward appearance of inhaling the silo is inside cavity, the letter "y" shape of falling that the end to end runs through on a longitudinal section, the left end tail export of baffle box is at normal conditions orientation the left inner wall upper end surface of collection dirt shell and there is the distance between the two, length is less than about the baffle box inhale the top end length of silo.

Further preferred embodiments: the accuse material subassembly is still including:

the drainage plate, the right side surface upper end of fixed plate has the drainage plate in its through-hole bottom position slant fixed mounting, the outward appearance of drainage plate is the straight board shape of slope that the height on the low right side in a left side is 33 contained angles with the horizontal plane on a longitudinal section, the top side surface of drainage plate with the top side inner wall surface of through-hole is held level.

Has the advantages that:

1. according to the production device for the large-size quartz glass plate, the dust collection assembly is arranged, and by utilizing the lever, negative pressure and siphon principles, when the cutting device body is started to cut and produce the large-size quartz glass plate, dust generated during cutting can fly to the position of the inlet at the top end of the dust collection shell of the dust collection assembly and is temporarily received by the dust control assembly of the dust collection assembly, the dust control assembly is movably deformed under the action of the lever and the negative pressure principle, and the inlet at the top end of the dust collection shell is opened so as to guide the pre-received dust downwards into the dust collection shell; after the dust is discharged, the dust control assembly is reversely movably deformed under the action of a negative pressure principle so as to continuously seal the top inlet of the dust collecting shell and prevent the overflow of the dust falling previously; meanwhile, in the process of dust unloading movement of the previous dust control assembly, under the action of a siphon principle, the material control assembly of the dust collection assembly is triggered to move, dust collection materials pre-installed in the material control assembly are timely led out to the lower end area inside the dust collection shell, falling dust is absorbed, and the dust collection materials are finally collected together by the dust control assembly and are taken out for cleaning after the subsequent operation is finished; therefore, under the continuous cooperation of a plurality of dust collecting components, the dust can be collected;

2. according to the production device of the large-size quartz glass plate, the dust control assembly is arranged, and by utilizing the lever and negative pressure principle, when dust in the cutting process is not lifted, the bottom end of a dust collecting groove of the dust control assembly is flush with an opening at the bottom end of a dust collecting shell, and the surface of the inner wall of the dust collecting groove is tightly attached to the outer surface of the lower end of the dust collecting shell; the flat plate of the dust control component is in a horizontal static balance state, and the outer surface of the left side of the flat plate is statically attached to the surface of the top end of the left inner wall of the dust collection shell; the air bag of the dust control assembly is in a natural expansion undeformed state; when the dust in the cutting process is lifted, the state can be gradually broken, namely, after the dust flies to the inlet position at the top end of the dust collection shell, the dust can fall on the outer surface of the top side of the flat plate to be continuously accumulated and gradually give downward pressure to the flat plate, under the action of the lever principle, the flat plate rotates anticlockwise downwards, the outer surface of the left side of the flat plate is gradually far away from the top surface of the left inner wall of the dust collection shell, and meanwhile, the air bag below the flat plate is extruded to deform, so that the dust previously received on the flat plate is discharged into the dust collection shell through the interval between the flat plate and the left inner wall of the dust collection shell and finally falls into the dust collection groove of the dust control assembly to be collected; after the dust is discharged, the air bag can recover deformation under the action of a negative pressure principle so as to enable the upward supporting flat plate to rotate clockwise in a reverse direction to continuously seal the inlet at the top end of the dust collecting shell and prevent the dust discharged previously from overflowing; wherein, the flat plate can trigger the material control component to lead out dust-absorbing materials to absorb dust at the same time in the process of rotating to unload dust; after the cutting and dust collecting operation is finished, the dust collecting groove is taken down by a handle of the grabbing dust control assembly, and dust collected in the dust collecting groove is cleaned; thus, the control of dust inlet and outlet is realized, and dust collection is facilitated;

3. according to the production device of the large-size quartz glass plate, the material control assembly is arranged, and by utilizing the lever siphon principle, when dust in the cutting process is not lifted, dust absorption materials with clear water as a component pre-installed in the storage tank of the material control assembly do not overflow; the inlet at the bottom tail part of the material suction groove of the material control assembly is positioned above the surface of the inner wall of the middle upper part of the right end of the dust collection shell; the outlet at the tail part of the left end of the guide chute of the material control assembly faces the upper end surface of the left inner wall of the dust collection shell; when the dust in the cutting process is raised, the state can be gradually broken, namely when the flat plate rotates downwards anticlockwise as mentioned above, the flat plate can synchronously drive the material suction groove and the material guide groove below the flat plate to jointly approach downwards towards the opening direction of the material storage groove, finally the inlet at the tail end of the bottom end of the material suction groove is inserted into the dust absorption material of the material storage groove, the material guide groove is positioned outside the opening of the material storage groove close to the upper middle inner wall of the right end of the dust collection shell, under the action of the siphon principle, the material suction groove sucks the clean water in the material storage groove, the clean water is guided out of the material guide groove to the upper middle inner wall of the dust collection shell, the clean water finally flows downwards to the collection groove at the bottom end of the dust collection shell, the dust falling previously is absorbed, and the two are taken out and cleaned after the subsequent operation is finished; thus, the control of the inlet and outlet of dust-absorbing materials is realized, and dust collection is facilitated;

4. to sum up, this kind of apparatus for producing of big specification quartz glass board through the combined action of collection dirt subassembly, accuse dirt subassembly and accuse material subassembly etc. can make the workstation possess the collection dirt function, when cutting big specification quartz glass board, can in time collect the processing to produced dust, has avoided the dust to fly upward to influence the operation environment, has guaranteed the normal cutting production of glass board.

Drawings

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

FIG. 2 is a schematic perspective cross-sectional view of the dust collection assembly of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 2B according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 2 at C according to the present invention;

FIG. 6 is a schematic perspective sectional view of the dust collecting assembly when the dust control assembly and the material control assembly are in an active state according to the present invention;

FIG. 7 is an exploded perspective view of the dust collection assembly of the present invention;

in FIGS. 1-7: 1-a support table; 2-a movable groove; 3-a workbench; 4-transparent glass; 5-a slide rail; 6-a top plate; 7-cutting device body; 8-a dust collection assembly; 9-dust collecting shell; 10-a dust control assembly; 11-a material control component; 12-a dust collecting groove; 13-handle; 14-a rotating shaft; 15-plate; 16-an air bag; 17-fixing the plate; 18-a suction trough; 19-a material guide groove; 20-a drainage plate.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to fig. 1 to 7 in the embodiment of the present invention.

Example 1

Referring to fig. 1-2, in an embodiment of the present invention, an apparatus for producing a large-sized quartz glass plate includes:

the cutting device comprises a supporting table 1, wherein the appearance of the supporting table 1 is in a hollow inverted 'n' -shaped groove shape on a longitudinal section, a movable groove 2 is slidably mounted at the inner position of the supporting table 1, a workbench 3 is fixedly mounted at the top end position of the supporting table 1, the appearance of the workbench 3 is in a 'back' shape on a cross section, a transparent glass 4 is fixedly mounted at the top end opening position of the workbench 3, slide rails 5 are embedded at the upper positions of the left and right ends of the interior of the workbench 3, a top plate 6 is slidably mounted between the left and right slide rails 5, and a cutting device body 7 is fixedly mounted at the bottom end position of the top plate 6;

the movable groove 2 is convenient for accommodating a large amount of chips falling from the large-size quartz glass plate to be cut, taking the large-size quartz glass plate out of the supporting table 1, and cleaning dust collected in the dust collection component 8; the transparent glass 4 on the workbench 3 can not only prevent dust from being raised out of the top end of the workbench 3, but also facilitate observation of the cutting work of the cutting device body 7 on the quartz glass plate;

dust collection assembly 8, adjacent branch such as four side inner wall upper end positions of workstation 3 are listed as and are encircleed fixed mounting and have a plurality of can collect the dust collection assembly 8, and dust collection assembly 8 is including: the dust collecting device comprises a dust collecting shell 9, a dust control component 10 capable of controlling dust to enter and exit and a material control component 11 capable of controlling dust absorption materials to enter and exit;

the dust collecting component 8 is used for triggering the timely movement of the dust control component 10 and the material control component 11 when dust generated in the cutting process of the large-size quartz glass plate by the self-cutting device body 7 falls to the top end of the dust collecting shell 9, and guiding the dust into the dust collecting shell 9 for collection;

a plurality of dust collecting shells 9 are fixedly arranged at the upper ends of the inner walls of the four sides of the workbench 3 in an equal-adjacent and surrounding way;

a dust control component 10 is movably arranged between the top end and the bottom end inside the dust collecting shell 9;

the dust control assembly 10 is convenient to use the lever and negative pressure principle, when dust falls at the inlet position at the top end of the dust collection shell 9, the dust is moved and deformed in time, guided into the dust collection shell 9 and then movably returned in the reverse direction, so that the dust falling into the dust collection shell is collected and prevented from overflowing; triggering the material control assembly 11 to guide out dust-absorbing materials in time to absorb dust;

a material control component 11 is movably arranged between the top part and the middle part of the right end in the dust collecting shell 9;

the material control assembly 11 is used for guiding the dust-absorbing materials pre-installed in the dust control assembly 10 to the dust collecting shell 9 from inside to outside in the process of movement of the dust control assembly so as to absorb the dust introduced at the same time in time by utilizing the siphon principle.

In the embodiment of the invention, the appearance of the dust collecting shell 9 is in a shape of a letter 'K' with a hollow interior and a penetrating top and bottom on a longitudinal section, the two ends of the top and bottom of the dust collecting shell 9 are respectively provided with an inlet and an outlet which penetrate through up and down, the front, back, left and right sides of the dust collecting shell 9 are in a full-closed shape, the middle position of the left inner wall of the dust collecting shell 9 is spaced from the middle position of the right end of the left inner wall of the dust collecting shell, and the middle inclined upper end of the right end of the dust collecting shell 9 is obliquely provided with an opening which penetrates through up and down;

the dust collecting shell 9 is provided with a letter 'K' shape with a hollow interior and a penetrating top and bottom on a longitudinal section, so that the unique shape of the right end of the dust collecting shell is conveniently utilized to accommodate the dust control component 10 and the material control component 11 respectively, and the pre-installed dust collecting materials can be guided out for dust collection in time in the process of movable dust guiding of the dust control component 10; the middle position of the left inner wall is spaced from the middle position of the right inner wall by a gap, so that the dust which is received previously can fall into the lower end area of the dust collecting shell 9 through the gap when the dust control component 10 moves; the upper and lower through openings are obliquely formed in the middle upper end of the right end, so that dust collection materials pre-installed on the dust collection shell 9 and the material control assembly 11 can be guided out for dust collection through the openings.

According to the production device for the large-size quartz glass plate, the dust collection assembly 8 is arranged, and by utilizing the lever, negative pressure and siphon principles, when the cutting device body 7 is started to cut and produce the large-size quartz glass plate, dust generated during cutting can fly to the position of the inlet at the top end of the dust collection shell 9 of the dust collection assembly 8 and is temporarily received by the dust control assembly 10 of the dust collection assembly 8, the dust control assembly 10 is movably deformed under the action of the lever and negative pressure principles, and the inlet at the top end of the dust collection shell 9 is opened so as to guide the dust received in advance downwards into the dust collection shell 9; after dust is discharged, the dust control assembly 10 is reversely movably deformed under the action of a negative pressure principle so as to continuously seal the top inlet of the dust collecting shell 9 and prevent the overflow of the dust falling previously; meanwhile, in the process of dust discharging movement of the dust control assembly 10, under the action of the siphon principle, the material control assembly 11 of the dust collection assembly 8 is triggered to move, dust collection materials pre-installed in the material control assembly are timely led out to the lower end area inside the dust collection shell 9, the falling dust is absorbed, and the dust collection materials are finally collected by the dust control assembly 10 together and taken out for cleaning after the subsequent operation is finished; under the continuous cooperation of a plurality of dust collecting assemblies 8, the dust can be collected.

Example 2

Referring to fig. 2-3 and fig. 6-7, the embodiment of the present invention differs from embodiment 1 in that: dust control subassembly 10 includes:

the dust collecting groove 12 is arranged at the lower end of the outer surface of the dust collecting shell 9 in a surrounding and sliding manner, the appearance of the dust collecting groove 12 is in a U-shaped groove shape with a hollow inner part, a vertical left end, a convex right end and an open top end on a longitudinal section, the material of the dust collecting groove 12 is plastic, the bottom end of the dust collecting groove 12 is level with the bottom end opening of the dust collecting shell 9 under normal conditions, and the inner wall surface of the dust collecting groove 12 is tightly attached to the outer surface of the lower end of the dust collecting shell 9 under normal conditions;

the dust collecting groove 12 is provided with a hollow inner part, a vertical left end, a convex right end and an open top end on a longitudinal section, and is convenient for uniformly containing dust led in from the top end of the dust collecting shell 9 and dust collecting materials led out from the material control component 11; the material of the dust collecting groove 12 is plastic, so that the toughness of the plastic is conveniently utilized, and the bottom end of the dust collecting shell 9 is firmly clamped under normal conditions so as to accommodate dust and dust collecting materials;

a handle 13, wherein the handle 13 is fixedly arranged at the central position of the outer surface of the bottom side of the dust collecting groove 12;

the handle 13 is used for facilitating timely grabbing and pulling down to take the dust collecting groove 12 down from the bottom end of the dust collecting shell 9 after the dust collecting operation is finished, and cleaning dust and dust collecting materials collected in the dust collecting groove 12.

In the embodiment of the present invention, the dust control assembly 10 further includes:

a rotating shaft 14, wherein the rotating shaft 14 is rotatably arranged at the right position of the top end inside the dust collection shell 9 in the front-back horizontal direction, and the front end and the back end of the rotating shaft 14 are rotatably arranged at the right position of the top end of the front inner wall and the back inner wall of the dust collection shell 9;

the outer surface of the left side of the rotating shaft 14 is fixedly provided with the flat plate 15 in a surrounding way, the flat plate 15 is in a horizontal static balance state under the normal condition, and the outer surface of the left side of the flat plate 15 is in static fit with the top surface of the left inner wall of the dust collection shell 9 under the normal condition;

the flat plate 15 is convenient to use the lever principle, and can rotate counterclockwise in time after receiving heavy dust, so that the dust can be guided downwards into the dust collection shell 9 for collection, and the subsequent material control assembly 11 is triggered to guide out dust collection materials for dust collection.

In the embodiment of the present invention, the dust control assembly 10 further includes:

an air bag 16 is fixedly arranged between the outer surface of the right end of the bottom side of the flat plate 15 and the top surface of the right inner wall of the dust collection shell 9, and the appearance of the air bag 16 is in a fan shape with a hollow inner part on a longitudinal section;

the air bag 16 is provided with a fan-shaped appearance with a hollow inner part on one longitudinal section, so that when the normal flat plate 15 does not receive dust, the flat plate 15 is supported to wait for the dust to fall; and after the flat plate 15 is rotated to receive the dust and the dust is discharged, the flat plate 15 can be reversely deformed and restored to be deformed in time, so that the flat plate 15 is reversely rotated and restored to continuously seal the inlet at the top end of the dust collecting shell 9, and the dust collected in the lower dust collecting shell 9 is prevented from overflowing.

According to the production device of the large-size quartz glass plate, the dust control component 10 is arranged, and by utilizing the lever and negative pressure principle, when dust in the cutting process is not lifted, the bottom end of the dust collecting groove 12 of the dust control component 10 is flush with the bottom end opening of the dust collecting shell 9, and the inner wall surface of the dust collecting groove is tightly attached to the outer surface of the lower end of the dust collecting shell 9; the flat plate 15 of the dust control component 10 is in a horizontal static balance state, and the outer surface of the left side of the flat plate is statically attached to the top surface of the left inner wall of the dust collection shell 9; the air bag 16 of the dust control assembly 10 is in a naturally expanded, undeformed state; when the dust in the cutting process is lifted, the dust gradually breaks through the state, namely, after the dust flies to the inlet position at the top end of the dust collection shell 9, the dust falls on the outer surface of the top side of the flat plate 15 and is continuously accumulated, downward pressure is gradually applied to the flat plate 15, the flat plate 15 rotates downwards anticlockwise under the action of the lever principle, the outer surface of the left side of the flat plate 15 gradually leaves away from the top surface of the left inner wall of the dust collection shell 9, and the air bag 16 below the flat plate is simultaneously pressed to deform the flat plate, so that the dust previously received on the flat plate 15 is discharged into the dust collection shell 9 through the interval between the flat plate and the left inner wall of the dust collection shell 9 and finally falls into the dust collection groove 12 of the dust control assembly 10 for collection; after the dust is discharged, under the action of the negative pressure principle, the air bag 16 can recover to deform so as to enable the upward supporting flat plate 15 to rotate clockwise in the opposite direction, so that the inlet at the top end of the dust collecting shell 9 is continuously sealed, and the dust discharged previously is prevented from overflowing; wherein, the flat plate 15 can trigger the material control component 11 to guide out dust-absorbing materials for dust absorption at the same time in the process of rotating and discharging dust; after the cutting and dust collecting operation is finished, the dust collecting groove 12 is taken down downwards through the handle 13 of the grabbing dust control assembly 10, and the dust collected in the dust collecting groove is cleaned; so as to realize the control of dust in and out, be convenient for collect dust.

Example 3

Referring to fig. 2 and fig. 4-7, the embodiment of the present invention differs from embodiment 1 in that: accuse material subassembly 11 including:

the surface of the lower right end of the dust collection shell 9 is fixedly provided with a fixed plate 17, the fixed plate 17 is in a shape of an arc strip which is concave left and convex right on a longitudinal section, the bottom end of the fixed plate 17 is fixedly arranged at the lower right end of the dust collection shell 9, the top end of the fixed plate 17 is fixedly arranged at the upper right end of the dust collection shell 9 close to the head part of the upper right end of the opening of the dust collection shell 9, and the upper end of the fixed plate 17 is obliquely provided with a through hole which penetrates left and right;

the fixing plate 17 is provided with a left concave and right convex arc strip shape on a longitudinal section, which is convenient for forming a storage tank with the outer surface of the dust collecting shell 9 to contain dust collecting materials; the through hole is convenient for injecting dust-absorbing materials into the storage tank for storage.

In the embodiment of the present invention, the material control assembly 11 further includes:

the storage trough is arranged between the outer surface of the left side of the fixing plate 17 and the outer surface of the middle upper end and the middle lower end of the right end of the dust collecting shell 9, the storage trough is hollow in the interior, is provided with an opening at the top end and is in a right convex triangular shape on a longitudinal section, the opening at the top end of the storage trough is the opening of the dust collecting shell 9, clear water is pre-filled in the storage trough, and the pre-filled highest water level of the clear water is lower than the horizontal plane of the middle end of the storage trough;

the storage tank is provided with a triangular shape with a hollow interior, an opening at the top end and a right convex shape on a longitudinal section, so that dust-absorbing materials with clear water as components can be accommodated conveniently, after the flat plate 15 rotates, the inlet at the tail end of the bottom end of the suction tank 18 is led into the storage tank, the dust-absorbing materials in the storage tank are sucked and then led out to the dust collecting tank 12 through the guide chute 19 to absorb dust.

In the embodiment of the present invention, the material control assembly 11 further includes:

the middle end of the outer surface of the bottom side of the flat plate 15 is fixedly provided with the material suction groove 18, the appearance of the material suction groove 18 is in an arc strip shape with a hollow interior and a left concave and a right convex on a longitudinal section, and the inlet at the tail end of the bottom end of the material suction groove 18 is positioned above the surface of the inner wall of the middle upper part of the right end of the dust collection shell 9 under the normal condition;

the material suction groove 18 is provided with a hollow arc strip shape with a left concave and a right convex in the inner part on a longitudinal section, so that the material suction groove is convenient to cooperate with the material guide groove 19, and the inlet at the tail part of the bottom end of the material suction groove 18 is inserted into the material storage groove to suck dust materials in the process that the flat plate 15 rotates downwards under the action of gravity by utilizing the siphon principle.

In the embodiment of the present invention, the material control assembly 11 further includes:

the guide chute 19 is fixedly installed in the middle of the left end of the material suction chute 18 in a penetrating mode, the combined appearance of the guide chute 19 and the material suction chute 18 is in an inverted letter 'y' shape with a hollow interior and a penetrating end to end on a longitudinal section, an outlet at the tail end of the left end of the guide chute 19 faces the upper end surface of the left inner wall of the dust collection shell 9 under normal conditions, a distance exists between the outlet and the upper end surface, and the left length and the right length of the guide chute 19 are smaller than the top bottom length of the material suction chute 18;

the material guiding groove 19 and the combined appearance of the material suction groove 18 are designed to be in a shape of inverted letter 'y' with a hollow interior and penetrating from head to tail on a longitudinal section, so that in order to utilize the siphon principle, after the inlet at the tail end of the bottom end of the material suction groove 18 is inserted into the material guiding groove to suck dust-absorbing materials, the dust-absorbing materials can be guided into the material guiding groove 19 and finally discharged to the lower end area inside the dust collection shell 9 through the outlet at the tail end of the left end of the material guiding groove 19 to absorb dust.

In the embodiment of the present invention, the material control assembly 11 further includes:

the upper end of the outer surface of the right side of the fixed plate 17 is obliquely and fixedly provided with the drainage plate 20 at the bottom end of the through hole, the appearance of the drainage plate 20 is in an inclined straight plate shape with a left lower part and a right higher part and an included angle of 33 degrees with the horizontal plane on a longitudinal section, and the outer surface of the top side of the drainage plate 20 is flush with the surface of the inner wall of the top side of the through hole;

the drainage plate 20 and the appearance are set to be in the shape of an inclined straight plate with a left lower height and a right higher height and a horizontal plane included angle of 33 degrees on a longitudinal section, so that dust absorption materials can be timely supplemented into the storage tank through the drainage plate 20 after dust collection operation is finished, and the dust absorption materials can flow into the storage tank from the through hole of the fixing plate 17 to be stored along the drainage plate 20.

According to the production device of the large-size quartz glass plate, the material control assembly 11 is arranged, and by utilizing the lever siphon principle, when dust in the cutting process is not lifted, dust absorption materials with clear water as the components pre-loaded in the storage tank of the material control assembly 11 do not overflow; the inlet at the tail end of the bottom end of the material suction groove 18 of the material control component 11 is positioned above the inner wall surface of the middle upper part of the right end of the dust collection shell 9; the outlet of the tail part at the left end of the material guide groove 19 of the material control component 11 faces the upper end surface of the left inner wall of the dust collection shell 9; however, when the dust in the cutting process is lifted, the state can be gradually broken, that is, when the flat plate 15 rotates counterclockwise downward as described above, the flat plate 15 can synchronously drive the material suction groove 18 and the material guide groove 19 thereunder to approach downward toward the opening of the material storage groove, finally the inlet at the tail of the bottom end of the material suction groove 18 is inserted into the dust-absorbing material of the material storage groove, and at this time, the material guide groove 19 is positioned outside the opening of the material storage groove close to the inner wall of the middle upper end of the right end of the dust collection shell 9, under the action of the siphon principle, the material suction groove 18 sucks the clean water in the material storage groove, guides the clean water out of the material storage groove to the inner wall of the middle upper end of the dust collection shell 9 through the material guide groove 19, and finally flows downward into the collection groove 12 at the bottom end of the dust collection shell 9 to absorb the dust falling previously, and the two are taken out and cleaned after the subsequent common operation is finished; so as to realize the control of the inlet and outlet of dust absorption materials and facilitate dust collection.

Claims (10)

1. A production device of large-size quartz glass plates is characterized in that: the method comprises the following steps:

the cutting device comprises a supporting table (1), wherein the appearance of the supporting table (1) is in a hollow inverted 'n' -shaped groove shape on a longitudinal section, a movable groove (2) is slidably mounted at the inner position of the supporting table (1), a workbench (3) is fixedly mounted at the top end position of the supporting table (1), the appearance of the workbench (3) is in a 'return' shape on a cross section, transparent glass (4) is fixedly mounted at the top end opening position of the workbench (3), slide rails (5) are embedded at the upper positions of the left and right ends of the inner part of the workbench (3), a top plate (6) is slidably mounted between the left and right slide rails (5), and a cutting device body (7) is fixedly mounted at the bottom end position of the top plate (6);

the dust collecting component (8), the dust collecting component (8) that a plurality of can collect the dust is encircleed fixed mounting to the equal adjacent components of four sides inner wall upper end position of workstation (3), dust collecting component (8) including: the dust collecting device comprises a dust collecting shell (9), a dust control component (10) capable of controlling dust to enter and exit and a material control component (11) capable of controlling dust-absorbing materials to enter and exit;

a plurality of dust collecting shells (9) are fixedly arranged at the upper ends of the inner walls of the four sides of the workbench (3) in an equal-adjacent and column-dividing surrounding manner;

a dust control assembly (10) is movably arranged between the top end and the bottom end in the dust collection shell (9);

the material control assembly (11) is movably mounted between the middle part of the top end and the right end of the interior of the dust collection shell (9).

2. The apparatus for producing a large-size quartz glass sheet according to claim 1, wherein: the appearance of collection dirt shell (9) is inside cavity, the letter "K" shape that runs through at the top bottom on a longitudinal section, the top bottom both ends of collection dirt shell (9) are seted up entry and the export that runs through from top to bottom respectively, four sides all around of collection dirt shell (9) are totally closed form, the left inner wall middle-end position of collection dirt shell (9) has the interval apart from its right-hand member middle part position before, the opening that runs through from top to bottom is seted up to the oblique upper end position slant in the right-hand member of collection dirt shell (9).

3. The apparatus for producing a large-size quartz glass sheet according to claim 1, wherein: the dust control assembly (10) comprises:

the dust collecting device comprises a dust collecting groove (12), wherein the dust collecting groove (12) is installed at the lower end of the outer surface of a dust collecting shell (9) in a surrounding and sliding mode, the appearance of the dust collecting groove (12) is in a U-shaped groove shape with a hollow inner part, a vertical left end, a convex right end and an open top end on one longitudinal section, the dust collecting groove (12) is made of plastic, the bottom end of the dust collecting groove (12) is flush with the bottom end opening of the dust collecting shell (9) under normal conditions, and the inner wall surface of the dust collecting groove (12) is tightly attached to the outer surface of the lower end of the dust collecting shell (9) under normal conditions;

the handle (13) is fixedly arranged at the central position of the outer surface of the bottom side of the dust collection groove (12).

4. The apparatus for producing a large-size quartz glass sheet according to claim 1, wherein: the dust control assembly (10) further comprises:

the right position of the top end in the dust collection shell (9) is provided with a rotating shaft (14) in a front-back horizontal direction in a rotating manner, and the front end and the rear end of the rotating shaft (14) are rotatably arranged at the right position of the top end of the front inner wall and the rear inner wall of the dust collection shell (9);

dull and stereotyped (15), the left side surface of pivot (14) encircles fixed mounting has dull and stereotyped (15), dull and stereotyped (15) are in the static balanced state of level under normal conditions, the left side surface of dull and stereotyped (15) with the static laminating of left inner wall top surface of collection dirt shell (9) under normal conditions.

5. The apparatus for producing a large-size quartz glass sheet according to claim 4, wherein: the dust control assembly (10) further comprises:

the air bag (16) is fixedly arranged between the outer surface of the right end of the bottom side of the flat plate (15) and the top surface of the right inner wall of the dust collection shell (9), and the appearance of the air bag (16) is in a fan shape with a hollow inner part on one longitudinal section.

6. The apparatus for producing a large-size quartz glass sheet according to claim 1, wherein: the material control component (11) comprises:

fixed plate (17), the right side lower extreme fixed surface of collection dirt shell (9) installs fixed plate (17), the outward appearance of fixed plate (17) is the arc strip shape of the right side of a left side concave on a longitudinal section, the bottom fixed mounting of fixed plate (17) in the right side lower extreme position of collection dirt shell (9), the top fixed mounting of fixed plate (17) in the right side upper end of collection dirt shell (9) is close to the upper right end prelude position of opening of collection dirt shell (9), the through-hole that runs through about the upper end position slant of fixed plate (17) is seted up.

7. The apparatus for producing a large-size quartz glass sheet according to claim 6, wherein: the material control component (11) further comprises:

the storage trough is arranged between the outer surface of the left side of the fixing plate (17) and the outer surface of the upper middle part and the lower middle part of the right end of the dust collecting shell (9), the storage trough is hollow inside, open at the top end and convex right in a triangular shape on a longitudinal section, the open at the top end of the storage trough is the opening of the dust collecting shell (9), clear water is preassembled at the inner position of the storage trough, and the highest preassembly water level line of the clear water is lower than the horizontal plane of the middle end of the storage trough.

8. The apparatus for producing a large-size silica glass sheet according to any one of claims 1 to 4, wherein: the material control component (11) further comprises:

inhale silo (18), the bottom side surface middle-end position fixed mounting of dull and stereotyped (15) inhales silo (18), the outward appearance that inhales silo (18) is inside cavity, the arc strip shape of left concave right convex on a longitudinal section, the bottom afterbody entry that inhales silo (18) is located under normal condition in the right-hand member of collection dirt shell (9) inclined to the upper side of upper portion inner wall surface position.

9. The apparatus for producing a large-size quartz glass sheet according to claim 8, wherein: the material control component (11) further comprises:

guide chute (19), it has guide chute (19) to inhale the left end middle part position of silo (18) to run through fixed mounting, guide chute (19) with the combination outward appearance that inhales silo (18) is inside cavity, the letter of falling "y" shape that runs through end to end on a longitudinal section, the left end afterbody export of guide chute (19) is at normal condition orientation the left inner wall upper end surface of collection dirt shell (9) and there is the distance between the two, length is less than about guide chute (19) inhale the length at the bottom of the top of silo (18).

10. The apparatus for producing a large-size quartz glass sheet according to claim 6, wherein: the material control component (11) further comprises:

drainage plate (20), there is drainage plate (20) right side surface upper end of fixed plate (17) in its through-hole bottom position slant fixed mounting, the straight board shape of slope that the outward appearance of drainage plate (20) is height on a left side low right and horizontal plane for 33 contained angles on a longitudinal section, the top side surface of drainage plate (20) with the top side inner wall surface of through-hole is equal.

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