CN211687359U - Conveying device for cutting ultra-white toughened glass - Google Patents

Abstract

The utility model discloses a conveyer is used in super white toughened glass cutting, including the cutting equipment body, one side of cutting equipment body is connected with the support, is connected with the gas jet board on the cutting equipment body of support top, the upper surface of support has the grudging post through the pillar connection, and the conveyer belt has been cup jointed to the upper surface of grudging post and the lower surface of support, and support bilateral symmetry is connected with the backup pad, and one side of backup pad is connected with driving motor. This conveyer is used in super white toughened glass cutting, support the conveyer belt through support and grudging post installation, set up the air spout board in the top of conveyer belt, the lower extreme of air spout inclines to both sides, conveniently blows the residue to the conveyer belt of glass both sides on, the residue of being convenient for is concentrated, avoid the fish tail, the both sides of conveyer belt are in unsettled state, through the interval distribution induction port, consequently the conveyer belt is wavy undulation under the effect of suction force in the in-process both sides of removal, can effectively shake off the residue, it is effectual to collect the sediment.

Description

Conveying device for cutting ultra-white toughened glass

Technical Field

The utility model relates to a white steel toughened glass processing equipment technical field specifically is a conveyer is used in super white toughened glass cutting.

Background

In the production and processing process of the ultra-white toughened glass, the conveyor belt is required to convey the glass to the cutting machine for cutting, during conveying operation, the toughened glass conveying track is lifted from the platform, the toughened glass is placed on the glass conveying track, a plurality of air suction holes are formed in the platform, the air suction holes suck the toughened glass to fix the toughened glass on the glass conveying track, the glass conveying track conveys the glass to the cutting machine for cutting, in the cutting process of the toughened glass, a large amount of glass slag is broken out from the glass cutting machine, broken toughened glass slag is remained on the glass conveying track and the platform, when the toughened glass is conveyed subsequently, the toughened glass is scratched by friction of the toughened glass and the glass slag, and the glass slag enters the air suction holes to block the air suction holes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a conveyer is used in super white toughened glass cutting has that the collection sediment is effectual, and the cleaning efficiency is high, and problem among the prior art has been solved to self-cleaning's advantage.

In order to achieve the above object, the utility model provides a following technical scheme: a conveying device for cutting ultra-white toughened glass comprises a cutting equipment body, wherein one side of the cutting equipment body is connected with a support, an air jet plate is connected onto the cutting equipment body above the support, the upper surface of the support is connected with a vertical frame through a support column, a conveying belt is sleeved on the upper surface of the vertical frame and the lower surface of the support, support plates are symmetrically connected to two sides of the support, one side of each support plate is connected with a driving motor, the upper end, close to one side of the driving motor, of each support plate is connected with a storage plate, a first slag collecting box is arranged on each storage plate, the output end of the driving motor penetrates through the corresponding support plate and is connected with a cleaning brush, one end of each cleaning brush is movably connected with the corresponding support plate through a bearing, bristles are connected to one circle of the cleaning brushes at equal intervals, a second slag collecting box is arranged at the lower end of each cleaning brush, a, the upper ends of the first inclined guide plate and the second inclined guide plate are symmetrically connected with a baffle plate;

the inner part of the air jet plate is provided with a first air cavity, the lower end of the air jet plate is symmetrically connected with air nozzles distributed in an array manner, the air inlet ends of the air nozzles are communicated with the first air cavity, the upper surface of the air jet plate is provided with a circulating air pump, and the air inlet of the circulating air pump is connected with an air inlet pipe;

the inside connection of second collection sediment case upper end has the cambered plate, is connected with first clearance steel column on the intermediate position of cambered plate upper surface, and the last symmetric connection of cambered plate of first clearance steel column both sides has the second clearance steel column, has all seted up into the sediment hole on the cambered plate of first clearance steel column and second clearance steel column both sides.

Preferably, a second air cavity is formed in the vertical frame, air suction ports are symmetrically connected to two sides of the second air cavity and penetrate through the vertical frame, an exhaust channel is connected to the lower end of the second air cavity and penetrates through the second inclined guide plate and is connected with one end of the air inlet pipe.

Preferably, the air suction ports are distributed on two sides of the stand in a row shape, and one end of each air suction port extending out of the stand is of an arc-shaped pipeline structure with an upward opening.

Preferably, the first inclined guide plate penetrates through a space enclosed by the bracket and the stand, and the lower surface of the first inclined guide plate is connected with the upper surface of the bracket through a support.

Preferably, a gap is reserved between the baffle and the side edge of the conveyor belt, and the width of the conveyor belt is larger than that of the stand.

Preferably, the first cleaning steel column and the second cleaning steel column are both steel column structures distributed at intervals, and the steel columns on the first cleaning steel column and the second cleaning steel column are distributed in a staggered mode.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the conveying device for cutting the ultra-white toughened glass is characterized in that a supporting conveying belt is installed through a support and a vertical frame, an air injection plate is arranged above the conveying belt, the lower end of an air nozzle inclines towards two sides, residues are conveniently blown onto the conveying belts on two sides of the glass, the residues are convenient to concentrate and avoid scratches, the width of the conveying belt is larger than that of the vertical frame, two sides of the conveying belt are in a suspended state and are in a suspended state through spaced air suction ports, therefore, the two sides of the conveying belt are wavy and fluctuated under the action of suction force in the moving process, the residues can be effectively shaken off, the residue collecting effect is good, a cleaning brush is arranged below the conveying belt, the rotation is realized through a driving motor, the residues on the brush can be cleaned off through the parts of the brush, which are in contact with a first cleaning steel column and a second cleaning steel column, the residues on the brush can be shaken off, the cleaning effect is ensured, the structure is simple, the waste residues, is convenient for centralized cleaning.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a partial cross-sectional view of the present invention;

FIG. 3 is a structural view of the stand of the present invention;

FIG. 4 is a sectional view of a second slag collection box of the present invention;

fig. 5 is a structural view of the arc panel of the present invention.

In the figure: 1. cutting the equipment body; 2. a support; 21. erecting a frame; 211. a second air cavity; 212. an air suction port; 213. an exhaust passage; 22. a conveyor belt; 23. a support plate; 231. a drive motor; 232. a storage plate; 24. cleaning with a brush; 241. brushing; 3. an air jet plate; 31. a first air cavity; 32. an air tap; 33. a circulating air pump; 34. an air inlet pipe; 4. a first slag collection tank; 41. a first inclined guide plate; 42. a second inclined guide plate; 43. a baffle plate; 5. a second slag collection tank; 51. a cambered plate; 52. first cleaning a steel column; 53. secondly, steel columns are cleaned; 54. a slag inlet hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a conveying device for cutting ultra-white tempered glass comprises a cutting device body 1, a support 2 is connected to one side of the cutting device body 1, an air-jet plate 3 is connected to the cutting device body 1 above the support 2, a stand 21 is connected to the upper surface of the support 2 through a support, a second air chamber 211 is formed in the stand 21, air suction ports 212 are symmetrically connected to two sides of the second air chamber 211, the air suction ports 212 penetrate through the stand 21, an exhaust passage 213 is connected to the lower end of the second air chamber 211, the exhaust passage 213 penetrates through a second inclined guide plate 42 and is connected to one end of an air inlet pipe 34, the air suction ports 212 suck air under the action of a circulating air pump 33, a conveyor belt 22 is sleeved on the upper surface of the stand 21 and the lower surface of the support 2, the stand 21 plays a role of supporting the conveyor belt 22, a gap is left between a baffle 43 and the side edge of the conveyor belt 22, and the, the two sides of the conveyor belt 22 are in a suspended state, the width of the conveyed glass blocks is smaller than the width of the vertical frame 21, the air suction ports 212 are distributed on the two sides of the vertical frame 21 in a row shape, and one end of the air suction port 212 extending out of the vertical frame 21 is an arc-shaped pipeline structure with an upward opening, when the air suction ports 212 suck air, the two sides of the conveyor belt 22 are driven to bend and incline downwards under the action of suction force, and meanwhile, the air suction ports 212 are distributed at intervals, so that the two sides of the conveyor belt 22 are waved under the action of suction force and can effectively shake off residues, the glass residues on the two sides of the conveyor belt 22 slide down along the surface of the conveyor belt 22 to the first inclined guide plate 41 and are concentrated into the first slag collecting box 4, the two sides of the support frame 2 are symmetrically connected with the support plates 23, one side of the support plates 23 is connected with the driving motor 231, the upper, the output of driving motor 231 runs through backup pad 23, and be connected with brush cleaner 24, bearing and backup pad 23 swing joint are passed through to brush cleaner 24's one end, brush cleaner 24's a week equidistance is connected with brush hair 241, brush cleaner 24's lower extreme is equipped with second collection sediment case 5, the both sides of the upper end of first collection sediment case 4 are connected with first oblique baffle 41 and second oblique baffle 42 respectively, the upper end symmetric connection of first oblique baffle 41 and second oblique baffle 42 has baffle 43, first oblique baffle 41 runs through the space that support 2 and grudging post 21 enclose, first oblique baffle 41 is located the below of grudging post 21, a waste residue for collecting the glass of conveyer belt 22 both sides, and the lower surface of first oblique baffle 41 passes through the pillar and links to each other with the upper surface of support 2, improve the stability of structure.

First air cavity 31 has been seted up to the inside of jet-propelled board 3, the lower extreme symmetric connection of jet-propelled board 3 has the air cock 32 that the array distributes, the inlet end and the 31 intercommunication in first air cavity of air cock 32, the last surface mounting of jet-propelled board 3 has circulating air pump 33, circulating air pump 33's air inlet is connected with intake pipe 34, circulating air pump 33 works, jet-propelled to air cock 32, blow off the residue on super white toughened glass surface, the lower extreme of air cock 32 inclines to both sides, conveniently blow the residue on the conveyer belt 22 of glass both sides, glass is after the cutting simultaneously, the residue is mainly concentrated on the glass edge, avoid the fish tail.

Referring to fig. 4-5, an arc panel 51 is connected to the inside of the upper end of the second slag collecting box 5, a first cleaning steel column 52 is connected to the middle position of the upper surface of the arc panel 51, second cleaning steel columns 53 are symmetrically connected to the arc panels 51 on the two sides of the first cleaning steel column 52, slag inlet holes 54 are formed in the arc panels 51 on the two sides of the first cleaning steel column 52 and the second cleaning steel column 53, the first cleaning steel column 52 and the second cleaning steel column 53 are both steel column structures distributed at intervals, the steel columns on the first cleaning steel column 52 and the second cleaning steel column 53 are distributed in a staggered manner, the driving motor 231 drives the cleaning brush 24 to rotate, the bristles 241 clean the lower surface of the conveyor belt 22, dust and residues adhered to the lower surface of the conveyor belt 22, meanwhile, the cleaned bristles 241 rotate to the arc panel 51 and respectively contact with the first cleaning steel column 52 and the second cleaning steel column 53, the dust and the residues adhered to the bristles are shaken off, the residues are collected into the second residue collecting box 5 through the residue inlet 54, and the brush bristles 241 are kept clean.

The working process is as follows: when the glass cutting device is used, the ultra-white toughened glass cut from the cutting device body 1 moves to the conveyor belt 22, the conveyor belt 22 moves to drive the toughened glass to move, after the glass is cut, residues are mainly concentrated on the edge of the glass, the air nozzles 32 spray air under the action of the circulating air pump 33, the lower ends of the air nozzles 32 incline towards two sides to blow the residues to two sides of the glass, the residues are conveniently concentrated to two sides of the conveyor belt 22, meanwhile, the width of the conveyor belt 22 is larger than that of the vertical frame 21, two sides of the conveyor belt 22 are in a suspended state, the air suction ports 212 suck air by the circulating air pump 33 to drive two sides of the conveyor belt 22 to bend downwards and incline under the action of suction force, and meanwhile, the air suction ports 212 are distributed at intervals, so that two sides of the conveyor belt 22 are wavy under the action of suction force in the moving process, the residues can be effectively shaken off, the glass residues on two, and concentrate to first collection sediment case 4 in, when conveyer belt 22 rotated the lower surface of support 2, driving motor 231 drove the brush cleaner 24 and rotated, brush hair 241 cleaned the lower surface of conveyer belt 22, cleaned the sticky dust and the residue of conveyer belt 22 lower surface, brush hair 241 after cleaning simultaneously rotated to cambered plate 51 on, contacted with first clearance steel column 52 and second clearance steel column 53 respectively, shaken off the sticky dust and the residue on the brush hair, concentrated the residue to second collection sediment case 5 in through advancing sediment hole 54, guaranteed that brush hair 241 is clean.

In summary, the following steps: the conveying device for cutting the ultra-white toughened glass is characterized in that a supporting conveyor belt 22 is installed through a support 2 and a vertical frame 21, an air injection plate 3 is arranged above the conveyor belt 22, the lower end of an air nozzle 32 inclines towards two sides, residues are conveniently blown onto the conveyor belts 22 on two sides of the glass, the residues are convenient to collect, scratching is avoided, the width of the conveyor belt 22 is larger than that of the vertical frame 21, two sides of the conveyor belt 22 are in a suspended state, and air inlets 212 are distributed at intervals, so that the two sides of the conveyor belt 22 are wavy and undulate under the action of suction force in the moving process, the residues can be effectively shaken off, the residue collecting effect is good, a cleaning brush 24 is arranged below the conveyor belt 22, rotation is realized through a driving motor 231, the residues can be cleaned by the contact part of a brush 241 and the conveyor belt 22, and the residues on the brush 241 can be shaken off by the contact part of the brush 241 with, the cleaning effect is guaranteed, the structure is simple, waste residues are collected through the first slag collecting box 4 and the second slag collecting box 5, and centralized cleaning is facilitated.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a conveyer is used in cutting of super white toughened glass, includes cutting equipment body (1), its characterized in that: one side of the cutting equipment body (1) is connected with a support (2), the cutting equipment body (1) above the support (2) is connected with an air jet plate (3), the upper surface of the support (2) is connected with a vertical frame (21) through a support, the upper surface of the vertical frame (21) and the lower surface of the support (2) are sleeved with a conveyor belt (22), two sides of the support (2) are symmetrically connected with a support plate (23), one side of the support plate (23) is connected with a driving motor (231), the upper end of the support plate (23) close to one side of the driving motor (231) is connected with a storage plate (232), a first slag collecting box (4) is arranged on the storage plate (232), the output end of the driving motor (231) penetrates through the support plate (23) and is connected with a cleaning brush (24), one end of the cleaning brush (24) is movably connected with the support plate (23) through a bearing, a circle of the cleaning brush, a second slag collection box (5) is arranged at the lower end of the cleaning brush (24), a first inclined guide plate (41) and a second inclined guide plate (42) are respectively connected to two sides of the upper end of the first slag collection box (4), and baffles (43) are symmetrically connected to the upper ends of the first inclined guide plate (41) and the second inclined guide plate (42);

a first air cavity (31) is formed in the air injection plate (3), the lower end of the air injection plate (3) is symmetrically connected with air nozzles (32) distributed in an array manner, the air inlet ends of the air nozzles (32) are communicated with the first air cavity (31), a circulating air pump (33) is installed on the upper surface of the air injection plate (3), and the air inlet of the circulating air pump (33) is connected with an air inlet pipe (34);

the inside connection of second collection sediment case (5) upper end has cambered plate (51), is connected with first clearance steel column (52) on the intermediate position of cambered plate (51) upper surface, and symmetrical connection has second clearance steel column (53) on cambered plate (51) of first clearance steel column (52) both sides, all has seted up into sediment hole (54) on cambered plate (51) of first clearance steel column (52) and second clearance steel column (53) both sides.

2. The conveying device for cutting the ultra-white toughened glass according to claim 1, characterized in that: second air cavity (211) have been seted up to the inside of grudging post (21), and the bilateral symmetry of second air cavity (211) is connected with induction port (212), and induction port (212) run through grudging post (21), and the lower extreme of second air cavity (211) is connected with exhaust passage (213), and exhaust passage (213) run through second inclined guide board (42), and are connected with the one end of intake pipe (34).

3. The conveying device for cutting the ultra-white toughened glass according to claim 2, characterized in that: the air suction ports (212) are distributed on two sides of the stand (21) in a row shape, and one end, extending out of the stand (21), of the air suction ports (212) is of an arc-shaped pipeline structure with an upward opening.

4. The conveying device for cutting the ultra-white toughened glass according to claim 1, characterized in that: the first inclined guide plate (41) penetrates through a space surrounded by the support (2) and the stand (21), and the lower surface of the first inclined guide plate (41) is connected with the upper surface of the support (2) through a support.

5. The conveying device for cutting the ultra-white toughened glass according to claim 1, characterized in that: gaps are reserved between the baffle plates (43) and the side edges of the conveyor belt (22), and the width of the conveyor belt (22) is larger than that of the vertical frame (21).

6. The conveying device for cutting the ultra-white toughened glass according to claim 1, characterized in that: the first cleaning steel column (52) and the second cleaning steel column (53) are both steel column structures distributed at intervals, and steel columns on the first cleaning steel column (52) and the second cleaning steel column (53) are distributed in a staggered mode.

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