CN219824015U - Splitting machine - Google Patents

Abstract

The utility model discloses a splitting machine, and relates to the technical field of glass processing. Comprises a machine body, wherein the top of the machine body is provided with a transverse driving toothed plate; the slitting device comprises a transverse driving motor I, a vertical lifting slide plate, a longitudinal guide rail mounting plate I, a sucker I and a sucker separation driving motor I, wherein the transverse driving motor I is in transmission connection with a transverse driving toothed plate, the vertical lifting slide plate is arranged on one side of the transverse driving motor I in a sliding mode, the longitudinal guide rail mounting plate I is arranged at the bottom of the vertical lifting slide plate, the sucker I is arranged at the bottom of the longitudinal guide rail mounting plate I, and the sucker separation driving motor I is used for driving the sucker I to slide at the bottom of the longitudinal guide rail mounting plate I. Compared with the convenience of manual splitting on the market, the glass can be adsorbed into the air through the splitting device and the splitting device to carry out splitting, splitting and splitting operation, so that the defects of scratch, point needling and the like are avoided, the yield of the product is ensured, the labor intensity of workers is greatly reduced, the potential safety hazard is reduced, the economic benefit is met, and the practicability of the product is ensured.

Description

Splitting machine

Technical Field

The utility model relates to the technical field of glass processing, in particular to a splitting machine.

Background

Nowadays, glass products are increasingly used, especially in the industries of construction, display screens, photovoltaics and the like, and glass as a working raw material occupies an extremely important position in the industries. In the related industry, the size of glass raw materials is generally larger than that of products to be produced, and a manufacturer is required to cut the glass to a required size, then perform slicing operation and further perform pretreatment procedures such as edging, cleaning and the like.

Because glass has characteristics such as easy fish tail, cracked, the burst operation mainly relies on the manual work to go on at present, and inefficiency has caused the very big consumption of manpower, and when carrying out the glass burst of great size, easily causes the injury of glass to the people because of factors such as tired.

Disclosure of Invention

The utility model provides a splitting machine for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a splinter machine, comprising:

the machine body is provided with a transverse driving toothed plate at the top;

the slitting device comprises a transverse driving motor I, a vertical lifting slide plate, a longitudinal guide rail mounting plate I, a suction cup separation driving motor I, and a suction cup lifting screw motor I, wherein the transverse driving motor I is in transmission connection with a transverse driving toothed plate;

the slicing device comprises a transverse driving motor II, a longitudinal guide rail mounting plate II, a sucker separation driving motor II and a sucker lifting screw motor II, wherein the transverse driving motor II is in transmission connection with a transverse driving toothed plate and is positioned on one side of the transverse driving motor II, the longitudinal guide rail mounting plate II is arranged at the bottom of the transverse driving motor II, the sucker II is arranged at the bottom of the longitudinal guide rail mounting plate II, the sucker separation driving motor II is used for driving the sucker II to slide at the bottom of the longitudinal guide rail mounting plate II, and the sucker lifting screw motor II is used for driving the sucker II to lift.

Further, the bottom of organism is provided with cutting machine platform, the segmentation platform and the conveying section that is located segmentation platform one side that are located sucking disc below, are located sucking disc two below.

Further, be provided with rim charge separator on the burst platform, one side of burst platform is provided with the waste material receiving case.

Further, the slitting device further comprises a first connecting metal plate arranged at the bottom of the first transverse driving motor, and one side of the first connecting metal plate is in sliding connection with one side of the vertical lifting slide plate through a slide rail and a slide seat;

one side of the vertical lifting slide plate is provided with a rack, and the inside of the first connecting sheet metal is provided with a vertical driving motor in transmission connection with the rack.

Further, one side of the first longitudinal guide rail mounting plate is provided with a rack in transmission connection with the first sucker separation driving motor, and the first sucker separation driving motor, the first sucker lifting screw motor and the first longitudinal guide rail mounting plate are in sliding connection through a sliding rail and a sliding seat.

Further, the first sucker separation driving motor is connected with the first sucker lifting screw motor through a first connecting frame, an aluminum profile is arranged at the bottom of the first sucker lifting screw motor, the first sucker is arranged at the bottom of the first aluminum profile, and a first vacuum source communicated with the first sucker is arranged at the top of the first connecting sheet metal.

Further, the slicing device further comprises a second connecting sheet metal arranged at the bottom of the second transverse driving motor, the second longitudinal guide rail mounting plate is arranged at the bottom of the second connecting sheet metal, and a rack is arranged on one side of the second connecting sheet metal.

Further, the bottom of the second longitudinal guide mounting plate is connected with a transverse guide mounting plate in a sliding manner through a sliding rail and a sliding seat, and a longitudinal driving motor in transmission connection with a rack on one side of the second connecting sheet metal is arranged on the transverse guide mounting plate.

Further, a rack connected with the second sucker separation driving motor in a transmission manner is arranged on one side of the transverse guide rail mounting plate, and the second sucker separation driving motor, the second sucker lifting screw motor and the transverse guide rail mounting plate are connected in a sliding manner through a sliding rail and a sliding seat.

Further, the second sucker separation driving motor is connected with the second sucker lifting screw motor through a connecting frame, an aluminum profile II is arranged at the bottom of the second sucker lifting screw motor, the second sucker is arranged at the bottom of the aluminum profile II, and a second vacuum source which is communicated with the second sucker is arranged on the second connecting sheet metal.

Compared with the prior art, the utility model provides a splitting machine, which has the following beneficial effects:

compared with the manual splitting machine on the market, the glass splitting machine has the advantages that the glass can be adsorbed to the air through the splitting device and the splitting device to carry out splitting, splitting and splitting operation, so that the defects of scratch, point needling and the like are avoided, the yield of the product is ensured, the labor intensity of workers is greatly reduced, the potential safety hazard is reduced, the economic benefit is met, and the practicability of the product is ensured.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a slitting device according to the present utility model;

FIG. 3 is a schematic view of a slicing apparatus according to the present utility model;

fig. 4 is a side view of the structure of the dicing apparatus of the utility model.

In the figure: 1. a body; 11. a transverse driving toothed plate; 12. a cutting machine; 13. a slicing platform; 14. a conveying section; 15. a waste receiving bin; 16. a rim charge separating device; 2. a slitting device; 21. a first transverse driving motor; 22. a vertical lifting slide plate; 23. connecting a first metal plate; 231. a vacuum source I; 24. a vertical driving motor; 25. a first longitudinal guide rail mounting plate; 26. an aluminum profile I; 27. a sucking disc I; 28. the sucking disc separates the driving motor I; 281. a first connecting frame; 29. a sucker lifting screw motor I; 3. a slicing device; 31. a transverse driving motor II; 32. connecting a second metal plate; 321. a second vacuum source; 33. a longitudinal guide rail mounting plate II; 34. a longitudinal driving motor; 35. a transverse guide rail mounting plate; 36. an aluminum profile II; 37. a second sucker; 38. a sucker lifting screw motor II; 381. a second connecting frame; 39. the sucking disc separates the driving motor II.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the utility model discloses a splitting machine, which comprises a machine body 1, wherein a transverse driving toothed plate 11 is arranged at the top of the machine body 1.

The slitting device 2 comprises a transverse driving motor I21 in transmission connection with a transverse driving toothed plate 11, a vertical lifting slide plate 22 arranged on one side of the transverse driving motor I21 in a sliding manner, a longitudinal guide rail mounting plate I25 arranged at the bottom of the vertical lifting slide plate 22, a suction cup I27 arranged at the bottom of the longitudinal guide rail mounting plate I25, a suction cup separation driving motor I28 used for driving the suction cup I27 to slide at the bottom of the longitudinal guide rail mounting plate I25 and a suction cup lifting screw motor I29 used for driving the suction cup I27 to lift.

The slicing device 3 comprises a second transverse driving motor 31 which is in transmission connection with the first transverse driving toothed plate 11 and is positioned on one side of the first transverse driving motor 21, a second longitudinal guide rail mounting plate 33 which is arranged at the bottom of the second transverse driving motor 31, a second sucking disc 37 which is arranged at the bottom of the second longitudinal guide rail mounting plate, a second sucking disc separation driving motor 39 which is used for driving the second sucking disc 37 to slide at the bottom of the second longitudinal guide rail mounting plate 33, and a second sucking disc lifting screw motor 38 which is used for driving the second sucking disc 37 to lift.

Specifically, the bottom of the machine body 1 is provided with a cutting machine table 12 positioned below a first sucking disc 27, a slicing platform 13 positioned below a second sucking disc 37 and a conveying section 14 positioned on one side of the slicing platform 13, glass cut on the cutting machine table 12 is pre-sliced through the slicing device 2, the glass after being sliced is adsorbed by the first sucking disc 27 and moves to the slicing platform 13 for slicing operation, and glass after slicing is adsorbed and transported to the next procedure on the conveying section 14 through the second sucking disc 37.

Specifically, be provided with rim charge separator 16 on the burst platform 13, one side of burst platform 13 is provided with waste material receiving box 15, can carry out manual burst of staff on the burst platform 13, and the garrulous limit that the lobe of a leaf produced is collected through waste material receiving box 15.

Specifically, the motor output end connected with the rack in a transmission way is provided with matched gears.

Specifically, the strip splitting device 2 further comprises a first connecting sheet metal 23 arranged at the bottom of the first transverse driving motor 21, one side of the first connecting sheet metal 23 is in sliding connection with one side of the vertical lifting slide plate 22 through a sliding rail and a sliding seat, a rack is arranged on one side of the vertical lifting slide plate 22, a vertical driving motor 24 in transmission connection with the rack is arranged in the first connecting sheet metal 23, the first transverse driving motor 21 is started to drive the strip splitting device 2 to slide on the machine body 1 along the transverse driving toothed plate 11, the vertical driving motor 24 is started to be in meshed transmission with the rack, the rack drives the vertical lifting slide plate 22 to perform lifting motion, and the rim charge separating device 16 is used for breaking apart the periphery of glass.

Specifically, a rack in transmission connection with the first suction cup separation driving motor 28 is disposed on one side of the first longitudinal rail mounting plate 25, the first suction cup separation driving motor 28, the first suction cup lifting screw motor 29 and the first longitudinal rail mounting plate 25 are all in sliding connection through a sliding rail and a sliding seat, the first longitudinal rail mounting plate 25 is driven to synchronously perform lifting movement of the vertical lifting sliding plate 22, and referring to fig. 2, the number of the first suction cup separation driving motor 28 and the first suction cup lifting screw motor 29 is not less than one, the first suction cup separation driving motor 28 is started to be meshed with the rack on one side of the first longitudinal rail mounting plate 25, so that the first suction cup separation driving motor 28 drives the first suction cup lifting screw motor 29 to slide along the first longitudinal rail mounting plate 25 through the first connecting frame 281, and glass splitting operation is achieved.

Specifically, the first sucking disc separation driving motor 28 and the first sucking disc lifting screw motor 29 are connected through the first connecting frame 281, the first aluminum profile 26 is arranged at the bottom of the first sucking disc lifting screw motor 29, the first sucking disc 27 is arranged at the bottom of the first aluminum profile 26, the first vacuum source 231 communicated with the first sucking disc 27 is arranged at the top of the first connecting metal plate 23, the first sucking disc lifting screw motor 29 is started to drive the first aluminum profile 26 to ascend, the first aluminum profile 26 adsorbs glass to ascend through the first sucking disc 27, and then the first sucking disc separation driving motor 28 can be started to realize air splitting, so that the conditions of scratch and breakage of glass are avoided.

Specifically, the slicing device 3 further comprises a second connecting metal plate 32 arranged at the bottom of the second transverse driving motor 31, the second longitudinal guide rail mounting plate 33 is arranged at the bottom of the second connecting metal plate 32, a rack is arranged on one side of the second connecting metal plate 32, after the glass slicing operation is completed, the first transverse driving motor 21 is started to drive the first sucker 27 to adsorb glass sliced from the upper side of the cutting machine table 12 to move onto the slicing platform 13, and when the first transverse driving motor 21 moves onto the slicing platform 13, the second transverse driving motor 31 moves the glass sliced onto the conveying section 14 through the second sucker 37, and meanwhile the first transverse driving motor 21 is avoided.

Specifically, the bottom of the second longitudinal rail mounting plate 33 is slidably connected with a transverse rail mounting plate 35 through a sliding rail and a sliding seat, a longitudinal driving motor 34 in rack transmission connection with one side of the second connecting sheet metal 32 is arranged on the transverse rail mounting plate 35, and the longitudinal driving motor 34 is started to be in meshed transmission with the rack, so that the longitudinal driving motor 34 slides along the second longitudinal rail mounting plate 33 due to the fact that the rack is fixed, and meanwhile the longitudinal driving motor 34 drives the transverse rail mounting plate 35 to synchronously move.

Specifically, a rack in transmission connection with the second sucker separation driving motor 39 is disposed on one side of the transverse guide mounting plate 35, the second sucker separation driving motor 39, the second sucker lifting screw motor 38 and the transverse guide mounting plate 35 are all in sliding connection with the slide rail and the slide seat, and the second sucker separation driving motor 39 is started to be in meshed transmission with the rack, so that the second sucker separation driving motor 39 drives the second sucker lifting motor to slide synchronously along the transverse guide mounting plate 35 through the second connecting frame 381.

Specifically, the second sucker separation driving motor 39 is connected with the second sucker lifting screw motor 38 through the second connecting frame 381, the second aluminum profile 36 is arranged at the bottom of the second sucker lifting screw motor 38, the second sucker 37 is arranged at the bottom of the second aluminum profile 36, the second connecting sheet metal 32 is provided with the second vacuum source 321 communicated with the second sucker 37, the second sucker lifting screw motor 38 is started to drive the second aluminum profile 36 to lift, the second aluminum profile 36 drives the second sucker 37 to lift, the split glass is adsorbed in the air for splitting operation, after the glass splitting is completed, the second transverse driving motor 31 is started to move on the transverse driving toothed plate 11 to convey the glass to the conveying section 14, meanwhile, the first transverse driving motor 21 is started to convey the split glass to the splitting platform 13 at the same time when the second transverse driving motor 31 conveys the glass, and the splitting efficiency is ensured through synchronous operation.

When the glass splitting device is used, the sucker lifting screw motor I29 is started to drive the sucker I27 to descend and adsorb cut glass to ascend, the sucker separating driving motor I28 is started to split the glass, the transverse driving motor I21 is started to drive the split glass to move onto the splitting platform 13, the transverse driving motor II 31 is started to move onto the conveying section 14 to avoid, after the split glass is placed on the splitting platform 13, the transverse driving motor I21 and the transverse driving motor II 31 are started to reset, the sucker lifting screw motor II 38 is started to drive the aluminum profile II 36 to descend and adsorb the split glass to ascend, the sucker separating driving motor II 39 is started to split the glass, after splitting is completed, the transverse driving motor II 31 is started to drive the split glass to move onto the conveying section 14 to be conveyed onto the next procedure, and meanwhile the transverse driving motor I21 synchronously moves the split glass onto the splitting platform 13 to realize continuous processing.

In summary, compared with the convenience of manual splitting in the market, the splitting machine can adsorb glass to the air through the splitting device 2 and the splitting device 3 to perform splitting, splitting and splitting operations, so that the defects of scratch, needling and the like are avoided, the product yield is ensured, meanwhile, the labor intensity of staff is greatly reduced, the potential safety hazard is reduced, the economic benefit is met, and the practicability of the product is ensured.

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

Claims (10)

1. A splinter machine, comprising:

the machine comprises a machine body (1), wherein a transverse driving toothed plate (11) is arranged at the top of the machine body (1);

the device comprises a slitting device (2), wherein the slitting device (2) comprises a transverse driving motor I (21) in transmission connection with a transverse driving toothed plate (11), a vertical lifting slide plate (22) arranged on one side of the transverse driving motor I (21) in a sliding manner, a longitudinal guide rail mounting plate I (25) arranged at the bottom of the vertical lifting slide plate (22), a sucker I (27) arranged at the bottom of the longitudinal guide rail mounting plate I (25), a sucker separation driving motor I (28) for driving the sucker I (27) to slide at the bottom of the longitudinal guide rail mounting plate I (25) and a sucker lifting screw motor I (29) for driving the sucker I (27) to lift;

the slicing device (3), the slicing device (3) comprises a transverse driving motor II (31) which is in transmission connection with the transverse driving toothed plate (11) and is positioned on one side of the transverse driving motor I (21), a longitudinal guide rail mounting plate II (33) which is arranged at the bottom of the transverse driving motor II (31), a sucker II (37) which is arranged at the bottom of the longitudinal guide rail mounting plate II, a sucker separation driving motor II (39) which is used for driving the sucker II (37) to slide at the bottom of the longitudinal guide rail mounting plate II (33) and a sucker lifting screw motor II (38) which is used for driving the sucker II (37) to lift.

2. A splinter machine as claimed in claim 1, wherein: the bottom of the machine body (1) is provided with a cutting machine table (12) positioned below the first sucker (27), a slicing platform (13) positioned below the second sucker (37) and a conveying section (14) positioned on one side of the slicing platform (13).

3. A splinter machine as claimed in claim 2, wherein: the device is characterized in that a rim charge separating device (16) is arranged on the slicing platform (13), and a waste receiving box (15) is arranged on one side of the slicing platform (13).

4. A splinter machine as claimed in claim 1, wherein: the slitting device (2) further comprises a first connecting metal plate (23) arranged at the bottom of the first transverse driving motor (21), and one side of the first connecting metal plate (23) is in sliding connection with one side of the vertical lifting slide plate (22) through a slide rail and a slide seat;

one side of the vertical lifting slide plate (22) is provided with a rack, and the inside of the first connecting sheet metal (23) is provided with a vertical driving motor (24) in transmission connection with the rack.

5. The splinter machine of claim 4 wherein: one side of the first longitudinal guide rail mounting plate (25) is provided with a rack in transmission connection with a first sucker separation driving motor (28), and the first sucker separation driving motor (28), a first sucker lifting screw motor (29) and the first longitudinal guide rail mounting plate (25) are in sliding connection through a sliding rail and a sliding seat.

6. The splinter machine of claim 5 wherein: the sucker separation driving motor I (28) and the sucker lifting screw motor I (29) are connected through the connecting frame I (281), an aluminum profile I (26) is arranged at the bottom of the sucker lifting screw motor I (29), the sucker I (27) is arranged at the bottom of the aluminum profile I (26), and a vacuum source I (231) communicated with the sucker I (27) is arranged at the top of the connecting sheet metal I (23).

7. A splinter machine as claimed in claim 1, wherein: the slicing device (3) further comprises a second connecting sheet metal (32) arranged at the bottom of the second transverse driving motor (31), the second longitudinal guide rail mounting plate (33) is arranged at the bottom of the second connecting sheet metal (32), and a rack is arranged on one side of the second connecting sheet metal (32).

8. The splinter machine of claim 7 wherein: the bottom of the second longitudinal guide rail mounting plate (33) is connected with a transverse guide rail mounting plate (35) in a sliding manner through a sliding rail and a sliding seat, and a longitudinal driving motor (34) in transmission connection with a rack on one side of the second connecting sheet metal (32) is arranged on the transverse guide rail mounting plate (35).

9. The splinter machine of claim 8 wherein: one side of the transverse guide rail mounting plate (35) is provided with a rack in transmission connection with a sucker separation driving motor II (39), and the sucker separation driving motor II (39), a sucker lifting screw motor II (38) and the transverse guide rail mounting plate (35) are in sliding connection through a sliding rail and a sliding seat.

10. A splinter machine as claimed in claim 9, wherein: the suction cup separation driving motor II (39) is connected with the suction cup lifting screw motor II (38) through the connecting frame II (381), an aluminum profile II (36) is arranged at the bottom of the suction cup lifting screw motor II (38), the suction cup II (37) is arranged at the bottom of the aluminum profile II (36), and a vacuum source II (321) communicated with the suction cup II (37) is arranged on the connecting metal plate II (32).