CN212352500U - Full-automatic two-way glass-cutting machine - Google Patents

Abstract

The utility model discloses a full-automatic two-way glass-cutting machine, which comprises a housing, the top of casing is provided with the mounting panel, the bilateral symmetry of mounting panel is provided with a set of axis of rotation one and axis of rotation two, evenly overlap respectively on axis of rotation one and the axis of rotation two and be equipped with a plurality of rotary drums, connect through the conveyer belt between two rotary drums, the mounting panel alternates and sets up the inside intermediate position at a plurality of conveyer belts, the mounting panel passes through the backup pad and is connected with the casing, the both ends of axis of rotation one all are connected with the interior wall of casing respectively, the one end of axis of rotation two and the interior wall connection of casing, the other end of axis of rotation two passes through the interior wall connection of worm wheel and casing, one side that the backup pad was kept away from to. Has the advantages that: the glass is prevented from shifting in position during cutting, so that the cutting position is prevented from deviating.

Description

Full-automatic two-way glass-cutting machine

Technical Field

The utility model relates to a two-way glass-cutting machine field particularly, relates to a full-automatic two-way glass-cutting machine.

Background

With the development of the modern machining industry, the requirements on the cutting quality and precision are continuously improved, and the requirements on improving the production efficiency, reducing the production cost and having a high-intelligent automatic cutting function are also improved. The development of the numerical control cutting machine has to meet the requirements of the development of the modern mechanical processing industry. The cutting machine is classified into a flame cutting machine, a plasma cutting machine, a laser cutting machine, water cutting, and the like. The laser cutting machine has the fastest efficiency, the highest cutting precision and generally smaller cutting thickness. The plasma cutting machine has fast cutting speed and certain slope of the cut surface. The flame cutting machine is used for carbon steel materials with larger thickness.

The existing cutting machine is matched with devices such as a conveying belt, a rotating shaft, a rolling bearing and a driving piece, so that in the specific use process, although the efficiency of glass processing is improved, the existing cutting machine only can cut glass with single size, when the glass to be cut is smaller than the distance between limiting blocks of the cutting machine, the glass can deviate in the conveying process of the glass by the conveying belt, and the condition that the cutting position on the glass is incorrect is further caused.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

To the problem among the correlation technique, the utility model provides a full-automatic two-way glass-cutting machine to overcome the above-mentioned technical problem that current correlation technique exists.

Therefore, the utility model discloses a specific technical scheme as follows:

a full-automatic bidirectional glass cutting machine comprises a casing, wherein a mounting plate is arranged above the casing, a group of first rotating shaft and second rotating shaft are symmetrically arranged on two sides of the mounting plate, a plurality of rotary drums are uniformly sleeved on the first rotating shaft and the second rotating shaft respectively, the two rotary drums are connected through conveyor belts, the mounting plate is arranged at the middle positions inside the conveyor belts in an inserting mode, the mounting plate is connected with the casing through a supporting plate, two ends of the first rotating shaft are respectively connected with the inner wall of the casing, one end of the second rotating shaft is connected with the inner wall of the casing, the other end of the second rotating shaft is connected with the inner wall of the casing through a worm wheel, one side of the worm wheel, away from the supporting plate, is provided with a worm matched with the worm wheel, the bottom end of the worm wheel is provided with a motor matched with the, a connecting plate is arranged at the top end of the machine shell, a sliding groove is formed in the middle position of one side, close to the motor, of the connecting plate, a sliding block is arranged in the sliding groove, a connecting block is arranged on one side, far away from the sliding groove, of the sliding block, and a cutting knife is arranged at the bottom end of the connecting block; the telescopic mechanism comprises a driving device arranged above the supporting plate, a group of driving mechanisms are symmetrically arranged on two sides of the driving device, one driving mechanism is connected with the inner wall of the shell, a driving motor matched with the driving mechanism is arranged at the top end of the one driving mechanism, the one driving mechanism is connected with the driving device through a first connecting mechanism, and the other driving mechanism is connected with the driving device through a second connecting mechanism.

Furthermore, in order to be able to limit the glass in the moving process, the driving device comprises a driving main board arranged above the supporting board, a group of driving gears are symmetrically arranged at the top end of the driving main board, and the driving gears are connected with a driving mechanism through driving columns.

Furthermore, in order to be matched with a driving device to limit the moving glass, the driving device comprises a driving intermediate plate connected with a driving column, a driving side plate is arranged on one side, away from the driving main plate, of the driving intermediate plate, the driving intermediate plate is connected with the driving side plate through two driving rods, one driving rod I is provided with a driving rod II close to one end of the driving gear, one end, away from the driving intermediate plate, of the driving rod II is connected with the driving main plate, and one side of the driving side plate is connected with the inner wall of the shell.

Furthermore, in order to enable the telescopic mechanism to perform telescopic motion, the first connecting mechanism comprises a first connecting plate connected with the driving main plate, a second connecting plate connected with the driving intermediate plate and a third connecting plate connected with the driving side plate, the end, away from the driving main plate, of the first connecting plate is connected with the end, away from the driving intermediate plate, of the second connecting plate, and the end, away from the driving intermediate plate, of the second connecting plate is connected with the end, away from the driving side plate, of the third connecting plate.

Furthermore, in order to match with the first connecting mechanism to enable the telescopic mechanism to perform telescopic motion, the second connecting mechanism comprises a fourth connecting rod connected with one driving side plate, a sixth connecting rod connected with the driving main plate and a fifth connecting rod connected with one driving intermediate plate, one end, far away from the driving side plate, of the fourth connecting rod is connected with one end, far away from the driving main plate, of the sixth connecting rod, and one end, far away from the driving main plate, of the sixth connecting rod is connected with one end, far away from the driving intermediate plate, of the fifth connecting rod.

Further, carry out fine spacing in order to can carry out the glass in the removal, thereby through setting up stop gear, one side that the drive intermediate lamella was kept away from to the drive curb plate is seted up flutedly, evenly alternate on the lateral wall of recess and be provided with a plurality of stop gear, stop gear sets up the spacing post on the recess lateral wall including setting up the interlude, just be provided with spacing dish in being located the drive curb plate on the spacing post, one side of spacing dish just is located and is provided with spacing spring on the spacing post, the one end of spacing post just is located and is provided with the limiting plate in the recess, the intermediate position interlude of limiting plate is provided with spacing axle, the both ends symmetry of.

The utility model has the advantages that:

1. compare with traditional full-automatic two-way glass-cutting machine, the utility model discloses a set up telescopic machanism to in concrete work, can cut glass's size as required, carry out work through making driving motor, can carry out fine spacing to glass, prevent that glass from taking place the skew of position at the in-process that cuts, cause the condition that the cutting position has the deviation.

2. The utility model discloses a set up stop gear to in specific use, can be for glass the stability of the in-process holding position of cutting on the one hand, on the other hand reduces the frictional force of glass at the removal in-process, reduces the condition to glass's damage.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a full-automatic bidirectional glass cutting machine according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a telescoping mechanism of a full-automatic bidirectional glass cutting machine according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a connecting mechanism of a full-automatic bidirectional glass cutting machine according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a driving side plate of a full-automatic bidirectional glass cutting machine according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a limiting mechanism of the full-automatic bidirectional glass cutting machine according to the embodiment of the present invention.

In the figure:

1. a housing; 2. mounting a plate; 3. a rotating drum; 4. a conveyor belt; 5. rotating a first shaft; 6. a support plate; 7. a second rotating shaft; 8. a worm gear; 9. a worm; 10. a motor; 11. a mounting seat; 12. a telescoping mechanism; 1201. A drive device; 1202. a drive mechanism; 1203. a first connecting mechanism; 1204. a second connecting mechanism; 1205. Driving the main board; 1206. a drive column; 1207. a drive gear; 1208. a drive motor; 1209. driving the intermediate plate; 1210. a driving side plate; 1211. a first driving rod; 1212. a second driving rod; 1213. a first connecting plate; 1214. a second connecting plate; 1215. a third connecting plate; 1216. a groove; 1217. a limiting mechanism; 1218. a limiting column; 1219. a limiting disc; 1220. a limiting spring; 1221. a limiting plate; 1222. a limiting shaft; 1223. a limiting wheel; 1224. a fourth connecting rod; 1225. a sixth connecting rod; 1226. a fifth connecting rod; 13. a connecting plate; 14. a chute; 15. a slider; 16. connecting blocks; 17. a cutting knife.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides a full-automatic two-way glass-cutting machine.

Referring now to the drawings and the detailed description, as shown in fig. 1-5, a full-automatic bidirectional glass cutting machine according to an embodiment of the present invention comprises a housing 1, a mounting plate 2 is disposed above the housing 1, a set of a first rotating shaft 5 and a second rotating shaft 7 is symmetrically disposed on both sides of the mounting plate 2, a plurality of drums 3 are respectively and uniformly sleeved on the first rotating shaft 5 and the second rotating shaft 7, the two drums 3 are connected by a conveyor 4, the mounting plate 2 is disposed at an inner middle position of the plurality of conveyors 4 in an inserting manner, the mounting plate 2 is connected to the housing 1 by a support plate 6, both ends of the first rotating shaft 5 are respectively connected to an inner wall of the housing 1, one end of the second rotating shaft 7 is connected to the inner wall of the housing 1, the other end of the second rotating shaft 7 is connected to the inner wall of the housing 1 by a worm wheel 8, a worm 9 is, a motor 10 matched with the worm 9 is arranged at the bottom end of the worm 9, a mounting seat 11 is arranged at the bottom end of the motor 10, a telescopic mechanism 12 matched with the conveyor belt 4 is arranged above the supporting plate 6 and on the inner wall of the machine shell 1, a connecting plate 13 is arranged at the top end of the machine shell 1, a sliding groove 14 is formed in the middle position of one side, close to the motor 10, of the connecting plate 13, a sliding block 15 is arranged in the sliding groove 14, a connecting block 16 is arranged on one side, away from the sliding groove 14, of the sliding block 15, and; wherein, telescopic machanism 12 is including setting up the drive arrangement 1201 in backup pad 6 top, drive arrangement 1201's bilateral symmetry is provided with a set of actuating mechanism 1202, an actuating mechanism 1202 and casing 1's interior wall connection, an actuating mechanism 1202's top is provided with rather than matched with driving motor 1208, an actuating mechanism 1202 passes through coupling mechanism 1203 and is connected with drive arrangement 1201, another actuating mechanism 1202 passes through two 1204 of coupling mechanism and is connected with drive arrangement 1201, with the help of above-mentioned technical scheme, through setting up the utility model discloses, and then can be to the cutting of the glass of any size.

In one example, for the above-mentioned driving device 1201, the driving device 1201 includes a driving main board 1205 disposed above the supporting board 6, a set of driving gears 1207 is symmetrically disposed on the top end of the driving main board 1205, and the driving gears 1207 are connected to the driving mechanism 1202 through the driving posts 1206, so that by disposing the driving device 1201, the glass can be limited in the moving process.

In an example, for the above-mentioned driving mechanism 1202, the driving mechanism 1202 includes a driving middle plate 1209 connected to the driving column 1206, a driving side plate 1210 is disposed on a side of the driving middle plate 1209 away from the driving main plate 1205, the driving middle plate 1209 and the driving side plate 1210 are connected by two driving rods 1211, one end of one driving rod 1211 close to the driving gear 1207 is provided with a driving rod two 1212, one end of the driving rod two 1212 away from the driving middle plate 1209 is connected to the driving main plate 1205, and one side of the driving side plate 1210 is connected to an inner wall of the housing 1, so that by disposing the driving mechanism 1202, the moving glass can be limited by cooperating with the driving device 1201.

In one example, for the first connecting mechanism 1203, the first connecting mechanism 1203 includes a first connecting plate 1213 connected to the driving main plate 1205, a second connecting plate 1214 connected to the driving middle plate 1209, and a third connecting plate 1215 connected to the driving side plate 1210, an end of the first connecting plate 1213 away from the driving main plate 1205 is connected to an end of the second connecting plate 1214 away from the driving middle plate 1209, and an end of the second connecting plate 1214 away from the driving middle plate 1209 is connected to an end of the third connecting plate 1215 away from the driving side plate 1210, so that the telescoping mechanism 12 can perform the telescoping motion through the first connecting mechanism 1203.

In an example, for the second connection mechanism 1204, the second connection mechanism 1204 includes a fourth connection rod 1224 connected to one of the driving side plates 1210, a sixth connection rod 1225 connected to the driving main plate 1205, and a fifth connection rod 1226 connected to one of the driving middle plates 1209, an end of the fourth connection rod 1224 away from the driving side plate 1210 is connected to an end of the sixth connection rod 1225 away from the driving main plate 1205, and an end of the sixth connection rod 1225 away from the driving main plate 1205 is connected to an end of the fifth connection rod 1226 away from the driving middle plate 1209, so that the second connection mechanism 1204 is arranged to cooperate with the first connection mechanism 1203 to make the telescopic mechanism 12 perform telescopic motion.

In an example, for the above-mentioned driving side plate 1210, a groove 1216 is formed in one side of the driving side plate 1210, which is far away from the driving middle plate 1209, a plurality of limiting mechanisms 1217 are uniformly arranged on the side wall of the groove 1216 in an inserting manner, the limiting mechanisms 1217 include limiting posts 1218 which are arranged on the side wall of the groove 1216 in an inserting manner, limiting discs 1219 are arranged on the limiting posts 1218 and in the driving side plate 1210, limiting springs 1220 are arranged on one side of the limiting discs 1219 and in the limiting posts 1218, one end of the limiting posts 1218 is arranged in the groove 1216 and is provided with a limiting plate 1221, a limiting shaft 1222 is arranged in the middle position of the limiting plate 1221 in an inserting manner, a set of limiting wheels 1222 is symmetrically arranged at two ends of the limiting shaft 1222, so that the glass in movement can be well.

For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.

In practical application, by placing the glass on the conveyor belt 4, at this time, by operating the driving motor 1208, the driving motor 1208 drives the driving rod 1211 to rotate, the driving rod 1211 moves circularly inward, so that the third connecting plate 1215 of the connecting mechanism 1203 close to the inner wall of the housing 1 moves circularly inward, at this time, because one end of the third connecting plate 1215 is connected with one end of the second connecting plate 1214 and one end of the first connecting plate 1213, when the third connecting plate 1215 moves circularly inward, the first connecting plate 1213 drives the driving main plate 1205 to move outward, during the outward movement of the driving main plate, the second connecting plate 1214 drives the driving middle plate 1209 to move toward the motor 10, at this time, the driving gear 1207 is pushed outward by the first connecting plate 1213, so that the driving gears 1207 connected to one end of the two driving columns 1206 are engaged with each other, in the meshing process, the rotation directions of the two driving gears 1207 are opposite, so that the driving column 1206 on the inner side moves circularly inwards, the driving middle plate 1209 on the inner side moves inwards, meanwhile, the connecting mechanism II 1204 on the inner side moves in the same way as the connecting mechanism I1203 on the inner side, so that the driving side plate 1210 on the inner side moves inwards, when the telescopic mechanism 12 stretches inwards, the outer side of the glass to be cut starts to move towards the inside of the groove 1216 along with the stretching of the telescopic mechanism 12, a worker pulls the limiting column 1218 on the top outwards, so that the limiting column 1218 drives the limiting spring 1220 to compress, the limiting column 1218 drives the limiting disc 1219, the limiting plate 1221 and the limiting wheel 1223 to move upwards, so that the glass is positioned between the two limiting wheels 1223 on the upper and lower directions, after the position of the glass is adjusted, the motor 10 is driven, the conveyor belt 4 drives the glass to move, the cutting knife cuts the glass.

To sum up, with the help of the above technical scheme of the utility model, compare with traditional full-automatic two-way glass-cutting machine, the utility model discloses a set up telescopic machanism 12 to at concrete work, can cut glass's size as required, carry out work through making driving motor, can carry out fine spacing to glass, prevent that glass from taking place the skew of position at the in-process that cuts, cause the condition that the cutting position has the deviation. The utility model discloses a set up stop gear 1217 to in specific use, on the one hand can be glass at the in-process stability that keeps the position of cutting, and on the other hand reduces the frictional force of glass at the removal in-process, reduces the condition to glass's damage.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The full-automatic bidirectional glass cutting machine is characterized by comprising a machine shell (1), wherein a mounting plate (2) is arranged above the machine shell (1), a group of first rotating shafts (5) and second rotating shafts (7) are symmetrically arranged on two sides of the mounting plate (2), a plurality of rotary drums (3) are uniformly sleeved on the first rotating shafts (5) and the second rotating shafts (7) respectively, the rotary drums (3) are connected through conveying belts (4), the mounting plate (2) is arranged at the middle positions inside the conveying belts (4) in an inserting mode, the mounting plate (2) is connected with the machine shell (1) through a supporting plate (6), two ends of the first rotating shafts (5) are connected with the inner wall of the machine shell (1) respectively, one ends of the second rotating shafts (7) are connected with the inner wall of the machine shell (1), and the other ends of the second rotating shafts (7) are connected with the inner wall of the machine shell (1) through worm gears (8), a worm (9) matched with the worm wheel (8) is arranged on one side, away from the supporting plate (6), of the worm wheel (8), a motor (10) matched with the worm (9) is arranged at the bottom end of the worm (9), an installation seat (11) is arranged at the bottom end of the motor (10), a telescopic mechanism (12) matched with the conveyor belt (4) is arranged above the supporting plate (6) and on the inner wall of the machine shell (1), a connecting plate (13) is arranged at the top end of the machine shell (1), a sliding groove (14) is formed in the middle position of one side, close to the motor (10), of the connecting plate (13), a sliding block (15) is arranged in the sliding groove (14), a connecting block (16) is arranged on one side, away from the sliding groove (14), of the sliding block (15), and a cutting knife;

the telescopic mechanism (12) comprises a driving device (1201) arranged above the supporting plate (6), a group of driving mechanisms (1202) are symmetrically arranged on two sides of the driving device (1201), one driving mechanism (1202) is connected with the inner wall of the machine shell (1), a driving motor (1208) matched with the driving mechanism is arranged at the top end of one driving mechanism (1202), one driving mechanism (1202) is connected with the driving device (1201) through a first connecting mechanism (1203), and the other driving mechanism (1202) is connected with the driving device (1201) through a second connecting mechanism (1204).

2. The full-automatic bidirectional glass cutting machine according to claim 1, characterized in that the driving device (1201) comprises a driving main plate (1205) disposed above the supporting plate (6), a set of driving gears (1207) is symmetrically disposed at the top end of the driving main plate (1205), and the driving gears (1207) are connected to the driving mechanism (1202) through driving posts (1206).

3. The full-automatic bidirectional glass cutting machine according to claim 2, wherein the driving mechanism (1202) comprises a driving middle plate (1209) connected to the driving column (1206), a driving side plate (1210) is disposed on one side of the driving middle plate (1209) away from the driving main plate (1205), the driving middle plate (1209) and the driving side plate (1210) are connected through two driving rods one (1211), one end of one driving rod one (1211) close to the driving gear (1207) is provided with a driving rod two (1212), one end of the driving rod two (1212) away from the driving middle plate (1209) is connected to the driving main plate (1205), and one side of the driving side plate (1210) is connected to the inner wall of the housing (1).

4. The glass cutting machine according to claim 3, wherein the first connecting mechanism (1203) comprises a first connecting plate (1213) connected to the driving main plate (1205), a second connecting plate (1214) connected to the driving middle plate (1209), and a third connecting plate (1215) connected to the driving side plate (1210), wherein an end of the first connecting plate (1213) away from the driving main plate (1205) is connected to an end of the second connecting plate (1214) away from the driving middle plate (1209), and an end of the second connecting plate (1214) away from the driving middle plate (1209) is connected to an end of the third connecting plate (1215) away from the driving side plate (1210).

5. The glass cutting machine according to claim 3, wherein the second connecting mechanism (1204) comprises a fourth connecting rod (1224) connected to one of the driving side plates (1210), a sixth connecting rod (1225) connected to the driving main plate (1205), and a fifth connecting rod (1226) connected to one of the driving middle plates (1209), wherein an end of the fourth connecting rod (1224), which is away from the driving side plate (1210), is connected to an end of the sixth connecting rod (1225), which is away from the driving main plate (1205), and an end of the sixth connecting rod (1225), which is away from the driving main plate (1205), is connected to an end of the fifth connecting rod (1226), which is away from the driving middle plate (1209).

6. The full-automatic bidirectional glass cutting machine according to claim 5, a groove (1216) is formed in one side, away from the driving middle plate (1209), of the driving side plate (1210), a plurality of limiting mechanisms (1217) are uniformly arranged on the side wall of the groove (1216) in an inserting way, the limiting mechanism (1217) comprises a limiting post (1218) which is arranged on the side wall of the groove (1216) in an inserting way, a limit disc (1219) is arranged on the limit post (1218) and in the drive side plate (1210), a limiting spring (1220) is arranged on one side of the limiting disc (1219) and positioned on the limiting column (1218), a limit plate (1221) is arranged at one end of the limit column (1218) and positioned in the groove (1216), a limit shaft (1222) is inserted in the middle of the limit plate (1221), two ends of the limit shaft (1222) are symmetrically provided with a group of limit wheels (1223).

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