CN109319499B

CN109319499B - Glass packaging production line

Info

Publication number: CN109319499B
Application number: CN201811487681.3A
Authority: CN
Inventors: 胡晓初
Original assignee: Zhuhai Maichao Intelligent Equipment Co ltd; Zhongshan Delicacy Sanitary Equipment Co ltd
Current assignee: Zhuhai Maichao Intelligent Equipment Co ltd; Zhongshan Delicacy Sanitary Equipment Co ltd
Priority date: 2018-12-06
Filing date: 2018-12-06
Publication date: 2024-03-15
Anticipated expiration: 2038-12-06
Also published as: CN109319499A

Abstract

The invention discloses a glass packaging production line, which comprises a plurality of storage conveying lines, wherein each storage conveying line comprises a first glass conveying line and a glass storage bin, a glass manipulator is arranged on the upper side of each first glass conveying line, one end of each first glass conveying line is connected with a double-layer conveying line, one end of each double-layer conveying line is connected with a lifting type packaging platform, the other end of each double-layer conveying line is connected with a second glass conveying line, a transverse taping machine is arranged on the upper side of each second glass conveying line, one end of each second glass conveying line is connected with a third glass conveying line, a longitudinal taping machine is arranged on the upper side of each third glass conveying line, a lower line stacking machine is arranged on one side of the tail end of each third glass conveying line, and the production line is formed by taking a complete set of serialization production lines from glass storage, glass boxing and packaging boxes.

Description

Glass packaging production line

Technical Field

The invention relates to a glass production line, in particular to a glass packaging production line.

Background

In the glass production process (such as shower room glass), the whole process of glass storage, glass boxing, glass packing, packing box taping and packing box offline in the prior art does not form a complete set of serial production lines, most of working procedures are completed manually, automatic production is not realized, the production efficiency is low, the labor cost is very high, and the production cost of enterprises is always high.

At present, glass is packaged from storage to boxing and is then banded in the production conveying process, and finally, conveying lines of the glass are mutually noninterfere in the process of discharging and delivering the glass, and a large conveying line is required for conveying large glass (such as shower room glass), so that the space occupied by the conveying line is large, and the requirement on the area of a factory building is definitely large under the condition that a plurality of conveying lines coexist, thereby directly leading to the high production cost of enterprises.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a glass packaging production line with low production cost and high efficiency.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a glass packaging production line, includes a plurality of storage transportation lines, the storage transportation line includes first glass transfer chain and glass storage bin, glass storage bin sets up the both sides of first glass transfer chain, the upside of first glass transfer chain is provided with glass manipulator, first glass transfer chain one end is connected with double-deck transfer chain, the one end of double-deck transfer chain is connected with over-and-under type packing platform, the other end of double-deck transfer chain is connected with the second glass transfer chain, the upside of second glass transfer chain is provided with horizontal taping machine, the one end of second glass transfer chain is connected with the third glass transfer chain, the upside of third glass transfer chain is provided with vertical taping machine, terminal one side of third glass transfer chain is provided with the hacking machine of coming off production line.

The double-layer conveying line comprises an upper layer conveying line and a lower layer conveying line, the lower layer conveying line is located on the lower side of the upper layer conveying line, one end of the upper layer conveying line is provided with a lifting table connected with the first glass conveying line, the other end of the upper layer conveying line is connected with the lifting packing platform, one side of the lower layer conveying line is provided with a fourth glass conveying line in butt joint with the lifting packing platform, and the lower layer conveying line is provided with a first lifting translation mechanism at the corresponding position of the fourth glass conveying line.

The upper layer conveying line is perpendicular to the conveying direction of the lower layer conveying line, and the fourth glass conveying line is perpendicular to the conveying direction of the lower layer conveying line.

The first jacking translation mechanism comprises a lifting underframe, a fixed scissor arm and a movable scissor arm are arranged on the lifting underframe, the fixed scissor arm is hinged to the movable scissor arm, a scissor arm connecting rod is arranged on the fixed scissor arm and the movable scissor arm, a lifting underframe is arranged on the upper sides of the fixed scissor arm and the movable scissor arm, a jacking cylinder for driving the movable scissor arm to move is further arranged on the lifting underframe, a belt line is arranged on the upper side of the lifting underframe, a belt conveying connecting shaft is arranged on the belt line, and one end of the belt conveying connecting shaft) is provided with a belt conveying motor for driving the belt line.

And one end, far away from the double-layer conveying line, of the lifting packing platform is connected with a carton conveying line.

The second glass conveying line is perpendicular to the conveying direction of the third glass conveying line, and a second jacking translation mechanism corresponding to the position of the third glass conveying line is arranged in the second glass conveying line.

The end of third glass transfer chain is provided with tilting mechanism, tilting mechanism is including articulating the terminal tilting shaft of third glass transfer chain, be provided with the turnover plate on the tilting shaft, still be provided with on the third glass transfer chain and drive the upset hydro-cylinder of turnover plate upset, the one end of upset hydro-cylinder is provided with flexible push rod, the one end of flexible push rod is connected the bottom of turnover plate, the turnover plate is close to terminal one side of third glass transfer chain is provided with limit baffle.

The beneficial effects of the invention are as follows: the glass packaging production line comprises a storage conveying line, a double-layer conveying line and a lower line stacker, wherein the double-layer conveying line is connected with a lifting packaging platform, a second glass conveying line and a third glass conveying line, a taping machine is arranged on the second glass conveying line and the third glass conveying line, glass is conveyed to the lifting packaging platform from the storage conveying line through the double-layer conveying line for boxing and packaging, and is conveyed to the second glass conveying line and the third glass conveying line through the double-layer conveying line for taping after boxing and packaging, and is subjected to lower line stacking through the lower line stacker after taping, the whole process comprises the whole set of serialization production lines from glass storage, glass boxing and packaging, packaging box taping and packaging box lower line, and only needs manual participation during boxing and packaging, so that a large amount of labor is saved, the production efficiency is greatly improved, the labor cost is greatly reduced, and the production cost of enterprises is greatly reduced; in addition, the double-layer conveying line greatly improves the space utilization rate through double-layer design conveying, and saves the land cost.

Drawings

The invention will be further described with reference to the drawings and examples.

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

FIG. 2 is a schematic view of a double layer conveyor line;

FIG. 3 is a schematic view of a first lift-off translation mechanism;

fig. 4 is a schematic structural view of the tilting mechanism.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1 to 4, a glass packaging production line comprises a plurality of storage transportation lines, wherein each storage transportation line comprises a first glass transportation line 1 and a glass storage bin 2, the glass storage bins 2 are arranged on two sides of the first glass transportation line 1, the first glass transportation line 1 adopts a roller transportation mode, a glass manipulator 3 is arranged on the upper side of the first glass transportation line 1, the glass manipulator 3 belongs to the prior art, one end of the first glass transportation line 1 is connected with a double-layer transportation line 4, one end of the double-layer transportation line 4 is connected with a lifting packing platform 5, the other end of the double-layer transportation line 4 is connected with a second glass transportation line 6, the second glass transportation line 6 adopts a roller transportation mode, the upper side of the second glass transportation line 6 is provided with a transverse taping machine 7, one end of the second glass transportation line 6 is connected with a third glass transportation line 8, the third glass transportation line 8 adopts a roller transportation mode, the upper side of the third glass transportation line 8 is provided with a longitudinal taping machine 9, one side of the tail end of the third glass transportation line 8 is provided with a palletizer 10, the double-layer transportation line is further conveyed from the first glass transportation line 1 to the double-layer transportation line 1 to the box packing platform through the first glass transportation line 1, the double-layer glass transportation line 6 is transversely packaged by the double-layer glass transportation line 1, and then the second glass conveying line 6 conveys the packaging boxes which are transversely banded to the third glass conveying line 8 to be longitudinally banded by the longitudinal band-banding machine 9, and the lower line stacking machine 10 is used for stacking after the banding is completed, so that the whole process forms a complete set of serial production lines from glass storage, glass boxing and packing, packaging box banding and packaging box lower line, only manual participation is needed during boxing and packing, a large amount of labor is saved, the production efficiency is greatly improved, the labor cost is reduced, and the production cost of enterprises is greatly reduced.

The double-layer conveying line 4 comprises an upper layer conveying line 11 and a lower layer conveying line 12, the upper layer conveying line 11 is perpendicular to the conveying direction of the lower layer conveying line 12, the upper layer conveying line 11 and the lower layer conveying line 12 are both in a roller conveying mode, the lower layer conveying line 12 is positioned on the lower side of the upper layer conveying line 11, one end of the upper layer conveying line 11 is provided with a lifting table 31 connected with the first glass conveying line 1, the lifting table 31 can be lifted, the height of the first glass conveying line 1 is lower than the height of the upper layer conveying line 11, after the first glass conveying line 1 conveys glass, the lifting table 31 descends to the first glass conveying line 1 to catch conveyed glass in a flush mode, then ascends to the upper layer conveying line 11, then conveys the glass to the upper layer conveying line 11, the other end of the upper layer conveying line 11 is connected with a lifting type packaging platform 5, after the upper layer conveying line 11 conveys glass, the lifting type packaging platform 5 ascends to the upper layer conveying line 11, the first glass conveying line 1 is lifted to the fourth glass conveying line 11, the fourth glass conveying line is arranged on the fourth glass conveying line 13, the fourth glass conveying line is meshed to the fourth glass conveying line 13, the fourth glass conveying line is meshed with the fourth glass conveying line 13, and the fourth glass conveying line is meshed with the fourth glass conveying line 13, the lifting type packaging platform 5 is lifted or lowered to be flush with the fourth glass conveying line 13, packaged glass is conveyed to the fourth glass conveying line 13, then the packaged glass is conveyed to the lower layer conveying line 12 through the fourth glass conveying line 13, the packaged glass is conveyed to the second glass conveying line 6 through the lower layer conveying line 12, the first lifting translation mechanism 29 is embedded and installed at the corresponding position of the fourth glass conveying line 13, the height of the lower layer conveying line 12 is lower than that of the fourth glass conveying line 13, when the packaged glass is conveyed to the position of the lower layer conveying line 12 through the fourth glass conveying line 13, the packaged glass is lifted and translated to the lower layer conveying line 12 through the first lifting translation mechanism 29, if the packaged glass is conveyed to the lower layer conveying line 12 through the first lifting translation mechanism, the packaged glass is directly conveyed to the lower layer conveying line 12 through the fourth glass conveying line 13 through the first lifting translation mechanism 29, and the packaged glass is conveyed to the lower layer conveying line 29 through the first lifting translation mechanism, and the packaged glass is completely conveyed to the lower layer conveying line 29 through the first lifting translation mechanism.

The first lifting translation mechanism 29 comprises a lifting bottom frame 14, the lifting bottom frame 14 is fixedly arranged on the base of the lower layer conveying line 12 through bolts, two pairs of fixed scissor arms 15 and movable scissor arms 16 are arranged on the lifting bottom frame 14, the fixed scissor arms 15 and the movable scissor arms 16 are respectively arranged on two sides of the lifting bottom frame 14, the fixed scissor arms 15 are fixedly arranged on the lifting bottom frame 14 through bolts, pulleys are arranged at the lower ends of the movable scissor arms 16, the lifting bottom frame 14 is provided with guide grooves, the movable scissor arms 16 slide in the guide grooves through the pulleys, the fixed scissor arms 15 and the movable scissor arms 16 are hinged, a scissor arm connecting rod 17 is arranged on the fixed scissor arms 15 and the movable scissor arms 16, the fixed scissor arms 15 and the movable scissor arms 16 arranged on two sides of the lifting bottom frame 14 are connected, the fixed scissor arms 15 and the movable scissor arms 16 are also connected with the lifting bottom frame 16 through bolts, the fixed scissor arms 15 and the movable scissor arms 16 are also connected with the lifting belt 18 through bolts, the lifting belt 18 is fixedly arranged on the lifting belt 18, the lifting belt 18 is fixedly connected with the lifting bottom frame 19, and the lifting belt 18 is fixedly connected with the lifting belt 18, and the lifting belt 18 is fixedly arranged on the lifting belt 18. One end of the belt conveying connecting shaft 20 is provided with a belt conveying motor 21 driving the belt line 19 to drive, the belt conveying motor 21 drives the belt conveying connecting shaft 20 to rotate, the belt conveying connecting shaft 20 drives the belt line 19, when glass is located on the upper side of the first translation lifting mechanism, the lifting cylinder 28 drives the movable scissor arm 16 to move and lift, the fixed scissor arm 15 and the movable scissor arm 16 are linked, the lifting top frame 18 is lifted up, the belt line 19 contacts with the glass and lifts the glass, and when the packaged glass is completely on the first lifting and translation mechanism 29, the first lifting and translation mechanism 29 descends, and the packaged glass can stably fall on the lower layer conveying line 12.

The lifting packing platform 5 is far away from double-deck transfer chain 4 one end is connected with carton transfer chain 22, carton transfer chain 22 will pack glass the carton transport to lifting packing platform 5 department carries out the vanning to glass.

The second glass conveying line 6 is perpendicular to the conveying direction of the third glass conveying line 8, a second jacking translation mechanism 30 corresponding to the position of the third glass conveying line 8 is embedded and installed in the second glass conveying line 6, the structure of the second jacking translation mechanism 30 is identical to that of the first jacking translation mechanism 29, after the second glass conveying line 6 is transversely banded, packaged glass reaches the second jacking translation mechanism 30, the second jacking translation mechanism 30 carries out jacking translation on the second glass conveying line 8, longitudinal banding is carried out through the longitudinal banding machine 9, and after banding is completed, the second glass is discharged from the lower line palletizer 10.

The end of third glass transfer chain 8 is provided with tilting mechanism, tilting mechanism is including articulating terminal tilting shaft 23 of third glass transfer chain 8, be provided with turnover plate 24 on the tilting shaft 23, turnover plate 24 passes through bolt or welded fastening and is in on the tilting shaft 23, still be provided with on the third glass transfer chain 8 and drive the upset hydro-cylinder 25 of turnover plate 24 upset, turnover hydro-cylinder 25 passes through bolt fastening and is in on the third glass transfer chain 8, the one end of upset hydro-cylinder 25 is provided with flexible push rod 26, the one end of flexible push rod 26 is connected the bottom of turnover plate 24, turnover plate 24 is close to third glass transfer chain 8 end one side is provided with limit baffle 27, limit baffle 27 passes through bolt or welded fastening and is in on the turnover plate 24, limit baffle 27 can block the glass of taking, prevent to drop, turnover plate 24 in initial state with when the glass of taking completely of third glass transfer chain 8 arrives on the turnover plate 24, turnover hydro-cylinder 25 drives the push rod 26, the flexible push rod 26 is convenient for 10 when the flexible push rod 26 is high, 10 clip the flexible push rod is used for 10, the jack-up and is convenient.

The above embodiments do not limit the protection scope of the invention, and those skilled in the art can make equivalent modifications and variations without departing from the whole inventive concept, and they still fall within the scope of the invention.

Claims

1. The utility model provides a glass packaging production line, includes a plurality of storage transportation line, storage transportation line includes first glass transfer chain (1) and glass storage bin (2), glass storage bin (2) set up the both sides of first glass transfer chain (1), the upside of first glass transfer chain (1) is provided with glass manipulator (3), its characterized in that first glass transfer chain (1) one end is connected with bilayer transfer chain (4), the one end of bilayer transfer chain (4) is connected with over-and-under type packing platform (5), the other end of bilayer transfer chain (4) is connected with second glass transfer chain (6), the upside of second glass transfer chain (6) is provided with horizontal taping machine (7), the one end of second glass transfer chain (6) is connected with third glass transfer chain (8), the upside of third glass transfer chain (8) is provided with vertical taping machine (9), terminal one side of third glass transfer chain (8) is provided with downline stacker (10).

The double-layer conveying line (4) comprises an upper layer conveying line (11) and a lower layer conveying line (12), the lower layer conveying line (12) is located at the lower side of the upper layer conveying line (11), one end of the upper layer conveying line (11) is provided with a lifting table (31) connected with the first glass conveying line (1), the other end of the upper layer conveying line (11) is connected with the lifting packing platform (5), one side of the lower layer conveying line (12) is provided with a fourth glass conveying line (13) in butt joint with the lifting packing platform (5), and a first lifting translation mechanism (29) is installed at a corresponding position of the fourth glass conveying line (13);

the upper layer conveying line (11) is perpendicular to the conveying direction of the lower layer conveying line (12), and the fourth glass conveying line (13) is perpendicular to the conveying direction of the lower layer conveying line (12);

and one end, far away from the double-layer conveying line (4), of the lifting packing platform (5) is connected with a carton conveying line (22).

2. The glass packaging production line according to claim 1, characterized in that the first lifting and translation mechanism (29) comprises a lifting bottom frame (14), a fixed scissor arm (15) and a movable scissor arm (16) are arranged on the lifting bottom frame (14), the fixed scissor arm (15) and the movable scissor arm (16) are hinged, scissor arm connecting rods (17) are arranged on the fixed scissor arm (15) and the movable scissor arm (16), lifting top frames (18) are arranged on the upper sides of the fixed scissor arm (15) and the movable scissor arm (16), lifting air cylinders (28) for driving the movable scissor arm (16) to move are further arranged on the lifting bottom frame (14), a belt line (19) is arranged on the upper side of the lifting top frame (18), a belt conveying connecting shaft (20) is arranged on the belt line (19), and a belt conveying motor (21) for driving the belt line (19) to drive is arranged at one end of the belt conveying connecting shaft (20).

3. Glass packaging production line according to claim 1, characterized in that the second glass conveyor line (6) is perpendicular to the conveying direction of the third glass conveyor line (8), and a second lifting and translating mechanism (30) corresponding to the position of the third glass conveyor line (8) is arranged in the second glass conveyor line (6).

4. The glass packaging production line according to claim 1, characterized in that the tail end of the third glass conveying line (8) is provided with a turnover mechanism, the turnover mechanism comprises a turnover shaft (23) hinged to the tail end of the third glass conveying line (8), a turnover plate (24) is arranged on the turnover shaft (23), a turnover oil cylinder (25) driving the turnover plate (24) to turn over is further arranged on the third glass conveying line (8), one end of the turnover oil cylinder (25) is provided with a telescopic push rod (26), one end of the telescopic push rod (26) is connected with the bottom of the turnover plate (24), and one side, close to the tail end of the third glass conveying line (8), of the turnover plate (24) is provided with a limit baffle (27).