CN219525408U

CN219525408U - Annular product conveying line

Info

Publication number: CN219525408U
Application number: CN202320447553.6U
Authority: CN
Inventors: 熊昊; 刘伟; 马亮亮
Original assignee: Ganzhou Besco Intelligent Technology Co ltd
Current assignee: Ganzhou Besco Intelligent Technology Co ltd
Priority date: 2023-03-10
Filing date: 2023-03-10
Publication date: 2023-08-15
Anticipated expiration: 2033-03-10

Abstract

The utility model relates to the technical field of product conveying lines, in particular to an annular product conveying line which comprises two groups of linear product conveying lines and a plurality of turning type product conveying lines, wherein the two groups of linear product conveying lines are matched with the turning type product conveying lines, the turning type product conveying lines comprise a product feeding component and a product discharging component which are connected, an outer ring guide plate and an inner ring guide plate which are used for reducing turning radius are arranged at the connecting position between the product feeding component and the product discharging component, a curve is formed between the outer ring guide plate and the inner ring guide plate, a fourth driven wheel, a fourth synchronous belt, a fifth driven wheel and a fifth synchronous belt are arranged between the outer ring guide plate and the inner ring guide plate, the fourth synchronous belt is wound on the fourth driven wheel, the fourth driven wheel is driven to rotate through a second motor of the product feeding component, the fifth synchronous belt is wound on the fifth driven wheel, and the fifth driven wheel is driven to rotate through a third motor of the product discharging component and corresponds to the fifth synchronous belt.

Description

Annular product conveying line

Technical Field

The utility model relates to the technical field of product conveying lines, in particular to an annular product conveying line.

Background

The traditional conveying line can not stop on line at any time in working time, when any link on line has a problem, the whole line needs to be stopped, so that the work of each link can be influenced, and the production progress is influenced.

The design of traditional transfer chain at the corner, whole line all adopts the same belt to connect, and it is great to require turning radius, and the product is long at the time period of turning, and the line body occupies the space ratio of factory building in addition, indirectly influences the output and the production efficiency of product.

Therefore, there is a need for improvements over the prior art.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the annular product conveying line, compared with the traditional conveying line, the design of the turning part of the annular product conveying line body reduces the turning radius, saves the turning time and the occupied area of the whole machine table, saves the production field for manufacturers, and improves the production efficiency.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides an annular product transfer chain, including two sets of parallel and interval setting's linear type product transfer chain and locate a plurality of turning type product transfer chain between two sets of linear type product transfer chain, two sets of linear type product transfer chain and a plurality of turning type product transfer chain cooperation constitute the annular product transfer chain body of circulation transport, turning type product transfer chain is including being connected product feeding subassembly and product ejection of compact subassembly, junction between product feeding subassembly and the product ejection of compact subassembly is equipped with outer lane deflector and the inner circle deflector that is used for reducing turning radius, be formed with the bend between outer lane deflector and the inner circle deflector, be equipped with the fourth from driving wheel between outer lane deflector and the inner circle deflector, the fourth hold-in range, the fifth is from driving wheel and fifth hold-in range, the fourth is from driving wheel on the fourth, the fourth is driven wheel and is rotatory through the second motor drive of product feeding subassembly, the fifth hold-in range twines on the fifth is driven wheel, the fifth is driven wheel and is rotatory through the third motor drive of product ejection of subassembly, the fourth hold-in range corresponds with the fifth hold-in range.

According to the above scheme, the product feeding subassembly includes second outer support, second inner support, the second action wheel, the second follows the driving wheel, the second transmission shaft, the second motor, the second synchronous pivot, second belt and second hold-in range, the second outer support is parallel and the interval setting with the second inner support, the second action wheel is installed on the second outer support, the second follows the driving wheel and install on the second inner support, the second action wheel passes through the second transmission shaft transmission with the second follow the driving wheel and is connected, the second motor is installed on the second outer support, be used for driving the second action wheel rotatory, the second synchronous pivot is located between second outer support and the second inner support, the second belt twines in the first end of second action wheel and second synchronous pivot, the second synchronous belt twines in the second follow driving wheel and the second end of second synchronous pivot, the fourth follows the driving wheel and install on the second transmission shaft between second action wheel and the second follow the driving wheel.

According to the above scheme, the product discharging assembly comprises a third outer support, a third inner support, a third driving wheel, a third driven wheel, a third transmission shaft, a third motor, a third synchronous rotating shaft, a third belt and a third synchronous belt, wherein the third outer support and the third inner support are parallel and are arranged at intervals, the third driving wheel is arranged on the third outer support, the third driven wheel is arranged on the third inner support, the third driving wheel and the third driven wheel are in transmission connection through the second transmission shaft, the third motor is arranged on the third outer support and used for driving the third driving wheel to rotate, the third synchronous rotating shaft is arranged between the third outer support and the third inner support, the third belt is wound on the first ends of the third driving wheel and the third synchronous rotating shaft, the third synchronous belt is wound on the second ends of the third driven wheel and the third synchronous rotating shaft, and the fifth driven wheel is arranged on the second transmission shaft between the third driving wheel and the third driven wheel.

According to the above scheme, the linear type product conveying line comprises a first outer support, a first inner support, a first driving wheel, a first driven wheel, a first transmission shaft, a first motor, a first synchronous rotating shaft, a first belt and a first synchronous belt, wherein the first outer support is parallel to the first inner support and is arranged at intervals, the first driving wheel is arranged on the first outer support, the first driven wheel is arranged on the first inner support, the first driving wheel is connected with the first driven wheel through the transmission of the first transmission shaft, the first motor is arranged on the first outer support and is used for driving the first driving wheel to rotate, the first synchronous rotating shaft is arranged between the first outer support and the first inner support, the first belt is wound on the first driving wheel and the first end of the first transmission shaft, and the first synchronous belt is wound on the first driven wheel and the second end of the first transmission shaft.

The utility model has the beneficial effects that:

the utility model adopts the structure arrangement, the turning type product conveying line comprises a product feeding component and a product discharging component which are connected, an outer ring guide plate and an inner ring guide plate which are used for reducing turning radius are arranged at the joint between the product feeding component and the product discharging component, the turning radius is reduced compared with the traditional conveying line, the turning time and the occupied area of the whole machine table are saved, the production field is saved for manufacturers, the production efficiency is improved, and a fourth driven wheel, a fourth synchronous belt, a fifth driven wheel and a fifth synchronous belt are arranged between the outer ring guide plate and the inner ring guide plate, wherein the fourth driven wheel is driven to rotate by a second motor of the product feeding component, the fifth driven wheel is driven to rotate by a third motor of the product discharging component, a driving device is not required to be additionally arranged on the turning type product conveying line, and the installation cost and the equipment cost are saved.

Drawings

FIG. 1 is a general block diagram of the present utility model;

FIG. 2 is a block diagram of a turning product conveyor line of the present utility model;

fig. 3 is a block diagram of a linear product conveyor line of the present utility model.

In the figure: 1. a linear conveyor line; 2. a turning type conveying line; 3. an outer ring guide plate; 4. an inner ring guide plate; 11. a first outer bracket; 12. a first inner support; 13. a first drive wheel; 14. a first driven wheel; 15. a first drive shaft; 16. a first motor; 17. a first synchronous rotating shaft; 18. a first belt; 19. a first synchronization belt; 21. a second outer bracket; 22. a second inner support; 23. a second driving wheel; 24. a second driven wheel; 25. a second drive shaft; 26. a second motor; 27. a second synchronous rotating shaft; 28. a second belt; 29. a second timing belt; 31. a third outer bracket; 32. a third inner support; 33. a third driving wheel; 34. a third driven wheel; 25. a third drive shaft; 36. a third motor; 37. a third synchronous rotating shaft; 38. a third belt; 39. a third timing belt; 41. a fourth driven wheel; 42. a fourth timing belt; 43. a fifth driven wheel; 44. and a fifth synchronous belt.

Detailed Description

The technical scheme of the utility model is described below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 3, an annular product conveying line according to the present utility model includes two sets of parallel and spaced linear product conveying lines 1 and a plurality of turning product conveying lines 2 disposed between the two sets of linear product conveying lines 1, the two sets of linear product conveying lines 1 and the plurality of turning product conveying lines 2 cooperate to form an annular product conveying line body for circulating conveying, the turning product conveying line 2 includes a product feeding assembly and a product discharging assembly connected, an outer ring guide plate 3 and an inner ring guide plate 4 for reducing a turning radius are disposed at a connection position between the product feeding assembly and the product discharging assembly, a curve is formed between the outer ring guide plate 3 and the inner ring guide plate 4, a fourth driven wheel 41, a fourth synchronous belt 42, a fifth driven wheel 43 and a fifth synchronous belt 44 are disposed between the outer ring guide plate 3 and the inner ring guide plate 4, the fourth driven wheel 41 is driven to rotate by a second motor 26 of the product feeding assembly, the fifth synchronous belt 44 is wound on the fifth driven wheel 43, and the fifth driven wheel 43 is driven to rotate by a third motor 36 of the product discharging assembly, and the fourth synchronous belt 44 corresponds to the fifth synchronous belt 44. The above constitutes the basic structure of the present utility model.

The utility model adopts the structural arrangement that the whole annular product conveying line is formed by two groups of linear product conveying lines 1 and four turning product conveying lines 2 in a matched mode to form an annular product conveying line body for circulating conveying, and two adjacent product conveying lines are correspondingly connected. Wherein, first linear type product transfer chain 1 of group is parallel and the interval setting with linear type product transfer chain 1 of second group, and first linear type product transfer chain 1 of group is connected through two turning type product transfer chain 2 cooperation with the first side of linear type product transfer chain 1 of second group, and first linear type product transfer chain 1 of group is connected through two turning type product transfer chain 2 cooperation with the second side of linear type product transfer chain 1 of second group. More specifically, the turning type product conveying line 2 comprises a product feeding assembly and a product discharging assembly which are connected, an outer ring guide plate 3 and an inner ring guide plate 4 for reducing turning radius are arranged at the joint between the product feeding assembly and the product discharging assembly, the turning radius is reduced compared with that of a traditional conveying line, the turning time and the occupied area of the whole machine table are saved, the production field is saved for manufacturers, the production efficiency is improved, a fourth driven wheel 41, a fourth synchronous belt 42, a fifth driven wheel 43 and a fifth synchronous belt 44 are arranged between the outer ring guide plate 3 and the inner ring guide plate 4, the fourth driven wheel 41 is driven to rotate through a second motor 26 of the product feeding assembly, the fifth driven wheel 43 is driven to rotate through a third motor 36 of the product discharging assembly, a driving device is not required to be additionally arranged on the turning type product conveying line 2, and the installation cost and the equipment cost are saved. When the product is transported from one end of the fourth timing belt 42 to the other end of the fourth timing belt 42, the product turns along the curve by the outer ring guide plate 3 and the inner ring guide plate 4 having the arc-shaped guide curve, and the product transitions to the fifth timing belt 44.

In this embodiment, the product feeding assembly includes a second outer support 21, a second inner support 22, a second driving wheel 23, a second driven wheel 24, a second transmission shaft 25, a second motor 26, a second synchronous shaft 27, a second belt 28 and a second synchronous belt 29, the second outer support 21 is parallel to and spaced from the second inner support 22, the second driving wheel 23 is mounted on the second outer support 21, the second driven wheel 24 is mounted on the second inner support 22, the second driving wheel 23 is in transmission connection with the second driven wheel 24 through the second transmission shaft 25, the second motor 26 is mounted on the second outer support 21 for driving the second driving wheel 23 to rotate, the second synchronous shaft 27 is disposed between the second outer support 21 and the second inner support 22, the second belt 28 is wound on the second driving wheel 23 and the first end of the second synchronous shaft 27, the second synchronous belt 29 is wound on the second driven wheel 24 and the second end of the second synchronous shaft 27, and the fourth driven wheel 41 is mounted on the second transmission shaft 25 between the second driving wheel 23 and the second driven wheel 24. With this arrangement, the second driving wheel 23 is driven to rotate by the second motor 26, and the product is driven to move on the second belt 28 and the second timing belt 29. The number of the second synchronous shafts 27 is plural, and the second synchronous shafts are installed between the second outer frame 21 and the second inner frame 22 at intervals, so that the power consumption of the second motor 26 is reduced.

In this embodiment, the product discharging assembly includes a third outer bracket 31, a third inner bracket 32, a third driving wheel 33, a third driven wheel 34, a third transmission shaft 35, a third motor 36, a third synchronous shaft 37, a third belt 38 and a third synchronous belt 39, the third outer bracket 31 is parallel to and spaced from the third inner bracket 32, the third driving wheel 33 is mounted on the third outer bracket 31, the third driven wheel 34 is mounted on the third inner bracket 32, the third driving wheel 33 is in transmission connection with the third driven wheel 34 through the second transmission shaft 25, the third motor 36 is mounted on the third outer bracket 31 for driving the third driving wheel 33 to rotate, the third synchronous shaft 37 is disposed between the third outer bracket 31 and the third inner bracket 32, the third belt 38 is wound on the first ends of the third driving wheel 33 and the third synchronous shaft 37, the third synchronous belt 39 is wound on the second ends of the third driven wheel 34 and the third synchronous shaft 37, and the fifth driven wheel 43 is mounted on the second transmission shaft 25 between the third driving wheel 33 and the third driven wheel 34. With such a structural arrangement, the third driving wheel 33 is driven to rotate by the third motor 36, so that the product is driven to move on the third belt 38 and the third synchronous belt 39. The number of the third synchronous shafts 37 is plural, and the third synchronous shafts are installed between the third outer frame 31 and the third inner frame 32 at intervals, so that the energy consumption of the third motor 36 is reduced.

In this embodiment, the linear product conveying line 1 includes a first outer bracket 11, a first inner bracket 12, a first driving wheel 13, a first driven wheel 14, a first transmission shaft 15, a first motor 16, a first synchronous rotating shaft 17, a first belt 18 and a first synchronous belt 19, where the first outer bracket 11 is parallel to and spaced from the first inner bracket 12, the first driving wheel 13 is mounted on the first outer bracket 11, the first driven wheel 14 is mounted on the first inner bracket 12, the first driving wheel 13 is in transmission connection with the first driven wheel 14 through the first transmission shaft 15, the first motor 16 is mounted on the first outer bracket 11 and is used for driving the first driving wheel 13 to rotate, the first synchronous rotating shaft 17 is disposed between the first outer bracket 11 and the first inner bracket 12, the first belt 18 is wound on the first driving wheel 13 and the first end of the first transmission shaft 15, and the first synchronous belt 19 is wound on the first driven wheel 14 and the second end of the first transmission shaft 15. With such a structural arrangement, the first driving wheel 13 is driven to rotate by the first motor 16, so that the product is driven to move on the first belt 18 and the first synchronous belt 19. The number of the first synchronous rotating shafts 17 is plural, and the first synchronous rotating shafts are installed between the first outer bracket 11 and the first inner bracket 12 at intervals, so that the energy consumption of the first motor 16 is reduced.

The embodiments of the present utility model have been described above with reference to the accompanying drawings, but the present utility model is not limited to the above-described embodiments, which are merely illustrative, not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present utility model and the scope of the claims, which are all within the scope of the present utility model.

Claims

1. An annular product transfer chain, its characterized in that: including two sets of straight line type product transfer chain (1) that are parallel and the interval sets up and locate a plurality of turn type product transfer chain (2) between two sets of straight line type product transfer chain (1), two sets of straight line type product transfer chain (1) and a plurality of turn type product transfer chain (2) cooperation constitute the annular product transfer chain body of circulation transport, turn type product transfer chain (2) are including being connected product feeding subassembly and product ejection of compact subassembly, junction between product feeding subassembly and the product ejection of compact subassembly is equipped with outer lane deflector (3) and inner circle deflector (4) that are used for reducing turning radius, be formed with the bend between outer lane deflector (3) and inner circle deflector (4), outer lane deflector (3) are equipped with fourth from driving wheel (41), fourth hold-in range (42), fifth from driving wheel (43) and fifth hold-in range (44), fourth from driving wheel (41) are twined on fourth from driving wheel (41), fourth from driving wheel (41) are through second motor (26) drive rotation of product feeding subassembly, fifth from driving wheel (44) are twined in fifth from driving wheel (43) and are passed through on fifth motor (43).

2. An endless product conveyor line as in claim 1 wherein: the product feeding component comprises a second outer bracket (21), a second inner bracket (22), a second driving wheel (23), a second driven wheel (24), a second transmission shaft (25), a second motor (26), a second synchronous rotating shaft (27), a second belt (28) and a second synchronous belt (29), wherein the second outer bracket (21) and the second inner bracket (22) are parallel and are arranged at intervals, the second driving wheel (23) is arranged on the second outer bracket (21), the second driven wheel (24) is arranged on the second inner bracket (22), the second driving wheel (23) and the second driven wheel (24) are in transmission connection through the second transmission shaft (25), the second motor (26) is arranged on the second outer bracket (21) and is used for driving the second driving wheel (23) to rotate, the second synchronous rotating shaft (27) is arranged between the second outer bracket (21) and the second inner bracket (22), the second belt (28) is wound on the second driving wheel (23) and one end of the second synchronous rotating shaft (27), the second belt (24) is wound on the second synchronous rotating shaft (27) and the second rotating shaft (27) at the second synchronous rotating shaft (27), the fourth driven wheel (41) is arranged on a second transmission shaft (25) between the second driving wheel (23) and the second driven wheel (24).

3. An endless product conveyor line as in claim 1 wherein: the product discharging assembly comprises a third outer bracket (31), a third inner bracket (32), a third driving wheel (33), a third driven wheel (34), a third transmission shaft (35), a third motor (36), a third synchronous rotating shaft (37), a third belt (38) and a third synchronous belt (39), wherein the third outer bracket (31) and the third inner bracket (32) are arranged in parallel and at intervals, the third driving wheel (33) is arranged on the third outer bracket (31), the third driven wheel (34) is arranged on the third inner bracket (32), the third driving wheel (33) and the third driven wheel (34) are in transmission connection through a second transmission shaft (25), the third motor (36) is arranged on the third outer bracket (31) and used for driving the third driving wheel (33) to rotate, the third synchronous rotating shaft (37) is arranged between the third outer bracket (31) and the third inner bracket (32), the third belt (38) is wound on the third driving wheel (33) and the third synchronous rotating shaft (37) and is wound on one end of the third synchronous rotating shaft (37), the fifth driven wheel (43) is arranged on the second transmission shaft (25) between the third driving wheel (33) and the third driven wheel (34).

4. An endless product conveyor line as in claim 1 wherein: the linear type product conveying line (1) comprises a first outer support (11), a first inner support (12), a first driving wheel (13), a first driven wheel (14), a first transmission shaft (15), a first motor (16), a first synchronous rotating shaft (17), a first belt (18) and a first synchronous belt (19), wherein the first outer support (11) and the first inner support (12) are parallel and are arranged at intervals, the first driving wheel (13) is arranged on the first outer support (11), the first driven wheel (14) is arranged on the first inner support (12), the first driving wheel (13) is in transmission connection with the first driven wheel (14) through the first transmission shaft (15), the first motor (16) is arranged on the first outer support (11) and is used for driving the first driving wheel (13) to rotate, the first synchronous rotating shaft (17) is arranged between the first outer support (11) and the first inner support (12), and the first belt (18) is wound on the first transmission shaft (13) and the first driven wheel (15) and is wound on the first end of the first driven wheel (14) and the first driven wheel (19).