CN220683651U - Multi-wedge belt roller transfer sorting machine convenient to assemble, disassemble and adjust - Google Patents

Abstract

The utility model relates to a V-ribbed belt roller transfer sorting machine convenient for disassembly and assembly adjustment, which comprises a frame, wherein support plates are arranged on two sides of the top surface of the frame, a plurality of rollers which are arranged in parallel at intervals are commonly arranged between two groups of support plates, and the rollers are driven by a main transmission mechanism to synchronously rotate; the main transmission mechanism comprises a plurality of vertical belts which are distributed at intervals along the transmission direction, the vertical belts are in one-to-one correspondence with the rollers, and the rollers are driven to rotate by the vertical belts; grooves are symmetrically formed in two support plates between adjacent rollers, synchronous belts are respectively embedded in the grooves from top to bottom, a single synchronous belt is positioned between the two adjacent rollers, and the top surface of the single synchronous belt is higher than or lower than the top surface of each roller; the vertical belt is arranged, so that the roller power transmission is realized, the synchronous belt is assembled on the support plate, the synchronous belt is convenient to rapidly and conveniently disassemble and assemble or maintain, and the practicability is good.

Description

Multi-wedge belt roller transfer sorting machine convenient to assemble, disassemble and adjust

Technical Field

The utility model relates to the technical field of transfer sorting machines, in particular to a multi-wedge belt roller transfer sorting machine convenient to assemble, disassemble and adjust.

Background

In various production and processing occasions, especially such as logistics centers, the sorting equipment is needed to sort objects, and in the prior art, the sorting is realized by adopting a mode of combining sorting equipment inconsistent with the transmission direction of a main conveying line.

In the existing sorting equipment, the sorting mechanism is difficult to maintain, a large amount of disassembly work is often needed, and then the maintenance or replacement of core parts such as a transmission belt can be carried out, so that the operation is inconvenient and the time consumption is long; and sorting equipment and conveying mechanism mutually independent use, and the commonality is poor.

Disclosure of Invention

The applicant provides a reasonable in structure and convenient to mount, dismount and adjust the multi-wedge belt roller transfer sorting machine aiming at the defects in the prior art, so that the quick mounting, dismounting and maintenance of a sorting mechanism are facilitated, the interchange and the transfer between the sorting mechanism and a conveying mechanism can be realized, the use flexibility is high, and the practicability is good.

The technical scheme adopted by the utility model is as follows:

the multi-wedge belt roller transfer sorting machine convenient to assemble, disassemble and adjust comprises a frame, wherein support plates are arranged on two sides of the top surface of the frame, a plurality of rollers which are arranged in parallel at intervals are commonly arranged between two groups of support plates, and the rollers are driven by a main transmission mechanism to synchronously rotate; the main transmission mechanism comprises a plurality of vertical belts which are distributed at intervals along the transmission direction, the vertical belts correspond to the rollers one by one, and the rollers are driven to rotate by the vertical belts; grooves are symmetrically formed in two support plates between adjacent rollers, synchronous belts are respectively embedded in the grooves from top to bottom, a single synchronous belt is located between two adjacent rollers, and the top surface of the single synchronous belt is higher than or lower than the top surface of each roller.

As a further improvement of the above technical scheme:

the transmission direction of the synchronous belt is perpendicular to the transmission direction of the roller; when the roller normally transmits, the thickness of the lower layer of the synchronous belt is thicker than that of the upper layer, and when sorting, the thicker lower layer is transmitted to the upper layer and protrudes upwards from the top surface of the roller.

The outer side surfaces of the two groups of support plates, which are opposite, are respectively provided with central shafts through supports, the two central shafts are respectively provided with the same number of belt pulleys at intervals along the transmission direction, and two ends of a single synchronous belt are respectively sleeved on the belt pulleys corresponding to the two central shafts; one of the central shafts is a power shaft, and the power shaft is driven by the motor assembly to rotate, so that a plurality of synchronous belts are driven to synchronously drive, and a synchronous belt sorting mechanism is formed.

The supports at two ends of the power shaft are bearing blocks, the power shaft is rotatably installed relative to the support plate through the bearing blocks and the bearings, and a power transmission assembly is jointly installed between the end part of the power shaft extending out of the bearing blocks and the output end of the motor assembly to realize power transmission.

The support is provided with a vertical long hole, and a locking piece is locked towards the outer wall surface of the support plate from outside to inside through the vertical long hole.

A barrier strip is commonly arranged between two groups of support plates positioned outside two sides of the synchronous belt sorting mechanism, and the barrier strip is positioned between two adjacent rollers; the machine frame at two ends of the two groups of support plates is provided with a baffle, the outer side surfaces of the two groups of support plates are respectively provided with a protective cover, and the protective covers contain the synchronous belt sorting mechanism inside.

An upper row of wheels and a lower row of wheels are arranged on the inner side surface of the support plate, the upper wheels and the lower wheels are respectively an upper row of wheels and a lower row of wheels, the upper wheels and the lower wheels are in one-to-one correspondence and are sleeved with a vertical belt together, and the height of the lower wheels is lower than that of the grooves; the upper wheels and the rollers are coaxially arranged in one-to-one correspondence and synchronously rotate, and the lower wheels are driven by the power mechanism to synchronously rotate.

The power mechanism is arranged in the middle of the inner side surface of the support plate, the output end of the power mechanism drives two adjacent lower wheels in the middle to synchronously rotate through two groups of symmetrically arranged main driving belts, and the two rotating lower wheels respectively drive the two adjacent lower wheels in the outer side to rotate sequentially through horizontal belts.

The supporting beams are commonly installed at the notch positions of the two groups of supporting plates corresponding to the grooves, and the top surfaces of the supporting beams are provided with supporting guide strips; the upper layer of the synchronous belt is positioned above the supporting guide strip, and the top surface of the supporting guide strip is provided with a guide through groove which is matched with the width of the synchronous belt.

The top surface of the support plate positioned below the upper layer of the synchronous belt is provided with a pressing strip, and the pressing strip seals the notch of the groove on the support plate.

The beneficial effects of the utility model are as follows:

the utility model has compact and reasonable structure and convenient operation, realizes roller power transmission through the arrangement of the vertical belts, realizes the quick and convenient assembly of the synchronous belts between the two groups of support plates by combining the grooves, is convenient for the quick maintenance operation and the disassembly operation of the sorting mechanism including the synchronous belts, can realize the quick exchange and the use between the sorting mechanism and the roller conveying mechanism, and has high use flexibility and good practicability;

the utility model also has the following advantages:

when the top surface of the synchronous belt is lower than the top surface of the roller, the conveyed articles are driven along the driving direction of the roller, and when the top surface of the synchronous belt is higher than the top surface of the roller, the conveyed articles are driven along the driving direction of the synchronous belt, so that the sorting of the articles is realized by the work of the synchronous belt;

when the roller is in normal transmission, the thicker part of the synchronous belt is positioned at the lower layer, and when sorting is needed, the synchronous belt works, and the thicker part is transmitted to the upper layer to support the articles acting on the roller, so that the articles are sorted; the thicker part of the synchronous belt, which generates sorting action, is arranged on the lower layer, so that enough interval time can be ensured during the sorting action, and the reliability of the action is ensured;

the vertical long holes are formed in the support, so that the support is convenient to adjust the mounting height of the support relative to the support plate, the support is particularly suitable for leveling the synchronous belt, and the height of the synchronous belt is adjusted along with the abrasion of the synchronous belt, particularly the abrasion of the thicker part of the synchronous belt, so that the sorting capability of the synchronous belt is effectively ensured;

the transmission principle of the main transmission mechanism is as follows: the power mechanism drives the two lower wheels at the middle part to synchronously rotate through the main transmission belt, the two rotating lower wheels respectively drive other lower wheels to synchronously rotate through the horizontal belt, and meanwhile, the single lower wheel drives the corresponding upper wheel to synchronously rotate through the vertical belt, so that each roller is driven to synchronously rotate; the whole transmission is stable and reliable.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic installation view of a synchronous belt sorting mechanism on the outer side surface of a support plate.

Fig. 3 is a schematic power transmission diagram of the timing belt sorting mechanism of the present utility model.

Fig. 4 is a schematic view of the installation of the main transmission mechanism on the inner side of the support plate of the present utility model.

Fig. 5 is a partial enlarged view at a in fig. 4.

Fig. 6 is a schematic diagram of assembling the synchronous belt and the support plate of the present utility model.

Fig. 7 is a partial enlarged view at B in fig. 6.

Fig. 8 is a schematic view of the structure of the supporting guide bar under the upper layer of the synchronous belt of the present utility model.

Fig. 9 is a partial enlarged view at C in fig. 8.

Wherein: 1. a frame; 2. a sensor assembly; 3. a barrier strip; 4. a roller; 5. a synchronous belt sorting mechanism; 6. a main transmission mechanism;

10. a support plate; 11. a baffle; 12. a protective cover; 13. pressing strips; 14. a corbel; 101. a groove;

50. supporting the guide strip; 51. a synchronous belt; 52. a belt wheel; 53. a central shaft; 54. a support; 55. a bearing seat; 56. a power transmission assembly; 57. a motor assembly;

61. a horizontal belt; 62. a lower wheel; 63. a vertical belt; 64. an upper wheel; 65. a main belt; 66. a power mechanism.

Detailed Description

The following describes specific embodiments of the present utility model with reference to the drawings.

As shown in fig. 1 and 2, the multi-wedge belt roller transfer sorting machine convenient for disassembly and assembly adjustment in the embodiment comprises a frame 1, support plates 10 are arranged on two sides of the top surface of the frame 1, a plurality of rollers 4 which are arranged in parallel at intervals are commonly arranged between two groups of support plates 10, and the rollers 4 are driven by a main transmission mechanism 6 to synchronously rotate; the main transmission mechanism 6 comprises a plurality of vertical belts 63 which are distributed at intervals along the transmission direction, the vertical belts 63 are in one-to-one correspondence with the rollers 4, and as shown in fig. 4, the rollers 4 are driven to rotate by the vertical belts 63; grooves 101 are symmetrically formed in the two support plates 10 between the adjacent rollers 4, as shown in fig. 7, synchronous belts 51 are embedded in the grooves 101 from top to bottom, a single synchronous belt 51 is located between the two adjacent rollers 4, and the top surface of the single synchronous belt 51 is higher than or lower than the top surface of the rollers 4.

The roller 4 is driven by the vertical belts 63, and the synchronous belts 51 between the two groups of support plates 10 are assembled quickly and conveniently by combining the grooves 101, so that the quick maintenance operation and the disassembly and assembly operation of the sorting mechanism comprising the synchronous belts 51 are facilitated.

In this embodiment, when the top surface of the synchronous belt 51 is lower than the top surface of the roller 4, the conveyed articles are driven along with the driving direction of the roller 4, and when the top surface of the synchronous belt 51 is higher than the top surface of the roller 4, the conveyed articles are driven along with the driving direction of the synchronous belt 51, so that the sorting of the articles is realized by the operation of the synchronous belt 51.

Sorting of articles in opposite directions on two sides is achieved through different transmission operations of the synchronous belt 51 in the forward and reverse directions.

The transmission direction of the synchronous belt 51 is mutually perpendicular to the transmission direction of the roller 4; when the roller 4 is in normal transmission, the thickness of the lower layer of the synchronous belt 51 is thicker than that of the upper layer, and when sorting, the thicker lower layer is transmitted to the upper layer and protrudes upwards from the top surface of the roller 4.

When the roller 4 normally drives, the thicker part of the synchronous belt 51 is positioned at the lower layer, and when sorting is needed, the synchronous belt 51 works, and the thicker part drives to the upper layer to support the articles acting on the roller 4, so that the articles are sorted; the thicker part of the synchronous belt 51, which generates the sorting action, is arranged on the lower layer, so that the sufficient interval time can be ensured during the sorting action, and the reliability of the action can be ensured.

The outer side surfaces of the two groups of support plates 10, which are opposite, are respectively provided with central shafts 53 through supports 54, the two central shafts 53 are respectively provided with the same number of belt pulleys 52 at intervals along the transmission direction, and the two ends of a single synchronous belt 51 are respectively sleeved on the belt pulleys 52 corresponding to the two central shafts 53; one of the central shafts 53 is a power shaft, and the power shaft is driven to rotate by the motor assembly 57, so that a plurality of synchronous belts 51 are driven to synchronously drive, and the synchronous belt sorting mechanism 5 is formed.

The transmission principle of the synchronous belt sorting mechanism 5 is as follows: the motor assembly 57 drives the power shaft to rotate, and the power shaft drives each belt wheel 52 on the power shaft to simultaneously rotate, so that each synchronous belt 51 and each belt wheel 52 on the other central shaft 53 are driven to synchronously rotate, and sorting transmission is realized.

When the synchronous belt sorting mechanism 5 needs to be detached from the frame 1, the supports 54 at the two ends of the central shafts 53 at the two sides can be detached from the support plate 10 respectively, and then force is applied to the synchronous belt sorting mechanism 5 to take out the whole synchronous belt sorting mechanism from the support plate 10 upwards, so that the operation is convenient.

As shown in fig. 3, the supports 54 at two ends of the power shaft are all bearing blocks 55, the power shaft is rotatably mounted relative to the support plate 10 through the bearing blocks 55 and bearings, and a power transmission assembly 56 is jointly mounted between the end part of the power shaft extending out of the bearing blocks 55 and the output end of the motor assembly 57, so that power transmission is realized.

In this embodiment, the power transmission assembly 56 may be a small belt transmission mechanism, for example, a driving wheel is installed at the output end of the motor assembly 57, a driven wheel is installed at the end of the power shaft, and a small belt is wound on the driving wheel and the driven wheel together to form power transmission, so that the power shaft is driven to rotate by the motor assembly 57.

The support 54 is provided with a vertical long hole, and a locking piece is locked towards the outer wall surface of the support plate 10 from outside to inside through the vertical long hole.

The support 54 is provided with a vertical long hole, which is convenient for adjusting the installation height of the support 54 relative to the support plate 10, is particularly suitable for leveling the synchronous belt 51, and can adjust the height of the synchronous belt 51 along with the abrasion of the synchronous belt 51, particularly the abrasion of the thicker part of the synchronous belt 51, thereby effectively ensuring the sorting capability of the synchronous belt 51.

A barrier strip 3 is commonly arranged between two groups of support plates 10 positioned outside two sides of the synchronous belt sorting mechanism 5, and the barrier strip 3 is positioned between two adjacent rollers 4; the machine frame 1 at two ends of the two groups of support plates 10 is provided with baffle plates 11, the outer side surfaces of the two groups of support plates 10 are respectively provided with a protective cover 12, and the protective covers 12 contain the synchronous belt sorting mechanism 5 inside.

The gap between the rollers 4 in front of and behind the synchronous belt sorting mechanism 5 is filled by the arrangement of the barrier strips 3, so that foreign matters or articles are effectively prevented from being blocked between the adjacent rollers 4; the baffle 11 also has the functions of reinforcing the structure and preventing foreign matters, and also has the function of improving the appearance beauty and consistency together with the protective cover 12.

Of course, a sensor assembly 2, such as a photoelectric sensor, may also be mounted on the top surface of the protective cover 12 at the location of the barrier 3 for detecting conveyed articles and also to provide a response time for sorting the photoelectric sensor.

As shown in fig. 4 and 5, the inner side surface of the support plate 10 is provided with an upper row of wheels and a lower row of wheels 64 and 62, the upper row of wheels 64 and the lower row of wheels 62 are respectively in one-to-one correspondence and are sleeved with a vertical belt 63 together, and the height of the lower wheels 62 is lower than that of the groove 101; the upper wheels 64 and the rollers 4 are coaxially arranged in a one-to-one correspondence and synchronously rotate, and the lower wheels 62 are driven by a power mechanism 66 to synchronously rotate.

Through the setting of upper wheel 64, lower wheel 62 and vertical area 63 that corresponds from top to bottom, can be with driving roller 4 pivoted power unit 66 to and make roller 4 synchronous simultaneous rotation's drive mechanism, for example horizontal area 61, all sink the setting, thereby be convenient for with roller 4 install the dismantlement of the hold-in range sorting mechanism 5 in same horizontal direction.

The middle part of the inner side surface of the support plate 10 is provided with a power mechanism 66, the output end of the power mechanism 66 drives the two lower wheels 62 adjacent to the middle part to synchronously rotate through two groups of main transmission belts 65 which are symmetrically arranged, and the two lower wheels 62 which rotate respectively drive the two lower wheels 62 adjacent to the outer side to rotate sequentially through the horizontal belts 61.

In this embodiment, the transmission principle of the main transmission mechanism 6 is: the power mechanism 66 drives the two lower wheels 62 in the middle to synchronously rotate through the main transmission belt 65, the two lower wheels 62 which rotate respectively drive the other lower wheels 62 to synchronously rotate through the horizontal belt 61, and meanwhile, the single lower wheel 62 drives the corresponding upper wheel 64 to synchronously rotate through the vertical belt 63, so that each roller 4 is driven to synchronously rotate; the whole transmission is stable and reliable.

The power transmission of each lower wheel 62 is realized through a plurality of horizontal belts 61 between the adjacent lower wheels 62, and the power transmission of the lower wheels 62 to the upper wheels 64 is realized through vertical belts 63 between the corresponding upper wheels 64 and the lower wheels 62, so that the V-ribbed belt transmission is formed, the vibration is small, the operation is stable, the elongation after long-time use is small, and the overall use reliability and the service life are effectively improved.

As shown in fig. 6, 7, 8 and 9, the corbels 14 are commonly installed at the positions of the two groups of support plates 10 corresponding to the notches of the grooves 101, and the top surfaces of the corbels 14 are provided with supporting guide strips 50; the upper part of the synchronous belt 51 is positioned above the supporting guide strip 50, and the top surface of the supporting guide strip 50 is provided with a guiding through groove which is matched with the width of the synchronous belt 51.

The supporting capability of the synchronous belt 51 is ensured and lifted by the supporting guide bar 50 and the supporting beam 14, and the transmission stability and reliability of the synchronous belt 51 are ensured in a assisting manner.

The top surface of the support plate 10 positioned below the upper layer of the synchronous belt 51 is provided with a pressing bar 13, and the pressing bar 13 seals the notch of the groove 101 on the support plate 10; the reliability and stability of the synchronous belt sorting mechanism 5 and the main transmission mechanism 6 mounted on the support plate 10 are effectively ensured, and the whole beauty and consistency of the lifting mechanism are assisted.

In the utility model, a power mechanism 66 in the main transmission mechanism 6 works, and the rollers 4 are driven to synchronously and simultaneously rotate through the work of a main transmission belt 65, a lower wheel 62, a horizontal belt 61, a vertical belt 63 and an upper wheel 64, so that the conveying of objects on the rollers 4 is realized; when sorting is needed, the motor assembly 57 in the synchronous belt sorting mechanism 5 works, and the thicker part of the synchronous belt 51 moves to the upper layer and protrudes upwards from the top surface of the roller 4 through the work of the power transmission assembly 56, the belt pulley 52 and the synchronous belt 51, so that the support of the linear object drives the object to move laterally to realize sorting.

In the utility model, when the synchronous belt 51 in the synchronous belt sorting mechanism 5 is required to be leveled or the height is required to be adjusted, the supporting seats 54 at the two ends of the central shaft 53 can move up and down relative to the support plate 10 to realize quick adjustment; when the synchronous belt sorting mechanism 5 is required to be detached from the support plate 10, the synchronous belt 51 or the synchronous belt sorting mechanism 5 can be conveniently detached from the support plate 10 only by detaching the pressing bar 13 on the top surface of the support plate 10 and detaching the locking piece between the support 54 and the support plate 10, so that the synchronous belt sorting mechanism is convenient and quick to use.

The utility model has simple operation, is convenient for the rapid maintenance operation and the disassembly operation of the sorting mechanism including the synchronous belt, can realize the rapid exchange and the transfer between the sorting mechanism and the roller conveying mechanism, and has high use flexibility and good practicability.

The above description is intended to illustrate the utility model and not to limit it, the scope of which is defined by the claims, and any modifications can be made within the scope of the utility model.

Claims (10)

1. The utility model provides a be convenient for in V-ribbed belt roller of dismouting regulation moves and carries sorting machine, includes frame (1), its characterized in that: support plates (10) are arranged on two sides of the top surface of the frame (1), a plurality of rollers (4) which are arranged in parallel at intervals are commonly arranged between the two groups of support plates (10), and the rollers (4) are driven by a main transmission mechanism (6) to synchronously rotate; the main transmission mechanism (6) comprises a plurality of vertical belts (63) which are distributed at intervals along the transmission direction, the vertical belts (63) are in one-to-one correspondence with the rollers (4), and the rollers (4) are driven to rotate by the vertical belts (63); grooves (101) are symmetrically formed in two support plates (10) between adjacent rollers (4), synchronous belts (51) are respectively embedded in the grooves (101) from top to bottom, a single synchronous belt (51) is located between the two adjacent rollers (4), and the top surface of the single synchronous belt (51) is higher than or lower than the top surface of each roller (4).

2. The v-ribbed drum transfer sorter of claim 1 for easy adjustment and disassembly, wherein: the transmission direction of the synchronous belt (51) is perpendicular to the transmission direction of the roller (4); when the roller (4) is in normal transmission, the thickness of the lower layer of the synchronous belt (51) is thicker than that of the upper layer, and when sorting is carried out, the thicker lower layer is transmitted to the upper layer and protrudes upwards from the top surface of the roller (4).

3. The v-ribbed drum transfer sorter of claim 1 for easy adjustment and disassembly, wherein: the outer side surfaces of the two groups of support plates (10) which are opposite are respectively provided with central shafts (53) through supports (54), the two central shafts (53) are respectively provided with the same number of belt wheels (52) at intervals along the transmission direction, and two ends of a single synchronous belt (51) are respectively sleeved on the belt wheels (52) corresponding to the two central shafts (53); one of the central shafts (53) is a power shaft, and the power shaft is driven to rotate by a motor assembly (57), so that a plurality of synchronous belts (51) are driven to synchronously drive, and a synchronous belt sorting mechanism (5) is formed.

4. A v-ribbed belt roller transfer sorter as in claim 3 for easy adjustment and disassembly, wherein: the supports (54) at two ends of the power shaft are bearing blocks (55), the power shaft is rotatably installed relative to the support plate (10) through the bearing blocks (55) and the bearings, and a power transmission assembly (56) is jointly installed between the end part of the power shaft extending out of the bearing blocks (55) and the output end of the motor assembly (57) to realize power transmission.

5. A v-ribbed belt roller transfer sorter as in claim 3 for easy adjustment and disassembly, wherein: a vertical long hole is formed in the support (54), and a locking piece is locked from outside to inside through the vertical long hole towards the outer wall surface of the support plate (10).

6. A v-ribbed belt roller transfer sorter as in claim 3 for easy adjustment and disassembly, wherein: a barrier strip (3) is commonly arranged between two groups of support plates (10) positioned outside two sides of the synchronous belt sorting mechanism (5), and the barrier strip (3) is positioned between two adjacent rollers (4); the machine frame (1) at two ends of the two groups of support plates (10) is provided with a baffle (11), the outer side surfaces of the two groups of support plates (10) are respectively provided with a protective cover (12), and the protective covers (12) contain the synchronous belt sorting mechanism (5) inside.

7. The v-ribbed drum transfer sorter of claim 1 for easy adjustment and disassembly, wherein: an upper row of wheels and a lower row of wheels are arranged on the inner side surface of the support plate (10), the upper wheels (64) and the lower wheels (62) are respectively arranged in an upper row, the upper wheels (64) and the lower wheels (62) are in one-to-one correspondence and are sleeved with vertical belts (63) together, and the height of the lower wheels (62) is lower than that of the grooves (101); the upper wheels (64) and the rollers (4) are coaxially arranged in one-to-one correspondence and synchronously rotate, and the lower wheels (62) are driven by a power mechanism (66) to synchronously rotate.

8. The v-ribbed drum transfer sorter of claim 7 for easy adjustment and disassembly, wherein: the middle part of the inner side surface of the support plate (10) is provided with a power mechanism (66), the output end of the power mechanism (66) drives two adjacent lower wheels (62) in the middle to synchronously rotate through two groups of main transmission belts (65) which are symmetrically arranged, and the two rotating lower wheels (62) respectively drive the adjacent lower wheels (62) in the outer side to rotate sequentially through horizontal belts (61).

9. The v-ribbed drum transfer sorter of claim 1 for easy adjustment and disassembly, wherein: the support beams (14) are commonly installed at the notch positions of the two groups of support plates (10) corresponding to the grooves (101), and the top surfaces of the support beams (14) are provided with supporting guide strips (50); the upper layer of the synchronous belt (51) is positioned above the supporting guide strip (50), and the top surface of the supporting guide strip (50) is provided with a guide through groove which is matched with the width of the synchronous belt (51).

10. The v-ribbed drum transfer sorter of claim 1 for easy adjustment and disassembly, wherein: the top surface of the support plate (10) positioned below the upper layer of the synchronous belt (51) is provided with a pressing bar (13), and the pressing bar (13) seals the notch of the groove (101) on the support plate (10).