LU503060B1

LU503060B1 - Belt adjusting carrier roller for small angle fine adjustment

Info

Publication number: LU503060B1
Application number: LU503060A
Authority: LU
Inventors: Li Li; Jianshe Zong; Bin Zhang; Shuo Hua; Wenkang Hua; Yong Li
Original assignee: Anhui Shengfang Machinery Mfg Co Ltd
Priority date: 2022-04-18
Filing date: 2022-10-01
Publication date: 2023-10-27
Also published as: WO2023201995A1; ZA202212393B; CN114906563B; CN114906563A

Abstract

Disclosed is a belt adjusting carrier roller for small angle fine adjustment. The adjusting carrier roller comprises a base and an anti-skid carrier roller. The base is slidably provided with a supporting device for adjusting a position of the anti-skid carrier roller. The supporting device is slidably provided with a compression roller assembly. The base is provided with a driving device. The driving device is configured to drive the supporting device to slide on the base and to drive the compression roller assembly to slide on the supporting device. The adjusting carrier roller disclosed by the present invention is capable of driving an L-shaped supporting rod to be lifted to a second gear by starting an air cylinder, and finally, the L-shaped supporting rod is lifted till a second rack is engaged with the second gear. By adopting a motor, a supporting plate can be driven to slide relatively so as to adjust a horizontal distance between a compression roller column and a carrier roller body. A slide bar can further be driven simultaneously to ascend and descend on the supporting plate so as to adjust a height distance between the compression roller column and the carrier roller body. By observing a scale, the angle accuracy for small angle fine adjustment can be controlled, so that it is guaranteed that a belt is uniformly stressed.

Description

BELT ADJUSTING CARRIER ROLLER FOR SMALL ANGLE FINE HUS03060

ADJUSTMENT

FIELD OF TECHNOLOGY

The present invention relates to the technical field of carrier rollers, particularly to a belt adjusting carrier roller for small angle fine adjustment.

BACKGROUND

A carrier roller is an important part of a belt conveyor. There are various types of carrier rollers large in quantity. The carrier roller can support the weights of a conveyor belt and materials, accounts for 35% of the total cost of a belt conveyor and generates more than 70% of resistance. Therefore, the quality of the carrier roller is particularly important. The carrier rollers include steel and plastic carrier rollers.

The carrier roller plays a role of supporting the weights of a conveyor belt and materials. During transporting and transferring materials, the belt conveyor drives parts such as a carrier roller tube body, a bearing pedestal and a compression roller to perform rotating motions by means of a frictional force between the conveyor belt and the carrier roller. The carrier roller, together with the conveyor belt, is used for transferring cargoes under test. Presently, a current carrier roller is fixed, and cannot be adjusted after being designed and installed. Since an edge surface of the carrier roller is smooth and is small in frictional force, a sliding situation easily occurs, which is adverse to operation of the carrier roller.

SUMMARY

An objective of the present invention is to provide a belt adjusting carrier roller for small angle fine adjustment. The adjusting carrier roller is capable of driving an

L-shaped supporting rod to be lifted to a second gear by starting an air cylinder, and finally, the L-shaped supporting rod is lifted till a second rack is engaged with the second gear. By adopting a motor, a supporting plate can be driven to slide relatively so as to adjust a horizontal distance between a compression roller column and a 1 carrier roller body. A slide bar can further be driven simultaneously to ascend and 7505060 descend on the supporting plate so as to adjust a height distance between the compression roller column and the carrier roller body. By observing a scale, the angle accuracy for small angle fine adjustment can be controlled, so that it is guaranteed that a belt is uniformly stressed. By arranging an anti-skid pad on the carrier roller body, the frictional force between the carrier roller body and the belt can be increased finitely to prevent deviation.

The objective of the present invention can be realized by the technical solution as follows:

A belt adjusting carrier roller for small angle fine adjustment, wherein the belt adjusting carrier roller includes e a base and an anti-skid carrier roller, where the base is slidably provided with a supporting device for adjusting a position of the anti-skid carrier roller, and the supporting device is slidably provided with a compression roller assembly.

The base is provided with a driving device, and the driving device is configured to drive the supporting device to slide on the base and to drive the compression roller assembly to slide on the supporting device.

Further, the base includes a bottom plate, the bottom plate is provided with symmetrically distributed operating blocks, and each of the operating blocks is provided with a sliding groove.

Each of the operating blocks is provided with an air cylinder located on one side of the sliding groove, the air cylinders are symmetrically distributed, a base of each of the air cylinders is fixed to the operating block, and an output shaft of the air cylinder contacts the supporting device.

Further, the anti-skid carrier roller includes a carrier roller body, the carrier roller body being provided with a spiral anti-skid pad.

Further, the supporting device includes symmetrically distributed sliding blocks, each of the sliding blocks is located in the sliding groove to slide, a supporting plate is fixed on each of the sliding blocks, and the supporting plate is provided with a chute.

The supporting plate on one side is provided with a bearing pedestal, and the 2 supporting plate on the other side is slidably connected to the supporting device, the HUS03060 bearing pedestal is rotatably connected to the carrier roller body, a connecting block is fixed on the sliding block on one side, the connecting block is slidably provided with an L-shaped supporting rod, a supporting rod is fixed on the sliding block on the other side, and the supporting plate is provided with a scale.

Further, the compression roller assembly includes a slide bar sliding in the chute, one end of the slide bar is slidably connected to the supporting plate on one side, and the other end of the slide bar penetrates through the supporting plate on the other side.

The slide bar is provided with an L-shaped connecting block, one end of the L-shaped connecting block is in fastening connection to the slide bar, the other end thereof is provided with a compression roller column, the compression roller column is provided with a compression roller cylinder with a rubber sleeve, and the compression roller cylinder is rotatably sleeved on the compression roller column.

Further, the driving device includes a first rack fixed on the slide bar, the first rack slides on the supporting plate, the first rack is provided with a first gear rotating on the supporting plate in an engaged manner, and a motor is fixed on the supporting plate.

An output shaft of the motor is in fastening connection to one end of the first gear, a second gear is fixed at the other end of the first gear, the second gear is provided with a pointer the pointer is configured to rotate to a required position according to a rotating angle on the scale, a second rack fixed on one side of the L-shaped supporting rod is arranged below the second gear and the other side of the L-shaped supporting rod contacts the output shaft of the air cylinder.

The L-shaped supporting rod is provided with a third rack distributed perpendicular to the second rack, the supporting plate is provided with a fourth rack, a third gear is arranged between the fourth rack and the third rack in an engaged manner, and one end of the third gear rotates on the supporting plate.

The present invention has the following beneficial effects: 1. According to the adjusting carrier roller disclosed by the present invention, a handle is capable of manually driving the third gear (59) to rotate, and the L-shaped 3 supporting rod can be driven by starting the air cylinder to be lifted to the second gear, HUS03060 and finally, the L-shaped supporting rod is lifted till a second rack is engaged with the second gear. 2. According to the adjusting carrier roller disclosed by the present invention, by adopting the motor, the supporting plate can be driven to slide relatively so as to adjust the horizontal distance between the compression roller column and the carrier roller body and the slide bar can further be driven simultaneously to ascend and descend on the supporting plate so as to adjust the height distance between the compression roller column and the carrier roller body. By observing a scale, the angle accuracy for small angle fine adjustment can be controlled, so that it is guaranteed that a belt is uniformly stressed. 3. According to the adjusting carrier roller disclosed by the present invention, by arranging the anti-skid pad on the carrier roller body, the frictional force between the carrier roller body and the belt can be increased finitely to prevent deviation.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will be further described below in combination with the accompanying drawings.

FIG. 1 is a schematic structural diagram of an adjusting carrier roller according to the present invention.

FIG. 2 is a schematic structural diagram of an adjusting carrier roller according to the present invention.

FIG. 3 is an enlarged schematic structural diagram of A in the FIG. 2.

FIG. 4 is a partially schematic structural diagram of an adjusting carrier roller according to the present invention.

FIG. 5 is a partially schematic structural diagram of an adjusting carrier roller according to the present invention.

FIG. 6 is an enlarged schematic structural diagram of B in the FIG. 5. 4

DESCRIPTION OF THE EMBODIMENTS HUS03060

The technical solutions in the embodiments of the present invention will be clearly and completely described below in combination with the accompanying drawings in the embodiments of the present invention. The described embodiments are merely a part of, rather than all of, the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by those of ordinary skill in the art without making creative efforts fall within the protection scope of the present invention. On a basis of the embodiments in the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall into the scope of protection of the present invention.

A belt adjusting carrier roller for small angle fine adjustment, wherein the adjusting carrier roller includes a base 1 and an anti-skid carrier roller 2. As shown in FIG. 1, the base 1 is slidably provided with a supporting device 3 for adjusting a position of the anti-skid carrier roller 2, the supporting device 3 is slidably provided with a compression roller assembly 4, the base 1 is provided with a driving device 5, and the driving device 5 is configured to drive the supporting device 3 to slide on the base 1 and to drive the compression roller assembly 4 to slide on the supporting device 3.

The base 1 includes a bottom plate 11. As shown in FIG. 2, the bottom plate 11 is provided with symmetrically distributed operating blocks 12, and each of the operating blocks 12 is provided with a sliding groove 13, each of the operating blocks 12 is provided with an air cylinder 14 located on one side of the sliding groove 13, the air cylinders 14 are symmetrically distributed, a base of each of the air cylinders 14 is fixed to the operating block 12, and an output shaft of the air cylinder 14 contacts the supporting device 3.

The anti-skid carrier roller 2 includes a carrier roller body 21, the carrier roller body 21 being provided with a spiral anti-skid pad 22.

The supporting device 3 includes symmetrically distributed sliding blocks 31. As shown in FIG. 3, FIG. 4 and FIG. 5, each of the sliding blocks 31 is located in the sliding groove 13 to slide, a supporting plate 32 is fixed on each of the sliding blocks 31, and the supporting plate 32 is provided with a chute 33, the supporting plate 32 on 5 one side is provided with a bearing pedestal 34, and the supporting plate 32 on the HUS03060 other side is slidably connected to the supporting device 3, the bearing pedestal 32 is rotatably connected to the carrier roller body 21, a connecting block 36 is fixed on the sliding block 31 on one side, the connecting block 36 is slidably provided with an

L-shaped supporting rod 37, a supporting rod 38 is fixed on the sliding block 31 on the other side, and the supporting plate 32 is provided with a scale 39.

The compression roller assembly 4 includes a slide bar 41 sliding in the chute 33, one end of the slide bar 41 is slidably connected to the supporting plate 32 on one side, the other end of the slide bar 41 penetrates through the supporting plate 32 on the other side, the slide bar 41 is provided with an L-shaped connecting block 42, one end of the L-shaped connecting block 42 is in fastening connection to the slide bar 41, the other end thereof is provided with a compression roller column 43, the compression roller column 43 is provided with a compression roller cylinder 44 with a rubber sleeve, and the compression roller cylinder 44 is rotatably sleeved on the compression roller column 43.

The driving device 5 includes a first rack 51 fixed on the slide bar 41. As shown in

FIG. 3, FIG. 4 and FIG. 6, the first rack 51 slides on the supporting plate 32, the first rack 51 is provided with a first gear 52)rotating on the supporting plate 32 in an engaged manner, a motor 53 is fixed on the supporting plate 32, an output shaft of the motor 53 is in fastening connection to one end of the first gear 52, a second gear 54 is fixed at the other end of the first gear 52, the second gear 54 is provided with a pointer 55, the pointer 55 is configured to rotate to a required position according to a rotating angle on the scale 39, a second rack 56 fixed on one side of the L-shaped supporting rod 37 is arranged below the second gear 54, and the other side of the

L-shaped supporting rod 37 contacts the output shaft of the air cylinder 14. The

L-shaped supporting rod 37 is provided with a third rack 57 distributed perpendicular to the second rack 56, the supporting plate 32 is provided with a fourth rack 58, a third gear 59 is arranged between the fourth rack 58 and the third rack 57 in an engaged manner, one end of the third gear 59 rotates on the supporting plate 32, the other end thereof is provided with a clamping slot clamped with the handle, and the 6 handle is configured to manually drive the third gear 59 to rotate. HUS03060

During use, the L-shaped supporting rod 37 can be driven to be lifted to the second gear 54 by starting the air cylinder 14, and finally, the L-shaped supporting rod is lifted till the second rack 56 is engaged with the second gear 54. By adopting a motor 53, the supporting plate 32 can be driven to slide relatively so as to adjust the horizontal distance between the compression roller column 43 and the carrier roller body 21. The slide bar 41 can further be driven simultaneously to ascend and descend on the supporting plate 32 so as to adjust the height distance between the compression roller column 43 and the carrier roller body 21. By observing the scale 39, the angle accuracy for small angle fine adjustment can be controlled, so that it is guaranteed that a belt is uniformly stressed. By arranging the anti-skid pad 22 on the carrier roller body 21, the frictional force between the carrier roller body 21 and the belt can be increased finitely to prevent deviation.

In the description of the specification, the description with reference to the terms “an embodiment”, “examples”, “specific examples” and the like means that specific features, structures, materials, or features described in connection with the embodiments or examples are included in at least one embodiment or example of the present invention. In the description, schematic expressions of the terms may not refer to the same embodiments or examples. Furthermore, specific features, structures, materials or characteristics described can be combined in any one or more embodiments or exemplary embodiments in a proper manner.

The basic principle, main features and advantages of the present invention are shown and described above. Those skilled in the art shall understand that the present invention is not subject to limitation of the above-mentioned embodiments. The above-mentioned embodiments and description merely describe the principle of the present invention. There will be various variations and improvements of the present invention without departing from the spirit and scope of the present invention, and these variations and improvements shall fall into the claimed scope of the present invention. 7

Claims

CLAIMS LU503060

1. A belt adjusting carrier roller for small angle fine adjustment, comprising a base (1) and an anti-skid carrier roller (2), wherein the base (1) 1s slidably provided with a supporting device (3) for adjusting a position of the anti-skid carrier roller (2), and the supporting device (3) 1s slidably provided with a compression roller assembly (4); the base (1) is provided with a driving device (5), and the driving device (5) is configured to drive the supporting device (3) to slide on the base (1) and to drive the compression roller assembly (4) to slide on the supporting device (3).

2. The belt adjusting carrier roller for small angle fine adjustment according to claim 1, wherein the base (1) comprises a bottom plate (11), the bottom plate (11) is provided with symmetrically distributed operating blocks (12), and each of the operating blocks (12) is provided with a sliding groove (13); each of the operating blocks (12) is provided with an air cylinder (14) located on one side of the sliding groove (13), the air cylinders (14) are symmetrically distributed, a base of each of the air cylinders (14) is fixed to the operating block (12), and an output shaft of the air cylinder (14) contacts the supporting device

(3).

3. The belt adjusting carrier roller for small angle fine adjustment according to claim 2, wherein the anti-skid carrier roller (2) comprises a carrier roller body (21), the carrier roller body (21) being provided with a spiral anti-skid pad (22).

4. The belt adjusting carrier roller for small angle fine adjustment according to claim 3, wherein the supporting device (3) comprises symmetrically distributed sliding blocks (31), each of the sliding blocks (31) is located in the sliding groove (13) to slide, a supporting plate (32) is fixed on each of the sliding blocks (31), and the supporting plate (32) is provided with a chute (33); the supporting plate (32) on one side is provided with a bearing pedestal (34), and the supporting plate (32) on the other side is slidably connected to the supporting device (3), the bearing pedestal (34) is rotatably connected to the carrier roller body (21), a connecting block (36) is fixed on the sliding block (31) 8 on one side, the connecting block (36) is slidably provided with an L-shaped 7505060 supporting rod (37), a supporting rod (38) is fixed on the sliding block (31) on the other side, and the supporting plate (32) is provided with a scale (39).

5. The belt adjusting carrier roller for small angle fine adjustment according to claim 4, wherein the compression roller assembly (4) comprises a slide bar (41) sliding in the chute (33), one end of the slide bar (41) is slidably connected to the supporting plate (32) on one side, and the other end of the slide bar (41) penetrates through the supporting plate (32) on the other side; the slide bar (41) is provided with an L-shaped connecting block (42), one end of the L-shaped connecting block (42) is in fastening connection to the slide bar (41), the other end thereof is provided with a compression roller column (43), the compression roller column (43) is provided with a compression roller cylinder (44) with a rubber sleeve, and the compression roller cylinder (44) is rotatably sleeved on the compression roller column (43).

6. The belt adjusting carrier roller for small angle fine adjustment according to claim 5, wherein the driving device (5) comprises a first rack (51) fixed on the slide bar (41), the first rack (51) slides on the supporting plate (32), the first rack (51) is provided with a first gear (52) rotating on the supporting plate (32) in an engaged manner, and a motor (53) is fixed on the supporting plate (32); an output shaft of the motor (53) is in fastening connection to one end of the first gear (52), a second gear (54) is fixed at the other end of the first gear (52), the second gear (54) is provided with a pointer (55), the pointer (55) is configured to rotate to a required position according to a rotating angle on the scale (39), a second rack (56) fixed on one side of the L-shaped supporting rod (37) is arranged below the second gear (54), and the other side of the L-shaped supporting rod (37) contacts the output shaft of the air cylinder (14), the L-shaped supporting rod (37) is provided with a third rack (57) distributed perpendicular to the second rack (56), the supporting plate (32) is provided with a fourth rack (58), a third gear (59) is arranged between the fourth rack (58) and the third rack (57) in an engaged manner, and one end of the third gear (59) 9

. LU503060 rotates on the supporting plate (32).