CN212049186U - Belt conveyor for confluence - Google Patents

Abstract

The utility model discloses a band conveyer is used in confluence, including installing the fuselage in the support bracket upper end, be equipped with drive mechanism, conveyer belt and straining device on the fuselage. The transmission mechanism comprises a driving roller, an inclined roller and a reversing roller. The driving roller is positioned at one side of the machine body, and one end of the driving roller is provided with a driving mechanism for driving the driving roller to rotate. The inclined rollers are arranged at the other side of the machine body in a vertically distributed mode, and inclined included angles are formed between the inclined rollers and the driving rollers. The reversing roller is positioned on one side of the machine body close to the inclined roller and is perpendicular to the driving roller. The conveyer belt is wound on the driving roller, one inclined roller, the reversing roller and the other inclined roller in sequence in a closed manner. The utility model has simple structure and flexible use, and effectively improves the space utilization rate of material confluence; and the equipment has good operation stability and strong material processing capability.

Description

Belt conveyor for confluence

Technical Field

The utility model relates to a commodity circulation transportation equipment technical field especially relates to a band conveyer is used in confluence.

Background

The belt conveyor is also called a belt conveyor or a rubber belt conveyor, and is an indispensable economic logistics conveying device for forming a rhythmic assembly line. The belt conveyer can be selected to form linear bodies of straight line, curve, slope, shunt, confluence and the like according to the requirements of line production.

With the continuous improvement of the processing capacity of the automatic logistics system, the material confluence device is widely applied to the logistics distribution center and the automatic storage system. However, the existing material confluence equipment is usually driven by adopting a form of a plurality of narrow bands, so that narrow band abrasion and narrow band debugging are inconvenient to occur easily in actual use, and slipping and other phenomena are easy to occur in the running process, so that the material processing capacity is low.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide a converging belt conveyor which has simple structure and flexible use and effectively improves the space utilization rate of material converging; and the equipment has good operation stability and strong material processing capability.

In order to achieve the above purpose, the utility model discloses a technical scheme is: a belt conveyor for confluence comprises a machine body arranged at the upper end of a supporting bracket, wherein a transmission mechanism, a conveying belt and a tensioning mechanism are arranged on the machine body. The transmission mechanism comprises a driving roller, an inclined roller and a reversing roller. The driving roller is positioned at one side of the machine body, and one end of the driving roller is provided with a driving mechanism for driving the driving roller to rotate. The inclined rollers are arranged at the other side of the machine body in a vertically distributed mode, and inclined included angles are formed between the inclined rollers and the driving rollers. The reversing roller is positioned on one side of the machine body close to the inclined roller and is perpendicular to the driving roller. The conveyer belt is wound on the driving roller, one inclined roller, the reversing roller and the other inclined roller in sequence in a closed manner.

The beneficial effects of the utility model reside in that: the conveying of the conveying belt is realized through the transmission mechanism, and the structure of the conveying mechanism is simplified through reasonable matching of the driving roller, the inclined roller and the reversing roller, so that the conveying path of the conveying belt is optimized; the reversing rollers arranged at an inclined included angle and perpendicular to the driving rollers realize the steering of the conveying belt, so that the materials on the conveying belt are converged on a specified converging path, and the space utilization rate of material converging is improved; and the tension of the conveying belt is adjusted by matching with the tensioning mechanism, so that the conditions of slipping, deviation and the like in the conveying process of the conveying belt are avoided, the running stability of the equipment is improved, and the material processing capacity of the equipment is further improved.

Further, the two ends of the driving roller are respectively provided with a mounting seat which is rotatably connected with the driving roller, each mounting seat is mounted on the machine body through a fine adjustment mechanism, and the fine adjustment mechanism can drive the mounting seats to transversely move along the machine body. Rotationally install the body on with the drive roller through the mount pad, realize the lateral shifting of mount pad through fine-tuning, and then realize the horizontal counterpoint to the drive roller, the position at calibration drive roller both ends, through the conveyer belt that fine-tuning drive roller removed can the tensioning on the drive roller moreover.

Further, the fine adjustment mechanism comprises a waist-shaped hole, a connecting lug, a connecting seat and a driving screw rod. The waist-shaped holes are arranged on the machine body in pairs and correspond to the connecting lugs one to one. The connecting lugs are arranged on the mounting seat in pairs, and slide rods which can slide along the corresponding waist-shaped holes are fixedly connected to the connecting lugs. The connecting seat is fixedly connected to the machine body, a movable driving screw rod penetrates through the connecting seat, one end of the driving screw rod is fixedly connected to the mounting seat, and a driving nut matched with the driving screw rod is sleeved at the other end of the driving screw rod.

And the driving nut is rotated to drive the driving screw to move along the connecting seat, so that the mounting seat is driven to move, and the connecting lug on the mounting seat drives the sliding rod to move along the waist-shaped hole. The moving direction of the mounting seat is limited by the arrangement of the waist-shaped hole and the sliding rod.

Further, the driving mechanism comprises a driving motor fixedly connected to the machine body and a shock absorber located at the lower end of the driving motor, and the driving motor is connected with the driving roller through a floating coupler. The vibration of the driving motor during working is reduced through the arrangement of the shock absorber, the concentricity error between the driving motor and the driving roller is offset through the arrangement of the floating coupler, and the stability of the driving roller during rotation is improved.

Further, the inclined roller is in a hollow tubular shape, two ends of the inclined roller are fixedly connected to the machine body, and a plurality of exhaust holes are uniformly distributed in the side wall of the inclined roller. The inclined roller fixedly connected to the machine body ensures that the conveying belt has sliding friction with the inclined roller during conveying, thereby avoiding the movement of the conveying belt on the inclined roller; the heat generated by friction between the inclined roller and the conveying belt can be timely dissipated through the arrangement of the inclined roller and the exhaust holes of the hollow tubular structure, and the conveying stability of the conveying belt is ensured.

Further, the inclined included angle between the inclined roller and the driving roller is 45 degrees.

Furthermore, the tensioning mechanisms are provided with two groups and are symmetrically arranged at two ends of the reversing roller. The tensioning mechanism comprises a tensioning plate and a tensioning screw rod, one side of the tensioning plate is fixedly connected to the machine body, and the other side of the tensioning plate is provided with a sliding groove. The tensioning screw rod penetrates through the reversing roller, one end of the tensioning screw rod is fixedly connected with the tensioning plate, and the other end of the tensioning screw rod is sleeved with a tensioning nut matched with the tensioning screw rod. The reversing roller is also integrally provided with a sliding block capable of moving along the sliding groove. The movement of the reversing roller along the tensioning screw rod is realized through the matching of the tensioning nut and the tensioning screw rod, and then the movement of the sliding block along the sliding groove is driven. The distance between the reversing roller and the inclined roller is adjusted by moving the reversing roller, and further the tension of a conveying belt wound on the reversing roller and the inclined roller is adjusted.

Further, a tension adjusting roller capable of moving transversely is arranged between the driving roller and the inclined roller, the tension adjusting roller is distributed up and down, and both ends of the tension adjusting roller are provided with transverse moving mechanisms for limiting the moving direction of the tension adjusting roller. The transverse moving mechanism comprises a transverse moving base plate fixedly connected to the machine body, and a sliding rail for the tension adjusting roller to move is arranged on the transverse moving base plate along the length direction of the transverse moving base plate. During installation, the conveying belt between the driving roller and one inclined roller needs to sequentially pass around the two tension adjusting rollers. The transverse movement of the tension adjusting rollers is realized through the transverse movement mechanism, so that the distance between the two tension adjusting rollers is adjusted, and the tension adjustment of the conveying belt wound on the two tension adjusting rollers is realized.

Further, a guide rod penetrating through the tension adjusting roller is fixedly connected in the transverse moving base plate. The movement of the dancer roll can be guided by the arrangement of the guide rod.

Further, a pair of side baffles arranged along the conveying direction of the conveying belt is further arranged on the machine body.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

fig. 2 is a schematic perspective view of another viewing angle according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of the fine adjustment mechanism according to the embodiment of the present invention;

fig. 4 is a schematic perspective view of a driving mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a reversing roller according to an embodiment of the present invention;

FIG. 6 is a partial enlarged view of portion A of FIG. 5;

fig. 7 is a schematic perspective view of a traverse mechanism according to an embodiment of the present invention.

In the figure:

1-a support bracket; 2-a fuselage; 21-side baffle; 3-a conveyor belt; 41-driving roller; 42-oblique roller; 43-a reversing roller; 441-upper dancer roll; 442-lower dancer roll; 45-traversing the substrate; 451-a guide bar; 5-mounting a base; 61-kidney shaped hole; 62-connecting lugs; 621-a slide bar; 63-a connecting seat; 64-drive screw; 71-a drive motor; 72-a shock absorber; 73-floating coupling; 81-tensioning plate; 811-a chute; 82-a tensioning screw; 821-tensioning nut.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Examples

Referring to fig. 1-2, the belt conveyor for confluence according to the present invention comprises a body 2 mounted on the upper end of a support frame 1, wherein the body 2 is provided with a transmission mechanism, a conveyor belt 3 and a tensioning mechanism. The transmission mechanism comprises a driving roller 41, an inclined roller 42 and a reversing roller 43. The driving roller 41 is located at one side of the machine body 2, and one end of the driving roller is provided with a driving mechanism for driving the driving roller to rotate. The number of the inclined rollers 42 is two, the inclined rollers are located on the other side of the machine body 2 in a vertically distributed mode, and an inclined included angle of 45 degrees is formed between each inclined roller 42 and the corresponding driving roller 41. The reversing roller 43 is located on one side of the machine body 2 close to the oblique roller 42 and is arranged perpendicular to the driving roller 41.

The conveying of the conveying belt 3 is realized through the transmission mechanism, and the structure of the conveying mechanism is simplified through reasonable matching of the driving roller 41, the inclined roller 42 and the reversing roller 43, so that the conveying path of the conveying belt 3 is optimized; the steering of the conveyer belt 3 is realized by the inclined included angle and the reversing roller 43 which is vertical to the driving roller 41, so that the materials on the conveyer belt 3 are converged on a specified converging path; and the tension of the conveying belt 3 is adjusted by matching with a tensioning mechanism, so that the conditions of slipping, deviation and the like in the conveying process of the conveying belt 3 are avoided, and the material processing capacity of the conveying belt is improved.

In the present embodiment, the upper oblique roller 42 is referred to as an upper oblique roller, and the lower oblique roller 42 is referred to as a lower oblique roller. Referring to fig. 2, an upper tension adjusting roller 441 and a lower tension adjusting roller 442 are disposed between the driving roller 41 and the lower inclined roller, and both ends of the upper tension adjusting roller 441 and the lower tension adjusting roller 442 are provided with a transverse moving mechanism for driving the rollers to move transversely. The conveyer belt 3 is wound on the driving roller 41, the upper inclined roller, the reversing roller 43, the lower inclined roller, the lower tension adjusting roller 442 and the upper tension adjusting roller 441 in sequence in a closed manner.

Referring to fig. 7, the traverse mechanism includes a traverse substrate 45 fixed to the body 2, and the traverse substrate 45 is provided with a slide rail along a length direction thereof, on which the upper tension adjusting roller 441/the lower tension adjusting roller 442 move. A guide bar 451 provided to penetrate the upper tension adjusting roller 441 and the lower tension adjusting roller 442 is further fixed to the traverse substrate 45. The transverse movement of the upper tension adjusting roller 441/the lower tension adjusting roller 442 is realized by the transverse movement mechanism, and further, the distance between the upper tension adjusting roller 441 and the lower tension adjusting roller 442 is adjusted, so that the tension adjustment of the conveyor belt 3 positioned between the drive roller 41 and the lower oblique roller is realized.

In this embodiment, referring to fig. 2 and 3, the two ends of the driving roller 41 are respectively provided with a mounting seat 5 rotatably connected thereto, each mounting seat 5 is mounted on the machine body 2 through a fine adjustment mechanism, and the fine adjustment mechanism can drive the mounting seat 5 to move transversely along the machine body 2. The fine adjustment mechanism comprises a waist-shaped hole 61, a connecting lug 62, a connecting seat 63 and a driving screw 64. The waist-shaped holes 61 are arranged on the body 2 in pairs and correspond to the connecting lugs 62 one by one. The connecting lugs 62 are arranged on the mounting base 5 in pairs, and a sliding rod 621 capable of sliding along the corresponding waist-shaped hole 61 is fixedly connected to the connecting lugs. The connecting seat 63 is fixedly connected to the body 2, a movable driving screw 64 penetrates through the connecting seat, one end of the driving screw 64 is fixedly connected to the mounting seat 5, and the other end of the driving screw is sleeved with a driving nut matched with the driving screw.

The driving nut is rotated to drive the driving screw 64 to move along the connecting seat 63, and further drive the mounting seat 5 to move, and the connecting lug 62 on the mounting seat 5 drives the sliding rod 621 to move along the kidney-shaped hole 61. The moving direction of the mounting seat 5 is defined by the arrangement of the kidney-shaped hole 61 and the sliding rod 621. The driving roller 41 is rotatably arranged on the machine body 2 through the mounting seat 5, the transverse movement of the mounting seat 5 is realized through the fine adjustment mechanism, the transverse alignment of the driving roller 41 is further realized, the positions of two ends of the driving roller 41 are calibrated, and the conveying belt 3 on the driving roller 41 can be tensioned by driving the driving roller 41 to move through the fine adjustment mechanism.

In this embodiment, referring to fig. 4, the driving mechanism includes a driving motor 71 fixedly connected to the body 2 and a damper 72 located at a lower end of the driving motor 71, and the driving motor 71 is connected to the driving roller 41 through a floating coupling 73. The vibration of the driving motor 71 during operation is reduced by the arrangement of the shock absorber 72, the concentricity error between the driving motor 71 and the driving roller 41 is offset by the arrangement of the floating coupling 73, and the stability of the driving roller 41 during rotation is improved.

In this embodiment, the inclined roller 42 is a hollow tube, two ends of which are fixedly connected to the machine body 2, and a plurality of exhaust holes are uniformly distributed on the side wall of which. The oblique roller 42 fixedly connected on the machine body 2 ensures that the conveyer belt 3 has sliding friction with the oblique roller 42 when in conveying, thereby avoiding the movement of the conveyer belt 3 on the oblique roller 42. The heat generated by the friction between the inclined roller 42 and the conveying belt 3 can be timely dissipated through the arrangement of the inclined roller 42 with the hollow tubular structure and the exhaust holes, and the conveying stability of the conveying belt 3 is ensured.

In this embodiment, referring to fig. 5-6, the tensioning mechanisms are provided in two sets and are symmetrically located at both ends of the reversing drum 43. The tensioning mechanism comprises a tensioning plate 81 and a tensioning screw 82, one side of the tensioning plate 81 is fixedly connected to the machine body 2, and the other side of the tensioning plate 81 is provided with a sliding groove 811. The tensioning screw 82 penetrates through the reversing roller 43, one end of the tensioning screw is fixedly connected with the tensioning plate 81, and the other end of the tensioning screw is sleeved with a tensioning nut 821 matched with the tensioning screw. The reversing roller 43 is also integrally provided with a slide block which can move along the sliding groove 811. The screwing in and out of the tensioning nut 821 on the tensioning screw 82 can drive the reversing roller 43 to move along the tensioning screw 82, and thus the slide block to move along the sliding groove 811. The movement of the reversing roller 43 realizes the adjustment of the distance between the reversing roller 43 and the inclined roller 42, and further realizes the tension adjustment of the conveying belt 3 wound on the reversing roller 43 and the inclined roller 42.

The machine body 2 is also provided with a pair of side baffles 21 arranged along the conveying direction of the conveying belt 3. The conveyor belt 3 is connected by heat.

It should be noted that the floating coupling 73 in this embodiment is a prior art, and is not described in detail in this embodiment.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (10)

1. A belt conveyor for confluence comprises a machine body arranged at the upper end of a support bracket, wherein a transmission mechanism, a conveying belt and a tensioning mechanism are arranged on the machine body; the method is characterized in that: the transmission mechanism comprises a driving roller, an inclined roller and a reversing roller; the driving roller is positioned on one side of the machine body, and one end of the driving roller is provided with a driving mechanism for driving the driving roller to rotate; the two inclined rollers are vertically distributed on the other side of the machine body, and an inclined included angle is formed between each inclined roller and the corresponding driving roller; the reversing roller is positioned on one side of the machine body close to the inclined roller and is arranged perpendicular to the driving roller; the conveyer belt is wound on the driving roller, one inclined roller, the reversing roller and the other inclined roller in sequence in a closed manner.

2. A joining belt conveyor according to claim 1, characterized in that: the both ends of drive roller all are equipped with the mount pad of being connected with it rotation, every the mount pad is all installed through fine-tuning on the fuselage, fine-tuning can drive the mount pad along fuselage lateral shifting.

3. A joining belt conveyor according to claim 2, characterized in that: the fine adjustment mechanism comprises a waist-shaped hole, a connecting lug, a connecting seat and a driving screw rod; the waist-shaped holes are arranged on the machine body in pairs and correspond to the connecting lugs one to one; the connecting lugs are arranged on the mounting seat in pairs, and slide rods capable of sliding along the corresponding waist-shaped holes are fixedly connected to the connecting lugs; the connecting seat is fixedly connected to the machine body, a movable driving screw rod penetrates through the connecting seat, one end of the driving screw rod is fixedly connected to the mounting seat, and a driving nut matched with the driving screw rod is sleeved at the other end of the driving screw rod.

4. A joining belt conveyor according to claim 3, characterized in that: the driving mechanism comprises a driving motor fixedly connected to the machine body and a shock absorber located at the lower end of the driving motor, and the driving motor is connected with the driving roller through a floating coupler.

5. A converging belt conveyor according to any one of claims 1 to 4, wherein: the inclined roller is in a hollow tubular shape, two ends of the inclined roller are fixedly connected to the machine body, and a plurality of exhaust holes are uniformly distributed in the side wall of the inclined roller.

6. A joining belt conveyor according to claim 5, characterized in that: the inclined included angle between the inclined roller and the driving roller is 45 degrees.

7. A joining belt conveyor according to claim 1, characterized in that: the two groups of tensioning mechanisms are symmetrically arranged at two ends of the reversing roller; the tensioning mechanism comprises a tensioning plate and a tensioning screw rod, one side of the tensioning plate is fixedly connected to the machine body, and the other side of the tensioning plate is provided with a sliding groove; the tensioning screw rod penetrates through the reversing roller, one end of the tensioning screw rod is fixedly connected with the tensioning plate, and the other end of the tensioning screw rod is sleeved with a tensioning nut matched with the tensioning screw rod; the reversing roller is also integrally provided with a sliding block capable of moving along the sliding groove.

8. A joining belt conveyor according to claim 1, characterized in that: a tension adjusting roller capable of moving transversely is arranged between the driving roller and the inclined roller, the tension adjusting roller is distributed up and down, and both ends of the tension adjusting roller are provided with transverse moving mechanisms for limiting the moving direction of the tension adjusting roller; the transverse moving mechanism comprises a transverse moving base plate fixedly connected to the machine body, and a sliding rail for the tension adjusting roller to move is arranged on the transverse moving base plate along the length direction of the transverse moving base plate.

9. A joining belt conveyor according to claim 8, wherein: and a guide rod penetrating through the tension adjusting roller is further fixedly connected in the transverse moving substrate.

10. A joining belt conveyor according to claim 1, characterized in that: the machine body is also provided with a pair of side baffles which are distributed along the conveying direction of the conveying belt.

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