CN111099261A

CN111099261A - Intelligent logistics conveying system

Info

Publication number: CN111099261A
Application number: CN201911312964.9A
Authority: CN
Inventors: 王震宁
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-05-05

Abstract

The invention discloses an intelligent logistics conveying system which comprises a plurality of fixing columns, a supporting frame, a driving device and a plurality of rollers, wherein the plurality of rollers are arranged on the supporting frame; the support frame comprises a first conveyor belt, a pair of belt pulleys and a mounting plate; wherein, first drive belt with be equipped with the shock attenuation portion between the mounting panel, the shock attenuation portion includes a plurality of first shock attenuation portions, a plurality of second shock attenuation portions and a plurality of third shock attenuation portion, and a plurality of first shock attenuation portion equidistance are arranged in the shock attenuation frame, a plurality of second shock attenuation portions are evenly fixed the lower extreme of mounting panel, a plurality of third shock attenuation portion correspond and install the upper end of mounting panel. Because be equipped with the shock attenuation portion between first drive belt and mounting panel, under the effect through first shock attenuation portion, second shock attenuation portion and third shock attenuation portion, reduced the load of drive belt, during the material loading, played certain cushioning effect, promoted the life of drive belt.

Description

Intelligent logistics conveying system

Technical Field

The invention relates to the technical field of logistics facilities, in particular to an intelligent logistics conveying system.

Background

Conveyor belts are generally classified according to the presence or absence of traction elements, conveyor belt installations with traction elements and conveyor belt installations without traction elements. The structural characteristics of the conveyor belt equipment with the traction piece are as follows: the material to be conveyed is loaded in a carrier member connected to the traction element or directly on the conveyor belt, the traction element is passed around each roller or chain wheel and connected end to form a closed loop comprising a loaded branch for conveying the material and an unloaded branch for not conveying the material, and the material is conveyed by the continuous movement of the traction element. The conveyer belt often appears wearing and tearing, fish tail, damage, overlap joint position fracture scheduling problem, the emergence of these equipment problems has not only accelerated the damage of conveyer belt, causes leaking of material moreover and spills and waste, also has very big influence to the working schedule.

Disclosure of Invention

In view of the above problems, the main object of the present invention is to provide an intelligent logistics conveying system with good damping effect.

The object of the invention is achieved in the following way:

an intelligent logistics delivery system comprising:

a transverse plate is arranged between the plurality of fixing columns;

the supporting frame is installed on the fixing column through a fixing plate, a first conveying belt, a pair of belt pulleys and an installation plate are arranged in the supporting frame, the belt pulleys are rotatably connected to a connecting shaft of the supporting frame, the first conveying belt is sleeved on the pair of belt pulleys, the installation plate is fixedly connected with a short shaft on the connecting shaft, and a damping frame is arranged at the upper end of the installation plate;

the driving device is arranged on one side of the fixed column;

the rollers are mounted on the fixing seats of the fixing columns;

wherein, first drive belt with be equipped with the shock attenuation portion between the mounting panel, the shock attenuation portion includes a plurality of first shock attenuation portions, a plurality of second shock attenuation portions and a plurality of third shock attenuation portions, and a plurality of first shock attenuation portion equidistance are arranged in the shock attenuation frame, a plurality of second shock attenuation portions are evenly fixed the lower extreme of mounting panel, a plurality of third shock attenuation portion correspond and are installed the upper end of mounting panel, just third shock attenuation portion is located the lower extreme of first shock attenuation portion.

Further, drive arrangement includes second conveyer belt and driving motor, driving motor passes through the rack-mount and is in one side of fixed column, a pot head of second conveyer belt is established driving motor's output, another pot head of second conveyer belt is established on the outer lane of belt pulley.

Further, the first damping part comprises a pair of clamping plates, a pair of fixing supports and a roll shaft, the clamping plates are arranged on the damping frame at intervals, the fixing supports are symmetrically arranged on the inner sides of the clamping plates, and the roll shaft is arranged between the fixing supports.

Further, second shock-absorbing part includes ladder piece, second spring and backing plate, the backing plate with fix on the diapire of mounting panel, the one end of second spring is connected in the first hole of backing plate, the other end of second spring is connected in the second hole of ladder piece.

Further, the second spring is connected between the step block and the pad through a pair of fixing blocks.

Further, the third shock attenuation portion is including installation shell, third spring and shock attenuation ball, the installation shell is installed in the recess of the upper end of mounting panel, the third spring with shock attenuation ball body coupling, just the third spring with shock attenuation ball all holds in the installation shell.

Furthermore, the roller is installed on the roller seat through the middle shaft, the roller seat comprises a sliding block, a support rod and a first spring, the sliding block and the support rod are integrally connected, the upper end of the support rod is fixedly connected with the fixed seat, and the first spring is accommodated in a sliding groove of the roller seat.

Further, the sliding block is in sliding fit with the sliding groove.

Further, a plurality of anti-slip rollers are uniformly arranged on the surface of the first conveyor belt.

Furthermore, a plurality of stools are arranged on the transverse plate.

The invention has the beneficial effects that:

1. because the damping part is arranged between the first transmission belt and the mounting plate, the load of the transmission belt is reduced and the service life of the transmission belt is prolonged under the action of the first damping part and the second damping part;

2. in order to further promote the shock attenuation effect to the conveyer belt, be equipped with third shock attenuation portion in first shock attenuation portion lower extreme, when the material loading, played certain cushioning effect, help obtaining further promotion to the shock attenuation effect of conveyer belt.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a partial cross-sectional view of the present invention;

fig. 3 is a partial enlarged view at C of fig. 2;

fig. 4 is a partial enlarged view at D of fig. 2;

fig. 5 is a partial enlarged view at E of fig. 1.

The notation in the figure is: a supporting frame-10, a connecting shaft-11, a first conveyor belt-12, an anti-slip roller-121, a belt pulley-13, an outer ring-131, a shock absorption frame-14, a mounting plate-15, a fixed column-20, a fixed seat-21, a driving device-30, a frame-31, a second conveyor belt-32, a driving motor-33, a transverse plate-40, a stool-41, a roller-50, a roller seat-51, a sliding groove-511, a sliding block-52, a support rod-53, a first spring-54, a middle shaft-55, a first shock absorption part-60, a clamping plate-61, a fixed support-62, a roller shaft-63, a second shock absorption part-70, a step block-71, a second inner hole-711, a fixed block-72, a second spring-73, a first spring-73, A backing plate-74, a first inner hole-741, a third damping part-80, a mounting shell-81, a third spring-82, a damping ball-83 and a fixing plate-90.

Detailed Description

The present invention will be described in further detail with reference to examples, but the embodiments of the present invention are not limited thereto.

With reference to fig. 1 to 5, the intelligent logistics conveying system shown in fig. 1 includes a plurality of fixing columns 20, a supporting frame 10, a driving device 30 and a plurality of rollers 50, wherein a horizontal plate 40 is disposed between the fixing columns 20; the supporting frame 10 is mounted on the fixing column 20 through a fixing plate 90, the supporting frame 10 comprises a first conveyor belt 12, a pair of belt pulleys 13 and a mounting plate 15, the belt pulleys 13 are rotatably connected to a connecting shaft 11 of the supporting frame 10, the first conveyor belt 12 is sleeved on the pair of belt pulleys 13, the mounting plate 15 is fixedly connected with a short shaft on the connecting shaft 11, and a damping frame 14 is arranged at the upper end of the mounting plate 15; the driving device 30 is arranged at one side of the fixed column 20; the roller 50 is mounted on the fixed seat 21 of the fixed column 20;

as shown in fig. 2, a damping portion is arranged between the first transmission belt 12 and the mounting plate 15, the damping portion includes a plurality of first damping portions 60, a plurality of second damping portions 70 and a plurality of third damping portions 80, the first damping portions 60 are equidistantly arranged in the damping frame 14, the second damping portions 70 are uniformly fixed at the lower end of the mounting plate 15, the third damping portions 80 are correspondingly arranged at the upper end of the mounting plate 15, and the third damping portions 80 are located at the lower end of the first damping portions 60. With the above structure, a certain damping effect can be exerted on the first conveyor belt 12.

In order to drive the first conveyor belt 12 to rotate, the driving device 30 includes a second conveyor belt 32 and a driving motor 33, the driving motor 33 is installed on one side of the fixed column 20 through a rack 31, one end of the second conveyor belt 32 is sleeved on an output end of the driving motor 33, and the other end of the second conveyor belt 32 is sleeved on an outer ring 131 of the belt pulley 13.

As shown in fig. 4, the first damper portion 60 includes a pair of clamp plates 61, a pair of fixing brackets 62, and a roller 63, the pair of clamp plates 61 are disposed on the damper frame 14 at intervals, the pair of fixing brackets 62 are symmetrically disposed at inner sides of the pair of clamp plates 61, and the roller 63 is disposed between the pair of fixing brackets 62. With the above structure, the damping performance of the first conveyor belt 12 by the roller shaft 63 can be enhanced, and particularly, the damping effect can be achieved during feeding.

As shown in fig. 3, the second damper portion 70 includes a step block 71, a second spring 73, and a backing plate 74, the backing plate 74 is fixed to the bottom wall of the mounting plate 15, one end of the second spring 73 is connected to a first inner hole 741 of the backing plate 74, and the other end of the second spring 73 is connected to a second inner hole 711 of the step block 71. With the above structure, the damping effect on the first conveyor belt 12 can be improved.

In order to further enhance the shock-absorbing effect on the first conveyor belt 12, the second spring 73 is connected between the step block 71 and the pad plate 74 by a pair of fixing blocks 72.

Preferably, the third damper 80 includes a mounting case 81, a third spring 82 and a damper ball 83, the mounting case 81 is mounted in a groove at an upper end of the mounting plate 15, the third spring 82 and the damper ball 83 are integrally connected, and the third spring 82 and the damper ball 83 are accommodated in the mounting case 81. With the above structure, a certain buffering effect can be exerted on the first damping portion 60, thereby improving the damping performance of the first conveyor belt 12.

As shown in fig. 5, the roller 50 is mounted on a roller seat 51 through a central shaft 55, the roller seat 51 includes a sliding block 52, a stay 53 and a first spring 54, the sliding block 52 and the stay 53 are integrally connected, an upper end of the stay 53 is fixedly connected to the fixed seat 21, and the first spring 54 is accommodated in a sliding slot 511 of the roller seat 51. The structure can play a certain buffering effect on the fixing column 20.

Preferably, the sliding block 52 is slidably engaged with the sliding slot 511.

For more convenient material transportation, a plurality of anti-slip rollers 121 are uniformly arranged on the surface of the first conveyor belt 12.

Preferably, the horizontal plate 40 is provided with a plurality of stools 41.

In summary, since the damping portion is disposed between the first transmission belt 12 and the mounting plate 15, the load of the first transmission belt 12 is reduced by the actions of the first damping portion 60, the second damping portion 70 and the third damping portion 80, and meanwhile, in order to drive the first transmission belt 12 to rotate, the driving device 30 includes the second transmission belt 32 and the driving motor 33, in order to further improve the damping effect on the first transmission belt 12, the second spring 73 is connected between the step block 71 and the backing plate 74 through the pair of fixing blocks 72, and during loading, a certain damping effect can be exerted on the first damping portion 60 through the mounting shell 81, the third spring 82 and the damping balls 83 disposed in the third damping portion 80, so as to improve the damping performance on the first transmission belt 12, and achieve a certain damping effect, thereby prolonging the service life of the transmission belt.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An intelligent logistics delivery system, comprising:

a plurality of fixing columns (20), and a transverse plate (40) is arranged between the plurality of fixing columns (20);

the supporting frame (10) is installed on the fixing column (20) through a fixing plate (90), a first conveying belt (12), a pair of belt pulleys (13) and an installation plate (15) are arranged in the supporting frame (10), the belt pulleys (13) are rotatably connected to a connecting shaft (11) of the supporting frame (10), the first conveying belt (12) is sleeved on the pair of belt pulleys (13), the installation plate (15) is fixedly connected with a short shaft on the connecting shaft (11), and a damping frame (14) is arranged at the upper end of the installation plate (15);

a driving device (30), wherein the driving device (30) is arranged on one side of the fixed column (20);

the rollers (50) are mounted on the fixing seats (21) of the fixing columns (20);

wherein, first drive belt (12) with be equipped with the shock attenuation portion between mounting panel (15), the shock attenuation portion includes a plurality of first shock attenuation portions (60), a plurality of second shock attenuation portions (70) and a plurality of third shock attenuation portion (80), and a plurality of first shock attenuation portions (60) equidistance are arranged in shock attenuation frame (14), a plurality of second shock attenuation portions (70) are evenly fixed the lower extreme of mounting panel (15), a plurality of third shock attenuation portions (80) are corresponding to be installed the upper end of mounting panel (15), just third shock attenuation portion (80) are located the lower extreme of first shock attenuation portion (60).

2. The intelligent logistics conveying system of claim 1, wherein the driving device (30) comprises a second conveying belt (32) and a driving motor (33), the driving motor (33) is installed on one side of the fixed column (20) through a rack (31), one end of the second conveying belt (32) is sleeved on the output end of the driving motor (33), and the other end of the second conveying belt (32) is sleeved on the outer ring (131) of the belt pulley (13).

3. The intelligent logistics conveying system of claim 1, wherein the first damping part (60) comprises a pair of clamping plates (61), a pair of fixing brackets (62) and a roll shaft (63), the pair of clamping plates (61) are arranged on the damping frame (14) at intervals, the pair of fixing brackets (62) are symmetrically arranged on the inner sides of the pair of clamping plates (61), and the roll shaft (63) is arranged between the pair of fixing brackets (62).

4. The intelligent logistics conveying system of claim 1, wherein the second damping part (70) comprises a step block (71), a second spring (73) and a backing plate (74), the backing plate (74) is fixed on the bottom wall of the mounting plate (15), one end of the second spring (73) is connected in a first inner hole (741) of the backing plate (74), and the other end of the second spring (73) is connected in a second inner hole (711) of the step block (71).

5. The intelligent logistics conveying system of claim 4, wherein the second spring (73) is connected between the step block (71) and the tie plate (74) through a pair of fixed blocks (72).

6. The intelligent logistics conveying system of claim 1, wherein the third damping part (80) comprises a mounting shell (81), a third spring (82) and a damping ball (83), the mounting shell (81) is mounted in a groove at the upper end of the mounting plate (15), the third spring (82) is integrally connected with the damping ball (83), and the third spring (82) and the damping ball (83) are both accommodated in the mounting shell (81).

7. The intelligent logistics conveying system of claim 1, wherein the roller (50) is mounted on a roller seat (51) through a central shaft (55), the roller seat (51) comprises a sliding block (52), a supporting rod (53) and a first spring (54), the sliding block (52) and the supporting rod (53) are integrally connected, the upper end of the supporting rod (53) is fixedly connected with the fixed seat (21), and the first spring (54) is accommodated in a sliding groove (511) of the roller seat (51).

8. The intelligent logistics conveying system of claim 7, wherein the slide block (52) is in sliding fit with the chute (511).

9. The intelligent logistics conveying system of claim 1, wherein the surface of the first conveyor belt (12) is uniformly provided with a plurality of anti-slip rollers (121).

10. The intelligent logistics conveying system of claim 1, wherein the transverse plate (40) is provided with a plurality of stools (41).