CN111099254A - Bidirectional pipe belt conveyor - Google Patents

Abstract

The invention discloses a bidirectional circular tube belt conveyor, which relates to the technical field of circular tube belt conveyors and comprises the following components: the device comprises a rack, an upper circular tube conveying section, a lower circular tube conveying section, a roller and a driving part, wherein the upper circular tube conveying section, the lower circular tube conveying section, the roller and the driving part are all arranged on the rack; the roller is arranged at the joint of the upper circular tube conveying section and the lower circular tube conveying section and is mutually communicated with the upper circular tube conveying section and the lower circular tube conveying section; the driving part is in power connection with the roller and is used for driving the roller to rotate. The two-way pipe belt conveyor can realize simultaneous two-way conveying of two different materials without arranging a belt turning device, and saves a large amount of manpower, financial resources and material resources, thereby reducing the cost of the two-way pipe belt conveyor.

Description

Bidirectional pipe belt conveyor

Technical Field

The invention relates to the technical field of circular tube belt conveyors, in particular to a bidirectional circular tube belt conveyor.

Background

At present, the circular tube belt conveyor becomes important equipment for conveying bulk materials gradually, and forms independent industries and matched products.

If the existing circular tube belt conveyor is used for realizing bidirectional material conveying, a belt turning device (turning a return rubber belt by 180 degrees) is usually required to be added. However, the device is very complex to implement, and needs two sets of belt turning devices (which must be turned back before reaching the bearing section), so that a large amount of manpower, financial resources and material resources are needed for implementation, the implementation cost is high, and meanwhile, a long space length is needed.

Disclosure of Invention

In view of the above, the present invention provides a bidirectional circular tube belt conveyor, which aims to reduce the cost of the bidirectional circular tube belt conveyor.

Based on the above object, the present invention provides a bidirectional round tube belt conveyor, comprising:

a frame, an upper circular tube conveying section, a lower circular tube conveying section, a roller and a driving part, wherein,

the upper circular tube conveying section, the lower circular tube conveying section, the roller and the driving part are all arranged on the rack;

the roller is arranged at the joint of the upper circular tube conveying section and the lower circular tube conveying section and is mutually communicated with the upper circular tube conveying section and the lower circular tube conveying section;

the driving part is rotationally connected with the roller and used for driving the roller to rotate.

Optionally, the upper circular tube conveying section comprises a first upper unfolding section, a first upper U-shaped section, an upper rounding section, a second upper U-shaped section and a second upper unfolding section which are sequentially arranged.

Optionally, the lower circular tube conveying section comprises a first lower unfolding section, a first lower U-shaped section, a lower rounding section, a second lower U-shaped section and a second lower unfolding section which are sequentially arranged.

Optionally, the first upper U-shaped section, the second upper U-shaped section, the first lower U-shaped section, and the second lower U-shaped section are respectively formed by at least one first forming portion.

Optionally, the first forming portion includes two first guide rollers symmetrically disposed, the two first guide rollers are both rotatably connected to the frame, and a U-shape is formed between the two first guide rollers and the frame.

Optionally, the upper rounding section and the lower rounding section are each formed by at least one second forming portion.

Optionally, the second forming portion includes six second direction bearing rollers that are circular distribution, six second direction bearing rollers all with the frame is rotated and is connected.

Optionally, the cylinder with the drive division is provided with two sets ofly, and first set of setting is in go up the pipe and carry the section with the section is carried to lower pipe's linking department, the second group the cylinder with the drive division sets up the end that the section was carried to lower pipe, the below of the end that the section was carried to lower pipe is equipped with first redirection drum and second turnabout, first redirection drum with second turnabout is located the second group respectively the both sides of cylinder, first redirection drum second turnabout and second group form between the cylinder the discharge gate of section is carried to lower pipe.

Optionally, one side of the lower circular tube conveying section, which is close to the drum, is further provided with a third bend drum and a fourth bend drum, and the third bend drum and the fourth bend drum are both located below the drum and used for increasing the distance between one end of the lower circular tube conveying section, which is close to the drum, and the upper circular tube conveying section.

Optionally, a vertical tensioning device is further arranged on one side, close to the roller, of the lower circular tube conveying section, and the vertical tensioning device comprises a first tensioning wheel, a second tensioning wheel and a third tensioning wheel, and is used for enabling a rubber belt of the bidirectional circular tube conveyor to be in a tensioning state.

This two-way pipe conveyor passes through the cylinder and realizes two-way transport with the drive division, goes up the pipe and carries the section to carry the material from a left side to the right side for example, through changing to the back of cylinder, and lower pipe is carried the section and then is carried another kind of material from a right side to the left side, so realizes the different material of pipe belt conveyor two-way transport simultaneously.

According to the pipe belt conveyor, the two-way conveying can be realized without a belt turning device, a large amount of manpower, financial resources and material resources are saved, the cost of the two-way pipe belt conveyor is reduced, and meanwhile, the space is effectively utilized. Secondly, the cylinder sets up go up the pipe and carry the section with the linking department of pipe transport section down, and with go up the pipe transport section with pipe transport section interconnect down makes like this that go up pipe transport section and pipe transport section down be in normal tensioning operating condition all the time in the course of the work, has ensured the reliability of transported substance material.

Drawings

FIG. 1 is a schematic structural diagram of a bidirectional round tube belt conveyor according to an embodiment of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is an enlarged view at B of FIG. 1;

FIG. 4 is an enlarged view at C of FIG. 1;

FIG. 5 is a schematic side view of an expanded section according to an embodiment of the present invention;

FIG. 6 is a side schematic view of a U-shaped section according to an embodiment of the present invention;

FIG. 7 is a side schematic view of a rounded section according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to specific embodiments and the accompanying drawings.

In order to achieve the above purpose, the embodiment of the present invention provides a bidirectional circular tube belt conveyor. As shown in fig. 1 to 7, a bidirectional round pipe belt conveyor includes: a frame, an upper circular tube conveying section 1, a lower circular tube conveying section 2, a roller 3 and a driving part, wherein,

the upper circular tube conveying section 1, the lower circular tube conveying section 2, the roller 3 and the driving part are all arranged on the rack;

the roller 3 is arranged at the joint of the upper circular tube conveying section 1 and the lower circular tube conveying section 2 and is mutually communicated with the upper circular tube conveying section 1 and the lower circular tube conveying section 2;

the driving part is in power connection with the roller 3 and is used for driving the roller 3 to rotate.

In one embodiment, the driving part can be a driving motor and a speed reducer, the driving motor is in power connection with the speed reducer, the speed reducer is in power connection with the roller 3, and the roller 3 is driven to rotate through the work of the driving motor.

This two-way pipe belt conveyor passes through cylinder 3 and drive division and realizes two-way transport, goes up pipe conveying section 1 for example and carries the material from a left side to the right side, through changing to the back of cylinder 3, and lower pipe conveying section 2 is from then carrying another kind of material from a right side to the left side, so realizes pipe belt conveyor's two-way transported substance material.

According to the bidirectional circular tube belt conveyor, the belt turning device is not needed, bidirectional conveying can be achieved, a large amount of manpower, financial resources and material resources are saved, the cost of the bidirectional circular tube belt conveyor is reduced, meanwhile, the space is effectively utilized, and the bidirectional circular tube belt conveyor is simpler in structure, so that the failure rate of equipment is greatly reduced. Secondly, the cylinder 3 sets up go up pipe transport section 1 with the linking department of pipe transport section 2 down, and with go up pipe transport section 1 with pipe transport section 2 interconnect down makes like this that go up pipe transport section 1 and pipe transport section 2 down be in normal tensioning operating condition all the time in the course of the work, has ensured the reliability of transported substance material.

In some embodiments, the upper tubular conveying section 1 comprises a first upper unfolded section 11, a first upper U-shaped section 12, an upper rounded section 13, a second upper U-shaped section 14 and a second upper unfolded section 15, which are arranged in sequence.

The material enters the conveyor from the first upper unfolding section 11, then passes through the first upper U-shaped section 12, the upper rounding section 13, the second upper U-shaped section 14 in sequence, and finally is discharged through the second upper unfolding section 15.

The lower circular tube conveying section 2 comprises a first lower unfolding section 21, a first lower U-shaped section 22, a lower rounding section 23, a second lower U-shaped section 24 and a second lower unfolding section 25 which are sequentially arranged.

The material enters the conveyor from the first lower unfolding section 21, then passes through the first lower U-shaped section 22, the lower rounding section 23 and the second lower U-shaped section 24 in sequence, and finally is discharged through the second lower unfolding section 25.

In some embodiments, the first upper U-shaped section 12, the second upper U-shaped section 14, the first lower U-shaped section 22, and the second lower U-shaped section 24 are each formed by at least one first forming portion.

Optionally, the first forming portion includes two first guide rollers 6 symmetrically disposed, the two first guide rollers 6 are both rotatably connected to the frame, and a U-shape is formed between the two first guide rollers 6 and the frame.

In some embodiments, the upper rounding segment 13 and the lower rounding segment 23 are each formed by at least one second forming portion.

Optionally, the second forming portion includes six second guide rollers 7 that are circularly distributed, and six second guide rollers 7 all with the frame is connected in rotation.

In some embodiments, the rollers 3 and the driving portion are provided in two sets, a first set is disposed at a joint of the upper circular tube conveying section 1 and the lower circular tube conveying section 2, a second set of the rollers 3 and the driving portion is disposed at a terminal of the lower circular tube conveying section 2, a first direction-changing roller 31 and a second direction-changing roller 32 are disposed below the terminal of the lower circular tube conveying section 2, the first direction-changing roller 31 and the second direction-changing roller 32 are respectively disposed at two sides of the second set of the rollers, and a discharge port 33 of the lower circular tube conveying section 2 is formed among the first direction-changing roller 31, the second direction-changing roller 32 and the second set of the rollers.

The design of two sets of driving parts and two sets of rollers 3 can improve the conveying efficiency of the conveyor. Through the design of the position relation of the first direction-changing drum 31 and the second direction-changing drum 32, a discharge hole 33 can be formed, and materials can be conveniently discharged from the lower circular tube conveying section 2.

In some embodiments, a third direction-changing drum 41 and a fourth direction-changing drum 42 are further disposed on one side of the lower circular tube conveying section 2 close to the drum 3, the third direction-changing drum 41 and the fourth direction-changing drum 42 are both located below the drum 3 and are used for increasing a distance between one end of the lower circular tube conveying section 2 close to the drum 3 and the upper circular tube conveying section 1, the third direction-changing drum 41 is located at the top of the lower circular tube conveying section 2, and the fourth direction-changing drum 42 is located at the bottom of the lower circular tube conveying section 2. When the distance between the lower circular tube conveying section 2 and the upper circular tube conveying section 1 is too close, the phenomenon of inconvenient operation can occur when materials are added into the lower circular tube conveying section 2, in order to solve the problem, the distance between one end, close to the roller 3, of the lower circular tube conveying section 2 and the upper circular tube conveying section 1 can be increased through the design of the third bend pulley 41 and the fourth bend pulley 42, and therefore feeding can be conducted on the lower circular tube conveying section 2 more conveniently.

In some embodiments, a vertical tensioning device is further provided on the side of the lower conveying section close to the roller, and the vertical tensioning device comprises a first tensioning wheel 51, a second tensioning wheel 52, a third tensioning wheel 53 and a gravity element 54, and is used for placing the lower conveying section in a tensioned state. The vertical tensioning device further ensures that the upper circular tube conveying section and the lower circular tube conveying section are always in a normal tensioning working state in the working process, and the reliability of conveying materials by the conveyor is further improved.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the invention, also technical features in the above embodiments or in different embodiments may be combined and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity. Therefore, any omissions, modifications, substitutions, improvements and the like that may be made without departing from the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (10)

1. A bi-directional pipe belt conveyor, comprising: a frame, an upper circular tube conveying section, a lower circular tube conveying section, a roller and a driving part, wherein,

the upper circular tube conveying section, the lower circular tube conveying section, the roller and the driving part are all arranged on the rack;

the roller is arranged at the joint of the upper circular tube conveying section and the lower circular tube conveying section and is mutually communicated with the upper circular tube conveying section and the lower circular tube conveying section;

the driving part is in power connection with the roller and is used for driving the roller to rotate.

2. The bi-directional round tube belt conveyor of claim 1 wherein the upper round tube conveying section comprises a first upper unfolded section, a first upper U-shaped section, an upper rounded section, a second upper U-shaped section and a second upper unfolded section arranged in sequence.

3. The bi-directional round tube belt conveyor of claim 2, wherein the lower round tube conveying section comprises a first lower unfolded section, a first lower U-shaped section, a lower rounded section, a second lower U-shaped section, and a second lower unfolded section, which are arranged in sequence.

4. The bi-directional round tube belt conveyor of claim 3 wherein the first upper U-shaped section, the second upper U-shaped section, the first lower U-shaped section, and the second lower U-shaped section are each formed by at least one first forming section.

5. The bidirectional round tube belt conveyor as claimed in claim 4, wherein the first forming portion comprises two first guide rollers symmetrically arranged, the two first guide rollers are rotatably connected to the frame, and a U-shape is formed between the two first guide rollers and the frame.

6. The bi-directional round tube belt conveyor of claim 3 wherein the upper and lower rounded sections are each formed by at least one second forming section.

7. The bi-directional pipe belt conveyor of claim 6 wherein the second forming section includes six second guide idlers in a circular arrangement, each of the six second guide idlers being rotatably connected to the frame.

8. The bidirectional round tube belt conveyor of claim 1, wherein the rollers and the driving portion are provided in two sets, the first set is disposed at a junction of the upper round tube conveying section and the lower round tube conveying section, the second set of the rollers and the driving portion are disposed at a tail end of the lower round tube conveying section, a first direction-changing roller and a second direction-changing roller are disposed below the tail end of the lower round tube conveying section, the first direction-changing roller and the second direction-changing roller are respectively disposed at two sides of the second set of the rollers, and a discharge port of the lower round tube conveying section is formed among the first direction-changing roller, the second direction-changing roller and the second set of the rollers.

9. The bidirectional round tube belt conveyor according to claim 1, wherein a third direction-changing drum and a fourth direction-changing drum are further arranged on one side of the lower round tube conveying section close to the drum, and the third direction-changing drum and the fourth direction-changing drum are both positioned below the drum and used for increasing the distance between one end of the lower round tube conveying section close to the drum and the upper round tube conveying section.

10. The bi-directional pipe belt conveyor of claim 1, wherein the side of the lower pipe conveying section near the roller is further provided with a vertical tensioning device, the vertical tensioning device comprises a first tensioning wheel, a second tensioning wheel and a third tensioning wheel, and the vertical tensioning device is used for keeping the lower pipe conveying section in a normal tensioning operation state.

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