CN212333730U - Material lifting and conveying equipment with super-large inclination angle - Google Patents

Abstract

The utility model discloses a super large inclination material promotes conveying equipment, including the conveyer, the conveyer includes carriage and conveyer belt, its characterized in that, the carriage includes lower loading portion, well lifting portion and the portion of unloading, is provided with first transition closing mechanism, second promotion locking mechanism, the third transition release mechanism that is used for supporting the conveyer belt in lower loading portion, well lifting portion respectively with in the portion of unloading. A plurality of groups of first lug assemblies are connected to two side ends of the conveying belt, and each first lug assembly comprises a first left lug and a first right lug; a plurality of groups of first pinch roller mechanisms are arranged in the lifting part of the conveying frame, and each group of first pinch roller mechanisms comprises two first pinch roller assemblies; after the conveyer belt passes through the direction of first transition closing mechanism and becomes confined circular area, the second promotes and embraces the mechanism and embrace the conveyer belt tightly, and first left ear piece and first right ear piece butt joint to compress tightly the location through two first pinch roller subassemblies. The conveying angle of the equipment is large, and meanwhile, the material conveying loss can be reduced.

Description

Material lifting and conveying equipment with super-large inclination angle

Technical Field

The utility model relates to a mechanical engineering field, concretely relates to super large inclination material promotes conveying equipment.

Background

With the development of science and technology, the application of new technology, new materials, new processes and new equipment in the production and manufacturing industry of the belt conveyor and the continuous improvement of the technical theory of the belt conveyor, the maximum conveying inclination angle of the existing groove type belt conveyor can reach 30 degrees. However, with the continuous development of mines and production conditions, a complex conveying line with an ultra-large inclination angle and a variable slope appears, the existing groove-type belt conveyor cannot meet the actual requirement, and the adoption of the ultra-large inclination angle belt conveyor for transportation becomes a necessary trend, so that the research of numerous scholars at home and abroad on the ultra-large inclination angle belt conveyor is aroused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a super large inclination material promotes conveying equipment, the transport angle of this equipment is big, can shorten the conveying distance, can realize the air-tight transport among the material transportation process, satisfies green's requirement, also can reduce the material transportation loss simultaneously.

The utility model discloses a realize above-mentioned purpose, the technical solution who adopts is:

a material lifting conveying device with an ultra-large inclination angle comprises a conveyor, wherein the conveyor comprises a conveying frame and a conveying belt, the conveying frame comprises a lower loading part, a middle lifting part and an upper discharging part, and a first transition closing mechanism, a second lifting and clasping mechanism and a third transition loosening mechanism which are used for supporting the conveying belt are respectively arranged in the lower loading part, the middle lifting part and the upper discharging part;

a plurality of groups of first lug assemblies are connected to two side ends of the conveying belt, and each first lug assembly comprises a first left lug and a first right lug; a plurality of groups of first pinch roller mechanisms are arranged in the lifting part of the conveying frame, and each group of first pinch roller mechanisms comprises two first pinch roller assemblies; after the conveyer belt passes through the direction of first transition closing mechanism and becomes confined circular area, the second promotes and embraces the mechanism and embrace the conveyer belt tightly, and first left ear piece and first right ear piece butt joint to compress tightly the location through two first pinch roller subassemblies.

Preferably, the conveyor also comprises a transmission roller mechanism and a lower carrier roller mechanism for supporting the conveyor belt, the front end of the lower part of the conveyor frame is provided with a first direction-changing roller assembly, and the rear end of the upper part of the conveyor frame is provided with a second direction-changing roller assembly;

the first direction-changing roller assembly is positioned at the front end of the first transition closing mechanism, and the second direction-changing roller assembly is positioned at the rear end of the third transition loosening mechanism; the conveying belt is positioned by the transmission roller mechanism, the lower carrier roller mechanism, the first direction-changing roller assembly, the second direction-changing roller assembly and the conveying frame to form a closed loop conveying belt capable of conveying materials.

Preferably, the lower loading part comprises at least two groups of first loading support frames, the first loading support frames are in a U-shaped frame shape, and each group of first loading support frames is provided with a group of first transition closing mechanisms;

the first transition closing mechanism comprises three groups of first transition carrier roller assemblies, and the three groups of first transition carrier roller assemblies are respectively connected to the bottom end, the left lower end and the right lower end of the first loading support frame through first carrier roller supports; the rear end of the first direction-changing roller assembly is connected with a first buffer carrier roller.

Preferably, the middle lifting part comprises a first lifting underframe mechanism used for connecting the second lifting clasping mechanism and a first lifting top frame mechanism used for connecting the first pressing wheel mechanism;

after the first lifting top frame mechanism is connected to the upper end of the first lifting top frame mechanism in an adaptive mode, a conveying cavity for a conveying frame is formed between the first lifting bottom frame mechanism and the first lifting top frame mechanism.

Preferably, the first lifting chassis mechanism comprises a first transition closing section, a second concave curved section, a third inclined main line section, a fourth convex curved section and a fifth releasing transition section;

the first transition closing section comprises a plurality of first transition support frames which are arranged longitudinally and mutually parallel; each first transition support frame is connected with a group of second lifting and clasping mechanisms;

the second concave curve bending section comprises three second concave curve supporting frames which are arranged in an arc shape; each second concave curve supporting frame is connected with a group of second lifting and clasping mechanisms;

the third inclined main line section comprises a plurality of third inclined support frames, and the third inclined support frames are inclined and arranged in parallel; each third inclined support frame is connected with a group of second lifting and clasping mechanisms;

the fourth convex curve bending section comprises three fourth convex curve supporting frames which are arranged in an arc shape; each fourth convex curve supporting frame is connected with a group of second lifting and clasping mechanisms;

the fifth loosening transition section comprises a plurality of fifth loosening support frames, and the fifth loosening support frames are arranged longitudinally and mutually parallel;

the first transition support frame, the second concave curve support frame, the third inclined support frame, the fourth convex curve support frame and the fifth loosening support frame are all in a U-shaped frame shape.

Preferably, the second lifting and clasping mechanism comprises five second clasping carrier roller assemblies, and the five second clasping carrier roller assemblies are respectively connected to the bottom end, the left lower end, the right lower end, the left upper end and the right upper end of the circular belt-shaped conveying belt; the five second clasping carrier roller assemblies are connected with the conveying frame in a positioning mode through the second carrier roller supports.

Preferably, the upper discharging part comprises at least two groups of first discharging support frames, each group of first discharging support frames is provided with a group of third transition loosening mechanisms, and the first discharging support frames are in a U-shaped frame shape;

the third transition loosening mechanism comprises three third loosening carrier roller assemblies, and the three third loosening carrier roller assemblies are connected to the bottom end, the left lower end and the right lower end of the first discharging support frame through third carrier roller supports respectively.

Preferably, the first lifting top frame mechanism comprises a first arc-shaped positioning beam, and the first arc-shaped positioning beam is connected with the first lifting underframe mechanism through a plurality of first transverse positioning beams; the lower end of each first transverse positioning beam is connected with a group of first pinch roller mechanisms, and two first pinch roller assemblies in each group of first pinch roller mechanisms are respectively arranged on two sides of the first arc-shaped positioning beam.

Preferably, the first pinch roller assembly comprises a first pinch roller supporting shaft and a first round pinch roller, and the upper end of the first pinch roller supporting shaft is fixedly connected with the lower end face of the first transverse positioning beam; the lower end of the first pinch roller supporting shaft is connected with the first round pinch roller through a rotating shaft.

Preferably, the number of the first left ear blocks and the number of the first right ear blocks are multiple, the first left ear blocks are longitudinally arranged, and the first right ear blocks are longitudinally arranged;

first left ear piece and first right ear piece are rectangle cubic, have all seted up first ear piece recess on the lateral wall of first left ear piece and first right ear piece, first circular pinch roller can be impressed in first ear piece recess.

The utility model has the advantages that:

the utility model provides a super large inclination material promotes conveying equipment can realize the airtight transport among the material transportation process, satisfies green's requirement, also can reduce the material transportation loss simultaneously. The conveying angle is large, the conveying distance can be shortened, and the land use area is reduced. The utility model provides a conveying equipment has the crooked ability of level and vertical direction, arranges in a flexible way, and reducible transportation node is particularly suitable for the space region that the topography is complicated, the barrier is many. The equipment can be used for long-distance large-volume cross-country transportation, is widely applied to coal washery and thermal power plants, can be laid along the ground surface during installation, and does not need to dig ditches or tunnels. The equipment has the advantages of a common belt conveyor, and has the advantages of reliable operation, low noise, low energy consumption, no deviation, no fear of wind and rain, and no need of a hood.

Drawings

In order to clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of a material lifting and conveying device with an ultra-large inclination angle.

Fig. 2 is a schematic view of a first transitional closing mechanism and a lower loading part connecting structure.

FIG. 3 is a schematic structural diagram of a part of a material lifting and conveying device with an ultra-large inclination angle.

Fig. 4 is a schematic illustration of the structural location of the conveyor belt and the second hugging idler assembly within the first transition closed section.

Fig. 5 is a schematic illustration of the structural location of the conveyor belt and the second hugging idler assembly within the third inclined main line section.

Fig. 6 is a schematic illustration of the structural location of the conveyor belt and the second hugging idler assembly within the fifth loosening transition.

Figure 7 is a schematic view of the structural positions of the second hugging idler assembly and the first pinch roller assembly.

Fig. 8 is a schematic view of the connection structure of the conveyor belt, the first left ear block and the first right ear block.

Detailed Description

The utility model provides a super large inclination material promotes conveying equipment, for making the utility model discloses a purpose, technical scheme and effect are clearer, more clear and definite, following right the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The present invention will be described in detail with reference to the accompanying drawings:

example 1

With reference to fig. 1 to 8, a material lifting and conveying device with an ultra-large inclination angle comprises a conveyor, wherein the conveyor comprises a conveying frame 1 and a conveying belt 2. The conveying frame 1 comprises a lower loading part 3, a middle lifting part 4 and an upper discharging part 5, wherein a first transition closing mechanism 6, a second lifting and clasping mechanism 7 and a third transition loosening mechanism 8 which are used for supporting the conveying belt 2 are respectively arranged in the lower loading part 3, the middle lifting part 4 and the upper discharging part 5.

Two side ends of the conveying belt 2 are connected with a plurality of groups of first lug assemblies, and each first lug assembly comprises a first left lug 21 and a first right lug 22; a plurality of groups of first pinch roller mechanisms 9 are arranged in the lifting part of the conveying frame 1, and each group of first pinch roller mechanisms 9 comprises two first pinch roller assemblies 91.

After the conveying belt 2 is guided to be a closed circular belt through the first transition closing mechanism 6, the second lifting and clasping mechanism 7 clasps the conveying belt 2, and the first left ear block 21 and the first right ear block 22 are butted and pressed and positioned through the two first pressing wheel assemblies 91.

The conveyor also comprises a transmission roller mechanism 11 and a lower carrier roller mechanism 12 for supporting the conveyor belt 2, a first direction-changing roller assembly 13 is arranged at the front end of the lower part of the conveyor frame 1, and a second direction-changing roller assembly 14 is arranged at the rear end of the upper part of the conveyor frame 1. The first direction-changing roller assembly 13 is positioned at the front end of the first transition closing mechanism 6, the second direction-changing roller assembly 14 is positioned at the rear end of the third transition loosening mechanism 8, and the rear end of the first direction-changing roller assembly 13 is connected with a first buffer roller 131.

The conveying belt 2 forms a closed loop type conveying belt capable of conveying materials through the positioning of the transmission roller mechanism 11, the lower supporting roller mechanism 12, the first direction-changing roller assembly 13, the second direction-changing roller assembly 14 and the conveying frame 1. The lower loading part 3 comprises at least two groups of first loading support frames 31, the first loading support frames 31 are in a U-shaped frame shape, and a group of first transition closing mechanisms 6 are arranged on each group of first loading support frames 31.

The first transition closing mechanism 6 includes three sets of first transition idler assemblies 61, and the three sets of first transition idler assemblies 61 are connected at the bottom end, the left lower end and the right lower end of the first loading support frame 31 respectively through first idler brackets 62. The middle lifting part 4 comprises a first lifting chassis mechanism 41 for connecting the second lifting clasping mechanism 7 and a first lifting top frame mechanism 42 for connecting the first pressing wheel mechanism 9.

After the first lifting top frame mechanism 42 is adaptively connected to the upper end of the first lifting top frame mechanism 41, a conveying cavity for conveying the rack is formed between the first lifting bottom frame mechanism 41 and the first lifting top frame mechanism 42. The first lifting chassis mechanism 41 comprises a first transition closing section 43, a second concave curved section 44, a third inclined main line section 45, a fourth convex curved section 46 and a fifth releasing transition section 47.

The first transition closing section 43 includes a plurality of first transition support frames 431, the plurality of first transition support frames 431 are arranged in a longitudinal and parallel arrangement, and each first transition support frame 431 is connected with a group of second lifting clasping mechanisms 7. The second concave curved section 44 includes three second concave curved supports 441, and the three second concave curved supports 441 are arranged in an arc shape; each second concave curve support frame 441 is connected with a group of second lifting clasping mechanisms 7.

The third inclined main line section 45 includes a plurality of third inclined support frames 451, the plurality of third inclined support frames 451 being inclined and arranged in parallel with each other; a set of second lifting clasping mechanisms 7 is attached to each third inclined support frame 451. The fourth convex curved section 46 includes three fourth convex curved support frames, and the three fourth convex curved support frames are arranged in an arc shape; and each fourth convex curve supporting frame is connected with a group of second lifting and clasping mechanisms 7.

The fifth release transition section 47 includes a plurality of fifth release supports 471, and the plurality of fifth release supports 471 are arranged in a longitudinal and parallel arrangement. The first transition support frame 431, the second concave curve support frame 441, the third inclined support frame 451, the fourth convex curve support frame 461 and the fifth release support frame 471 are all in a U-shaped frame shape.

The second lifting and clasping mechanism 7 comprises five second clasping carrier roller assemblies 71, and the five second clasping carrier roller assemblies 71 are respectively connected to the bottom end, the left lower end, the right lower end, the left upper end and the right upper end of the circular belt-shaped conveying belt 2; the five second clamping idler assemblies 71 are connected with the conveying frame 1 in a positioning mode through second idler brackets 72.

The upper discharging part 5 comprises at least two groups of first discharging support frames 51, a group of third transition loosening mechanisms 8 are arranged on each group of first discharging support frames 1, and the first discharging support frames 1 are in a U-shaped frame shape. The third transition loosening mechanism 8 comprises three third loosening idler assemblies 81, and the three third loosening idler assemblies 81 are connected to the bottom end, the left lower end and the right lower end of the first discharging support frame 51 through third idler brackets 82 respectively.

The first lifting top frame mechanism 42 comprises a first arc-shaped positioning beam 421, and the first arc-shaped positioning beam 421 is connected with the first lifting bottom frame mechanism 41 through a plurality of first cross positioning beams 422. The lower end of each first transverse positioning beam 422 is connected with a group of first pinch roller mechanisms 9, and the two first pinch roller assemblies 91 are respectively arranged on two sides of the first arc-shaped positioning beam 421.

The first pinch roller assembly 91 comprises a first pinch roller support shaft 911 and a first circular pinch roller 912, the upper end of the first pinch roller support shaft 911 is fixedly connected with the lower end face of the first transverse positioning beam 422, and the lower end of the first pinch roller support shaft 911 is connected with the first circular pinch roller 912 through a rotating shaft.

First left ear piece 21 and first right ear piece 22 all have a plurality ofly, and a plurality of first left location 21 pieces are vertically arranged, and a plurality of first right ear pieces 22 are vertically arranged. First left ear piece 21 and first right ear piece 22 are trapezoidal cubic, have all seted up first ear piece recess 23 on the lateral wall of first left ear piece 21 and first right ear piece 22, have a certain interval between the adjacent ear piece of homonymy to the conveyer belt can pass through the rotary drum smoothly, first circular pinch roller 912 can impress in first ear piece recess 23.

Example 2

Among the above-mentioned material hoisting device, according to the process of material transport, at first the material is loaded to the conveyer belt at loading section department, installs first snub pulley below the conveyer belt here, plays the effect that the buffering material impacted equipment.

When the conveyor belt passes through the closed transition section, that is, the tightening stage of the first transitional closing mechanism 6, in actual use, there are three groups of the first transitional closing mechanisms 6. The first transition closing mechanism 6 in three groups packs up the conveyer belt continuously, and the grooving angles of three groups of carrier rollers increase continuously, finally close to become the pipe.

When the conveying belt reaches the first transition closed section of the middle lifting part, the lug grooves on the two side edges of the conveying belt are closed together by the pressing wheels, so that the cross section of the conveying belt forms a circular tube shape, and the supporting carrier rollers of the conveying belt at the section are replaced by five carrier roller groups.

After the sealing is completed, the conveyor belt passes through a first transition sealing section 43, a second concave curve bending section 44, a third inclined main line section 45, a fourth convex curve bending section 46 and a fifth releasing transition section 47 in sequence.

The spacing between the carrier rollers of the third inclined main line section 45 is arranged according to the actual situation on site, the closed relation between the two side edges of the conveying belt is released by a round pipe at the tail of the fifth release transition section 47, the five carrier roller groups are changed into three carrier roller groups, and the forming angle is gradually reduced. The conveyor belt then reaches an upper discharge section where it is gradually flattened and discharged at an end discharge drum.

The utility model provides a super large inclination material promotes conveying equipment can realize airtight transport among the material transportation process, also can reduce the material transportation unrestrained along the way simultaneously, satisfies green's requirement. The conveying angle is large, the conveying distance can be shortened, and the land use area is reduced. The utility model provides a conveying equipment easily realizes level and vertical direction crooked, arranges in a flexible way, and reducible transportation node is particularly suitable for the space region that the topography is complicated, the barrier is many. The equipment can be used for long-distance large-capacity cross-country transportation, and has wide application prospects in coal washery and thermal power plants.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The parts not mentioned in the utility model can be realized by adopting or using the prior art for reference.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims (10)

1. A material lifting conveying device with an ultra-large inclination angle comprises a conveyor, wherein the conveyor comprises a conveying frame and a conveying belt, and is characterized in that the conveying frame comprises a lower loading part, a middle lifting part and an upper discharging part, and a first transition closing mechanism, a second lifting tightening mechanism and a third transition loosening mechanism which are used for supporting the conveying belt are respectively arranged in the lower loading part, the middle lifting part and the upper discharging part;

a plurality of groups of first lug assemblies are connected to two side ends of the conveying belt, and each first lug assembly comprises a first left lug and a first right lug; a plurality of groups of first pinch roller mechanisms are arranged in the lifting part of the conveying frame, and each group of first pinch roller mechanisms comprises two first pinch roller assemblies; after the conveyer belt passes through the direction of first transition closing mechanism and becomes confined circular area, the second promotes and embraces the mechanism and embrace the conveyer belt tightly, and first left ear piece and first right ear piece butt joint to compress tightly the location through two first pinch roller subassemblies.

2. The material lifting conveying equipment with the ultra-large inclination angle according to claim 1, wherein the conveyor further comprises a transmission roller mechanism and a lower carrier roller mechanism for supporting the conveying belt, a first direction-changing roller assembly is arranged at the front end of the lower part of the conveying frame, and a second direction-changing roller assembly is arranged at the rear end of the upper part of the conveying frame;

the first direction-changing roller assembly is positioned at the front end of the first transition closing mechanism, and the second direction-changing roller assembly is positioned at the rear end of the third transition loosening mechanism; the conveying belt is positioned by the transmission roller mechanism, the lower carrier roller mechanism, the first direction-changing roller assembly, the second direction-changing roller assembly and the conveying frame to form a closed loop conveying belt capable of conveying materials.

3. The material lifting conveying device with the ultra-large inclination angle as claimed in claim 1, wherein the lower loading part comprises at least two groups of first loading support frames, the first loading support frames are in a U-shaped frame shape, and each group of first loading support frames is provided with a group of first transition closing mechanisms;

the first transition closing mechanism comprises three groups of first transition carrier roller assemblies, and the three groups of first transition carrier roller assemblies are respectively connected to the bottom end, the left lower end and the right lower end of the first loading support frame through first carrier roller supports; the rear end of the first direction-changing roller assembly is connected with a first buffer carrier roller.

4. The material lifting and conveying equipment with the ultra-large inclination angle of claim 1, wherein the middle lifting part comprises a first lifting underframe mechanism used for connecting the second lifting clasping mechanism and a first lifting top frame mechanism used for connecting the first pressing wheel mechanism;

after the first lifting top frame mechanism is connected to the upper end of the first lifting top frame mechanism in an adaptive mode, a conveying cavity for a conveying frame is formed between the first lifting bottom frame mechanism and the first lifting top frame mechanism.

5. The material lifting and conveying device with the ultra-large inclination angle of claim 4, wherein the first lifting underframe mechanism comprises a first transition closing section, a second concave curve bending section, a third inclined main line section, a fourth convex curve bending section and a fifth release transition section;

the first transition closing section comprises a plurality of first transition support frames which are arranged longitudinally and mutually parallel; each first transition support frame is connected with a group of second lifting and clasping mechanisms;

the second concave curve bending section comprises three second concave curve supporting frames which are arranged in an arc shape; each second concave curve supporting frame is connected with a group of second lifting and clasping mechanisms;

the third inclined main line section comprises a plurality of third inclined support frames, and the third inclined support frames are inclined and arranged in parallel; each third inclined support frame is connected with a group of second lifting and clasping mechanisms;

the fourth convex curve bending section comprises three fourth convex curve supporting frames which are arranged in an arc shape; each fourth convex curve supporting frame is connected with a group of second lifting and clasping mechanisms;

the fifth loosening transition section comprises a plurality of fifth loosening support frames, and the fifth loosening support frames are arranged longitudinally and mutually parallel;

the first transition support frame, the second concave curve support frame, the third inclined support frame, the fourth convex curve support frame and the fifth loosening support frame are all in a U-shaped frame shape.

6. The material lifting conveying equipment with the ultra-large inclination angle according to claim 1 or 5, wherein the second lifting and clasping mechanism comprises five second clasping carrier roller assemblies, and the five second clasping carrier roller assemblies are respectively connected to the bottom end, the left lower end, the right lower end, the left upper end and the right upper end of the circular belt-shaped conveying belt; the five second clasping carrier roller assemblies are connected with the conveying frame in a positioning mode through the second carrier roller supports.

7. The material lifting conveying device with the ultra-large inclination angle as claimed in claim 1, wherein the upper discharging part comprises at least two groups of first discharging support frames, each group of first discharging support frames is provided with a group of third transition releasing mechanisms, and the first discharging support frames are in a U-shaped frame shape;

the third transition loosening mechanism comprises three third loosening carrier roller assemblies, and the three third loosening carrier roller assemblies are connected to the bottom end, the left lower end and the right lower end of the first discharging support frame through third carrier roller supports respectively.

8. The material lifting and conveying equipment with the ultra-large inclination angle as claimed in claim 4, wherein the first lifting top frame mechanism comprises a first arc-shaped positioning beam, and the first arc-shaped positioning beam is connected with the first lifting bottom frame mechanism through a plurality of first transverse positioning beams; the lower end of each first transverse positioning beam is connected with a group of first pinch roller mechanisms, and two first pinch roller assemblies in each group of first pinch roller mechanisms are respectively arranged on two sides of the first arc-shaped positioning beam.

9. The material lifting conveying device with the ultra-large inclination angle as recited in claim 8, wherein the first pinch roller assembly comprises a first pinch roller support shaft and a first circular pinch roller, and the upper end of the first pinch roller support shaft is fixedly connected with the lower end surface of the first transverse positioning beam; the lower end of the first pinch roller supporting shaft is connected with the first round pinch roller through a rotating shaft.

10. The material lifting and conveying device with the ultra-large inclination angle of claim 9, wherein a plurality of first left lug blocks and a plurality of first right lug blocks are arranged longitudinally, and a plurality of first right lug blocks are arranged longitudinally;

first left ear piece and first right ear piece are rectangle cubic, have all seted up first ear piece recess on the lateral wall of first left ear piece and first right ear piece, first circular pinch roller can be impressed in first ear piece recess.

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