CN109850544B - Fan-shaped combination formula passes material support - Google Patents

Abstract

The invention relates to a fan-shaped combined type material conveying bracket, which is characterized in that: the novel fan-shaped plate comprises an upper fan-shaped plate body (1), a lower fan-shaped plate body (2) and a plurality of supporting columns (3) positioned between the upper fan-shaped plate body (1) and the lower fan-shaped plate body (2), wherein mounting mechanisms (4) are respectively arranged at the centers of two sides of the lower surface of the upper fan-shaped plate body (1) and close to fan-shaped edges and at the centers of two sides of the upper surface of the lower fan-shaped plate body (2) and close to fan-shaped edges; the defects that cost is increased and waste is caused due to the fact that a special reversing material conveying support needs to be arranged according to the size of a corner independently every time the material conveying support passes through one corner position in the prior art are overcome; the change of the positions and the directions of different corners can be realized by combining different numbers of the fan-shaped combined material conveying brackets according to the actual sizes of the corners.

Description

Fan-shaped combination formula passes material support

Technical Field

The invention relates to a material conveying bracket, in particular to a fan-shaped combined type material conveying bracket.

Background

In the prior art, the material conveying support is often formed into a square or rectangular form, when materials are transferred and conveyed, the material conveying line is often long, when the material conveying requirement of a corner is met, the best reversing material conveying support cannot be provided according to the actual size and direction of the corner, the reversing material conveying support is often required to be specially designed according to the actual size and direction of the corner, and after the actual size and direction of the next corner are changed, the original reversing material conveying support cannot be reused, so that the cost is increased, and waste is caused. Therefore, it is desirable to provide a combined material conveying bracket which can be combined with each other to change the direction according to the actual size of the corner.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a fan-shaped combined type material conveying bracket.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a fan-shaped combination formula passes material support which characterized in that: the fan-shaped plate comprises an upper fan-shaped plate body, a lower fan-shaped plate body and a plurality of supporting columns positioned between the upper fan-shaped plate body and the lower fan-shaped plate body, wherein mounting mechanisms are respectively arranged at the centers of two sides of the lower surface of the upper fan-shaped plate body and close to the fan-shaped edge and at the centers of two sides of the upper surface of the lower fan-shaped plate body and close to the fan-shaped edge; the mounting mechanism comprises an upper mounting plate, a rectangular groove is formed below the upper mounting plate, the lower surface of the rectangular groove is formed into a lower mounting plate, a plurality of mounting through holes are formed in the upper mounting plate side by side, a plurality of mounting blind holes are formed in the lower mounting plate side by side, and the position of each mounting through hole corresponds to the position of each mounting blind hole one by one; the two sides of the mounting mechanisms are respectively provided with lugs, the middle position of each lug is respectively provided with a lug through hole, the left end and the right end of the middle positioning mounting plate are respectively positioned in the rectangular grooves of the two mounting mechanisms which are adjacent to each other on the left side and the right side, the middle positioning mounting plate is correspondingly provided with a plurality of positioning through holes, a plurality of mounting screws sequentially pass through the plurality of mounting through holes arranged on the upper mounting plate, then pass through the plurality of positioning through holes correspondingly arranged on the middle positioning mounting plate, and finally enter the plurality of mounting blind holes arranged on the lower mounting plate, and the lug bolts respectively pass through the lug through holes of the corresponding lugs of the two mounting mechanisms which are adjacent to each other on the left side and the right side and are locked by lug screw caps; axial displacement sensor mounting blind holes are respectively formed in the upper surface and the lower surface of the middle positioning mounting plate, and axial displacement sensors are correspondingly mounted in the axial displacement sensor mounting blind holes; the front surface and the rear surface of the middle positioning mounting plate are respectively provided with a radial displacement sensor mounting blind hole, and a radial displacement sensor is correspondingly mounted in the radial displacement sensor mounting blind hole; the left and right surfaces of the middle positioning mounting plate are respectively provided with a circumferential displacement sensor mounting blind hole, a circumferential displacement sensor is correspondingly mounted in the circumferential displacement sensor mounting blind hole, the axial displacement sensor, the radial displacement sensor and the circumferential displacement sensor are respectively connected with an external controller in a wireless communication mode, and mounting protrusions and mounting grooves are respectively arranged on two sides of the mounting mechanism and on two side faces of the upper fan-shaped plate body and the lower fan-shaped plate body.

Furthermore, the support column is provided with 3, and is located the centre of a circle position of last sector plate body and lower sector plate body and the intersection point position of the radius of last sector plate body and lower sector plate body and circular arc respectively.

Furthermore, the axial directions of the mounting through holes and the mounting blind holes are parallel to the axial direction of the support column; the axial direction of the lug through hole is vertical to the side direction of the corresponding radius of the upper sector plate body and the lower sector plate body.

Further, the radial outer side and the radial inner side of the mounting mechanism formed by splicing two adjacent fan-shaped combined type material conveying brackets are opposite in the direction of the lug bolts penetrating into and penetrating out of the lug through holes.

Furthermore, the height of the plane of the lower mounting plate is slightly higher than that of the plane of the upper surface of the lower sector plate.

Furthermore, a mounting bulge is convexly arranged on the radial inner side of the mounting mechanism on the plane of the radius of one side of the upper sector plate body and along the plane of the radius of the side of the upper sector plate body; a mounting groove is further concavely arranged on the radial outer side of the mounting mechanism of the plane where the radius of one side of the upper sector plate is located and along the plane where the radius of the side of the upper sector plate is located; a mounting groove is further arranged on the radial inner side of the mounting mechanism of the plane where the radius of the other side of the upper sector plate is located and in a concave manner along the plane where the radius of the one side of the upper sector plate is located; and a mounting bulge is also convexly arranged on the radial outer side of the mounting mechanism of the plane of the radius of the other side of the upper sector plate body and along the plane of the radius of the one side of the upper sector plate body.

Furthermore, an installation groove is further concavely arranged on the radial inner side of the installation mechanism of the plane of the radius of one side of the lower fan-shaped plate body and along the plane of the radius of the side of the lower fan-shaped plate body; a mounting bulge is also convexly arranged on the radial outer side of the mounting mechanism of the plane of the radius of one side of the lower fan-shaped plate body and along the plane of the radius of the side of the lower fan-shaped plate body; a mounting bulge is also convexly arranged on the radial inner side of the mounting mechanism of the plane where the radius of the other side of the lower fan-shaped plate body is located and along the plane where the radius of the one side of the lower fan-shaped plate body is located; and a mounting groove is further concavely arranged on the radial outer side of the mounting mechanism of the plane of the radius of the other side of the lower fan-shaped plate body and along the plane of the radius of the side of the lower fan-shaped plate body.

Furthermore, a judging unit is arranged in the external controller, an axial displacement threshold value, a radial displacement threshold value and a circumferential displacement threshold value are preset in the judging unit, the judging unit sequentially judges whether the axial displacement detection value is within the range of the axial displacement threshold value, whether the radial displacement detection value is within the range of the radial displacement threshold value and whether the circumferential displacement detection value is within the range of the circumferential displacement threshold value according to a preset sequence, if and only if the judging results are all established, the external controller is used for confirming that the external controller is installed in place, and if any judging result is not established, an alarm is given to a user through the external controller.

Further, the preset sequence according to which the judging unit judges is preset in the external controller by a user and can be adjusted by the user.

Further, the fan-shaped angle of each fan-shaped combined type material conveying bracket is 25-30 degrees.

The invention has the beneficial effects that:

(1) the fan-shaped combined material conveying bracket provided by the invention avoids the defects that the cost is increased and waste is caused because a special reversing material conveying bracket needs to be arranged according to the size of a corner after passing through the position of the corner in the prior art; the change of the positions and the directions of different corners can be realized by combining different numbers of the fan-shaped combined material conveying brackets according to the actual sizes of the corners.

(2) Through the axial displacement sensor who sets up on middle location mounting panel, radial displacement sensor, and circumference displacement sensor, and be connected with external control ware through with them with wireless communication mode respectively, thereby on guaranteeing two adjacent fan-shaped combination formula biography material support firm in connection's basis, avoid leading to passing the material unstability because of connecting too loose, thereby lead to the combination formula to pass the material support and finally break away from each other and influence the material transmission, also avoid simultaneously constituting the potential safety hazard to middle location mounting panel and each sensor on it because of connecting too tightly, thereby the life of each sensor on the location mounting panel in the middle of the influence and on it.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of a fan-shaped combined material conveying bracket according to the present invention;

FIG. 2 is a schematic view of the structure of a fan-shaped combined material conveying bracket mounting middle positioning mounting plate, a lug bolt and a lug nut of the present invention;

FIG. 3 is a schematic structural view of a middle positioning and mounting plate of a fan-shaped combined material conveying bracket according to the present invention;

fig. 4 is a schematic structural view of two adjacent fan-shaped combined type material conveying brackets which are arranged together.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-4, a fan-shaped combined material conveying bracket comprises an upper fan-shaped plate body 1, a lower fan-shaped plate body 2, and a plurality of supporting columns 3 positioned between the upper fan-shaped plate body 1 and the lower fan-shaped plate body 2, wherein mounting mechanisms 4 are respectively arranged at the centers of two sides of the lower surface of the upper fan-shaped plate body 1 and near the fan-shaped edges, and at the centers of two sides of the upper surface of the lower fan-shaped plate body 2 and near the fan-shaped edges; the mounting mechanism 4 comprises an upper mounting plate 41, a rectangular groove 44 is formed below the upper mounting plate 41, the lower surface of the rectangular groove 44 is formed into a lower mounting plate 42, a plurality of mounting through holes 411 are formed in the upper mounting plate 41 side by side, a plurality of mounting blind holes 421 are formed in the lower mounting plate 42 side by side, and the positions of the mounting through holes 411 correspond to the positions of the mounting blind holes 421 one by one; the two sides of the mounting mechanisms 4 are respectively provided with lugs 43, the middle position of each lug 43 is respectively provided with a lug through hole 431, the left and right ends of the middle positioning mounting plate 7 are respectively positioned in the rectangular grooves 44 of the two mounting mechanisms 4 adjacent to the left and right, the middle positioning mounting plate 7 is correspondingly provided with a plurality of positioning through holes 71, a plurality of mounting screws 412 sequentially pass through a plurality of mounting through holes 411 arranged on the upper mounting plate 41, then pass through a plurality of positioning through holes 71 correspondingly arranged on the middle positioning mounting plate 7, and finally enter a plurality of mounting blind holes 421 arranged on the lower mounting plate 42, and the lug bolts 432 are respectively locked by lug screw caps 433 after passing through the lug through holes 431 of the corresponding lugs 43 of the two mounting mechanisms 4 adjacent to the left and right; axial displacement sensor mounting blind holes 72 are respectively formed in the upper surface and the lower surface of the middle positioning mounting plate 7, and axial displacement sensors are correspondingly mounted in the axial displacement sensor mounting blind holes 72; the front surface and the rear surface of the middle positioning and mounting plate 7 are respectively provided with a radial displacement sensor mounting blind hole 73, and a radial displacement sensor is correspondingly mounted in the radial displacement sensor mounting blind hole 73; the left and right surfaces of the middle positioning and mounting plate 7 are respectively provided with a circumferential displacement sensor mounting blind hole 74, a circumferential displacement sensor is correspondingly mounted in the circumferential displacement sensor mounting blind hole 74, the axial displacement sensor, the radial displacement sensor and the circumferential displacement sensor are respectively connected with an external controller 8 in a wireless communication mode, and mounting protrusions 5 and mounting grooves 6 are respectively arranged on two sides of the mounting mechanism 4 and along two side surfaces of the upper sector plate 1 and the lower sector plate 2.

The fan-shaped combined material conveying bracket provided by the invention avoids the defects that the cost is increased and waste is caused because a special reversing material conveying bracket needs to be arranged according to the size of a corner after passing through the position of the corner in the prior art; the change of the positions and the directions of different corners can be realized by combining different numbers of the fan-shaped combined material conveying brackets according to the actual sizes of the corners; through the axial displacement sensor who sets up on middle location mounting panel, radial displacement sensor, and circumference displacement sensor, and be connected with external control ware through with them with wireless communication mode respectively, thereby on guaranteeing two adjacent fan-shaped combination formula biography material support firm in connection's basis, avoid leading to passing the material unstability because of connecting too loose, thereby lead to the combination formula to pass the material support and finally break away from each other and influence the material transmission, also avoid simultaneously constituting the potential safety hazard to middle location mounting panel and each sensor on it because of connecting too tightly, thereby the life of each sensor on the location mounting panel in the middle of the influence and on it.

Specifically, support column 3 is provided with 3, and is located the centre of a circle position of sector plate 1 and lower sector plate 2 respectively and goes up sector plate 1 and down sector plate 2's radius and the nodical position of circular arc to when guaranteeing to the last sector plate 1 of single fan-shaped combination formula biography material support and the supporting effect of sector plate 2 down, after two adjacent fan-shaped combination formula biography material supports are pieced together, also can guarantee to have sufficient support intensity in the position of assembling.

Specifically, the axial directions of the mounting through hole 411 and the mounting blind hole 421 are parallel to the axial direction of the support column 3; the axial direction of the lug through hole 431 is vertical to the side direction of the corresponding radius of the upper sector plate 1 and the lower sector plate 2, so that the connection stability of splicing two adjacent sector combined type material conveying brackets together is ensured in different directions.

Specifically, at the radial outside and the radial inside of the installation mechanism 4 that two adjacent fan-shaped combined type material conveying supports are spliced together, the directions in which the lug bolts 432 penetrate into and penetrate out of the lug through holes 431 are opposite, so that the balance of stress and displacement in the circumferential direction after two adjacent fan-shaped combined type material conveying supports are spliced together is ensured, and the service life of the fan-shaped combined type material conveying supports is prevented from being influenced by overlarge displacement caused by overlarge unidirectional stress.

Specifically, the height of the plane of the lower mounting plate 42 is slightly higher than the height of the plane of the upper surface of the lower sector plate body 2, and the height difference provides a mounting space for the installation of the mounting screws 412, so that the mounting screws 412 are prevented from directly extending into the upper surface of the lower sector plate body 2, and the service life of the lower sector plate body 2 is prevented from being influenced.

Specifically, a mounting protrusion 5 is further convexly arranged on the radial inner side of the mounting mechanism 4 on the plane of the radius of one side of the upper sector plate 1 along the plane of the radius of the side of the upper sector plate 1; a mounting groove 6 is further concavely arranged on the radial outer side of the mounting mechanism 4 of the plane of the radius of one side of the upper sector plate 1 and along the plane of the radius of the side of the upper sector plate 1; a mounting groove 6 is further concavely arranged on the radial inner side of the mounting mechanism 4 of the plane where the radius of the other side of the upper sector plate 1 is located and along the plane where the radius of the side of the upper sector plate 1 is located; the radial outside of the planar installation mechanism 4 of opposite side radius place of last sector plate body 1, along this side radius place plane of last sector plate body 1 still the protrusion is provided with installation arch 5 to when guaranteeing that two adjacent fan-shaped combination formula biography material supports assemble together, the installation arch 5 that is located adjacent position stretches into corresponding mounting groove 6, thereby when guaranteeing to assemble firmly, makes atress and corresponding displacement even, guarantees the life of fan-shaped combination formula biography material support.

Specifically, a mounting groove 6 is further concavely arranged on the radial inner side of the mounting mechanism 4 on the plane of the radius of one side of the lower sector plate body 2 and along the plane of the radius of the side of the lower sector plate body 2; a mounting bulge 5 is also convexly arranged on the radial outer side of the mounting mechanism 4 on the plane of the radius of one side of the lower fan-shaped plate body 2 and along the plane of the radius of the side of the lower fan-shaped plate body 2; a mounting bulge 5 is also convexly arranged on the radial inner side of the mounting mechanism 4 on the plane of the radius of the other side of the lower sector plate body 2 and along the plane of the radius of the side of the lower sector plate body 2; the radial outside of the planar installation mechanism 4 of the radius of the other side of the lower sector plate body 2, the plane of the radius of the side of the lower sector plate body 2 are also provided with an installation groove 6 in an inwards concave manner, so that when two adjacent fan-shaped combined material conveying supports are assembled together, the installation bulge 5 positioned at the adjacent position extends into the corresponding installation groove 6, thereby ensuring that the assembly is firm, ensuring that the stress and the corresponding displacement are uniform, and ensuring the service life of the fan-shaped combined material conveying supports.

Specifically, a judging unit is arranged inside the external controller 8, an axial displacement threshold value, a radial displacement threshold value and a circumferential displacement threshold value are preset in the judging unit, the judging unit sequentially judges whether an axial displacement detection value is in an axial displacement threshold value range, whether a radial displacement detection value is in a radial displacement threshold value range and whether a circumferential displacement detection value is in a circumferential displacement threshold value range according to a preset sequence, if and only if the judging results are all established, the installation is determined to be in place, and if any one of the judging results is not established, an alarm is sent to a user through the external controller 8, so that on the basis that two adjacent fan-shaped combined material conveying supports are firmly connected, the phenomenon that the material conveying is unstable due to loose connection, the combined material conveying supports are finally separated from each other to influence material conveying is avoided, and meanwhile, the phenomenon that the intermediate positioning mounting plate and each sensor on the intermediate positioning mounting plate form a potential safety hazard due to over-tight connection is avoided, thereby affecting the service life of the intermediate locating mounting plate and the various sensors thereon.

Specifically, the preset sequence according to which the judgment unit judges is preset in the external controller 8 by the user and can be adjusted by the user, so that different adjustment requirements of the user can be satisfied.

Specifically, the fan-shaped angle of each fan-shaped combined type material conveying support is 25-30 degrees, and a user can conveniently change the material conveying directions of different corner positions by combining different numbers of the fan-shaped combined type material conveying supports according to the actual sizes of the corners.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. The utility model provides a fan-shaped combination formula passes material support which characterized in that: the novel fan-shaped plate comprises an upper fan-shaped plate body (1), a lower fan-shaped plate body (2) and a plurality of supporting columns (3) positioned between the upper fan-shaped plate body (1) and the lower fan-shaped plate body (2), wherein mounting mechanisms (4) are respectively arranged at the centers of two sides of the lower surface of the upper fan-shaped plate body (1) and close to fan-shaped edges and at the centers of two sides of the upper surface of the lower fan-shaped plate body (2) and close to fan-shaped edges; the mounting mechanism (4) comprises an upper mounting plate (41), a rectangular groove (44) is formed below the upper mounting plate (41), the lower surface of the rectangular groove (44) forms a lower mounting plate (42), a plurality of mounting through holes (411) are formed in the upper mounting plate (41) side by side, a plurality of mounting blind holes (421) are formed in the lower mounting plate (42) side by side, and the position of each mounting through hole (411) corresponds to the position of each mounting blind hole (421) one by one; the two sides of the mounting mechanism (4) are respectively provided with a lug (43), the middle position of each lug (43) is respectively provided with a lug through hole (431), the left end and the right end of the middle positioning mounting plate (7) are respectively positioned in the rectangular grooves (44) of the two adjacent mounting mechanisms (4) at the left side and the right side, the middle positioning mounting plate (7) is correspondingly provided with a plurality of positioning through holes (71), a plurality of mounting screws (412) sequentially pass through a plurality of mounting through holes (411) arranged on the upper mounting plate (41), then pass through a plurality of positioning through holes (71) correspondingly arranged on the middle positioning mounting plate (7) and finally enter a plurality of mounting blind holes (421) arranged on the lower mounting plate (42), and lug bolts (432) respectively pass through the lug through holes (431) of the corresponding lugs (43) of the two adjacent mounting mechanisms (4) at the left side and the right side, then, the locking is carried out through a lug nut (433); axial displacement sensor mounting blind holes (72) are respectively formed in the upper surface and the lower surface of the middle positioning mounting plate (7), and axial displacement sensors are correspondingly mounted in the axial displacement sensor mounting blind holes (72); the front surface and the rear surface of the middle positioning mounting plate (7) are respectively provided with a radial displacement sensor mounting blind hole (73), and a radial displacement sensor is correspondingly mounted in the radial displacement sensor mounting blind hole (73); the left surface and the right surface of the middle positioning mounting plate (7) are respectively provided with a circumferential displacement sensor mounting blind hole (74), a circumferential displacement sensor is correspondingly mounted in the circumferential displacement sensor mounting blind hole (74), the axial displacement sensor, the radial displacement sensor and the circumferential displacement sensor are respectively connected with an external controller (8) in a wireless communication mode, and mounting protrusions (5) and mounting grooves (6) are respectively arranged on two sides of the mounting mechanism (4) and along two side surfaces of the upper fan-shaped plate body (1) and the lower fan-shaped plate body (2);

a judging unit is arranged in the external controller (8), an axial displacement threshold value, a radial displacement threshold value and a circumferential displacement threshold value are preset in the judging unit, the judging unit sequentially judges whether an axial displacement detection value is in an axial displacement threshold value range, whether a radial displacement detection value is in a radial displacement threshold value range and whether a circumferential displacement detection value is in a circumferential displacement threshold value range according to a preset sequence, if and only if the judging results are all established, the external controller (8) is used for giving an alarm to a user;

the preset sequence according to which the judging unit judges is preset in the external controller (8) by a user and can be adjusted by the user.

2. The sector combined type material conveying bracket as claimed in claim 1, wherein: the support column (3) is provided with 3, and is located the centre of a circle position of last sector plate body (1) and lower sector plate body (2) and the nodical position of radius and the circular arc of last sector plate body (1) and lower sector plate body (2) respectively.

3. The sector combined type material conveying bracket as claimed in claim 1, wherein: the axial directions of the mounting through holes (411) and the mounting blind holes (421) are parallel to the axial direction of the supporting column (3); the axial direction of the lug through hole (431) is vertical to the side direction of the corresponding radius of the upper sector plate body (1) and the lower sector plate body (2).

4. The sector combined type material conveying bracket as claimed in claim 1, wherein: the radial outer side and the radial inner side of the mounting mechanism (4) of two adjacent fan-shaped combined type material conveying brackets which are spliced together are opposite in the direction that the lug bolts (432) penetrate into and penetrate out of the lug through holes (431).

5. The sector combined type material conveying bracket as claimed in claim 1, wherein: the height of the plane where the lower mounting plate (42) is located is slightly higher than that of the plane where the upper surface of the lower sector plate body (2) is located.

6. The sector combined type material conveying bracket as claimed in claim 1, wherein: a mounting bulge (5) is arranged on the radial inner side of the mounting mechanism (4) on the plane of the radius of one side of the upper sector plate body (1) in a protruding manner along the plane of the radius of the side of the upper sector plate body (1); a mounting groove (6) is further arranged on the radial outer side of the mounting mechanism (4) of the plane where the radius of one side of the upper sector plate body (1) is located and in a concave manner along the plane where the radius of the side of the upper sector plate body (1) is located; a mounting groove (6) is further arranged on the radial inner side of the mounting mechanism (4) of the plane where the radius of the other side of the upper sector plate body (1) is located and in a concave manner along the plane where the radius of the side of the upper sector plate body (1) is located; and a mounting bulge (5) is also convexly arranged on the radial outer side of the mounting mechanism (4) of the plane where the radius of the other side of the upper sector plate body (1) is located and along the plane where the radius of the side of the upper sector plate body (1) is located.

7. The sector combined type material conveying bracket as claimed in claim 6, wherein: a mounting groove (6) is further concavely arranged on the radial inner side of the mounting mechanism (4) on the plane of the radius of one side of the lower fan-shaped plate body (2) and along the plane of the radius of the side of the lower fan-shaped plate body (2); a mounting bulge (5) is arranged on the radial outer side of the mounting mechanism (4) on the plane of the radius of one side of the lower fan-shaped plate body (2) and is also arranged in a protruding manner along the plane of the radius of the side of the lower fan-shaped plate body (2); a mounting bulge (5) is also convexly arranged on the radial inner side of the mounting mechanism (4) on the plane of the radius of the other side of the lower fan-shaped plate body (2) and along the plane of the radius of the side of the lower fan-shaped plate body (2); and a mounting groove (6) is further concavely arranged on the radial outer side of the mounting mechanism (4) on the plane of the radius of the other side of the lower fan-shaped plate body (2) and along the plane of the radius of the side of the lower fan-shaped plate body (2).

8. The sector combined type material conveying bracket as claimed in claim 1, wherein: the fan-shaped angle of each fan-shaped combined type material conveying bracket is 25-30 degrees.

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