CN217626036U - Double-layer reversing conveying device - Google Patents

Abstract

The utility model relates to a double-layer reversing conveying device, which comprises a forward conveying mechanism, a reverse conveying mechanism and a lifting mechanism; the forward conveying mechanism and the reverse conveying mechanism are both installed on the rack, the forward conveying mechanism is located right above the reverse conveying mechanism, the lifting mechanism is located at the end part of the forward conveying mechanism and the end part of the reverse conveying mechanism, and the lifting mechanism is used for receiving materials conveyed by the forward conveying mechanism and conveying the materials to the reverse conveying mechanism. The utility model discloses be convenient for turn around during transported substance material, and area is little, and the velocity of flow is stable.

Description

Double-layer reversing conveying device

Technical Field

The utility model relates to a conveyor especially relates to a double-deck switching-over conveyor.

Background

A conveyor is a device that transports material from one point to another in a continuous manner along a path.

At present the conveyer belt when carrying goods turn around, need occupy great area, and carry article big more, area is big more, and the conveyer belt can't use the belt drive when the motion of turning around, need set up a plurality of power sources or set up the downhill path and reduce the friction and just can turn around, appears blocking easily, can't smoothly function.

Therefore, the technical personnel in the field are dedicated to develop a double-layer reversing conveying device which is convenient to turn around when conveying materials, small in occupied area and stable in flow speed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a double-deck switching-over conveyor is provided, be convenient for turn around during transported substance material, and area is little, and the velocity of flow is stable.

The utility model provides an above-mentioned technical problem's technical scheme as follows: a double-layer reversing conveying device comprises a forward conveying mechanism, a reverse conveying mechanism and a lifting mechanism;

the forward conveying mechanism and the reverse conveying mechanism are both installed on the rack, the forward conveying mechanism is located right above the reverse conveying mechanism, the lifting mechanism is located at the end part of the forward conveying mechanism and the end part of the reverse conveying mechanism, and the lifting mechanism is used for receiving materials conveyed by the forward conveying mechanism and conveying the materials to the reverse conveying mechanism.

The utility model has the advantages that: after the materials are conveyed to the lifting mechanism through the forward conveying mechanism, the lifting mechanism moves downwards to enable the conveying plane of the lifting mechanism to be parallel to the conveying plane of the reverse conveying mechanism, and the lifting mechanism conveys the materials to the reverse conveying mechanism in a reverse conveying mode, so that the materials are turned around, the occupied area is small, and the flow rate of the materials is stable.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further, the forward conveying mechanism comprises two first support frames which are arranged on the rack in parallel, first rotating shafts are arranged on the two first support frames and positioned at the end parts of the first support frames, and first conveying belts are sleeved outside the first rotating shafts;

the first rotating shaft extends out of the first support frame, a first synchronous wheel is mounted at the end of the first rotating shaft, the first synchronous wheel is connected with the output end of a first power device through a first synchronous belt, the first power device is mounted on the lower side of the forward conveying mechanism, and the first power device rotates to drive the first conveying belt to move forward.

Adopt above-mentioned further scheme's beneficial effect to be that first power device rotates and drives the rotation of first conveyer belt, with the material forward transport on the first conveyer belt to next process.

Further, the reverse conveying mechanism comprises two second supporting frames which are arranged on the rack in parallel, a second rotating shaft is arranged on the two second supporting frames and positioned at the end part of each second supporting frame, and a second conveying belt is sleeved outside each second rotating shaft;

the second rotating shaft extends out of the second supporting frame, a first synchronizing gear is installed at the end of the second rotating shaft, the first synchronizing gear is meshed with a second synchronizing gear, the second synchronizing gear is installed on the first supporting shaft, a second synchronizing wheel is further installed at the end of the first supporting shaft, and the first synchronizing wheel and the second synchronizing wheel are connected through a second synchronous belt.

Adopt above-mentioned further scheme's beneficial effect be that first power device rotates and drives the reverse transport of second hold-in range, makes its first conveyer belt and second conveyer belt synchronous transport material.

Further, the forward conveying mechanism and the reverse conveying mechanism are both provided with flow limiting assemblies.

Adopt above-mentioned further scheme's beneficial effect be that current-limiting component is used for the material to go up and down when reverse, with the material restriction on first conveyer belt and the second conveyer belt flow, be convenient for carry the accuse material.

Further, current-limiting subassembly is including installing third axis of rotation on forward conveying mechanism and the reverse conveying mechanism, the articulated rotation piece one end that is connected with in the third axis of rotation, rotate the piece other end and install the blocking wheel, it is connected with thrust unit's output to rotate a middle part, thrust unit promotes it winds to rotate the piece third axis of rotation is so that the blocking wheel blocks the material.

The thrust device pushes the rotating piece to rotate around the third rotating shaft, so that the blocking wheel blocks and limits the flow of the material, and the material is conveniently conveyed.

Furthermore, the lifting mechanism comprises a support frame, a lifting mechanism is arranged at the upper end of the support frame, the lifting end of the lifting mechanism is connected with a moving assembly, the lifting mechanism acts to drive the moving assembly to move up and down along the support frame, and a reversing mechanism for reversing the materials is further installed on the side wall of the moving assembly.

The beneficial effect who adopts above-mentioned further scheme is that hoist mechanism drives removal subassembly and reversing mechanism and removes to be convenient for accept the material that positive conveying mechanism carried and come, and the switching-over is carried to reverse conveying mechanism in, the further material of being convenient for is carried.

Further, the lifting mechanism comprises a second power device and a fourth rotating shaft which are arranged on the supporting frame, a winding drum is arranged on the fourth rotating shaft, a rope is wound on the winding drum, and the other end of the rope is connected with the moving assembly;

and a third synchronizing wheel is installed at the end part of the fourth rotating shaft, a fourth synchronizing wheel is installed at the output end of the second power device, and the third synchronizing wheel and the fourth synchronizing wheel are connected through a third synchronous belt.

Adopt above-mentioned further scheme's beneficial effect be that second power device rotates and drives the wire winding cylinder and rotate, promotes or descends rope end, and then will remove subassembly and reversing mechanism and promote or descend.

Furthermore, the moving assembly comprises a first fixed frame and a second fixed frame which are positioned at two sides of the support frame, first limiting abutting wheels are respectively arranged on the first fixed frame and the second fixed frame, and the first limiting abutting wheels respectively arranged at two sides of the support frame are respectively abutted against the side wall of the support frame;

the rope end connection device comprises a first fixed frame, a second fixed frame, a connecting rod, a second limiting abutting wheel, a supporting frame side wall abutting joint, a lifting piece and a rope end connection.

Adopt above-mentioned further scheme's beneficial effect be a plurality of equidirectional butt wheels and support frame butt, avoid moving the subassembly and remove the in-process along the support frame and appear shifting, lead to carrying the precision not enough.

Furthermore, the reversing mechanism comprises two third supporting frames which are arranged on the side wall of the second fixed frame in parallel, a fifth rotating shaft is arranged on the two third supporting frames and positioned at the end part of the third supporting frames, and a third conveying belt is sleeved outside the fifth rotating shaft;

the fifth rotating shaft extends out of the third supporting frame, a fifth synchronizing wheel is installed at the end part of the fifth rotating shaft, the fifth synchronizing wheel is connected with the output end of a third power device through a fourth synchronizing belt, the third power device is installed on the lower side of the third supporting frame, and the third power device rotates to drive the third conveying belt to move forwards or reversely.

The beneficial effect who adopts above-mentioned further scheme is that third power device forward rotation or reverse rotation for accept the material that forward conveying mechanism carried and reverse output.

Furthermore, a distribution part is arranged between the rope and the hoisting part.

Adopt the beneficial effect of above-mentioned further scheme to be that the distribution part makes its each hoist and mount piece atress even, avoids removing the uneven jam that appears of subassembly atress.

Drawings

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

fig. 2 is a schematic structural view of a forward conveying mechanism and a reverse conveying mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic view of a current limiting assembly according to an embodiment of the present invention;

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

fig. 5 is a schematic structural view of a lifting mechanism according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a first fixing frame and a second fixing frame according to an embodiment of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a forward conveying mechanism; 2. a reverse conveying mechanism; 3. a lifting mechanism; 4. a frame; 5. a first support frame; 6. a first rotating shaft; 7. a first conveyor belt; 8. a first synchronization wheel; 9. a first synchronization belt; 10. a first power unit; 11. a second support frame; 12. a second rotating shaft; 13. a second conveyor belt; 14. a first synchronizing gear; 15. a second synchronizing gear; 16. a second synchronizing wheel; 17. a first support shaft; 18. a second synchronous belt; 19. a current limiting assembly; 20. a third rotating shaft; 21. a rotating member; 22. a blocking wheel; 23. a thrust device; 24. a support frame; 25. a lifting mechanism; 26. a moving assembly; 27. a reversing mechanism; 28. a second power unit; 29. a fourth rotating shaft; 30. a winding drum; 31. a rope; 32. a fourth synchronizing wheel; 33. a third synchronizing wheel; 34. a third synchronous belt; 35. a first fixed frame; 36. a second fixed frame; 37. a first limit butting wheel; 38. a connecting rod; 39. a second limit butting wheel; 40. a third support frame; 41. a fifth rotating shaft; 42. a third conveyor belt; 43. a fifth synchronizing wheel; 44. a fourth synchronous belt; 45. a third power unit; 46. a dispensing member; 47. and (4) hoisting the piece.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "length", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "inner", "outer", "circumferential", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the system or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.

In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, a double-layer reversing conveying device comprises a forward conveying mechanism 1, a reverse conveying mechanism 2 and a lifting mechanism 3; forward conveying mechanism 1 and reverse conveying mechanism 2 all install in frame 4, and forward conveying mechanism 1 is located reverse conveying mechanism 2 directly over, and elevating system 3 is located forward conveying mechanism 1 and reverse conveying mechanism 2 tip, and elevating system 3 is used for accepting the material that forward conveying mechanism 1 conveyed and carries to reverse conveying mechanism 2 on.

The utility model discloses in, after the material passed through forward conveying mechanism 1 and carried to elevating system 3, elevating system 3 moved down the plane of delivery that makes its elevating system 3 and reverse conveying mechanism 2's plane of delivery parallel back, elevating system 3 reverse transport carried the material to reverse conveying mechanism 2 to turn around the material, area is little, and the material velocity of flow is stable. Meanwhile, the forward conveying mechanism 1 and the reverse conveying mechanism 2 can select forward conveying or reverse conveying according to actual conditions, and the lifting mechanism 3 can lower materials or lift the materials.

As shown in fig. 1 and 2, in some embodiments, the frame 4 includes a plurality of support columns, and both the forward conveying mechanism 1 and the reverse conveying mechanism 2 are fixedly mounted on the frame 4. The forward conveying mechanism 1 comprises two first support frames 5 which are arranged on the machine frame 4 in parallel, and the first support frames 5 can be made of channel steel or I-shaped steel. First rotating shafts 6 are arranged on the two first supporting frames 5 and located at the end parts of the first supporting frames 5, in order to enhance the bearing capacity of the forward conveying mechanism 1, a plurality of first rotating shafts 6 are arranged between the two first supporting frames 5, first conveying belts 7 are sleeved outside the first rotating shafts 6, and the first rotating shafts 6 rotate to drive the first conveying belts 7 to move so as to convey materials.

One of the first rotating shafts 6 extends out of the first support frame 5, a first synchronizing wheel 8 is mounted at the end of the first rotating shaft 6, the first synchronizing wheel 8 is connected with an output end of a first power device 10 through a first synchronizing belt 9, the synchronizing wheel matched with the first synchronizing wheel 8 is also mounted at the output end of the first power device 10, and the first power device 10 can adopt a servo motor or a stepping motor, so that the rotating speed and the rotating direction of the first power device 10 can be controlled conveniently. The first power device 10 is installed at the lower side of the forward conveying mechanism 1, the first power device 10 rotates to drive the first conveying belt 7 to move forward, and specifically, the first power device 10 rotates to drive the first synchronizing wheel 8 and the first rotating shaft 6 to rotate so as to drive the first conveying belt 7 to move and further convey materials.

As shown in fig. 1 and fig. 2, in another embodiment, the reverse conveying mechanism 2 includes two second supporting frames 11 installed in parallel on the machine frame 4, and the second supporting frames 11 are the same as the first supporting frames 5. And a second rotating shaft 12 is arranged on the two second support frames 11 and positioned at the end parts of the second support frames 11, a second conveying belt 13 is sleeved outside the second rotating shaft 12, and the second rotating shaft 12 rotates to drive the second conveying belt 13 to move. The second rotating shaft 12 extends out of the second supporting frame 11, a first synchronizing gear 14 is mounted at the end of the second rotating shaft 12, the first synchronizing gear 14 is meshed with a second synchronizing gear 15, the second synchronizing gear 15 is mounted on a first supporting shaft 17, a second synchronizing wheel 16 is further mounted at the end of the first supporting shaft 17, and the first synchronizing wheel 8 and the second synchronizing wheel 16 are connected through a second synchronizing belt 18. The forward conveying mechanism 1 and the reverse conveying mechanism 2 are powered by a first power device 10, so that the forward conveying mechanism 1 and the reverse conveying mechanism 2 can synchronously convey materials, and the material conveying directions of the forward conveying mechanism 1 and the reverse conveying mechanism 2 are opposite in the reverse conveying mechanism 2 through a first synchronizing gear 14 and a second synchronizing gear 15.

As shown in fig. 1 and 3, the forward conveying mechanism 1 and the reverse conveying mechanism 2 are provided with a flow restricting assembly 19. In the embodiment, the flow restricting assembly 19 includes a third rotating shaft 20 installed on the forward conveying mechanism 1 and the reverse conveying mechanism 2, and the third rotating shaft 20 is parallel to the first rotating shaft 6 and the second rotating shaft 12. One end of a rotating piece 21 is hinged to the third rotating shaft 20, a blocking wheel 22 is installed at the other end of the rotating piece 21, the middle of the rotating piece 21 is connected with the output end of a thrust device 23, the thrust device 23 can adopt an air cylinder, the thrust device 23 pushes the rotating piece 21 to rotate around the third rotating shaft 20 so that the blocking wheel 22 blocks materials, and in the material conveying process, the output end of the thrust device 23 contracts to enable a current limiting assembly 19 of the thrust device to retract to the lower side of a conveying plane.

As shown in fig. 1 and 4, in some embodiments, the lifting mechanism 3 includes a supporting frame 24, a lifting mechanism 25 is disposed at an upper end of the supporting frame 24, a moving assembly 26 is connected to a lifting end of the lifting mechanism 25, the lifting mechanism 25 operates to drive the moving assembly 26 to move up and down along the supporting frame 24, a reversing mechanism 27 for reversing the material is further installed on a side wall of the moving assembly 26, and the reversing mechanism 27 is used for receiving the material conveyed by the forward conveying mechanism 1 and conveying the material in a reverse direction to the reverse conveying mechanism 2.

As shown in fig. 1, 4, 5 and 6, in an embodiment, the lifting mechanism 25 includes a second power device 28 and a fourth rotating shaft 29 mounted on the supporting frame 24, and the second power device 28 may be a servo motor or a stepping motor, which facilitates timely control of starting and stopping the second power device 28. A winding drum 30 is mounted on the fourth rotating shaft 29, a rope 31 is wound on the winding drum 30, the rope 31 can be a steel wire rope or a nylon rope, the other end of the rope 31 is connected with the moving component 26, and the winding drum 30 rotates to drive the moving component 26 to move up and down. The end of the fourth rotating shaft 29 is provided with a third synchronizing wheel 33, the output end of the second power device 28 is provided with a fourth synchronizing wheel 32, the third synchronizing wheel 33 and the fourth synchronizing wheel 32 are connected through a third synchronizing belt 34, the second power device 28 rotates to drive the fourth rotating shaft 29 and the winding drum 30 to rotate, and further the moving assembly 26 is driven to move up and down.

In the embodiment, the moving assembly 26 includes a first fixing frame 35 and a second fixing frame 36 on both sides of the supporting frame 24, the first fixing frame 35 and the second fixing frame 36 are each composed of a plurality of frame members, and the first fixing frame 35 and the second fixing frame 36 are each rectangular. All install first spacing butt joint wheel 37 on first fixed frame 35 and the second fixed frame 36, arrange in the first spacing butt joint wheel 37 of support frame 24 both sides respectively with support frame 24 lateral wall butt to avoid first fixed frame 35 and second fixed frame 36 to remove the in-process and appear shifting. Install connecting rod 38 between first fixed frame 35 and the second fixed frame 36, install the spacing butt joint wheel 39 of second on the connecting rod 38, the spacing butt joint wheel 39 of second and 24 lateral walls butts of support frame, hoist and mount 47 are all installed to first fixed frame 35 and second fixed frame 36 upper end, hoist and mount 47 can adopt the lug, hoist and mount 47 and 31 end connection, still be provided with distribution 46 between rope 31 and the hoist and mount 47, distribution 46 makes its each hoist and mount 47 even atress, avoid appearing the card and hinder.

In some embodiments, the reversing mechanism 27 includes two third support frames 40 installed in parallel on the side walls of the second fixed frame 36, and in order to prevent the moving assembly 26 from being impacted by an excessive moving distance during the material conveying process, an anti-collision plate is installed at the end of the third support frame 40 and near the moving assembly 26. Two third support frames 40 are gone up and are located third support frame 40 tip and install fifth axis of rotation 41, fifth axis of rotation 41 overcoat is equipped with third conveyer belt 42, fifth axis of rotation 41 extends outside third support frame 40, and fifth axis of rotation 41 tip installs fifth synchronizing wheel 43, fifth synchronizing wheel 43 is connected with third power device 45 output through fourth hold-in range 44, third power device 45 can adopt servo motor or step motor, third power device 45 installs in third support frame 40 downside, third power device 45 rotates and drives third conveyer belt 42 forward or reverse movement.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a double-deck switching-over conveyor which characterized in that: comprises a forward conveying mechanism (1), a reverse conveying mechanism (2) and a lifting mechanism (3);

forward conveying mechanism (1) with reverse conveying mechanism (2) all install in frame (4), just forward conveying mechanism (1) is located directly over reverse conveying mechanism (2), elevating system (3) are located forward conveying mechanism (1) with reverse conveying mechanism (2) tip, elevating system (3) are used for accepting the material that forward conveying mechanism (1) was carried and is come and carry extremely on reverse conveying mechanism (2).

2. The double-deck reversing conveyor according to claim 1, characterized in that: the forward conveying mechanism (1) comprises two first support frames (5) which are arranged on the rack (4) in parallel, first rotating shafts (6) are arranged on the two first support frames (5) and positioned at the end parts of the first support frames (5), and first conveying belts (7) are sleeved outside the first rotating shafts (6);

the first rotating shaft (6) extends out of the first supporting frame (5), a first synchronizing wheel (8) is installed at the end of the first rotating shaft (6), the first synchronizing wheel (8) is connected with the output end of a first power device (10) through a first synchronizing belt (9), the first power device (10) is installed on the lower side of the forward conveying mechanism (1), and the first power device (10) rotates to drive the first conveying belt (7) to move forward.

3. The double-deck reversing conveyor according to claim 2, characterized in that: the reverse conveying mechanism (2) comprises two second supporting frames (11) which are arranged on the rack (4) in parallel, a second rotating shaft (12) is arranged on the two second supporting frames (11) and positioned at the end part of the second supporting frame (11), and a second conveying belt (13) is sleeved outside the second rotating shaft (12);

second axis of rotation (12) extends outside second support frame (11), just first synchronizing gear (14) are installed to second axis of rotation (12) tip, first synchronizing gear (14) meshing is connected with second synchronizing gear (15), second synchronizing gear (15) are installed on first support shaft (17), second synchronizing gear (16) are still installed to first support shaft (17) tip, first synchronizing gear (8) with connect through second hold-in range (18) between second synchronizing gear (16).

4. The double-deck reversing conveyor according to any one of claims 1 to 3, characterized in that: and the forward conveying mechanism (1) and the reverse conveying mechanism (2) are both provided with a flow limiting assembly (19).

5. The double-deck reversing conveyor according to claim 4, characterized in that: current-limiting subassembly (19) is including installing third axis of rotation (20) on forward conveying mechanism (1) and reverse conveying mechanism (2), the articulated rotation piece (21) one end that is connected with on third axis of rotation (20), rotation piece (21) other end is installed and is blocked wheel (22), it is connected with the output of thrust unit (23) to rotate piece (21) middle part, thrust unit (23) promote rotation piece (21) wind third axis of rotation (20) rotate so that it blocks the material to block wheel (22).

6. The double-deck reversing conveyor according to claim 4, characterized in that: elevating system (3) are including support frame (24), support frame (24) upper end is provided with hoist mechanism (25), hoist mechanism (25) promote the end and are connected with removal subassembly (26), hoist mechanism (25) act and drive removal subassembly (26) are followed support frame (24) reciprocate, removal subassembly (26) lateral wall still installs reversing mechanism (27) that are used for the material switching-over.

7. The double-deck reversing conveyor of claim 6, wherein: the lifting mechanism (25) comprises a second power device (28) and a fourth rotating shaft (29) which are arranged on the supporting frame (24), a winding drum (30) is arranged on the fourth rotating shaft (29), a rope (31) is wound on the winding drum (30), and the other end of the rope (31) is connected with the moving assembly (26);

third synchronizing wheel (33) is installed to fourth axis of rotation (29) tip, fourth synchronizing wheel (32) is installed to second power device (28) output, third synchronizing wheel (33) with fourth synchronizing wheel (32) are connected through third hold-in range (34).

8. The double-deck reversing conveyor of claim 7, wherein: the moving assembly (26) comprises a first fixing frame (35) and a second fixing frame (36) which are positioned on two sides of the supporting frame (24), first limiting abutting wheels (37) are mounted on the first fixing frame (35) and the second fixing frame (36), and the first limiting abutting wheels (37) which are respectively arranged on two sides of the supporting frame (24) are respectively abutted against the side wall of the supporting frame (24);

first fixed frame (35) with install connecting rod (38) between second fixed frame (36), install the spacing butt of second wheel (39) on connecting rod (38), the spacing butt of second wheel (39) with support frame (24) lateral wall butt, first fixed frame (35) with hoist and mount piece (47) are all installed to second fixed frame (36) upper end, hoist and mount piece (47) with rope (31) end connection.

9. The double-deck reversing conveyor of claim 8, wherein: the reversing mechanism (27) comprises two third supporting frames (40) which are arranged on the side wall of the second fixed frame (36) in parallel, a fifth rotating shaft (41) is arranged on the two third supporting frames (40) and positioned at the end part of the third supporting frame (40), and a third conveying belt (42) is sleeved outside the fifth rotating shaft (41);

fifth axis of rotation (41) extend outside third support frame (40), just fifth synchronizing wheel (43) is installed to fifth axis of rotation (41) tip, fifth synchronizing wheel (43) are connected with third power device (45) output through fourth hold-in range (44), third power device (45) are installed third support frame (40) downside, third power device (45) rotate the drive third conveyer belt (42) forward or reverse movement.

10. The double-deck reversing conveyor of claim 8, wherein: a distribution piece (46) is further arranged between the rope (31) and the hoisting piece (47).

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