CN110294269B - Overturning machine suitable for vertical conveying line - Google Patents

Abstract

The invention discloses a turnover machine suitable for a vertical conveying line, which comprises a bearing seat, a square tube, a foot rest, a foot sleeve, a crank, a first joint bearing, a first pin shaft, a connecting rod, a second joint bearing, a second pin shaft, a rotary arm plate, a rotary arm connecting shaft, a groove roller, a connecting shaft, a protective plate, a connecting plate, a protective plate supporting plate, a roller supporting plate, a square slider, a driven roller shaft, a rolling bearing, an adjusting roller shaft, an adjusting roller, a driving motor, a motor support, a thin-wall sealing plate, a driven roller, a belt, a motor plate, a turnover motor and a transmission shaft, and is simple in structure, light in weight, stable in conveying process, high in turnover speed and easy to maintain; the foot sleeves with different lengths can be selected according to requirements; the turnover process of the connecting plate is stable, and the connecting plate can adapt to connecting plates with different widths; the belt conveyer belt is adopted for conveying, the conveying process is stable, the energy consumption is low, the noise is low, and the cost is low.

Description

Overturning machine suitable for vertical conveying line

Technical Field

The invention relates to the technical field of logistics equipment, in particular to a turnover machine suitable for a vertical conveying line.

Background

With the vigorous development of the logistics industry in China, more and more logistics companies tend to establish transfer storage centers in various places in consideration of distribution cost, and in the logistics automation of the storage centers, vertical multi-layer conveying lines are generally adopted in order to fully utilize space. Vertical transport on the existing market mostly adopts a lifting structure, sorting efficiency is low, the challenge of huge throughput of current e-commerce logistics is difficult to deal with, if a new transportation line is added, occupied area can be increased, and production cost is improved. It is therefore necessary to design a tilter suitable for use in vertical conveyor lines.

Disclosure of Invention

The invention aims to provide a turnover machine suitable for a vertical conveying line, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: a turnover machine suitable for a vertical conveying line comprises a first vertical mounting surface, a second vertical mounting surface, a third vertical mounting surface, a first horizontal mounting surface, a second horizontal mounting surface, an inclined mounting surface, a bearing seat, a square tube, a foot rest, a foot sleeve, a crank, a first joint bearing, a first pin shaft, a connecting rod, a second joint bearing, a second pin shaft, a rotating arm plate, a rotating arm connecting shaft, a groove roller, a connecting shaft, a guard plate, a connecting plate, a guard plate supporting plate, a roller supporting plate, a square slider, a driven roller shaft, a rolling bearing, an adjusting roller shaft, an adjusting roller, a driving motor, a motor support, a thin-wall sealing plate, a driven roller, a belt, a motor plate, a turnover motor and a transmission shaft, wherein the first vertical mounting surface, the second vertical mounting surface, the third vertical mounting surface, the first horizontal mounting surface, the second horizontal mounting surface and the inclined, the driving motors are sequentially arranged from low to high, the first horizontal mounting surface is provided with three square tubes, the first vertical mounting surface, the second vertical mounting surface and the third vertical mounting surface are respectively provided with two foot rests, the top ends of the foot rests are respectively provided with a pair of bearing seats, the bottoms of the bearing seats are respectively provided with a pair of foot sleeves, the inclined mounting surface is parallel to the plane when the two connecting plates are butted, a thin-wall sealing plate is arranged between the two foot rests of the first vertical mounting surface and the second vertical mounting surface, the motor plate is arranged at the position, close to the second vertical mounting surface, of the first horizontal mounting surface, the driving motors are fixed on the motor plate, a pair of bearing seats are fixed at the two ends of the motor plate, the driving motors are connected with driving roller shafts penetrating through the bearing seats on the vertically arranged first vertical mounting surface, the second vertical mounting surface and the third vertical mounting surface, and the, the driving roller is arranged at one end far away from the second vertical mounting surface, the driven roller is arranged at one end close to the second vertical mounting surface, the driven roller is sleeved on a driven roller shaft, the adjusting roller is arranged on a connecting plate, the adjusting roller is sleeved on an adjusting roller shaft, rolling bearings are arranged at two ends of the driven roller shaft and the adjusting roller shaft, bearing sleeves are arranged on the rolling bearings, the belt is wrapped on the surface of the connecting plate, the guard plate is fixedly connected with the connecting plate, the transmission shaft penetrates through the overturning motor to be connected with a bearing seat on the motor plate, the crank is connected with the transmission shaft through a key, the other end of the crank is connected with a first joint bearing through a first pin shaft, the other end of the first joint bearing is connected with a connecting rod, the other end of the connecting rod is connected with a second joint bearing, and the other end of the second joint bearing, the rotating arm connecting shaft is arranged between the two rotating arm plates, and each rotating arm connecting shaft is provided with two groove rollers.

Further, the distance between the first vertical mounting surface, the second vertical mounting surface and the third vertical mounting surface is fixed.

Furthermore, the number of the driving motors is two, and the driving motors are respectively installed on the first vertical installation surface and the third vertical installation surface through motor supports.

Furthermore, the two ends of the connecting plate are fixedly connected with roller supporting plates.

Furthermore, square sliding blocks are fixed to two sides of the end, close to the second vertical mounting surface, of the connecting plate, and the square sliding blocks can be embedded into grooves of the groove rollers.

Furthermore, the rotating arm plate is installed on a bearing seat of the second vertical installation surface, a connecting shaft is embedded in the center of the side face of the rotating arm plate, and the cross section of the connecting shaft close to the inner end is 2 times that of the other end.

Furthermore, the guard plate and the connecting plate are fixed through a plurality of guard plate support plates, and a gap is reserved between the guard plate and the connecting plate.

Compared with the prior art, the invention has the following beneficial effects: the turnover machine suitable for the vertical conveying line is simple in structure, light in weight, stable in conveying process, high in turnover speed and easy to maintain. The foot sleeves at the bottom of the rack can be detached, and the foot sleeves with different lengths can be selected according to requirements. The square sliding block on the connecting plate is embedded into the groove roller on the rotating arm connecting shaft, the groove roller plays a role in supporting and guiding the connecting plate, the overturning process of the connecting plate is stable, and the groove roller can slide on the rotating arm connecting shaft to adapt to connecting plates with different widths. The belt conveyer belt is adopted for conveying, the conveying process is stable, the energy consumption is low, the noise is low, and the cost is low.

Drawings

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

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

FIG. 2 is a schematic structural view of a spindle mechanism of the present invention;

FIG. 3 is a schematic view of a rotary arm structure of the present invention;

FIG. 4 is a schematic view of the construction of the lower belt conveyor of the present invention (with the belt removed);

FIGS. 5 and 6 are schematic views of the overall structure of the present invention;

in the figure: 1. a first vertical mounting surface; 2. a second vertical mounting surface; 3. a third vertical mounting surface; 4. a first horizontal mounting surface; 5. a second horizontal mounting surface; 6. an inclined mounting surface; 7. a bearing seat; 8. a square tube; 9. a foot rest; 10. a foot cover; 11. a crank; 12. a first joint bearing; 13. a first pin shaft; 14. a connecting rod; 15. a second joint bearing; 16. a second pin shaft; 17. rotating the arm plate; 18. a rotating arm connecting shaft; 19. a grooved roller; 20. a connecting shaft; 21. a guard plate; 22. a connecting plate; 23. a guard plate support plate; 24. a roller support plate; 25. a square slider; 26. a driven drum shaft; 27. a rolling bearing; 28. adjusting the roller shaft; 29. adjusting the roller; 30. a driving roller; 31. a drive motor; 32. a motor support; 33. a thin-wall sealing plate; 34. a driven drum; 35. a belt; 36. a motor plate; 37. turning over a motor; 38. a drive shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a turnover machine suitable for a vertical conveying line comprises a first vertical mounting surface 1, a second vertical mounting surface 2, a third vertical mounting surface 3, a first horizontal mounting surface 4, a second horizontal mounting surface 5, an inclined mounting surface 6, a bearing seat 7, a square tube 8, a foot rest 9, a foot sleeve 10, a crank 11, a first joint bearing 12, a first pin shaft 13, a connecting rod 14, a second joint bearing 15, a second pin shaft 16, a rotating arm plate 17, a rotating arm connecting shaft 18, a groove roller 19, a connecting shaft 20, a protective plate 21, a connecting plate 22, a protective plate supporting plate 23, a roller supporting plate 24, a square sliding block 25, a driven roller shaft 26, a rolling bearing 27, an adjusting roller shaft 28, an adjusting roller 29, a driving roller 30, a driving motor 31, a motor support 32, a thin-wall sealing plate 33, a driven roller 34, a belt 35, a motor plate 36, a turnover motor 37 and a transmission shaft 38, wherein the first vertical, The second vertical mounting surface 2, the third vertical mounting surface 3, the first horizontal mounting surface 4, the second horizontal mounting surface 5 and the inclined mounting surface 6 are included in mounting surfaces of a frame and are sequentially arranged from low to high, the distance between the first vertical mounting surface 1, the second vertical mounting surface 2 and the third vertical mounting surface 3 is fixed, the stability of the mechanism is ensured, the first horizontal mounting surface 4 is provided with three square tubes 8, the first vertical mounting surface 1, the second vertical mounting surface 2 and the third vertical mounting surface 3 are all provided with two foot rests 9, the top ends of the foot rests 9 are respectively provided with a pair of bearing seats 7, the bottoms of the bearing seats 7 are respectively provided with a pair of foot sleeves 10, the inclined mounting surface 6 is parallel to a plane when the two connecting plates 22 are butted, a thin-wall sealing plate 33 motor plate 36 is arranged between the two foot rests 9 of the first vertical mounting surface 1 and the second vertical mounting surface 2 and is arranged at a position, close to the second, the driving motor 31 is fixed on the motor plate 36, a pair of bearing seats 7 are fixed at two ends of the motor plate 36, the driving motor 31 is connected with a driving roller shaft which penetrates through the bearing seats 7 on the first vertical mounting surface 1, the second vertical mounting surface 2 and the third vertical mounting surface 3, the driving roller shaft is fixedly connected with the driving roller 30, two driving motors 31 are arranged and are respectively arranged on the first vertical mounting surface 1 and the third vertical mounting surface 3 through motor supports 32, the mounting stability of the driving motor 31 is ensured, the driving roller 30 is arranged at one end far away from the second vertical mounting surface 2, the driven roller 34 is arranged at one end close to the second vertical mounting surface 2, the driven roller 34 is sleeved on the driven roller shaft 26, the adjusting roller 29 is arranged on the connecting plate 22, the adjusting roller 29 is sleeved on the adjusting roller shaft 28, and rolling bearings 27 are arranged at two ends of the driven roller shaft 26 and the adjusting roller shaft 28, the rolling bearing 27 is provided with a bearing sleeve, the belt 35 is wrapped on the surface of the connecting plate 22, the guard plate 21 is tightly connected with the connecting plate 22, the guard plate 21 and the connecting plate 22 are fixed through a plurality of guard plate support plates 23, a gap is reserved between the guard plate 21 and the connecting plate 22, two ends of the connecting plate 22 are fixedly connected with roller support plates 24, two sides of the connecting plate 22 close to the end 2 of the second vertical mounting surface are fixedly provided with square slide blocks 25, the square slide blocks 25 can be embedded into grooves of groove rollers 19, so that the groove rollers 19 can move on the rotating arm connecting shaft 18, a transmission shaft 38 passes through a turnover motor 37 to be connected with a bearing seat 7 on a motor plate 36, a crank 11 is connected with the transmission shaft 38 through a key, the other end of the crank 11 is connected with the first knuckle bearing 12 through a first pin shaft 13, the other end of the first knuckle bearing 12 is connected with a connecting rod 14, the other, a rotating arm connecting shaft 18 is arranged between two rotating arm plates 17, each rotating arm connecting shaft 18 is provided with two grooved rollers 19, the rotating arm plates 17 are arranged on the bearing seats 7 of the second vertical mounting surface 2, the centers of the side surfaces of the rotating arm plates 17 are embedded with connecting shafts 20, and the cross sections of the connecting shafts 20 close to the inner ends are 2 times of those of the other ends; the driving motor 31 rotates to drive the driving roller shaft to rotate, the driving roller shaft is connected with two ends of the driving roller 30 through rolling bearings 27 and bearing sleeves, the driving roller 30 rotates, belt tensioning is controlled by controlling the position of the adjusting roller 29, the driving roller 30 drives the belt 35 to rotate due to friction, the other end of the belt 35 drives the driven roller 34 to rotate, the driven roller shaft 26 is installed on the roller support plate 24, the initial position of the mechanism is that an upper belt conveyor belt is in butt joint with a lower belt conveyor belt, at the moment, the crank 11 is located above the transmission shaft 38 and is in the same straight line with the connecting rod 14, and when lane changing needs to be turned over, the turning motor 37 controls the transmission shaft 38 to; thereby driving the crank 11 to rotate clockwise, and the crank 11 pulls the connecting rod 14 to move downwards; the connecting rod 14 drives the rotating arm plate 17 to rotate anticlockwise around the bearing seat 7 on the second vertical mounting surface 2, the rotating arm lower end groove roller 19 rotates anticlockwise around the bearing seat 7 on the second vertical mounting surface 2, meanwhile, the rotating arm lower end groove roller 19 moves rightwards along the upper sliding block 25 of the lower connecting plate 22, the rotating arm upper end groove roller 19 rotates anticlockwise around the bearing seat 7 on the second vertical mounting surface 2, and meanwhile, the rotating arm upper end groove roller 19 moves leftwards along the upper sliding block 25 of the upper connecting plate 22; the lower connecting plate 22 rotates clockwise around the driving roller shaft on the lower belt conveying line, and the upper connecting plate 22 rotates anticlockwise around the driving roller shaft on the upper belt conveying line, so that the lowest position of the lower belt conveying belt and the highest position of the upper belt conveying belt are horizontal planes with different heights; when the butt joint needs to be turned over, the turning motor 37 controls the transmission shaft 38 to continue to rotate clockwise; thereby driving the crank 11 to rotate clockwise, and the crank 11 pushing the connecting rod 14 to move upwards; the connecting rod 14 drives the rotating arm plate 17 to rotate clockwise around the bearing seat 7 on the second vertical mounting surface 2, the rotating arm lower end groove roller 19 rotates clockwise around the bearing seat 7 on the second vertical mounting surface 2, meanwhile, the rotating arm lower end groove roller 19 moves leftwards along the square sliding block 25 on the lower connecting plate 22, the rotating arm upper end groove roller 19 rotates clockwise around the bearing seat 7 on the second vertical mounting surface 2, and meanwhile, the rotating arm upper end groove roller 19 moves rightwards along the square sliding block 25 on the upper connecting plate 22; the lower connecting plate 22 rotates counterclockwise around the driving roller shaft on the lower belt conveying line, and the upper connecting plate 22 rotates clockwise around the driving roller shaft on the upper belt conveying line, so that the highest position of the lower belt conveying line and the lowest position of the upper belt conveying line are the plane positions when the two connecting plates 22 are in butt joint.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a upset machine that is fit for being used for vertical transfer chain, including first vertical installation face (1), the vertical installation face of second (2), the vertical installation face of third (3), first horizontal installation face (4), second horizontal installation face (5), slope installation face (6), bearing frame (7), square tube (8), foot rest (9), podotheca (10), crank (11), first joint bearing (12), first round pin axle (13), connecting rod (14), second joint bearing (15), second round pin axle (16), swivel arm board (17), swinging boom connecting axle (18), groove gyro wheel (19), connecting axle (20), backplate (21), connecting plate (22), backplate extension board (23), cylinder extension board (24), square slider (25), driven drum axle (26), antifriction bearing (27), adjust drum axle (28), adjust drum (29), Initiative cylinder (30), driving motor (31), motor support (32), thin wall shrouding (33), driven cylinder (34), belt (35), motor board (36), upset motor (37) and transmission shaft (38), its characterized in that: the rack is characterized in that the first vertical mounting surface (1), the second vertical mounting surface (2), the third vertical mounting surface (3), the first horizontal mounting surface (4), the second horizontal mounting surface (5) and the inclined mounting surface (6) jointly form a mounting surface of the rack, the first vertical mounting surface (1), the second vertical mounting surface (2), the third vertical mounting surface (3) and the inclined mounting surface (6) are sequentially ordered from low to high, the first horizontal mounting surface (4) and the second horizontal mounting surface (5) are sequentially ordered from low to high, the first horizontal mounting surface (4) is provided with three square tubes (8), the first vertical mounting surface (1), the second vertical mounting surface (2) and the third vertical mounting surface (3) are provided with two foot frames (9), the top ends of the foot frames (9) are respectively provided with a pair of bearing seats (7), and the bottoms of the bearing seats (7) are respectively provided with a pair of foot sleeves (10), the inclined mounting surface (6) is parallel to the plane of the two connecting plates (22) when in butt joint, and a thin-wall sealing plate (33) is arranged between the bipods (9) of the first vertical mounting surface (1) and the second vertical mounting surface (2); the motor plate (36) is arranged on a first horizontal mounting surface (4) close to a second vertical mounting surface (2), the driving motor (31) is fixed on the motor plate (36), a pair of bearing seats (7) is fixed at two ends of the motor plate (36), the driving motor (31) is connected with a driving roller shaft which penetrates through the bearing seats (7) on the first vertical mounting surface (1), the second vertical mounting surface (2) and a third vertical mounting surface (3) in vertical mounting, the driving roller shaft is fixedly connected with a driving roller (30), the driving roller (30) is arranged at one end far away from the second vertical mounting surface (2), the driven roller (34) is arranged at one end close to the second vertical mounting surface (2), the driven roller (34) is sleeved on a driven roller shaft (26), and the adjusting roller (29) is arranged on a connecting plate (22), the adjusting roller (29) is sleeved on an adjusting roller shaft (28), two ends of the driven roller shaft (26) and the adjusting roller shaft (28) are respectively provided with a rolling bearing (27), the rolling bearings (27) are provided with a bearing sleeve, the belt (35) is wrapped on the surface of the connecting plate (22), the guard plate (21) is fixedly connected with the connecting plate (22), the transmission shaft (38) penetrates through the overturning motor (37) to be connected with the bearing block (7) on the motor plate (36), the crank (11) is connected with the transmission shaft (38) through a key, the other end of the crank (11) is connected with the first knuckle bearing (12) through a first pin shaft (13), the other end of the first knuckle bearing (12) is connected with the connecting rod (14), the other end of the connecting rod (14) is connected with the second knuckle bearing (15), the other end of the second knuckle bearing (15) is connected with the rotating arm plate (17) through a second pin shaft (16), the rotating arm connecting shaft (18) is arranged between the two rotating arm plates (17), and each rotating arm connecting shaft (18) is provided with two groove rollers (19).

2. A upender suitable for vertical conveyor lines, according to claim 1, characterized in that: the distances among the first vertical mounting surface (1), the second vertical mounting surface (2) and the third vertical mounting surface (3) are fixed.

3. A upender suitable for vertical conveyor lines, according to claim 1, characterized in that: and the two ends of the connecting plate (22) are fixedly connected with roller support plates (24).

4. A upender suitable for vertical conveyor lines, according to claim 1, characterized in that: and square sliding blocks (25) are fixed on two sides of the end, close to the second vertical mounting surface (2), of the connecting plate (22), and the square sliding blocks (25) can be embedded into the grooves of the groove rollers (19).

5. A upender suitable for vertical conveyor lines, according to claim 1, characterized in that: the rotary arm plate (17) is arranged on a bearing seat (7) of the second vertical mounting surface (2), a connecting shaft (20) is embedded in the center of the side surface of the rotary arm plate (17), and the cross section of the connecting shaft (20) close to the inner end is 2 times that of the other end.

6. A upender suitable for vertical conveyor lines, according to claim 1, characterized in that: the guard plate (21) and the connecting plate (22) are fixed through a plurality of guard plate support plates (23), and a gap is reserved between the guard plate (21) and the connecting plate (22).

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