LU502095B1 - Conveying device capable of flipping bidirectionally - Google Patents

Abstract

The present invention relates to a conveying device capable of flipping bidirectionally, which includes a conveying assembly, a driving assembly, a transmission assembly and a support assembly. The conveying assembly includes a conveying plate and a rocker. The driving assembly includes two gear wheels, a rack sleeved on outer sides of the two gear wheels and meshed and connected with the two gear wheels, and a motor for driving the gear wheels to rotate. The transmission assembly includes a sliding groove, a sliding seat in sliding fit with the sliding groove and a pinion gear arranged on a sidewall of the sliding seat. The pinion gear is meshed and connected with a rack. One end of the rocker is connected with a sidewall of a middle section of the conveying plate, and the other end of the rocker is connected with the sliding seat in a sliding manner. The support assembly includes a support base and guide rails. The present invention realizes the flipping of the conveying plate in a certain angle range and the horizontal movement in a certain stroke range through the mutual cooperation among the conveying assembly, the driving assembly and the transmission assembly.

Description

CONVEYING DEVICE CAPABLE OF FLIPPING BIDIRECTIONALLY HU502095

FIELD OF TECHNOLOGY

[0001] The present invention relates to the technical field of conveying devices, in particular to a conveying device capable of flipping bidirectionally.

BACKGROUND

[0002] Flipping mechanisms can meet the flipping and conveying requirements of goods of different specifications and achieve the operation goal of converting goods from horizontal to vertical or from vertical to horizontal, and are widely used in logistics, metallurgy, machining and other industries.

[0003] Small and micro enterprises are an active part of China's national economy at present, however, the funds and venues of small and micro enterprises are limited, and the existing reverse mechanisms are mostly designed for large and medium-sized manufacturing enterprises. Although the production efficiency and product quality are improved, there are some shortcomings such as complex mechanical structure, huge volume, difficult maintenance and high cost, which are not suitable for small and medium-sized enterprises.

SUMMARY

[0004] The purpose of the present invention is to provide a conveying device capable of flipping bidirectionally, which features a simple mechanical structure, small volume, convenient maintenance, low cost and the like, and is suitable for small enterprises.

[0005] In order to achieve the above purpose, the present invention adopts the following technical solution:

[0006] a conveying device capable of flipping bidirectionally includes a conveying assembly, a driving assembly, a transmission assembly and a support assembly; the conveying assembly includes a conveying plate and a rocker arranged inside the conveying plate; rotating shafts are disposed at left and right ends of the conveying plate, respectively; the transmission assembly includes a sliding groove and a sliding seat in sliding fit with the sliding groove; one end of the rocker is connected with a middle section of the conveying 1/18 plate, and the other end of the rocker is connected with the sliding seat through a slider; the HU502095 support assembly includes a support base and guide rails arranged above the support base; rotating slots are disposed at left and right ends of the guide rails, respectively; and the conveying plate is installed above the guide rails.

[0007] When the conveying plate is placed horizontally, the slider is located at a lower end of the sliding seat, the driving assembly moves forward to drive the sliding seat to move forward in a horizontal direction in the sliding groove, at which time the slider remains stationary relative to the sliding seat and moves along the horizontal direction together with the sliding seat, when the rotating shaft is in contact with the rotating slot at the corresponding side and is clamped in the rotating slot, the sliding seat continues to move forward in the horizontal direction, the slider moves upward along a vertical direction in the sliding seat while moving in the horizontal direction along the sliding seat, and the rocker fixedly connected with the slider drives the conveying plate to rotate around the rotating shaft; when the conveying plate rotates at a certain angle, the driving assembly moves reversely to drive the sliding seat to move reversely along the horizontal direction in the sliding groove, the slider moves downward along the vertical direction in the sliding seat while moving along the horizontal direction together with the sliding seat, and the rocker fixed connected with the slider drives the conveying plate to rotate around the rotating shaft until the conveying plate recovers the horizontal state.

[0008] Further, the driving assembly includes two gear wheels, a rack sleeved on outer sides of the two gear wheels and meshed and connected with the two gear wheels, and a motor for driving the gear wheels to rotate; one of the gear wheels is connected with an output shaft of the motor, and the other one of the gear wheels is installed on the sliding groove; a pinion gear is arranged on a sidewall of the sliding seat, the pinion gear being meshed and connected with the rack.

[0009] Further, a bottom of the middle section of the conveying plate is provided with a shock absorber, the shock absorber including a connecting post disposed at a bottom of the conveying plate and a rubber pad disposed at a bottom of the connecting post.

[0010] Further, the support base includes a support plate and a pair of stopper plates arranged above the support plate; the shock absorber is located between the pair of stopper 2/18 plates; the guide rails are arranged above the pair of stopper plates, and the number of the HU502095 guide rails is two.

[0011] Further, the sliding groove includes a groove body and a sliding channel opened along the horizontal direction; the sliding seat includes a seat body being in sliding fit with the sliding channel and a longitudinal chute arranged on a sidewall of the seat body; the longitudinal chute and the pinion gear are respectively arranged on both sides of the seat body; the rocker is in clearance fit with the longitudinal chute through the slider.

[0012] Further, the sliding groove is installed above the stopper plates, and the driving assembly is located at one side of the sliding groove.

[0013] Further, a length of each of the guide rails is larger than a length of the conveying plate.

[0014] According to the technical solution, the present invention realizes the flipping of the conveying plate in a certain angle range and the horizontal movement in a certain stroke range through the mutual cooperation among the conveying assembly, the driving assembly and the transmission assembly. Under the drive of the drive assembly, the horizontal movement of the sliding seat and the vertical movement of the slider in the sliding seat are combined to realize the integration of a plurality of actions, such as the horizontal movement of the conveying plate, the clamping of the rotating shaft and the rotating groove, the rotation of the conveying plate around the rotating shaft, the returning of the conveying plate and the like, that is, a plurality of actions of the conveying plate are realized by the action of one part of a rocker with the slider, the mechanical structure is greatly reduced, the failure probability is reduced, and the use and the maintenance of the present invention are simpler and more convenient. The present invention features a simple mechanical structure, small volume, convenient maintenance, low cost and the like, and is suitable for small enterprises.

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] FIG 1 is a structural diagram I of the present invention;

[0016] FIG 2 is a structural diagram II of the present invention;

[0017] FIG 3 is a structural schematic diagram of a support base;

[0018] FIG 4 is a structural schematic diagram of a sliding groove; 3/18

[0019] FIG 5 is a structural schematic diagram of a sliding seat; HUS02095

[0020] FIG 6 is a schematic diagram of a state of the present invention where the conveying plate is moved to the rightmost side of guide rails;

[0021] FIG 7 is a schematic diagram of a state of the present invention where an angle between the conveying plate and a horizontal plane is 30 degrees during the conveying plate tilting to the right and returning;

[0022] FIG 8 is a schematic diagram of a state of the present invention where the conveying plate is moved to the leftmost side of the guide rails; and

[0023] FIG 9 is a schematic diagram of a state of the present invention where an angle between the conveying plate and a horizontal plane is 30 degrees during the conveying plate tilting to the left and returning.

[0024] In the drawings:

[0025] 1. conveying plate, 2. rocker, 3. gear wheel, 4. pinion gear, 5. rack, 6. motor, 7.

sliding groove, 8. sliding seat, 9. support base, 10. guide rail, 11. rotating shaft, 12. shock absorber, 13. rotating slot, 14. stopper plate, 15. sliding channel, 16. pinion gear sliding through hole, 17. seat body, 18. longitudinal chute, 19. slider.

DESCRIPTION OF THE EMBODIMENTS

[0026] The present invention is further explained below with reference to the accompanying drawings:

[0027] A conveying device capable of flipping bidirectionally as shown in FIGS. 1 and 2 includes a conveying assembly, a driving assembly, a transmission assembly and a support assembly.

[0028] Specifically, the conveying assembly includes a conveying plate 1 and a rocker 2 arranged inside the conveying plate 1. Rotating shafts 11 are disposed at left and right ends of the conveying plate, respectively. A bottom of the middle section of the conveying plate 1 is provided with a shock absorber 12. The shock absorber 12 includes a connecting post disposed at a bottom of the conveying plate 1 and a rubber pad disposed at a bottom of the connecting post.

[0029] The driving assembly includes two gear wheels 3, a rack 5 sleeved on outer sides of 4/18 the two gear wheels 3 and meshed and connected with the two gear wheels 3, and a motor 6 HU502095 for driving the gear wheels 3 to rotate. One of the gear wheels is connected with an output shaft of the motor, and the other one of the gear wheels is installed on the sliding groove 7. A pinion gear is arranged on a sidewall of the sliding seat, the pinion gear being meshed and connected with the rack. Driven by the motor 6, the gear wheels connected with the motor rotate, and the rack meshed and connected with the gear wheels is driven to rotate. Two gear wheels are provided, which can ensure the stability of rack transmission. As shown in FIG 1, the number of motors 6 is two, and the two motors 6 are respectively used to drive two gear wheels 3 to rotate. The rotation of the two motors 6 is synchronous. The motors 6 are mounted on the sliding groove 7 through a motor mounting bracket. In FIG 2, one of the motors is removed in order to clearly see the matching relationship between the gear wheel and rack.

[0030] The transmission assembly includes the sliding groove 7, a sliding seat 8 in sliding fit with the sliding groove 7 and a pinion gear 4 arranged on a sidewall of the sliding seat 8. The pinion gear 4 is located inside the rack 5 and meshed and connected with the rack 5. One end of the rocker 2 is connected to a sidewall of the middle section of the conveying plate 1, and the other end of the rocker 2 is connected to the sliding seat 8 through a slider 19.

[0031] As shown in FIG 3, the support assembly includes a support base 9 and guide rails arranged above the support base 9. The conveying plate 1 is mounted on the guide rails 10. A length of each of the guide rails 10 is larger than a length of the conveying plate 1. Left and right ends of each of the guide rails 10 are respectively provided with a rotating slot 13. The support base includes a support plate and a pair of stopper plates 14 arranged above the support plate. The shock absorber 12 is located between the pair of stopper plates 14. The guide rails 10 are arranged above the pair of stopper plates 14, and the number of the guide rails 10 is two. When the conveying plate 1 is horizontally placed, a bottom of the shock absorber 12 comes into contact with the support plate. The shock absorber 12 plays a role of shock absorption on one hand and a role of limiting on the other hand, and a distance between the two stopper plates 14 has a certain limiting effect on the moving stroke of the conveying plate. Since the length of each of the guide rails is larger than the length of the conveying plate, when the rocker 2 drives the conveying plate 1 to move, the conveying plate 1 is first 5/18 moved to end portions of the guide rails 10, and the rotating shaft 11 located at the end HU502095 portions serves as a rotary shaft abuts against grooves formed by the limiting portions 13 and the guide rails 10, and the conveying plate rotates around the rotary shatft.

[0032] As shown in FIG 4, the sliding groove 7 includes a groove body and a sliding channel 15 defined in the horizontal direction. The sidewall of the groove body is provided with a pinion gear sliding through hole 16. The sliding groove 7 is installed above the stopper plates 14, and the driving assembly is located at one side of the sliding groove 7. When the rack 5 rotates, the pinion gear 4 is driven to move linearly along the pinion gear sliding through hole 16, so that the sliding seat 8 connected to the pinion gear moves linearly along the sliding channel 15. When the sliding seat 8 moves linearly along the sliding channel 15, it will drive the rocker to move together, so that the conveying plate connected to the rocker will be turned over.

[0033] As shown in FIG 5, the sliding seat includes a seat body 17 being in sliding fit with the sliding channel 15 and a longitudinal chute 18 arranged on a sidewall of the seat body 17. The longitudinal chute 18 and the pinion gear 4 are respectively arranged on both sides of the seat body 17. The rocker 2 is in clearance fit with the longitudinal chute 18. When the seat body 17 slides along the sliding channel 15, an end portion of the rocker 2 moves vertically along the longitudinal chute 18.

[0034] Assuming that in an initial state, the conveying plate 1 is located at the middle position of the guide rails, and the rotation axes at both ends of the conveying plate 1 are at a certain distance from the corresponding rotating slots, at which time the slider 19 is located at the lower end of the sliding seat 8.

[0035] When it is necessary to move the conveying plate to the right and turn over, the motor 5 rotates forward, and under the drive of the motor 5, the gear wheels 3 rotate to drive the rack 5 to be meshed and connected with the gear wheels 3 to rotate forward. When the rack 5 rotates, it drives the pinion gear 4 meshed and connected with it to move linearly along the pinion gear sliding through hole 16. The sliding seat 8 fixedly connected with the pinion gear 4 moves together with the pinion gear 4. The sliding seat 8 moves rightward in a horizontal direction in the sliding groove 7, at which time the slider 19 remains stationary relative to the sliding seat 8 and moves rightward along the horizontal direction together with 6/18 the sliding seat 8. As shown in FIG 6, when the rotating shaft 11 moved to a right end of the HU502095 conveying plate 1 comes into contact with the rotating slot 13 on the right side of the guide rails and is caught in the rotating slot 13, the sliding seat 8 continues to move rightward in the horizontal direction, while the slider 19 moves rightward along the horizontal direction together with the sliding seat 8, it also moves upward in the vertical direction in the sliding seat 8. The rocker 2 fixedly connected to the slider 19 drives the conveying plate 1 to rotate clockwise around a rotating shaft 11 at the right end, and the state of rotation is shown in FIG

7. When the conveying plate 1 rotates at a certain angle (the present invention defines to rotate to 90 degrees), articles on the conveying plate 1 will slide down along the conveying plate to achieve the dumping of the articles. When the dumpling of the articles on the conveying plate is completed, the motor rotates reversely to drive the sliding seat 8 to move leftward in the horizontal direction in the sliding groove 7, and the slider 19 moves leftward in the horizontal direction together with the sliding seat 8, and also moves downward in the vertical direction in the sliding seat 8. The rocker 2 fixedly connected with the slider 19 drives the conveying plate 1 to rotate counterclockwise around the rotating shaft 11 until the conveying plate 1 returns to the horizontal state.

[0036] When it is necessary to move the conveying plate to the left and turn over, the motor rotates reversely, and under the drive of the motor 5, the gear wheels 3 rotate to drive the rack 5 to be meshed and connected with the gear wheels 3 to rotate reversely. When the rack 5 rotates, it drives the pinion gear 4 meshed and connected with it to move linearly along the pinion gear sliding through hole 16. The sliding seat 8 fixedly connected with the pinion gear 4 moves together with the pinion gear 4. The sliding seat 8 moves leftward in a horizontal direction in the sliding groove 7, at which time the slider 19 remains stationary relative to the sliding seat 8 and moves leftward along the horizontal direction together with the sliding seat

8. As shown in FIG 8, when the rotating shaft 11 moved to a left end of the conveying plate 1 comes into contact with the rotating slot 13 on the left side of the guide rails and is caught in the rotating slot 13, the sliding seat 8 continues to move leftward in the horizontal direction, while the slider 19 moves leftward along the horizontal direction together with the sliding seat 8, it also moves upward in the vertical direction in the sliding seat 8. The rocker 2 fixedly connected to the slider 19 drives the conveying plate 1 to rotate counterclockwise around a 7/18 rotating shaft 11 at the left end, and the state of rotation is shown in FIG 9. When the HU502095 conveying plate 1 rotates at a certain angle (the present invention defines to rotate to 90 degrees), articles on the conveying plate 1 will slide down along the conveying plate to achieve the dumping of the articles. When the dumping of the articles on the conveying plate is completed, the motor rotates forward to drive the sliding seat 8 to move leftward in the horizontal direction in the sliding groove 7, and the slider 19 moves rightward in the horizontal direction together with the sliding seat 8, and also moves downward in the vertical direction in the sliding seat 8. The rocker 2 fixedly connected with the slider 19 drives the conveying plate 1 to rotate counterclockwise around the rotating shaft 11 until the conveying plate 1 returns to the horizontal state. In the present invention, forward movement of the driving assembly refers to clockwise rotation of an output shaft of the motor, and reverse movement of the driving assembly refers to counterclockwise rotation of the output shaft of the motor. The output shaft of the motor rotates in different directions, causing the rotation direction of the rack is different, so that the pinion gear drives the sliding seat to move in different directions along the sliding channel.

[0037] When the conveying plate drives the articles to move, the conveying plate moves horizontally under the drive of the sliding seat and the rocker with the slider. When the rotating shaft on the conveying plate is clamped into the corresponding rotating slot, the conveying plate rotates around the rotating shaft, and when the dumping of the articles on the conveying plate is finished, the conveying plate rotates back to the horizontal position. Several movements of the conveying plate are realized by the sliding seat and the rocker with slider. Although the structure is very simple, the simple structure achieves complex functions, and the integration of the moving, turning and returning of the conveying plate solves the difficulties in the process of mechanical design. The simpler the structure, the simpler the subsequent maintenance of the device, and the lower the probability of failure.

[0038] As screening equipment, the present invention can achieve the functions of moving and dumping articles placed on the conveying plate, and can be used in the technical fields of screening and dumping of cement water mills, screening and dumping of grains and feeds, logistics and the like, and has wide application occasions. For example, the present invention can be applied to the express sorting operation of small express sub-stations. In small express 8/18 sub-stations, it is often necessary to manually sort express packages belonging to the same HU502095 area, which is very labor intensive and inefficient. With the adoption of the flipping mechanism described in the present invention, express packages belonging to the same area can be placed on the conveying plate first, and after accumulating to a certain amount, the conveying plate can be horizontally moved and flipped within the range of 90 degrees, and the express packages on the conveying plate can be transferred to the conveyor vehicles of the couriers. A partition is vertically installed at a top of the conveying plate, and the express packages to be sorted is manually placed on different sides of the conveying plate, so that the conveying plate can be flipped in different directions, and the express packages with different attributes can be transferred to different express delivery tools, so as to improve the sorting efficiency of express packages.

[0039] The embodiments described above are merely descriptions of preferred embodiments of the present invention, rather than limitations to the scope of the present invention. On the premise of not departing from the design spirit of the present invention, various modifications and improvements made by those of ordinary in the art to the technical solution of the present invention should fall within the protection scope determined by the claims of the present invention.

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Claims (7)

WHAT IS CLAIMED IS: HU502095

1. A conveying device capable of flipping bidirectionally comprising a conveying assembly, a driving assembly, a transmission assembly and a support assembly; wherein the conveying assembly comprises a conveying plate (1) and a rocker (2) arranged inside the conveying plate (1); rotating shafts (11) are disposed at left and right ends of the conveying plate (1), respectively; the transmission assembly comprises a sliding groove (7) and a sliding seat (8) in sliding fit with the sliding groove (7); one end of the rocker (2) is connected with a middle section of the conveying plate (1), and the other end of the rocker (2) is connected with the sliding seat (8) through a slider (19); the support assembly comprises a support base (9) and guide rails (10) arranged above the support base (9); rotating slots (13) are disposed at left and right ends of the guide rails (10), respectively; and the conveying plate (1) is installed above the guide rails (10); wherein when the conveying plate (1) is placed horizontally, the slider (19) is located at a lower end of the sliding seat (8), the driving assembly moves forward to drive the sliding seat (8) to move forward in a horizontal direction in the sliding groove (7), at which time the slider (19) remains stationary relative to the sliding seat (8) and moves along the horizontal direction together with the sliding seat (8); when the rotating shaft (11) is in contact with the rotating slot (13) at the corresponding side and is clamped in the rotating slot (13), the sliding seat (8) continues to move forward in the horizontal direction, the slider (19) moves upward along a vertical direction in the sliding seat (8) while moving in the horizontal direction along with the sliding seat (8), and the rocker (2) fixedly connected with the slider (19) drives the conveying plate (1) to rotate around the rotating shaft (11); and when the conveying plate (1) rotates at a certain angle, the driving assembly moves reversely to drive the sliding seat (8) to move reversely along the horizontal direction in the sliding groove (7), the slider (19) moves downward in the vertical direction in the sliding seat (8) while moving in the horizontal direction along with the sliding seat (8), and the rocker (2) fixed connected with the slider (19) drives the conveying plate (1) to rotate around the rotating shaft (11) until the conveying plate (1) recovers the horizontal state.

2. The conveying device capable of flipping bidirectionally according to claim 1, wherein the driving assembly comprises two gear wheels (3), a rack (5) sleeved on outer 10/18 sides of the two gear wheels (3) and meshed and connected with the two gear wheels (3), and HUS02095 a motor (6) for driving the gear wheels (3) to rotate; one of the gear wheels (3) is connected with an output shaft of the motor (6), and the other one of the gear wheels (3) is installed on the sliding groove; and a pinion gear (4) is arranged on a sidewall of the sliding seat (8), the pinion gear (4) being meshed and connected with the rack (5).

3. The bi-directional reversible conveying device according to claim 1, wherein a bottom of the middle section of the conveying plate (1) is provided with a shock absorber (12), the shock absorber (12) comprising a connecting post disposed at a bottom of the conveying plate (1) and a rubber pad disposed at a bottom of the connecting post.

4. The conveying device capable of flipping bidirectionally according to claim 3, wherein the support base (9) comprises a support plate and a pair of stopper plates (14) arranged above the support plate; the shock absorber (12) is located between the pair of stopper plates (14); the guide rails (10) are arranged above the pair of stopper plates (14), and the number of the guide rails (10) being two.

5. The conveying device capable of flipping bidirectionally according to claim 2, wherein the sliding groove (7) comprises a groove body and a sliding channel (15) opened in the horizontal direction; the sliding seat (8) comprises a seat body (17) being in sliding fit with the sliding channel (15) and a longitudinal chute (18) arranged on a sidewall of the seat body; the longitudinal chute (18) and the pinion gear (4) are respectively arranged on both sides of the seat body (17); and the rocker (2) is in clearance fit with the longitudinal chute (18) through the slider (19).

6. The conveying device capable of flipping bidirectionally according to claim 4, wherein the sliding groove (7) is installed above the stopper plates (14), and the driving assembly is located at one side of the sliding groove (7).

7. The conveying device capable of flipping bidirectionally according to claim 4, wherein a length of each of the guide rails (10) is larger than a length of the conveying plate (1).

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