CN112849513A - Conveying device - Google Patents

Abstract

The invention provides a conveying device, which comprises a rack, a rotating assembly and a transmission assembly, wherein the rotating assembly is rotatably arranged on the rack; the transmission assembly is arranged on the rotating assembly, and the rotating assembly drives the transmission assembly to rotate. According to the technical scheme, the material is automatically fed and discharged through the transmission assembly, the transmission assembly drives the material to move to the middle position, the rotating assembly drives the transmission assembly to rotate on the rack and simultaneously drives the material on the transmission assembly to rotate, and the material is subjected to film winding operation in the material rotating process, so that the automation degree of the conveying device is improved, the product quality is improved, and the production efficiency is improved.

Description

Conveying device

Technical Field

The invention relates to the technical field of television manufacturing, in particular to a transmission device.

Background

Need expert twine the membrane to it after present TV set product pile, among the prior art, twine the membrane through the manual work usually, perhaps transport TV set product through the manual work to can be rotatory the workstation on, rotatory through motor drive workstation, the precision is uncontrollable when nevertheless rotating through motor drive workstation, and degree of automation is lower, leads to the quality degradation of product, and production efficiency descends.

Disclosure of Invention

The invention mainly aims to provide a rotary transmission device, and aims to solve the technical problems that the automation degree is low during film winding, the product quality is reduced, and the production efficiency is reduced in the prior art.

In order to achieve the above object, the present invention provides a conveying device, which includes a frame, a rotating assembly and a transmission assembly, wherein the rotating assembly is rotatably disposed on the frame; the transmission assembly is arranged on the rotating assembly, and the rotating assembly drives the transmission assembly to rotate.

Optionally, conveyer still includes a plurality of driving wheel subassemblies, rotating assembly includes mounting panel and supporting part, the rotatable setting of mounting panel is in the frame, and is a plurality of driving wheel subassembly is followed the marginal interval of mounting panel sets up, the supporting part sets up mounting panel and a plurality of on the driving wheel subassembly.

Optionally, the driving wheel assembly comprises a base, a rotating shaft and a driving wheel, the base is arranged on the rack, the rotating shaft is arranged on the base, a shaft hole is formed in the driving wheel, the rotating shaft is arranged in the shaft hole, and the rotating shaft is axially oriented to the axis of the mounting plate.

Optionally, the supporting portion comprises a supporting frame, a connecting piece and a rotating plate, the connecting piece is arranged on the mounting plate, the rotating plate is arranged on the driving wheel assembly, and the supporting frame is connected with the connecting piece and the rotating plate respectively.

Optionally, the supporting portion further comprises a driving piece and a driving gear, the connecting piece is circular, rotating teeth are arranged on the outer wall of the connecting piece, the driving gear is meshed with the rotating teeth, and the driving end of the driving piece is connected with the driving gear.

Optionally, the supporting portion further includes a conductive ring and a stopper plate, the connecting member has an accommodating cavity, the conductive ring is disposed in the accommodating cavity, one end of the stopper plate is disposed on the supporting frame, and the other end of the stopper plate is connected to the conductive ring.

Optionally, the transmission assembly includes a connecting frame, a transmission belt, a transmission wheel and a driving motor, the connecting frame is disposed on the rotating assembly, the driving motor, the transmission belt and the transmission wheel are disposed on the connecting frame, an output end of the driving motor is connected to the transmission wheel, the transmission belt is connected to the transmission wheel, and the driving motor drives the transmission wheel to rotate to drive the transmission belt to move synchronously.

Optionally, the transmission assembly further includes a synchronizing shaft, a driven wheel and a driven belt, the driven belt is connected to the driven wheel, the driven belt and the transmission belt are arranged in parallel, one end of the synchronizing shaft is connected to the transmission wheel, and the other end of the synchronizing shaft is connected to the driven wheel.

Optionally, the transmission assembly further includes a transmission roller, the transmission roller is disposed at two ends of the transmission belt in the transmission direction, and the axis of the transmission roller is perpendicular to the transmission direction of the transmission belt.

Optionally, the transmission assembly further comprises an induction sheet and an inductor, the induction sheet is arranged on the connecting frame, and the inductor is arranged on one side of the connecting frame.

According to the technical scheme, the material is automatically fed and discharged through the transmission assembly, the transmission assembly drives the material to move to the middle position, the rotating assembly drives the transmission assembly to rotate on the rack and simultaneously drives the material on the transmission assembly to rotate, and the material is subjected to film winding operation in the material rotating process, so that the automation degree of the conveying device is improved, the product quality is improved, and the production efficiency is improved.

Drawings

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

FIG. 1 is a side view of a conveyor of the present invention;

FIG. 2 is a top view of the transfer device of the present invention;

FIG. 3 is a schematic three-dimensional structure of the transfer device of the present invention;

FIG. 4 is a schematic view of a frame of the conveyor of the present invention;

FIG. 5 is a schematic view of a support portion of the conveyor of the present invention;

FIG. 6 is a schematic view of a transmission assembly of the transfer apparatus of the present invention;

FIG. 7 is a schematic view of the structure of the movable wheel assembly of the conveyor of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Rack	11	Mounting plate
12	Fixing plate	13	Adjusting plate
				20	Supporting part	21	Supporting frame
22	Connecting piece	221	Rotating gear
				23	Rotary plate	24	Driving member
25	Driving gear	26	Conducting ring
				27	Stop plate	30	Transmission assembly
31	Connecting frame	32	Transmission belt
				33	Driving wheel	34	Driving motor
35	Driven belt	36	Driven wheel
				37	Transmission roller	38	Synchronous shaft
40	Driving wheel assembly	41	Base seat
				42	Rotating shaft	43	Driving wheel
51	Induction sheet	52	Inductor

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

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.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides a conveying device, please refer to fig. 1-3, which comprises a frame 10, a rotating assembly and a transmission assembly 30, wherein the rotating assembly is rotatably arranged on the frame 10; the transmission assembly 30 is arranged on the rotating assembly, and the rotating assembly drives the transmission assembly 30 to rotate.

In practice, the frame 10 is used to be fixed to an external structure (e.g., a flat platform such as a floor) for supporting. In this embodiment, the rack 10 is arranged in a rectangular shape, and the shape of the rack 10 may be adjusted according to different application scenarios, for example, the rack may be arranged as a triangular or circular lamp. The four sides of the bottom of the rack 10 are respectively provided with an adjusting foot cup, and the heights of the four vertexes of the rack 10 are changed by adjusting the heights of the adjusting foot cups, so that the rack 10 is adjusted to be in a horizontal position, and the stability of the rack 10 is ensured.

The rotating assembly comprises a mounting plate 11 and a supporting portion 20, the mounting plate 11 is rotatably arranged on the rack 10, and the supporting portion 20 is arranged on the mounting plate 11. The mounting plate 11 may be mounted on the frame 10 by screws, bearings, or the like, and the support portion 20 may be fixed on the mounting plate 11 by screws, rivets, or the like. The support part 20 may include a driving part 24 such as an index plate or a motor to drive the support part 20 to rotate, and the support part 20 is rotated on the frame 10 through the mounting plate 11; when the supporting portion 20 rotates, the driving assembly 30 is driven to rotate synchronously. The transmission assembly 30 comprises a feeding end and a discharging end, and the transmission direction of the transmission assembly 30 is transmitted to the discharging end through the feeding end, wherein the feeding end of the transmission assembly 30 and the discharging end can be exchanged with each other, and only the transmission direction of the transmission assembly 30 needs to be changed. The feeding end is used for being in butt joint with a feeding hole of the previous procedure, and the discharging end is used for being in butt joint with a feeding hole of the next procedure, so that automatic feeding and discharging are completed through the transmission assembly 30, and the automation degree of the conveying device is improved.

In use, material (such as a television) is first transferred from a previous process to the feeding end of the driving assembly 30, and the driving assembly 30 transfers the material from the feeding end to the middle position of the driving assembly 30. After the materials are stably placed, one end of the protective film can be attached to the materials through an external mechanical claw or a manual mode, at the moment, the supporting portion 20 drives the transmission assembly 30 and the materials on the transmission assembly 30 to rotate simultaneously, and the materials are wound by the protective film in the rotating process, so that the film winding operation is completed. And finally, moving the material wrapped with the film to a blanking end position through the transmission assembly 30 for blanking. The conveying device in this embodiment includes, but is not limited to, the above-mentioned application of wrapping the material with a film, and may also be used in, for example, a whole-plate threading and taping machine, a multi-position rotating station, and conveying lines with various butt joint angles.

According to the technical scheme, the transmission assembly 30 is used for automatically feeding and discharging materials, the transmission assembly 30 drives the materials to move to the middle position, the rotating assembly drives the transmission assembly 30 to rotate on the rack 10 and simultaneously drives the materials on the transmission assembly 30 to rotate, and the materials are wound in the process of rotating the materials, so that the automation degree of the conveying device is improved, the product quality is improved, and the production efficiency is improved.

Further, referring to fig. 4 and 7, the conveying device further includes a plurality of driving wheel assemblies 40, the driving wheel assemblies 40 are spaced along the edge of the mounting plate 11, and the supporting portions 20 are disposed on the mounting plate 11 and the driving wheel assemblies 40. A plurality of driving wheel subassembly 40 is around mounting panel 11, when the installation during supporting part 20, can with supporting part 20 installs simultaneously mounting panel 11 and on the driving wheel subassembly 40, driving wheel subassembly 40 with be sliding connection between the supporting part 20, work as the supporting part 20 butt is in when on the driving wheel subassembly 40, then can pass through driving wheel subassembly 40 increases the area of contact of supporting part 20, thereby improves supporting part 20's stability.

Wherein, the mounting panel 11 is circular, every driving wheel subassembly 40 extremely the interval between the centre of a circle of mounting panel 11 is the same, and adjacent two the interval between the driving wheel subassembly 40 is also the same. That is, in the present embodiment, a plurality of the movable wheel assemblies 40 form a circle, so that when the supporting portion 20 rotates, the supporting portion 20 is ensured to rotate around the center of the mounting plate 11, and the accuracy of the rotation of the supporting portion 20 is improved. Meanwhile, the supporting part 20 is uniformly stressed, the condition that the table top of the supporting part 20 is inclined to cause material collapse is avoided, and the stability and the reliability of the conveying device are improved.

It should be noted that, in this embodiment, the mounting plate 11 is set to be circular, so as to facilitate calculation of the mounting position of the driving wheel assembly 40, in addition, the shape of the mounting plate 11 may be set to be, for example, square, triangular or the like besides circular, and it is only necessary to ensure that a plurality of the driving wheel assemblies 40 are surrounded into a circle.

Specifically, referring to fig. 4, the driving wheel assembly 40 includes a base 41, a rotating shaft 42 and a driving wheel 43, the base 41 is disposed on the frame 10, the rotating shaft 42 is disposed on the base 41, the driving wheel 43 is provided with a shaft hole, the rotating shaft 42 is disposed in the shaft hole, and the rotating shaft 42 axially points to the axis of the mounting plate 11. Because every driving wheel assembly 40 distance interval between the centre of a circle of mounting panel 11 is the same, will in this embodiment the axle center orientation of pivot 42 the centre of a circle of mounting panel 11 to guarantee a plurality of the slip direction of driving wheel 43 with the tangential direction of mounting panel 11 is the same, also makes supporting part 20 passes through driving wheel 43 can stabilize around the centre of a circle of mounting panel 11 rotates, avoids supporting part 20 takes place to deflect at the rotation in-process.

Further, driving wheel assembly 40 still includes deep groove ball bearing, deep groove ball bearing inlays on driving wheel 43, thereby be convenient for driving wheel 43 free rotation improves driving wheel assembly 40's flexibility ratio prevents driving wheel 43's angle takes place to deflect and leads to support portion 20 pivoted resistance increases. The driving wheel assembly 40 further comprises an adjusting block, wherein the adjusting block is arranged on the base 41 and used for adjusting the height of the rotating shaft 42, so that the height of the driving wheel 43 is indirectly adjusted to compensate for the height error of the driving wheel 43, and the precision is improved.

Specifically, referring to fig. 5, the supporting portion 20 includes a supporting frame 21, a connecting member 22 and a rotating plate 23, the connecting member 22 is disposed on the mounting plate 11, the rotating plate 23 is disposed on the driving wheel assembly 40, and the supporting frame 21 is connected to the connecting member 22 and the rotating plate 23 respectively. The supporting frame 21 is used for fixing the transmission assembly 30, in this embodiment, since the plurality of the moving wheel assemblies 40 are arranged around the edge of the mounting plate 11, in this embodiment, the rotating plate 23 is arranged in a circular ring shape, and the connecting member 22 is arranged at the center of the rotating plate 23, so as to save the mounting space and simplify the structure. The plurality of movable wheel assemblies 40 are enclosed into a circle, the rotary plate 23 is placed on the plurality of movable wheel assemblies 40, and when the supporting portion 20 rotates, the rotary plate 23 slides on the plurality of movable wheel assemblies 40. Wherein the shape of the connecting member 22 may be the same as the shape of the mounting plate 11.

Specifically, the supporting portion 20 further includes a driving member 24 and a driving gear 25, the connecting member 22 is circular, a rotating tooth 221 is disposed on an outer wall of the connecting member 22, the driving gear 25 is engaged with the rotating tooth 221, and a driving end of the driving member 24 is connected to the driving gear 25. The driving member 24 may be a driving motor 34 or a servo motor, etc. to drive the driving gear 25 to rotate with high precision, and when the driving gear 25 rotates, the driving gear cooperates with the rotating teeth 221 to drive the connecting member 22 to rotate synchronously, so as to drive the supporting frame 21 and the transmission assembly 30 on the supporting frame 21 to rotate together.

Further, the support portion 20 further includes a planetary reducer connected to the driver 24 to increase the output torque of the driver 24. Meanwhile, in order to improve the stability of the driving member 24, a fixing plate 12 is further provided on the frame 10, and the driving member 24 is mounted on the fixing plate 12. Meanwhile, the fixed plate 12 is also provided with an adjusting plate 13, the adjusting plate 13 is movably connected with the fixed plate 12, and the installation position of the driving part 24 is finely adjusted by adjusting the position of the adjusting plate 13 on the fixed plate 12, so that the precision of the conveying device is further improved.

Further, the supporting portion 20 further includes a conductive ring 26 and a stopper plate 27, the connecting member 22 has a receiving cavity, the conductive ring 26 is disposed in the receiving cavity, one end of the stopper plate 27 is disposed on the supporting frame 21, and the other end is connected to the conductive ring 26. The conductive ring 26 is fixed on the supporting frame 21 by the stopper plate 27, and the conductive ring 26 is used for fixing circuit lines, gas circuit pipes and the like on the transmission device. In this embodiment, the connecting member 22 is disposed in a ring shape for simplifying the structure, so that the conductive ring 26 is disposed in the accommodating cavity at the center of the connecting member 22. Meanwhile, the conductive ring 26 is disposed at the center of the connecting member 22, so that when the connecting member 22 rotates, the conductive ring 26 is used as a center of a circle to rotate, thereby preventing the supporting portion 20 from being damaged due to an excessively large rotation angle of the circuit line and the gas line during the rotation operation.

Specifically, referring to fig. 6, the transmission assembly 30 includes a connecting frame 31, a transmission belt 32, a transmission wheel 33 and a driving motor 34, the connecting frame 31 is disposed on the supporting portion 20, the driving motor 34, the transmission belt 32 and the transmission wheel 33 are disposed on the connecting frame 31, an output end of the driving motor 34 is connected to the transmission wheel 33, the transmission belt 32 is connected to the transmission wheel 33, and the driving motor 34 drives the transmission wheel 33 to rotate to drive the transmission belt 32 to move synchronously. The connecting member 22 is fixed on the supporting frame 21 to form a whole, and when the supporting frame 21 rotates, the connecting frame 31 and the components on the connecting frame 31 are synchronously driven to rotate. The connecting frame 31 is provided with a supporting plate, and the transmission belt 32 can be suspended on the connecting frame 31 through the supporting plate, so that friction between the transmission belt 32 and the connecting frame 31 in the rotating process is avoided, and the abrasion of the transmission belt 32 is reduced.

In this embodiment, the driving motor 34 may be a three-phase asynchronous motor, so as to provide sufficient power for the driving wheel 33 and the driving belt 32; meanwhile, a worm and gear speed reducer can be arranged and connected with the driving motor 34 so as to further increase the output torque of the driving motor 34. The transmission belt 32 is annular, for example, a belt, a chain or formed by connecting a plurality of chain plates, two transmission wheels 33 are arranged in the transmission belt 32, and the distance between the two transmission wheels 33 is the same as the length of the transmission belt 32, so that when the transmission belt 32 is installed on the two transmission wheels 33, the surface of the transmission belt is straight. The driving end of the driving motor 34 is connected to any one of the driving wheels 33, and when the driving wheel 33 rotates, the driving belt 32 and the other driving wheel 33 are driven to rotate. It should be noted that, in order to ensure the normal rotation of the other transmission wheel 33 which is not connected with the driving motor 34, the stability can be improved by providing the rotation shaft 42 on the transmission wheel 33, and at the same time, the spherical outer ball bearing is provided to provide the rotation support for the rotation shaft 42. Meanwhile, two sides of the transmission wheel 33 are provided with spacing rings to prevent the transmission belt 32 from falling off from the transmission wheel 33.

Further, the transmission assembly 30 further includes a synchronizing shaft 38, a driven pulley 36 and a driven belt 35, the driven belt 35 is connected to the driven pulley 36, the driven belt 35 is juxtaposed to the transmission belt 32, one end of the synchronizing shaft 38 is connected to the transmission wheel 33, and the other end is connected to the driven pulley 36. Similarly, the driven belt 35 is annular, and two driven wheels 36 are provided in the driven belt 35 to straighten the driven belt 35. The driven wheel 36 is connected with the transmission wheel 33 through the synchronous shaft 38, and when the driving motor 34 drives the transmission wheel 33 to rotate, the driven wheel 36 is driven to rotate together through the synchronous shaft 38, and the driven belt 35 is driven to rotate together. In this embodiment, the driven belt 35 is disposed on one side or both sides of the driving belt 32 to increase the contact area during material conveying, so as to improve the driving stability of the driving assembly 30.

Further, the transmission assembly 30 further includes transmission rollers 37, the transmission rollers 37 are disposed at two ends of the transmission belt 32 in the transmission direction, and the axis of the transmission roller 37 is perpendicular to the transmission direction of the transmission belt 32. When the transmission assembly 30 is used for loading and unloading, the material firstly passes through the transmission roller 37, then contacts with the transmission belt 32 and is transmitted. In this embodiment, the transmission roller 37 is disposed at the feeding end and the discharging end of the transmission assembly 30 to buffer materials during feeding and discharging, so as to prevent the material displacement or inclination caused by the inconsistency between the transmission speed of the transmission belt 32 and the moving speed of the materials.

Further, the transmission assembly 30 further includes a sensing piece 51 and a sensor 52, the sensing piece 51 is disposed on the connecting frame 31, and the sensor 52 is disposed on one side of the connecting frame 31. The induction sheet 51 and the inductor 52 can adopt an optical coupler sensor, a certain preset position is used as an original point, the induction sheet 51 and the inductor 52 are arranged on the same straight line, and therefore it is guaranteed that the inductor 52 can receive light beams emitted from the induction sheet 51. When the transmission assembly 30 is reset or positioned, the sensor 52 detects the light beam emitted by the sensing sheet 51 in real time, and when the sensor 52 receives the light beam emitted by the sensing sheet 51, the transmission assembly 30 is reset or positioned, so that the rotation precision of the transmission device is improved.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A conveyor, characterized in that it comprises:

a frame;

the rotating assembly is rotatably arranged on the rack;

the transmission assembly is arranged on the rotating assembly, and the rotating assembly drives the transmission assembly to rotate.

2. The conveying device as claimed in claim 1, wherein the conveying device further comprises a plurality of driving wheel assemblies, the rotating assembly comprises a mounting plate and a supporting portion, the mounting plate is rotatably arranged on the machine frame, the driving wheel assemblies are arranged along the edge of the mounting plate at intervals, and the supporting portion is arranged on the mounting plate and the driving wheel assemblies.

3. The conveying device as claimed in claim 2, wherein the driving wheel assembly comprises a base, a rotating shaft and a driving wheel, the base is arranged on the rack, the rotating shaft is arranged on the base, a shaft hole is formed in the driving wheel, the rotating shaft is arranged in the shaft hole, and the rotating shaft axially points to the center of the circle of the mounting plate.

4. The conveying device as claimed in claim 2, wherein the supporting part comprises a supporting frame, a connecting member and a rotating plate, the connecting member is disposed on the mounting plate, the rotating plate is disposed on the driving wheel assembly, and the supporting frame is connected with the connecting member and the rotating plate respectively.

5. The conveying device as claimed in claim 4, wherein the supporting portion further comprises a driving member and a driving gear, the connecting member is circular, rotating teeth are provided on an outer wall of the connecting member, the driving gear is engaged with the rotating teeth, and a driving end of the driving member is connected with the driving gear.

6. The conveying apparatus as claimed in claim 4, wherein the supporting portion further comprises a conductive ring and a stopper plate, the connecting member has a receiving cavity, the conductive ring is disposed in the receiving cavity, one end of the stopper plate is disposed on the supporting frame, and the other end is connected to the conductive ring.

7. The transfer apparatus as claimed in claim 1, wherein the transmission assembly comprises a connecting frame, a transmission belt, a transmission wheel and a driving motor, the connecting frame is disposed on the rotating assembly, the driving motor, the transmission belt and the transmission wheel are disposed on the connecting frame, an output end of the driving motor is connected to the transmission wheel, the transmission belt is connected to the transmission wheel, and the driving motor drives the transmission wheel to rotate to drive the transmission belt to move.

8. The transfer apparatus as in claim 7, wherein the transmission assembly further comprises a synchronizing shaft, a driven pulley, and a driven belt, the driven belt is connected to the driven pulley, the driven belt is juxtaposed to the transmission belt, one end of the synchronizing shaft is connected to the transmission pulley, and the other end of the synchronizing shaft is connected to the driven pulley.

9. The conveying device as claimed in claim 7, wherein the transmission assembly further comprises transmission rollers disposed at both ends of the transmission belt in a transmission direction, and a shaft center of the transmission rollers is perpendicular to the transmission direction of the transmission belt.

10. The transfer device of claim 7, wherein the transmission assembly further comprises a sensing piece and a sensor, the sensing piece is disposed on the connecting frame, and the sensor is disposed on one side of the connecting frame.

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