CN220077473U - High-speed roller conveying line - Google Patents

Abstract

The utility model relates to the technical field of tray conveying lines, and discloses a high-speed roller conveying line, which comprises a section bar seat, a roller module and a driver, wherein the driver is used for providing driving force; the roller module comprises a plurality of first rollers, a first synchronization module, a plurality of second rollers and a second synchronization module, wherein the first synchronization module is used for enabling each first roller to be in synchronous driving arrangement, each second roller is in interval corresponding arrangement along the conveying direction, the second synchronization module is used for enabling each second roller to be in synchronous driving arrangement, and the first rollers and the second rollers receive driving force and are used for synchronizing high-speed conveying tray pieces. Like this, through first running roller and second running roller synchronous conduction driving force, realize synchronous application driving force to tray spare, improve the application of driving force, realize the removal of high-speed drive tray spare, simultaneously, be relatively independent between each first running roller to be relatively independent between each second running roller, effectively share the weight of tray spare, improve the life of transfer chain.

Description

High-speed roller conveying line

Technical Field

The utility model relates to the technical field of tray conveying lines, in particular to a high-speed roller conveying line.

Background

A conveyor line, which means that each production unit only focuses on the work of processing a certain segment so as to improve the work efficiency and the yield; when the conveying line carries out conveying operation, the placing of materials is realized through the tray, and the automatic conveying of the materials is realized through the conveying of the tray.

At present, a common conveying mode is belt conveying, for example, a prior patent with publication number of CN210418064U discloses a flat belt conveying structure, which comprises a conveying section bar, a flat belt, a driving mechanism and a driven mechanism; the conveying section bars are arranged in a strip shape; the upper part of the conveying section bar is provided with a conveying channel, and the flat belt penetrates through the conveying channel and forms a conveying surface above the conveying section bar; one end of the flat belt is sleeved on the driving mechanism, and the other end of the flat belt is sleeved on the driven mechanism; the driving mechanism is detachably connected with the front end of the conveying section bar, the driven mechanism is detachably connected with the rear end of the conveying section bar, and the driving mechanism drives the flat belt to run.

In the prior art, the conveying of the tray is realized through the belt, slipping is easy to occur between the tray and the belt, and the conveying of the tray is not easy to occur; meanwhile, the driving force of belt conveying is limited, high-speed conveying cannot be met, and the belt conveying deformation is easily caused by the large self weight of the tray, so that conveying operation is influenced.

Disclosure of Invention

The utility model aims to provide a high-speed roller conveying line and aims to solve the problem that in the prior art, the driving force of the conveying line is limited.

The utility model is realized in such a way that the high-speed roller conveying line comprises a section bar seat, a roller module and a driver, wherein the driver is used for providing driving force, and the roller module and the driver are respectively arranged on the section bar seat; the roller module comprises a plurality of first rollers, a first synchronization module, a plurality of second rollers and a second synchronization module, wherein the first rollers are correspondingly arranged along the conveying direction at intervals, the first synchronization module is used for enabling the first rollers to be synchronously driven and arranged, the second rollers are correspondingly arranged along the conveying direction at intervals, the second synchronization module is used for enabling the second rollers to be synchronously driven and arranged, the first rollers and the second rollers are correspondingly arranged one by one, and the first rollers and the second rollers receive driving force and are used for conveying tray members at high speed synchronously.

Further, the driver comprises a driving motor and a synchronizing shaft, two ends of the synchronizing shaft are respectively connected with the first roller and the second roller, and the synchronizing shaft is used for enabling the first roller and the second roller to be synchronously rotated; the driving motor is connected with one of the first rollers, or the driving motor is connected with one of the second rollers.

Further, the first synchronous module comprises a first synchronous belt and a plurality of first synchronous wheels, each first synchronous wheel is correspondingly arranged at intervals along the conveying direction, each first synchronous wheel is correspondingly connected with each first roller in a one-to-one mode, and the first synchronous belt is in transmission connection with each first synchronous wheel.

Further, the outer surface of the first synchronous wheel is in toothed arrangement to form a first toothed ring surface, and the first synchronous belt is in flat-laying and abutting arrangement with the first toothed ring surface.

Further, the first synchronization module comprises a plurality of first fixed wheel groups and a plurality of first tensioning groups, wherein each first fixed wheel group is correspondingly arranged at intervals along the conveying direction, and each first tensioning group is correspondingly arranged at intervals; the first locating wheels are arranged vertically opposite, the first synchronous belt is clamped by the two first locating wheels, the first tensioning group is used for pressing down the first synchronous belt, and the first tensioning group is used for tensioning the first synchronous belt.

Further, the second synchronous module comprises a second synchronous belt and a plurality of second synchronous wheels, each second synchronous wheel is correspondingly arranged at intervals along the conveying direction, the first synchronous belt is correspondingly arranged with the second synchronous belt along the width direction, and the first synchronous wheels are correspondingly arranged with the second synchronous wheels; the second synchronous wheels are in one-to-one correspondence and are connected with the second rollers, and the second synchronous belts are in transmission connection with the second synchronous wheels.

Further, the outer surface of the second synchronous wheel is in toothed arrangement to form a second toothed ring surface, and the second synchronous belt is in flat-laying and abutting arrangement with the second toothed ring surface.

Further, the second synchronization module comprises a plurality of second fixed wheel groups and a plurality of second tensioning groups, wherein each second fixed wheel group is correspondingly arranged at intervals along the conveying direction, and each second tensioning group is correspondingly arranged at intervals; the second fixed wheel group comprises two second locating wheels, the two second locating wheels are vertically and oppositely arranged, the two second locating wheels clamp the second synchronous belt, the second tensioning group is used for pressing down the second synchronous belt, and the second tensioning group is used for tensioning the second synchronous belt.

Further, the profile seat comprises a first profile frame, a second profile frame and a plurality of cross beams, wherein the first profile frame and the second profile frame are respectively arranged in a strip shape along the conveying direction, the cross beams are correspondingly arranged at intervals along the conveying direction, and two ends of the cross beams are respectively connected with the first profile frame and the second profile frame; the first rollers and the first synchronous modules are arranged on the first type frame, and the second rollers and the second synchronous modules are arranged on the second type frame.

Further, the profile seat comprises a first wear-resistant strip and a second wear-resistant strip, the first wear-resistant strip and the second wear-resistant strip are respectively arranged in a strip shape, the first wear-resistant strip is arranged on the first type frame, and the second wear-resistant strip is arranged on the second type frame; the tray piece includes upper supporting plate and tray seat, the upper supporting plate with the tray seat is upper and lower coincide and arranges, the upper supporting plate with the tray seat is integrated into one piece and arranges, first running roller with the second running roller is used for synchronous bearing the tray seat, the both ends of upper supporting plate are contradicted respectively first wear strip and second wear strip.

Compared with the prior art _， When the high-speed roller conveying line provided by the utility model carries out conveying operation, the driver provides driving force to the roller modules, under the action of the first synchronous modules, all the first rollers are arranged in a synchronous rotation mode, and under the action of the second synchronous modules, all the second rollers are arranged in a synchronous rotation mode, so that all the first rollers and all the second rollers are arranged in a synchronous high-speed selection mode, and high-speed conveying of tray pieces is realized; like this, through first running roller and second running roller synchronous conduction driving force, realize synchronous application driving force to tray spare, improve the application of driving force, realize the removal of high-speed drive tray spare, simultaneously, be relatively independent between each first running roller to and be relatively independent between each second running roller, effectively share the weight of tray spare, improve the life of transfer chain.

Drawings

FIG. 1 is a schematic perspective view of a high-speed roller conveyor line provided by the utility model;

FIG. 2 is a schematic front view of the high-speed roller conveyor line provided by the utility model;

FIG. 3 is a schematic perspective view of a high-speed roller conveyor line provided by the utility model;

FIG. 4 is an enlarged schematic view of the portion A of the high-speed roller conveyor line provided by the utility model;

fig. 5 is a schematic partial perspective view of a first synchronization module of the high-speed roller conveyor line provided by the utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The implementation of the present utility model will be described in detail below with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present utility model, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present utility model and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-5, a preferred embodiment of the present utility model is provided.

The high-speed roller conveying line comprises a section bar seat 1, a roller module 3 and a driver 2, wherein the driver 2 is used for providing driving force, and the roller module 3 and the driver 2 are respectively arranged on the section bar seat 1; the roller module 3 includes a plurality of first rollers 31, a first synchronization module 33, a plurality of second rollers 32 and a second synchronization module, each first roller 31 is arranged correspondingly along the conveying direction at intervals, the first synchronization module 33 is used for enabling each first roller 31 to be arranged in a synchronous driving manner, each second roller 32 is arranged correspondingly along the conveying direction at intervals, the second synchronization module is used for enabling each second roller 32 to be arranged in a synchronous driving manner, each first roller 31 is arranged correspondingly to each second roller 32 one by one, and the first rollers 31 and the second rollers 32 receive driving force for synchronizing the high-speed conveying tray 4.

In the above-mentioned high-speed roller conveyor line, when carrying out conveying operation, the driver 2 provides driving force to the roller module 3, under the action of the first synchronous module 33, each first roller 31 is arranged in a synchronous rotation mode, and under the action of the second synchronous module, each second roller 32 is arranged in a synchronous rotation mode, so that each first roller 31 and each second roller 32 are arranged in a synchronous high-speed selection mode, and high-speed conveying of the tray 4 is realized; like this, through first running roller 31 and second running roller 32 synchronous conduction driving force, realize synchronous application driving force to tray spare 4, improve the application of driving force, realize the removal of high-speed drive tray spare 4, simultaneously, be relatively independent between each first running roller 31 to and be relatively independent between each second running roller 32, effectively share tray spare 4's weight, improve the life of transfer chain.

The driver 2 comprises a driving motor and a synchronizing shaft 22, two ends of the synchronizing shaft 22 are respectively connected with a first roller 31 and a second roller 32, and the synchronizing shaft 22 is used for enabling the first roller 31 and the second roller 32 to be synchronously rotated; under the action of the synchronizing shaft 22, the first roller 31 and the second roller 32 synchronously rotate, so that the synchronous output driving force is ensured, uneven stress on two ends of the tray 4 is avoided, and the conveying of the tray 4 is ensured.

The driving motor is connected with one first roller 31, so that driving force is output from the driving motor, is transmitted to the first roller 31 and then is transmitted to the second roller 32, and is matched with the first synchronous module 33 and the second synchronous module, so that the first rollers 31 and the second rollers 32 are synchronously rotated, and the conveying of the tray 4 is ensured.

Or the driving motor is connected with one second roller 32; like this, the driving force is output from driving motor, and the conduction is to second running roller 32, again is conducted to first running roller 31, and cooperates first synchronous module 33 and second synchronous module, realizes that each first running roller 31 and each second running roller 32 are synchronous rotation and arrange, ensures the transportation to tray spare 4.

The first synchronization module 33 includes a first synchronization belt 331 and a plurality of first synchronization wheels 332, each first synchronization wheel 332 is correspondingly arranged at intervals along the conveying direction, each first synchronization wheel 332 is correspondingly arranged with each first roller 31 in a one-to-one correspondence and connection, and the first synchronization belt 331 is in transmission connection with each first synchronization wheel 332.

In this way, the first synchronous belts 331 realize that the first synchronous wheels 332 are arranged in a synchronous rotation manner, so that the first rollers 31 are arranged in a synchronous rotation manner, and further the tray 4 is conveyed.

The outer surface of the first synchronous wheel 332 is arranged in a toothed manner to form a first toothed ring surface, and the first synchronous belt 331 is in flat abutting arrangement with the first toothed ring surface; the advantage of this arrangement is that the cooperation between the first timing belt 331 and the first timing wheel 332 is enhanced, the friction coefficient between the two is also improved, the transmission of the driving force is facilitated, and the slip between the first timing belt 331 and the first timing wheel 332 is avoided.

The first synchronization module 33 includes a plurality of first fixed wheel groups 333 and a plurality of first tensioning groups 334, and each first fixed wheel group 333 is correspondingly arranged at intervals along the conveying direction, and each first tensioning group 334 is correspondingly arranged at intervals; the first positioning wheel set 333 includes two first positioning wheels, the two first positioning wheels are vertically opposite to each other, the two first positioning wheels clamp the first synchronous belt, the first tensioning set 334 is used for pressing down the first synchronous belt, and the first tensioning set 334 is used for tensioning the first synchronous belt.

Under the action of each first timing wheel group 333, the layout of the first timing belt is positioned and set, so that the first timing belt 331 is convenient to synchronously conduct power with each first timing wheel 332; under the action of the first tensioning group 334, the first synchronous belt 331 is tensioned, and power transmission between the first synchronous belt 331 and each first synchronous wheel 332 is guaranteed.

Furthermore, the first tensioning set 334 and the first fixing set 333 have the same structure, and different layout modes are selected according to the setting requirements of the first synchronous belt 331, so as to satisfy different setting requirements.

The second synchronous module comprises a second synchronous belt and a plurality of second synchronous wheels, wherein each second synchronous wheel is correspondingly arranged at intervals along the conveying direction, the first synchronous belt 331 is correspondingly arranged with the second synchronous belt along the width direction, and the first synchronous wheel 332 is correspondingly arranged with the second synchronous wheel; each second synchronizing wheel is in one-to-one correspondence and connected with each second roller 32, and the second synchronizing belt is in transmission connection with each second synchronizing wheel.

In this way, the second synchronous belts realize that the second synchronous wheels are arranged in a synchronous rotation mode, so that the second rollers 32 are arranged in a synchronous rotation mode, and further the tray 4 is conveyed.

Furthermore, the first synchronous belt 331 and the second synchronous belt are arranged in a synchronous driving way, so that each first roller 31 and each second roller 32 are arranged in a synchronous driving way, the driving forces received by the two ends of the tray 4 are more uniform, and the conveying stability of the tray 4 is improved.

The outer surface of the second synchronous wheel is in toothed arrangement to form a second toothed ring surface, and the second synchronous belt is in flat contact with the second toothed ring surface.

The advantage of setting like this lies in, has strengthened the cooperation effect between second synchronous belt and the second synchronizing wheel, also improves the coefficient of friction between the two, and the conduction of the driving force of being convenient for also avoids skidding between second synchronous belt and the second synchronizing wheel.

The second synchronous module comprises a plurality of second fixed wheel groups and a plurality of second tensioning groups, wherein each second fixed wheel group is correspondingly arranged at intervals along the conveying direction, and each second tensioning group is correspondingly arranged at intervals; the second fixed wheel group comprises two second locating wheels which are arranged vertically and opposite to each other, the second synchronous belt is clamped by the two second locating wheels, the second tensioning group is used for pressing down the second synchronous belt, and the second tensioning group is used for tensioning the second synchronous belt.

Under the action of each second timing wheel group, the layout of the second synchronous belt is positioned and set, so that the second synchronous belt is convenient to synchronously conduct power with each second synchronous wheel; under the effect of second tensioning group, realize playing the tensioning effect to the setting of second synchronous belt, ensure the power conduction between second synchronous belt and each second synchronizing wheel.

Furthermore, the second tensioning set and the second fixed wheel set are of the same structure, and different layout modes are selected according to the setting requirements of the second synchronous belt, so that different setting requirements are met.

The profile seat 1 comprises a first profile frame 11, a second profile frame 12 and a plurality of cross beams 13, wherein the first profile frame 11 and the second profile frame 12 are respectively arranged in a strip shape along the conveying direction, the cross beams 13 are correspondingly arranged at intervals along the conveying direction, and two ends of the cross beams 13 are respectively connected with the first profile frame 11 and the second profile frame 12; each first roller 31 and each first synchronization module 33 are mounted on the first mold frame 11, and each second roller 32 and each second synchronization module are mounted on the second mold frame 12.

In this way, under the action of each cross beam 13, the setting stability of the first mold frame 11 and the second mold frame 12 is enhanced, so that the setting of each first roller 31 and each first synchronization module 33 is facilitated, and the setting of each second roller 32 and each second synchronization module is facilitated.

The profile seat 1 comprises a first wear-resistant strip 14 and a second wear-resistant strip, the first wear-resistant strip 14 and the second wear-resistant strip are respectively arranged in a strip shape, the first wear-resistant strip 14 is arranged on the first frame 11, and the second wear-resistant strip is arranged on the second frame 12; the tray 4 comprises an upper supporting plate and a tray seat which are arranged in an up-down overlapping way, the upper supporting plate and the tray seat are arranged in an integrated forming way, the first roller 31 and the second roller 32 are used for synchronously bearing the tray seat, and two ends of the upper supporting plate respectively abut against the first wear-resistant strip 14 and the second wear-resistant strip.

In this way, under the action of the first wear strip 14 and the second wear strip, the wear on the pallet element 4 is reduced, the wear on the first profile frame 11 and the second profile frame 12 is reduced, the service life of the profile seat 1 is improved, and the service life of the pallet element 4 is improved.

The first wear strip 14 and the second wear strip are respectively arranged elastically, so that friction to the tray member 4 is reduced, thereby reducing wear of the tray member 4 and prolonging the service life of the tray member 4.

Furthermore, the first wear-resistant strip 14 is sleeved and fixed on the first frame 11, so that the first wear-resistant strip 14 can be directly replaced, and the first wear-resistant strip 14 and the second wear-resistant strip with serious wear can be replaced conveniently.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The high-speed roller conveying line is characterized by comprising a section bar seat, a roller module and a driver, wherein the driver is used for providing driving force, and the roller module and the driver are respectively arranged on the section bar seat; the roller module comprises a plurality of first rollers, a first synchronization module, a plurality of second rollers and a second synchronization module, wherein the first rollers are correspondingly arranged along the conveying direction at intervals, the first synchronization module is used for enabling the first rollers to be synchronously driven and arranged, the second rollers are correspondingly arranged along the conveying direction at intervals, the second synchronization module is used for enabling the second rollers to be synchronously driven and arranged, the first rollers and the second rollers are correspondingly arranged one by one, and the first rollers and the second rollers receive driving force and are used for conveying tray members at high speed synchronously.

2. The high-speed roller conveyor line according to claim 1, wherein the driver comprises a driving motor and a synchronizing shaft, both ends of the synchronizing shaft are respectively connected with the first roller and the second roller, and the synchronizing shaft is used for enabling the first roller and the second roller to be synchronously rotated; the driving motor is connected with one of the first rollers, or the driving motor is connected with one of the second rollers.

3. The high-speed roller conveyor line according to claim 2, wherein the first synchronization module comprises a first synchronization belt and a plurality of first synchronization wheels, each first synchronization wheel is correspondingly arranged at intervals along the conveying direction, each first synchronization wheel is correspondingly and connected with each first roller, and the first synchronization belt is in transmission connection with each first synchronization wheel.

4. A high speed roller conveyor line as in claim 3 wherein the outer surface of the first synchronizing wheel is toothed to form a first toothed annulus and the first synchronizing belt is in flat abutting arrangement with the first toothed annulus.

5. The high-speed roller conveyor line according to claim 3, wherein the first synchronization module comprises a plurality of first fixed wheel groups and a plurality of first tensioning groups, each of the first fixed wheel groups is arranged in a corresponding manner at intervals along the conveying direction, and each of the first tensioning groups is arranged in a corresponding manner at intervals; the first locating wheels are arranged vertically opposite, the first synchronous belt is clamped by the two first locating wheels, the first tensioning group is used for pressing down the first synchronous belt, and the first tensioning group is used for tensioning the first synchronous belt.

6. The high-speed roller conveyor line according to any one of claims 3 to 5, wherein the second synchronizing module includes a second synchronizing belt and a plurality of second synchronizing wheels, each of the second synchronizing wheels being arranged in a spaced correspondence along a conveying direction, the first synchronizing belt being arranged in a correspondence with the second synchronizing belt, and the first synchronizing wheel being arranged in a correspondence with the second synchronizing wheel along a width direction; the second synchronous wheels are in one-to-one correspondence and are connected with the second rollers, and the second synchronous belts are in transmission connection with the second synchronous wheels.

7. The high-speed roller conveyor line according to claim 6, wherein the outer surface of the second synchronizing wheel is arranged in a toothed shape to form a second toothed ring surface, and the second synchronizing belt is in flat abutting arrangement with the second toothed ring surface.

8. The high-speed roller conveyor line according to claim 6, wherein the second synchronization module comprises a plurality of second fixed wheel groups and a plurality of second tensioning groups, each second fixed wheel group is arranged in a corresponding manner at intervals along the conveying direction, and each second tensioning group is arranged in a corresponding manner at intervals; the second fixed wheel group comprises two second locating wheels, the two second locating wheels are vertically and oppositely arranged, the two second locating wheels clamp the second synchronous belt, the second tensioning group is used for pressing down the second synchronous belt, and the second tensioning group is used for tensioning the second synchronous belt.

9. The high-speed roller conveyor line according to any one of claims 1 to 5, wherein the profile seat comprises a first profile frame, a second profile frame and a plurality of cross beams, the first profile frame and the second profile frame are respectively arranged in a strip shape along a conveying direction, the cross beams are respectively arranged at intervals and correspondingly along the conveying direction, and two ends of the cross beams are respectively connected with the first profile frame and the second profile frame; the first rollers and the first synchronous modules are arranged on the first type frame, and the second rollers and the second synchronous modules are arranged on the second type frame.

10. The high-speed roller conveyor line according to claim 9, wherein the profile base comprises a first wear strip and a second wear strip, the first wear strip and the second wear strip being respectively arranged in a strip shape, the first wear strip being mounted on the first profile frame, the second wear strip being mounted on the second profile frame; the tray piece includes upper supporting plate and tray seat, the upper supporting plate with the tray seat is upper and lower coincide and arranges, the upper supporting plate with the tray seat is integrated into one piece and arranges, first running roller with the second running roller is used for synchronous bearing the tray seat, the both ends of upper supporting plate are contradicted respectively first wear strip and second wear strip.