CN216036868U - Conveying steering device for container - Google Patents

Abstract

The utility model discloses a conveying and steering device for containers, which comprises a mounting seat, a first rotating shaft, a conveying star wheel, a retainer ring, a bearing disc, a bearing assembly, a gear piece, a toothed belt piece and a driving mechanism, wherein the first rotating shaft can rotate around a first axis and is arranged in the mounting seat, the conveying star wheel is arranged on the first rotating shaft and is used for conveying the containers, the retainer ring is arranged on the outer side of the conveying star wheel in a surrounding mode, the bearing disc is arranged on the first rotating shaft and is positioned below the conveying star wheel, the bearing assembly can rotate around a second axis and is arranged on the bearing disc and is used for bearing the containers, the gear piece is connected to the bearing assembly and can synchronously rotate around the second axis, the toothed belt piece is meshed with the gear piece and is arranged on the outer side of the gear piece in a surrounding mode, and the driving mechanism is used for driving the toothed belt piece to transmit. When the bottle feeding angle required by the subsequent process is changed, the bottle discharging angle of the container can be changed only by adjusting the transmission speed of the toothed belt piece through the driving mechanism or changing the toothed belt piece with different shapes to change the meshing length between the toothed belt piece and the gear piece.

Description

Conveying steering device for container

Technical Field

The utility model relates to the technical field of bottle blowing, in particular to a conveying and steering device for containers.

Background

Along with the increasingly fierce competition of the beverage industry, the difference of the beverage containers is larger and larger, wherein the beverage containers also comprise a rectangular container, the two adjacent sides have different lengths, and an angle exists between the bottle outlet direction and the bottle inlet direction of the subsequent process, so that the difficulty is increased for the subsequent processing.

In the prior art, when a rectangular container is conveyed, the rotation of the rectangular container is controlled by a cam mechanism, so that the bottle outlet direction of the rectangular container is consistent with the bottle inlet direction of the subsequent process. The steering device has a complex structure, the cam is difficult to process, and the angle of the cam mechanism for controlling the rectangular container to rotate is limited; meanwhile, when the bottle feeding angle required by the subsequent process is changed, the cam mechanism needs to be reset, and the processing cost and the debugging difficulty are high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a conveying steering device for containers, which has a simple structure and can realize steering of the containers in the conveying process.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides a conveying turns to device for container, includes the mount pad, can locate around first axial lead pivoted first pivot in the mount pad, locate on the first pivot and be used for conveying the container conveying star gear, ring locate conveying star gear outside the protective shroud, locate on the first pivot and be located conveying star gear below hold the dish, can locate around second axial lead pivoted hold the dish on and be used for bearing the weight of the carrier assembly of container, connection just can wind in step on the carrier assembly second axial lead pivoted gear spare, with the gear spare meshing just encircles the tooth belt spare of locating its outside, is used for the drive the driven actuating mechanism of tooth belt spare.

Preferably, the bearing assembly comprises a second rotating shaft which is arranged on the bearing plate and can rotate around the second axis, and a bearing seat which is connected to the second rotating shaft and is used for bearing the container.

More preferably, the gear member is sleeved on the second rotating shaft.

More preferably, the second rotating shaft penetrates through the bearing disc along the second axial line, and the bearing seat and the gear piece are respectively arranged at the upper side and the lower side of the bearing disc.

Preferably, the toothed belt member is circular arc shaped.

Preferably, the gear piece is detachably arranged on the outer side of the gear piece.

Preferably, the bearing assemblies are provided with a plurality of groups, the bearing assemblies are arranged on the bearing disc at intervals and uniformly along the circumferential direction, and the surrounding centers of the plurality of groups of bearing assemblies are positioned on the first axis.

Preferably, the first axes are parallel to the second axes and each extend in a vertical direction.

Preferably, the drive mechanism is a drive motor.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages: the conveying and steering device for the container is simple in structure, can realize steering of the container in the conveying process, and enables the container to rotate by a larger angle through mutual matching of the toothed belt piece and the gear piece; when the bottle feeding angle required by the subsequent process is changed, the bottle discharging angle of the container can be changed only by adjusting the transmission speed of the toothed belt piece through the driving mechanism or changing the toothed belt pieces in different shapes to change the meshing length between the toothed belt pieces and the gear piece.

Drawings

FIG. 1 is a top view of a transfer diverter according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view along line AA of FIG. 1;

fig. 3 is a cross-sectional view taken along line BB of fig. 2.

Wherein: 1. a mounting seat; 2. a first rotating shaft; 3. a transfer starwheel; 4. a retainer; 5. a carrier tray; 6. a load bearing assembly; 61. a second rotating shaft; 62. a bearing seat; 7. a gear member; 8. a toothed belt member; 9. a container.

Detailed Description

The technical solution of the present invention is further explained below with reference to the specific embodiments and the accompanying drawings.

Referring to fig. 1-3, the present embodiment provides a conveying and steering apparatus for containers, which includes a mounting base 1, a first rotating shaft 2 penetrating through the mounting base 1 and capable of rotating around a first axis, a conveying star wheel 3 disposed on the first rotating shaft 2 and used for conveying containers 9, and a retainer 4 annularly disposed outside the conveying star wheel 3. In the present embodiment, the container 9 is a rectangular container having a rectangular cross section.

The first axis is the axis of the first rotating shaft 2 and extends in the vertical direction. 2 tops of first pivot are located to conveying star gear 3, and conveying star gear 3 edge sets up a plurality of breachs that are used for bearing 9 necks along the evenly arranged breach of circumferencial direction interval, blocks through outside protective shroud 4 to prevent that container 9 from outwards dropping from this breach, protective shroud 4 is used for cooperation conveying star gear 3 along circumferencial direction conveying container 9, and the both ends of protective shroud 4 are container entry and container export respectively.

The conveying and steering device for the containers further comprises a bearing disc 5 which is arranged on the first rotating shaft 2 and is positioned below the conveying star wheel 3, and a bearing assembly 6 which is arranged on the bearing disc 5 and can rotate around a second axis and is used for bearing the containers 9.

The bearing disc 5 is arranged on the first rotating shaft 2 and rotates synchronously with the transmission star wheel 3 above. By means of the rotation of the bearing assembly 6, the container 9 can revolve around the first axis and rotate around the second axis.

The conveying and steering device for the containers further comprises a gear member 7 connected to the bearing assembly 6 and capable of synchronously rotating around a second axis, a toothed belt member 8 engaged with the gear member 7 and annularly arranged on the outer side of the gear member, and a driving mechanism (not shown in the figure) for driving the toothed belt member 8 to drive. In this embodiment, the drive mechanism is a drive motor.

Referring to fig. 2, the carrier assembly 6 includes a second shaft 61 rotatably disposed around a second axis and penetrating through the carrier tray 5, and a carrier base 62 connected to the second shaft 61 and used for carrying the container 9. The second axis is the axis of the second rotating shaft 61 and extends in the vertical direction, i.e. parallel to the first axis. The gear member 7 is sleeved on the second rotating shaft 61 and rotates synchronously with the second rotating shaft 61.

The part of the toothed belt member 8 for engaging the gear member 7 is circular arc-shaped, and the shape of the rest part can be set as required. The whole of the gear piece 8 is closed, the whole transmission is realized through the driving motor, and the gear piece 8 is detachably arranged on the outer side of the gear piece 7.

The container 9 can rotate through a larger angle through the mutual matching of the gear piece 8 and the gear piece 7; when the bottle feeding angle required by the subsequent process is changed, the bottle discharging angle of the container 9 can be changed only by adjusting the transmission speed of the toothed belt member 8 through the driving motor or changing the toothed belt members 8 in different shapes to change the meshing length between the toothed belt members and the gear member 7.

In the same case, the faster the transmission speed of the gear member 8, the larger the angle through which the gear member 7 rotates; the longer the length of engagement of the gear member 8 with the gear member 7, the greater the angle through which the gear member 7 rotates. By adjusting the transmission speed of the toothed belt member 8 and/or the meshing length of the toothed belt member 8 and the gear member 7, the angle through which the container 9 rotates is correspondingly adjusted.

In the actual steering process, after the gear member 7 and the toothed belt member 8 are disengaged from each other, the container 9 inevitably continues to rotate by an angle under the action of inertia, and only a limiting member (not shown in the figure) is required to be arranged at the disengaged position to limit the container 9 to rotate.

Referring to fig. 2, the second shaft 61 penetrates the carrier plate 5 along the second axis (i.e. the vertical direction in fig. 2), and the carrier base 62 and the gear member 7 are respectively disposed on the upper and lower sides of the carrier plate 5. The carrier 62 comprises a bottom for abutting against the container 9 and a side having an opening for removing the container 9.

Referring to fig. 1 and 3, the plurality of sets of bearing assemblies 6 are provided, the plurality of sets of bearing assemblies 6 are annularly and uniformly arranged on the bearing disc 5 at intervals along the circumferential direction, and the surrounding centers of the plurality of sets of bearing assemblies 6 are located on the first axis. Correspondingly, the number of the gear pieces 7 is multiple, the gear pieces 7 are uniformly arranged at intervals along the circumferential direction, and the surrounding centers of the gear pieces 7 are also located on the first axis.

The following specifically explains the working process of this embodiment:

during the revolution of the container 9 with the transfer star 3, when the lower gear element 7 rotates into engagement with the toothed belt 8, the container 9 rotates synchronously until the lower gear element 7 disengages from the toothed belt 8. The transmission speed of the gear belt 8 and the meshing length of the gear belt 8 and the gear member 7 are controlled to control the rotation angle of the container 9, so that the bottle outlet direction can be consistent with the bottle inlet direction of the subsequent process.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (9)

1. The utility model provides a conveying turns to device for container, includes the mount pad, can locate around first axial lead pivoted first pivot in the mount pad, locate just be used for conveying the container on the first pivot conveying star gear, the ring is located the protective shroud in the conveying star gear outside, its characterized in that: the conveying steering device further comprises a bearing disc arranged on the first rotating shaft and located below the conveying star wheel, a bearing assembly arranged on the bearing disc and used for bearing the container, a gear piece connected to the bearing assembly and capable of synchronously rotating around the second axial line, a toothed belt piece meshed with the gear piece and annularly arranged on the outer side of the gear piece, and a driving mechanism used for driving the toothed belt piece to drive.

2. A transfer steering apparatus for containers according to claim 1, wherein: the bearing assembly comprises a second rotating shaft which can rotate around the second axis and is arranged on the bearing disc, and a bearing seat which is connected to the second rotating shaft and is used for bearing the container.

3. A transfer steering apparatus for containers according to claim 2, wherein: the gear piece is sleeved on the second rotating shaft.

4. A transfer steering apparatus for containers according to claim 2, wherein: the second rotating shaft penetrates through the bearing disc along the second axial line, and the bearing seat and the gear piece are respectively arranged on the upper side and the lower side of the bearing disc.

5. A transfer steering apparatus for containers according to claim 1, wherein: the toothed belt piece is arc-shaped.

6. A transfer steering apparatus for containers according to claim 1, wherein: the gear piece is detachably arranged on the outer side of the gear piece.

7. A transfer steering apparatus for containers according to claim 1, wherein: the bearing components are provided with a plurality of groups, the rings which are uniformly arranged at intervals along the circumferential direction are arranged on the bearing disc, and the surrounding centers of the plurality of groups of bearing components are positioned on the first axis.

8. A transfer steering apparatus for containers according to claim 1, wherein: the first axis is parallel to the second axis and extends in a vertical direction.

9. A transfer steering apparatus for containers according to claim 1, wherein: the driving mechanism is a driving motor.

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