Opposite angle paper box enclasping mechanism
Technical Field
The utility model relates to the technical field of paper box forming, in particular to a diagonal paper box holding mechanism.
Background
Along with the gradual improvement of the living standard of people, the users have high requirements on the appearance design of the gift boxes, and the market space customized by the gift boxes is wider. In order to grasp eyeballs of consumers instantly, the existing gift box generally coats an exquisite wrapping paper layer on the surface of the box body, and during specific production, the wrapping paper layer is generally pasted on the joint surface of the wrapping paper, then the paper box is placed on the wrapping paper, the folding edge plate is used for pushing and folding edges, so that the wrapping paper is attached to the surface of the paper box, and certain defects exist in the structural design, such as the fact that the width of the gift box is quite narrow and is not easy to fold edges when the gift box is produced, and the joint of the corner of the gift box and the wrapping paper is often not close enough due to adoption of a folding edge mode, and the defects of bubble generation and the like can occur, so that improvement is needed.
Disclosure of Invention
Aiming at the defects existing in the prior art, the utility model aims to provide a diagonal paper box holding mechanism.
In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a mechanism is held tightly to diagonal carton, its includes two Y axle assembly jig that set up respectively in external frame and be relative bilateral symmetry setting, and the both ends are equipped with the diagonal angle thrust device that is used for bulldozing the corner of carton respectively about every Y axle assembly jig, and four diagonal angles thrust device are square distribution setting around external carton carrier seat respectively.
In a further technical scheme, the diagonal pushing device comprises a pushing cylinder, a pushing angle seat and a pushing angle piece, wherein the pushing cylinder is connected with a connecting seat of a Y-axis assembly frame, the pushing angle seat is arranged on the connecting seat, the driving end of the pushing angle seat is connected with the output end of the pushing cylinder, the pushing angle piece is arranged on the pushing angle seat, and the pushing angle piece is provided with a right-angle pushing groove for abutting against the corner of the paper box.
In a further technical scheme, the angle pushing seat is formed with a wedge-shaped groove, the angle pushing piece is assembled in the wedge-shaped groove of the angle pushing seat, and the angle pushing piece and the angle pushing seat are fixedly assembled through a plurality of locking pieces.
In a further technical scheme, the top of pushing away the angle seat is fixedly equipped with Z axle base, and Z axle base installs Z axle drive and drive connection in Z axle driven Z axle slider, and the gliding left and right sides of Z axle is provided with a supporting link respectively, and the supporting link is equipped with a supporting legs that is vertical extension.
In a further technical scheme, the bottom of the supporting leg is provided with a suction disc piece.
In a further technical scheme, the corner pushing seat is formed with an avoidance groove which is arranged in a penetrating manner, and the avoidance groove is used for assembling the Z-axis sliding block.
In a further technical scheme, each Y-axis assembly frame is provided with a Y-axis drive at a position corresponding to each diagonal pushing device, and each Y-axis drive is used for driving the corresponding diagonal pushing device to slide along the Y-axis so as to enable the diagonal pushing device to be close to or far away from an external paper box bearing seat.
In a further technical scheme, the Y-axis drive comprises a Y-axis drive base fixedly mounted on the Y-axis assembly frame, a Y-axis drive motor fixedly mounted on the Y-axis drive base, a Y-axis screw rod connected with the Y-axis drive motor in a driving manner, and a Y-axis nut connected with the Y-axis screw rod in a driving manner, and the diagonal pushing device is fixedly mounted on the Y-axis nut.
By adopting the structure, compared with the prior art, the utility model has the following advantages:
according to the utility model, four opposite angles of the paper box are respectively pushed by the four opposite angle pushing devices which are distributed in a square manner, so that the planar packaging paper is completely attached to the side wall of the paper box, the device is very suitable for producing and assembling the narrow-width gift box, bubbles between the packaging paper and the paper box can be removed in the pushing step, the attaching degree of the packaging paper and the paper box is higher, wrinkles are avoided, and the practicability is good.
Drawings
The utility model will be further described with reference to the drawings and examples.
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a schematic view of a single Y-axis mounting bracket for mounting two diagonal pushing devices;
FIG. 3 is a schematic view of a diagonal pushing device;
fig. 4 is a schematic exploded view of the diagonal pressing device.
Detailed Description
The following are only preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model.
As shown in fig. 1 to 4, the diagonal paper box holding mechanism provided by the utility model comprises two Y-axis assembling frames 10 respectively erected on an external frame and symmetrically arranged relative to the left and right, the left and right ends of each Y-axis assembling frame 10 are respectively provided with a diagonal pushing device 11 for pushing corners of a paper box 01, and the four diagonal pushing devices 11 are respectively arranged in square distribution around an external paper box bearing seat.
During operation, the paper box 01 externally attached with the packaging paper is born on the paper box bearing seat in advance, four opposite angles of the paper box 01 are respectively pushed by the four opposite angle pushing devices 11, so that the planar packaging paper is completely attached to the side wall of the paper box, the packaging paper box is very suitable for being used for producing and assembling the narrow-width gift boxes, bubbles between the packaging paper and the paper box can be removed through pushing the packaging paper box, the attaching degree of the packaging paper and the paper box is higher, wrinkles cannot occur, and the packaging paper box is good in practicability.
In this embodiment, the diagonal pushing device 11 includes a pushing cylinder 111 connected to the connecting seat 110 of the Y-axis assembly frame 10 and mounted on the connecting seat, a pushing corner seat 112 driving the output end of the pushing cylinder 111, and a pushing corner piece 113 mounted on the pushing corner seat 112, where the pushing corner piece 113 has a right-angle pushing slot 1130 for abutting against a corner of the paper box 01, and the pushing cylinder 111 pushes the pushing corner seat 112 horizontally, so that the corner of the paper box is blocked in the right-angle pushing slot 1130 of the pushing corner piece 113. Specifically, the pushing cylinder 111 is disposed obliquely with respect to the central axis of the paper box 01, that is, the action direction of the pushing cylinder 111 has a certain angle with the central axis of the paper box 01.
In a more specific technical solution, the upper portion of the corner pushing member 113 is bent to form an arc-shaped guiding portion, and the arc-shaped guiding portion is mainly used for guiding the packaging paper, so as to avoid scratching the packaging paper.
In this embodiment, the corner pushing seat 112 is formed with a wedge-shaped groove 1120, the corner pushing member 113 is assembled in the wedge-shaped groove 1120 of the corner pushing seat 112, and the corner pushing member 113 and the corner pushing seat 112 are fixedly assembled by a plurality of locking members, so that the corner pushing seat 112 is arranged to facilitate the assembly and replacement of the corner pushing member 113.
In this embodiment, a Z-axis base 114 is fixedly mounted above the angle pushing seat 112, a Z-axis driving unit 115 and a Z-axis sliding block 116 drivingly connected to the Z-axis driving unit 115 are mounted on the Z-axis base 114, and a support link 117 is disposed on each of left and right sides of the Z-axis sliding unit, and the support link 117 is provided with a support leg 118 extending longitudinally. Specifically, when pushing, the Z-axis driving device 115 drives the support link 117 to slide downwards through the Z-axis sliding block 116, so that the support leg 118 provided on the support link 117 supports the external paper box bearing seat, which plays a role in preliminary positioning, preventing the pushing angle from shaking, and preferably, the bottom of the support leg 118 is provided with the suction disc 119.
Specifically, the corner pushing seat 112 is formed with a through-arranged avoiding groove 1121, and the avoiding groove 1121 is used for assembling the Z-axis slide block 116.
More specifically, each of the Y-axis assembling frames 10 is provided with a Y-axis drive 12 at a position corresponding to each diagonal pushing device 11, each Y-axis drive 12 is used for driving the corresponding diagonal pushing device 11 to slide along the Y-axis so as to make the diagonal pushing device 11 approach or separate from an external carton carrier, and when in operation, the Y-axis drive 12 drives the diagonal pushing device 11 to slide along the Y-axis from a far end and approach the carton carrier.
In this embodiment, the Y-axis drive 12 includes a Y-axis drive base 120 fixedly mounted on the Y-axis assembly frame 10, a Y-axis drive motor 121 fixedly mounted on the Y-axis drive base 120, a Y-axis screw 122 drivingly connected to the Y-axis drive motor 121, and a Y-axis nut 123 drivingly connected to the Y-axis screw 122, and the diagonal pressing device 11 is fixedly mounted on the Y-axis nut 123, so that the translational stability can be effectively ensured by using a structure in which a screw and a nut are used in combination.
The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.